@pact-foundation/pact-web v9.18.1

Pact JS

Implementation of the consumer driven contract library Pact for Javascript.

From the Pact website:

The Pact family of frameworks provide support for Consumer Driven Contracts testing.

A Contract is a collection of agreements between a client (Consumer) and an API (Provider) that describes the interactions that can take place between them.

Consumer Driven Contracts is a pattern that drives the development of the Provider from its Consumers point of view.

Pact is a testing tool that guarantees those Contracts are satisfied.

Read Getting started with Pact for more information for beginners.

• Pact JS
  • Installation
    • Do Not Track
  • Which Library/Package should I use?
  • Using Pact JS
  • HTTP API Testing
    • Consumer Side Testing
      • API
      • Constructor
      • Example
    • Provider API Testing
      • Verification Options
      • API with Provider States
      • Before and After Hooks
      • Pending Pacts
      • WIP Pacts
      • Verifying multiple contracts with the same tag (e.g. for Mobile use cases)
      • Modify Requests Prior to Verification (Request Filters)
      • Lifecycle of a provider verification
    • Publishing Pacts to a Broker
      • Publish in npm scripts
      • Publish in a custom script
      • Pact publishing options
      • Publishing Verification Results to a Pact Broker
  • Asynchronous API Testing
    • Consumer
    • Provider (Producer)
    • Pact Broker Integration
  • Matching
    • Match common formats
    • Match based on type
    • Match based on arrays
    • Match by regular expression
  • GraphQL API
  • Tutorial (60 minutes)
  • Examples
    • HTTP APIs
    • Asynchronous APIs
  • Using Pact in non-Node environments such as Karma
  • Pact JS V3
    • Using the V3 matching rules
    • Using Pact with XML
    • Verifying providers with VerifierV3
      • Request Filters
      • Provider state callbacks
    • Debugging issues with Pact-JS V3
    • Debugging
  • Troubleshooting / FAQs
    • Actual interactions do not match expected interactions for mock MockService.
    • Corporate Proxies / Firewalls
    • Alpine + Docker
    • Parallel tests
    • Splitting tests across multiple files
    • Test fails when it should pass
    • Test intermittent failures
    • Re-run specific verification failures
    • Timeout
    • Usage with Jest
    • Usage with Angular
  • Contributing
  • Contact

Installation

NPM

npm install --save-dev @pact-foundation/pact@latest

Yarn

yarn add --dev @pact-foundation/pact@latest

• Ensure you install the package as devDependencies by using --save-dev/--dev ;
• Make sure the ignore-scripts option is disabled, pact uses npm scripts to download further dependencies.

Do Not Track

In order to get better statistics as to who is using Pact, we have an anonymous tracking event that triggers when Pact installs for the first time. The only things we track are your type of OS, and the version information for the package being installed. No PII data is sent as part of this request. To respect your privacy, you can disable tracking by simply adding a 'do not track' flag within your package.json file or setting the environment variable PACT_DO_NOT_TRACK=1:

{
	"name": "some-project",
	...
	"config": {
		"pact_do_not_track": true
	},
	...
}

See the Changelog for versions and their history.

Which Library/Package should I use?

TL;DR - you almost always want Pact JS.

* The "I need to run it in the browser" question comes up occasionally. The question is this - for your JS code to be able to make a call to another API, is this dependent on browser-specific code? In most cases, people use tools like React/Angular which have libraries that work on the server and client side, in which case, these tests don't need to run in a browser and could instead be executed in a Node.js environment.

Using Pact JS

Pact supports synchronous request-response style HTTP interactions and asynchronous interactions with JSON-formatted payloads.

