Zimic

Next-gen, TypeScript-first HTTP request mocking

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[!NOTE]

🚧 This project is still experimental and under active development!

Check our roadmap to v1. Contributors and ideas are welcome!

Zimic is a lightweight, thoroughly tested, TypeScript-first HTTP request mocking library, inspired by Zod’s type inference and using MSW under the hood.

Features

Zimic provides a flexible and type-safe way to mock HTTP requests.

  • Statically-typed mocks. Declare your HTTP endpoints and get full type inference and validation when applying mocks.
  • 🔗 Network-level intercepts. Internally, Zimic uses MSW, which intercepts HTTP requests right before they leave your app. This means that no parts of your code are stubbed or skipped. From you application’s point of view, the mocked requests are indistinguishable from the real ones.
  • 🔧 Flexibility. You can simulate real application workflows by mocking the necessary endpoints. This is specially useful in testing, making sure that the real path your application takes is covered.
  • 💡 Simplicity. Zimic was designed from scratch to encourage clarity and simplicity in your mocks. Check our getting started guide and starting mocking!

Table of contents

Getting started

1. Requirements

  • TypeScript >= 4.7

  • strict mode enabled in your tsconfig.json:

    {
      // ...
      "compilerOptions": {
        // ...
        "strict": true,
      },
    }

2. Install from npm

Manager Command
npm npm install zimic --save-dev
pnpm pnpm add zimic --dev
yarn yarn add zimic --dev
bun bun add zimic --dev

The latest (possibly unstable) code is available in canary releases, under the tag canary:

Manager Command
npm npm install zimic@canary --save-dev
pnpm pnpm add zimic@canary --dev
yarn yarn add zimic@canary --dev
bun bun add zimic@canary --dev

3. Choose your method to intercept requests

Zimic interceptors support two types of execution: local and remote.

Local HTTP interceptors

When the type of an interceptor is local, Zimic uses MSW to intercept requests created in the same process as your application. This is the simplest way to start mocking requests and does not require any server setup.

When to use local:

  • Testing: If you run your application in the same process as your tests. This is common when using Jest, Vitest and other test runners for unit and integration tests.
  • Development: If you want to mock requests in your development environment without setting up a server. This might be useful when you’re working on a feature that requires a backend that is not yet ready.

Our Vitest, Jest, and Next.js Pages Router examples use local interceptors.

[!NOTE]

All mocking operations in local interceptor are synchronous. There’s no need to await them before making requests.

Remote HTTP interceptors

When the type of an interceptor is remote, Zimic uses a dedicated interceptor server to handle requests. This opens up more possibilities for mocking, such as intercepting requests from multiple applications and running the interceptor server on a different machine. It is also more robust because it uses a regular HTTP server and does not depend on local interception algorithms.

When to use remote:

  • Testing: If you do not run your application in the same process as your tests. When using Cypress, Playwright, or other end-to-end testing tools, this is generally the case because the test runner and the application run in separate processes. This might also happen in more complex setups with Jest, Vitest and other test runners, such as testing a backend server running in another process, terminal, or machine.
  • Development: If you want your mocked responses to be accessible from outside the process that created them. A common scenario is to create a mock server along with a script to apply the mocks. After started, the server can be accessed from any other application (e.g. browser) and return mock responses.

Our Playwright and Next.js App Router examples use remote interceptors.

[!NOTE]

All mocking operations in remote interceptors are asynchronous. Make sure to await them before making requests.

Some code snippets are displayed side by side with a local and a remote interceptor example. Generally, the remote snippets differ only by adding await when necessary.

If you are using typescript-eslint, a handy rule is @typescript-eslint/no-floating-promises. It checks unhandled promises, avoiding forgetting to await remote interceptor operations.

[!TIP]

The type is an individual interceptor configuration. It is perfectly possible to have multiple interceptors with different types in the same application! However, keep in mind that local interceptors have preference over remote interceptors.

4. Post-install

Node.js post-install

No additional configuration is necessary for Node.js. Check out the usage guide and start mocking!

Browser post-install

If you plan to use local interceptors and run Zimic in a browser, you must first initialize a mock service worker in your public directory. After that, you are ready to start mocking!

Examples

Visit our examples to see how to use Zimic with popular frameworks and libraries!

Usage

Basic usage

  1. To start using Zimic, create your first HTTP interceptor:

    Local
    import { JSONValue } from 'zimic';
    import { http } from 'zimic/interceptor';
    
    type User = JSONValue<{
      username: string;
    }>;
    
    const interceptor = http.createInterceptor<{
      '/users': {
        GET: {
          response: {
            200: { body: User[] };
          };
        };
      };
    }>({
      type: 'local',
      baseURL: 'http://localhost:3000',
    });
    Remote
    import { JSONValue } from 'zimic';
    import { http } from 'zimic/interceptor';
    
    type User = JSONValue<{
      username: string;
    }>;
    
    const interceptor = http.createInterceptor<{
      '/users': {
        GET: {
          response: {
            200: { body: User[] };
          };
        };
      };
    }>({
      type: 'remote',
      // The interceptor server is at http://localhost:4000
      baseURL: 'http://localhost:4000/my-service',
    });

In this example, we’re creating an interceptor for a service supporting GET requests to /users. A successful response contains an array of User objects. Learn more about declaring HTTP service schemas.

