Mocking
The strongly-typed nature of a GraphQL API lends itself extremely well to mocking. This is an important part of a GraphQL-First development process because it enables frontend developers to build out UI components and features without having to wait for a backend implementation.
Even with a backend that is already built, mocking allows you to test your UI without waiting on slow database requests or building out a component harness with a tool like React Storybook.
Default Mock Example
Let’s take a look at how we can mock a GraphQL schema with just one line of code, using the default
mocking logic you get out of the box with graphql-tools
.
To start, let’s grab the schema definition string from the makeExecutableSchema
example in the
“Generating a schema” article.
import { graphql } from 'graphql'
import { addMocksToSchema } from '@graphql-tools/mock'
import { makeExecutableSchema } from '@graphql-tools/schema'
// Fill this in with the schema string
const schemaString = `...`
// Make a GraphQL schema with no resolvers
const schema = makeExecutableSchema({ typeDefs: schemaString })
// Create a new schema with mocks
const schemaWithMocks = addMocksToSchema({ schema })
const query = /* GraphQL */ `
query tasksForUser {
user(id: 6) {
id
name
}
}
`
graphql({
schema: schemaWithMocks,
source: query
}).then(result => console.log('Got result', result))
Note: If your schema has custom scalar types, you still need to define the __serialize
,
__parseValue
, and __parseLiteral
functions, and pass them inside the second argument to
makeExecutableSchema
.
This mocking logic simply looks at your schema and makes sure to return a string where your schema has a string, a number for a number, etc. So you can already get the right shape of result. But if you want to use the mocks to do sophisticated testing, you will likely want to customize them to your particular data model.
Customizing Mocks
This is where the mocks
option comes in, it’s an object that describes your desired mocking logic.
This is similar to the resolverMap
in makeExecutableSchema
but has a few extra features aimed at
mocking.
It allows you to specify functions that are called for specific types in the schema, for example:
{
Int: () => 6,
Float: () => 22.1,
String: () => 'Hello'
}
You can also use this to describe object types, and the fields can be functions too:
{
Person: () => ({
name: casual.name(),
age: casual.integer(0, 120)
})
}
In this example, we are using casual, a fake data generator for JavaScript, so that we can get a different result every time the field is called. You might want to use a collection of fake objects, or a generator that always uses a consistent seed, if you are planning to use the data for testing.
Mocking Custom Scalar Types
To Mock Custom Scalar Types, you need to declare them in your Schema. Let’s look at an example for declaring DateTime Custom Scalar in our Schema:
const schema = /* GraphQL */ `
scalar DateTime
# Your Schema definitions below.
# ...
`
This will make DateTime Custom Scalar available to be used in the Schema.
The next step is to define a function that returns a value (fixed or random) for the Custom Scalar. Look at the following example, in which we’re mocking a fixed value for the DateTime Custom Scalar Type:
{
DateTime: () => '2011-01-05T17:08:49.000-0430'
}
Similarly, if you want to mock a random value for the Custom Scalar, you can use a library. We’re using casual, as in the example above:
{
DateTime: () => casual.date(/* format = 'YYYY-MM-DDTHH:mm:ss.SSSZZ' */) // Output Example: 2011-11-11T11:43:31.000-0430
}
The final step is to use the mocks
object and schema
to mock the server.
import { addMocksToSchema, mockServer } from '@graphql-tools/mock'
// Mock object
const mocks = {
Int: () => 6,
Float: () => 22.1,
String: () => 'Hello',
DateTime: () => casual.date(/* format = 'YYYY-MM-DDTHH:mm:ss.SSSZZ' */)
}
const preserveResolvers = false
// Mock the server passing the schema, mocks object and preserveResolvers arguments
const server = mockServer(schema, mocks, preserveResolvers)
// Alternatively, you can call addMocksToSchema with the same arguments
const schemaWithMocks = addMocksToSchema({
schema,
mocks,
preserveResolvers
})
Now, when you make a Query which response contains the DateTime Scalar Type, the DateTime function will return a value for it.
Using Lists in Mocks
To define a mock for a list, simply return an empty array of the desired length as a mock value for the field:
{
Person: () => ({
// a list of length between 2 and 6
friends: [...new Array(casual.integer(2, 6))],
// a list of three lists of two items: [[1, 1], [2, 2], [3, 3]]
listOfLists: () => [...new Array(3)].map(i => [...new Array(2)])
})
}
Abstract Types
If you’d like to provide a mock for a Union
or Interface
type, you need to provide the type with
an extra __typename
.
const typeDefs = /* GraphQL */ `
# ...
union Result = User | Book
`
const mocks = {
Result: () => ({
__typename: 'User',
name: casual.name()
})
}
Applying Mutations
Use resolvers
option of addMocksToSchema
to implement custom resolvers that interact with the
MockStore
, especially to mutate field values.
const typeDefs = /* GraphQL */ `
type User {
id: Id!
name: String!
