From 2cbffc5b71c88fd858b654335731ea72fd80220c Mon Sep 17 00:00:00 2001 From: "stark, steven" Date: Tue, 26 Jun 2018 13:34:59 -0700 Subject: [VNFRQTS] break up larger rst files into toxtree Broke all chapter files up so they follow the same patter Change-Id: I8a2152b92f0568cf4858615054bb66fabf0ea343 Issue-ID: VNFRQTS-253 Signed-off-by: stark, steven --- docs/Chapter8.rst | 4473 ----------------------------------------------------- 1 file changed, 4473 deletions(-) delete mode 100644 docs/Chapter8.rst (limited to 'docs/Chapter8.rst') diff --git a/docs/Chapter8.rst b/docs/Chapter8.rst deleted file mode 100644 index cbb0107..0000000 --- a/docs/Chapter8.rst +++ /dev/null @@ -1,4473 +0,0 @@ -.. This work is 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. - - -Appendix -======== - -Chef JSON Key Value Description -------------------------------------- - -The following provides the key value pairs that must be contained in the -JSON file supporting Chef action. - -Table A1. Chef JSON File key value description -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -+----------------+--------------------------+---------+----------------------+ -| **Field Name** | **Description** | **Type**| **Comment** | -+================+==========================+=========+======================+ -| Environment | A JSON dictionary | Optional|Depends on VNF action.| -| | representing a Chef | | | -| | Environment object. If | | | -| | the VNF action requires | | | -| | loading or modifying Chef| | | -| | environment attributes | | | -| | associated with the VNF, | | | -| | all the relevant | | | -| | information must be | | | -| | provided in this JSON | | | -| | dictionary in a structure| | | -| | that conforms to a Chef | | | -| | Environment Object. | | | -+----------------+--------------------------+---------+----------------------+ -| Node | A JSON dictionary |Mandatory| | -| | representing a Chef Node | | | -| | Object. | | | -| | | | | -| | The Node JSON dictionary | | | -| | must include the run list| | | -| | to be triggered for the | | | -| | desired VNF action by the| | | -| | push job. It should also | | | -| | include any attributes | | | -| | that need to be | | | -| | configured on the Node | | | -| | Object as part of the VNF| | | -| | action. | | | -+----------------+--------------------------+---------+----------------------+ -| NodeList | Array of FQDNs that |Mandatory| | -| | correspond to the | | | -| | endpoints (VMs) of a VNF | | | -| | registered with the Chef | | | -| | Server that need to | | | -| | trigger a chef-client run| | | -| | as part of the desired | | | -| | VNF action. | | | -+----------------+--------------------------+---------+----------------------+ -| PushJobFlag | This field indicates |Mandatory| If set to “True”, | -| | whether the VNF action | | ONAP will request a | -| | requires a push Job. Push| | push job. Ignored | -| | job object will be | | otherwise. | -| | created by ONAP if | | | -| | required. | | | -+----------------+--------------------------+---------+----------------------+ -| CallbackCapable| This field indicates if | Optional| If Chef cookbook is | -| | the chef-client run | | callback capable, VNF| -| | invoked by push job | | owner is required to | -| | corresponding to the VNF | | set it to “True”. | -| | action is capable of | | Ignored otherwise. | -| | posting results on a | | | -| | callback URL. | | | -+----------------+--------------------------+---------+----------------------+ -| GetOutputFlag | Flag which indicates |Mandatory| ONAP will retrieve | -| | whether ONAP should | | output from | -| | retrieve output generated| | NodeObject attributes| -| | in a chef-client run from| | [‘PushJobOutput’] for| -| | Node object attribute | | all nodes in NodeList| -| | node[‘PushJobOutput’] for| | if set to “True”. | -| | this VNF action (e.g., in| | Ignored otherwise. | -| | Audit). | | | -+----------------+--------------------------+---------+----------------------+ - -Chef Template example: - -.. code-block:: chef - - “Environment”:{ - "name": "HAR", - "description": "VNF Chef environment for HAR", - "json\_class": "Chef::Environment", - "chef\_type": "environment", - "default\_attributes": { }, - "override\_attributes": { - “Retry\_Time”:”50”, - “MemCache”: “1024”, - “Database\_IP”:”10.10.1.5” - }, - } - } - “Node”: { - “name” : “signal.network.com “ - "chef\_type": "node", - "json\_class": "Chef::Node", - "attributes": { - “IPAddress1”: “192.168.1.2”, - “IPAddress2”:”135.16.162.5”, - “MyRole”:”BE” - }, - "override": {}, - "default": {}, - “normal”:{}, - “automatic”:{}, - “chef\_environment” : “\_default” - "run\_list": [ "configure\_signal" ] - }, - “NodeList”:[“node1.vnf\_a.onap.com”, “node2.vnf\_a.onap.com”], - “PushJobFlag”: “True” - “CallbackCapable”:True - “GetOutputFlag” : “False” - } - -The example JSON file provided by the VNF provider for each VNF action will be -turned into a template by ONAP, that can be updated with instance -specific values at run-time. - -Some points worth noting regarding the JSON fields: - -a. The JSON file must be created for each action for each VNF. - -b. If a VNF action involves multiple endpoints (VMs) of a VNF, ONAP will - replicate the “Node” JSON dictionary in the template and post it to - each FQDN (i.e., endpoint) in the NodeList after setting the “name” - field in the Node object to be the respective FQDN [1]_. Hence, it - is required that all end points (VMs) of a VNF involved in a VNF - action support the same set of Node Object attributes. - -The following table describes the JSON dictionary to post in Callback. - -Table A2. JSON Dictionary to Post in Callback -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -+--------------+----------------------------+---------+-----------------------+ -| **Key** | **Description** | **Type**| **Comment** | -+==============+============================+=========+=======================+ -| RequestId | A unique string associated |Mandatory| | -| | with the original request | | | -| | by ONAP. This key-value | | | -| | pair will be provided by | | | -| | ONAP in the environment of | | | -| | the push job request and | | | -| | must be returned as part of| | | -| | the POST message. | | | -+--------------+----------------------------+---------+-----------------------+ -| StatusCode | An integer that must be set|Mandatory| | -| | to 200 if chef-client run | | | -| | on the node finished | | | -| | successfully 500 otherwise.| | | -+--------------+----------------------------+---------+-----------------------+ -| StatusMessage| A string which must be set |Mandatory| | -| | to ‘SUCCESS’ if StatusCode | | | -| | was 200 | | | -| | | | | -| | Appropriate error message | | | -| | otherwise. | | | -+--------------+----------------------------+---------+-----------------------+ -| Name | A string which corresponds |Mandatory| | -| | to the name of the node | | | -| | where push job is run. It | | | -| | is required that the value | | | -| | be retrieved from the node | | | -| | object attributes (where it| | | -| | is always defined). | | | -+--------------+----------------------------+---------+-----------------------+ -| PushJobOutput| Any output from the |Optional | Depends on VNF action.| -| | chef-client run that needs | | If empty, it must not | -| | to be returned to ONAP. | | be included. | -+--------------+----------------------------+---------+-----------------------+ - -Ansible JSON Key Value Description -------------------------------------------------------------- - -The following provides the key value pairs that must be contained in the -JSON file supporting Ansible action. - -Table B1. Ansible JSON File key value description -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -+---------------+----------------------+---------+----------------------------+ -| **Field Name**| **Description** | **Type**| **Comment** | -+===============+======================+=========+============================+ -| PlaybookName | VNF providor must |Mandatory|Currently following | -| | list name of the | |Ansible standard | -| | playbook relative | |naming, where main | -| | path used to | |playbook is always | -| | execute the VNF | |named site.yml, and | -| | action. | |directory name where | -| | | |this main playbook resides, | -| | | |is named after the | -| | | |command/action playbook | -| | | |performs, in lower case, | -| | | |example, configure. | -+---------------+----------------------+---------+----------------------------+ -| Action | Name of VNF action. | Optional| | -+---------------+----------------------+---------+----------------------------+ -| EnvParameters | A JSON dictionary | Optional|Depends on the VNF action. | -| | which should list key| | | -| | value pairs to be | |Attribute names (variable | -| | passed to the Ansible| |names) passed to Ansible | -| | playbook. These | |shall follow Ansible valid | -| | values would | |variable names: “Variable | -| | correspond to | |names should be letters, | -| | instance specific | |numbers, and underscores. | -| | parameters that a | |Variables should always | -| | playbook may need to | |start with a letter.” | -| | execute an action. | | | -+---------------+----------------------+---------+----------------------------+ -| NodeList |Ansible inventory | Optional|If not provided, pre-loaded | -| |hosts file with | |(VNF) inventory hosts | -| |VNF groups and | |file must exist in the | -| |respective IP | |Ansible Server otherwise | -| |addresses or DNS | |request fails. | -| |supported FQDNs | | | -| |that the playbook must| | | -| |be executed against. | | | -+---------------+----------------------+---------+----------------------------+ -| FileParameters| A JSON dictionary | Optional| Depends on the VNF action | -| | where keys are | | and playbook design. | -| | filenames and values | | | -| | are contents of | | | -| | files. The Ansible | | | -| | Server will utilize | | | -| | this feature to | | | -| | generate files with | | | -| | keys as filenames and| | | -| | values as content. | | | -| | This attribute can be| | | -| | used to generate | | | -| | files that a playbook| | | -| | may require as part | | | -| | of execution. | | | -+---------------+----------------------+---------+----------------------------+ -| Timeout | Time (in seconds) | Optional| | -| | that a playbook is | | | -| | expected to take to | | | -| | finish execution for | | | -| | the VNF. If playbook | | | -| | execution time | | | -| | exceeds this value, | | | -| | Ansible Server will | | | -| | terminate the | | | -| | playbook process. | | | -+---------------+----------------------+---------+----------------------------+ - -Ansible JSON file example: - -{ - - “Action”:”Configure”, - - "PlaybookName": "//ansible/configure/site.yml", - - "NodeList": ["test1.vnf\_b.onap.com", “test2.vnf\_b.onap.com”], - - "Timeout": 60, - - "EnvParameters": {"Retry": 3, "Wait": 5, “ConfigFile”:”config.txt”}, - - “FileParameters”:{“config.txt”:”db\_ip=10.1.1.1, sip\_timer=10000”} - -} - -In the above example, the Ansible Server will: - -a. Process the “FileParameters” dictionary and generate a file named - ‘config.txt’ with contents set to the value of the ‘config.txt’ key. - -b. Execute the playbook named ‘//ansible/configure/site.yml’ - on nodes with FQDNs test1.vnf\_b.onap.com and test2.vnf\_b.onap.com - respectively while providing the following key value pairs to the playbook: - Retry=3, Wait=5, ConfigFile=config.txt - - -c. If execution time of the playbook exceeds 60 secs (across all hosts), - it will be terminated. - -VNF License Information Guidelines ------------------------------------------------------------- - -This Appendix describes the metadata to be supplied for VNF licenses. - -1. General Information - -Table C1 defines the required and optional fields for licenses. - -Table C1. Required Fields for General Information -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -+---------------+-----------------------------------+--------------+----------+ -| **Field Name**| **Description** | **Data Type**| **Type** | -+===============+===================================+==============+==========+ -| VNF Provider | The name of the VNF provider. | String | Mandatory| -| Name | | | | -+---------------+-----------------------------------+--------------+----------+ -| VNF Provider | The name of the product to which | String | Mandatory| -| Product | this agreement applies. | | | -| | | | | -| | Note: a contract/agreement may | | | -| | apply to more than one VNF | | | -| | provider product. In that case, | | | -| | provide the metadata for each | | | -| | product separately. | | | -+---------------+-----------------------------------+--------------+----------+ -| VNF Provider | A general description of VNF | String | Optional | -| Product | provider software product. | | | -| Description | | | | -+---------------+-----------------------------------+--------------+----------+ -| Export Control| ECCNs are 5-character | String | Mandatory| -| Classification| alpha-numeric designations used on| | | -| Number (ECCN) | the Commerce Control List (CCL) to| | | -| | identify dual-use items for export| | | -| | control purposes. An ECCN | | | -| | categorizes items based on the | | | -| | nature of the product, i.e. type | | | -| | of commodity, software, or | | | -| | technology and its respective | | | -| | technical parameters. | | | -+---------------+-----------------------------------+--------------+----------+ -| Reporting | A list of any reporting | List of | Optional | -| Requirements | requirements on the usage of the | strings | | -| | software product. | | | -+---------------+-----------------------------------+--------------+----------+ - -1. Entitlements - -Entitlements describe software license use rights. The use rights may be -quantified by various metrics: # users, # software instances, # units. -The use rights may be limited by various criteria: location (physical or -logical), type of customer, type of device, time, etc. - -One or more entitlements can be defined; each one consists of the -following fields: - -Table C2. Required Fields for Entitlements -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -+---------------+-----------------------------------+-------------+-----------+ -| **Field Name**| **Description** |**Data Type**| **Type** | -+===============+===================================+=============+===========+ -| VNF Provider | Identifier for the entitlement as | String | Mandatory | -| Part Number / | described by the VNF provider in | | | -| Manufacture | their price list / catalog / | | | -| Reference | contract. | | | -| Number | | | | -+---------------+-----------------------------------+-------------+-----------+ -| Description | Verbiage that describes the | String | Optional | -| | entitlement | | | -+---------------+-----------------------------------+-------------+-----------+ -| Entitlement | Each entitlement defined must be | String | Mandatory | -| Identifier | identified by a unique value (e.g.| | | -| | numbered 1, 2, 3….) | | | -+---------------+-----------------------------------+-------------+-----------+ -| Minimum Order | The minimum number of entitlements| Number | Mandatory | -| Requirement | that need to be purchased. | | | -| | For example, the entitlements must| | | -| | be purchased in a block of 100. If| | | -| | no minimum is required, the value | | | -| | will be zero. | | | -+---------------+-----------------------------------+-------------+-----------+ -| Unique | A list of any reporting | List of | Optional | -| Reporting | requirements on the usage of the | Strings | | -| Requirements | software product. (e.g.: quarterly| | | -| | usage reports are required) | | | -+---------------+-----------------------------------+-------------+-----------+ -| License Type | Type of license applicable to the | String | Mandatory | -| | software product. (e.g.: | | | -| | fixed-term, perpetual, trial, | | | -| | subscription.) | | | -+---------------+-----------------------------------+-------------+-----------+ -| License | Valid values: | String |Conditional| -| Duration | | | | -| | **year**, **quarter**, **month**, | | | -| | **day**. | | | -| | | | | -| | Not applicable when license type | | | -| | is Perpetual. | | | -+---------------+-----------------------------------+-------------+-----------+ -| License | Number of years, quarters, months,| Number |Conditional| -| Duration | or days for which the license is | | | -| Quantification| valid. | | | -| | | | | -| | Not applicable when license type | | | -| | is Perpetual. | | | -+---------------+-----------------------------------+-------------+-----------+ -| Limits | see section C.4 for possible | List | Optional | -| | values | | | -+---------------+-----------------------------------+-------------+-----------+ - -1. License Keys - -This section defines information on any License Keys associated with the -Software Product. A license key is a data string (or a file) providing a -means to authorize the use of software. License key does not provide -entitlement information. - -License Keys are not required. Optionally, one or more license keys can -be defined; each one consists of the following fields: - -Table C3. Required Fields for License Keys -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -+---------------+-----------------------------------+--------------+----------+ -| **Field Name**| **Description** | **Data Type**| **Type** | -+===============+===================================+==============+==========+ -| Description | Verbiage that describes the | String | Mandatory| -| | license key | | | -+---------------+-----------------------------------+--------------+----------+ -| License Key | Each license key defined must be | String | Mandatory| -| Identifier | identified by a unique value | | | -| | (e.g., numbered 1, 2, 3….) | | | -+---------------+-----------------------------------+--------------+----------+ -| Key Function | Lifecycle stage (e.g., | String | Optional | -| | Instantiation or Activation) at | | | -| | which the license key is applied | | | -| | to the software. | | | -+---------------+-----------------------------------+--------------+----------+ -| License Key | Valid values: | String | Mandatory| -| Type | | | | -| | **Universal, Unique** | | | -| | | | | -| | **Universal** - a single license | | | -| | key value that may be used with | | | -| | any number of instances of the | | | -| | software. | | | -| | | | | -| | **Unique**- a unique license key | | | -| | value is required for each | | | -| | instance of the software. | | | -+---------------+-----------------------------------+--------------+----------+ -| Limits | see section C.4 for possible | List | Optional | -| | values | | | -+---------------+-----------------------------------+--------------+----------+ - -1. Entitlement and License Key Limits - -Limitations on the use of software entitlements and license keys may be -based on factors such as: features enabled in the product, the allowed -capacity of the product, number of installations, etc... The limits may -generally be categorized as: - -- where (location) - -- when (time) - -- how (usages) - -- who/what (entity) - -- amount (how much) - -Multiple limits may be applicable for an entitlement or license key. -Each limit may further be described by limit behavior, duration, -quantification, aggregation, aggregation interval, start date, end date, -and threshold. - -When the limit is associated with a quantity, the quantity is relative -to an instance of the entitlement or license key. For example: - -- Each entitlement grants the right to 50 concurrent users. If 10 - entitlements are purchased, the total number of concurrent users - permitted would be 500. In this example, the limit category is - **amount**, the limit type is **users**, and the limit - **quantification** is **50.** - - Each license key may be installed on 3 devices. If 5 license keys are - acquired, the total number of devices allowed would be 15. In this - example, the limit category is **usages**, the limit type is - **device**, and the limit **quantification** is **3.