HTTP API Testing

Consumer Side Testing

To use the library on your tests, add the pact dependency:

const { Pact } = require("@pact-foundation/pact")

The Pact class provides the following high-level APIs, they are listed in the order in which they typically get called in the lifecycle of testing a consumer:

API

Constructor

Example

The first step is to create a test for your API Consumer. The example below uses Mocha, and demonstrates the basic approach:

1. Create the Pact object
2. Start the Mock Provider that will stand in for your actual Provider
3. Add the interactions you expect your consumer code to make when executing the tests
4. Write your tests - the important thing here is that you test the outbound collaborating function which calls the Provider, and not just issue raw http requests to the Provider. This ensures you are testing your actual running code, just like you would in any other unit test, and that the tests will always remain up to date with what your consumer is doing.
5. Validate the expected interactions were made between your consumer and the Mock Service
6. Generate the pact(s)

Check out the examples folder for examples with Mocha and Jest. The example below is taken from the integration spec.

const path = require("path")
const chai = require("chai")
const { Pact } = require("@pact-foundation/pact")
const chaiAsPromised = require("chai-as-promised")
const expect = chai.expect

chai.use(chaiAsPromised)

describe("Pact", () => {
  // (1) Create the Pact object to represent your provider
  const provider = new Pact({
    consumer: "TodoApp",
    provider: "TodoService",
    port: 1234,
    log: path.resolve(process.cwd(), "logs", "pact.log"),
    dir: path.resolve(process.cwd(), "pacts"),
    logLevel: "INFO",
  })

  // this is the response you expect from your Provider
  const EXPECTED_BODY = [
    {
      id: 1,
      name: "Project 1",
      due: "2016-02-11T09:46:56.023Z",
      tasks: [
        { id: 1, name: "Do the laundry", done: true },
        { id: 2, name: "Do the dishes", done: false },
        { id: 3, name: "Do the backyard", done: false },
        { id: 4, name: "Do nothing", done: false },
      ],
    },
  ]

  const todoApp = new TodoApp()

  context("when there are a list of projects", () => {
    describe("and there is a valid user session", () => {
      before(() =>
        provider
          // (2) Start the mock server
          .setup()
          // (3) add interactions to the Mock Server, as many as required
          .then(() =>
            provider.addInteraction({
              // The 'state' field specifies a "Provider State"
              state: "i have a list of projects",
              uponReceiving: "a request for projects",
              withRequest: {
                method: "GET",
                path: "/projects",
                headers: { Accept: "application/json" },
              },
              willRespondWith: {
                status: 200,
                headers: { "Content-Type": "application/json" },
                body: EXPECTED_BODY,
              },
            })
          )
      )
    })

    // (4) write your test(s)
    it("generates a list of TODOs for the main screen", async () => {
      const projects = await todoApp.getProjects() // <- this method would make the remote http call
      expect(projects).to.be.a("array")
      expect(projects).to.have.deep.property("projects[0].id", 1)
    })

    // (5) validate the interactions you've registered and expected occurred
    // this will throw an error if it fails telling you what went wrong
    // This should be performed once per interaction test
    afterEach(() => provider.verify())
  })

  // (6) write the pact file for this consumer-provider pair,
  // and shutdown the associated mock server.
  // You should do this only _once_ per Provider you are testing,
  // and after _all_ tests have run for that suite
  after(() => provider.finalize())
})

Provider API Testing

Once you have created Pacts for your Consumer, you need to validate those Pacts against your Provider. The Verifier object provides the following API for you to do so:

1. Start your local Provider service.
2. Optionally, instrument your API with ability to configure provider states
3. Then run the Provider side verification step

const { Verifier } = require('@pact-foundation/pact');
let opts = {
  ...
};

new Verifier(opts).verifyProvider().then(function () {
	// do something
});

Verification Options

To dynamically retrieve pacts from a Pact Broker for a provider, provide the broker URL, the name of the provider, and the consumer version tags that you want to verify:

let opts = {
  pactBroker: "http://my-broker",
  provider: "Animal Profile Service",
  consumerVersionTags: ["master", "test", "prod"],
}

To verify a pact at a specific URL (eg. when running a pact verification triggered by a 'contract content changed' webhook, or when verifying a pact from your local machine, or a network location that's not the Pact Broker, set just the pactUrls, eg:

let opts = {
  pactUrls: [process.env.PACT_URL],
}

To publish the verification results back to the Pact Broker, you need to enable the 'publish' flag, set the provider version and optional provider version tags:

let opts = {
  publishVerificationResult: true, //generally you'd do something like `process.env.CI === 'true'`
  providerVersion: "version", //recommended to be the git sha
  providerVersionTags: ["tag"], //optional, recommended to be the git branch
}

If your broker has a self signed certificate, set the environment variable SSL_CERT_FILE (or SSL_CERT_DIR) pointing to a copy of your certificate.

