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POST Request

POST /graphql

Headers

Header Optionality Value
Content-Type mandatory application/graphql or application/json
Content-Encoding optional gzip to send compressed data
Accept-Encoding optional gzip to enabled data compression on response
X-Dgraph-AccessToken if ACL is enabled pass the access token you got in the login response to access predicates protected by an ACL
X-Auth-Token if anonymous access is disabled Admin Key or Client key
header as set in Dgraph.Authorization if GraphQL Dgraph.Authorization is set valid JWT used by @auth directives

Note Refer to GraphQL security settings for explanations about anonymous access and Dgraph.Authorization.

Payload format

POST requests sent with the Content-Type header application/graphql must have a POST body content as a GraphQL query string. For example, the following is a valid POST body for a query:

query {
  getTask(id: "0x3") {
    id
    title
    completed
    user {
      username
      name
    }
  }
}

POST requests sent with the Content-Type header application/json must have a POST body in the following JSON format:

{
  "query": "...",
  "operationName": "...",
  "variables": { "var": "val", ... }
}

GraphQL requests can contain one or more operations. Operations include query, mutation, or subscription. If a request only has one operation, then it can be unnamed like the following:

Single Operation

The most basic request contains a single anonymous (unnamed) operation. Each operation can have one or more queries within in. For example, the following query has query operation running the queries “getTask” and “getUser”:

query {
  getTask(id: "0x3") {
    id
    title
    completed
  }
  getUser(username: "dgraphlabs") {
    username
  }
}

Response:

{
  "data": {
    "getTask": {
      "id": "0x3",
      "title": "GraphQL docs example",
      "completed": true
    },
    "getUser": {
      "username": "dgraphlabs"
    }
  }
}

You can optionally name the operation as well, though it’s not required if the request only has one operation as it’s clear what needs to be executed.

Query Shorthand

If a request only has a single query operation, then you can use the short-hand form of omitting the “query” keyword:

{
  getTask(id: "0x3") {
    id
    title
    completed
  }
  getUser(username: "dgraphlabs") {
    username
  }
}

This simplifies queries when a query doesn’t require an operation name or variables.

Multiple Operations

If a request has two or more operations, then each operation must have a name. A request can only execute one operation, so you must also include the operation name to execute in the request (see the “operations” field for requests). Every operation name in a request must be unique.

For example, in the following request has the operation names “getTaskAndUser” and “completedTasks”.

query getTaskAndUser {
  getTask(id: "0x3") {
    id
    title
    completed
  }
  queryUser(filter: {username: {eq: "dgraphlabs"}}) {
    username
    name
  }
}

query completedTasks {
  queryTask(filter: {completed: true}) {
    title
    completed
  }
}

When executing the following request (as an HTTP POST request in JSON format), specifying the “getTaskAndUser” operation executes the first query:

{
  "query": "query getTaskAndUser { getTask(id: \"0x3\") { id title completed } queryUser(filter: {username: {eq: \"dgraphlabs\"}}) { username name }\n}\n\nquery completedTasks { queryTask(filter: {completed: true}) { title completed }}",
  "operationName": "getTaskAndUser"
}
{
  "data": {
    "getTask": {
      "id": "0x3",
      "title": "GraphQL docs example",
      "completed": true
    },
    "queryUser": [
      {
        "username": "dgraphlabs",
        "name": "Dgraph Labs"
      }
    ]
  }
}

And specifying the “completedTasks” operation executes the second query:

{
	"query": "query getTaskAndUser { getTask(id: \"0x3\") { id title completed } queryUser(filter: {username: {eq: \"dgraphlabs\"}}) { username name }\n}\n\nquery completedTasks { queryTask(filter: {completed: true}) { title completed }}",
	"operationName": "completedTasks"
}
{
  "data": {
    "queryTask": [
      {
        "title": "GraphQL docs example",
        "completed": true
      },
      {
        "title": "Show second operation",
        "completed": true
      }
    ]
  }
}

multiple queries execution

When an operation contains multiple queries, they are run concurrently and independently in a Dgraph readonly transaction per query.

When an operation contains multiple mutations, they are run serially, in the order listed in the request, and in a transaction per mutation. If a mutation fails, the following mutations are not executed, and previous mutations are not rolled back.

Variables

Variables simplify GraphQL queries and mutations by letting you pass data separately. A GraphQL request can be split into two sections: one for the query or mutation, and another for variables.

Variables can be declared after the query or mutation and are passed like arguments to a function and begin with $.

Query Example

query post($filter: PostFilter) {
	queryPost(filter: $filter) {
		title
		text
		author {
			name
		}
	}
}

Variables

{
	"filter": {
		"title": {
			"eq": "First Post"
		}
	}
}

Mutation Example

mutation addAuthor($author: AddAuthorInput!) {
	addAuthor(input: [$author]) {
		author {
			name
			posts {
				title
				text
			}
		}
	}
}

Variables

{
	"author": {
		"name": "A.N. Author",
		"dob": "2000-01-01",
		"posts": [{
			"title": "First Post",
			"text": "Hello world!"
		}]
	}
}

Fragments

A GraphQL fragment is associated with a type and is a reusable subset of the fields from this type. Here, we declare a postData fragment that can be used with any Post object:

fragment postData on Post {
  id
  title
  text
  author {
    username
    displayName
  }
}
query allPosts {
  queryPost(order: { desc: title }) {
    ...postData
  }
}
mutation addPost($post: AddPostInput!) {
  addPost(input: [$post]) {
    post {
      ...postData
    }
  }
}

Using fragments with interfaces

It is possible to define fragments on interfaces. Here’s an example of a query that includes in-line fragments:

Schema

interface Employee {
    ename: String!
}
interface Character {
    id: ID!
    name: String! @search(by: [exact])
}
type Human implements Character & Employee {
    totalCredits: Float
}
type Droid implements Character {
    primaryFunction: String
}

Query

query allCharacters {
  queryCharacter {
    name
    __typename
    ... on Human {
      totalCredits
    }
    ... on Droid {
      primaryFunction
    }
  }
}

The allCharacters query returns a list of Character objects. Since Human and Droid implements the Character interface, the fields in the result would be returned according to the type of object.

Result

{
  "data": {
    "queryCharacter": [
      {
        "name": "Human1",
        "__typename": "Human",
        "totalCredits": 200.23
      },
      {
        "name": "Human2",
        "__typename": "Human",
        "totalCredits": 2.23
      },
      {
        "name": "Droid1",
        "__typename": "Droid",
        "primaryFunction": "Code"
      },
      {
        "name": "Droid2",
        "__typename": "Droid",
        "primaryFunction": "Automate"
      }
    ]
  }
}