** - -1. Location - -Locations may be logical or physical location (e.g., site, country). For -example: - -- use is allowed in Canada - -Table C4. Required Fields for Location -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -+------------------+--------------------------------+--------------+----------+ -| **Field Name** | **Description** | **Data Type**| **Type** | -+==================+================================+==============+==========+ -| Limit Identifier | Each limit defined for an | String | Mandatory| -| | entitlement or license key must| | | -| | be identified by a unique value| | | -| | (e.g., numbered 1,2,3…) | | | -+------------------+--------------------------------+--------------+----------+ -| Limit Description| Verbiage describing the limit. | String | Mandatory| -+------------------+--------------------------------+--------------+----------+ -| Limit Behavior | Description of the actions | String | Mandatory| -| | taken when the limit boundaries| | | -| | are reached. | | | -+------------------+--------------------------------+--------------+----------+ -| Limit Category | Valid value: **location** | String | Mandatory| -+------------------+--------------------------------+--------------+----------+ -| Limit Type | Valid values: **city, county, | String | Mandatory| -| | state, country, region, MSA, | | | -| | BTA, CLLI** | | | -+------------------+--------------------------------+--------------+----------+ -| Limit List | List of locations where the VNF| List of | Mandatory| -| | provider Product can be used or| String | | -| | needs to be restricted from use| | | -+------------------+--------------------------------+--------------+----------+ -| Limit Set Type | Indicates if the list is an | String | Mandatory| -| | inclusion or exclusion. | | | -| | | | | -| | Valid Values: | | | -| | | | | -| | **Allowed** | | | -| | | | | -| | **Not allowed** | | | -+------------------+--------------------------------+--------------+----------+ -| Limit | The quantity (amount) the limit| Number | Optional | -| Quantification | expresses. | | | -+------------------+--------------------------------+--------------+----------+ - -1. Time - -Limit on the length of time the software may be used. For example: - -- license key valid for 1 year from activation - -- entitlement valid from 15 May 2018 thru 30 June 2020 - -Table C5. Required Fields for Time -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -+------------------+-------------------------------+--------------+-----------+ -| **Field Name** | **Description** | **Data Type**| **Type** | -+==================+===============================+==============+===========+ -| Limit Identifier | Each limit defined for an | String | Mandatory | -| | entitlement or license key | | | -| | must be identified by a unique| | | -| | value (e.g., numbered) | | | -+------------------+-------------------------------+--------------+-----------+ -| Limit Description| Verbiage describing the limit.| String | Mandatory | -+------------------+-------------------------------+--------------+-----------+ -| Limit Behavior | Description of the actions | String | Mandatory | -| | taken when the limit | | | -| | boundaries are reached. | | | -| | | | | -| | The limit behavior may also | | | -| | describe when a time limit | | | -| | takes effect. (e.g., key is | | | -| | valid for 1 year from date of | | | -| | purchase). | | | -+------------------+-------------------------------+--------------+-----------+ -| Limit Category | Valid value: **time** | String | Mandatory | -+------------------+-------------------------------+--------------+-----------+ -| Limit Type | Valid values: | String | Mandatory | -| | **duration, date** | | | -+------------------+-------------------------------+--------------+-----------+ -| Limit List | List of times for which the | List of | Mandatory | -| | VNF Provider Product can be | String | | -| | used or needs to be restricted| | | -| | from use | | | -+------------------+-------------------------------+--------------+-----------+ -| Duration Units | Required when limit type is | String |Conditional| -| | duration. Valid values: | | | -| | **perpetual, year, quarter, | | | -| | month, day, minute, second, | | | -| | millisecond** | | | -+------------------+-------------------------------+--------------+-----------+ -| Limit | The quantity (amount) the | Number | Optional | -| Quantification | limit expresses. | | | -+------------------+-------------------------------+--------------+-----------+ -| Start Date | Required when limit type is | Date | Optional | -| | date. | | | -+------------------+-------------------------------+--------------+-----------+ -| End Date | May be used when limit type is| Date | Optional | -| | date. | | | -+------------------+-------------------------------+--------------+-----------+ - -1. Usage - -Limits based on how the software is used. For example: - -- use is limited to a specific sub-set of the features/capabilities the - software supports - -- use is limited to a certain environment (e.g., test, development, - production…) - -- use is limited by processor (vm, cpu, core) - -- use is limited by software release - -Table C6. Required Fields for Usage -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -+------------------+-------------------------------+---------------+----------+ -| **Field Name** | **Description** | **Data Type** | **Type** | -+==================+===============================+===============+==========+ -| Limit Identifier | Each limit defined for an | String | Mandatory| -| | entitlement or license key | | | -| | must be identified by a unique| | | -| | value (e.g., numbered) | | | -+------------------+-------------------------------+---------------+----------+ -| Limit Description| Verbiage describing the limit.| String | Mandatory| -+------------------+-------------------------------+---------------+----------+ -| Limit Behavior | Description of the actions | String | Mandatory| -| | taken when the limit | | | -| | boundaries are reached. | | | -+------------------+-------------------------------+---------------+----------+ -| Limit Category | Valid value: **usages** | String | Mandatory| -+------------------+-------------------------------+---------------+----------+ -| Limit Type | Valid values: **feature, | String | Mandatory| -| | environment, processor, | | | -| | version** | | | -+------------------+-------------------------------+---------------+----------+ -| Limit List | List of usage limits (e.g., | List of String| Mandatory| -| | test, development, vm, core, | | | -| | R1.2.1, R1.3.5…) | | | -+------------------+-------------------------------+---------------+----------+ -| Limit Set Type | Indicates if the list is an | String | Mandatory| -| | inclusion or exclusion. | | | -| | | | | -| | Valid Values: | | | -| | | | | -| | **Allowed** | | | -| | | | | -| | **Not allowed** | | | -+------------------+-------------------------------+---------------+----------+ -| Limit | The quantity (amount) the | Number | Optional | -| Quantification | limit expresses. | | | -+------------------+-------------------------------+---------------+----------+ - -1. Entity - -Limit on the entity (product line, organization, customer) allowed to -make use of the software. For example: - -- allowed to be used in support of wireless products - -- allowed to be used only for government entities - -Table C7. Required Fields for Entity -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -+------------------+--------------------------------+--------------+----------+ -| **Field Name** | **Description** |**Data Type** | **Type** | -+==================+================================+==============+==========+ -| Limit Identifier | Each limit defined for an | String | Mandatory| -| | entitlement or license key must| | | -| | be identified by a unique value| | | -| | (e.g., numbered) | | | -+------------------+--------------------------------+--------------+----------+ -| Limit Description| Verbiage describing the limit. | String | Mandatory| -+------------------+--------------------------------+--------------+----------+ -| Limit Behavior | Description of the actions | String | Mandatory| -| | taken when the limit boundaries| | | -| | are reached. | | | -+------------------+--------------------------------+--------------+----------+ -| Limit Category | Valid value: **entity** | String | Mandatory| -+------------------+--------------------------------+--------------+----------+ -| Limit Type | Valid values: **product line, | String | Mandatory| -| | organization, internal | | | -| | customer, external customer** | | | -+------------------+--------------------------------+--------------+----------+ -| Limit List | List of entities for which the |List of String| Mandatory| -| | VNF Provider Product can be | | | -| | used or needs to be restricted | | | -| | from use | | | -+------------------+--------------------------------+--------------+----------+ -| Limit Set Type | Indicates if the list is an | String | Mandatory| -| | inclusion or exclusion. | | | -| | | | | -| | Valid Values: | | | -| | | | | -| | **Allowed** | | | -| | | | | -| | **Not allowed** | | | -+------------------+--------------------------------+--------------+----------+ -| Limit | The quantity (amount) the limit| Number | Optional | -| Quantification | expresses. | | | -+------------------+--------------------------------+--------------+----------+ - -1. Amount - -These limits describe terms relative to utilization of the functions of -the software (for example, number of named users permitted, throughput, -or capacity). Limits of this type may also be relative to utilization of -other resources (for example, a limit for firewall software is not based -on use of the firewall software, but on the number of network -subscribers). - -The metadata describing this type of limit includes the unit of measure -(e.g., # users, # sessions, # MB, # TB, etc.), the quantity of units, -any aggregation function (e.g., peak or average users), and aggregation -interval (day, month, quarter, year, etc.). - -Table C8. Required Fields for Amount -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -+------------------+---------------------------------+-------------+----------+ -| **Field Name** | **Description** |**Data Type**| **Type** | -+==================+=================================+=============+==========+ -| Limit Identifier | Each limit defined for an | String | Mandatory| -| | entitlement or license key must | | | -| | be identified by a unique value | | | -| | (e.g., numbered) | | | -+------------------+---------------------------------+-------------+----------+ -| Limit Description| Verbiage describing the limit. | String | Mandatory| -+------------------+---------------------------------+-------------+----------+ -| Limit Behavior | Description of the actions taken| String | Mandatory| -| | when the limit boundaries are | | | -| | reached. | | | -+------------------+---------------------------------+-------------+----------+ -| Limit Category | Valid value: **amount** | String | Mandatory| -+------------------+---------------------------------+-------------+----------+ -| Limit Type | Valid values: **trunk, user, | String | Mandatory| -| | subscriber, session, token, | | | -| | transactions, seats, KB, MB, TB,| | | -| | GB** | | | -+------------------+---------------------------------+-------------+----------+ -| Type of | Is the limit relative to | String | Mandatory| -| Utilization | utilization of the functions of | | | -| | the software or relative to | | | -| | utilization of other resources? | | | -| | | | | -| | Valid values: | | | -| | | | | -| | - **software functions** | | | -| | | | | -| | - **other resources** | | | -+------------------+---------------------------------+-------------+----------+ -| Limit | The quantity (amount) the limit | Number | Optional | -| Quantification | expresses. | | | -+------------------+---------------------------------+-------------+----------+ -| Aggregation | Valid values: **peak, average** | String | Optional | -| Function | | | | -+------------------+---------------------------------+-------------+----------+ -| Aggregation | Time period over which the | String | Optional | -| Interval | aggregation is done (e.g., | | | -| | average sessions per quarter). | | | -| | Required when an Aggregation | | | -| | Function is specified. | | | -| | | | | -| | Valid values: **day, month, | | | -| | quarter, year, minute, second, | | | -| | millisecond** | | | -+------------------+---------------------------------+-------------+----------+ -| Aggregation | Is the limit quantity applicable| String | Optional | -| Scope | to a single entitlement or | | | -| | license key (each separately)? | | | -| | Or may the limit quantity be | | | -| | combined with others of the same| | | -| | type (resulting in limit amount | | | -| | that is the sum of all the | | | -| | purchased entitlements or | | | -| | license keys)? | | | -| | | | | -| | Valid values: | | | -| | | | | -| | - **single** | | | -| | | | | -| | - **combined** | | | -+------------------+---------------------------------+-------------+----------+ -| Type of User | Describes the types of users of | String | Optional | -| | the functionality offered by the| | | -| | software (e.g., authorized, | | | -| | named). This field is included | | | -| | when Limit Type is user. | | | -+------------------+---------------------------------+-------------+----------+ - -TOSCA model ------------------------------ - -Table D1. ONAP Resource DM TOSCA/YAML constructs -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -Standard TOSCA/YAML definitions agreed by VNF SDK Modeling team to be used by -VNF vendors to create a standard VNF descriptor. - -All definitions are summarized in the table below based on the agreed ONAP -Resource DM TOSCA/YAML constructs for Beijing. Their syntax is specified in -ETSI GS NFV-SOL001 stable draft for VNF-D. - -+------------+------------------------------+---------------------------------+ -| Requirement| Resource IM Info Elements | TOSCA Constructs as per SOL001 | -| Number | | | -+============+==============================+=================================+ -| R-02454 | VNFD.vnfSoftwareVersion | For VDU.Compute - | -| | | tosca.artifacts.nfv.SwImage | -| | | | -| | SwImageDesc.Version | For Virtual Storage - | -| | | tosca.artifacts.Deployment.Image| -+------------+------------------------------+---------------------------------+ -| R-03070 | vnfExtCpd's with virtual | tosca.nodes.nfv.VnfExtCp with a | -| | NetworkInterfaceRequirements | property tosca.datatypes.nfv.\ | -| | (vNIC) | VirtualNetworkInterface\ | -| | | Requirements | -+------------+------------------------------+---------------------------------+ -| R-09467 | VDU.Compute descriptor | tosca.nodes.nfv.Vdu.Compute | -+------------+------------------------------+---------------------------------+ -| R-16065 | VDU.Compute. Configurable | tosca.datatypes.nfv.Vnfc | -| | Properties | ConfigurableProperties | -+------------+------------------------------+---------------------------------+ -| R-30654 | VNFD.lifeCycleManagement | Interface construct tosca.\ | -| | Script - IFA011 LifeCycle\ | interfaces.nfv.vnf.lifecycle.Nfv| -| | ManagementScript | with a list of standard LCM | -| | | operations | -+------------+------------------------------+---------------------------------+ -| R-35851 | CPD: VduCp, VnfExtCp, | tosca.nodes.nfv.VduCp, tosca.\ | -| | VnfVirtualLinkDesc, QoS | nodes.nfv.VnfVirtualLink, | -| | Monitoring info element - | tosca.nodes.nfv.VnfExtCp | -| | TBD | | -+------------+------------------------------+---------------------------------+ -| R-41215 | VNFD/VDU Profile and scaling | tosca.datatypes.nfv.VduProfile | -| | aspect | and tosca.datatypes.nfv.\ | -| | | ScalingAspect | -+------------+------------------------------+---------------------------------+ -| R-66070 | VNFD meta data | tosca.datatypes.nfv. | -| | | VnfInfoModifiableAttributes - | -| | | metadata? | -+------------+------------------------------+---------------------------------+ -| R-96634 | VNFD.configurableProperties | tosca.datatypes.nfv.Vnf\ | -| | describing scaling | ConfigurableProperties, | -| | characteristics. VNFD.\ | tosca.datatypes.nfv.ScaleInfo | -| | autoscale defines the rules | | -| | for scaling based on specific| | -| | VNF indications | | -+------------+------------------------------+---------------------------------+ -| ? | VDU Virtual Storage | tosca.nodes.nfv.Vdu.\ | -| | | VirtualStorage | -+------------+------------------------------+---------------------------------+ -| R-01478 | Monitoring Info Element (TBD)| tosca.capabilities.nfv.Metric - | -| | - SOL001 per VNF/VDU/VLink | type for monitoring | -| R-01556 | memory-consumption, | | -| | CPU-utilization, | monitoring_parameter of above | -| | bandwidth-consumption, VNFC | type per VNF/VDU/VLink | -| | downtime, etc. | | -+------------+------------------------------+---------------------------------+ - - -Table D2. TOSCA CSAR structure -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -This section defines the requirements around the CSAR structure. - -The table below describes the numbered requirements for CSAR structure as -agreed with SDC. The format of the CSAR is specified in SOL004. - -+------------+-------------------------------------+--------------------------+ -| Requirement| Description | CSAR artifact directory | -| Number | | | -+============+=====================================+==========================+ -| R-26881 | The VNF provider MUST provide the | ROOT\\Artifacts\ | -| | binaries and images needed to | \\VNF_Image.bin | -| | instantiate the VNF (VNF and VNFC | | -| | images). | | -+------------+-------------------------------------+--------------------------+ -| R-30654 | VNFD.lifeCycleManagementScript that | ROOT\\Artifacts\ | -| | includes a list of events and | \\Informational\ | -| | corresponding management scripts | \\Install.csh | -| | performed for the VNF - SOL001 | | -+------------+-------------------------------------+--------------------------+ -| R-35851 | All VNF topology related definitions| ROOT\\Definitions\ | -| | in yaml files VNFD/Main Service | \\VNFC.yaml | -| | template at the ROOT | | -| | | ROOT\ | -| | | \\MainService\ | -| | | \\Template.yaml | -+------------+-------------------------------------+--------------------------+ -| R-40827 | CSAR License directory - SOL004 | ROOT\\Licenses\ | -| | | \\License_term.txt | -+------------+-------------------------------------+--------------------------+ -| R-77707 | CSAR Manifest file - SOL004 | ROOT\ | -| | | \\MainServiceTemplate.mf | -+------------+-------------------------------------+--------------------------+ - - -Requirement List --------------------------------- - -**VNF Development Requirements** -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -VNF Design -~~~~~~~~~~~~~ - -R-58421 The VNF **SHOULD** be decomposed into granular re-usable VNFCs. - -R-82223 The VNF **MUST** be decomposed if the functions have -significantly different scaling characteristics (e.g., signaling -versus media functions, control versus data plane functions). - -R-16496 The VNF **MUST** enable instantiating only the functionality that -is needed for the decomposed VNF (e.g., if transcoding is not needed it -should not be instantiated). - -R-02360 The VNFC **MUST** be designed as a standalone, executable process. - -R-34484 The VNF **SHOULD** create a single component VNF for VNFCs -that can be used by other VNFs. - -R-23035 The VNF **MUST** be designed to scale horizontally (more -instances of a VNF or VNFC) and not vertically (moving the existing -instances to larger VMs or increasing the resources within a VM) -to achieve effective utilization of cloud resources. - -R-30650 The VNF **MUST** utilize cloud provided infrastructure and -VNFs (e.g., virtualized Local Load Balancer) as part of the VNF so -that the cloud can manage and provide a consistent service resiliency -and methods across all VNF's. - -R-12709 The VNFC **SHOULD** be independently deployed, configured, -upgraded, scaled, monitored, and administered by ONAP. - -R-37692 The VNFC **MUST** provide API versioning to allow for -independent upgrades of VNFC. - -R-86585 The VNFC **SHOULD** minimize the use of state within -a VNFC to facilitate the movement of traffic from one instance -to another. - -R-65134 The VNF **SHOULD** maintain state in a geographically -redundant datastore that may, in fact, be its own VNFC. - -R-75850 The VNF **SHOULD** decouple persistent data from the VNFC -and keep it in its own datastore that can be reached by all instances -of the VNFC requiring the data. - -R-88199 The VNF **MUST** utilize a persistent datastore service that -can meet the data performance/latency requirements. (For example: -Datastore service could be a VNFC in VNF or a DBaaS in the Cloud -execution environment) - -R-99656 The VNF **MUST** NOT terminate stable sessions if a VNFC -instance fails. - -R-84473 The VNF **MUST** enable DPDK in the guest OS for VNF’s requiring -high packets/sec performance. High packet throughput is defined as greater -than 500K packets/sec. - -R-54430 The VNF **MUST** use the NCSP’s supported library and compute -flavor that supports DPDK to optimize network efficiency if using DPDK. [5]_ - -R-18864 The VNF **MUST** NOT use technologies that bypass virtualization -layers (such as SR-IOV) unless approved by the NCSP (e.g., if necessary -to meet functional or performance requirements). - -R-64768 The VNF **MUST** limit the size of application data packets -to no larger than 9000 bytes for SDN network-based tunneling when -guest data packets are transported between tunnel endpoints that -support guest logical networks. - -R-74481 The VNF **MUST** NOT require the use of a dynamic routing -protocol unless necessary to meet functional requirements. - -VNF Resiliency -~~~~~~~~~~~~~~~~~~~~~~~~~ - -R-52499 The VNF **MUST** meet their own resiliency goals and not rely -on the Network Cloud. - -R-42207 The VNF **MUST** design resiliency into a VNF such that the -resiliency deployment model (e.g., active-active) can be chosen at -run-time. - -R-03954 The VNF **MUST** survive any single points of failure within -the Network Cloud (e.g., virtual NIC, VM, disk failure). - -R-89010 The VNF **MUST** survive any single points of software failure -internal to the VNF (e.g., in memory structures, JMS message queues). - -R-67709 The VNF **MUST** be designed, built and packaged to enable -deployment across multiple fault zones (e.g., VNFCs deployed in -different servers, racks, OpenStack regions, geographies) so that -in the event of a planned/unplanned downtime of a fault zone, the -overall operation/throughput of the VNF is maintained. - -R-35291 The VNF **MUST** support the ability to failover a VNFC -automatically to other geographically redundant sites if not -deployed active-active to increase the overall resiliency of the VNF. - -R-36843 The VNF **MUST** support the ability of the VNFC to be deployable -in multi-zoned cloud sites to allow for site support in the event of cloud -zone failure or upgrades. - -R-00098 The VNF **MUST NOT** impact the ability of the VNF to provide -service/function due to a single container restart. - -R-79952 The VNF **SHOULD** support container snapshots if not for rebuild -and evacuate for rollback or back out mechanism. - -R-92935 The VNF **SHOULD** minimize the propagation of state information -across multiple data centers to avoid cross data center traffic. - -R-26371 The VNF **MUST** detect communication failure for inter VNFC -instance and intra/inter VNF and re-establish communication -automatically to maintain the VNF without manual intervention to -provide service continuity. - -R-18725 The VNF **MUST** handle the restart of a single VNFC instance -without requiring all VNFC instances to be restarted. - -R-06668 The VNF **MUST** handle the start or restart of VNFC instances -in any order with each VNFC instance establishing or re-establishing -required connections or relationships with other VNFC instances and/or -VNFs required to perform the VNF function/role without requiring VNFC -instance(s) to be started/restarted in a particular order. - -R-80070 The VNF **MUST** handle errors and exceptions so that they do -not interrupt processing of incoming VNF requests to maintain service -continuity (where the error is not directly impacting the software -handling the incoming request). - -R-32695 The VNF **MUST** provide the ability to modify the number of -retries, the time between retries and the behavior/action taken after -the retries have been exhausted for exception handling to allow the -NCSP to control that behavior, where the interface and/or functional -specification allows for altering behaviour. - -R-48356 The VNF **MUST** fully exploit exception handling to the extent -that resources (e.g., threads and memory) are released when no longer -needed regardless of programming language. - -R-67918 The VNF **MUST** handle replication race conditions both locally -and geo-located in the event of a data base instance failure to maintain -service continuity. - -R-36792 The VNF **MUST** automatically retry/resubmit failed requests -made by the software to its downstream system to increase the success rate. - -R-70013 The VNF **MUST NOT** require any manual steps to get it ready for -service after a container rebuild. - -R-65515 The VNF **MUST** provide a mechanism and tool to start VNF -containers (VMs) without impacting service or service quality assuming -another VNF in same or other geographical location is processing service -requests. - -R-94978 The VNF **MUST** provide a mechanism and tool to perform a graceful -shutdown of all the containers (VMs) in the VNF without impacting service -or service quality assuming another VNF in same or other geographical -location can take over traffic and process service requests. - -R-22059 The VNF **MUST NOT** execute long running tasks (e.g., IO, -database, network operations, service calls) in a critical section -of code, so as to minimize blocking of other operations and increase -concurrent throughput. - -R-63473 The VNF **MUST** automatically advertise newly scaled -components so there is no manual intervention required. - -R-74712 The VNF **MUST** utilize FQDNs (and not IP address) for -both Service Chaining and scaling. - -R-41159 The VNF **MUST** deliver any and all functionality from any -VNFC in the pool (where pooling is the most suitable solution). The -VNFC pool member should be transparent to the client. Upstream and -downstream clients should only recognize the function being performed, -not the member performing it. - -R-85959 The VNF **SHOULD** automatically enable/disable added/removed -sub-components or component so there is no manual intervention required. - -R-06885 The VNF **SHOULD** support the ability to scale down a VNFC pool -without jeopardizing active sessions. Ideally, an active session should -not be tied to any particular VNFC instance. - -R-12538 The VNF **SHOULD** support load balancing and discovery -mechanisms in resource pools containing VNFC instances. - -R-98989 The VNF **SHOULD** utilize resource pooling (threads, -connections, etc.) within the VNF application so that resources -are not being created and destroyed resulting in resource management -overhead. - -R-55345 The VNF **SHOULD** use techniques such as “lazy loading” when -initialization includes loading catalogues and/or lists which can grow -over time, so that the VNF startup time does not grow at a rate -proportional to that of the list. - -R-35532 The VNF **SHOULD** release and clear all shared assets (memory, -database operations, connections, locks, etc.) as soon as possible, -especially before long running sync and asynchronous operations, so as -to not prevent use of these assets by other entities. - -R-77334 The VNF **MUST** allow configurations and configuration parameters -to be managed under version control to ensure consistent configuration -deployment, traceability and rollback. - -R-99766 The VNF **MUST** allow configurations and configuration parameters -to be managed under version control to ensure the ability to rollback to -a known valid configuration. - -R-73583 The VNF **MUST** allow changes of configuration parameters -to be consumed by the VNF without requiring the VNF or its sub-components -to be bounced so that the VNF availability is not effected. - -R-21558 The VNF **SHOULD** use intelligent routing by having knowledge -of multiple downstream/upstream endpoints that are exposed to it, to -ensure there is no dependency on external services (such as load balancers) -to switch to alternate endpoints. - -R-08315 The VNF **SHOULD** use redundant connection pooling to connect -to any backend data source that can be switched between pools in an -automated/scripted fashion to ensure high availability of the connection -to the data source. - -R-27995 The VNF **SHOULD** include control loop mechanisms to notify -the consumer of the VNF of their exceeding SLA thresholds so the consumer -is able to control its load against the VNF. - -R-73364 The VNF **MUST** support at least two major versions of the -VNF software and/or sub-components to co-exist within production -environments at any time so that upgrades can be applied across -multiple systems in a staggered manner. - -R-02454 The VNF **MUST** support the existence of multiple major/minor -versions of the VNF software and/or sub-components and interfaces that -support both forward and backward compatibility to be transparent to -the Service Provider usage. - -R-57855 The VNF **MUST** support hitless staggered/rolling deployments -between its redundant instances to allow "soak-time/burn in/slow roll" -which can enable the support of low traffic loads to validate the -deployment prior to supporting full traffic loads. - -R-64445 The VNF **MUST** support the ability of a requestor of the -service to determine the version (and therefore capabilities) of the -service so that Network Cloud Service Provider can understand the -capabilities of the service. - -R-56793 The VNF **MUST** test for adherence to the defined performance -budgets at each layer, during each delivery cycle with delivered -results, so that the performance budget is measured and the code -is adjusted to meet performance budget. - -R-77667 The VNF **MUST** test for adherence to the defined performance -budget at each layer, during each delivery cycle so that the performance -budget is measured and feedback is provided where the performance budget -is not met. - -R-49308 The VNF **SHOULD** test for adherence to the defined resiliency -rating recommendation at each layer, during each delivery cycle with -delivered results, so that the resiliency rating is measured and the -code is adjusted to meet software resiliency requirements. - -R-16039 The VNF **SHOULD** test for adherence to the defined -resiliency rating recommendation at each layer, during each -delivery cycle so that the resiliency rating is measured and -feedback is provided where software resiliency requirements are -not met. - -R-34957 The VNF **MUST** provide a method of metrics gathering for each -layer's performance to identify/document variances in the allocations so -they can be addressed. - -R-49224 The VNF **MUST** provide unique traceability of a transaction -through its life cycle to ensure quick and efficient troubleshooting. - -R-52870 The VNF **MUST** provide a method of metrics gathering -and analysis to evaluate the resiliency of the software from both -a granular as well as a holistic standpoint. This includes, but is -not limited to thread utilization, errors, timeouts, and retries. - -R-92571 The VNF **MUST** provide operational instrumentation such as -logging, so as to facilitate quick resolution of issues with the VNF to -provide service continuity. - -R-48917 The VNF **MUST** monitor for and alert on (both sender and -receiver) errant, running longer than expected and missing file transfers, -so as to minimize the impact due to file transfer errors. - -R-28168 The VNF **SHOULD** use an appropriately configured logging -level that can be changed dynamically, so as to not cause performance -degradation of the VNF due to excessive logging. - -R-87352 The VNF **SHOULD** utilize Cloud health checks, when available -from the Network Cloud, from inside the application through APIs to check -the network connectivity, dropped packets rate, injection, and auto failover -to alternate sites if needed. - -R-16560 The VNF **SHOULD** conduct a resiliency impact assessment for all -inter/intra-connectivity points in the VNF to provide an overall resiliency -rating for the VNF to be incorporated into the software design and -development of the VNF. - -VNF Security -~~~~~~~~~~~~~~ - -R-23740 The VNF **MUST** accommodate the security principle of -“least privilege” during development, implementation and operation. -The importance of “least privilege” cannot be overstated and must be -observed in all aspects of VNF development and not limited to security. -This is applicable to all sections of this document. - -R-61354 The VNF **MUST** implement access control list for OA&M -services (e.g., restricting access to certain ports or applications). - -R-85633 The VNF **MUST** implement Data Storage Encryption -(database/disk encryption) for Sensitive Personal Information (SPI) -and other subscriber identifiable data. Note: subscriber’s SPI/data -must be encrypted at rest, and other subscriber identifiable data -should be encrypted at rest. Other data protection requirements exist -and should be well understood by the developer. - -R-92207 The VNF **SHOULD** implement a mechanism for automated and -frequent "system configuration (automated provisioning / closed loop)" -auditing. - -R-23882 The VNF **SHOULD** be scanned using both network scanning -and application scanning security tools on all code, including underlying -OS and related configuration. Scan reports shall be provided. Remediation -roadmaps shall be made available for any findings. - -R-46986 The VNF **SHOULD** have source code scanned using scanning -tools (e.g., Fortify) and provide reports. - -R-55830 The VNF **MUST** distribute all production code from NCSP -internal sources only. No production code, libraries, OS images, etc. -shall be distributed from publically accessible depots. - -R-99771 The VNF **MUST** provide all code/configuration files in a -"Locked down" or hardened state or with documented recommendations for -such hardening. All unnecessary services will be disabled. VNF provider -default credentials, community strings and other such artifacts will be -removed or disclosed so that they can be modified or removed during -provisioning. - -R-19768 The VNF **SHOULD** support L3 VPNs that enable segregation of -traffic by application (dropping packets not belonging to the VPN) (i.e., -AVPN, IPSec VPN for Internet routes). - -R-33981 The VNF **SHOULD** interoperate with various access control -mechanisms for the Network Cloud execution environment (e.g., -Hypervisors, containers). - -R-40813 The VNF **SHOULD** support the use of virtual trusted platform -module, hypervisor security testing and standards scanning tools. - -R-56904 The VNF **MUST** interoperate with the ONAP (SDN) Controller so that -it can dynamically modify the firewall rules, ACL rules, QoS rules, virtual -routing and forwarding rules. - -R-26586 The VNF **SHOULD** support the ability to work with aliases -(e.g., gateways, proxies) to protect and encapsulate resources. - -R-49956 The VNF **MUST** pass all access to applications (Bearer, -signaling and OA&M) through various security tools and platforms from -ACLs, stateful firewalls and application layer gateways depending on -manner of deployment. The application is expected to function (and in -some cases, interwork) with these security tools. - -R-69649 The VNF **MUST** have all vulnerabilities patched as soon -as possible. Patching shall be controlled via change control process -with vulnerabilities disclosed along with mitigation recommendations. - -R-78010 The VNF **MUST** use the NCSP’s IDAM API for Identification, -authentication and access control of customer or VNF application users. - -R-42681 The VNF **MUST** use the NCSP’s IDAM API or comply with -the requirements if not using the NCSP’s IDAM API, for identification, -authentication and access control of OA&M and other system level -functions. - -R-68589 The VNF **MUST**, if not using the NCSP’s IDAM API, support -User-IDs and passwords to uniquely identify the user/application. VNF -needs to have appropriate connectors to the Identity, Authentication -and Authorization systems that enables access at OS, Database and -Application levels as appropriate. - -R-52085 The VNF **MUST**, if not using the NCSP’s IDAM API, provide -the ability to support Multi-Factor Authentication (e.g., 1st factor = -Software token on device (RSA SecureID); 2nd factor = User Name+Password, -etc.) for the users. - -R-98391 The VNF **MUST**, if not using the NCSP’s IDAM API, support -Role-Based Access Control to permit/limit the user/application to -performing specific activities. - -R-63217 The VNF **MUST**, if not using the NCSP’s IDAM API, support -logging via ONAP for a historical view of “who did what and when”. - -R-62498 The VNF **MUST**, if not using the NCSP’s IDAM API, encrypt -OA&M access (e.g., SSH, SFTP). - -R-79107 The VNF **MUST**, if not using the NCSP’s IDAM API, enforce -a configurable maximum number of Login attempts policy for the users. -VNF provider must comply with "terminate idle sessions" policy. -Interactive sessions must be terminated, or a secure, locking screensaver -must be activated requiring authentication, after a configurable period -of inactivity. The system-based inactivity timeout for the enterprise -identity and access management system must also be configurable. - -R-35144 The VNF **MUST**, if not using the NCSP’s IDAM API, comply -with the NCSP’s credential management policy. - -R-75041 The VNF **MUST**, if not using the NCSP’s IDAM API, expire -passwords at regular configurable intervals. - -R-46908 The VNF **MUST**, if not using the NCSP’s IDAM API, comply -with "password complexity" policy. When passwords are used, they shall -be complex and shall at least meet the following password construction -requirements: (1) be a minimum configurable number of characters in -length, (2) include 3 of the 4 following types of characters: -upper-case alphabetic, lower-case alphabetic, numeric, and special, -(3) not be the same as the UserID with which they are associated or -other common strings as specified by the environment, (4) not contain -repeating or sequential characters or numbers, (5) not to use special -characters that may have command functions, and (6) new passwords must -not contain sequences of three or more characters from the previous -password. - -R-39342 The VNF **MUST**, if not using the NCSP’s IDAM API, comply -with "password changes (includes default passwords)" policy. Products -will support password aging, syntax and other credential management -practices on a configurable basis. - -R-40521 The VNF **MUST**, if not using the NCSP’s IDAM API, support -use of common third party authentication and authorization tools such -as TACACS+, RADIUS. - -R-41994 The VNF **MUST**, if not using the NCSP’s IDAM API, comply -with "No Self-Signed Certificates" policy. Self-signed certificates -must be used for encryption only, using specified and approved -encryption protocols such as TLS 1.2 or higher or equivalent security -protocols such as IPSec, AES. - -R-23135 The VNF **MUST**, if not using the NCSP’s IDAM API, -authenticate system to system communications where one system -accesses the resources of another system, and must never conceal -individual accountability. - -R-95105 The VNF **MUST** host connectors for access to the application -layer. - -R-45496 The VNF **MUST** host connectors for access to the OS -(Operating System) layer. - -R-05470 The VNF **MUST** host connectors for access to the database layer. - -R-99174 The VNF **MUST** comply with Individual Accountability -(each person must be assigned a unique ID) when persons or non-person -entities access VNFs. - -R-42874 The VNF **MUST** comply with Least Privilege (no more -privilege than required to perform job functions) when persons -or non-person entities access VNFs. - -R-71787 The VNF **MUST** comply with Segregation of Duties (access to a -single layer and no developer may access production without special -oversight) when persons or non-person entities access VNFs. - -R-86261 The VNF **MUST NOT** allow VNF provider access to VNFs remotely. - -R-49945 The VNF **MUST** authorize VNF provider access through a -client application API by the client application owner and the resource -owner of the VNF before provisioning authorization through Role Based -Access Control (RBAC), Attribute Based Access Control (ABAC), or other -policy based mechanism. - -R-31751 The VNF **MUST** subject VNF provider access to privilege -reconciliation tools to prevent access creep and ensure correct -enforcement of access policies. - -R-34552 The VNF **MUST** provide or support the Identity and Access -Management (IDAM) based threat detection data for OWASP Top 10. - -R-29301 The VNF **MUST** provide or support the Identity and Access -Management (IDAM) based threat detection data for Password Attacks. - -R-72243 The VNF **MUST** provide or support the Identity and Access -Management (IDAM) based threat detection data for Phishing / SMishing. - -R-58998 The VNF **MUST** provide or support the Identity and Access -Management (IDAM) based threat detection data for Malware (Key Logger). - -R-14025 The VNF **MUST** provide or support the Identity and Access -Management (IDAM) based threat detection data for Session Hijacking. - -R-31412 The VNF **MUST** provide or support the Identity and Access -Management (IDAM) based threat detection data for XSS / CSRF. - -R-51883 The VNF **MUST** provide or support the Identity and Access -Management (IDAM) based threat detection data for Replay. - -R-44032 The VNF **MUST** provide or support the Identity and Access -Management (IDAM) based threat detection data for Man in the Middle (MITM). - -R-58977 The VNF **MUST** provide or support the Identity and Access -Management (IDAM) based threat detection data for Eavesdropping. - -R-24825 The VNF **MUST** provide Context awareness data (device, -location, time, etc.) and be able to integrate with threat detection system. - -R-59391 The VNF provider **MUST**, where a VNF provider requires -the assumption of permissions, such as root or administrator, first -log in under their individual user login ID then switch to the other -higher level account; or where the individual user login is infeasible, -must login with an account with admin privileges in a way that -uniquely identifies the individual performing the function. - -R-85028 The VNF **MUST** authenticate system to system access and -do not conceal a VNF provider user’s individual accountability for -transactions. - -R-80335 The VNF **MUST** make visible a Warning Notice: A formal -statement of resource intent, i.e., a warning notice, upon initial -access to a VNF provider user who accesses private internal networks -or Company computer resources, e.g., upon initial logon to an internal -web site, system or application which requires