Read more about Verifying Pacts.

API with Provider States

If you have defined any states in your consumer tests, the Verifier can put the provider into the right state prior to sending the request. For example, the provider can use the state to mock away certain database queries. To support this, set up a handler for each state using hooks on the stateHandlers property. Here is an example from our e2e suite:

const opts = {
  ...
  stateHandlers: {
    [null]: () => {
      // This is the "default" state handler, when no state is given
    }
    "Has no animals": () => {
      animalRepository.clear()
      return Promise.resolve(`Animals removed from the db`)
    },
    "Has some animals": () => {
      importData()
      return Promise.resolve(`Animals added to the db`)
    },
    "Has an animal with ID 1": () => {
      importData()
      return Promise.resolve(`Animals added to the db`)
    }
  }
}

return new Verifier(opts).verifyProvider().then(...)

As you can see, for each state ("Has no animals", ...), we configure the local datastore differently. If this option is not configured, the Verifier will ignore the provider states defined in the pact and log a warning.

Read more about Provider States.

Before and After Hooks

Sometimes, it's useful to be able to do things before or after a test has run, such as reset a database, log a metric etc. A beforeEach hook runs on each verification before any other part of the Pact test lifecycle, and a afterEach hook runs as the last step before returning the verification result back to the test.

You can add them to your verification options as follows:

const opts = {
  ...
  beforeEach: () => {
    console.log('I run before everything else')
  },

  afterEach: () => {
    console.log('I run after everything else has finished')
  }
}

If the hook errors, the test will fail. See the lifecycle of an interaction below.

Pending Pacts

NOTE: This feature is available on Pactflow by default, and requires configuration if using a self-hosted broker.

Pending pacts is a feature that allows consumers to publish new contracts or changes to existing contracts without breaking Provider's builds. It does so by flagging the contract as "unverified" in the Pact Broker the first time a contract is published. A Provider can then enable a behaviour (via enablePending: true) that will still perform a verification (and thus share the results back to the broker) but not fail the verification step itself.

This enables safe introduction of new contracts into the system, without breaking Provider builds, whilst still providing feedback to Consumers as per before.

See the docs and this article for more background.

WIP Pacts

NOTE: This feature is available on Pactflow by default, and requires configuration if using a self-hosted broker.

WIP Pacts builds upon pending pacts, enabling provider tests to pull in any contracts applicable to the provider regardless of the tag it was given. This is useful, because often times consumers won't follow the exact same tagging convention and so their workflow would be interrupted. This feature enables any pacts determined to be "work in progress" to be verified by the Provider, without causing a build failure. You can enable this behaviour by specifying a valid timestamp for includeWipPactsSince. This sets the start window for which new WIP pacts will be pulled down for verification, regardless of the tag.

See the docs and this article for more background.

Verifying multiple contracts with the same tag (e.g. for Mobile use cases)

Tags may be used to indicate a particular version of an application has been deployed to an environment - e.g. prod, and are critical in configuring can-i-deploy checks for CI/CD pipelines. In the majority of cases, only one version of an application is deployed to an environment at a time. For example, an API and a Website are usually deployed in replacement of an existing system, and any transition period is quite short lived.

Mobile is an exception to this rule - it is common to have multiple versions of an application that are in "production" simultaneously. To support this workflow, we have a feature known as consumer version selectors. Using selectors, we can verify that all pacts with a given tag should be verified. The following selectors ask the broker to "find all pacts with tag 'prod' and the latest pact for 'master'":

consumerVersionSelectors: [
  {
    tag: "prod",
    all: true,
  },
  {
    tag: "master",
    latest: true,
  },
]

NOTE: Using the all flag requires you to ensure you delete any tags associated with application versions that are no longer in production (e.g. if decommissioned from the app store)

Modify Requests Prior to Verification (Request Filters)

Sometimes you may need to add things to the requests that can't be persisted in a pact file. Examples of these are authentication tokens with a small life span. e.g. an OAuth bearer token: Authorization: Bearer 0b79bab50daca910b000d4f1a2b675d604257e42.

