docs/sections/design-components/requirements-guidelines.rst - onap/dcaegen2 - Gitiles

 .. This work is licensed under a Creative Commons Attribution 4.0 International License.
 .. http://creativecommons.org/licenses/by/4.0

 Onboarding Pre-requisite
 ========================

 Before a component is onboarded into DCAE, the component developer must ensure it
 is compliant with ONAP & DCAE goals and requirement in order to correctly be deployed and be managed. This
 page will discuss the changes which are grouped into the following
 categories:

 -  :any:`Configuration management via ConfigBindingService <configuration_management>`
 -  :any:`Docker images <docker_images>`
 -  :any:`Policy Reconfiguration flow support <policy_reconfiguration>`
 -  :any:`Operational Requirement <operation_requirement>`


 .. _configuration_management:

 Configuration Management
 ------------------------

 All configuration for a component is stored in CONSUL under the
 components uniquely generated name which is provided by the environment
 variable ``HOSTNAME`` as well as ``SERVICE_NAME``. It is then made
 available to the component via a remote HTTP service call to CONFIG
 BINDING SERVICE.

 The main entry in CONSUL for the component contains its
 **generated application configuration**. This is based on the submitted
 component specification, and consists of the *interfaces* (streams and
 services/calls) and *parameters* sections. Other entries may exist as
 well, under specific keys, such as :dmaap . Each key represents a
 specific type of information and is also available to the component by
 calling CONFIG BINDING SERVICE. More on this below.

 Components are required to pull their
 **generated application configuration** at application startup using the environment
 setting exposed during deployment.


 Envs
 ~~~~

 The platform provides a set of environment variables into each Docker
 container:

 +----------------------------+--------------+----------------------------------------+
 | Name                       | Type         | Description                            |
 +============================+==============+========================================+
 | ``HOSTNAME``               | string       | Unique name of the component instance  |
 |                            |              | that is generated                      |
 +----------------------------+--------------+----------------------------------------+
 | ``CONSUL_HOST``            | string       | Hostname of the platform's Consul      |
 |                            |              | instance                               |
 +----------------------------+--------------+----------------------------------------+
 | ``CONFIG_BINDING_SERVICE`` | string       | Hostname of the platform's config      |
 |                            |              | binding service instance               |
 |                            |              |                                        |
 +----------------------------+--------------+----------------------------------------+
 | ``DOCKER_HOST``            | string       | Host of the target platform Docker     |
 |                            |              | host to run the container on           |
 +----------------------------+--------------+----------------------------------------+
 | ``CBS_CONFIG_URL``         | string       | Fully resolved URL to query config     |
 |                            |              | from CONSUL via CBS                    |
 +----------------------------+--------------+----------------------------------------+


 .. _config_binding_service:

 Config Binding Service
 ~~~~~~~~~~~~~~~~~~~~~~

 The config binding service is a platform HTTP service that is
 responsible for providing clients with its fully resolve configuration
 JSON at startup, and also other configurations objects
 when requested.

 At runtime, components should make an HTTP GET on:

 ::

   <config binding service hostname>:<port>/service_component/NAME

 For Docker components, NAME should be set to ``HOSTNAME``, which is
 provided as an ENV variable to the container.

 The binding service integrates with the streams and services section of
 the component specification. For example, if you specify that you call a
 service:

 ::

     "services": {
         "calls": [{
             "config_key": "vnf-db",
             "request": {
                 "format": "dcae.vnf.meta",
                 "version": "1.0.0"
                 },
             "response": {
                 "format": "dcae.vnf.kpi",
                 "version": "1.0.0"
                 }
         }],
     ...
     }

 Then the config binding service will find all available IP addresses of
 services meeting the containers needs, and provide them to the container
 under your ``config_key``:

 ::

     // your configuration
     {
         "vbf-db" :                 // see above
             [IP:Port1, IP:Port2,…] // all of these meet your needs, choose one.
     }

 Regarding ``<config binding service hostname>:<port>``, there is DNS
 work going on to make this resolvable in a convenient way inside of your
 container.

 For all Kubernetes deployments since El-Alto, an environment variable ``CBS_CONFIG_URL`` will be exposed
 by platform (k8s plugins) providing the exact URL to be used for configuration retrieval.
 Application can use this URL directly instead of constructing URL from HOSTNAME (which refers to ServiceComponentName)
 and CONFIG_BINDING_SERVICE env's.  By default, this URL will use HTTPS CBS interface

 If you are integrating with CBS SDK, then the DNS resolution and configuration fetch
 are handled via library functions.

