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scaffold out docs for workflow java sdk 

Signed-off-by: Hannah Hunter <hannahhunter@microsoft.com>
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Hannah Hunter 2023-08-02 14:56:59 -04:00
parent 4d444bd12a
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253
daprdocs/content/en/developing-applications/building-blocks/workflow/howto-author-workflow.md
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@ -30,7 +30,25 @@ The Dapr sidecar doesnt load any workflow definitions. Rather, the sidecar si
[Workflow activities]({{< ref "workflow-features-concepts.md#workflow-activites" >}}) are the basic unit of work in a workflow and are the tasks that get orchestrated in the business process.
{{< tabs ".NET" Python >}}
{{< tabs Python ".NET" Java >}}
{{% codetab %}}
<!--python-->
Define the workflow activities you'd like your workflow to perform. Activities are a function definition and can take inputs and outputs. The following example creates a counter (activity) called `hello_act` that notifies users of the current counter value. `hello_act` is a function derived from a class called `WorkflowActivityContext`.
```python
def hello_act(ctx: WorkflowActivityContext, input):
global counter
counter += input
print(f'New counter value is: {counter}!', flush=True)
```
[See the `hello_act` workflow activity in context.](https://github.com/dapr/python-sdk/blob/master/examples/demo_workflow/app.py#LL40C1-L43C59)
{{% /codetab %}}
{{% codetab %}}
@ -102,29 +120,67 @@ public class ProcessPaymentActivity : WorkflowActivity<PaymentRequest, object>
{{% codetab %}}
<!--python-->
<!--java-->
Define the workflow activities you'd like your workflow to perform. Activities are a function definition and can take inputs and outputs. The following example creates a counter (activity) called `hello_act` that notifies users of the current counter value. `hello_act` is a function derived from a class called `WorkflowActivityContext`.
Define the workflow activities you'd like your workflow to perform.
```python
def hello_act(ctx: WorkflowActivityContext, input):
global counter
counter += input
print(f'New counter value is: {counter}!', flush=True)
The activities called in the example below are:
- `need`: Receive notification of a new order.
### [activity]
```java
todo
```
[See the `hello_act` workflow activity in context.](https://github.com/dapr/python-sdk/blob/master/examples/demo_workflow/app.py#LL40C1-L43C59)
[See the full `todo` workflow activity example.](todo)
### [activity]
```java
todo
```
[See the full `todo` workflow activity example.](todo)
### [todo]
```java
todo
```
[See the full `todo` workflow activity example.](todo)
{{% /codetab %}}
{{< /tabs >}}
## Write the workflow
Next, register and call the activites in a workflow.
{{< tabs ".NET" Python >}}
{{< tabs Python ".NET" Java >}}
{{% codetab %}}
<!--python-->
The `hello_world_wf` function is derived from a class called `DaprWorkflowContext` with input and output parameter types. It also includes a `yield` statement that does the heavy lifting of the workflow and calls the workflow activities.
```python
def hello_world_wf(ctx: DaprWorkflowContext, input):
print(f'{input}')
yield ctx.call_activity(hello_act, input=1)
yield ctx.call_activity(hello_act, input=10)
yield ctx.wait_for_external_event("event1")
yield ctx.call_activity(hello_act, input=100)
yield ctx.call_activity(hello_act, input=1000)
```
[See the `hello_world_wf` workflow in context.](https://github.com/dapr/python-sdk/blob/master/examples/demo_workflow/app.py#LL32C1-L38C51)
{{% /codetab %}}
{{% codetab %}}
@ -171,21 +227,15 @@ The `OrderProcessingWorkflow` class is derived from a base class called `Workflo
{{% codetab %}}
<!--python-->
<!--java-->
The `hello_world_wf` function is derived from a class called `DaprWorkflowContext` with input and output parameter types. It also includes a `yield` statement that does the heavy lifting of the workflow and calls the workflow activities.
Intro
```python
def hello_world_wf(ctx: DaprWorkflowContext, input):
print(f'{input}')
yield ctx.call_activity(hello_act, input=1)
yield ctx.call_activity(hello_act, input=10)
yield ctx.wait_for_external_event("event1")
yield ctx.call_activity(hello_act, input=100)
yield ctx.call_activity(hello_act, input=1000)
```java
todo
```
[See the `hello_world_wf` workflow in context.](https://github.com/dapr/python-sdk/blob/master/examples/demo_workflow/app.py#LL32C1-L38C51)
[See the `todo` workflow in context.](todo)
{{% /codetab %}}
@ -196,78 +246,7 @@ def hello_world_wf(ctx: DaprWorkflowContext, input):
Finally, compose the application using the workflow.