}
type Query {
me: User!
}
type Mutation {
changeMyName(newName: String!): User!
}
`
const schema = makeExecutableSchema({ typeDefs: schemaString })
const schemaWithMocks = addMocksToSchema({
schema,
resolvers: store => ({
Mutation: {
changeMyName(_, { newName }) {
// special singleton types `Query` and `Mutation` will use the key `ROOT`
// this will set the field value for the `User` entity referenced in field
// `me` of the singleton `Query`
store.set('Query', 'ROOT', 'me', { name: newName })
return store.get('Query', 'ROOT', 'me')
}
}
})
})
As a result, any query that queries the field name
of the User
referenced in me
will get the
updated value.
Note the sugar signature of set
:
import { Ref } from '@graphql-tools/mock'
store.set('Query', 'ROOT', 'me', { name: newName })
// is equivalent to:
const meRef = store.get('Query', 'ROOT', `me`) as Ref
store.set(meRef, 'name', newName)
Usage with mockServer
:
import { buildSchema } from 'graphql'
import { mockServer } from '@graphql-tools/mock'
import { addResolversToSchema } from '@graphql-tools/schema'
const schema = buildSchema(typeDefs)
const mySchema = addResolversToSchema(schema, resolvers)
const preserveResolvers = true
const server = mockServer(mySchema, mocks, preserveResolvers)
// get result from resolvers
const result = await server.query(query, variables)
Handling *byId
Fields
By default, *byId
(like userById(id: ID!)
) field will return an entity that does not have the
same id
as the one queried. We can fix that:
import { buildSchema } from 'graphql'
import { addMocksToSchema } from '@graphql-tools/mock'
const typeDefs = /* GraphQL */ `
type User {
id: Id!
name: String!
}
type Query {
userById(id: ID!): User!
}
`
const schema = buildSchema(typeDefs)
const schemaWithMocks = addMocksToSchema({
schema,
resolvers: store => ({
Query: {
userById: (_, { id }) => store.get('User', id)
}
})
})
Note that, by default, the id
or _id
field will be used as a storage key and the store will make
sure the storage key and the field value are equal. You can change the key field using the option
typePolicies
.
Mocking a Pagination
The idea is that the MockStore
contains the full list, as a field value, and that
the resolver queries the store and slices the result:
import { buildSchema } from 'graphql'
import { addMocksToSchema, Ref } from '@graphql-tools/mock'
const typeDefs = /* GraphQL */ `
type User {
id: Id!
name: String!
friends(offset: Int!, limit: Int!): [User!]!
}
type Query {
me: User!
}
`
const schema = buildSchema(typeDefs)
const schemaWithMocks = addMocksToSchema({
schema,
resolvers: store => ({
User: {
// `addMocksToSchema` resolver will pass a `Ref` as `parent`
// it contains a key to the `User` we are dealing with
friends(userRef, { offset, limit }) {
// this will generate and store a list of `Ref`s to some `User`s
// next time we go through this resolver (with same parent), the list
// will be the same
const fullList = store.get(userRef, 'friends') as Ref[]
// actually apply pagination slicing
return fullList.slice(offset, offset + limit)
}
}
})
})
Relay-Style Pagination
To mock a pagination that complies to
Relay-style pagination, you can use the provided helper
relayStylePaginationMock
:
import { buildSchema } from 'graphql'
import { addMocksToSchema, relayStylePaginationMock } from '@graphql-tools/mock'
const typeDefs = /* GraphQL */ `
type User {
id: Id!
name: String!
friends(first: Int!, after: String): FriendsConnection!
}
type PageInfo {
hasNextPage: Boolean!
endCursor: String!
}
type FriendsConnection {
totalCount: Int!
edges: [FriendConnectionEdge!]!
pageInfo: PageInfo!
}
type FriendsConnectionEdge {
node: User!
cursor: String!
}
type Query {
me: User!
}
`
const schema = buildSchema(typeDefs)
const schemaWithMocks = addMocksToSchema({
schema,
resolvers: store => ({
User: {
friends: relayStylePaginationMock(store)
}
})
})
Mocking a Schema Using Introspection
The GraphQL specification allows clients to introspect the schema with a special set of types and fields that every schema must include. The results of a standard introspection query can be used to generate an instance of GraphQLSchema which can be mocked as explained above.
