sander/model.js

## model.js
/**
 * The following is a prototype to demonstrate how enterprise integration can be modelled using
 * vanilla JavaScript. This could benefit service design: low-fidelity modelling of bounded contexts
 * and messages makes ideas more tangible to explore and communicate. The model can be run inside
 * an HTML page and tested using:
 *
 *     dispatchEvent(new Event("test"));
 *
 * In this script I will refer to the following design domain concepts.
 */
const {
  c4: { container, component },
  domainDrivenDesign: { boundedContext },
  enterpriseIntegrationPatterns: { processManager },
  enterpriseApplicationArchitecture: { repository, domainEvent, dataTransferObject },
  archiMate: { applicationService },
} = {
  c4: {
    container: "https://c4model.com/#Abstractions:~:text=team.-,Container,communication.",
    component: "https://c4model.com/#Abstractions:~:text=communication.-,Component,units.",
  },
  domainDrivenDesign: {
    boundedContext: "https://martinfowler.com/bliki/BoundedContext.html",
  },
  enterpriseIntegrationPatterns: {
    processManager:
      "https://www.enterpriseintegrationpatterns.com/patterns/messaging/ProcessManager.html",
  },
  enterpriseApplicationArchitecture: {
    repository: "https://martinfowler.com/eaaCatalog/repository.html",
    domainEvent: "https://martinfowler.com/eaaDev/DomainEvent.html",
    command: "https://martinfowler.com/bliki/CommandQuerySeparation.html#:~:text=Commands,value.",
    dataTransferObject: "https://martinfowler.com/eaaCatalog/dataTransferObject.html",
  },
  archiMate: {
    applicationService:
      "https://pubs.opengroup.org/architecture/archimate3-doc/chap09.html#_Toc302490429",
  },
};

/**
 * Each {@link boundedContext} is implemented by a stateful {@link container}. In this case,
 * the context of message delivery is contained in a function that closes over message repository
 * state. It needs to be configured with two dependencies: one for dispatching {@link domainEvent}s
 * to other contexts, and one for generating unique IDs.
 */
const messageDelivery = (messageRepositoryState = { messagesById: {} }) => ({
  dispatchDomainEvent,
  generateUniqueId,
}) => {
  /**
   * Now we will define multiple {@link component}s.
   *
   * The first is an {@link applicationService} for handling message delivery {@link command}s.
   * These should not return anything of value, but they should dispatch new {@link domainEvent}s.
   *
   * Name the {@link command} with an imperative verb and the {@link domainEvent} with a past
   * perfect tense verb. The {@link domainEvent} is a {@link dataTransferObject} and can carry
   * payload data.
   */
  const applicationService = {
    validateSubmission: ({ messageContent }) =>
      dispatchDomainEvent("SubmissionAccepted", {
        messageId: generateUniqueId(),
        messageContent,
      }),
    consignContent: ({ messageId }) => dispatchDomainEvent("ContentConsigned", { messageId }),
  };

  /**
   * The {@link processManager} implements message delivery policies in terms of responses
   * to observed {@link domainEvent}s. The response is usually formulated as a {@link command},
   * possibly influenced by {@link processManager} state.
   */
  const processManager = ({ type, payload }) => {
    if (type === "ConsentedToSubmitMessage") applicationService.validateSubmission(payload);
    else if (type === "SubmissionAccepted") applicationService.consignContent(payload);
    else if (type === "ContentConsigned") /** @todo implement content handover command */ return;
    else console.error("Unknown event of type", type);
  };

  /**
   * The following {@link repository} records message-related {@link domainEvent}s and persists
   * relevant data into aggregate message state.
   */
  const messageRepository = {
    eventHandler: ({ type, payload: { messageId, messageContent } }) => {
      switch (type) {
        case "SubmissionAccepted":
          messageRepositoryState.messagesById[messageId] = { messageContent };
        case "SubmissionAccepted":
        case "ContentConsigned":
          messageRepositoryState.messagesById[messageId].lastEvent = type;
      }
    },
  };

