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-rw-r--r--docs/architecture.rst32
-rw-r--r--docs/index.rst54
-rw-r--r--docs/release-notes.rst48
3 files changed, 108 insertions, 26 deletions
diff --git a/docs/architecture.rst b/docs/architecture.rst
new file mode 100644
index 000000000..6211f121a
--- /dev/null
+++ b/docs/architecture.rst
@@ -0,0 +1,32 @@
+.. 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.
+
+
+Clamp in ONAP Architecture
+--------------------------
+
+CLAMP is a platform for designing and managing control loops. It is used to design
+a closed loop, configure it with specific parameters for a particular network
+service, then deploying and undeploying it. Once deployed, the user can also
+update the loop with new parameters during runtime, as well as suspending and
+restarting it.
+
+It interacts with other systems to deploy and execute the closed loop. For
+example, it pushes the control loop design to the SDC catalog, associating it
+with the VF resource. It requests from DCAE the instantiation of microservices
+to manage the closed loop flow. Further, it creates and updates multiple
+policies in the Policy Engine that define the closed loop flow.
+
+The ONAP CLAMP platform abstracts the details of these systems under the concept
+of a control loop model. The design of a control loop and its management is
+represented by a workflow in which all relevant system interactions take
+place. This is essential for a self-service model of creating and managing
+control loops, where no low-level user interaction with other components is
+required.
+
+At a higher level, CLAMP is about supporting and managing the broad operational
+life cycle of VNFs/VMs and ultimately ONAP components itself. It will offer the
+ability to design, test, deploy and update control loop automation - both closed
+and open. Automating these functions would represent a significant saving on
+operational costs compared to traditional methods.
diff --git a/docs/index.rst b/docs/index.rst
index 1efc5ad5d..8372137c0 100644
--- a/docs/index.rst
+++ b/docs/index.rst
@@ -1,7 +1,3 @@
-
-
-
-
.. 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.
@@ -10,26 +6,21 @@ CLAMP - Closed Loop Automation Management Platform
==================================================
.. High level architecture, design, and packaging information for release planning and delivery.
-CLAMP is a platform for designing and managing control loops. It is used to design a closed loop, configure it with specific parameters for a particular network service, then deploying and undeploying it. Once deployed, the user can also update the loop with new parameters during runtime, as well as suspending and restarting it.
-
-It interacts with other systems to deploy and execute the closed loop. For example, it pushes the control loop design to the SDC catalog, associating it with the VF resource. It requests from DCAE the instantiation of microservices to manage the closed loop flow. Further, it creates and updates multiple policies in the Policy Engine that define the closed loop flow.
+.. include:: architecture.rst
-The ONAP CLAMP platform abstracts the details of these systems under the concept of a control loop model. The design of a control loop and its management is represented by a workflow in which all relevant system interactions take place. This is essential for a self-service model of creating and managing control loops, where no low-level user interaction with other components is required.
-
-At a higher level, CLAMP is about supporting and managing the broad operational life cycle of VNFs/VMs and ultimately ONAP components itself. It will offer the ability to design, test, deploy and update control loop automation - both closed and open. Automating these functions would represent a significant saving on operational costs compared to traditional methods.
-
-
-
-.. toctree::
-:maxdepth: 1
Offered APIs
------------
CLAMP offers the following API:
* HealthCheck
- URL: http://<host>:8080/restservices/clds/v1/clds/healthcheck
- if in good health it will return OK: "HTTP/1.1 200", and the following json string content:
+
+.. line-block::
+
+ URL: http://<host>:8080/restservices/clds/v1/clds/healthcheck
+ Result: if in good health it will return OK: "HTTP/1.1 200", and the following json string content:
+
.. code-block:: json
+
{
"healthCheckComponent": "CLDS-APP",
"healthCheckStatus": "UP",
@@ -152,15 +143,26 @@ Human Interfaces
User Interface (CLAMP Designer) - serve to configure control loop
The following actions are done using the UI:
-• Design a control loop flow by selecting a predefined template from a list
- (a template is an orchestration chain of Micro-services, so the template defines how the micro-services of the control loop are chained together)
-• Give value to the configuration the parameters of each micro-service of the control loop
-• Select the service and VNF(of that service) to which the control loop will be attached
-• Configure the operational policy(the actual operation resulting from the control loop)
-• Generate the “TOSCA” blueprint that will be used by DCAE to start the control loop
- (The blueprint will be sent first to SDC and SDC will publish it to DCAE)
-• Trigger the deployment of the Control loop in DCAE
-• Control (start/stop) the operation of the control loop in DCAE
+* Design a control loop flow by selecting a predefined template from a list
+ (a template is an orchestration chain of Micro-services, so the template
+ defines how the micro-services of the control loop are chained together)
+
+* Give value to the configuration the parameters of each micro-service of
+ the control loop
+
+* Select the service and VNF(of that service) to which the control loop
+ will be attached
+
+* Configure the operational policy(the actual operation resulting from
+ the control loop)
+
+* Generate the “TOSCA” blueprint that will be used by DCAE to start the
+ control loop (The blueprint will be sent first to SDC and SDC will
+ publish it to DCAE)
+
+* Trigger the deployment of the Control loop in DCAE
+
+* Control (start/stop) the operation of the control loop in DCAE
diff --git a/docs/release-notes.rst b/docs/release-notes.rst
new file mode 100644
index 000000000..b568bee82
--- /dev/null
+++ b/docs/release-notes.rst
@@ -0,0 +1,48 @@
+.. This work is licensed under a Creative Commons Attribution 4.0 International License.
+
+Release Notes
+=============
+
+.. note::
+ * This Release Notes must be updated each time the team decides to Release new artifacts.
+ * The scope of this Release Notes is for this particular component. In other words, each ONAP component has its Release Notes.
+ * This Release Notes is cumulative, the most recently Released artifact is made visible in the top of this Release Notes.
+ * Except the date and the version number, all the other sections are optional but there must be at least one section describing the purpose of this new release.
+ * This note must be removed after content has been added.
+
+
+Version: x.y.z
+--------------
+
+
+:Release Date: yyyy-mm-dd
+
+
+
+**New Features**
+
+One or two sentences explaining the purpose of this Release.
+
+**Bug Fixes**
+ - `CIMAN-65 <https://jira.onap.org/browse/CIMAN-65>`_ and a sentence explaining what this defect is addressing.
+**Known Issues**
+ - `CIMAN-65 <https://jira.onap.org/browse/CIMAN-65>`_ and two, three sentences.
+ One sentences explaining what is the issue.
+
+ Another sentence explaining the impact of the issue.
+
+ And an optional sentence providing a workaround.
+
+**Security Issues**
+ You may want to include a reference to CVE (Common Vulnerabilities and Exposures) `CVE <https://cve.mitre.org>`_
+
+
+**Upgrade Notes**
+
+**Deprecation Notes**
+
+**Other**
+
+===========
+
+End of Release Notes