For these cases, we have two facilities that should be carefully used during verification:

1. the ability to specify custom headers to be sent during provider verification. The flag to achieve this is customProviderHeaders.
2. the ability to modify a request/response and modify the payload. The flag to achieve this is requestFilter.

Example API with Authorization

For example, to have an Authorization bearer token header sent as part of the verification request, set the verifyProvider options as per below:

let token
let opts = {
  provider: 'Animal Profile Service',
  ...
  stateHandlers: {
    "is authenticated": () => {
      token = "1234"
      Promise.resolve(`Valid bearer token generated`)
    },
    "is not authenticated": () => {
      token = ""
      Promise.resolve(`Expired bearer token generated`)
    }
  },

  // this middleware is executed for each request, allowing `token` to change between invocations
  // it is common to pair this with `stateHandlers` as per above, that can set/expire the token
  // for different test cases
  requestFilter: (req, res, next) => {
    req.headers["Authorization"] = `Bearer: ${token}`
    next()
  },

  // This header will always be sent for each and every request, and can't be dynamic
  // (i.e. passing a variable instead of the bearer token)
  customProviderHeaders: ["Authorization: Bearer 1234"]
}

return new Verifier(opts).verifyProvider().then(...)

As you can see, this is your opportunity to modify\add to headers being sent to the Provider API, for example to create a valid time-bound token.

Important Note: You should only use this feature for things that can not be persisted in the pact file. By modifying the request, you are potentially modifying the contract from the consumer tests!

Lifecycle of a provider verification

For each interaction in a pact file, the order of execution is as follows:

BeforeEach -> State Handler -> Request Filter (request phase) -> Execute Provider Test -> Request Filter (response phase) -> AfterEach

If any of the middleware or hooks fail, the tests will also fail.

Publishing Pacts to a Broker

Sharing is caring - to simplify sharing Pacts between Consumers and Providers, we have created the Pact Broker.

The Broker:

• versions your contracts
• tells you which versions of your applications can be deployed safely together
• allows you to deploy your services independently
• provides API documentation of your applications that is guaranteed to be up-to date
• visualises the relationships between your services
• integrates with other systems, such as Slack or your CI server, via webhooks
• ...and much much more.

Host your own, or signup for a free hosted Pact Broker.

Publish in npm scripts

The easiest way to publish pacts to the broker is via an npm script in your package.json:

   "pact:publish": "pact-broker publish <YOUR_PACT_FILES_OR_DIR> --consumer-app-version=\"$(npx absolute-version)\" --auto-detect-version-properties --broker-base-url=https://your-broker-url.example.com"

For a full list of the options, see the CLI usage instructions. All CLI binaries are available in npm scripts when using pact-js.

If you want to pass your username and password to the broker without including them in scripts, you can provide it via the environment variables PACT_BROKER_USERNAME and PACT_BROKER_PASSWORD. If your broker supports an access token instead of a password, use the environment variable PACT_BROKER_TOKEN.

Publish in a custom script

If you require finer control over your pact publication, you can programatically publish in a custom script:

const { Publisher } = require("@pact-foundation/pact")
const opts = {
   ...
};

new Publisher(opts)
  .publishPacts()
  .then(() => {
    // ...
  })

Pact publishing options

If your broker has a self signed certificate, set the environment variable SSL_CERT_FILE (or SSL_CERT_DIR) pointing to a copy of your certificate.

Publishing Verification Results to a Pact Broker

If you're using a Pact Broker (e.g. a hosted one at https://pactflow.io), you can publish your verification results so that consumers can query if they are safe to release.

It looks like this:

To publish the verification results back to the Pact Broker, you need to enable the 'publish' flag, set the provider version and optional provider version tags:

let opts = {
  publishVerificationResult: true, //recommended to only publish from CI by setting the value to `process.env.CI === 'true'`
  providerVersion: "version", //recommended to be the git sha eg. process.env.MY_CI_COMMIT
  providerVersionTags: ["tag"], //optional, recommended to be the git branch eg. process.env.MY_CI_BRANCH
}

Asynchronous API Testing

Since version v6.0.0 or later

Modern distributed architectures are increasingly integrated in a decoupled, asynchronous fashion. Message queues such as ActiveMQ, RabbitMQ, SQS, Kafka and Kinesis are common, often integrated via small and frequent numbers of microservices (e.g. lambda.).

