Communication between microservices - request data

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余生分开走
余生分开走 2021-02-13 21:37

I am dealing with communication between microservices.

For example (fictive example, just for the illustration):

  • Microservice A - Store Us
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  •  南笙
    南笙 (楼主)
    2021-02-13 22:01

    Personally I am not a fan of using a message broker for RPC. It adds unnecessary complexity and overhead.

    How do you host your long-lived RabbitMQ consumer in your Users web service? If you make it some static singleton, in your web service how do you deal with scaling and concurrency? Or do you make it a stand-alone daemon process? Now you have two User applications instead of one. What happens if your Users consumer slows down, by the time it consumes the request message the Orders service context might have timed-out and sent another message or given up.

    For RPC I would suggest simple HTTP.

    There is a pattern involving a message broker that can avoid the need for a synchronous network call. The pattern is for services to consume events from other services and store that data locally in their own database. Then when the time comes when the Orders service needs a user record it can access it from its own database.

    In your case, your Users app doesn't need to know anything about orders, but your Orders app needs to know some details about your users. So every time a user is added, modified, removed etc, the Users service emits an event (UserCreated, UserModified, UserRemoved). The Orders service can subscribe to those events and store only the data it needs, such as the user address.

    The benefit is that is that at request time, your Orders service has one less synchronous dependency on another service. Testing the service is easier as you have fewer request time dependencies. There are also drawbacks however such as some latency between user record changes occuring and being received by the Orders app. Something to consider.

    UPDATE If you do go with RabbitMQ for RPC then remember to make use of the message TTL feature. If the client will timeout, then set the message expiration to that period. This will help avoid wasted work on the part of the consumer and avoid a queue getting backed up under load. One issue with RPC over a message broker is that once a queue fills up it can add long latencies that take a while to recover from. Setting your message expiration to your client timeout helps avoid that.

    Regarding RabbitMQ for RPC. Normally we use a message broker for decoupling and durability. Seeing as RPC is a synchronous communication, that is, we are waiting for a response, then durability is not a consideration. That leaves us decoupling. The question is does that decoupling buy you anything over the decoupling you can do with HTTP via a gateway or Docker service names?

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