This patch fixes existing specs to totally conform to tox py27 environment tests as specified by tests/test_titles.py. Semantic information of all existing specs has not been changed. Specifically, this patch makes the following changes: * Fixes all titles and subtitles' capitalization inconsistencies: defaulting to only having the first word being capitalized (this seems to be the general rule in group-based-policy-specs); * Adds missing titles and subtitles to some specs; * Changes tests/test_titles.py for consistency: only 1st word capitalized; * Changes tests/tests_titles.py: subtitle count inside Testing or Documentation impact no longer restricted to 0. Change-Id: I88e30b0825f5279a8c6808fd9a2fc2987b6611f9 Closes-Bug: #1437282
13 KiB
Example Spec - The title of your blueprint
Launchpad blueprint:
https://blueprints.launchpad.net/group-based-policy/+spec/some-spec
Introduction paragraph -- why are we doing anything? A single paragraph of prose that operators can understand.
Some notes about using this template:
- Your spec should be in ReSTructured text, like this template.
- Please wrap text at 80 columns.
- Please do not delete any of the sections in this template. If you have nothing to say for a whole section, just write: None
- For help with syntax, see http://sphinx-doc.org/rest.html
- To test out your formatting, build the docs using tox, or see: http://rst.ninjs.org
- If you would like to provide a diagram with your spec, text representations are preferred. http://asciiflow.com/ is a very nice tool to assist with making ascii diagrams. blockdiag is another tool. These are described below. If you require an image (screenshot) for your BP, attaching that to the BP and checking it in is also accepted. However, text representations are prefered.
- Diagram examples
asciiflow:
+----------+ +-----------+ +----------+
| A | | B | | C |
| +-----+ +--------+ |
+----------+ +-----------+ +----------+
blockdiag
- blockdiag sample {
-
a -> b -> c;
}
actdiag
- actdiag {
-
write -> convert -> image lane user { label = "User" write [label = "Writing reST"]; image [label = "Get diagram IMAGE"]; } lane actdiag { convert [label = "Convert reST to Image"]; }
}
nwdiag
- nwdiag {
-
- network dmz {
-
address = "210.x.x.x/24"
web01 [address = "210.x.x.1"]; web02 [address = "210.x.x.2"];
} network internal { address = "172.x.x.x/24";
web01 [address = "172.x.x.1"]; web02 [address = "172.x.x.2"]; db01; db02;
}
}
seqdiag
- seqdiag {
-
browser -> webserver [label = "GET /index.html"]; browser <-- webserver; browser -> webserver [label = "POST /blog/comment"]; webserver -> database [label = "INSERT comment"]; webserver <-- database; browser <-- webserver;
}
Problem description
A detailed description of the problem:
- For a new feature this might be use cases. Ensure you are clear about the actors in each use case: End User vs Deployer
- For a major reworking of something existing it would describe the problems in that feature that are being addressed.
Proposed change
Here is where you cover the change you propose to make in detail. How do you propose to solve this problem?
If this is one part of a larger effort make it clear where this piece ends. In other words, what's the scope of this effort?
Alternatives
What other ways could we do this thing? Why aren't we using those? This doesn't have to be a full literature review, but it should demonstrate that thought has been put into why the proposed solution is an appropriate one.
Data model impact
Changes which require modifications to the data model often have a wider impact on the system. The community often has strong opinions on how the data model should be evolved, from both a functional and performance perspective. It is therefore important to capture and gain agreement as early as possible on any proposed changes to the data model.
Questions which need to be addressed by this section include:
- What new data objects and/or database schema changes is this going to require?
- What database migrations will accompany this change.
- How will the initial set of new data objects be generated, for example if you need to take into account existing instances, or modify other existing data describe how that will work.
REST API impact
For each API resource to be implemented using the attribute map facility, describe the resource collection and specify the name, type, and other essential details of each new or modified attribute. A table similar to the following may be used:
Attribute Name | Type | Access | Default Value | Validation/ Conversion | Description |
---|---|---|---|---|---|
id | string (UUID) | RO, all | generated | N/A | identity |
name | string | RW, all | '' | string | human-readable name |
color | string | RW, admin | 'red' | 'red', 'yellow', or 'green' | color indicating state |
Here is the other example of the table using csv-table
Attribute Name | Type | Access | Default Value | Validation Conversion | Description |
---|---|---|---|---|---|
id | string (UUID) | RO, all | generated | N/A | identity |
name | string | RW, all | '' | string | human-readable name |
color | string | RW, admin | red | 'red', 'yellow' or 'green' | color indicating state |
Each API method which is either added or changed that does not use Neutron's attribute map facility should have the following:
- Specification for the method
- A description of what the method does suitable for use in user documentation
- Method type (POST/PUT/GET/DELETE)
- Normal http response code(s)
- Expected error http response code(s)
- A description for each possible error code should be included describing semantic errors which can cause it such as inconsistent parameters supplied to the method, or when an instance is not in an appropriate state for the request to succeed. Errors caused by syntactic problems covered by the JSON schema defintion do not need to be included.