Furthermore, the web has things like WebSockets which involve bidirectional messaging.

Pact supports these use cases, by abstracting away the protocol and focussing on the messages passing between them.

For further reading and introduction into this topic, see this article and our asynchronous examples for a more detailed overview of these concepts.

Consumer

A Consumer is the system that will be reading a message from a queue or some other intermediary - like a DynamoDB table or S3 bucket - and be able to handle it.

From a Pact testing point of view, Pact takes the place of the intermediary (MQ/broker etc.) and confirms whether or not the consumer is able to handle a request.

The following test creates a contract for a Dog API handler:

const path = require("path")
const {
  MessageConsumerPact,
  synchronousBodyHandler,
} = require("@pact-foundation/pact")

// 1 Dog API Handler
const dogApiHandler = function (dog) {
  if (!dog.id && !dog.name && !dog.type) {
    throw new Error("missing fields")
  }

  // do some other things to dog...
  // e.g. dogRepository.save(dog)
  return
}

// 2 Pact Message Consumer
const messagePact = new MessageConsumerPact({
  consumer: "MyJSMessageConsumer",
  dir: path.resolve(process.cwd(), "pacts"),
  pactfileWriteMode: "update",
  provider: "MyJSMessageProvider",
})

describe("receive dog event", () => {
  it("accepts a valid dog", () => {
    // 3 Consumer expectations
    return (
      messagePact
        .given("some state")
        .expectsToReceive("a request for a dog")
        .withContent({
          id: like(1),
          name: like("rover"),
          type: term({ generate: "bulldog", matcher: "^(bulldog|sheepdog)$" }),
        })
        .withMetadata({
          "content-type": "application/json",
        })

        // 4 Verify consumers' ability to handle messages
        .verify(synchronousBodyHandler(dogApiHandler))
    )
  })
})

Explanation:

1. The Dog API - a contrived API handler example. Expects a dog object and throws an Error if it can't handle it.
   • In most applications, some form of transactionality exists and communication with a MQ/broker happens.
   • It's important we separate out the protocol bits from the message handling bits, so that we can test that in isolation.
2. Creates the MessageConsumer class
3. Setup the expectations for the consumer - here we expect a dog object with three fields
4. Pact will send the message to your message handler. If the handler returns a successful promise, the message is saved, otherwise the test fails. There are a few key things to consider:
   • The actual request body that Pact will send, will be contained within a Message object along with other context, so the body must be retrieved via content attribute.
   • All handlers to be tested must be of the shape (m: Message) => Promise<any> - that is, they must accept a Message and return a Promise. This is how we get around all of the various protocols, and will often require a lightweight adapter function to convert it.
   • In this case, we wrap the actual dogApiHandler with a convenience function synchronousBodyHandler provided by Pact, which Promisifies the handler and extracts the contents.

Provider (Producer)

A Provider (Producer in messaging parlance) is the system that will be putting a message onto the queue.

As per the Consumer case, Pact takes the position of the intermediary (MQ/broker) and checks to see whether or not the Provider sends a message that matches the Consumer's expectations.

const path = require("path")
const { MessageProviderPact } = require("@pact-foundation/pact")

// 1 Messaging integration client
const dogApiClient = {
  createDog: () => {
    return new Promise((resolve, reject) => {
      resolve({
        id: 1,
        name: "fido",
        type: "bulldog",
      })
    })
  },
}

describe("Message provider tests", () => {
  // 2 Pact setup
  const p = new MessageProviderPact({
    messageProviders: {
      "a request for a dog": () => dogApiClient.createDog(),
    },
    provider: "MyJSMessageProvider",
    providerVersion: "1.0.0",
    pactUrls: [
      path.resolve(
        process.cwd(),
        "pacts",
        "myjsmessageconsumer-myjsmessageprovider.json"
      ),
    ],
  })