{{< tabs ".NET" Python >}}
{{% codetab %}}
<!--csharp-->
[In the following `Program.cs` example](https://github.com/dapr/dotnet-sdk/blob/master/examples/Workflow/WorkflowConsoleApp/Program.cs), for a basic ASP.NET order processing application using the .NET SDK, your project code would include:
- A NuGet package called `Dapr.Workflow` to receive the .NET SDK capabilities
- A builder with an extension method called `AddDaprWorkflow`
- This will allow you to register workflows and workflow activities (tasks that workflows can schedule)
- HTTP API calls
- One for submitting a new order
- One for checking the status of an existing order
```csharp
using Dapr.Workflow;
//...
// Dapr Workflows are registered as part of the service configuration
builder.Services.AddDaprWorkflow(options =>
{
// Note that it's also possible to register a lambda function as the workflow
// or activity implementation instead of a class.
options.RegisterWorkflow<OrderProcessingWorkflow>();
// These are the activities that get invoked by the workflow(s).
options.RegisterActivity<NotifyActivity>();
options.RegisterActivity<ReserveInventoryActivity>();
options.RegisterActivity<ProcessPaymentActivity>();
});
WebApplication app = builder.Build();
// POST starts new order workflow instance
app.MapPost("/orders", async (WorkflowEngineClient client, [FromBody] OrderPayload orderInfo) =>
{
if (orderInfo?.Name == null)
{
return Results.BadRequest(new
{
message = "Order data was missing from the request",
example = new OrderPayload("Paperclips", 99.95),
});
}
//...
});
// GET fetches state for order workflow to report status
app.MapGet("/orders/{orderId}", async (string orderId, WorkflowEngineClient client) =>
{
WorkflowState state = await client.GetWorkflowStateAsync(orderId, true);
if (!state.Exists)
{
return Results.NotFound($"No order with ID = '{orderId}' was found.");
}
var httpResponsePayload = new
{
details = state.ReadInputAs<OrderPayload>(),
status = state.RuntimeStatus.ToString(),
result = state.ReadOutputAs<OrderResult>(),
};
//...
}).WithName("GetOrderInfoEndpoint");
app.Run();
```
{{% /codetab %}}
{{< tabs Python ".NET" Java >}}
{{% codetab %}}
@ -356,6 +335,91 @@ if __name__ == '__main__':
```
{{% /codetab %}}
{{% codetab %}}
<!--csharp-->
[In the following `Program.cs` example](https://github.com/dapr/dotnet-sdk/blob/master/examples/Workflow/WorkflowConsoleApp/Program.cs), for a basic ASP.NET order processing application using the .NET SDK, your project code would include:
- A NuGet package called `Dapr.Workflow` to receive the .NET SDK capabilities
- A builder with an extension method called `AddDaprWorkflow`
- This will allow you to register workflows and workflow activities (tasks that workflows can schedule)
- HTTP API calls
- One for submitting a new order
- One for checking the status of an existing order
```csharp
using Dapr.Workflow;
//...
// Dapr Workflows are registered as part of the service configuration
builder.Services.AddDaprWorkflow(options =>
{
// Note that it's also possible to register a lambda function as the workflow
// or activity implementation instead of a class.
options.RegisterWorkflow<OrderProcessingWorkflow>();
// These are the activities that get invoked by the workflow(s).
options.RegisterActivity<NotifyActivity>();
options.RegisterActivity<ReserveInventoryActivity>();
options.RegisterActivity<ProcessPaymentActivity>();
});
WebApplication app = builder.Build();
// POST starts new order workflow instance
app.MapPost("/orders", async (WorkflowEngineClient client, [FromBody] OrderPayload orderInfo) =>
{
if (orderInfo?.Name == null)
{
return Results.BadRequest(new
{
message = "Order data was missing from the request",
example = new OrderPayload("Paperclips", 99.95),
});
}
//...
});
// GET fetches state for order workflow to report status
app.MapGet("/orders/{orderId}", async (string orderId, WorkflowEngineClient client) =>
{
WorkflowState state = await client.GetWorkflowStateAsync(orderId, true);
if (!state.Exists)
{
return Results.NotFound($"No order with ID = '{orderId}' was found.");
}
var httpResponsePayload = new
{
details = state.ReadInputAs<OrderPayload>(),
status = state.RuntimeStatus.ToString(),
result = state.ReadOutputAs<OrderResult>(),
};
//...
}).WithName("GetOrderInfoEndpoint");
app.Run();
```
{{% /codetab %}}
{{% codetab %}}
<!--java-->
[In the following example](todo), for a basic Java hello world application using the Java SDK, your project code would include:
- A Java package called `todo` to receive the Java SDK capabilities.
```java
todo
```
{{% /codetab %}}
@ -377,5 +441,6 @@ Now that you've authored a workflow, learn how to manage it.