  1. Then, start the interceptor:

    await interceptor.start();

    If you are creating a remote interceptor, it’s necessary to have a running interceptor server before starting it. The base URL of the remote interceptor should point to the server, optionally including a path to differentiate from other interceptors.

  2. Now, you can intercept requests and return mock responses!

    Local
    const listHandler = interceptor.get('/users').respond({
      status: 200,
      body: [{ username: 'diego-aquino' }],
    });
    
    const response = await fetch('http://localhost:3000/users');
    const users = await response.json();
    console.log(users); // [{ username: 'diego-aquino' }]
    Remote
    const listHandler = await interceptor.get('/users').respond({
      status: 200,
      body: [{ username: 'diego-aquino' }],
    });
    
    const response = await fetch('http://localhost:3000/users');
    const users = await response.json();
    console.log(users); // [{ username: 'diego-aquino' }]

More usage examples and recommendations are available in our examples and the zimic/interceptor API reference.

Testing

We recommend managing the lifecycle of your interceptors using beforeAll and afterAll, or equivalent hooks, in your test setup file. An example using a Jest/Vitest API:

tests/setup.ts

Local
// Your interceptors
const interceptors = [userInterceptor, analyticsInterceptor];

// Start intercepting requests
beforeAll(async () => {
  for (const interceptor of interceptors) {
    await interceptor.start();
  }
});

// Clear all interceptors so that no tests affect each other
beforeEach(() => {
  for (const interceptor of interceptors) {
    interceptor.clear();
  }
});

// Stop intercepting requests
afterAll(async () => {
  for (const interceptor of interceptors) {
    await interceptor.stop();
  }
});
Remote
// Your interceptors
const interceptors = [userInterceptor, analyticsInterceptor];

// Start intercepting requests
beforeAll(async () => {
  for (const interceptor of interceptors) {
    await interceptor.start();
  }
});

// Clear all interceptors so that no tests affect each other
beforeEach(async () => {
  for (const interceptor of interceptors) {
    await interceptor.clear();
  }
});

// Stop intercepting requests
afterAll(async () => {
  for (const interceptor of interceptors) {
    await interceptor.stop();
  }
});

zimic API reference

This module provides general resources, such as HTTP classes and types.

[!TIP]

All APIs are documented using JSDoc and visible directly in your IDE.

HttpHeaders

A superset of the built-in Headers class, with a strictly-typed schema. HttpHeaders is fully compatible with Headers and is used by Zimic to provide type safety when managing headers.

HttpHeaders example:
import { HttpHeaders } from 'zimic';

const headers = new HttpHeaders<{
  accept?: string;
  'content-type'?: string;
}>({
  accept: '*/*',
  'content-type': 'application/json',
});

const contentType = headers.get('content-type');
console.log(contentType); // 'application/json'

Comparing HttpHeaders

HttpHeaders also provide the utility methods headers.equals() and headers.contains(), useful in comparisons with other headers:

Comparing HttpHeaders example:
import { HttpSchema, HttpHeaders } from 'zimic';

type HeaderSchema = HttpSchema.Headers<{
  accept?: string;
  'content-type'?: string;
}>;

const headers1 = new HttpHeaders<HeaderSchema>({
  accept: '*/*',
  'content-type': 'application/json',
});

const headers2 = new HttpHeaders<HeaderSchema>({
  accept: '*/*',
  'content-type': 'application/json',
});

const headers3 = new HttpHeaders<
  HeaderSchema & {
    'x-custom-header'?: string;
  }
>({
  accept: '*/*',
  'content-type': 'application/json',
  'x-custom-header': 'value',
});

console.log(headers1.equals(headers2)); // true
console.log(headers1.equals(headers3)); // false

console.log(headers1.contains(headers2)); // true
console.log(headers1.contains(headers3)); // false
console.log(headers3.contains(headers1)); // true

HttpSearchParams

A superset of the built-in URLSearchParams class, with a strictly-typed schema. HttpSearchParams is fully compatible with URLSearchParams and is used by Zimic to provide type safety when applying mocks.