 Generated Application Configuration
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

 The DCAE platform uses the component specification to generate the
 component’s application configuration provided at deployment time. The
 component developer should expect to use this configuration JSON in the
 component.


 The following component spec snippet (from String Matching):

 ::

     "streams":{
         "subscribes": [{
           "format": "VES_specification",
           "version": "4.27.2",
           "type": "message_router",
           "config_key" : "mr_input"
         }],
         "publishes": [{
           "format": "VES_specification",
           "version": "4.27.2",
           "config_key": "mr_output",
           "type": "message_router"
          }]
       },
       "services":{
         "calls": [{
           "config_key" : "aai_broker_handle",
           "verb": "GET",
           "request": {
             "format": "get_with_query_params",
             "version": "1.0.0"
           },
           "response": {
             "format": "aai_broker_response",
             "version": "3.0.0"
           }
         }],
         "provides": []
       },

 Will result in the following top level keys in the configuration

 ::

        "streams_publishes":{
           "mr_output":{                // notice the config key above
              "aaf_password":"XXX",
              "type":"message_router",
              "dmaap_info":{
                 "client_role": null,
                 "client_id": null,
                 "location": null,
                 "topic_url":"https://YOUR_HOST:3905/events/com.att.dcae.dmaap.FTL2.DCAE-CL-EVENT" // just an example
              },
              "aaf_username":"XXX"
           }
        },
        "streams_subscribes":{
           "mr_input":{                 // notice the config key above
              "aaf_password":"XXX",
              "type":"message_router",
              "dmaap_info":{
                 "client_role": null,
                 "client_id": null,
                 "location": null,
                 "topic_url":"https://YOUR_HOST:3905/events/com.att.dcae.dmaap.FTL2.TerrysStringMatchingTest" // just an example
              },
              "aaf_username":"XXX"
           }
        },
        "services_calls":{
           "aai_broker_handle":[        // notice the config key above
              "135.205.226.128:32768"   // based on deployment time, just an example
           ]
        }

 These keys will always be populated whether they are empty or not. So
 the minimum configuration you will get, (in the case of a component that
 provides an HTTP service, doesn’t call any services, and has no streams,
 is:

 ::

         "streams_publishes":{},
         "streams_subscribes":{},
         "services_calls":{}

 Thus your component should expect these well-known top level keys.

 DCAE SDK
 ~~~~~~~~

 DCAE has SDK/libraries which can be used for service components for easy integration.

 - `Java Library <https://docs.onap.org/en/latest/submodules/dcaegen2.git/docs/sections/sdk/architecture.html>`__
 - `Python Modules <https://git.onap.org/dcaegen2/utils/tree/onap-dcae-cbs-docker-client>`__


 .. _policy_reconfiguration:

 Policy Reconfiguration
 ----------------------

 Components must provide a way to receive policy reconfiguration, that
 is, configuration parameters that have been updated via the Policy UI.
 The component developer must either periodically poll the ConfigBindingService API
 to retrieve/refresh the new configuration or provides a script (defined in the :any:`Docker
 auxiliary specification <docker-auxiliary-details>`)
 that will be triggered when policy update is detected by the platform.


 .. _docker_images:

 Docker Images
 -------------

 Docker images must be pushed to the environment specific Nexus
 repository. This requires tagging your build with the full name of you
 image which includes the Nexus repository name.

 For ONAP microservices, the components images are expected to pushed into ONAP nexus
 part of `ONAP CI jobs <https://wiki.onap.org/display/DW/Using+Standard+Jenkins+Job+%28JJB%29+Templates>`__


 .. _operation_requirement:

 Operational Requirement
 -----------------------

 Logging
 ~~~~~~~

 All ONAP MS logging should follow logging specification defined by `logging project <https://wiki.onap.org/pages/viewpage.action?pageId=71831691>`__

 The application log configuration must enable operation to choose if to be written into file or stdout or both during deployment.


