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slingshot-microservice/README.md
2026-04-24 22:48:01 +01:00

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slingshot-microservice: A Rust framework for standard microservice design

slingshot-microservice is a Rust package that provides a simple, opinionated framework for building microservices. The framework makes the following assumptions about a microservice:

  1. A microservice listens to incoming requests on its own dedicated and singular queue (RabbitMQ).
  2. Incoming requests are in the form of a 64-bit unsigned integer (u64).
  3. Microservices process requests via a process function, which takes one argument: the incoming request (u64).
  4. The process function returns a set of IDs (also u64) that are the result of processing the incoming request. Each of these IDs is also associated with a "case variable" that is used for routing the result to the appropriate outbound queues.
  5. Rather than hard-coding the inbound and outbound queues, the microservice communicates with a self-contained configuration service shared across all microservices. i. This service provides inbound queue name, as well as any outbound queues and their corresponding case variables. ii. It is also responsible for providing the RabbitMQ connection details (host, port, username, password), and any bucket names if using S3 for storage.

The slingshot-microservice framework handles setting up the RabbitMQ connection, listening to the inbound queue and routing results based on case variables.

Example Usage

use slingshot_microservice::Microservice;

fn process(request: u64) -> Vec<(u64, String)> {
    // Example processing logic: return the request ID and a case variable
    vec![(request, "case_a".to_string())]
}

fn main() {
    // Create a new microservice instance with the processing function
    let microservice = Microservice::new(
        "simple-microservice",
        "sys-map.example.com",
        process
    );

    // Start the microservice (this will block and listen for incoming requests)
    microservice.start();
}

How it works:

The configuration service responds to requests of the form: https://{HOSTNAME}/{MICROSERVICE_NAME}. All configuration is done over HTTP GET. The response contains a JSON object with two fields: an inbound queue name and a mapping of case variables to outbound queue names. For example:

{
    "in": "simple-microservice-inbound",
    "out": [
        {
            "case": "case_a",
            "queues": ["case_a_outbound_1", "case_a_outbound_2"]
        },
        {
            "case": "case_b",
            "queues": ["case_b_outbound"]
        }
    ]
}

The case variables can be any primitive type (e.g. string, integer, boolean). E.g. a binary classification microservice might decide on which outbound queue to send results to based on a case variable that is either false or true:

{
    "in": "binary-classification-inbound",
    "out": [
        {
            "case": false,
            "queues": ["binary-classification-false-outbound"]
        },
        {
            "case": true,
            "queues": ["binary-classification-true-outbound"]
        }
    ]
}

The configuration service also provides the RabbitMQ connection details (host, port, etc.):

When the microservice first starts up, it makes a request to the configuration service to get the queue metadata. Then it starts to listen to the inbound queue. Inbound requests are processed by the user-programmed process function, which returns a set of tuples of the form (result_id, case_variable). The microservice then routes each result_id to the appropriate outbound queue(s) based on the case_variable, using a process that looks like this:

Peudocode:

for each (result_id, case_variable) in process(request):
    for each outbound_queue in config.out[case_variable]:
        send result_id to outbound_queue