HttpSearchParams example:
import { HttpSearchParams } from 'zimic';

const searchParams = new HttpSearchParams<{
  names?: string[];
  page?: `${number}`;
}>({
  names: ['user 1', 'user 2'],
  page: '1',
});

const names = searchParams.getAll('names');
console.log(names); // ['user 1', 'user 2']

const page = searchParams.get('page');
console.log(page); // '1'

Comparing HttpSearchParams

HttpSearchParams also provide the utility methods searchParams.equals() and searchParams.contains(), useful in comparisons with other search params:

Comparing HttpSearchParams example:
import { HttpSchema, HttpSearchParams } from 'zimic';

type SearchParamsSchema = HttpSchema.SearchParams<{
  names?: string[];
  page?: `${number}`;
}>;

const searchParams1 = new HttpSearchParams<SearchParamsSchema>({
  names: ['user 1', 'user 2'],
  page: '1',
});

const searchParams2 = new HttpSearchParams<SearchParamsSchema>({
  names: ['user 1', 'user 2'],
  page: '1',
});

const searchParams3 = new HttpSearchParams<
  SearchParamsSchema & {
    orderBy?: `${'name' | 'email'}.${'asc' | 'desc'}[]`;
  }
>({
  names: ['user 1', 'user 2'],
  page: '1',
  orderBy: ['name.asc'],
});

console.log(searchParams1.equals(searchParams2)); // true
console.log(searchParams1.equals(searchParams3)); // false

console.log(searchParams1.contains(searchParams2)); // true
console.log(searchParams1.contains(searchParams3)); // false
console.log(searchParams3.contains(searchParams1)); // true

zimic/interceptor API reference

This module provides resources to create HTTP interceptors for both Node.js and browser environments.

HttpInterceptor

HTTP interceptors provide the main API to handle HTTP requests and return mock responses. The methods, paths, status codes, parameters, and responses are statically-typed based on the service schema.

Each interceptor represents a service and can be used to mock its paths and methods.

http.createInterceptor

Creates an HTTP interceptor, the main interface to intercept HTTP requests and return responses. Learn more about declaring service schemas.

Creating a local HTTP interceptor

A local interceptor is configured with type: 'local'. The baseURL represents the URL should be matched by this interceptor. Any request starting with the baseURL will be intercepted if a matching handler exists.

import { JSONValue } from 'zimic';
import { http } from 'zimic/interceptor';

type User = JSONValue<{
  username: string;
}>;

const interceptor = http.createInterceptor<{
  '/users/:id': {
    GET: {
      response: {
        200: { body: User };
      };
    };
  };
}>({
  type: 'local',
  baseURL: 'http://localhost:3000',
});
Creating a remote HTTP interceptor

A remote interceptor is configured with type: 'remote'. The baseURL points to an interceptor server. Any request starting with the baseURL will be intercepted if a matching handler exists.

import { JSONValue } from 'zimic';
import { http } from 'zimic/interceptor';

type User = JSONValue<{
  username: string;
}>;

const interceptor = http.createInterceptor<{
  '/users/:id': {
    GET: {
      response: {
        200: { body: User };
      };
    };
  };
}>({
  // The interceptor server is at http://localhost:4000
  // `/my-service` is a path to differentiate from other interceptors using the same server
  type: 'remote',
  baseURL: 'http://localhost:4000/my-service',
});

A single interceptor server is perfectly capable of handling multiple interceptors and requests. Thus, additional paths are supported and might be necessary to differentiate between conflicting interceptors. If you may have multiple threads or processes applying mocks concurrently to the same interceptor server, it’s important to keep the interceptor base URLs unique. Also, make sure that your application is considering the correct URL when making requests.

const interceptor = http.createInterceptor<{
  // ...
}>({
  type: 'remote',
  // Declaring a base URL with a unique identifier to prevent conflicts
  baseURL: `http://localhost:4000/my-service-${crypto.randomUUID()}`,
});

// Your application should use this base URL when making requests
const baseURL = interceptor.baseURL();
Unhandled requests

When a request is not matched by any interceptor handlers, it is considered unhandled and will be logged to the console by default.

[!TIP]

If you expected a request to be handled, but it was not, make sure that the interceptor base URL, path, method, and restrictions correctly match the request. Additionally, confirm that no errors occurred while creating the response.

In a local interceptor, unhandled requests are always bypassed, meaning that they pass through the interceptor and reach the real network. Remote interceptors in pair with an interceptor server always reject unhandled requests because they cannot be bypassed.

You can override the default logging behavior per interceptor with onUnhandledRequest in http.createInterceptor().

import { http } from 'zimic/interceptor';

const interceptor = http.createInterceptor<Schema>({
  type: 'local',
  baseURL: 'http://localhost:3000',
  onUnhandledRequest: { log: false },
});

onUnhandledRequest also accepts a function to dynamically choose when to ignore an unhandled request. Calling await context.log() logs the request to the console.

import { http } from 'zimic/interceptor';

const interceptor = http.createInterceptor<Schema>({
  type: 'local',
  baseURL: 'http://localhost:3000',
  onUnhandledRequest: async (request, context) => {
    const url = new URL(request.url);

