Workflow Engine.
Project description
Dagger
Dagger is a distributed, scalable, durable, and highly available orchestration engine to execute asynchronous and
synchronous long-running business logic in a scalable and resilient way.
Dagger requires Python 3.7 or later for the new async/await
_ syntax, and variable type annotations.
Pizza Ordering and Delivery Workflow Example
Here's an example of how to use the library to build and run a Pizza Ordering Workflow:
The PizzaWorkflow consists of 2 Processes:
- Order : Responsible for communicating with the order service to place a pizza order(CommandTask) and wait for the order to be ready(ListenerTask)
- Delivery: Once the order is ready, this process communicates with the delivery service to start delivery of the pizza order(CommandTask)
Step 1 Instantiate Dagger
workflow_engine = Dagger(
broker=KAFKA_ADMIN_CLIENT_URL,
store="aerospike://",
consumer_auto_offset_reset="latest",
task_update_topic="task_update_topic",
trigger_interval=600,
aerospike_config=aerospike_config,
enable_changelog=False,
web_port=6066,
serializer="raw",
)
Step 2 Define Leaf Command and Listener Tasks For Order Process
Let's assume that the Order Microservice processes incoming orders over a Kafka Topic - pizza_order_topic
with the
JSON schema
{
"order_id": "id",
"pizza_type": "1",
"customer_id": "customer_id"
}
Using this information let's build out the OrderCommandTask by overriding the execute
method that implements the
business logic on how to send the payload to the Order Service over a Kafka topic
class OrderCommandTask(KafkaCommandTask[str, str]):
async def execute(
self,
runtime_parameters: Dict[str, str],
workflow_instance: ITemplateDAGInstance,
) -> None:
payload = {
"order_id": runtime_parameters["order_id"],
"customer_id": runtime_parameters["customer_id"],
"pizza_type": runtime_parameters["pizza_type"],
}
await workflow_engine.topics[self.topic].send(
value=json.dumps(payload)
)
After executing the OrderCommandTask
, the workflow should enter a WAIT_STATE
until it receives a message from the
OrderService about the status of the order. Let's assume that Order Service sends a message on a Kafka Topic:
order_status_topic when the order is ready in the following JSON format
{
"order_id": "id",
"status": "READY"
}
Let's model the OrderListenerTask
to process this message on the order_status_topic
by implementing the
get_correlatable_keys_from_payload
and on_message
methods on the Listener. It also needs to specify the correletable_key
as order_id
to look up the payload
class PizzaWaitForReadyListener(KafkaListenerTask[str, str]):
correlatable_key = "order_id"
async def get_correlatable_keys_from_payload(
self, payload: Any
) -> List[TaskLookupKey]:
tpayload = json.loads(payload)
key = tpayload[self.correlatable_key]
return [(self.correlatable_key, key)]
async def on_message(
self, runtime_parameters: Dict[str, VT], *args: Any, **kwargs: Any
) -> bool :
logger.info(f"Pizza Order is Ready")
return True
When the order service sends a status message on the order_status_topic
, Dagger invokes the get_correlatable_keys_from_payload
to determine which workflow instance that message belongs to. Once it determines the workflow instance, it invokes
on_message
on the corresponding ListenerTask
Now that we have the LEAF tasks modeled, lets attach them to the parent Order
Process
def pizza_ordering_process(
process_name: str = "Order"
) -> IProcessTemplateDAGBuilder:
dag_builder = DAGBuilderHelper(dagger_app=workflow_engine)
root_task = dag_builder.build_and_link_tasks(
[
dag_builder.generic_command_task_builder(
topic="pizza_order_topic",
task_type=OrderCommandTask,
process_name=process_name,
),
dag_builder.generic_listener_task_builder(
topic="PizzaWaitForReadyListener",
task_type=PizzaWaitForReadyListener,
process_name=process_name,
),
]
)
return dag_builder.generic_process_builder(process_name=process_name, root_task=root_task)
The Order Process is in COMPLETED
when both the CommandTask and the PizzaWaitForReadyListener are COMPLETED
and then
the workflow transitions to execute the next Process Delivery
Step 3 Define Leaf Command Tasks For Delivery Process
Let's assume that the delivery service just requires an HTTP POST request with the following schema
{
"order_id": "id",
"customer_id": "customer_id"
}
We can model the DeliveryCommandTask to POST this payload by implementing the execute