This helps when you need to mock a schema defined in a language other than JS. For example: Go, Ruby, or Python.
To convert an
introspection query
result to a GraphQLSchema
object, you can use the buildClientSchema
utility from the graphql
package.
import { buildClientSchema } from 'graphql'
import * as introspectionResult from 'schema.json'
const schema = buildClientSchema(introspectionResult)
const schemaWithMocks = addMocksToSchema({ schema })
API
addMocksToSchema
import { addMocksToSchema } from '@graphql-tools/mock'
const schemaWithMocks = addMocksToSchema({
schema,
mocks: {},
preserveResolvers: false
})
Given an instance of GraphQLSchema and a mock object, addMocksToSchema
returns a new schema that
can return mock data for any valid query that is sent to the server. If mocks
is not passed, the
defaults will be used for each of the scalar types. If preserveResolvers
is set to true
,
existing resolvers will not be overwritten to provide mock data. This can be used to mock some parts
of the server and not others.
mockServer
import { mockServer } from '@graphql-tools/mock'
// This can be an SDL schema string (eg the result of `buildClientSchema` above)
// or a GraphQLSchema object (eg the result of `buildSchema` from `graphql`)
const schema = `...`
// Same mocks object that `addMocksToSchema` takes above
const mocks = {}
preserveResolvers = false
const server = mockServer(schemaString, mocks, preserveResolvers)
const query = /* GraphQL */ `
{
__typename
}
`
const variables = {}
server.query(query, variables).then(response => {
console.log(response)
})
mockServer
is just a convenience wrapper on top of addMocksToSchema
. It adds your mock resolvers
to your schema and returns a client that will correctly execute your query with variables. Note:
when executing queries from the returned server, context
and root
will both equal {}
.
MockStore
The MockStore
is holding the generated mocks and can be used to access, generate or alter mocked
values.
You can access the MockStore
either as an argument of resolvers
option of addMocksToSchema
:
import { addMocksToSchema } from '@graphql-tools/mock'
const schemaWithMocks = addMocksToSchema({
schema,
resolvers: store => {
// store is your `MockStore`
return {
Query: {
//... your custom resolvers
}
}
}
})
or by using createMockStore
(and use the store in addMocksToSchema
):
import { createMockStore } from '@graphql-tools/mock'
const store = createMockStore({ schema })
const schemaWithMocks = addMocksToSchema({ schema, store })
The content is accessible and modifiable via the methods get
and set
of the MockStore
. These
methods have several signatures (see
their typing) but
here are some examples:
get
Get a field value from the store for the given type, store key and field name. If the the value for this field is not set, a value will be generated according to field return type and mock functions:
store.get('User', 'abc-737dh-djdjd', 'name')
// 'Hello World'
If the field is the key field of this type, the store key itself is returned. By default, id
and
_id
fields are considered as key fields but it can be customized with option typePolicies
.
store.get('User', 'abc-737dh-djdjd', 'id')
// 'abc-737dh-djdjd'
If the field’s output type is a ObjectType
(or list of ObjectType
), it will return a Ref
(or
array of Ref
), ie a reference to an entity in the store.
store.get('User', 'abc-737dh-djdjd', 'organization')
// { $ref: { key: 'acme', typeName: 'Organization' } }
Ref
can then be used, for example, to get a field value given by a Ref
:
const organizationRef = { $ref: { key: 'acme', typeName: 'Organization' } }
store.get(organizationRef, 'name')
// `Acme Group`
As a shortcut, you can traverse the graph quickly with an array of field names (nested get):
store.get('User', 'abc-737dh-djdjd', ['organization', 'name'])
// `Acme Group`
You can generate an entity reference Ref
with:
store.get('User', 'abc-737dh-djdjd')
// { $ref: { key: 'abc-737dh-djdjd', typeName: 'User' } }
Root types (Query
, Mutation
), which necessarily have only one entity, will use the special store
key ROOT
to reference this only entity:
store.get('Query', 'ROOT', 'viewer')
// { $ref: { key: 'abc-737dh-djdjd', typeName: 'User' } }
set
Set a field value in the store for the given type, store key and field name:
store.set('User', '1', 'name', 'Alexandre')
store.get('User', '1', 'name')
// 'Alexandre'
If the field’s output type is an ObjectType
(or list of ObjectType
), you can set a Ref
(or
array of Ref
):
store.set('User', '1', 'organization', store.get('Organization', 'acme'))
You can use a Ref
to set the field name:
const organizationRef = { $ref: { key: 'acme', typeName: 'Organization' } }
store.set(organizationRef, 'name', 'Acme Group')
Set multiple field values at once:
store.set('User', '1', { name: 'Alexandre', age: 31 })
Set a field value via graph traversal (nested set):
store.set('Query', 'ROOT', {
viewer: {
name: 'Alexandre',
friends: [{ name: 'Emily' }, { name: 'Caroline' }]
}
})
reset
This method will reset MockStore
.
store.reset()
has
This method checks to see if a mock is present in the store for the given typeName
and key
.