    // Ignore only unhandled requests to /assets
    if (!url.pathname.startsWith('/assets')) {
      await context.log();
    }
  },
});

If you want to override the default logging behavior for all interceptors, or requests that did not match any known base URL, you can use http.default.onUnhandledRequest. Keep in mind that defining an onUnhandledRequest when creating an interceptor will take precedence over http.default.onUnhandledRequest.

import { http } from 'zimic/interceptor';

// Example 1: Ignore all unhandled requests
http.default.onUnhandledRequest({ log: false });

// Example 2: Ignore only unhandled requests to /assets
http.default.onUnhandledRequest((request, context) => {
  const url = new URL(request.url);

  if (!url.pathname.startsWith('/assets')) {
    await context.log();
  }
});

Declaring HTTP service schemas

HTTP service schemas define the structure of the real services being used. This includes paths, methods, request and response bodies, and status codes. Based on the schema, interceptors will provide type validation when applying mocks.

An example of a complete interceptor schema:
import { HttpSchema, JSONValue } from 'zimic';
import { http } from 'zimic/interceptor';

// Declaring base types
type User = JSONValue<{
  username: string;
}>;

type UserCreationBody = JSONValue<{
  username: string;
}>;

type NotFoundError = JSONValue<{
  message: string;
}>;

type UserListSearchParams = HttpSchema.SearchParams<{
  name?: string;
  orderBy?: `${'name' | 'email'}.${'asc' | 'desc'}`[];
}>;

// Creating the interceptor
const interceptor = http.createInterceptor<{
  '/users': {
    POST: {
      request: {
        headers: { accept: string };
        body: UserCreationBody;
      };
      response: {
        201: {
          headers: { 'content-type': string };
          body: User;
        };
      };
    };
    GET: {
      request: {
        searchParams: UserListSearchParams;
      };
      response: {
        200: { body: User[] };
        404: { body: NotFoundError };
      };
    };
  };

  '/users/:id': {
    GET: {
      response: {
        200: { body: User };
        404: { body: NotFoundError };
      };
    };
  };
}>({
  type: 'local',
  baseURL: 'http://localhost:3000',
});
Alternatively, you can compose the schema using utility types:
import { HttpSchema, JSONValue } from 'zimic';
import { http } from 'zimic/interceptor';

// Declaring the base types
type User = JSONValue<{
  username: string;
}>;

type UserCreationBody = JSONValue<{
  username: string;
}>;

type NotFoundError = JSONValue<{
  message: string;
}>;

type UserListSearchParams = HttpSchema.SearchParams<{
  name?: string;
  orderBy?: `${'name' | 'email'}.${'asc' | 'desc'}`[];
}>;

// Declaring user methods
type UserMethods = HttpSchema.Methods<{
  POST: {
    request: {
      headers: { accept: string };
      body: UserCreationBody;
    };
    response: {
      201: {
        headers: { 'content-type': string };
        body: User;
      };
    };
  };

  GET: {
    request: {
      searchParams: UserListSearchParams;
    };
    response: {
      200: { body: User[] };
      404: { body: NotFoundError };
    };
  };
}>;

type UserByIdMethods = HttpSchema.Methods<{
  GET: {
    response: {
      200: { body: User };
      404: { body: NotFoundError };
    };
  };
}>;

// Declaring user paths
type UserPaths = HttpSchema.Paths<{
  '/users': UserMethods;
}>;

type UserByIdPaths = HttpSchema.Paths<{
  '/users/:id': UserByIdMethods;
}>;

// Declaring interceptor schema
type ServiceSchema = UserPaths & UserByIdPaths;

// Creating the interceptor
const interceptor = http.createInterceptor<ServiceSchema>({
  type: 'local',
  baseURL: 'http://localhost:3000',
});
Declaring HTTP paths

At the root level, each key represents a path or route of the service:

import { http } from 'zimic/interceptor';

const interceptor = http.createInterceptor<{
  '/users': {
    // Path schema
  };
  '/users/:id': {
    // Path schema
  };
  '/posts': {
    // Path schema
  };
}>({
  type: 'local',
  baseURL: 'http://localhost:3000',
});
Alternatively, you can also compose paths using the utility type HttpSchema.Paths:
import { HttpSchema } from 'zimic';
import { http } from 'zimic/interceptor';

type UserPaths = HttpSchema.Paths<{
  '/users': {
    // Path schema
  };
  '/users/:id': {
    // Path schema
  };
}>;

type PostPaths = HttpSchema.Paths<{
  '/posts': {
    // Path schema
  };
}>;

const interceptor = http.createInterceptor<UserPaths & PostPaths>({
  type: 'local',
  baseURL: 'http://localhost:3000',
});
Declaring HTTP methods

Each path can have one or more methods, (GET, POST, PUT, PATCH, DELETE, HEAD, and OPTIONS). The method names are case-sensitive.