- [Workflow overview]({{< ref workflow-overview.md >}})
- [Workflow API reference]({{< ref workflow_api.md >}})
- Try out the full SDK examples:
- [.NET example](https://github.com/dapr/dotnet-sdk/tree/master/examples/Workflow)
- [Python example](https://github.com/dapr/python-sdk/tree/master/examples/demo_workflow)
- [.NET example](https://github.com/dapr/dotnet-sdk/tree/master/examples/Workflow)
- [Java example](todo)

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daprdocs/content/en/developing-applications/building-blocks/workflow/howto-manage-workflow.md
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@ -8,43 +8,7 @@ description: Manage and run workflows
Now that you've [authored the workflow and its activities in your application]({{< ref howto-author-workflow.md >}}), you can start, terminate, and get information about the workflow using HTTP API calls. For more information, read the [workflow API reference]({{< ref workflow_api.md >}}).
{{< tabs ".NET" Python HTTP >}}
<!--NET-->
{{% codetab %}}
Manage your workflow within your code. In the `OrderProcessingWorkflow` example from the [Author a workflow]({{< ref "howto-author-workflow.md#write-the-application" >}}) guide, the workflow is registered in the code. You can now start, terminate, and get information about a running workflow:
```csharp
string orderId = "exampleOrderId";
string workflowComponent = "dapr";
string workflowName = "OrderProcessingWorkflow";
OrderPayload input = new OrderPayload("Paperclips", 99.95);
Dictionary<string, string> workflowOptions; // This is an optional parameter
// Start the workflow. This returns back a "StartWorkflowResponse" which contains the instance ID for the particular workflow instance.
StartWorkflowResponse startResponse = await daprClient.StartWorkflowAsync(orderId, workflowComponent, workflowName, input, workflowOptions);
// Get information on the workflow. This response contains information such as the status of the workflow, when it started, and more!
GetWorkflowResponse getResponse = await daprClient.GetWorkflowAsync(orderId, workflowComponent, workflowName);
// Terminate the workflow
await daprClient.TerminateWorkflowAsync(orderId, workflowComponent);
// Raise an event (an incoming purchase order) that your workflow will wait for. This returns the item waiting to be purchased.
await daprClient.RaiseWorkflowEventAsync(orderId, workflowComponent, workflowName, input);
// Pause
await daprClient.PauseWorkflowAsync(orderId, workflowComponent);
// Resume
await daprClient.ResumeWorkflowAsync(orderId, workflowComponent);
// Purge
await daprClient.PurgeWorkflowAsync(orderId, workflowComponent);
```
{{% /codetab %}}
{{< tabs Python ".NET" Java HTTP >}}
<!--Python-->
{{% codetab %}}
@ -95,6 +59,53 @@ d.terminate_workflow(instance_id=instanceId, workflow_component=workflowComponen
{{% /codetab %}}
<!--NET-->
{{% codetab %}}
Manage your workflow within your code. In the `OrderProcessingWorkflow` example from the [Author a workflow]({{< ref "howto-author-workflow.md#write-the-application" >}}) guide, the workflow is registered in the code. You can now start, terminate, and get information about a running workflow:
```csharp
string orderId = "exampleOrderId";
string workflowComponent = "dapr";
string workflowName = "OrderProcessingWorkflow";
OrderPayload input = new OrderPayload("Paperclips", 99.95);
Dictionary<string, string> workflowOptions; // This is an optional parameter
// Start the workflow. This returns back a "StartWorkflowResponse" which contains the instance ID for the particular workflow instance.
StartWorkflowResponse startResponse = await daprClient.StartWorkflowAsync(orderId, workflowComponent, workflowName, input, workflowOptions);
// Get information on the workflow. This response contains information such as the status of the workflow, when it started, and more!
GetWorkflowResponse getResponse = await daprClient.GetWorkflowAsync(orderId, workflowComponent, workflowName);
// Terminate the workflow
await daprClient.TerminateWorkflowAsync(orderId, workflowComponent);
// Raise an event (an incoming purchase order) that your workflow will wait for. This returns the item waiting to be purchased.