authentication. - -R-73541 The VNF **MUST** use access controls for VNFs and their -supporting computing systems at all times to restrict access to -authorized personnel only, e.g., least privilege. These controls -could include the use of system configuration or access control -software. - -R-64503 The VNF **MUST** provide minimum privileges for initial -and default settings for new user accounts. - -R-86835 The VNF **MUST** set the default settings for user access -to sensitive commands and data to deny authorization. - -R-77157 The VNF **MUST** conform to approved request, workflow -authorization, and authorization provisioning requirements when -creating privileged users. - -R-81147 The VNF **MUST** have greater restrictions for access and -execution, such as up to 3 factors of authentication and restricted -authorization, for commands affecting network services, such as -commands relating to VNFs. - -R-49109 The VNF **MUST** encrypt TCP/IP--HTTPS (e.g., TLS v1.2) -transmission of data on internal and external networks. - -R-39562 The VNF **MUST** disable unnecessary or vulnerable cgi-bin programs. - -R-15671 The VNF **MUST NOT** provide public or unrestricted access -to any data without the permission of the data owner. All data -classification and access controls must be followed. - -R-89753 The VNF **MUST NOT** install or use systems, tools or -utilities capable of capturing or logging data that was not created -by them or sent specifically to them in production, without -authorization of the VNF system owner. - -R-19082 The VNF **MUST NOT** run security testing tools and -programs, e.g., password cracker, port scanners, hacking tools -in production, without authorization of the VNF system owner. - -R-19790 The VNF **MUST NOT** include authentication credentials -in security audit logs, even if encrypted. - -R-85419 The VNF **SHOULD** use REST APIs exposed to Client -Applications for the implementation of OAuth 2.0 Authorization -Code Grant and Client Credentials Grant, as the standard interface -for a VNF. - -R-48080 The VNF **SHOULD** support SCEP (Simple Certificate -Enrollment Protocol). - -R-37608 The VNF **MUST** provide a mechanism to restrict access based -on the attributes of the VNF and the attributes of the subject. - -R-43884 The VNF **MUST** integrate with external authentication -and authorization services (e.g., IDAM). - -R-25878 The VNF **MUST** use certificates issued from publicly -recognized Certificate Authorities (CA) for the authentication process -where PKI-based authentication is used. - -R-19804 The VNF **MUST** validate the CA signature on the certificate, -ensure that the date is within the validity period of the certificate, -check the Certificate Revocation List (CRL), and recognize the identity -represented by the certificate where PKI-based authentication is used. - -R-47204 The VNF **MUST** protect the confidentiality and integrity of -data at rest and in transit from unauthorized access and modification. - -R-33488 The VNF **MUST** protect against all denial of service -attacks, both volumetric and non-volumetric, or integrate with external -denial of service protection tools. - -R-21652 The VNF **MUST** implement the following input validation -control: Check the size (length) of all input. Do not permit an amount -of input so great that it would cause the VNF to fail. Where the input -may be a file, the VNF API must enforce a size limit. - -R-54930 The VNF **MUST** implement the following input validation -control: Do not permit input that contains content or characters -inappropriate to the input expected by the design. Inappropriate input, -such as SQL insertions, may cause the system to execute undesirable -and unauthorized transactions against the database or allow other -inappropriate access to the internal network. - -R-21210 The VNF **MUST** implement the following input validation -control: Validate that any input file has a correct and valid -Multipurpose Internet Mail Extensions (MIME) type. Input files -should be tested for spoofed MIME types. - -R-23772 The VNF **MUST** validate input at all layers implementing VNF APIs. - -R-87135 The VNF **MUST** comply with NIST standards and industry -best practices for all implementations of cryptography. - -R-02137 The VNF **MUST** implement all monitoring and logging as -described in the Security Analytics section. - -R-15659 The VNF **MUST** restrict changing the criticality level of -a system security alarm to administrator(s). - -R-19367 The VNF **MUST** monitor API invocation patterns to detect -anomalous access patterns that may represent fraudulent access or -other types of attacks, or integrate with tools that implement anomaly -and abuse detection. - -R-78066 The VNF **MUST** support requests for information from law -enforcement and government agencies. - -R-48470 The VNF **MUST** support Real-time detection and -notification of security events. - -R-22286 The VNF **MUST** support Integration functionality via -API/Syslog/SNMP to other functional modules in the network (e.g., -PCRF, PCEF) that enable dynamic security control by blocking the -malicious traffic or malicious end users. - -R-32636 The VNF **MUST** support API-based monitoring to take care of -the scenarios where the control interfaces are not exposed, or are -optimized and proprietary in nature. - -R-61648 The VNF **MUST** support event logging, formats, and delivery -tools to provide the required degree of event data to ONAP. - -R-22367 The VNF **MUST** support detection of malformed packets due to -software misconfiguration or software vulnerability. - -R-31961 The VNF **MUST** support integrated DPI/monitoring functionality -as part of VNFs (e.g., PGW, MME). - -R-20912 The VNF **MUST** support alternative monitoring capabilities -when VNFs do not expose data or control traffic or use proprietary and -optimized protocols for inter VNF communication. - -R-73223 The VNF **MUST** support proactive monitoring to detect and -report the attacks on resources so that the VNFs and associated VMs can -be isolated, such as detection techniques for resource exhaustion, namely -OS resource attacks, CPU attacks, consumption of kernel memory, local -storage attacks. - -R-58370 The VNF **MUST** coexist and operate normally with commercial -anti-virus software which shall produce alarms every time when there is a -security incident. - -R-56920 The VNF **MUST** protect all security audit logs (including -API, OS and application-generated logs), security audit software, data, -and associated documentation from modification, or unauthorized viewing, -by standard OS access control mechanisms, by sending to a remote system, -or by encryption. - -R-54520 The VNF **MUST** log successful and unsuccessful login attempts. - -R-55478 The VNF **MUST** log logoffs. - -R-08598 The VNF **MUST** log successful and unsuccessful changes to -a privilege level. - -R-13344 The VNF **MUST** log starting and stopping of security -logging. - -R-07617 The VNF **MUST** log creating, removing, or changing the -inherent privilege level of users. - -R-94525 The VNF **MUST** log connections to a network listener of the -resource. - -R-31614 The VNF **MUST** log the field “event type” in the security -audit logs. - -R-97445 The VNF **MUST** log the field “date/time” in the security -audit logs. - -R-25547 The VNF **MUST** log the field “protocol” in the security audit logs. - -R-06413 The VNF **MUST** log the field “service or program used for -access” in the security audit logs. - -R-15325 The VNF **MUST** log the field “success/failure” in the -security audit logs. - -R-89474 The VNF **MUST** log the field “Login ID” in the security audit logs. - -R-04982 The VNF **MUST NOT** include an authentication credential, -e.g., password, in the security audit logs, even if encrypted. - -R-63330 The VNF **MUST** detect when the security audit log storage -medium is approaching capacity (configurable) and issue an alarm via -SMS or equivalent as to allow time for proper actions to be taken to -pre-empt loss of audit data. - -R-41252 The VNF **MUST** support the capability of online storage of -security audit logs. - -R-41825 The VNF **MUST** activate security alarms automatically when -the following event is detected: configurable number of consecutive -unsuccessful login attempts - -R-43332 The VNF **MUST** activate security alarms automatically when -the following event is detected: successful modification of critical -system or application files - -R-74958 The VNF **MUST** activate security alarms automatically when -the following event is detected: unsuccessful attempts to gain permissions -or assume the identity of another user - -R-15884 The VNF **MUST** include the field “date” in the Security alarms -(where applicable and technically feasible). - -R-23957 The VNF **MUST** include the field “time” in the Security alarms -(where applicable and technically feasible). - -R-71842 The VNF **MUST** include the field “service or program used for -access” in the Security alarms (where applicable and technically feasible). - -R-57617 The VNF **MUST** include the field “success/failure” in the -Security alarms (where applicable and technically feasible). - -R-99730 The VNF **MUST** include the field “Login ID” in the Security -alarms (where applicable and technically feasible). - -R-29705 The VNF **MUST** restrict changing the criticality level of a -system security alarm to administrator(s). - -R-13627 The VNF **MUST** monitor API invocation patterns to detect -anomalous access patterns that may represent fraudulent access or other -types of attacks, or integrate with tools that implement anomaly and -abuse detection. - -R-21819 The VNF **MUST** support requests for information from law -enforcement and government agencies. - -R-56786 The VNF **MUST** implement “Closed Loop” automatic implementation -(without human intervention) for Known Threats with detection rate in low -false positives. - -R-25094 The VNF **MUST** perform data capture for security functions. - -R-04492 The VNF **MUST** generate security audit logs that must be sent -to Security Analytics Tools for analysis. - -R-19219 The VNF **MUST** provide audit logs that include user ID, dates, -times for log-on and log-off, and terminal location at minimum. - -R-30932 The VNF **MUST** provide security audit logs including records -of successful and rejected system access data and other resource access -attempts. - -R-54816 The VNF **MUST** support the storage of security audit logs -for agreed period of time for forensic analysis. - -R-57271 The VNF **MUST** provide the capability of generating security -audit logs by interacting with the operating system (OS) as appropriate. - -R-84160 The VNF **MUST** have security logging for VNFs and their -OSs be active from initialization. Audit logging includes automatic -routines to maintain activity records and cleanup programs to ensure -the integrity of the audit/logging systems. - -R-58964 The VNF **MUST** provide the capability to restrict read -and write access to data. - -R-99112 The VNF **MUST** provide the capability to restrict access -to data to specific users. - -R-83227 The VNF **MUST** Provide the capability to encrypt data in -transit on a physical or virtual network. - -R-32641 The VNF **MUST** provide the capability to encrypt data on -non-volatile memory. - -R-13151 The VNF **SHOULD** disable the paging of the data requiring -encryption, if possible, where the encryption of non-transient data is -required on a device for which the operating system performs paging to -virtual memory. If not possible to disable the paging of the data -requiring encryption, the virtual memory should be encrypted. - -R-93860 The VNF **MUST** provide the capability to integrate with an -external encryption service. - -R-73067 The VNF **MUST** use industry standard cryptographic algorithms -and standard modes of operations when implementing cryptography. - -R-22645 The VNF **SHOULD** use commercial algorithms only when there -are no applicable governmental standards for specific cryptographic -functions, e.g., public key cryptography, message digests. - -R-12467 The VNF **MUST NOT** use the SHA, DSS, MD5, SHA-1 and -Skipjack algorithms or other compromised encryption. - -R-02170 The VNF **MUST** use, whenever possible, standard implementations -of security applications, protocols, and format, e.g., S/MIME, TLS, SSH, -IPSec, X.509 digital certificates for cryptographic implementations. -These implementations must be purchased from reputable vendors and must -not be developed in-house. - -R-70933 The VNF **MUST** provide the ability to migrate to newer -versions of cryptographic algorithms and protocols with no impact. - -R-44723 The VNF **MUST** use symmetric keys of at least 112 bits in length. - -R-25401 The VNF **MUST** use asymmetric keys of at least 2048 bits in length. - -R-95864 The VNF **MUST** use commercial tools that comply with X.509 -standards and produce x.509 compliant keys for public/private key generation. - -R-12110 The VNF **MUST NOT** use keys generated or derived from -predictable functions or values, e.g., values considered predictable -include user identity information, time of day, stored/transmitted data. - -R-52060 The VNF **MUST** provide the capability to configure encryption -algorithms or devices so that they comply with the laws of the jurisdiction -in which there are plans to use data encryption. - -R-69610 The VNF **MUST** provide the capability of using certificates -issued from a Certificate Authority not provided by the VNF provider. - -R-83500 The VNF **MUST** provide the capability of allowing certificate -renewal and revocation. - -R-29977 The VNF **MUST** provide the capability of testing the validity -of a digital certificate by validating the CA signature on the certificate. - -R-24359 The VNF **MUST** provide the capability of testing the validity -of a digital certificate by validating the date the certificate is being -used is within the validity period for the certificate. - -R-39604 The VNF **MUST** provide the capability of testing the -validity of a digital certificate by checking the Certificate Revocation -List (CRL) for the certificates of that type to ensure that the -certificate has not been revoked. - -R-75343 The VNF **MUST** provide the capability of testing the -validity of a digital certificate by recognizing the identity represented -by the certificate — the "distinguished name". - -VNF Modularity -~~~~~~~~~~~~~~~~~~ - -R-37028 The VNF **MUST** be composed of one “base” module. - -R-41215 The VNF **MAY** have zero to many “incremental” modules. - -R-20974 The VNF **MUST** deploy the base module first, prior to -the incremental modules. - -R-11200 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. - -R-38474 The VNF **MUST** have a corresponding environment file for -a Base Module. - -R-81725 The VNF **MUST** have a corresponding environment file for -an Incremental Module. - -R-53433 The VNF **MUST** have a corresponding environment file for -a Cinder Volume Module. - -VNF Devops -~~~~~~~~~~~~~~ - -R-46960 NCSPs **MAY** operate a limited set of Guest OS and CPU -architectures and families, virtual machines, etc. - -R-23475 VNFCs **SHOULD** be agnostic to the details of the Network Cloud -(such as hardware, host OS, Hypervisor or container technology) and must run -on the Network Cloud with acknowledgement to the paradigm that the Network -Cloud will continue to rapidly evolve and the underlying components of -the platform will change regularly. - -R-33846 The VNF **MUST** install the NCSP required software on Guest OS -images when not using the NCSP provided Guest OS images. [5]_ - -R-09467 The VNF **MUST** utilize only NCSP standard compute flavors. [5]_ - -R-02997 The VNF **MUST** preserve their persistent data. Running VMs -will not be backed up in the Network Cloud infrastructure. - -R-29760 The VNFC **MUST** be installed on non-root file systems, -unless software is specifically included with the operating system -distribution of the guest image. - -R-20860 The VNF **MUST** be agnostic to the underlying infrastructure -(such as hardware, host OS, Hypervisor), any requirements should be -provided as specification to be fulfilled by any hardware. - -R-89800 The VNF **MUST NOT** require Hypervisor-level customization -from the cloud provider. - -R-86758 The VNF **SHOULD** provide an automated test suite to validate -every new version of the software on the target environment(s). The tests -should be of sufficient granularity to independently test various -representative VNF use cases throughout its lifecycle. Operations might -choose to invoke these tests either on a scheduled basis or on demand to -support various operations functions including test, turn-up and -troubleshooting. - -R-39650 The VNF **SHOULD** provide the ability to test incremental -growth of the VNF. - -R-14853 The VNF **MUST** respond to a "move traffic" [2]_ command -against a specific VNFC, moving all existing session elsewhere with -minimal disruption if a VNF provides a load balancing function across -multiple instances of its VNFCs. Note: Individual VNF performance -aspects (e.g., move duration or disruption scope) may require further -constraints. - -R-06327 The VNF **MUST** respond to a "drain VNFC" [2]_ command against -a specific VNFC, preventing new session from reaching the targeted VNFC, -with no disruption to active sessions on the impacted VNFC, if a VNF -provides a load balancing function across multiple instances of its VNFCs. -This is used to support scenarios such as proactive maintenance with no -user impact. - -R-64713 The VNF **SHOULD** support a software promotion methodology -from dev/test -> pre-prod -> production in software, development & -testing and operations. - -**VNF Modeling Requirements** -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -Heat -~~~~ - -R-95303 A VNF's Heat Orchestration Template **MUST** -be defined using valid YAML. - -R-27078 A VNF's Heat Orchestration template **MUST** contain -the section "heat_template_version:". - -R-39402 A VNF's Heat Orchestration Template **MUST** -contain the section "description:". - -R-35414 A VNF Heat Orchestration's template **MUST** -contain the section "parameters:". - -R-90279 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. - -R-91273 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. - -R-25877 A VNF's Heat Orchestration Template's parameter -name (i.e., ) **MUST** contain only -alphanumeric characters and underscores ('_'). - -R-36772 A VNF’s Heat Orchestration Template’s parameter -**MUST** include the attribute “type:”. - -R-11441 A VNF’s Heat Orchestration Template’s parameter -type **MUST** be one of the following values: "string", -"number", "json", "comma_delimited_list" or "boolean". - -R-32094 A VNF's Heat Orchestration Template parameter -declaration **MAY** contain the attribute "label:" - -R-44001 A VNF's Heat Orchestration Template parameter -declaration **MUST** contain the attribute "description". - -R-90526 A VNF Heat Orchestration Template parameter -declaration **MUST** not contain the default attribute. - -R-26124 If a VNF Heat Orchestration Template parameter -requires a default value, it **MUST** be enumerated in the environment file. - -R-32557 A VNF's Heat Orchestration Template parameter -declaration MAY contain the attribute "hidden:". - -R-88863 A VNF's Heat Orchestration Template's parameter defined as -type "number" **MUST** have a parameter constraint of "range" or -"allowed_values" defined. - -R-40518 A VNF's Heat Orchestration Template’s parameter defined as -type "string" **MAY** have a parameter constraint defined. - -R-96227 A VNF's Heat Orchestration Template’s parameter defined as -type "json" **MAY** have a parameter constraint defined. - -R-79817 A VNF's Heat Orchestration Template’s parameter defined as -type "comma_delimited_list" **MAY** have a parameter constraint defined. - -R-06613 A VNF's Heat Orchestration Template’s parameter defined as -type "boolean" **MAY** have a parameter constraint defined. - -R-00011 A VNF's Heat Orchestration Template's Nested YAML files -parameter's **MUST NOT** have a parameter constraint defined. - -R-22589 A VNF’s Heat Orchestration Template parameter declaration -**MAY** contain the attribute "immutable:". - -R-23664 A VNF's Heat Orchestration template **MUST** contain -the section "resources:". - -R-90152 A VNF's Heat Orchestration Template's "resources:" -section **MUST** contain the declaration of at least one resource. - -R-40551 A VNF's Heat Orchestration Template's Nested YAML files -**MAY** contain the section "resources:". - -R-75141 A VNF's Heat Orchestration Template's resource name -(i.e., ) **MUST** only contain alphanumeric -characters and underscores ('_'). - -R-16447 A VNF's **MUST** be unique across all -Heat Orchestration Templates and all HEAT Orchestration Template -Nested YAML files that are used to create the VNF. - -R-53952 A VNF’s Heat Orchestration Template’s Resource -**MUST NOT** reference a HTTP-based resource definitions. - -R-71699 A VNF’s Heat Orchestration Template’s Resource -**MUST NOT** reference a HTTP-based Nested YAML file. - -R-10834 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 - -R-97199 A VNF's Heat Orchestration Template's OS::Nova::Server -resource **MUST** contain the attribute "metadata". - -R-46968 VNF’s Heat Orchestration Template’s Resource **MAY** -declare the attribute “depends_on:”. - -R-63137 VNF’s Heat Orchestration Template’s Resource **MAY** -declare the attribute “update_policy:”. - -R-43740 A VNF’s Heat Orchestration Template’s Resource -**MAY** declare the attribute “deletion_policy:”. - -R-78569 A VNF’s Heat Orchestration Template’s Resouce **MAY** -declare the attribute “external_id:”. - -R-36982 A VNF’s Heat Orchestration template **MAY** contain the -“outputs:” section. - -R-86285 The VNF Heat Orchestration Template **MUST** have a corresponding -environment file, even if no parameters are required to be enumerated. - -R-86285 The VNF Heat Orchestration Template **MUST** have a -corresponding environment file, even if no parameters are required to be -enumerated. - -R-03324 The VNF Heat Orchestration Template **MUST** contain the -"parameters" section in the -environment file - -R-68198 A VNF’s Heat Orchestration template’s Environment File’s -“parameters:” section **MAY** enumerate parameters. - -R-59930 A VNF’s Heat Orchestration template’s Environment -File’s **MAY** contain the “parameter_defaults:” section. - -R-46096 A VNF’s Heat Orchestration template’s Environment File’s -**MAY** contain the “encrypted_parameters:” section. - -R-24893 A VNF’s Heat Orchestration template’s Environment File’s -**MAY** contain the “event_sinks:” section. - -R-42685 A VNF’s Heat Orchestration template’s Environment File’s -**MAY** contain the “parameter_merge_strategies:” section. - -R-67231 A VNF’s Heat Orchestration template’s Environment File’s **MUST NOT** -contain the “resource_registry:” section. - -R-69663 A VNF **MAY** be composed from one or more Heat Orchestration -Templates, each of which represents a subset of the overall VNF. - -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). - -R-13196 A VNF **MAY** be composed of zero to many Incremental Modules - -R-28980 A VNF’s incremental module **MAY** be used for initial VNF -deployment only. - -R-86926 A VNF’s incremental module **MAY** be used for scale out only. - -R-91497 A VNF’s incremental module **MAY** be used for both deployment -and scale out. - -R-68122 A VNF’s incremental module **MAY** be deployed more than once, -either during initial VNF deployment and/or scale out. - -R-46119 A VNF’s Heat Orchestration Template’s Resource OS::Heat::CinderVolume -**MAY** be defined in a Base Module. - -R-90748 A VNF’s Heat Orchestration Template’s Resource OS::Cinder::Volume -**MAY** be defined in an Incremental Module. - -R-03251 A VNF’s Heat Orchestration Template’s Resource OS::Cinder::Volume -**MAY** be defined in a Cinder Volume Module. - -R-11200 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. - -R-11200 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 - -R-36582 A VNF’s Base Module **MAY** utilize nested heat. - -R-56721 A VNF’s Incremental Module **MAY** utilize nested heat. - -R-30395 A VNF’s Cinder Volume Module **MAY** utilize nested heat. - -R-87485 A VNF’s Heat Orchestration Template’s file extension **MUST** -be in the lower case format ‘.yaml’ or ‘.yml’. - -R-56438 A VNF’s Heat Orchestration Template’s Nested YAML file extension -**MUST** be in the lower case format ‘.yaml’ or ‘.yml’. - -R-74304 A VNF’s Heat Orchestration Template’s Environment file extension -**MUST** be in the lower case format ‘.env’. - -R-81339 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: 1.) ‘base_.y[a]ml’, 2.) ‘_base.y[a]ml’, 3.) -‘base.y[a]ml’, or 4.) ‘_base_’.y[a]ml; where ‘base’ is case -insensitive and where ‘’ **MUST** contain only alphanumeric characters -and underscores ‘_’ and **MUST NOT** contain the case insensitive word ‘base’. - -R-91342 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’. - -R-87247 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’. - -R-94509 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’. - -R-82732 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’ - -R-31141 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’. - -R-76057 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’. - -R-18224 The VNF Heat Orchestration Template **MUST** pass in as properties -all parameter values -associated with the nested heat file in the resource definition defined -in the parent heat template. - -R-52753 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’. - -R-22608 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. - -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 other Output Parameters **MAY** be included. - -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’. - -R-20547 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. - -R-39349 A VNF Heat Orchestration Template **MUST NOT** be designed to -utilize the OpenStack ‘heat stack-update’ command for scaling -(growth/de-growth). - -R-43413 A VNF **MUST** utilize a modular Heat Orchestration Template -design to support scaling (growth/de-growth). - -R-59482 A VNF’s Heat Orchestration Template **MUST NOT** be VNF instance -specific or Cloud site specific - -R-56750 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. - -R-01896 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. - -R-16968 A VNF’s Heat Orchestration Templates **MUST NOT** include heat -resources to create external networks. - -R-00606 A VNF **MAY** be connected to zero, one or more than one external -networks. - -R-57424 A VNF’s port connected to an external network **MUST** connect the -port to VMs in another VNF and/or an external gateway and/or external router. - -R-29865 A VNF’s port connected to an external network **MUST NOT** connect -the port to VMs in the same VNF. - -R-69014 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. - -R-05201 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. - -R-83015 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. - -R-87096 A VNF **MAY** contain zero, one or more than one internal networks. - -R-35666 If a VNF has an internal network, the VNF Heat Orchestration -Template **MUST** include the heat resources to create the internal network. - -R-86972 A VNF **SHOULD** create the internal network in the VNF’s Heat -Orchestration Template Base Module. - -R-52425 A VNF’s port connected to an internal network **MUST** connect -the port to VMs in the same VNF. - -R-46461 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. - -R-68936 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. - -R-32025 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. - -R-69874 A VNF’s ‘{network-role}’ assigned to an internal network **MUST** -be different than the ‘{network-role}’ assigned to the VNF’s external -networks. - -R-34726 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. - -R-22688 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. - -R-01455 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: - -R-82481 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: - -R-66729 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. - -R-98407 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\_'. - -R-48067 A VNF's Heat Orchestration Template's {vm-type} **MUST NOT** be a -substring of {network-role}. - -R-32394 A VNF’s Heat Orchestration Template’s use of ‘{vm-type}’ -in all Resource property parameter names **MUST** be the same case. - -R-46839 A VNF’s Heat Orchestration Template’s use of -‘{vm-type}’ in all Resource IDs **MUST** be the same case. - -R-36687 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. - -R-21330 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 - -R-11168 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. - -R-84322 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. - -R-96983 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. - -R-26506 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\_'. - -R-00977 A VNF’s Heat Orchestration Template’s ‘{network-role}’ -**MUST NOT** be a substring of ‘{vm-type}’. - -R-58424 A VNF’s Heat Orchestration Template’s use of ‘{network-role}’ -in all Resource property parameter names **MUST** be the same case - -R-21511 A VNF’s Heat Orchestration Template’s use of ‘{network-role}’ -in all Resource IDs **MUST** be the same case. - -R-86588 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. - -R-54517 When a VNF’s Heat Orchestration Template’s resource is associated -with a single ‘{vm-type}’, the Resource ID **MUST** contain the ‘{vm-type}’. - -R-96482 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}’. - -R-98138 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}’. - -R-82115 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. - -R-82551 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. - -R-67793 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 - -R-27970 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. - -R-11690 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. - -R-71152 The VNF’s Heat Orchestration Template’s Resource -‘OS::Nova::Server’ property ‘image’ parameter **MUST** be declared as -type: ‘string’. - -R-58670 The VNF’s Heat Orchestration Template’s Resource -‘OS::Nova::Server’ property ‘image’ parameter name **MUST** follow the -naming convention ‘{vm-type}_image_name’. - -R-91125 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. - -R-57282 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. - -R-50436 The VNF’s Heat Orchestration Template’s Resource -‘OS::Nova::Server’ property ‘flavor’ parameter **MUST** be declared as -type: ‘string’. - -R-45188 The VNF’s Heat Orchestration Template’s Resource -‘OS::Nova::Server’ property ‘flavor’ parameter name **MUST** follow the -naming convention ‘{vm-type}_flavor_name’. - -R-69431 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. - -R-40499 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. - -R-51430 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”. - -R-54171 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. - -R-40899 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}’. - -R-87817 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’. - -R-85800 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}’. - -R-22838 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. - -R-44271 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. - -R-98450 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. - -R-23311 The VNF’s Heat Orchestration Template’s Resource -‘OS::Nova::Server’ property ‘availability_zone’ parameter **MUST** -be declared as type: ‘string’. - -R-59568 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. - -R-01359 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. - -R-99798 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. - -R-83706 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. - -R-69588 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. - -R-37437 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource **MUST** contain the metadata map value parameter ‘vnf_id’. - -R-07507 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource metadata map value parameter ‘vnf_id’ **MUST** be declared -as type: ‘string’. - -R-55218 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource metadata map value parameter ‘vnf_id’ **MUST NOT** have -parameter contraints defined. - -R-20856 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. - -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. - -R-71493 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource **MUST** contain the metadata map value parameter -‘vf\_module\_id’. - -R-82134 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource metadata map value parameter ‘vf\_module\_id’ **MUST** -be declared as type: ‘string’. - -R-98374 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource metadata map value parameter ‘vf\_module\_id’ **MUST NOT** -have parameter contraints defined. - -R-72871 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. - -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. - -R-72483 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource **MUST** contain the metadata map value parameter -‘vnf_name’. - -R-62428 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource metadata map value parameter ‘vnf_name’ **MUST** be -declared as type: ‘string’. - -R-44318 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource metadata map value parameter ‘vnf_name’ **MUST NOT** have -parameter contraints defined. - -R-36542 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. - -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. - -R-68023 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource **SHOULD** contain the metadata map value parameter -‘vf\_module\_name’. - -R-39067 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource metadata map value parameter ‘vf\_module\_name’ **MUST** -be declared as type: ‘string’. - -R-15480 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource metadata map value parameter ‘vf\_module\_name’ -**MUST NOT** have parameter contraints defined. - -R-80374 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. - -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. - -R-85328 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource **MAY** contain the metadata map value parameter ‘vm_role’. - -R-95430 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource metadata map value parameter ‘vm_role’ **MUST** be -declared as type: ‘string’. - -R-67597 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource metadata map value parameter ‘vm_role’ **MUST NOT** have -parameter contraints defined. - -R-46823 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. - -R-86476 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 ‘_’. - -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. - -R-50816 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource **MAY** contain the metadata map value parameter -‘vf\_module\_index’. - -R-54340 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource metadata map value parameter ‘vf\_module\_index’ **MUST** be -declared as type: ‘number’. - -R-09811 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource metadata map value parameter ‘vf\_module\_index’ **MUST NOT** -have parameter contraints defined. - -R-37039 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. - -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. - -R-55306 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. - -R-47061 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource **SHOULD** contain the metadata map value parameter -‘workload_context’. - -R-74978 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource metadata map value parameter ‘workload_context’ **MUST** be -declared as type: ‘string’. - -R-34055 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource metadata map value parameter ‘workload_context’ **MUST NOT** -have parameter contraints defined. - -R-02691 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. - -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. - -R-88536 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource **SHOULD** contain the metadata map value parameter -‘environment_context’. - -R-20308 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource metadata map value parameter ‘environment_context’ **MUST** -be declared as type: ‘string’. - -R-56183 A VNF’s Heat Orchestration Template’s OS::Nova::Server -Resource metadata map value parameter ‘environment_context’ **MUST NOT** -have parameter contraints defined. - -R-13194 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. - -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. - -R-18008 The VNF’s Heat Orchestration Template’s Resource ‘OS::Neutron::Port’ -property ‘network’ parameter **MUST** be declared as type: ‘string’. - -R-62983 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. - -R-86182 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. - -R-93177 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. - -R-29872 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. - -R-34037 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’. - -R-40971 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 - -R-39841 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. - -R-04697 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 - -R-98905 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. - -R-71577 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 - -R-87123 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. - -R-23503 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 - -R-93030 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. - -R-78380 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 - -R-28795 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. - -R-85235 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 - -R-90206 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. - -R-27818 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 - -R-97201 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. - -R-29765 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 - -R-98569 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. - -R-62590 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. - -R-93496 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. - -R-38236 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’. - -R-62802 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. - -R-83677 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. - -R-15287 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. - -R-80829 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. - -R-84123 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. - -R-69634 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. - -R-76160 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. - -R-22288 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. - -R-61282 The VNF Heat Orchestration Template **MUST** -adhere to the following naming convention for the property -allowed\_address\_pairs and Map Property ip\_address parameter, -when the parameter is referencing an “external” network: - -- {vm-type}\_{network-role}\_floating\_ip for an IPv4 address - -- {vm-type}\_{network-role}\_floating\_v6\_ip for an IPv6 address - -R-16805 The VNF Heat Orchestration Template **MUST** adhere to the -following naming convention for the property allowed\_address\_pairs -and Map Property ip\_address parameter when the parameter is -referencing an “internal” network. - -R-85734 The VNF Heat Orchestration Template **MUST** use the -intrinsic function str\_replace in conjunction with the ONAP -supplied metadata parameter vnf\_name to generate a unique value, -when the property name for a non OS::Nova::Server resources is defined -in a Heat Orchestration Template. - -R-47788 The VNF Heat Orchestration Template **MUST** have a 1:1 -scope of a cinder volume module, when it exists, with the Base -Module or Incremental Module - -R-86285 The VNF Heat Orchestration Template **MUST** have a corresponding -environment file, even if no parameters are required to be enumerated. - -R-86285 The VNF Heat Orchestration Template **MUST** have a -corresponding environment file, even if no parameters are required to be -enumerated. - -R-67205 The VNF Heat Orchestration Template **MUST** have a corresponding -environment file for a Base Module. - -R-35727 The VNF Heat Orchestration Template **MUST** have a -corresponding environment file for an Incremental module. - -R-22656 The VNF Heat Orchestration Template **MUST** have a -corresponding environment file for a Cinder Volume Module. - -R-89868 The VNF Heat Orchestration Template **MUST** have unique -file names within the scope of the VNF for a nested heat yaml file. - -R-52530 The VNF Heat Orchestration Template **MUST NOT** use a -directory hierarchy for nested templates. All templates must be -in a single, flat directory (per VNF). - -R-76718 The VNF Heat Orchestration Template **MUST** reference the -get\_files targets in Heat templates by file name, and the corresponding -files should be delivered to ONAP along with the Heat templates. - -R-41888 The VNE Heat **MUST NOT** use URL-based file retrieval. - -R-62177 The VNF Heat Orchestration Template **MUST** have unique -file names for the included files within the scope of the VNF. - -**ONAP Management Requirements** -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - - -VNF On-boarding and package management -~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ - - -R-77707 The xNF provider **MUST** include a Manifest File that -contains a list of all the components in the xNF package. - -R-66070 The xNF Package **MUST** include xNF Identification Data to -uniquely identify the resource for a given xNF provider. The identification -data must include: an identifier for the xNF, the name of the xNF as was -given by the xNF provider, xNF description, xNF provider, and version. - -R-69565 The xNF Package **MUST** include documentation describing xNF -Management APIs, which must include information and tools for ONAP to -deploy and configure (initially and ongoing) the xNF application(s) -(e.g., NETCONF APIs) which includes a description of configurable -parameters for the xNF and whether the parameters can be configured -after xNF instantiation. - -R-00156 The xNF Package **MUST** include documentation describing xNF -Management APIs, which must include information and tools for ONAP -to monitor the health of the xNF (conditions that require healing -and/or scaling responses). - -R-00068 The xNF Package **MUST** include documentation which includes -a description of parameters that can be monitored for the xNF and -event records (status, fault, flow, session, call, control plane, -etc.) generated by the xNF after instantiation. - -R-12678 The xNF Package **MUST** include documentation which includes a -description of runtime lifecycle events and related actions (e.g., -control responses, tests) which can be performed for the xNF. - -R-84366 The xNF Package **MUST** include documentation describing -xNF Functional APIs that are utilized to build network and -application services. This document describes the externally exposed -functional inputs and outputs for the xNF, including interface -format and protocols supported. - -R-36280 The xNF provider **MUST** provide documentation describing -xNF Functional Capabilities that are utilized to operationalize the -xNF and compose complex services. - -R-98617 The xNF provider **MUST** provide information regarding any -dependency (e.g., affinity, anti-affinity) with other xNFs and resources. - -R-89571 The xNF **MUST** support and provide artifacts for configuration -management using at least one of the following technologies; -a) Netconf/YANG, b) Chef, or c) Ansible. - -R-30278 The xNF provider **MUST** provide a Resource/Device YANG model -as a foundation for creating the YANG model for configuration. This will -include xNF attributes/parameters and valid values/attributes configurable -by policy. - -R-13390 The xNF provider **MUST** provide cookbooks to be loaded -on the appropriate Chef Server. - -R-18525 The xNF provider **MUST** provide a JSON file for each -supported action for the xNF. The JSON file must contain key value -pairs with all relevant values populated with sample data that illustrates -its usage. The fields and their description are defined in Tables A1 -and A2 in the Appendix. - -R-75608 The xNF provider **MUST** provide playbooks to be loaded -on the appropriate Ansible Server. - -R-16777 The xNF provider **MUST** provide a JSON file for each -supported action for the xNF. The JSON file must contain key value -pairs with all relevant values populated with sample data that illustrates -its usage. The fields and their description are defined in Table B1 in -the Appendix. - -R-46567 The xNF Package **MUST** include configuration scripts -for boot sequence and configuration. - -R-16065 The xNF provider **MUST** provide configurable parameters -(if unable to conform to YANG model) including xNF attributes/parameters -and valid values, dynamic attributes and cross parameter dependencies -(e.g., customer provisioning data). - -R-22888 The xNF provider **MUST** provide documentation for the xNF -Policy Description to manage the xNF runtime lifecycle. The document -must include a description of how the policies (conditions and actions) -are implemented in the xNF. - -R-01556 The xNF Package **MUST** include documentation describing the -fault, performance, capacity events/alarms and other event records -that are made available by the xNF. - -R-16875 The xNF Package **MUST** include documentation which must include -a unique identification string for the specific xNF, a description of -the problem that caused the error, and steps or procedures to perform -Root Cause Analysis and resolve the issue. - -R-35960 The xNF Package **MUST** include documentation which must include -all events, severity level (e.g., informational, warning, error) and -descriptions including causes/fixes if applicable for the event. - -R-42018 The xNF Package **MUST** include documentation which must include -all events (fault, measurement for xNF Scaling, Syslogs, State Change -and Mobile Flow), that need to be collected at each VM, VNFC (defined in `VNF Guidelines `__ ) and for the overall xNF. - -R-27711 The xNF provider **MUST** provide an XML file that contains a -list of xNF error codes, descriptions of the error, and possible -causes/corrective action. - -R-01478 The xNF Package **MUST** include documentation describing all -parameters that are available to monitor the xNF after instantiation -(includes all counters, OIDs, PM data, KPIs, etc.) that must be -collected for reporting purposes. - -R-73560 The xNF Package **MUST** include documentation about monitoring -parameters/counters exposed for virtual resource management and xNF -application management. - -R-90632 The xNF Package **MUST** include documentation about KPIs and -metrics that need to be collected at each VM for capacity planning -and performance management purposes. - -R-86235 The xNF Package **MUST** include documentation about the monitoring -parameters that must include latencies, success rates, retry rates, load -and quality (e.g., DPM) for the key transactions/functions supported by -the xNF and those that must be exercised by the xNF in order to perform -its function. - -R-33904 The xNF Package **MUST** include documentation for each KPI, provide -lower and upper limits. - -R-53598 The xNF Package **MUST** include documentation to, when relevant, -provide a threshold crossing alert point for each KPI and describe the -significance of the threshold crossing. - -R-69877 The xNF Package **MUST** include documentation for each KPI, -identify the suggested actions that need to be performed when a -threshold crossing alert event is recorded. - -R-22680 The xNF Package **MUST** include documentation that describes -any requirements for the monitoring component of tools for Network -Cloud automation and management to provide these records to components -of the xNF. - -R-33694 The xNF Package **MUST** include documentation to when applicable, -provide calculators needed to convert raw data into appropriate reporting -artifacts. - -R-56815 The xNF Package **MUST** include documentation describing -supported xNF scaling capabilities and capacity limits (e.g., number -of users, bandwidth, throughput, concurrent calls). - -R-48596 The xNF Package **MUST** include documentation describing -the characteristics for the xNF reliability and high availability. - -R-74763 The xNF provider **MUST** provide an artifact per xNF that contains -all of the xNF Event Records supported. The artifact should include reference -to the specific release of the xNF Event Stream Common Event Data Model -document it is based on. (e.g., `VES Event Listener `__) - -R-35851 The xNF Package **MUST** include xNF topology that describes -basic network and application connectivity internal and external to the -xNF including Link type, KPIs, Bandwidth, latency, jitter, QoS (if -applicable) for each interface. - -R-97102 The VNF Package **MUST** include VM requirements via a Heat -template that provides the necessary data for VM specifications -for all VNF components - for hypervisor, CPU, memory, storage. - -R-20204 The VNF Package **MUST** include VM requirements via a Heat -template that provides the necessary data for network connections, -interface connections, internal and external to VNF. - -R-44896 The VNF Package **MUST** include VM requirements via a Heat -template that provides the necessary data for high availability -redundancy model. - -R-55802 The VNF Package **MUST** include VM requirements via a Heat -template that provides the necessary data for scaling/growth VM -specifications. - -R-26881 The xNF provider **MUST** provide the binaries and images -needed to instantiate the xNF (xNF and VNFC images). - -R-96634 The xNF provider **MUST** describe scaling capabilities -to manage scaling characteristics of the xNF. - -R-43958 The xNF Package **MUST** include documentation describing -the tests that were conducted by the xNF providor and the test results. - -R-04298 The xNF provider **MUST** provide their testing scripts to -support testing. - -R-58775 The xNF provider **MUST** provide software components that -can be packaged with/near the xNF, if needed, to simulate any functions -or systems that connect to the xNF system under test. This component is -necessary only if the existing testing environment does not have the -necessary simulators. - -R-85653 The xNF **MUST** provide metrics (e.g., number of sessions, -number of subscribers, number of seats, etc.) to ONAP for tracking -every license. - -R-44125 The xNF provider **MUST** agree to the process that can -be met by Service Provider reporting infrastructure. The Contract -shall define the reporting process and the available reporting tools. - -R-40827 The xNF provider **MUST** enumerate all of the open -source licenses their xNF(s) incorporate. - -R-97293 The xNF provider **MUST NOT** require audits of -Service Provider’s business. - -R-44569 The xNF provider **MUST NOT** require additional -infrastructure such as a xNF provider license server for xNF provider -functions and metrics. - -R-13613 The VNF **MUST** provide clear measurements for licensing -purposes to allow automated scale up/down by the management system. - -R-27511 The VNF provider **MUST** provide the ability to scale -up a VNF provider supplied product during growth and scale down a -VNF provider supplied product during decline without “real-time” -restrictions based upon VNF provider permissions. - -R-85991 The xNF provider **MUST** provide a universal license key -per xNF to be used as needed by services (i.e., not tied to a VM -instance) as the recommended solution. The xNF provider may provide -pools of Unique xNF License Keys, where there is a unique key for -each xNF instance as an alternate solution. Licensing issues should -be resolved without interrupting in-service xNFs. - -R-47849 The xNF provider **MUST** support the metadata about -licenses (and their applicable entitlements) as defined in this -document for xNF software, and any license keys required to authorize -use of the xNF software. This metadata will be used to facilitate -onboarding the xNF into the ONAP environment and automating processes -for putting the licenses into use and managing the full lifecycle of -the licenses. The details of this license model are described in -Tables C1 to C8 in the Appendix. Note: License metadata support in -ONAP is not currently available and planned for 1Q 2018. - -Configuration Management -~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ - -R-20741 The xNF **MUST** support ONAP Controller’s **Configure** command. - -R-19366 The xNF **MUST** support ONAP Controller’s **ConfigModify** command. - -R-32981 The xNF **MUST** support ONAP Controller’s **ConfigBackup** command. - -R-48247 The xNF **MUST** support ONAP Controller’s **ConfigRestore** command. - -R-94084 The xNF **MUST** support ONAP Controller’s **ConfigScaleOut** -command. - -R-56385 The xNF **MUST** support ONAP Controller’s **Audit** command. - -R-12706 The xNF **MUST** support ONAP Controller’s **QuiesceTraffic** -command. - -R-07251 The xNF **MUST** support ONAP Controller’s **ResumeTraffic** -command. - -R-83146 The xNF **MUST** support ONAP Controller’s **StopApplication** -command. - -R-82811 The xNF **MUST** support ONAP Controller’s **StartApplication** -command. - -R-19922 The xNF **MUST** support ONAP Controller’s **UpgradePrecheck** -command. - -R-49466 The xNF **MUST** support ONAP Controller’s **UpgradeSoftware** -command. - -R-45856 The xNF **MUST** support ONAP Controller’s **UpgradePostCheck** -command. - -R-97343 The xNF **MUST** support ONAP Controller’s **UpgradeBackup** -command. - -R-65641 The xNF **MUST** support ONAP Controller’s **UpgradeBackOut** -command. - -R-11790 The VNF **MUST** support ONAP Controller’s -**Restart (stop/start or reboot)** command. - -R-56218 The VNF **MUST** support ONAP Controller’s Migrate command that -moves container (VM) from a live Physical Server / Compute Node to -another live Physical Server / Compute Node. - -R-38001 The VNF MUST support ONAP Controller’s **Rebuild** command. - -R-76901 VNF MUST support a container rebuild mechanism based on existing -image (e.g. Glance image in Openstack environment) or a snapshot. - -R-41430 The xNF **MUST** support ONAP Controller’s **HealthCheck** -command. - -R-88026 The xNF **MUST** include a NETCONF server enabling -runtime configuration and lifecycle management capabilities. - -R-95950 The xNF **MUST** provide a NETCONF interface fully defined -by supplied YANG models for the embedded NETCONF server. - -R-73468 The xNF **MUST** allow the NETCONF server connection -parameters to be configurable during virtual machine instantiation -through Heat templates where SSH keys, usernames, passwords, SSH -service and SSH port numbers are Heat template parameters. - -R-90007 The xNF **MUST** implement the protocol operation: -**close-session()**- Gracefully close the current session. - -R-70496 The xNF **MUST** implement the protocol operation: -**commit(confirmed, confirm-timeout)** - Commit candidate -configuration datastore to the running configuration. - -R-18733 The xNF **MUST** implement the protocol operation: -**discard-changes()** - Revert the candidate configuration -datastore to the running configuration. - -R-44281 The xNF **MUST** implement the protocol operation: -**edit-config(target, default-operation, test-option, error-option, -config)** - Edit the target configuration datastore by merging, -replacing, creating, or deleting new config elements. - -R-60106 The xNF **MUST** implement the protocol operation: -**get(filter)** - Retrieve (a filtered subset of) the running -configuration and device state information. This should include -the list of xNF supported schemas. - -R-29488 The xNF **MUST** implement the protocol operation: -**get-config(source, filter)** - Retrieve a (filtered subset of -a) configuration from the configuration datastore source. - -R-11235 The xNF **MUST** implement the protocol operation: -**kill-session(session)** - Force the termination of **session**. - -R-02597 The xNF **MUST** implement the protocol operation: -**lock(target)** - Lock the configuration datastore target. - -R-96554 The xNF **MUST** implement the protocol operation: -**unlock(target)** - Unlock the configuration datastore target. - -R-29324 The xNF **SHOULD** implement the protocol operation: -**copy-config(target, source) -** Copy the content of the -configuration datastore source to the configuration datastore target. - -R-88031 The xNF **SHOULD** implement the protocol operation: -**delete-config(target) -** Delete the named configuration -datastore target. - -R-97529 The xNF **SHOULD** implement the protocol operation: -**get-schema(identifier, version, format) -** Retrieve the YANG schema. - -R-62468 The xNF **MUST** allow all configuration data to be -edited through a NETCONF operation. Proprietary -NETCONF RPCs that make configuration changes are not sufficient. - -R-01382 The xNF **MUST** allow the entire configuration of the -xNF to be retrieved via NETCONF's and , -independently of whether it was configured via NETCONF or other -mechanisms. - -R-28756 The xNF **MUST** support **:partial-lock** and -**:partial-unlock** capabilities, defined in RFC 5717. This -allows multiple independent clients to each write to a different -part of the configuration at the same time. - -R-83873 The xNF **MUST** support **:rollback-on-error** value for -the parameter to the operation. If any -error occurs during the requested edit operation, then the target -database (usually the running configuration) will be left unaffected. -This provides an 'all-or-nothing' edit mode for a single -request. - -R-68990 The xNF **MUST** support the **:startup** capability. It -will allow the running configuration to be copied to this special -database. It can also be locked and unlocked. - -R-68200 The xNF **MUST** support the **:url** value to specify -protocol operation source and target parameters. The capability URI -for this feature will indicate which schemes (e.g., file, https, sftp) -that the server supports within a particular URL value. The 'file' -scheme allows for editable local configuration databases. The other -schemes allow for remote storage of configuration databases. - -R-20353 The xNF **MUST** implement both **:candidate** and -**:writable-running** capabilities. When both **:candidate** and -**:writable-running** are provided then two locks should be supported. - -R-11499 The xNF **MUST** fully support the XPath 1.0 specification -for filtered retrieval of configuration and other database contents. -The 'type' attribute within the parameter for and - operations may be set to 'xpath'. The 'select' attribute -(which contains the XPath expression) will also be supported by the -server. A server may support partial XPath retrieval filtering, but -it cannot advertise the **:xpath** capability unless the entire XPath -1.0 specification is supported. - -R-83790 The xNF **MUST** implement the **:validate** capability - -R-49145 The xNF **MUST** implement **:confirmed-commit** If -**:candidate** is supported. - -R-58358 The xNF **MUST** implement the **:with-defaults** capability -[RFC6243]. - -R-59610 The xNF **MUST** implement the data model discovery and -download as defined in [RFC6022]. - -R-93443 The xNF **MUST** define all data models in YANG [RFC6020], -and the mapping to NETCONF shall follow the rules defined in this RFC. - -R-26115 The xNF **MUST** follow the data model upgrade rules defined -in [RFC6020] section 10. All deviations from section 10 rules shall -be handled by a built-in automatic upgrade mechanism. - -R-10716 The xNF **MUST** support parallel and simultaneous -configuration of separate objects within itself. - -R-29495 The xNF **MUST** support locking if a common object is -being manipulated by two simultaneous NETCONF configuration operations -on the same xNF within the context of the same writable running data -store (e.g., if an interface parameter is being configured then it -should be locked out for configuration by a simultaneous configuration -operation on that same interface parameter). - -R-53015 The xNF **MUST** apply locking based on the sequence of -NETCONF operations, with the first configuration operation locking -out all others until completed. - -R-02616 The xNF **MUST** permit locking at the finest granularity -if a xNF needs to lock an object for configuration to avoid blocking -simultaneous configuration operations on unrelated objects (e.g., BGP -configuration should not be locked out if an interface is being -configured or entire Interface configuration should not be locked out -if a non-overlapping parameter on the interface is being configured). - -R-41829 The xNF **MUST** be able to specify the granularity of the -lock via a restricted or full XPath expression. - -R-66793 The xNF **MUST** guarantee the xNF configuration integrity -for all simultaneous configuration operations (e.g., if a change is -attempted to the BUM filter rate from multiple interfaces on the same -EVC, then they need to be sequenced in the xNF without locking either -configuration method out). - -R-54190 The xNF **MUST** release locks to prevent permanent lock-outs -when/if a session applying the lock is terminated (e.g., SSH session -is terminated). - -R-03465 The xNF **MUST** release locks to prevent permanent lock-outs -when the corresponding operation succeeds. - -R-63935 The xNF **MUST** release locks to prevent permanent lock-outs -when a user configured timer has expired forcing the NETCONF SSH Session -termination (i.e., product must expose a configuration knob for a user -setting of a lock expiration timer) - -R-10173 The xNF **MUST** allow another NETCONF session to be able to -initiate the release of the lock by killing the session owning the lock, -using the operation to guard against hung NETCONF sessions. - -R-88899 The xNF **MUST** support simultaneous operations -within the context of this locking requirements framework. - -R-07545 The xNF **MUST** support all operations, administration and -management (OAM) functions available from the supplier for xNFs using -the supplied YANG code and associated NETCONF servers. - -R-60656 The xNF **MUST** support sub tree filtering. - -R-80898 The xNF **MUST** support heartbeat via a with null filter. - -R-25238 The xNF PACKAGE **MUST** validated YANG code using the open -source pyang [3]_ program using the following commands: - -R-63953 The xNF **MUST** have the echo command return a zero value -otherwise the validation has failed - -R-26508 The xNF **MUST** support a NETCONF server that can be mounted on -OpenDaylight (client) and perform the operations of: modify, update, -change, rollback configurations using each configuration data element, -query each state (non-configuration) data element, execute each YANG -RPC, and receive data through each notification statement. - -R-28545 The xNF **MUST** conform its YANG model to RFC 6060, -“YANG - A Data Modeling Language for the Network Configuration -Protocol (NETCONF)” - -R-22700 The xNF **MUST** conform its YANG model to RFC 6470, -“NETCONF Base Notifications”. - -R-10353 The xNF **MUST** conform its YANG model to RFC 6244, -“An Architecture for Network Management Using NETCONF and YANG”. - -R-53317 The xNF **MUST** conform its YANG model to RFC 6087, -“Guidelines for Authors and Reviewers of YANG Data Model Documents”. - -R-33955 The xNF **SHOULD** conform its YANG model to RFC 6991, -“Common YANG Data Types”. - -R-22946 The xNF **SHOULD** conform its YANG model to RFC 6536, -“NETCONF Access Control Model”. - -R-10129 The xNF **SHOULD** conform its YANG model to RFC 7223, -“A YANG Data Model for Interface Management”. - -R-12271 The xNF **SHOULD** conform its YANG model to RFC 7223, -“IANA Interface Type YANG Module”. - -R-49036 The xNF **SHOULD** conform its YANG model to RFC 7277, -“A YANG Data Model for IP Management”. - -R-87564 The xNF **SHOULD** conform its YANG model to RFC 7317, -“A YANG Data Model for System Management”. - -R-24269 The xNF **SHOULD** conform its YANG model to RFC 7407, -“A YANG Data Model for SNMP Configuration”, if Netconf used to -configure SNMP engine. - -R-33946 The xNF **MUST** conform to the NETCONF RFC 4741, -“NETCONF Configuration Protocol”. - -R-04158 The xNF **MUST** conform to the NETCONF RFC 4742, -“Using the NETCONF Configuration Protocol over Secure Shell (SSH)”. - -R-13800 The xNF **MUST** conform to the NETCONF RFC 5277, -“NETCONF Event Notification”. - -R-01334 The xNF **MUST** conform to the NETCONF RFC 5717, -“Partial Lock Remote Procedure Call”. - -R-08134 The xNF **MUST** conform to the NETCONF RFC 6241, -“NETCONF Configuration Protocol”. - -R-78282 The xNF **MUST** conform to the NETCONF RFC 6242, -“Using the Network Configuration Protocol over Secure Shell”. - -R-31809 The xNF **MUST** support the HealthCheck RPC. The HealthCheck -RPC executes a xNF Provider-defined xNF HealthCheck over the scope of -the entire xNF (e.g., if there are multiple VNFCs, then run a health check, -as appropriate, for all VNFCs). It returns a 200 OK if the test completes. -A JSON object is returned indicating state (healthy, unhealthy), scope -identifier, time-stamp and one or more blocks containing info and fault -information. If the xNF is unable to run the HealthCheck, return a -standard http error code and message. - -R-79224 The xNF **MUST** have the chef-client be preloaded with -validator keys and configuration to register with the designated -Chef Server as part of the installation process. - -R-72184 The xNF **MUST** have routable FQDNs for all the endpoints -(VMs) of a xNF that contain chef-clients which are used to register -with the Chef Server. As part of invoking xNF actions, ONAP will -trigger push jobs against FQDNs of endpoints for a xNF, if required. - -R-47068 The xNF **MAY** expose a single endpoint that is -responsible for all functionality. - -R-67114 The xNF **MUST** be installed with Chef-Client >= 12.0 and -Chef push jobs client >= 2.0. - -R-27310 The xNF Package **MUST** include all relevant Chef artifacts -(roles/cookbooks/recipes) required to execute xNF actions requested by -ONAP for loading on appropriate Chef Server. - -R-26567 The xNF Package **MUST** include a run list of -roles/cookbooks/recipes, for each supported xNF action, that will -perform the desired xNF action in its entirety as specified by ONAP -(see Section 7.c, ONAP Controller APIs and Behavior, for list of xNF -actions and requirements), when triggered by a chef-client run list -in JSON file. - -R-98911 The xNF **MUST NOT** use any instance specific parameters -for the xNF in roles/cookbooks/recipes invoked for a xNF action. - -R-37929 The xNF **MUST** accept all necessary instance specific -data from the environment or node object attributes for the xNF -in roles/cookbooks/recipes invoked for a xNF action. - -R-62170 The xNF **MUST** over-ride any default values for -configurable parameters that can be set by ONAP in the roles, -cookbooks and recipes. - -R-78116 The xNF **MUST** update status on the Chef Server -appropriately (e.g., via a fail or raise an exception) if the -chef-client run encounters any critical errors/failures when -executing a xNF action. - -R-44013 The xNF **MUST** populate an attribute, defined as node -[‘PushJobOutput’] with the desired output on all nodes in the push job -that execute chef-client run if the xNF action requires the output of a -chef-client run be made available (e.g., get running configuration). - -R-30654 The xNF Package **MUST** have appropriate cookbooks that are -designed to automatically ‘rollback’ to the original state in case of -any errors for actions that change state of the xNF (e.g., configure). - -R-65755 The xNF **SHOULD** support callback URLs to return information -to ONAP upon completion of the chef-client run for any chef-client run -associated with a xNF action. - -R-15885 The xNF **MUST** Upon completion of the chef-client run, -POST back on the callback URL, a JSON object as described in Table -A2 if the chef-client run list includes a cookbook/recipe that is -callback capable. Failure to POST on the Callback Url should not be -considered a critical error. That is, if the chef-client successfully -completes the xNF action, it should reflect this status on the Chef -Server regardless of whether the Callback succeeded or not. - -R-32217 The xNF **MUST** have routable FQDNs that are reachable via -the Ansible Server for the endpoints (VMs) of a xNF on which playbooks -will be executed. ONAP will initiate requests to the Ansible Server -for invocation of playbooks against these end points [4]_. - -R-54373 The xNF **MUST** have Python >= 2.6 on the endpoint VM(s) -of a xNF on which an Ansible playbook will be executed. - -R-35401 The xNF **MUST** support SSH and allow SSH access by the -Ansible server for the endpoint VM(s) and comply with the Network -Cloud Service Provider guidelines for authentication and access. - -R-82018 The xNF **MUST** load the Ansible Server SSH public key onto xNF -VM(s) as part of instantiation. This will allow the Ansible Server -to authenticate to perform post-instantiation configuration without -manual intervention and without requiring specific xNF login IDs -and passwords. - -R-92866 The xNF **MUST** include as part of post-instantiation configuration -done by Ansible Playbooks the removal/update of the SSH public key from -/root/.ssh/authorized_keys, and update of SSH keys loaded through -instantiation to support Ansible. This may include download and install of -new SSH keys and new mechanized IDs. - -R-91745 The xNF **MUST** update the Ansible Server and other entities -storing and using the SSH keys for authentication when the SSH keys used -by Ansible are regenerated/updated. - -R-40293 The xNF **MUST** make available playbooks that conform -to the ONAP requirement. - -R-49396 The xNF **MUST** support each ONAP (APPC) xNF action by invocation -of **one** playbook [7]_. The playbook will be responsible -for executing all necessary tasks (as well as calling other playbooks) -to complete the request. - -R-33280 The xNF **MUST NOT** use any instance specific parameters -in a playbook. - -R-48698 The xNF **MUST** utilize information from key value pairs -that will be provided by the Ansible Server as "extra-vars" during -invocation to execute the desired xNF action. If the playbook requires -files, they must also be supplied using the methodology detailed in -the Ansible Server API, unless they are bundled with playbooks, example, -generic templates. - -R-43253 The xNF **MUST** use playbooks designed to allow Ansible -Server to infer failure or success based on the “PLAY_RECAP” capability. -NOTE: There are cases where playbooks need to interpret results of a task -and then determine success or failure and return result accordingly -(failure for failed tasks). - -R-50252 The xNF **MUST** write to a specific one text files that -will be retrieved and made available by the Ansible Server if, as part -of a xNF action (e.g., audit), a playbook is required to return any -xNF information. The text files must be written in the same directory as -the one from which the playbook is being executed. A text file must be -created for the xNF playbook run targets/affects, with the name -‘_results.txt’ into which any desired output from each -respective VM/xNF must be written. - -R-51442 The xNF **SHOULD** use playbooks that are designed to -automatically ‘rollback’ to the original state in case of any errors -for actions that change state of the xNF (e.g., configure). - -R-58301 The xNF **SHOULD NOT** use playbooks that make requests to -Cloud resources e.g. Openstack (nova, neutron, glance, heat, etc.); -therefore, there is no use for Cloud specific variables like Openstack -UUIDs in Ansible Playbooks. - -R-02651 The xNF **SHOULD** use the Ansible backup feature to save a -copy of configuration files before implementing changes to support -operations such as backing out of software upgrades, configuration -changes or other work as this will help backing out of configuration -changes when needed. - -R-43353 The xNF **MUST** return control from Ansible Playbooks only -after tasks are fully complete, signaling that the playbook completed -all tasks. When starting services, return control only after all services -are up. This is critical for workflows where the next steps are dependent - -R-51910 The xNF **MUST** provide all telemetry (e.g., fault event -records, syslog records, performance records etc.) to ONAP using the -model, format and mechanisms described in this section. - -R-19624 The xNF **MUST** encode and serialize content delivered to -ONAP using JSON (RFC 7159) plain text format. High-volume data is to -be encoded and serialized using `Avro `_, -where the Avro [6]_ data format are described using JSON. - -Note: - -- JSON plain text format is preferred for moderate volume data sets - (option 1), as JSON has the advantage of having well-understood simple - processing and being human-readable without additional decoding. Examples - of moderate volume data sets include the fault alarms and performance - alerts, heartbeat messages, measurements used for xNF scaling and syslogs. -- Binary format using Avro is preferred for high volume data sets - (option 2) such as mobility flow measurements and other high-volume - streaming events (such as mobility signaling events or SIP signaling) - or bulk data, as this will significantly reduce the volume of data - to be transmitted. As of the date of this document, all events are - reported using plain text JSON and REST. -- Avro content is self-documented, using a JSON schema. The JSON schema is - delivered along with the data content - (http://avro.apache.org/docs/current/ ). This means the presence and - position of data fields can be recognized automatically, as well as the - data format, definition and other attributes. Avro content can be - serialized as JSON tagged text or as binary. In binary format, the - JSON schema is included as a separate data block, so the content is - not tagged, further compressing the volume. For streaming data, Avro - will read the schema when the stream is established and apply the - schema to the received content. - -R-98191 The xNF **MUST** vary the frequency that asynchronous data is -delivered based on the content and how data may be aggregated or grouped -together. - -Note: - -- For example, alarms and alerts are expected to be delivered as soon - as they appear. In contrast, other content, such as performance - measurements, KPIs or reported network signaling may have various ways - of packaging and delivering content. Some content should be streamed - immediately; or content may be monitored over a time interval, then packaged - as collection of records and delivered as block; or data may be collected - until a package of a certain size has been collected; or content may be - summarized statistically over a time interval, or computed as a KPI, with - the summary or KPI being delivered. -- We expect the reporting frequency to be configurable depending - on the virtual network function’s needs for management. For example, - Service Provider may choose to vary the frequency of collection between - normal and trouble-shooting scenarios. -- Decisions about the frequency of data reporting will affect the - size of delivered data sets, recommended delivery method, and how the - data will be interpreted by ONAP. These considerations should not - affect deserialization and decoding of the data, which will be guided - by the accompanying JSON schema or GPB definition files. - -R-88482 The xNF **SHOULD** use REST using HTTPS delivery of plain -text JSON for moderate sized asynchronous data sets, and for high -volume data sets when feasible. - -R-84879 The xNF **MUST** have the capability of maintaining a primary -and backup DNS name (URL) for connecting to ONAP collectors, with the -ability to switch between addresses based on conditions defined by policy -such as time-outs, and buffering to store messages until they can be -delivered. At its discretion, the service provider may choose to populate -only one collector address for a xNF. In this case, the network will -promptly resolve connectivity problems caused by a collector or network -failure transparently to the xNF. - -R-81777 The xNF **MUST** be configured with initial address(es) to use -at deployment time. Subsequently, address(es) may be changed through -ONAP-defined policies delivered from ONAP to the xNF using PUTs to a -RESTful API, in the same manner that other controls over data reporting -will be controlled by policy. - -R-08312 The xNF **MAY** use another option which is expected to include REST -delivery of binary encoded data sets. - -R-79412 The xNF **MAY** use another option which is expected to include TCP -for high volume streaming asynchronous data sets and for other high volume -data sets. TCP delivery can be used for either JSON or binary encoded data -sets. - -R-01033 The xNF **MAY** use another option which is expected to include SFTP -for asynchronous bulk files, such as bulk files that contain large volumes of -data collected over a long time interval or data collected across many xNFs. -(Preferred is to reorganize the data into more frequent or more focused data -sets, and deliver these by REST or TCP as appropriate.) - -R-63229 The xNF **MAY** use another option which is expected to include REST -for synchronous data, using RESTCONF (e.g., for xNF state polling). - -R-03070 The xNF **MUST**, by ONAP Policy, provide the ONAP addresses -as data destinations for each xNF, and may be changed by Policy while -the xNF is in operation. We expect the xNF to be capable of redirecting -traffic to changed destinations with no loss of data, for example from -one REST URL to another, or from one TCP host and port to another. - -R-06924 The xNF **MUST** deliver asynchronous data as data becomes -available, or according to the configured frequency. - -R-73285 The xNF **MUST** must encode, address and deliver the data -as described in the previous paragraphs. - -R-42140 The xNF **MUST** respond to data requests from ONAP as soon -as those requests are received, as a synchronous response. - -R-34660 The xNF **MUST** use the RESTCONF/NETCONF framework used by -the ONAP configuration subsystem for synchronous communication. - -R-86586 The xNF **MUST** use the YANG configuration models and RESTCONF -[RFC8040] (https://tools.ietf.org/html/rfc8040). - -R-11240 The xNF **MUST** respond with content encoded in JSON, as -described in the RESTCONF specification. This way the encoding of a -synchronous communication will be consistent with Avro. - -R-70266 The xNF **MUST** respond to an ONAP request to deliver the -current data for any of the record types defined in -Event Records - Data Structure Description by returning the requested -record, populated with the current field values. (Currently the defined -record types include fault fields, mobile flow fields, measurements for -xNF scaling fields, and syslog fields. Other record types will be added -in the future as they become standardized and are made available.) - -R-46290 The xNF **MUST** respond to an ONAP request to deliver granular -data on device or subsystem status or performance, referencing the YANG -configuration model for the xNF by returning the requested data elements. - -R-43327 The xNF **SHOULD** use `Modeling JSON text with YANG -`_, If YANG models need to be -translated to and from JSON[RFC7951]. YANG configuration and content can -be represented via JSON, consistent with Avro, as described in “Encoding -and Serialization” section. - -R-42366 The xNF **MUST** support secure connections and transports such as -Transport Layer Security (TLS) protocol -[`RFC5246 `_] and should adhere to -the best current practices outlined in -`RFC7525 `_. - -R-44290 The xNF **MUST** control access to ONAP and to xNFs, and creation -of connections, through secure credentials, log-on and exchange mechanisms. - -R-47597 The xNF **MUST** carry data in motion only over secure connections. - -R-68165 The xNF **MUST** encrypt any content containing Sensitive Personal -Information (SPI) or certain proprietary data, in addition to applying the -regular procedures for securing access and delivery. - - -Ansible Playbook Examples ------------------------------------------------ - -The following sections contain examples of Ansible playbooks -which follow the guidelines. - -Guidelines for Playbooks to properly integrate with APPC -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -NOTE: To support concurrent requests to multiple VNF instances of same -or different type, VNF hosts and other files with VNF specific default -values are kept or created in separate directories. - -Example of an Ansible command (after pwd) to run playbook again -vfdb9904v VNF instance: - -.. code-block:: none - - $ pwd - /storage/vfdb/V16.1/ansible/configure - $ ansible-playbook -i ../inventory/vfdb9904vhosts site.yml --extra-vars "vnf_instance=vfdb9904v" - - NOTE: To preserve Ansible inventory/group_vars capability, that makes - group_vars contents global variables available to all playbooks, when they - reside in the inventory directory, guidelines are being updated to name the - VNF inventory hosts file as (a flat file) hosts, stored in the - inventory directory, not a subdirectory under inventory. In the above - example: vfdb9904vhosts (removed / VNF name and hosts vfdb9904/vhosts) - -Example of corresponding APPC API Call from ONAP – Ansible Server -Specifications: - -An example of a curl request simulating a Rest API POST requesting execution -of configure Playbook (using playbook relative path): - -.. code-block:: none - - curl -u APIUser:APIPassword -H "Content-type:application/json" -X POST - -d '{"Id": "8412", "PlaybookName": "vfdb/V5.x.x/ansible/configure/site.yml", - "Timeout":"600", "EnvParameters": { "vnf_instance": "vfdb9904v" }}' - http://ansible.server.com:5000/Dispatch - -Rest API GET request to obtain response/results for prior request -(same Id as POST request above): - -.. code-block:: none - - curl -u APIUser:APIPassword -H 'Content-type: application/json' -X GET - 'http://ansible.server.com:5000/Dispatch/?Id=8412&Type=GetResult' - -Comments: - -- An ID number is assigned to each request. This ID number is used to - track request down to completion and provide status to APPC when - requested. - -- Playbook Name relative path provided in the request as PlaybookName - -- Ansible Server Rest API is aware of playbook’s root directory which may - vary from instance to instance or Ansible Server cluster to cluster. - -Ansible Playbooks will use the VNF instance name (passed using ---extra-vars "vnf\_instance=vfdb9904v") to identify other default values -to run the playbook(s) against the target VNF instance. Same example as -above: - -.. code-block:: none - - $ ansible-playbook -i ../inventory/vfdb9904vhosts site.yml --extra-vars "vnf_instance=vfdb9904v" - -Each Ansible Server or cluster is assigned its own identification to be used -to authenticate to VNF VMs using Ansible Server or cluster specific set of -SSH keys that may be rotated regularly. Here hosts file, no longer referencing -file with SSH key credentials, to run ansible-playbook listed in this example -above (IP addresses were scrubbed): - -.. code-block:: none - - $ more ../inventory/vfdb9904v/hosts - [host] - localhost ansible_connection=local - - [oam] - 1xx.2yy.zzz.109 - 1xx.2yy.zzz.110 - - [rdb] - 1xx.2yy.zzz.105 - 1xx.2yy.zzz.106 - -NOTE: APPC requests to run Playbooks/Cookbooks are specific to a VNF, -but could be more limited to one VM or one type of VM by the request -parameters. Actions that may impact a site (LCP), a service, or an -entire platform must be orchestrated by MSO in order to execute requests -via APPC which then invoke VNF level playbooks. Playbooks that impact -more than a single VNF are not the current focus of these guidelines. - -Since last release of these guidelines, based on recent learnings, -moving VNF Type global variables under inventory/group_vars files, this -way variables and respective values are available to all playbooks without -being explicitly referenced though an include statement. Also creating -templates that are VNF Type specific, but moving away from static files -that are VNF instance specific, working to obtain VNF instance