import { http } from 'zimic/interceptor';

const interceptor = http.createInterceptor<{
  '/users': {
    GET: {
      // Method schema
    };
    POST: {
      // Method schema
    };
  };
  // Other paths
}>({
  type: 'local',
  baseURL: 'http://localhost:3000',
});
Similarly to paths, you can also compose methods using the utility type HttpSchema.Methods:
import { HttpSchema } from 'zimic';
import { http } from 'zimic/interceptor';

type UserMethods = HttpSchema.Methods<{
  GET: {
    // Method schema
  };
  POST: {
    // Method schema
  };
}>;

const interceptor = http.createInterceptor<{
  '/users': UserMethods;
}>({
  type: 'local',
  baseURL: 'http://localhost:3000',
});
Declaring HTTP requests

Each method can have a request, which defines the schema of the accepted requests. headers, searchParams, and body are supported to provide type safety when applying mocks. Path parameters are automatically inferred from dynamic paths, such as /users/:id.

import { HttpSchema, JSONValue } from 'zimic';
import { http } from 'zimic/interceptor';

type UserCreationBody = JSONValue<{
  username: string;
}>;

type UserListSearchParams = HttpSchema.SearchParams<{
  username?: string;
}>;

const interceptor = http.createInterceptor<{
  '/users': {
    POST: {
      request: {
        body: UserCreationBody;
      };
      // ...
    };

    GET: {
      request: {
        searchParams: UserListSearchParams;
      };
      // ...
    };
    // Other methods
  };
  // Other paths
}>({
  type: 'local',
  baseURL: 'http://localhost:3000',
});

[!TIP]

You only need to include in the schema the properties you want to use in your mocks. Headers, search params, or body fields that are not used do not need to be declared, keeping your type definitions clean and concise.

[!IMPORTANT]

Body types cannot be declared using the keyword interface, because interfaces do not have implicit index signatures as types do. Part of Zimic’s JSON validation relies on index signatures. To workaround this, you can declare bodies using type. As an extra step to make sure the type is a valid JSON, you can use the utility type JSONValue.

You can also compose requests using the utility type HttpSchema.Request, similarly to methods:
import { HttpSchema, JSONValue } from 'zimic';
import { http } from 'zimic/interceptor';

type UserCreationBody = JSONValue<{
  username: string;
}>;

type UserCreationRequest = HttpSchema.Request<{
  body: UserCreationBody;
}>;

const interceptor = http.createInterceptor<{
  '/users': {
    POST: {
      request: UserCreationRequest;
    };
  };
}>({
  type: 'local',
  baseURL: 'http://localhost:3000',
});
Declaring HTTP responses

Each method can also have a response, which defines the schema of the returned responses. The status codes are used as keys. headers and body are supported to provide type safety when applying mocks.

import { JSONValue } from 'zimic';
import { http } from 'zimic/interceptor';

type User = JSONValue<{
  username: string;
}>;

type NotFoundError = JSONValue<{
  message: string;
}>;

const interceptor = http.createInterceptor<{
  '/users/:id': {
    GET: {
      // ...
      response: {
        200: { body: User };
        404: { body: NotFoundError };
      };
    };
    // Other methods
  };
  // Other paths
}>({
  type: 'local',
  baseURL: 'http://localhost:3000',
});

[!TIP]

Similarly to declaring HTTP requests, you only need to include in the schema the properties you want to use in your mocks. Headers, search params, or body fields that are not used do not need to be declared, keeping your type definitions clean and concise.

[!IMPORTANT]

Also similarly to declaring HTTP requests, body types cannot be declared using the keyword interface, because interfaces do not have implicit index signatures as types do. Part of Zimic’s JSON validation relies on index signatures. To workaround this, you can declare bodies using type. As an extra step to make sure the type is a valid JSON, you can use the utility type JSONValue.

You can also compose responses using the utility types HttpSchema.ResponseByStatusCode and HttpSchema.Response, similarly to requests:
import { HttpSchema, JSONValue } from 'zimic';
import { http } from 'zimic/interceptor';

type User = JSONValue<{
  username: string;
}>;

type NotFoundError = JSONValue<{
  message: string;
}>;

type SuccessUserGetResponse = HttpSchema.Response<{
  body: User;
}>;

type NotFoundUserGetResponse = HttpSchema.Response<{
  body: NotFoundError;
}>;

type UserGetResponses = HttpSchema.ResponseByStatusCode<{
  200: SuccessUserGetResponse;
  404: NotFoundUserGetResponse;
}>;

const interceptor = http.createInterceptor<{
  '/users/:id': {
    GET: {
      response: UserGetResponses;
    };
  };
}>({
  type: 'local',
  baseURL: 'http://localhost:3000',
});

HTTP interceptor.start()

Starts the interceptor. Only interceptors that are running will intercept requests.

await interceptor.start();

When targeting a browser environment with a local interceptor, make sure to follow the browser post-install guide before starting your interceptors.