- URL for the resource
- Parameters which can be passed via the url
- JSON schema definition for the body data if allowed
- JSON schema definition for the response data if any
- Example use case including typical API samples for both data supplied by the caller and the response
- Discuss any API policy changes, and discuss what things a deployer needs to think about when defining their API policy. This is in reference to the policy.json file.
Note that the schema should be defined as restrictively as possible. Parameters which are required should be marked as such and only under exceptional circumstances should additional parameters which are not defined in the schema be permitted (eg additionaProperties should be False).
Reuse of existing predefined parameter types such as regexps for passwords and user defined names is highly encouraged.
Security impact
Describe any potential security impact on the system. Some of the items to consider include:
- Does this change touch sensitive data such as tokens, keys, or user data?
- Does this change alter the API in a way that may impact security, such as a new way to access sensitive information or a new way to login?
- Does this change involve cryptography or hashing?
- Does this change require the use of sudo or any elevated privileges?
- Does this change involve using or parsing user-provided data? This could be directly at the API level or indirectly such as changes to a cache layer.
- Can this change enable a resource exhaustion attack, such as allowing a single API interaction to consume significant server resources? Some examples of this include launching subprocesses for each connection, or entity expansion attacks in XML.
For more detailed guidance, please see the OpenStack Security Guidelines as a reference (https://wiki.openstack.org/wiki/Security/Guidelines). These guidelines are a work in progress and are designed to help you identify security best practices. For further information, feel free to reach out to the OpenStack Security Group at openstack-security@lists.openstack.org.
Notifications impact
Please specify any changes to notifications. Be that an extra notification, changes to an existing notification, or removing a notification.
Other end user impact
Aside from the API, are there other ways a user will interact with this feature?
- Does this change have an impact on python client? What does the user interface there look like?
Performance impact
Describe any potential performance impact on the system, for example how often will new code be called, and is there a major change to the calling pattern of existing code.
Examples of things to consider here include:
- A periodic task might look like a small addition but if it calls conductor or another service the load is multiplied by the number of nodes in the system.
- A small change in a utility function or a commonly used decorator can have a large impacts on performance.
- Calls which result in a database queries (whether direct or via conductor) can have a profound impact on performance when called in critical sections of the code.
- Will the change include any locking, and if so what considerations are there on holding the lock?
Other deployer impact
Discuss things that will affect how you deploy and configure OpenStack that have not already been mentioned, such as:
- What config options are being added? Should they be more generic than proposed (for example a flag that other hypervisor drivers might want to implement as well)? Are the default values ones which will work well in real deployments?
- Is this a change that takes immediate effect after its merged, or is it something that has to be explicitly enabled?
- If this change is a new binary, how would it be deployed?
- Please state anything that those doing continuous deployment, or those upgrading from the previous release, need to be aware of. Also describe any plans to deprecate configuration values or features. For example, if we change the directory name that instances are stored in, how do we handle instance directories created before the change landed? Do we move them? Do we have a special case in the code? Do we assume that the operator will recreate all the instances in their cloud?
Developer impact
Discuss things that will affect other developers working on OpenStack, such as:
- If the blueprint proposes a change to the API, discussion of how other plugins would implement the feature is required.
Implementation
Assignee(s)
Who is leading the writing of the code? Or is this a blueprint where you're throwing it out there to see who picks it up?
If more than one person is working on the implementation, please designate the primary author and contact.
- Primary assignee:
-
<launchpad-id or None>
- Other contributors:
-
<launchpad-id or None>
Work items
Work items or tasks -- break the feature up into the things that need to be done to implement it. Those parts might end up being done by different people, but we're mostly trying to understand the timeline for implementation.
Dependencies
- Include specific references to specs and/or blueprints in other projects, that this one either depends on or is related to.
- If this requires functionality of another project that is not currently used by Neutron (such as the glance v2 API when we previously only required v1), document that fact.
- Does this feature require any new library dependencies or code otherwise not included in OpenStack? Or does it depend on a specific version of library?
Testing
Please discuss how the change will be tested. We especially want to know what tempest tests will be added. It is assumed that unit test coverage will be added so that doesn't need to be mentioned explicitly, but discussion of why you think unit tests are sufficient and we don't need to add more tempest tests would need to be included.
Is this untestable in gate given current limitations (specific hardware / software configurations available)? If so, are there mitigation plans (3rd party testing, gate enhancements, etc).
Documentation impact
What is the impact on the docs team of this change? Some changes might require donating resources to the docs team to have the documentation updated. Don't repeat details discussed above, but please reference them here.
References
Please add any useful references here. You are not required to have any reference. Moreover, this specification should still make sense when your references are unavailable. Examples of what you could include are:
- Links to mailing list or IRC discussions
- Links to notes from a summit session
- Links to relevant research, if appropriate
- Related specifications as appropriate (e.g. link any vendor documentation)
- Anything else you feel it is worthwhile to refer to