await daprClient.RaiseWorkflowEventAsync(orderId, workflowComponent, workflowName, input);
// Pause
await daprClient.PauseWorkflowAsync(orderId, workflowComponent);
// Resume
await daprClient.ResumeWorkflowAsync(orderId, workflowComponent);
// Purge
await daprClient.PurgeWorkflowAsync(orderId, workflowComponent);
```
{{% /codetab %}}
<!--Python-->
{{% codetab %}}
Manage your workflow within your code. In the workflow example from the [Author a workflow]({{< ref "howto-author-workflow.md#write-the-application" >}}) guide, the workflow is registered in the code using the following APIs:
```java
todo
```
{{% /codetab %}}
<!--HTTP-->
{{% codetab %}}
@ -172,6 +183,8 @@ Learn more about these HTTP calls in the [workflow API reference guide]({{< ref
## Next steps
- [Try out the Workflow quickstart]({{< ref workflow-quickstart.md >}})
- Try out the full SDK examples:
- [.NET example](https://github.com/dapr/dotnet-sdk/tree/master/examples/Workflow)
- [Python example](https://github.com/dapr/python-sdk/blob/master/examples/demo_workflow/app.py)
- [.NET example](https://github.com/dapr/dotnet-sdk/tree/master/examples/Workflow)
- [Java example](todo)
- [Workflow API reference]({{< ref workflow_api.md >}})

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daprdocs/content/en/developing-applications/building-blocks/workflow/workflow-overview.md
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@ -83,9 +83,9 @@ You can use the following SDKs to author a workflow.
| Language stack | Package |
| - | - |
| .NET | [Dapr.Workflow](https://www.nuget.org/profiles/dapr.io) |
| Python | [dapr-ext-workflow](https://github.com/dapr/python-sdk/tree/master/ext/dapr-ext-workflow) |
| .NET | [Dapr.Workflow](https://www.nuget.org/profiles/dapr.io) |
| Java | need |
## Try out workflows
@ -96,8 +96,9 @@ Want to put workflows to the test? Walk through the following quickstart and tut
| Quickstart/tutorial | Description |
| ------------------- | ----------- |
| [Workflow quickstart]({{< ref workflow-quickstart.md >}}) | Run a .NET workflow application with four workflow activities to see Dapr Workflow in action |
| [Workflow .NET SDK example](https://github.com/dapr/dotnet-sdk/tree/master/examples/Workflow) | Learn how to create a Dapr Workflow and invoke it using ASP.NET Core web APIs. |
| [Workflow Python SDK example](https://github.com/dapr/python-sdk/tree/master/examples/demo_workflow) | Learn how to create a Dapr Workflow and invoke it using the Python `DaprClient` package. |
| [Workflow .NET SDK example](https://github.com/dapr/dotnet-sdk/tree/master/examples/Workflow) | Learn how to create a Dapr Workflow and invoke it using ASP.NET Core web APIs. |
| [Workflow Java SDK example](todo) | Learn how to create a Dapr Workflow and invoke it using the Java `need` package. |
### Start using workflows directly in your app

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@ -21,242 +21,9 @@ In this guide, you'll:
<img src="/images/workflow-quickstart-overview.png" width=800 style="padding-bottom:15px;">
{{< tabs ".NET" "Python" >}}
{{< tabs "Python" ".NET" "Java" >}}
<!-- .NET -->
{{% codetab %}}
The `order-processor` console app starts and manages the lifecycle of an order processing workflow that stores and retrieves data in a state store. The workflow consists of four workflow activities, or tasks:
- `NotifyActivity`: Utilizes a logger to print out messages throughout the workflow
- `ReserveInventoryActivity`: Checks the state store to ensure that there is enough inventory for the purchase
- `ProcessPaymentActivity`: Processes and authorizes the payment
- `UpdateInventoryActivity`: Removes the requested items from the state store and updates the store with the new remaining inventory value
### Step 1: Pre-requisites
For this example, you will need:
- [Dapr CLI and initialized environment](https://docs.dapr.io/getting-started).
- [.NET SDK or .NET 6 SDK installed](https://dotnet.microsoft.com/download).
<!-- IGNORE_LINKS -->
- [Docker Desktop](https://www.docker.com/products/docker-desktop)
<!-- END_IGNORE -->
### Step 2: Set up the environment
Clone the [sample provided in the Quickstarts repo](https://github.com/dapr/quickstarts/tree/master/workflows).
```bash
git clone https://github.com/dapr/quickstarts.git
```
In a new terminal window, navigate to the `order-processor` directory:
```bash
cd workflows/csharp/sdk/order-processor
```
### Step 3: Run the order processor app
In the terminal, start the order processor app alongside a Dapr sidecar:
```bash
dapr run --app-id order-processor dotnet run
```
This starts the `order-processor` app with unique workflow ID and runs the workflow activities.
Expected output:
```
== APP == Starting workflow 6d2abcc9 purchasing 10 Cars
== APP == info: Microsoft.DurableTask.Client.Grpc.GrpcDurableTaskClient[40]
== APP == Scheduling new OrderProcessingWorkflow orchestration with instance ID '6d2abcc9' and 47 bytes of input data.