HTTP interceptor.stop()

Stops the interceptor. Stopping an interceptor will also clear its registered handlers and responses.

await interceptor.stop();

HTTP interceptor.isRunning()

Returns whether the interceptor is currently running and ready to use.

const isRunning = interceptor.isRunning();

HTTP interceptor.baseURL()

Returns the base URL of the interceptor.

const baseURL = interceptor.baseURL();

HTTP interceptor.platform()

Returns the platform used by the interceptor (browser or node).

const platform = interceptor.platform();

HTTP interceptor.<method>(path)

Creates an HttpRequestHandler for the given method and path. The path and method must be declared in the interceptor schema.

The supported methods are: get, post, put, patch, delete, head, and options.

When using a remote interceptor, creating a handler is an asynchronous operation, so you need to await it. You can also chain any number of operations and apply them by awaiting the handler.

Local
import { http } from 'zimic/interceptor';

const interceptor = http.createInterceptor<{
  '/users': {
    GET: {
      response: {
        200: { body: User[] };
      };
    };
  };
}>({
  type: 'local',
  baseURL: 'http://localhost:3000',
});

const listHandler = interceptor.get('/users').respond({
  status: 200
  body: [{ username: 'diego-aquino' }],
});
Remote
import { http } from 'zimic/interceptor';

const interceptor = http.createInterceptor<{
  '/users': {
    GET: {
      response: {
        200: { body: User[] };
      };
    };
  };
}>({
  type: 'remote',
  baseURL: 'http://localhost:4000/my-service',
});

const listHandler = await interceptor.get('/users').respond({
  status: 200
  body: [{ username: 'diego-aquino' }],
});
Dynamic path parameters

Paths with dynamic path parameters are supported, such as /users/:id. Even when using a computed path (e.g. /users/1), the original path is automatically inferred, guaranteeing type safety.

import { http } from 'zimic/interceptor';

const interceptor = http.createInterceptor<{
  '/users/:id': {
    PUT: {
      request: {
        body: { username: string };
      };
      response: {
        204: {};
      };
    };
  };
}>({
  type: 'local',
  baseURL: 'http://localhost:3000',
});

interceptor.get('/users/:id'); // Matches any id
interceptor.get(`/users/${1}`); // Only matches id 1

request.pathParams contains the parsed path parameters of a request and have their type automatically inferred from the path string. For example, the path /users/:userId will result in a request.pathParams of type { userId: string }.

Local
const updateHandler = interceptor.put('/users/:id').respond((request) => {
  console.log(request.pathParams); // { id: '1' }

  return {
    status: 200,
    body: { username: 'diego-aquino' },
  };
});

await fetch('http://localhost:3000/users/1', { method: 'PUT' });
Remote
const updateHandler = await interceptor.put('/users/:id').respond((request) => {
  console.log(request.pathParams); // { id: '1' }

  return {
    status: 200,
    body: { username: 'diego-aquino' },
  };
});

await fetch('http://localhost:3000/users/1', { method: 'PUT' });

HTTP interceptor.clear()

Clears all of the HttpRequestHandler instances created by this interceptor, including their registered responses and intercepted requests. After calling this method, the interceptor will no longer intercept any requests until new mock responses are registered.

This method is useful to reset the interceptor mocks between tests.

Local
interceptor.clear();
Remote
await interceptor.clear();

HttpRequestHandler

HTTP request handlers allow declaring HTTP responses to return for intercepted requests. They also keep track of the intercepted requests and their responses, which can be used to check if the requests your application has made are correct.

When multiple handlers match the same method and path, the last created with interceptor.<method>(path) will be used.

HTTP handler.method()

Returns the method that matches a handler.

Local
const handler = interceptor.post('/users');
const method = handler.method();
console.log(method); // 'POST'
Remote
const handler = await interceptor.post('/users');
const method = handler.method();
console.log(method); // 'POST'

HTTP handler.path()

Returns the path that matches a handler. The base URL of the interceptor is not included, but it is used when matching requests.

Local
const handler = interceptor.get('/users');
const path = handler.path();
console.log(path); // '/users'
Remote
const handler = await interceptor.get('/users');
const path = handler.path();
console.log(path); // '/users'

HTTP handler.with(restriction)

Declares a restriction to intercepted request matches. headers, searchParams, and body are supported to limit which requests will match the handler and receive the mock response. If multiple restrictions are declared, either in a single object or with multiple calls to handler.with(), all of them must be met, essentially creating an AND condition.

Static restrictions
Local
const creationHandler = interceptor
  .post('/users')
  .with({
    headers: { 'content-type': 'application/json' },
    body: creationPayload,
  })
  .respond({
    status: 200,
    body: [{ username: 'diego-aquino' }],
  });
Remote
const creationHandler = await interceptor
  .post('/users')
  .with({
    headers: { 'content-type': 'application/json' },
    body: creationPayload,
  })
  .respond({
    status: 200,
    body: [{ username: 'diego-aquino' }],
  });

By default, restrictions use exact: false, meaning that any request containing the declared restrictions will match the handler, regardless of having more properties or values. In the example above, requests with more headers than content-type: application/json will still match the handler. The same applies to search params and body restrictions.

