How to Use IdempotencyKeyService
In this document, you'll learn how to use the IdempotencyKeyService
.
Overview
You can use the IdempotencyKeyService
within your custom development to ensure that your custom endpoints and operations can be safely retried or continued if an error occurs. This guide is also useful if you're overriding an existing feature in Medusa that uses the IdempotencyKeyService
and you want to maintain its usage, such as if you're overriding the cart completion strategy.
The IdempotencyKeyService
includes methods that can be used to create and update idempotency keys, among other functionalities.
Create Idempotency Key
You can create an idempotency key within an endpoint using the create
method of the IdempotencyKeyService
:
The method requires as a parameter an object having the following properties:
request_method
: a string indicating the request method to be associated with the idempotency key.request_params
: an object indicating the request parameters to be associated with the idempotency key.request_path
: a string indicating the request path to be associated with the idempotency key.
The method handles generating the idempotency key value and saving the idempotency key with its details in the database. It returns the full idempotency key object.
Alternatively, you can use the initializeRequest
method that allows you to retrieve an idempotency key based on the value passed in the Idempotency-Key
header of the request if it exists, or create a new key otherwise. For example:
The method requires the following parameters:
- The first parameter is the key existing in the header of the request, if there's any.
- The second parameter is the request's method.
- The third parameter is the request's parameters.
- The fourth method is the request's path.
The method returns the full idempotency key object.
Perform Actions Within Idempotency Key Stages
Each idempotency key stage typically has transactions performed within it. Using the IdempotencyKeyService
's workStage
method allows you to perform related functionalities in transactional isolation within each stage. You can access the stage or recovery point of an idempotency key using the recovery_point
attribute.
The following example is taken from the CartCompletionStrategy
implemented in the Medusa backend:
class CartCompletionStrategy
extends AbstractCartCompletionStrategy {
// ...
async complete(
id: string,
ikey: IdempotencyKey,
context: RequestContext
): Promise<CartCompletionResponse> {
// ...
let inProgress = true
let err: unknown = false
while (inProgress) {
switch (idempotencyKey.recovery_point) {
case "started": {
await this.activeManager_
.transaction(
"SERIALIZABLE",
async (transactionManager) => {
idempotencyKey =
await this.idempotencyKeyService_
.withTransaction(transactionManager)
.workStage(
idempotencyKey.idempotency_key,
async (manager) =>
await this.handleCreateTaxLines(
id,
{
manager,
}
)
)
}
)
.catch((e) => {
inProgress = false
err = e
})
break
}
case "tax_lines_created": {
// ...
}
case "payment_authorized": {
// ...
}
case "finished": {
// ...
}
default: {
// ...
}
}
}
// ...
}
}
The method requires the following parameters:
- The first parameter is the idempotency key value.
- The second parameter is a callback function to be executed. The function should return an object that is used to update the idempotency key's details. The object can include the following parameters:
recovery_point
: a string indicating the new recovery point associated with the idempotency key's operation. If norecovery_point
is returned in the object, thefinished
recovery point is assigned by default.response_code
: a number indicating the latest response code of the idempotency key's operation.response_body
: an object indicating the latest response body of the idempotency key's operation.
The method returns an updated idempotency key object.