 S3P
 ~~~
 ONAP S3P (all scaling/resiliency/security/maintainability) goals should meet at the minimum level defined for DCAE project for the targeted release

 If the component is stateful, it should persist its state on external store (eg. pg, redis) to allow support for scaling and resiliency. This should be important design criteria for the component. If the components either publish/subscribe into DMAAP topic, then secure connection to DMAAP must be supported (platform will provide aaf_username/aaf_password for each topic as configuration).
	.. This work is licensed under a Creative Commons Attribution 4.0 International License.
	.. http://creativecommons.org/licenses/by/4.0

	Onboarding Pre-requisite
	========================

	Before a component is onboarded into DCAE, the component developer must ensure it
	is compliant with ONAP & DCAE goals and requirement in order to correctly be deployed and be managed. This
	page will discuss the changes which are grouped into the following
	categories:

	- :any:`Configuration management via ConfigBindingService <configuration_management>`
	- :any:`Docker images <docker_images>`
	- :any:`Policy Reconfiguration flow support <policy_reconfiguration>`
	- :any:`Operational Requirement <operation_requirement>`


	.. _configuration_management:

	Configuration Management
	------------------------

	All configuration for a component is stored in CONSUL under the
	components uniquely generated name which is provided by the environment
	variable ``HOSTNAME`` as well as ``SERVICE_NAME``. It is then made
	available to the component via a remote HTTP service call to CONFIG
	BINDING SERVICE.

	The main entry in CONSUL for the component contains its
	generated application configuration. This is based on the submitted
	component specification, and consists of the interfaces (streams and
	services/calls) and parameters sections. Other entries may exist as
	well, under specific keys, such as :dmaap . Each key represents a
	specific type of information and is also available to the component by
	calling CONFIG BINDING SERVICE. More on this below.

	Components are required to pull their
	generated application configuration at application startup using the environment
	setting exposed during deployment.


	Envs
	~~~~

	The platform provides a set of environment variables into each Docker
	container:

	+----------------------------+--------------+----------------------------------------+
	\| Name \| Type \| Description \|
	+============================+==============+========================================+
	\| ``HOSTNAME`` \| string \| Unique name of the component instance \|
	\| \| \| that is generated \|
	+----------------------------+--------------+----------------------------------------+
	\| ``CONSUL_HOST`` \| string \| Hostname of the platform's Consul \|
	\| \| \| instance \|
	+----------------------------+--------------+----------------------------------------+
	\| ``CONFIG_BINDING_SERVICE`` \| string \| Hostname of the platform's config \|
	\| \| \| binding service instance \|
	\| \| \| \|
	+----------------------------+--------------+----------------------------------------+
	\| ``DOCKER_HOST`` \| string \| Host of the target platform Docker \|
	\| \| \| host to run the container on \|
	+----------------------------+--------------+----------------------------------------+
	\| ``CBS_CONFIG_URL`` \| string \| Fully resolved URL to query config \|
	\| \| \| from CONSUL via CBS \|
	+----------------------------+--------------+----------------------------------------+


	.. _config_binding_service:

	Config Binding Service
	~~~~~~~~~~~~~~~~~~~~~~

	The config binding service is a platform HTTP service that is
	responsible for providing clients with its fully resolve configuration
	JSON at startup, and also other configurations objects
	when requested.

	At runtime, components should make an HTTP GET on:

	::

	<config binding service hostname>:<port>/service_component/NAME

	For Docker components, NAME should be set to ``HOSTNAME``, which is
	provided as an ENV variable to the container.

	The binding service integrates with the streams and services section of
	the component specification. For example, if you specify that you call a
	service:

	::

	"services": {
	"calls": [{
	"config_key": "vnf-db",
	"request": {
	"format": "dcae.vnf.meta",
	"version": "1.0.0"
	},
	"response": {
	"format": "dcae.vnf.kpi",
	"version": "1.0.0"
	}
	}],
	...
	}

	Then the config binding service will find all available IP addresses of
	services meeting the containers needs, and provide them to the container
	under your ``config_key``:

	::

	// your configuration
	{
	"vbf-db" : // see above
	[IP:Port1, IP:Port2,…] // all of these meet your needs, choose one.
	}

	Regarding ``<config binding service hostname>:<port>``, there is DNS
	work going on to make this resolvable in a convenient way inside of your
	container.

	For all Kubernetes deployments since El-Alto, an environment variable ``CBS_CONFIG_URL`` will be exposed
	by platform (k8s plugins) providing the exact URL to be used for configuration retrieval.
	Application can use this URL directly instead of constructing URL from HOSTNAME (which refers to ServiceComponentName)
	and CONFIG_BINDING_SERVICE env's. By default, this URL will use HTTPS CBS interface

	If you are integrating with CBS SDK, then the DNS resolution and configuration fetch
	are handled via library functions.

	Generated Application Configuration
	~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

	The DCAE platform uses the component specification to generate the
	component’s application configuration provided at deployment time. The
	component developer should expect to use this configuration JSON in the
	component.


	The following component spec snippet (from String Matching):

	::

	"streams":{
	"subscribes": [{
	"format": "VES_specification",
	"version": "4.27.2",
	"type": "message_router",
	"config_key" : "mr_input"
	}],
	"publishes": [{
	"format": "VES_specification",
	"version": "4.27.2",
	"config_key": "mr_output",
	"type": "message_router"
	}]
	},
	"services":{
	"calls": [{
	"config_key" : "aai_broker_handle",
	"verb": "GET",
	"request": {
	"format": "get_with_query_params",
	"version": "1.0.0"
	},
	"response": {
	"format": "aai_broker_response",
	"version": "3.0.0"
	}
	}],
	"provides": []
	},

	Will result in the following top level keys in the configuration

	::

	"streams_publishes":{
	"mr_output":{ // notice the config key above
	"aaf_password":"XXX",
	"type":"message_router",
	"dmaap_info":{
	"client_role": null,
	"client_id": null,
	"location": null,
	"topic_url":"https://YOUR_HOST:3905/events/com.att.dcae.dmaap.FTL2.DCAE-CL-EVENT" // just an example
	},
	"aaf_username":"XXX"
	}
	},
	"streams_subscribes":{
	"mr_input":{ // notice the config key above
	"aaf_password":"XXX",
	"type":"message_router",
	"dmaap_info":{
	"client_role": null,
	"client_id": null,
	"location": null,
	"topic_url":"https://YOUR_HOST:3905/events/com.att.dcae.dmaap.FTL2.TerrysStringMatchingTest" // just an example
	},
	"aaf_username":"XXX"
	}
	},
	"services_calls":{
	"aai_broker_handle":[ // notice the config key above
	"135.205.226.128:32768" // based on deployment time, just an example
	]
	}

	These keys will always be populated whether they are empty or not. So
	the minimum configuration you will get, (in the case of a component that
	provides an HTTP service, doesn’t call any services, and has no streams,
	is:

	::

	"streams_publishes":{},
	"streams_subscribes":{},
	"services_calls":{}

	Thus your component should expect these well-known top level keys.

	DCAE SDK
	~~~~~~~~

	DCAE has SDK/libraries which can be used for service components for easy integration.

	- `Java Library <https://docs.onap.org/en/latest/submodules/dcaegen2.git/docs/sections/sdk/architecture.html>`__
	- `Python Modules <https://git.onap.org/dcaegen2/utils/tree/onap-dcae-cbs-docker-client>`__



	.. _policy_reconfiguration:

	Policy Reconfiguration
	----------------------

	Components must provide a way to receive policy reconfiguration, that
	is, configuration parameters that have been updated via the Policy UI.
	The component developer must either periodically poll the ConfigBindingService API
	to retrieve/refresh the new configuration or provides a script (defined in the :any:`Docker
	auxiliary specification <docker-auxiliary-details>`)
	that will be triggered when policy update is detected by the platform.


	.. _docker_images:

	Docker Images
	-------------

	Docker images must be pushed to the environment specific Nexus
	repository. This requires tagging your build with the full name of you
	image which includes the Nexus repository name.

	For ONAP microservices, the components images are expected to pushed into ONAP nexus
	part of `ONAP CI jobs <https://wiki.onap.org/display/DW/Using+Standard+Jenkins+Job+%28JJB%29+Templates>`__


	.. _operation_requirement:

	Operational Requirement
	-----------------------

	Logging
	~~~~~~~

	All ONAP MS logging should follow logging specification defined by `logging project <https://wiki.onap.org/pages/viewpage.action?pageId=71831691>`__

	The application log configuration must enable operation to choose if to be written into file or stdout or both during deployment.


	S3P
	~~~
	ONAP S3P (all scaling/resiliency/security/maintainability) goals should meet at the minimum level defined for DCAE project for the targeted release

	If the component is stateful, it should persist its state on external store (eg. pg, redis) to allow support for scaling and resiliency. This should be important design criteria for the component. If the components either publish/subscribe into DMAAP topic, then secure connection to DMAAP must be supported (platform will provide aaf_username/aaf_password for each topic as configuration).