== APP == info: WorkflowConsoleApp.Activities.NotifyActivity[0]
== APP == Received order 6d2abcc9 for 10 Cars at $15000
== APP == info: WorkflowConsoleApp.Activities.ReserveInventoryActivity[0]
== APP == Reserving inventory for order 6d2abcc9 of 10 Cars
== APP == info: WorkflowConsoleApp.Activities.ReserveInventoryActivity[0]
== APP == There are: 100, Cars available for purchase
== APP == Your workflow has started. Here is the status of the workflow: Dapr.Workflow.WorkflowState
== APP == info: WorkflowConsoleApp.Activities.ProcessPaymentActivity[0]
== APP == Processing payment: 6d2abcc9 for 10 Cars at $15000
== APP == info: WorkflowConsoleApp.Activities.ProcessPaymentActivity[0]
== APP == Payment for request ID '6d2abcc9' processed successfully
== APP == info: WorkflowConsoleApp.Activities.UpdateInventoryActivity[0]
== APP == Checking Inventory for: Order# 6d2abcc9 for 10 Cars
== APP == info: WorkflowConsoleApp.Activities.UpdateInventoryActivity[0]
== APP == There are now: 90 Cars left in stock
== APP == info: WorkflowConsoleApp.Activities.NotifyActivity[0]
== APP == Order 6d2abcc9 has completed!
== APP == Workflow Status: Completed
```
### (Optional) Step 4: View in Zipkin
If you have Zipkin configured for Dapr locally on your machine, you can view the workflow trace spans in the Zipkin web UI (typically at `http://localhost:9411/zipkin/`).
<img src="/images/workflow-trace-spans-zipkin.png" width=800 style="padding-bottom:15px;">
### What happened?
When you ran `dapr run --app-id order-processor dotnet run`:
1. A unique order ID for the workflow is generated (in the above example, `6d2abcc9`) and the workflow is scheduled.
1. The `NotifyActivity` workflow activity sends a notification saying an order for 10 cars has been received.
1. The `ReserveInventoryActivity` workflow activity checks the inventory data, determines if you can supply the ordered item, and responds with the number of cars in stock.
1. Your workflow starts and notifies you of its status.
1. The `ProcessPaymentActivity` workflow activity begins processing payment for order `6d2abcc9` and confirms if successful.
1. The `UpdateInventoryActivity` workflow activity updates the inventory with the current available cars after the order has been processed.
1. The `NotifyActivity` workflow activity sends a notification saying that order `6d2abcc9` has completed.
1. The workflow terminates as completed.
#### `order-processor/Program.cs`
In the application's program file:
- The unique workflow order ID is generated
- The workflow is scheduled
- The workflow status is retrieved
- The workflow and the workflow activities it invokes are registered
```csharp
using Dapr.Client;
using Dapr.Workflow;
//...
{
services.AddDaprWorkflow(options =>
{
// Note that it's also possible to register a lambda function as the workflow
// or activity implementation instead of a class.
options.RegisterWorkflow<OrderProcessingWorkflow>();
// These are the activities that get invoked by the workflow(s).
options.RegisterActivity<NotifyActivity>();
options.RegisterActivity<ReserveInventoryActivity>();
options.RegisterActivity<ProcessPaymentActivity>();
options.RegisterActivity<UpdateInventoryActivity>();
});
};
//...
// Generate a unique ID for the workflow
string orderId = Guid.NewGuid().ToString()[..8];
string itemToPurchase = "Cars";
int ammountToPurchase = 10;
// Construct the order
OrderPayload orderInfo = new OrderPayload(itemToPurchase, 15000, ammountToPurchase);
// Start the workflow
Console.WriteLine("Starting workflow {0} purchasing {1} {2}", orderId, ammountToPurchase, itemToPurchase);
await daprClient.StartWorkflowAsync(
workflowComponent: DaprWorkflowComponent,
workflowName: nameof(OrderProcessingWorkflow),
input: orderInfo,
instanceId: orderId);
// Wait for the workflow to start and confirm the input
GetWorkflowResponse state = await daprClient.WaitForWorkflowStartAsync(
instanceId: orderId,
workflowComponent: DaprWorkflowComponent);
Console.WriteLine("Your workflow has started. Here is the status of the workflow: {0}", state.RuntimeStatus);
// Wait for the workflow to complete
state = await daprClient.WaitForWorkflowCompletionAsync(
instanceId: orderId,
workflowComponent: DaprWorkflowComponent);
Console.WriteLine("Workflow Status: {0}", state.RuntimeStatus);
```
#### `order-processor/Workflows/OrderProcessingWorkflow.cs`
In `OrderProcessingWorkflow.cs`, the workflow is defined as a class with all of its associated tasks (determined by workflow activities).
