Device Lab Construct

This very simple construct definition supplies the control plane for the device-pool API.

How to use it?

There are three core infrastructure concepts:

• DynamoDB Table: normalized table which stores all management information
• API Gateway: binds service code to an HTTP accessible REST API.
• Step Function: provision workflow is centralized

npm install @philcali-cdk/device-lab

In your CDK infra:

const deviceLab = new DeviceLab({
    serviceCode: // Pull in the jars from maven or other prior
    workflowCode: // Pull in the jars from maven or other prior
});
// Extend into your infrastructure using these generated resources
deviceLab.controlPlane // RestApi
deviceLab.table // Table
deviceLab.provisionWorkflow // StateMachine
deviceLab.invokeSteps // LambdaInvoke

Installing Device Pools

The library supports managing device pool definitions as infrastructure. This approach aligns quite nicely with using MANAGED or UNMANAGED pools like that of an external source.

deviceLab.addDevicePool({
    name: 'pi-cameras',
    description: 'This is a device pool definition representing my cameras',
    poolType: DevicePoolType.MANAGED
});

Integrations

An UNMANAGED device pool is one that hooks into the provisioning workflow via a supported means like an http network call, or Lambda function invocation. Adding a custom integration can be done with the LambdaDevicePoolIntegration class.

let lambdaFunction = new Function(this, 'MyLambdaFunction', {
    // function args ...
});

deviceLab.addDevicePool({
    name: 'pi-cameras',
    poolType: DevicePoolType.UNMANAGED,
    integration: new LambdaDevicePoolIntegration({
        lambdaFunction
    })
})

Integrations are device pool independent. For example: one function may service multiple device pool definitions.

let integration = new LambdaDevicePoolIntegration({
    lambdaFunction
});

deviceLab.addDevicePool({
    name: 'pool-1',
    integration
});

deviceLab.addDevicePool({
    name: 'pool-2',
    integration
})

SSM Integration

Direct integration with SSM exists as a Lambda. This means that a device pool construct is mapped to categorized nodes in an SSM fleet. When clients through the control plane request provisioning, it'll return adapted resources from SSM. Taking advantage of this integration is as simple as using the SSMDevicePoolIntegration.

deviceLab.addDevicePool({
    name: 'pi-cameras',
    poolType: DevicePoolType.UNMANAGED,
    integration: new SSMDevicePoolIntegration(this, {
        // Locking parameters will lock the pool / ThingGroup while provisioning.
        // Use this in conjunction with the pool lock options to lock provisioned devices for a duration
        // Default: false
        locking: true,
        lockingDuration: Duration.seconds(30),
        code // Pull in the jars from maven or some other source
    })
})

Iot Integration

Direct integration with AWS Iot exists as a Lambda. This means that a device pool construct is mapped to categorized Things in a Thing Group. When clients request provisioning through the control plane, it'll return adapted resources from AWS IoT. Taking advantage of this integration is as simple as using the IotDevicePoolIntegration.

deviceLab.addDevicePool({
    name: `ParentGroup`,
    poolType: DevicePoolType.UNMANAGED,
    integration: new IotDevicePoolIntegration(this, {
        // Locking parameters will lock the pool / ThingGroup while provisioning.
        // Use this in conjunction with the pool lock options to lock provisioned devices for a duration
        // Default: false
        locking: true,
        lockingDuration: Duration.seconds(30),
        // List things belonging to child Thing Groups. Default: true
        recursive: false,
        code // Pull in the jars from maven or some other source
    })
})

How to build it

• npm run build compile typescript to js
• npm run watch watch for changes and compile
• npm run test perform the jest unit tests