If you want to match only requests with the exact values declared, you can use exact: true:

Local
const creationHandler = interceptor
  .post('/users')
  .with({
    headers: { 'content-type': 'application/json' },
    body: creationPayload,
    // Only requests with these exact headers and body will match
    exact: true,
  })
  .respond({
    status: 200,
    body: [{ username: 'diego-aquino' }],
  });
Remote
const creationHandler = await interceptor
  .post('/users')
  .with({
    headers: { 'content-type': 'application/json' },
    body: creationPayload,
    // Only requests with these exact headers and body will match
    exact: true,
  })
  .respond({
    status: 200,
    body: [{ username: 'diego-aquino' }],
  });
Computed restrictions

A function is also supported to declare restrictions, in case they are dynamic.

Local
const creationHandler = interceptor
  .post('/users')
  .with((request) => {
    const accept = request.headers.get('accept');
    return accept !== null && accept.startsWith('application');
  })
  .respond({
    status: 200,
    body: [{ username: 'diego-aquino' }],
  });
Remote
const creationHandler = await interceptor
  .post('/users')
  .with((request) => {
    const accept = request.headers.get('accept');
    return accept !== null && accept.startsWith('application');
  })
  .respond({
    status: 200,
    body: [{ username: 'diego-aquino' }],
  });

The request parameter represents the intercepted request, containing useful properties such as request.body, request.headers, request.pathParams, and request.searchParams, which are typed based on the interceptor schema. The function should return a boolean: true if the request matches the handler and should receive the mock response; false otherwise and the request should bypass the handler.

HTTP handler.respond(declaration)

Declares a response to return for matched intercepted requests.

When the handler matches a request, it will respond with the given declaration. The response type is statically validated against the schema of the interceptor.

Static responses
Local
const listHandler = interceptor.get('/users').respond({
  status: 200,
  body: [{ username: 'diego-aquino' }],
});
Remote
const listHandler = await interceptor.get('/users').respond({
  status: 200,
  body: [{ username: 'diego-aquino' }],
});
Computed responses

A function is also supported to declare a response, in case it is dynamic:

Local
const listHandler = interceptor.get('/users').respond((request) => {
  const username = request.searchParams.get('username');
  return {
    status: 200,
    body: [{ username }],
  };
});
Remote
const listHandler = await interceptor.get('/users').respond((request) => {
  const username = request.searchParams.get('username');
  return {
    status: 200,
    body: [{ username }],
  };
});

The request parameter represents the intercepted request, containing useful properties such as request.body, request.headers, request.pathParams, and request.searchParams, which are typed based on the interceptor schema.

HTTP handler.bypass()

Clears any response declared with handler.respond(declaration), making the handler stop matching requests. The next handler, created before this one, that matches the same method and path will be used if present. If not, the requests of the method and path will not be intercepted.

To make the handler match requests again, register a new response with handler.respond(declaration).

This method is useful to skip a handler. It is more gentle than handler.clear(), as it only removed the response, keeping restrictions and intercepted requests.

Local
const listHandler = interceptor.get('/users').respond({
  status: 200,
  body: [],
});

const otherListHandler = interceptor.get('/users').respond({
  status: 200,
  body: [{ username: 'diego-aquino' }],
});

otherListHandler.bypass();
// Now, requests GET /users will match `listHandler` and receive an empty array
Remote
const listHandler = await interceptor.get('/users').respond({
  status: 200,
  body: [],
});

const otherListHandler = await interceptor.get('/users').respond({
  status: 200,
  body: [{ username: 'diego-aquino' }],
});

await otherListHandler.bypass();
// Now, requests GET /users will match `listHandler` and receive an empty array

HTTP handler.clear()

Clears any response declared with handler.respond(declaration), restrictions declared with handler.with(restriction), and intercepted requests, making the handler stop matching requests. The next handler, created before this one, that matches the same method and path will be used if present. If not, the requests of the method and path will not be intercepted.

To make the handler match requests again, register a new response with handler.respond().

This method is useful to reset handlers to a clean state between tests. It is more aggressive than handler.bypass(), as it also clears restrictions and intercepted requests.