```csharp
using Dapr.Workflow;
//...
class OrderProcessingWorkflow : Workflow<OrderPayload, OrderResult>
{
public override async Task<OrderResult> RunAsync(WorkflowContext context, OrderPayload order)
{
string orderId = context.InstanceId;
// Notify the user that an order has come through
await context.CallActivityAsync(
nameof(NotifyActivity),
new Notification($"Received order {orderId} for {order.Quantity} {order.Name} at ${order.TotalCost}"));
string requestId = context.InstanceId;
// Determine if there is enough of the item available for purchase by checking the inventory
InventoryResult result = await context.CallActivityAsync<InventoryResult>(
nameof(ReserveInventoryActivity),
new InventoryRequest(RequestId: orderId, order.Name, order.Quantity));
// If there is insufficient inventory, fail and let the user know
if (!result.Success)
{
// End the workflow here since we don't have sufficient inventory
await context.CallActivityAsync(
nameof(NotifyActivity),
new Notification($"Insufficient inventory for {order.Name}"));
return new OrderResult(Processed: false);
}
// There is enough inventory available so the user can purchase the item(s). Process their payment
await context.CallActivityAsync(
nameof(ProcessPaymentActivity),
new PaymentRequest(RequestId: orderId, order.Name, order.Quantity, order.TotalCost));
try
{
// There is enough inventory available so the user can purchase the item(s). Process their payment
await context.CallActivityAsync(
nameof(UpdateInventoryActivity),
new PaymentRequest(RequestId: orderId, order.Name, order.Quantity, order.TotalCost));
}
catch (TaskFailedException)
{
// Let them know their payment was processed
await context.CallActivityAsync(
nameof(NotifyActivity),
new Notification($"Order {orderId} Failed! You are now getting a refund"));
return new OrderResult(Processed: false);
}
// Let them know their payment was processed
await context.CallActivityAsync(
nameof(NotifyActivity),
new Notification($"Order {orderId} has completed!"));
// End the workflow with a success result
return new OrderResult(Processed: true);
}
}
```
#### `order-processor/Activities` directory
The `Activities` directory holds the four workflow activities used by the workflow, defined in the following files:
- `NotifyActivity.cs`
- `ReserveInventoryActivity.cs`
- `ProcessPaymentActivity.cs`
- `UpdateInventoryActivity.cs`
{{% /codetab %}}
<!-- Python -->
<!-- Python -->
{{% codetab %}}
The `order-processor` console app starts and manages the `order_processing_workflow`, which simulates purchasing items from a store. The workflow consists of five unique workflow activities, or tasks:
@ -494,6 +261,334 @@ In `workflow.py`, the workflow is defined as a class with all of its associated
```
{{% /codetab %}}
<!-- .NET -->
{{% codetab %}}
The `order-processor` console app starts and manages the lifecycle of an order processing workflow that stores and retrieves data in a state store. The workflow consists of four workflow activities, or tasks:
- `NotifyActivity`: Utilizes a logger to print out messages throughout the workflow
- `ReserveInventoryActivity`: Checks the state store to ensure that there is enough inventory for the purchase
- `ProcessPaymentActivity`: Processes and authorizes the payment
- `UpdateInventoryActivity`: Removes the requested items from the state store and updates the store with the new remaining inventory value
### Step 1: Pre-requisites
For this example, you will need:
- [Dapr CLI and initialized environment](https://docs.dapr.io/getting-started).
- [.NET SDK or .NET 6 SDK installed](https://dotnet.microsoft.com/download).
<!-- IGNORE_LINKS -->
- [Docker Desktop](https://www.docker.com/products/docker-desktop)
<!-- END_IGNORE -->
### Step 2: Set up the environment
Clone the [sample provided in the Quickstarts repo](https://github.com/dapr/quickstarts/tree/master/workflows).
```bash
git clone https://github.com/dapr/quickstarts.git
```
In a new terminal window, navigate to the `order-processor` directory:
```bash
cd workflows/csharp/sdk/order-processor
```
### Step 3: Run the order processor app
In the terminal, start the order processor app alongside a Dapr sidecar:
```bash
dapr run --app-id order-processor dotnet run
```
This starts the `order-processor` app with unique workflow ID and runs the workflow activities.
Expected output:
```
== APP == Starting workflow 6d2abcc9 purchasing 10 Cars
== APP == info: Microsoft.DurableTask.Client.Grpc.GrpcDurableTaskClient[40]
== APP == Scheduling new OrderProcessingWorkflow orchestration with instance ID '6d2abcc9' and 47 bytes of input data.