Returns true
if the mock exists and false
otherwise.
store.has('User', '1') // false
store.get('User', '1', { name: 'Alexandre' }) // or store.set
store.has('User', '1') // true
Migration from V7 and Below
Breaking Change: Mock Functions Signature
Mock functions do not receive resolvers’ source, arguments and context anymore. Use resolvers
option of addMocksToSchema
to define “true” resolvers that can interact with
MockStore
.
// Previously:
const mocks = {
Person: () => ({
paginatedFriends: (root, { numPages }) => new MockList(numPages * PAGE_SIZE)
})
}
const schemaWithMocks = addMocksToSchema({ schema, mocks })
// Now:
const resolvers = store => ({
Person: {
paginatedFriends: (root, { numPages }) =>
store.get(root, 'paginatedFriends').slice(numPages * PAGE_SIZE, (numPages + 1) * PAGE_SIZE)
}
})
const schemaWithMocks = addMocksToSchema({ schema, resolvers })
Read more about mocking pagination here.
Mock functions can’t return a Promise
anymore: it has to be a plain value. However, resolvers can
still return functions or Promise
s, so you can use resolvers to work around this:
const getName = () => Promise.resolve('Vlad')
// Previously
const mocks = {
Person: () => ({
name: () => getName()
})
}
const schemaWithMocks = addMocksToSchema({ schema, mocks })
// Now:
const resolvers = store => ({
Person: {
async name(root) {
return store.get({
typeName: root.$ref.typeName,
key: root.$ref.key,
fieldName: 'name',
defaultValue: await getName()
})
}
}
})
const schemaWithMocks = addMocksToSchema({ schema, resolvers })
Breaking Change: Preserved Resolvers Source Argument and Abstract Types Mocking
When preserved, resolvers will not receive plain mock data anymore as a source but rather a Ref
that can be used to query the store:
// Previously:
const resolvers = {
User: {
name: data => data.name.toLowerCase()
}
}
const schema = makeExecutableSchema({ typeDefs, resolvers })
const schemaWithMocks = addMocksToSchema({ schema, preserveResolvers: true })
// Now:
let schema = makeExecutableSchema({ typeDefs })
const store = createMockStore({ schema })
const resolvers = {
User: {
name(source) {
// `source` is an entity `Ref`
return store.get(source, 'name').toLowerCase()
}
}
}
schema = addResolversToSchema(schema, resolvers)
const schemaWithMocks = addMocksToSchema({ schema, preserveResolvers: true })
If you used __resolveType
resolver for mocking interfaces and unions, rather use __typename
directly in mocks. See Abstract types.
const typeDefs = /* GraphQL */ `
type Query {
fetchMore(listType: String!, amount: Int!, offset: Int!): List
}
type Distributor {
id: Int
name: String
}
type Product {
id: Int
name: String
}
interface List {
amount: Int
offset: Int
total: Int
remaining: Int
}
type DistributorList implements List {
amount: Int
offset: Int
total: Int
remaining: Int
items: [Distributor]
}
type ProductList implements List {
amount: Int
offset: Int
total: Int
remaining: Int
items: [Product]
}
`
// Previously:
const mocks = {
List: () => ({
typename: 'ProductList'
})
}
const resolvers = {
List: {
__resolveType(data) {
return data.typename
}
}
}
const schema = makeExecutableSchema({ typeDefs, resolvers })
const schemaWithMocks = addMocksToSchema({
schema,
mocks,
preserveResolvers: true
})
// Now:
const mocks = {
List: () => ({
__typename: 'ProductList'
})
}
const schema = makeExecutableSchema({ typeDefs })
const schemaWithMocks = addMocksToSchema({ schema, mocks })
Deprecated: MockList
MockList
is deprecated, use plain arrays instead. See
Using lists in mocks.
// Previously:
const mocks = {
Person: () => ({
friends: () => new MockList([2, 6]),
listOfLists: () => new MockList(3, () => new MockList(2))
})
}
// Now:
const casual = require('casual')
const mocks = {
Person: () => ({
friends: [...new Array(casual.integer(2, 6))],
listOfLists: () => [...new Array(3)].map(i => [...new Array(2)])
})
}