  // 3 Verify the interactions
  describe("Dog API Client", () => {
    it("sends some dogs", () => {
      return p.verify()
    })
  })
})

Explanation:

1. Our API client contains a single function createDog which is responsible for generating the message that will be sent to the consumer via some message queue
2. We configure Pact to stand-in for the queue. The most important bit here is the messageProviders block
   • Similar to the Consumer tests, we map the various interactions that are going to be verified as denoted by their description field. In this case, a request for a dog, maps to the createDog handler. Notice how this matches the original Consumer test.
3. We can now run the verification process. Pact will read all of the interactions specified by its consumer, and invoke each function that is responsible for generating that message.

Pact Broker Integration

As per HTTP APIs, you can publish contracts and verification results to a Broker.

Matching

Matching makes your tests more expressive making your tests less brittle.

Rather than use hard-coded values which must then be present on the Provider side, you can use regular expressions and type matches on objects and arrays to validate the structure of your APIs.

NOTE: Make sure to start the mock service via the Pact declaration with the option specification: 2 to get access to these features.

Match common formats

Often times, you find yourself having to re-write regular expressions for common formats. We've created a number of them for you to save you the time:

Match based on type

const { like, string } = Matchers

provider.addInteraction({
  state: "Has some animals",
  uponReceiving: "a request for an animal",
  withRequest: {
    method: "GET",
    path: "/animals/1",
  },
  willRespondWith: {
    status: 200,
    headers: {
      "Content-Type": "application/json; charset=utf-8",
    },
    body: {
      id: 1,
      name: string("Billy"),
      address: like({
        street: "123 Smith St",
        suburb: "Smithsville",
        postcode: 7777,
      }),
    },
  },
})

Note that you can wrap a like around a single value or an object. When wrapped around an object, all values and child object values will be matched according to types, unless overridden by something more specific like a term.

Match based on arrays

Matching provides the ability to specify flexible length arrays. For example:

pact.eachLike(obj, { min: 3 })

Where obj can be any javascript object, value or Pact.Match. It takes optional argument ({ min: 3 }) where min is greater than 0 and defaults to 1 if not provided.

Below is an example that uses all of the Pact Matchers.

const { somethingLike: like, term, eachLike } = pact

const animalBodyExpectation = {
  id: 1,
  first_name: "Billy",
  last_name: "Goat",
  animal: "goat",
  age: 21,
  gender: term({
    matcher: "F|M",
    generate: "M",
  }),
  location: {
    description: "Melbourne Zoo",
    country: "Australia",
    post_code: 3000,
  },
  eligibility: {
    available: true,
    previously_married: false,
  },
  children: eachLike({ name: "Sally", age: 2 }),
}

// Define animal list payload, reusing existing object matcher
// Note that using eachLike ensure that all values are matched by type
const animalListExpectation = eachLike(animalBodyExpectation, {
  min: MIN_ANIMALS,
})

provider.addInteraction({
  state: "Has some animals",
  uponReceiving: "a request for all animals",
  withRequest: {
    method: "GET",
    path: "/animals/available",
  },
  willRespondWith: {
    status: 200,
    headers: {
      "Content-Type": "application/json; charset=utf-8",
    },
    body: animalListExpectation,
  },
})

Match by regular expression

If none of the above matchers or formats work, you can write your own regex matcher.

The underlying mock service is written in Ruby, so the regular expression must be in a Ruby format, not a Javascript format.

const { term } = pact

provider.addInteraction({
  state: "Has some animals",
  uponReceiving: "a request for an animal",
  withRequest: {
    method: "GET",
    path: "/animals/1",
  },
  willRespondWith: {
    status: 200,
    headers: {
      "Content-Type": "application/json; charset=utf-8",
    },
    body: {
      id: 100,
      name: "billy",
      gender: term({
        matcher: "F|M",
        generate: "F",
      }),
    },
  },
})

GraphQL API

GraphQL is simply an abstraction over HTTP and may be tested via Pact. There are two wrapper APIs available for GraphQL specific testing: GraphQLInteraction and ApolloGraphQLInteraction.

