This patch adds Zaqar-specific contents of the OpenStack Installation Guide in the Zaqar repository per [1]. It only covers installation on Red Hat-based systems. Also this patch adds tox.ini environment for install-guide and adds openstackdocs-theme to test-requirements.txt. The Zaqar Installation Guide structure is based on Install Guide Cookiecutter: https://review.openstack.org/#/c/314229/. [1] http://specs.openstack.org/openstack/docs-specs/specs/newton/project-specific-installguides.html Change-Id: I72300c146b22511da4432775fc84e8c821a3fd12 Implements: blueprint install-guide-in-tree Partially-Implements: blueprint projectspecificinstallguides
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Welcome to the Zaqar Developer Documentation!
Zaqar is a multi-tenant cloud messaging and notification service for web and mobile developers.
The service features a REST API, which developers can use to send messages between various components of their SaaS and mobile applications, by using a variety of communication patterns. Underlying this API is an efficient messaging engine designed with scalability and security in mind. The Websocket API is also available.
Other OpenStack components can integrate with Zaqar to surface events to end users and to communicate with guest agents that run in the "over-cloud" layer.
Note
This documentation is generated by the Sphinx toolkit and lives in the Zaqar project source tree. Additional draft and project documentation regarding Zaqar and other components of OpenStack can be found on the OpenStack Wiki, as well as in the user guides found on docs.openstack.org.
Key features
Zaqar provides the following key features:
- Choice between two communication transports. Both with Keystone
support:
- Firewall-friendly, HTTP-based RESTful API. Many of today's developers prefer a more web-friendly HTTP API. They value the simplicity and transparency of the protocol, it's firewall-friendly nature, and it's huge ecosystem of tools, load balancers and proxies. In addition, cloud operators appreciate the scalability aspects of the REST architectural style.
- Websocket-based API for persistent connections. Websocket protocol provides communication over persistent connections. Unlike HTTP, where new connections are opened for each request/response pair, Websocket can transfer multiple requests/responses over single TCP connection. It saves much network traffic and minimizes delays.
- Multi-tenant queues based on Keystone project IDs.
- Support for several common patterns including event broadcasting, task distribution, and point-to-point messaging.
- Component-based architecture with support for custom backends and message filters.
- Efficient reference implementation with an eye toward low latency and high throughput (dependent on backend).
- Highly-available and horizontally scalable.
- Support for subscriptions to queues. Several notification types are
available:
- Email notifications.
- Webhook notifications.
- Websocket notifications.
Project scope
The Zaqar API is data-oriented. That is, it does not provision message brokers and expose those directly to clients. Instead, the API acts as a bridge between the client and one or more backends. A provisioning service for message brokers, however useful, serves a somewhat different market from what Zaqar is targeting today. With that in mind, if users are interested in a broker provisioning service, the community should consider starting a new project to address that need.
Design principles
Zaqar, as with all OpenStack projects, is designed with the following guidelines in mind:
- Component-based architecture. Quickly add new behaviors
- Highly available and scalable. Scale to very serious workloads
- Fault tolerant. Isolated processes avoid cascading failures
- Recoverable. Failures should be easy to diagnose, debug, and rectify
- Open standards. Be a reference implementation for a community-driven
Concepts
glossary
Modules reference
Zaqar is composed of two layers:
transport storage/autoindex
The transport drivers are responsible for interacting with Zaqar clients. Every query made by clients is processed by the transport layer, which is in charge of passing this information to the backend and then returning the response in a format understandable by the client.
The storage drivers are responsible for interacting with the storage backends and, that way, store or retrieve the data coming from the transport layer.
In order to keep these layers decoupled, we have established that checks should be performed in the appropriate layer. In other words, transport drivers must guarantee that the incoming data is well-formed and storage drivers must enforce their data model stays consistent.
Setting up Zaqar in development environment
devref/development.environment
Welcome new contributors
welcome first_patch first_review
Running and writing tests
running_tests test_suite
Reviewing
reviewer_guide
Tutorials
running_benchmark writing_pipeline_stages
Other resources
launchpad gerrit jenkins
Internal API reference
api/autoindex
Indices and tables
genindex
modindex
search