== APP == info: WorkflowConsoleApp.Activities.NotifyActivity[0]
== APP == Received order 6d2abcc9 for 10 Cars at $15000
== APP == info: WorkflowConsoleApp.Activities.ReserveInventoryActivity[0]
== APP == Reserving inventory for order 6d2abcc9 of 10 Cars
== APP == info: WorkflowConsoleApp.Activities.ReserveInventoryActivity[0]
== APP == There are: 100, Cars available for purchase
== APP == Your workflow has started. Here is the status of the workflow: Dapr.Workflow.WorkflowState
== APP == info: WorkflowConsoleApp.Activities.ProcessPaymentActivity[0]
== APP == Processing payment: 6d2abcc9 for 10 Cars at $15000
== APP == info: WorkflowConsoleApp.Activities.ProcessPaymentActivity[0]
== APP == Payment for request ID '6d2abcc9' processed successfully
== APP == info: WorkflowConsoleApp.Activities.UpdateInventoryActivity[0]
== APP == Checking Inventory for: Order# 6d2abcc9 for 10 Cars
== APP == info: WorkflowConsoleApp.Activities.UpdateInventoryActivity[0]
== APP == There are now: 90 Cars left in stock
== APP == info: WorkflowConsoleApp.Activities.NotifyActivity[0]
== APP == Order 6d2abcc9 has completed!
== APP == Workflow Status: Completed
```
### (Optional) Step 4: View in Zipkin
If you have Zipkin configured for Dapr locally on your machine, you can view the workflow trace spans in the Zipkin web UI (typically at `http://localhost:9411/zipkin/`).
<img src="/images/workflow-trace-spans-zipkin.png" width=800 style="padding-bottom:15px;">
### What happened?
When you ran `dapr run --app-id order-processor dotnet run`:
1. A unique order ID for the workflow is generated (in the above example, `6d2abcc9`) and the workflow is scheduled.
1. The `NotifyActivity` workflow activity sends a notification saying an order for 10 cars has been received.
1. The `ReserveInventoryActivity` workflow activity checks the inventory data, determines if you can supply the ordered item, and responds with the number of cars in stock.
1. Your workflow starts and notifies you of its status.
1. The `ProcessPaymentActivity` workflow activity begins processing payment for order `6d2abcc9` and confirms if successful.
1. The `UpdateInventoryActivity` workflow activity updates the inventory with the current available cars after the order has been processed.
1. The `NotifyActivity` workflow activity sends a notification saying that order `6d2abcc9` has completed.
1. The workflow terminates as completed.
#### `order-processor/Program.cs`
In the application's program file:
- The unique workflow order ID is generated
- The workflow is scheduled
- The workflow status is retrieved
- The workflow and the workflow activities it invokes are registered
```csharp
using Dapr.Client;
using Dapr.Workflow;
//...
{
services.AddDaprWorkflow(options =>
{
// Note that it's also possible to register a lambda function as the workflow
// or activity implementation instead of a class.
options.RegisterWorkflow<OrderProcessingWorkflow>();
// These are the activities that get invoked by the workflow(s).
options.RegisterActivity<NotifyActivity>();
options.RegisterActivity<ReserveInventoryActivity>();
options.RegisterActivity<ProcessPaymentActivity>();
options.RegisterActivity<UpdateInventoryActivity>();
});
};
//...
// Generate a unique ID for the workflow
string orderId = Guid.NewGuid().ToString()[..8];
string itemToPurchase = "Cars";
int ammountToPurchase = 10;
// Construct the order
OrderPayload orderInfo = new OrderPayload(itemToPurchase, 15000, ammountToPurchase);
// Start the workflow
Console.WriteLine("Starting workflow {0} purchasing {1} {2}", orderId, ammountToPurchase, itemToPurchase);
await daprClient.StartWorkflowAsync(
workflowComponent: DaprWorkflowComponent,
workflowName: nameof(OrderProcessingWorkflow),
input: orderInfo,
instanceId: orderId);
// Wait for the workflow to start and confirm the input
GetWorkflowResponse state = await daprClient.WaitForWorkflowStartAsync(
instanceId: orderId,
workflowComponent: DaprWorkflowComponent);
Console.WriteLine("Your workflow has started. Here is the status of the workflow: {0}", state.RuntimeStatus);
// Wait for the workflow to complete
state = await daprClient.WaitForWorkflowCompletionAsync(
instanceId: orderId,
workflowComponent: DaprWorkflowComponent);
Console.WriteLine("Workflow Status: {0}", state.RuntimeStatus);
```
#### `order-processor/Workflows/OrderProcessingWorkflow.cs`
In `OrderProcessingWorkflow.cs`, the workflow is defined as a class with all of its associated tasks (determined by workflow activities).