  /**
   * Each {@link container} constructor returns a list of its {@link domainEvent} listeners.
   */
  return [processManager, messageRepository.eventHandler];
};

/**
 * The {@link boundedContext} of {@link domainEvent} logging is a lot smaller. It contains a single
 * event handler {@link component}.
 */
const logging = () => () => [
  ({ type, payload }) =>
    console.info("%cDomain event", "color: white; background: blue;", type, payload),
];

/**
 * Configuration is managed inside a {@link container} in itself. It takes advantage of JavaScript's
 * built-in message queue to enable communication across configured {@link container}s.
 */
const configureDeployment = ({ generateUniqueId }) => (containers) => {
  const tDomainEvent = "DomainEvent";
  const dispatchDomainEvent = (type, payload) =>
    setTimeout(
      () => dispatchEvent(new CustomEvent(tDomainEvent, { detail: { type, payload } })),
      0
    );
  const listenToDomainEvents = (listener) =>
    addEventListener(tDomainEvent, ({ detail }) => listener(detail));

  containers.forEach((boundedContext) =>
    boundedContext({ dispatchDomainEvent, generateUniqueId }).forEach(listenToDomainEvents)
  );

  return { dispatchDomainEvent, listenToDomainEvents };
};

/**
 * We specify acceptable behavior using the available console functions.
 */
addEventListener("test", async () => {
  console.info("Running tests...");

  const dependencies = { generateUniqueId: testUtils.generateUniqueId() };
  const { dispatchDomainEvent, listenToDomainEvents } = configureDeployment(dependencies)([
    logging(),
    messageDelivery(),
  ]);

  {
    console.group("Feature: Message delivery");
    {
      console.group("Scenario: Automatic content consignment after consenting to submit a message");

      console.info("Given I have prepared a message");
      const messageContent = {
        sender: "example:users:d56223e1-ff34-4caa-8335-e0c3e3553073",
        recipient: "example:users:926f3b86-ed9c-42ac-9acb-1ce65f2e31cc",
        parts: [{ contentType: "text/plain", content: "Hello" }],
      };

      console.info("When I consent to submit that message");
      dispatchDomainEvent("ConsentedToSubmitMessage", { messageContent });

      console.info("Then the submission gets accepted");
      console.assert(
        await testUtils.expect(listenToDomainEvents)({
          domainEventType: "SubmissionAccepted",
          withinMilliseconds: 1000,
        }),
        "No submission acceptance occurred in time."
      );

      console.info("And the content gets consigned");
      console.assert(
        await testUtils.expect(listenToDomainEvents)({
          domainEventType: "ContentConsigned",
          withinMilliseconds: 1000,
        }),
        "No content consignment occurred in time."
      );
      console.groupEnd();
    }
    console.groupEnd();
  }

  console.info("Tests finished");
});

const testUtils = {
  generateUniqueId: (state = { lastUniqueId: 0 }) => () => {
    return state.lastUniqueId++;
  },
  timeout: (ms) => new Promise((resolve) => setTimeout(() => resolve(), ms)),
  firstDomainEvent: (listenToDomainEvents) => (expectedType) =>
    new Promise((resolve) => {
      listenToDomainEvents(({ type, payload }) =>
        type === expectedType ? resolve(payload) : null
      );
    }),
  expect: (listenToDomainEvents) => ({ domainEventType, withinMilliseconds }) =>
    Promise.race([
      testUtils
        .firstDomainEvent(listenToDomainEvents)(domainEventType)
        .then(() => true),
      testUtils.timeout(withinMilliseconds).then(() => false),
    ]),
};