Local
const listHandler = interceptor.get('/users').respond({
  status: 200,
  body: [],
});

const otherListHandler = interceptor.get('/users').respond({
  status: 200,
  body: [{ username: 'diego-aquino' }],
});

otherListHandler.clear();
// Now, requests GET /users will match `listHandler` and receive an empty array

otherListHandler.requests(); // Now empty
Remote
const listHandler = await interceptor.get('/users').respond({
  status: 200,
  body: [],
});

const otherListHandler = await interceptor.get('/users').respond({
  status: 200,
  body: [{ username: 'diego-aquino' }],
});

await otherListHandler.clear();
// Now, requests GET /users will match `listHandler` and receive an empty array

await otherListHandler.requests(); // Now empty

HTTP handler.requests()

Returns the intercepted requests that matched this handler, along with the responses returned to each of them. This is useful for testing that the correct requests were made by your application.

Local
const updateHandler = interceptor.put('/users/:id').respond((request) => {
  const newUsername = request.body.username;
  return {
    status: 200,
    body: [{ username: newUsername }],
  };
});

await fetch(`http://localhost:3000/users/${1}`, {
  method: 'PUT',
  body: JSON.stringify({ username: 'new' }),
});

const updateRequests = updateHandler.requests();
expect(updateRequests).toHaveLength(1);
expect(updateRequests[0].pathParams).toEqual({ id: '1' });
expect(updateRequests[0].body).toEqual({ username: 'new' });
Remote
const updateHandler = await interceptor.put('/users/:id').respond((request) => {
  const newUsername = request.body.username;
  return {
    status: 200,
    body: [{ username: newUsername }],
  };
});

await fetch(`http://localhost:3000/users/${1}`, {
  method: 'PUT',
  body: JSON.stringify({ username: 'new' }),
});

const updateRequests = await updateHandler.requests();
expect(updateRequests).toHaveLength(1);
expect(updateRequests[0].pathParams).toEqual({ id: '1' });
expect(updateRequests[0].body).toEqual({ username: 'new' });

The return by requests are simplified objects based on the Request and Response web APIs, containing an already parsed body in request.body, typed headers in request.headers, typed path params in request.pathParams, and typed search params in request.searchParams.

If you need access to the original Request and Response objects, you can use the request.raw property:

Local
const listRequests = listHandler.requests();
console.log(listRequests[0].raw); // Request{}
console.log(listRequests[0].response.raw); // Response{}
Remote
const listRequests = await listHandler.requests();
console.log(listRequests[0].raw); // Request{}
console.log(listRequests[0].response.raw); // Response{}

CLI

zimic

zimic <command>

Commands:
  zimic browser  Browser
  zimic server   Interceptor server

Options:
  --help     Show help                                                 [boolean]
  --version  Show version number                                       [boolean]

zimic browser

zimic browser init

Initialize the browser service worker configuration.

zimic browser init <publicDirectory>

Positionals:
  publicDirectory  The path to the public directory of your application.
                                                             [string] [required]

This command is necessary to use Zimic in a browser environment. It creates a mockServiceWorker.js file in the provided public directory, which is used to intercept requests and mock responses.

If you are using Zimic mainly in tests, we recommend adding the mockServiceWorker.js to your .gitignore and adding this command to a postinstall scripts in your package.json. This ensures that the latest service worker script is being used after upgrading Zimic.

zimic server

An interceptor server is a standalone server that can be used to handle requests and return mock responses. It is used in combination with remote interceptors to simulate real services.

zimic server start

Start an interceptor server.

zimic server start [-- onReady]

Positionals:
  onReady  A command to run when the server is ready to accept connections.
                                                                        [string]

Options:
      --help                    Show help                              [boolean]
      --version                 Show version number                    [boolean]
  -h, --hostname                The hostname to start the server on.
                                                 [string] [default: "localhost"]
  -p, --port                    The port to start the server on.        [number]
  -e, --ephemeral               Whether the server should stop automatically
                                after the on-ready command finishes. If no
                                on-ready command is provided and ephemeral is
                                true, the server will stop immediately after
                                starting.             [boolean] [default: false]
  -l, --log-unhandled-requests  Whether to log a warning when no interceptors
                                were found for the base URL of a request. If an
                                interceptor was matched, the logging behavior
                                for that base URL is configured in the
                                interceptor itself.                    [boolean]

You can use this command to start an independent server:

zimic server start --port 4000

Or as a prefix of another command:

zimic server start --port 4000 --ephemeral -- npm run test

The command after -- will be executed when the server is ready. The flag --ephemeral indicates that the server should automatically stop after the command finishes.

Programmatic usage

The module zimic/server exports resources for managing interceptor servers programmatically. Even though we recommend using the CLI, this module is a valid alternative for more advanced use cases.

import { createInterceptorServer, runCommand } from 'zimic/server';

const server = createInterceptorServer({ hostname: 'localhost', port: 3000 });
await server.start();

// Run a command when the server is ready
const [command, ...commandArguments] = process.argv.slice(3);
await runCommand(command, commandArguments);

await server.stop();

The helper function runCommand is useful to run a shell command in server scripts. The Next.js App Router and the Playwright examples use this function to run the application after the interceptor server is ready and all mocks are set up.


Changelog

The changelog is available on our GitHub Releases page.