specific -from other sources, inventory database, etc. - -And here the scrubbed default arguments for this VNF instance(originated -from previously re-factored playbooks now being phased out): - -.. code-block:: none - - vnf_instance=vfdb9904v - - $ more ../vars/vfdb9904v/default_args.yml - vm_config_oam_vnfc_name: vfdb9904vm001oam001 - vm_config_oam_hostname: vfdb9904vm001 - vm_config_oam_provider_ip_address: 1xx.2yy.zzz.109 - … - -IMPORTANT: The APPC and default file attribute name for -vm\_config\_oam\_vnfc\_name, as an example, is derived from vm\_config -array structure (list) in the CSAR package ENV file, with dots replaced -by underscore: - -.. code-block:: none - - vm_config: - - oam: {vnfc_name: {{ vm_config_oam_vnfc_name }}, hostname: {{ - vm_config_oam_hostname }}, provider_ip_address: {{ - vm_config_oam_provider_ip_address } - }, - … - -Parameters like VNF names, VNFC names, OA&M IP addresses, after -February, 2018 ONAP release, will be extracted from A&AI by APPC and -then passed down to Ansible Server, as part of APPC request through REST -API. In the meantime, VNF instance specific required values, will -be stored on VNF instance directory, default arguments file and will be -used as defaults. For parameterized playbooks attribute-value pairs -passed down by APPC to Ansible Server always take precedence over -template or VNF instance specific defaults stored in defaults file(s). - -.. code-block:: none - - $ pwd - /storage/vfdb/latest/ansible - Again, originated from previously re-factored playbooks now being phased out: - - $ more vars/vfdb9904v/default_args.yml - - vm_config_oam1_vnfc_name: vfdb9904vm001oam001 - vm_config_oam1_hostname: vfdb9904vm001 - vm_config_oam1_provider_ip_address: 1xx.2yy.zzz.109 - - vm_config_oam2_vnfc_name: vfdb9904vm002oam001 - vm_config_oam2_hostname: vfdb9904vm002 - vm_config_oam2_provider_ip_address: 1xx.2yy.zzz.110 - - vm_config_rdb1_vnfc_name: vfdb9904vm003rdb001 - vm_config_rdb1_hostname: vfdb9904vm003 - vm_config_rdb1_provider_ip_address: 1xx.2yy.zzz.105 - - vm_config_rdb2_vnfc_name: vfdb9904vm004rdb001 - vm_config_rdb2_hostname: vfdb9904vm004 - vm_config_rdb2_provider_ip_address: 1xx.2yy.zzz.106 - - vm_config_rdb3_vnfc_name: vfdb9904vm005rdb001 - vm_config_rdb3_hostname: vfdb9904vm005 - vm_config_rdb3_provider_ip_address: 1xx.2yy.zzz.xxx - - vm_config_rdb4_vnfc_name: vfdb9904vm006rdb001 - vm_config_rdb4_hostname: vfdb9904vm006 - vm_config_rdb4_provider_ip_address: 1xx.2yy.zzz.yyy - -One of the first tasks on the Ansible Playbooks is to combine the VNF -type generic template, derived from ENV files in CSAR or other files, -with these default values stored on the Ansible Server, together with -the overriding parameters passed down from APPC, to create the VNF -instance specific set of attribute-value pairs to be used for the run, in -INI format. Here is an excerpt from such a file that should look -somewhat similar to ENV files: - -.. code-block:: none - - $ more tmp/vfdb9904v/all.yml - - deployment_prefix: vfdb9904v - … - timezone: Etc/UTC - … - template_version: '2014-10-16' - stack_name: vfdb9904v - c3dbtype: OAM - stackName: vfdb9904v - juno_base: true - … - -# logins list contain 'login name', 'login group', 'login password' - -.. code-block:: none - - logins: - - { name: 'm99999', group: 'm99999', password: 'abcdefgha' } - - { name: 'gsuser', group: 'gsuser', password: ' abcdefgha' } - - { name: 'peruser', group: 'peruser', password: ' abcdefgha' } - - { name: 'dbuser', group: 'dbuser', password: ' abcdefgha' } - -NOTE: Arguments passed by APPC to Ansible Server to run a playbook take -precedence over any defaults stored in Ansible Server. - -Ansible Playbooks – Notes On Artifacts Required to Run Playbooks -^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ - -Inventory hosts file: should be VNF instance specific. - -Default variables: should be VNF instance specific. - -NOTE: Some playbooks may rely on inventory directory contents to target -the collection of VNFs in the Services Platform supported through -Ansible. - -Playbooks and paths to referenced files: Playbooks shall not use -absolute paths in include or import entries (variables or playbooks) or -other types of references. - -For this to work properly, when running playbooks, the directory where -the main playbook resides shall be the current directory. - -Playbook imports, when used, shall use paths relative to the main -playbook directory. - -Root directory named ansible - Any files provided with playbooks, -included, imported, or referenced by playbooks, shall reside under the ansible -playbooks (root) directory, containing all playbook subdirectories, or -below that ansible root directory, in other subdirectories to support -on-boarding and portability of VNF collection of playbooks and related -artifacts. - -Designing for a shared environment, concurrently running playbooks, -targeting multiple VNF instances – inventory hosts file: - -To avoid inventory hosts file overwrites or collisions between multiple -concurrently running VNF instance requests, chosen approach is for each -VNF instance hosts file, to be stored under the Ansible Server Playbooks -root directory, under the inventory subdirectory, and under a directory -for each VNF instance, named after the VNF instance, as follows: - -ansible/inventory//hosts - -Example of inventory hosts file path, relative to ansible playbooks root -directory (playbooks\_dir): ansible/inventory/vnfx0001v/hosts - -**Designing for a shared environment, concurrently running multiple playbooks, -targeting multiple VNF instances – default argument variables for -specific VNF instances:** - -Files containing attribute name value pairs (variable name and default -values), referenced/included by playbooks – Files containing VNF -instance specific default values – in a later APPC release, some or all -the default attribute value pairs contained in the defaults file, may be -passed down by APPC, to the Ansible Server, overriding these defaults: - -VNF instance specific files -referenced/included by playbooks, containing default values, example, -default\_args.yml, shall be stored under a directory with VNF instance -name on the path. - -Example: - -ansible/vars//default\_args.yml - -Example of include statement: - -- include_vars: ../vars/{{ vnf_instance }}/default_args.yml - -Again, this was originated from previously re-factored playbooks, now being -phased out, to move away from having to create VNF instance specific files -with VNF instance default variables. Moving to extract these values from -inventory databases and provide them to Ansible Server as part of the APPC -request, but may be used in a transition from having everything stored in the -Ansible Server to APPC extracting and providing VNF instance specific -attribute-value pairs to the Ansible Server as part of the request. - -Files containing attribute name value pairs (variable name and default -values), referenced/included by playbooks – created dynamically by -playbooks: - -To avoid -overwrites or collisions of multiple concurrently running VNF instance -requests, files created dynamically by playbooks, based on VNF generic -templates, combined with default values and arguments passed down by -APPC (as part of the request), shall be stored under a directory with -VNF instance name on the path. - -Example: - -tmp//all.yml - -Files containing site specific (Openstack location non-instance -specific) attribute name value pairs, like NTP server and DNS server’s -IP addresses and other parameters, referenced/included by playbooks, not -VNF specific – Could/should be stored under inventory/group_vars directory, -in a subdirectory named after the string used to identify the site (nyc1, -lax2,…). - -Examples: - -ansible/inventory/group_vars/ - -ansible/inventory/group_vars/nyc1 - -ansible/inventory/group_vars/lax2 - - -\ **Ansible Server Design - Directory Structure** - -To help understanding the contents of this section, here are few basic -definitions: - -**VNF type a.k.a VNF Function Code** - Based on current Services -Platform naming convention, each Virtual Network Function is assigned a -4 character string (example vfdb), these are 4 characters in -the VNF instance name, followed by (4) numbers, ending in a "v", but the -naming convention is evolving. VNF instance name in -some cases corresponds to the stack name for the VNF when VNF instance -is built based on a single module, single stack. Example of VNF instance -name: vfdb9904v. All VNF performing this function, running the same -software, coming from the same VNF provider will have the same 4 -characters in the VNF instance name, in this example, vfdb. - -NOTE: New naming convention includes a prefix indicating geographical -location where VNF is instantiated. - -VNF type, determined through these 4 characters, is also known as VNF -Function Code and is assigned by inventory team. All Services Platform -VNF Function Codes can be found in inventory database and/or A&AI as -well as Services Platform Network Design Documents. - -Version – As in VNF software version is the release of the software -running on the VNF for which the playbooks were developed. VNF -configuration steps may change from release to release and this - in the path will allow the Ansible Server to host playbooks -associated with each software release. And run the playbooks that match -the software release running on each VNF instance. APPC initially will -not support playbook versioning only latest playbook is supported or a hard -coded version that later should become a variable to allow multiple -actively in use playbook versions according to VNF release. - -Playbook Function - Is a name associated with a life cycle management -task(s) performed by the playbook(s) stored in this directory. It should -clearly identify the type of action(s) performed by the main playbook -and possibly other playbooks stored in this same directory. Ideally, -playbook function would match APPC corresponding command or function that -is performed by the main playbook in this directory. Following Ansible naming -standards main playbook is usually named site.yml. There can be other -playbooks on the same directory that use a subset of the roles used by the -main playbook site.yml. Examples of Playbook Function directory names: - -- configure – Contains post-instantiation (bulk) configuration - playbooks, roles,… - -- healthcheck – Contains VNF health check playbook(s), roles,… - -- stop – Contains VNF application stop (stopApplication) playbook(s), - roles,… - -- start – Contains VNF application start (startApplication) playbook(s), - roles,… - -Directory structure to allow hosting multiple version sets of playbooks, -for the same VNF type, to be hosted in the runtime environment on the -Ansible Servers. Generic directory structure: - -Ansible Playbooks – Function directory and main playbook: - -.. code-block:: none - - //ansible//site.yml - -Example – Post-instantiation (bulk) configuration –APPC Function - -Configure: - -.. code-block:: none - - //ansible/configure/site.yml - -Example – Post-instantiation (bulk) configuration –APPC Function -– Configure – VNF software version 16.1: - -.. code-block:: none - - vfdb/V16.1/ansible/configure/site.yml - -Example – Health-check –APPC Function - HealthCheck: - -.. code-block:: none - - //ansible/healthcheck/site.yml - -OR (Function directory name does not need to match APPC function name) - -.. code-block:: none - - //ansible/check/site.yml - -Ansible Directories for other artifacts – VNF inventory hosts file - -Required: - -.. code-block:: none - - //ansible/inventory/hosts - -Ansible Directories for other artifacts – VNF instance specific default -arguments – Optional: - -.. code-block:: none - - //ansible/group_vars/ - -NOTE: This requirement is expected to be deprecated all or in part in the -future, for automated actions, once APPC can pass down all VNF specific -arguments for each action. Requirement remains while manual actions are -to be supported. Other automated inventory management mechanisms may be -considered in the future, Ansible supports many automated inventory -management mechanisms/tools/solutions. - -Ansible Directories for other artifacts – VNF (special) groups – -Optional: - -.. code-block:: none - - //ansible/inventory/group_vars/ - -NOTE: Default groups will be created based on VNFC type, 3 characters, -on VNFC name. Example: “oam”, “rdb”, “dbs”, “man”, “iox”, “app”,… - -Ansible Directories for other artifacts – VNF (special) other files – -Optional – Example – License file: - -.. code-block:: none - - //ansible/ - -CAUTION: On referenced files used/required by playbooks. - -- To avoid missing files, during on-boarding or uploading of Ansible - Playbooks and related artifacts, all permanent files (not generated - by playbooks as part of execution), required to run any playbook, - shall reside under the ansible root directory or below on other - subdirectories. - -- Any references to files, on includes or other playbook entries, shall - use relative paths. - -- This is the ansible (root) directory referenced on this - note (Ansible Server mount point not included): - -.. code-block:: none - - //ansible/ - -There will be a soft link to the latest set of Ansible Playbooks for -each VNF type. - -VNF type directories use A&AI inventory VNF function code. Ansible -Playbooks will be stored on a Cinder Volume mounted on the Ansible -Servers as /storage. Example: - -/storage/vfdb/latest/ansible – This soft link point to the latest set of -playbooks (or the only set) - -/storage/vfdb/V16.1/ansible – Root directory for database VNF Ansible -Playbooks for release 16.1 - -CAUTION: To support this directory structure as the repository to store -Ansible Playbooks run by APPC, APPC API in the Ansible Server side needs -to be configured to run playbooks from directory, not MySQL database. - -Ansible Server HTTP will be configured to support APPC REST API requests -to run playbooks as needed, against specific VNF instances, or specific -VM(s) as specified in the request. - -ONAP APPC REST API to Ansible Server is documented separately and can be -found under ONAP (onap.org). - -**Ansible Server – On-boarding Ansible Playbooks** - -Once playbooks are developed following the guidelines listed in prior -section(s), playbooks need to be on-boarded onto Ansible Server(s). In -the future, they’ll be on-boarded and distributed through ONAP, at least -that is the proposed plan, but for now they need to be uploaded -manually. There is work in progress to use a Git as the playbook -repository to store and track playbooks by version, version control. - -These are the basic steps to on-board playbooks manually onto the -Ansible Server. - -1. Upload CSAR, zip, or tar file containing VNF playbooks and related - artifacts. - -2. Create full directory (using –p option below) to store Ansible - Playbooks and other artifacts under /storage (or other configured) - file system. - - a. Includes VNF type using VNF function code 4 characters under - /storage. - - b. Includes VNF “Version” directory as part of the path to store - playbooks for this VNF version. - - c. Include generic ansible root directory. Creating full directory - path as an example: - -.. code-block:: none - - $ mkdir –p /storage/vfdb/V16.1/ansible**/** - -3. Make this directory (VNF ansible root directory) current directory - for next few steps: - -.. code-block:: none - - cd /storage/vfdb/V16.1/ansible/ - -4. Extract Ansible Playbooks and other Ansible artifacts associated with - the playbooks onto the ansible directory. Command depends on the type - of file uploaded, examples would be: - -.. code-block:: none - - tar xvf .. - unzip … - bunzip .. - -5. Create VNF inventory hosts file with all VMs and - OA&M IP addresses for all VNF instances with known OA&M IP addresses - for respective VMs, example: - -.. code-block:: none - - $ mkdir inventory - - $ touch inventory/vfdb9904vhosts - - $ cat inventory/vfdb9904vhosts - - [host] - localhost ansible\_connection=local - - [oam] - 1xx.2yy.zzz.109 - 1xx.2yy.zzz.110 - - [rdb] - 1xx.2yy.zzz.105 - 1xx.2yy.zzz.106 - -6. (Optional, being deprecated) Create directory to hold default -arguments for each VNF instance, -example: - -.. code-block:: none - - $ mkdir –p vars/vfdb9904v - $ touch vars/vfdb9904v/default\_args.yml - $ cat vars/vfdb9904v/default\_args.yml - vm\_config\_oam1\_vnfc\_name: vfdb9904vm001oam001 - vm\_config\_oam1\_hostname: vfdb9904vm001 - vm\_config\_oam1\_provider\_ip\_address: 1xx.2yy.zzz.109 - - vm\_config\_oam2\_vnfc\_name: vfdb9904vm002oam001 - vm\_config\_oam2\_hostname: vfdb9904vm002 - vm\_config\_oam2\_provider\_ip\_address: 1xx.2yy.zzz.110 - - vm\_config\_rdb1\_vnfc\_name: vfdb9904vm003rdb001 - vm\_config\_rdb1\_hostname: vfdb9904vm003 - vm\_config\_rdb1\_provider\_ip\_address: 1xx.2yy.zzz.105 - - vm\_config\_rdb2\_vnfc\_name: vfdb9904vm004rdb001 - vm\_config\_rdb2\_hostname: vfdb9904vm004 - vm\_config\_rdb2\_provider\_ip\_address: 1xx.2yy.zzz.106 - - vm\_config\_rdb3\_vnfc\_name: vfdb9904vm005rdb001 - vm\_config\_rdb3\_hostname: vfdb9904vm005 - vm\_config\_rdb3\_provider\_ip\_address: 1xx.2yy.zzz.xxx - - vm\_config\_rdb4\_vnfc\_name: vfdb9904vm006rdb001 - vm\_config\_rdb4\_hostname: vfdb9904vm006 - vm\_config\_rdb4\_provider\_ip\_address: 1xx.2yy.zzz.yyy - -NOTE: Please note names in this file shall use underscore “\_” not dots -“.” or dashes “-“. - -7. Perform some basic playbook validation running with “--check” option, - running dummy playbooks or other. - -NOTE: Each Ansible Server or cluster of Ansible Server will have its own -credentials to authenticate to VNF VMs. Ansible Server SSH public key(s) -have to be loaded onto VNF VMs during instantiation or other way before -Ansible Server can access VNF VMs and run playbooks. HOT templates used -by heat to instantiate VNFs to be configured by these Ansible Servers running -playbooks shall include the same SSH public key and load them onto VNF VM(s) -as part of instantiation. - -Other non-vendor specific playbook tasks need to be incorporated in overall -post-instantiation configuration playbook. Alternative is for company -developed playbooks to be uploaded and executed, after VNF vendor provided -playbooks are run. - -**A couple of playbooks used for proof-of-concept testing as examples:** - -UpgradePreCheck: - -.. code-block:: none - - $ pwd - /storage/comx/V5.3.1.3/ansible/upgradeprecheck - - $ more site.yml - --- - - - import_playbook: ../common/create_vars.yml - - import_playbook: ../common/create_hosts.yml - - - name: upgrade software pre check - hosts: oam,dbs,cpm - gather_facts: no - become: true - become_method: sudo - become_user: root - max_fail_percentage: 0 - any_errors_fatal: True - roles: - - precheck - tags: precheck - - $ more roles/precheck/tasks/main.yml - --- - - - include_vars: /tmp/{{ vnf_instance }}/all.yml - - - name: get software version installed on vnf - shell: grep "^SW_VERSION =" /vendor/software/config/param_common.cfg | grep -c "{{ existing_software_version }}" - register: version_line - ignore_errors: yes - - - name: send msg when matches expected version - debug: msg="*** OK *** VNF software release matches (old) release to be upgraded." - verbosity=1 - when: version_line.stdout.find('1') != -1 - - # send warning message and failure when release is not a match - - fail: - msg="*** WARNING *** VNF software release does not match expected (pre-upgrade) release." - when: (version_line | failed) or version_line.stdout.find('1') == -1 - - -UpgradePostCheck: - -.. code-block:: none - - $ pwd - /storage/comx/V5.3.1.3/ansible/upgradepostcheck - - $ more site.yml - --- - - - import_playbook: ../common/create_vars.yml - - import_playbook: ../common/create_hosts.yml - - - name: upgrade software post check - hosts: oam,dbs,cpm - gather_facts: no - become: true - become_method: sudo - become_user: root - max_fail_percentage: 0 - any_errors_fatal: True - roles: - - postcheck - tags: postcheck - - $ more roles/postcheck/tasks/main.yml - --- - - - include_vars: /tmp/{{ vnf_instance }}/all.yml - - - name: get post upgrade software version installed on vnf - shell: grep "^SW_VERSION =" /vendor/software/config/param_common.cfg | grep -c "{{ new_software_version }}" - register: version_line - ignore_errors: yes - - - name: send msg when matches expected version - debug: msg="*** OK *** VNF software release matches new release." - verbosity=1 - when: version_line.stdout.find('1') != -1 - - # send warning message and failure when release is not a match - - fail: - msg="*** WARNING *** VNF software release does not match expected new (post-upgrade) release." - when: (version_line | failed) or version_line.stdout.find('1') == -1 - - -.. [1] - The “name” field is a mandatory field in a valid Chef Node Object - JSON dictionary. - -.. [2] - Not currently supported in ONAP release 1 - -.. [3] - https://github.com/mbj4668/pyang - -.. [4] - Upstream elements must provide the appropriate FQDN in the request to - ONAP for the desired action. - -.. [5] - Refer to NCSP’s Network Cloud specification - -.. [6] - This option is not currently supported in ONAP and it is currently - under consideration. - -.. [7] - Multiple ONAP actions may map to one playbook. - - -- cgit 1.2.3-korg