## test.html
<!DOCTYPE html>
<title>Test suite</title>
<meta charset="utf-8" />
<link rel="icon" href="data:;base64,iVBORw0KGgo=" />
<body>
  <script src="model.js"></script>
  <script>
    dispatchEvent(new Event("test"));
  </script>
</body>
	/**
	* The following is a prototype to demonstrate how enterprise integration can be modelled using
	* vanilla JavaScript. This could benefit service design: low-fidelity modelling of bounded contexts
	* and messages makes ideas more tangible to explore and communicate. The model can be run inside
	* an HTML page and tested using:
	*
	* dispatchEvent(new Event("test"));
	*
	* In this script I will refer to the following design domain concepts.
	*/
	const {
	c4: { container, component },
	domainDrivenDesign: { boundedContext },
	enterpriseIntegrationPatterns: { processManager },
	enterpriseApplicationArchitecture: { repository, domainEvent, dataTransferObject },
	archiMate: { applicationService },
	} = {
	c4: {
	container: "https://c4model.com/#Abstractions:~:text=team.-,Container,communication.",
	component: "https://c4model.com/#Abstractions:~:text=communication.-,Component,units.",
	},
	domainDrivenDesign: {
	boundedContext: "https://martinfowler.com/bliki/BoundedContext.html",
	},
	enterpriseIntegrationPatterns: {
	processManager:
	"https://www.enterpriseintegrationpatterns.com/patterns/messaging/ProcessManager.html",
	},
	enterpriseApplicationArchitecture: {
	repository: "https://martinfowler.com/eaaCatalog/repository.html",
	domainEvent: "https://martinfowler.com/eaaDev/DomainEvent.html",
	command: "https://martinfowler.com/bliki/CommandQuerySeparation.html#:~:text=Commands,value.",
	dataTransferObject: "https://martinfowler.com/eaaCatalog/dataTransferObject.html",
	},
	archiMate: {
	applicationService:
	"https://pubs.opengroup.org/architecture/archimate3-doc/chap09.html#_Toc302490429",
	},
	};

	/**
	* Each {@link boundedContext} is implemented by a stateful {@link container}. In this case,
	* the context of message delivery is contained in a function that closes over message repository
	* state. It needs to be configured with two dependencies: one for dispatching {@link domainEvent}s
	* to other contexts, and one for generating unique IDs.
	*/
	const messageDelivery = (messageRepositoryState = { messagesById: {} }) => ({
	dispatchDomainEvent,
	generateUniqueId,
	}) => {
	/**
	* Now we will define multiple {@link component}s.
	*
	* The first is an {@link applicationService} for handling message delivery {@link command}s.
	* These should not return anything of value, but they should dispatch new {@link domainEvent}s.
	*
	* Name the {@link command} with an imperative verb and the {@link domainEvent} with a past
	* perfect tense verb. The {@link domainEvent} is a {@link dataTransferObject} and can carry
	* payload data.
	*/
	const applicationService = {
	validateSubmission: ({ messageContent }) =>
	dispatchDomainEvent("SubmissionAccepted", {
	messageId: generateUniqueId(),
	messageContent,
	}),
	consignContent: ({ messageId }) => dispatchDomainEvent("ContentConsigned", { messageId }),
	};

	/**
	* The {@link processManager} implements message delivery policies in terms of responses
	* to observed {@link domainEvent}s. The response is usually formulated as a {@link command},
	* possibly influenced by {@link processManager} state.
	*/
	const processManager = ({ type, payload }) => {
	if (type === "ConsentedToSubmitMessage") applicationService.validateSubmission(payload);
	else if (type === "SubmissionAccepted") applicationService.consignContent(payload);
	else if (type === "ContentConsigned") /** @todo implement content handover command */ return;
	else console.error("Unknown event of type", type);
	};

	/**
	* The following {@link repository} records message-related {@link domainEvent}s and persists
	* relevant data into aggregate message state.
	*/
	const messageRepository = {
	eventHandler: ({ type, payload: { messageId, messageContent } }) => {
	switch (type) {
	case "SubmissionAccepted":
	messageRepositoryState.messagesById[messageId] = { messageContent };
	case "SubmissionAccepted":
	case "ContentConsigned":
	messageRepositoryState.messagesById[messageId].lastEvent = type;
	}
	},
	};