method as follows
class DeliveryCommandTask(ExecutorTask[str, str]):
async def execute(
self, runtime_parameters: Dict[str, VT], workflow_instance: ITask = None
) -> None:
payload = {
"order_id": runtime_parameters["order_id"],
"customer_id": runtime_parameters["customer_id"],
}
async with aiohttp.ClientSession() as session:
async with session.post(url="http://www.deliverysvc.com", json=payload):
pass
Let's attach this to the parent Delivery
Process
def pizza_delivery_process(
process_name: str = "Delivery",
) -> IProcessTemplateDAGBuilder:
dag_builder = DAGBuilderHelper(dagger_app=workflow_engine)
root_task = dag_builder.build_and_link_tasks(
[
dag_builder.generic_executor_task_builder(
task_type=DeliveryCommandTask,
name=process_name,
)
]
)
return dag_builder.generic_process_builder(
process_name=process_name, root_task=root_task
)
Step 4 Define the Sequence of Process Execution and register the workflow definition using register_template
Based on the workflow, we want the Order
Process to execute first before the Delivery
Process. The workflow ensures
that the Delivery
tasks are executed only after both the tasks in the Order
process are in a terminal state
@Dagger.register_template("PizzaWorkflow")
def register_pizza_workflow(template_name: str) -> ITemplateDAG:
dag_builder_helper = DAGBuilderHelper(workflow_engine)
order_process = dag_builder_helper.build_and_link_processes(
[
pizza_ordering_process(process_name="Order"),
pizza_delivery_process(process_name="Delivery"),
]
)
return dag_builder_helper.generic_template(
template_name=template_name, root_process=order_process
)
Step 5 Define an API to instantiate and execute pizza order workflows
async def create_and_submit_pizza_delivery_workflow(
order_id: str, customer_id: str, pizza_type: int
):
pizza_workflow_template = workflow_engine.template_dags["PizzaWorkflow"]
pizza_workflow_instance = await pizza_workflow_template.create_instance(
uuid.uuid1(),
repartition=False, # Create this instance on the current worker
order_id=order_id,
customer_id=customer_id,
pizza_type=pizza_type,
)
await workflow_engine.submit(pizza_workflow_instance, repartition=False)
Step 6 Start the worker
workflow_engine.main()
Dagger is
Simple
Dagger is extremely easy to use. To get started applications need to install this library, define a DAG using the default templates or extending them based on the use case, creating instances of these DAG's and scheduling them for execution. The library hides all the complexity of producing and consuming from Kafka, maintaining Kafka Streams topology processing and also persistence and recovery of created tasks
Highly Available
Dagger is highly available and can survive network problems and server crashes. In the case of node failure, it can automatically recover the state store(representing task data) or failover to a standby node
Distributed
Start more instances of your application as needed to distribute the load on the system
Fast
A single-core worker instance can already process tens of thousands of tasks every second. Dagger uses a fast key-value lookup store based on rocksDB replicated to kafka topics for fault tolerance
Installation
You can install dagger via the Wayfair artifactory or from source.
To install using pip
:
pip install wf-dagger
dagger has a dependency on faust-streaming
for kafka stream processing
FAQ
Which version of python is supported?
dagger supports python version >= 3.7
What kafka versions are supported?
dagger supports kafka with version >= 0.10.
Roadmap
See the open issues for a list of proposed features (and known issues).
Contributing
Contributions are what make the open source community such an amazing place to learn, inspire, and create. Any contributions you make are greatly appreciated. For detailed contributing guidelines, please see CONTRIBUTING.md
License
Distributed under the MIT LICENSE
License. See LICENSE
for more information.
Contact
Vikram Patki - vpatki@wayfair.com
Project Link: https://github.com/wayfair-incubator/dagger
Acknowledgements
This template was adapted from https://github.com/othneildrew/Best-README-Template.
Documentation
Check out the project documentation.
For an overview on the repository structure and how to work with the code base, read the Development Guide.
Project details
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