@ambler/prisma-binding
v2.1.0-ambler.2
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prisma-binding
GraphQL Binding for Prisma services (GraphQL Database)
Overview
prisma-binding
provides a convenience layer for building GraphQL servers on top of Prisma services. In short, it simplifies implementing your GraphQL resolvers by delegating execution of queries (or mutations) to the API of the underlying Prisma database service.
Here is how it works:
- Create your Prisma service by defining data model
- Download generated database schema definition
prisma.graphql
(contains the full CRUD API) - Define your application schema, typically called
app.graphql
- Instantiate
Prisma
with information about your Prisma service (such as its endpoint and the path to the database schema definition) - Implement the resolvers for your application schema by delegating to the underlying Prisma service using the generated delegate resolver functions
Note: If you're using a GraphQL boilerplate project (e.g. with
graphql create
), the Prisma binding will already be configured and a few example resolvers implemented for you. You can either try the dynamic binding (e.g. in thenode-basic
boilerplate) or a static binding (e.g in thetypescript-basic
boilerplate).
Install
yarn add prisma-binding
# or
npm install --save prisma-binding
Example
Consider the following data model for your Prisma service:
type User {
id: ID! @unique
name: String
}
If you instantiate Prisma
based on this service, you'll be able to send the following queries/mutations:
// Instantiate `Prisma` based on concrete service
const prisma = new Prisma({
typeDefs: 'schemas/database.graphql',
endpoint: 'https://us1.prisma.sh/demo/my-service/dev',
secret: 'my-super-secret-secret'
})
// Retrieve `name` of a specific user
prisma.query.user({ where: { id: 'abc' } }, '{ name }')
// Retrieve `id` and `name` of all users
prisma.query.users(null, '{ id name }')
// Create new user called `Sarah` and retrieve the `id`
prisma.mutation.createUser({ data: { name: 'Sarah' } }, '{ id }')
// Update name of a specific user and retrieve the `id`
prisma.mutation.updateUser({ where: { id: 'abc' }, data: { name: 'Sarah' } }, '{ id }')
// Delete a specific user and retrieve the `id`
prisma.mutation.deleteUser({ where: { id: 'abc' } }, '{ id }')
Under the hood, each of these function calls is simply translated into an actual HTTP request against your Prisma service (using graphql-request
).
The API also allows to ask whether a specific node exists in your Prisma database:
// Ask whether a post exists with `id` equal to `abc` and whose
// `author` is called `Sarah` (return boolean value)
prisma.exists.Post({
id: 'abc',
author: {
name: 'Sarah'
}
})
API
constructor(options: PrismaOptions): Prisma
The PrismaOptions
type has the following fields:
| Key | Required | Type | Default | Note |
| --- | --- | --- | --- | --- |
| typeDefs
| Yes | string
| - | Type definition string or file path to the schema definition of your Prisma service (typically a file called database.graphql
or prisma.graphql
) |
| endpoint
| Yes | string
| - | The endpoint of your Prisma service |
| secret
| Yes | string
| - | The secret of your Prisma service |
| fragmentReplacements
| No | FragmentReplacements
| null
| A list of GraphQL fragment definitions, specifying fields that are required for the resolver to function correctly |
| debug
| No | boolean
| false
| Log all queries/mutations to the console |
query
and mutation
query
and mutation
are public properties on your Prisma
instance. They both are of type Query
and expose a number of auto-generated delegate resolver functions that are named after the fields on the Query
and Mutation
types in your Prisma database schema.
Each of these delegate resolvers in essence provides a convenience API for sending queries/mutations to your Prisma service, so you don't have to spell out the full query/mutation from scratch and worry about sending it over HTTP. This is all handled by the delegate resolver function under the hood.
Delegate resolver have the following interface:
(args: any, info: GraphQLResolveInfo | string): Promise<T>
The input arguments are used as follows:
args
: An object carrying potential arguments for the query/mutationinfo
: An object representing the selection set of the query/mutation, either expressed directly as a string or in the form ofGraphQLResolveInfo
(you can find more info about theGraphQLResolveInfo
type here)
The generic type T
corresponds to the type of the respective field.
exists
exists
also is a public property on your Prisma
instance. Similar to query
and mutation
, it also exposes a number of auto-generated functions. However, it exposes only a single function per type. This function is named according to the root field that allows the retrieval of a single node of that type (e.g. User
for a type called User
). It takes a where
object as an input argument and returns a boolean
value indicating whether the condition expressed with where
is met.
This function enables you to easily check whether a node of a specific type exists in your Prisma database.
request
The request
method lets you send GraphQL queries/mutations to your Prisma service. The functionality is identical to the auto-generated delegate resolves, but the API is more verbose as you need to spell out the full query/mutation. request
uses graphql-request
under the hood.
Here is an example of how it can be used:
const query = `
query ($userId: ID!){
user(id: $userId) {
id
name
}
}
`
const variables = { userId: 'abc' }
prisma.request(query, variables)
.then(result => console.log(result))
// sample result:
// {"data": { "user": { "id": "abc", "name": "Sarah" } } }
forwardTo
If you just want to forward a query to the exact same underlying prisma query, you can use forwardTo
:
const {forwardTo} = require('prisma-binding')
const resolvers = {
Query: {
posts: forwardTo('db')
}
}
const server = new GraphQLServer({
typeDefs: './src/schema.graphql',
resolvers,
context: req => ({
...req,
db: new Prisma({
typeDefs: 'src/generated/prisma.graphql',
endpoint: '...',
secret: 'mysecret123',
}),
debug: true,
}),
})
server.start(
() => console.log(`Server is running on http://localhost:4000`),
)
Usage
Next steps
- Code generation at build-time for the auto-generated delegate resolvers