	/**
	* Each {@link container} constructor returns a list of its {@link domainEvent} listeners.
	*/
	return [processManager, messageRepository.eventHandler];
	};

	/**
	* The {@link boundedContext} of {@link domainEvent} logging is a lot smaller. It contains a single
	* event handler {@link component}.
	*/
	const logging = () => () => [
	({ type, payload }) =>
	console.info("%cDomain event", "color: white; background: blue;", type, payload),
	];

	/**
	* Configuration is managed inside a {@link container} in itself. It takes advantage of JavaScript's
	* built-in message queue to enable communication across configured {@link container}s.
	*/
	const configureDeployment = ({ generateUniqueId }) => (containers) => {
	const tDomainEvent = "DomainEvent";
	const dispatchDomainEvent = (type, payload) =>
	setTimeout(
	() => dispatchEvent(new CustomEvent(tDomainEvent, { detail: { type, payload } })),
	0
	);
	const listenToDomainEvents = (listener) =>
	addEventListener(tDomainEvent, ({ detail }) => listener(detail));

	containers.forEach((boundedContext) =>
	boundedContext({ dispatchDomainEvent, generateUniqueId }).forEach(listenToDomainEvents)
	);

	return { dispatchDomainEvent, listenToDomainEvents };
	};

	/**
	* We specify acceptable behavior using the available console functions.
	*/
	addEventListener("test", async () => {
	console.info("Running tests...");

	const dependencies = { generateUniqueId: testUtils.generateUniqueId() };
	const { dispatchDomainEvent, listenToDomainEvents } = configureDeployment(dependencies)([
	logging(),
	messageDelivery(),
	]);

	{
	console.group("Feature: Message delivery");
	{
	console.group("Scenario: Automatic content consignment after consenting to submit a message");

	console.info("Given I have prepared a message");
	const messageContent = {
	sender: "example:users:d56223e1-ff34-4caa-8335-e0c3e3553073",
	recipient: "example:users:926f3b86-ed9c-42ac-9acb-1ce65f2e31cc",
	parts: [{ contentType: "text/plain", content: "Hello" }],
	};

	console.info("When I consent to submit that message");
	dispatchDomainEvent("ConsentedToSubmitMessage", { messageContent });

	console.info("Then the submission gets accepted");
	console.assert(
	await testUtils.expect(listenToDomainEvents)({
	domainEventType: "SubmissionAccepted",
	withinMilliseconds: 1000,
	}),
	"No submission acceptance occurred in time."
	);

	console.info("And the content gets consigned");
	console.assert(
	await testUtils.expect(listenToDomainEvents)({
	domainEventType: "ContentConsigned",
	withinMilliseconds: 1000,
	}),
	"No content consignment occurred in time."
	);
	console.groupEnd();
	}
	console.groupEnd();
	}

	console.info("Tests finished");
	});

	const testUtils = {
	generateUniqueId: (state = { lastUniqueId: 0 }) => () => {
	return state.lastUniqueId++;
	},
	timeout: (ms) => new Promise((resolve) => setTimeout(() => resolve(), ms)),
	firstDomainEvent: (listenToDomainEvents) => (expectedType) =>
	new Promise((resolve) => {
	listenToDomainEvents(({ type, payload }) =>
	type === expectedType ? resolve(payload) : null
	);
	}),
	expect: (listenToDomainEvents) => ({ domainEventType, withinMilliseconds }) =>
	Promise.race([
	testUtils
	.firstDomainEvent(listenToDomainEvents)(domainEventType)
	.then(() => true),
	testUtils.timeout(withinMilliseconds).then(() => false),
	]),
	};
	<!DOCTYPE html>
	<title>Test suite</title>
	<meta charset="utf-8" />
	<link rel="icon" href="data:;base64,iVBORw0KGgo=" />
	<body>
	<script src="model.js"></script>
	<script>
	dispatchEvent(new Event("test"));
	</script>
	</body>