TaskFlow/Engines
Engine
Engines are what really runs your tasks
and flows
.
An engine takes a flow
structure (described by patterns) and uses it to decide which task
to run and when.
There may be different implementation of engines. Some may be easier to use (like, require no setup) and understand, others might require more complicated setup but provide better scalability. The idea and ideal is that deployers of a service that uses taskflow can select an engine that suites their setup best without modifying the code of said service. This allows for that deployer to start off using a simpler implementation and scaling out the service that is powered by taskflow as the service grows. In concept, all engines should implement the same interface to make it easy to replace one engine with another, and provide the same guarantees on how patterns are interpreted -- for example, if an engine runs a linear flow, the tasks should be run one after another in order no matter what type of engine is actually running that linear flow.
Note: Engines might have different capabilities and different configuration but overall the interface will remain the same.
Supported Types
Distributed
When you want your applications tasks
and flows
to be performed in a system that is highly available & resilient to individual failure.
See: DistributedTaskManagement and Celery for more details.
Demo: http://www.youtube.com/watch?v=SJLc3U-KYxQ
Traditional
When you want your tasks
and flows
to just run inside your applications existing framework and still take advantage of the functionality offered.
Supports the following:
- Threaded engine using a provided thread/processor executor.
- Single threaded engine using no threads.
How
Blueprint: https://blueprints.launchpad.net/taskflow/+spec/patterns-and-engines
Blueprint: https://blueprints.launchpad.net/taskflow/+spec/distributed-celery
Blueprint: https://blueprints.launchpad.net/taskflow/+spec/eventlet-engine