These are both lightweight wrappers over the standard DSL in order to make GraphQL testing a bit nicer.

See the history, and below for an example.

Tutorial (60 minutes)

Learn everything in Pact JS in 60 minutes: https://github.com/pact-foundation/pact-workshop-js.

The workshop takes you through all of the key concepts using a React consumer and an Express API.

Examples

HTTP APIs

• Complete Example (Node env)
• Pact with AVA (Node env)
• Pact with Jest (Node env)
• Pact with TypeScript + Mocha
• Pact with Mocha
• Pact with GraphQL
• Pact with React + Jest

Asynchronous APIs

• Asynchronous messages
• Serverless

Using Pact in non-Node environments such as Karma

Pact requires a Node runtime to be able to start and stop Mock servers, write logs and other things.

However, when used within browser or non-Node based environments - such as with Karma or ng-test - this is not possible.

You will need a Node based test framework such as Jest or Mocha.

Pact JS V3

An initial beta version of Pact-JS with support for V3 specification features and XML matching has been released. Current support is for Node 10, 12 and 14. Thanks to the folks at Align Tech for sponsoring this work.

To install it:

NPM

npm install --save-dev @pact-foundation/pact@beta

Yarn

yarn add --dev @pact-foundation/pact@beta

• Ensure you install the package as devDependencies by using --save-dev/--dev ;
• Make sure the ignore-scripts option is disabled, pact uses npm scripts to download further dependencies.
• For examples on how to use it, see examples/v3/e2e and examples/v3/todo-consumer in the v3.0.0 branch.

NOTE: The API of this implementation is likely to change. See this discussion for more

Using the V3 matching rules

There are a number of new matchers that can be used, like integer and timestamp. There are defined in the MatchersV3 class that needs to be used with PactV3 DSL.

For example:

const { PactV3, MatchersV3 } = require("@pact-foundation/pact/v3")
const {
  eachLike,
  atLeastLike,
  integer,
  timestamp,
  boolean,
  string,
  regex,
  like,
} = MatchersV3

const animalBodyExpectation = {
  id: integer(1),
  available_from: timestamp("yyyy-MM-dd'T'HH:mm:ss.SSSX"),
  first_name: string("Billy"),
  last_name: string("Goat"),
  animal: string("goat"),
  age: integer(21),
  gender: regex("F|M", "M"),
  location: {
    description: string("Melbourne Zoo"),
    country: string("Australia"),
    post_code: integer(3000),
  },
  eligibility: {
    available: boolean(true),
    previously_married: boolean(false),
  },
  interests: eachLike("walks in the garden/meadow"),
}

Using Pact with XML

You can write both consumer and provider verification tests with XML requests or responses. For an example, see examples/v3/todo-consumer/test/consumer.spec.js. There is an XmlBuilder class that provides a DSL to help construct XML bodies with matching rules and generators (NOTE that generators are not supported for XML at this time).

for example:

body: new XmlBuilder("1.0", "UTF-8", "ns1:projects").build((el) => {
  el.setAttributes({
    id: "1234",
    "xmlns:ns1": "http://some.namespace/and/more/stuff",
  })
  el.eachLike(
    "ns1:project",
    {
      id: integer(1),
      type: "activity",
      name: string("Project 1"),
      due: timestamp("yyyy-MM-dd'T'HH:mm:ss.SZ", "2016-02-11T09:46:56.023Z"),
    },
    (project) => {
      project.appendElement("ns1:tasks", {}, (task) => {
        task.eachLike(
          "ns1:task",
          {
            id: integer(1),
            name: string("Task 1"),
            done: boolean(true),
          },
          null,
          { examples: 5 }
        )
      })
    },
    { examples: 2 }
  )
})

Verifying providers with VerifierV3

The VerifierV3 class can verify your provider in a similar way to the existing one.

Request Filters

Request filters now take a request object as a parameter, and need to return the mutated one.

requestFilter: req => {
    req.headers["MY_SPECIAL_HEADER"] = "my special value"

    // e.g. ADD Bearer token
    req.headers["authorization"] = `Bearer ${token}`

    // Need to return the request ba