```csharp
using Dapr.Workflow;
//...
class OrderProcessingWorkflow : Workflow<OrderPayload, OrderResult>
{
public override async Task<OrderResult> RunAsync(WorkflowContext context, OrderPayload order)
{
string orderId = context.InstanceId;
// Notify the user that an order has come through
await context.CallActivityAsync(
nameof(NotifyActivity),
new Notification($"Received order {orderId} for {order.Quantity} {order.Name} at ${order.TotalCost}"));
string requestId = context.InstanceId;
// Determine if there is enough of the item available for purchase by checking the inventory
InventoryResult result = await context.CallActivityAsync<InventoryResult>(
nameof(ReserveInventoryActivity),
new InventoryRequest(RequestId: orderId, order.Name, order.Quantity));
// If there is insufficient inventory, fail and let the user know
if (!result.Success)
{
// End the workflow here since we don't have sufficient inventory
await context.CallActivityAsync(
nameof(NotifyActivity),
new Notification($"Insufficient inventory for {order.Name}"));
return new OrderResult(Processed: false);
}
// There is enough inventory available so the user can purchase the item(s). Process their payment
await context.CallActivityAsync(
nameof(ProcessPaymentActivity),
new PaymentRequest(RequestId: orderId, order.Name, order.Quantity, order.TotalCost));
try
{
// There is enough inventory available so the user can purchase the item(s). Process their payment
await context.CallActivityAsync(
nameof(UpdateInventoryActivity),
new PaymentRequest(RequestId: orderId, order.Name, order.Quantity, order.TotalCost));
}
catch (TaskFailedException)
{
// Let them know their payment was processed
await context.CallActivityAsync(
nameof(NotifyActivity),
new Notification($"Order {orderId} Failed! You are now getting a refund"));
return new OrderResult(Processed: false);
}
// Let them know their payment was processed
await context.CallActivityAsync(
nameof(NotifyActivity),
new Notification($"Order {orderId} has completed!"));
// End the workflow with a success result
return new OrderResult(Processed: true);
}
}
```
#### `order-processor/Activities` directory
The `Activities` directory holds the four workflow activities used by the workflow, defined in the following files:
- `NotifyActivity.cs`
- `ReserveInventoryActivity.cs`
- `ProcessPaymentActivity.cs`
- `UpdateInventoryActivity.cs`
{{% /codetab %}}
<!-- Java -->
{{% codetab %}}
The `order-processor` console app starts and manages the lifecycle of an order processing workflow that stores and retrieves data in a state store. The workflow consists of four workflow activities, or tasks:
-
### Step 1: Pre-requisites
For this example, you will need:
- [Dapr CLI and initialized environment](https://docs.dapr.io/getting-started).
- Java JDK 11 (or greater):
- [Oracle JDK](https://www.oracle.com/java/technologies/downloads), or
- OpenJDK
- [Apache Maven](https://maven.apache.org/install.html), version 3.x.
<!-- IGNORE_LINKS -->
- [Docker Desktop](https://www.docker.com/products/docker-desktop)
<!-- END_IGNORE -->
### Step 2: Set up the environment
Clone the [sample provided in the Quickstarts repo](https://github.com/dapr/quickstarts/tree/master/workflows).
```bash
git clone https://github.com/dapr/quickstarts.git
```
In a new terminal window, navigate to the `order-processor` directory:
```bash
need
```
### Step 3: Run the order processor app
In the terminal, start the order processor app alongside a Dapr sidecar:
```bash
need
```
This starts the `order-processor` app with unique workflow ID and runs the workflow activities.
Expected output:
```
need
```
### (Optional) Step 4: View in Zipkin
If you have Zipkin configured for Dapr locally on your machine, you can view the workflow trace spans in the Zipkin web UI (typically at `http://localhost:9411/zipkin/`).
<img src="/images/workflow-trace-spans-zipkin.png" width=800 style="padding-bottom:15px;">
### What happened?
When you ran `need`:
1. A unique order ID for the workflow is generated (in the above example, `need`) and the workflow is scheduled.
1. The `need` workflow activity sends a notification saying an order for 10 cars has been received.
1. The `need` workflow activity checks the inventory data, determines if you can supply the ordered item, and responds with the number of cars in stock.
1. Your workflow starts and notifies you of its status.
1. The `need` workflow activity begins processing payment for order `need` and confirms if successful.
1. The `need` workflow activity updates the inventory with the current available cars after the order has been processed.
1. The `need` workflow activity sends a notification saying that order `need` has completed.
1. The workflow terminates as completed.
#### `order-processor/... need`
In the application's program file:
- The unique workflow order ID is generated
- The workflow is scheduled
- The workflow status is retrieved
- The workflow and the workflow activities it invokes are registered
```java
need
```
#### `order-processor/... need`
In `need`, the workflow is defined as a class with all of its associated tasks (determined by workflow activities).
```java
need
```
#### `order-processor/... need` directory
The `Activities` directory holds the four workflow activities used by the workflow, defined in the following files:
- `need`
{{% /codetab %}}
{{< /tabs >}}