Using the Fetch API
The Fetch API provides a JavaScript interface for making HTTP requests and processing the responses.
Fetch is the modern replacement for XMLHttpRequest
: unlike XMLHttpRequest
, which uses callbacks, Fetch is promise-based and is integrated with features of the modern web such as service workers and Cross-Origin Resource Sharing (CORS).
With the Fetch API, you make a request by calling fetch()
, which is available as a global function in both window
and worker
contexts. You pass it a Request
object or a string containing the URL to fetch, along with an optional argument to configure the request.
The fetch()
function returns a Promise
which is fulfilled with a Response
object representing the server's response. You can then check the request status and extract the body of the response in various formats, including text and JSON, by calling the appropriate method on the response.
Here's a minimal function that uses fetch()
to retrieve some JSON data from a server:
async function getData() {
const url = "https://example.org/products.json";
try {
const response = await fetch(url);
if (!response.ok) {
throw new Error(`Response status: ${response.status}`);
}
const json = await response.json();
console.log(json);
} catch (error) {
console.error(error.message);
}
}
We declare a string containing the URL and then call fetch()
, passing the URL with no extra options.
The fetch()
function will reject the promise on some errors, but not if the server responds with an error status like 404
: so we also check the response status and throw if it is not OK.
Otherwise, we fetch the response body content as JSON by calling the json()
method of Response
, and log one of its values. Note that like fetch()
itself, json()
is asynchronous, as are all the other methods to access the response body content.
In the rest of this page we'll look in more detail at the different stages of this process.
Making a request
To make a request, call fetch()
, passing in:
- a definition of the resource to fetch. This can be any one of:
- a string containing the URL
- an object, such an instance of
URL
, which has a stringifier that produces a string containing the URL - a
Request
instance
- optionally, an object containing options to configure the request.
In this section we'll look at some of the most commonly-used options. To read about all the options that can be given, see the fetch()
reference page.
Setting the method
By default, fetch()
makes a GET
request, but you can use the method
option to use a different request method:
const response = await fetch("https://example.org/post", {
method: "POST",
// ...
});
If the mode
option is set to no-cors
, then method
must be one of GET
, POST
or HEAD
.
Setting a body
The request body is the payload of the request: it's the thing the client is sending to the server. You cannot include a body with GET
requests, but it's useful for requests that send content to the server, such as POST
or PUT
requests. For example, if you want to upload a file to the server, you might make a POST
request and include the file as the request body.
To set a request body, pass it as the body
option:
const response = await fetch("https://example.org/post", {
body: JSON.stringify({ username: "example" }),
// ...
});
You can supply the body as an instance of any of the following types:
- a string
ArrayBuffer
TypedArray
DataView
Blob
File
URLSearchParams
FormData
Note that just like response bodies, request bodies are streams, and making the request reads the stream, so if a request contains a body, you can't make it twice:
const request = new Request("https://example.org/post", {
method: "POST",
body: JSON.stringify({ username: "example" }),
});
const response1 = await fetch(request);
console.log(response1.status);
// Will throw: "Body has already been consumed."
const response2 = await fetch(request);
console.log(response2.status);
Instead, you would need to create a clone of the request before sending it:
const request1 = new Request("https://example.org/post", {
method: "POST",
body: JSON.stringify({ username: "example" }),
});
const request2 = request1.clone();
const response1 = await fetch(request1);
console.log(response1.status);
const response2 = await fetch(request2);
console.log(response2.status);
See Locked and disturbed streams for more information.
Setting headers
Request headers give the server information about the request: for example, the Content-Type
header tells the server the format of the request's body. Many headers are set automatically by the browser and can't be set by a script: these are called Forbidden header names.
To set request headers, assign them to the headers
option.
You can pass an object literal here containing header-name: header-value
properties:
const response = await fetch("https://example.org/post", {
headers: {
"Content-Type": "application/json",
},
// .,.
});
Alternatively, you can construct a Headers
object, add headers to that object using Headers.append()
, then assign the Headers
object to the headers
option:
const myHeaders = new Headers();
myHeaders.append("Content-Type", "application/json");
const response = await fetch("https://example.org/post", {
headers: myHeaders,
// .,.
});
If the mode
option is set to no-cors
, you can only set CORS-safelisted request headers.
Making POST requests
We can combine the method
, body
, and headers
options to make a POST request:
const myHeaders = new Headers();
myHeaders.append("Content-Type", "application/json");
const response = await fetch("https://example.org/post", {
method: "POST",
body: JSON.stringify({ username: "example" }),
headers: myHeaders,
});
Making cross-origin requests
Whether a request can be made cross-origin or not is determined by the value of the mode
option. This may take one of three values: cors
, no-cors
, or same-origin
.
- By default,
mode
is set tocors
, meaning that if the request is cross-origin then it will use the Cross-Origin Resource Sharing (CORS) mechanism. This means that:- if the request is a simple request, then the request will always be sent, but the server must respond with the correct
Access-Control-Allow-Origin
header or the browser will not share the response with the caller. - if the request is not a simple request, then the browser will send a preflighted request to check that the server understands CORS and allows the request, and the real request will not be sent unless the server responds to the preflighted request with the appropriate CORS headers.
- if the request is a simple request, then the request will always be sent, but the server must respond with the correct
- Setting
mode
tosame-origin
disallows cross-origin requests completely. - Setting
mode
tono-cors
means the request must be a simple request, which restricts the headers that may be set, and restricts methods toGET
,HEAD
, andPOST
.
Including credentials
Credentials are cookies, TLS client certificates, or authentication headers containing a username and password.
To control whether or not the browser sends credentials, as well as whether the browser respects any Set-Cookie
response headers, set the credentials
option, which can take one of the following three values:
omit
: never send credentials in the request or include credentials in the response.same-origin
(the default): only send and include credentials for same-origin requests.include
: always include credentials, even cross-origin.
Note that if a cookie's SameSite
attribute is set to Strict
or Lax
, then the cookie will not be sent cross-site, even if credentials
is set to include
.
Including credentials in cross-origin requests can make a site vulnerable to CSRF attacks, so even if credentials
is set to include
, the server must also agree to their inclusion by including the Access-Control-Allow-Credentials
header in its response. Additionally, in this situation the server must explicitly specify the client's origin in the Access-Control-Allow-Origin
response header (that is, *
is not allowed).
This means that if credentials
is set to include
and the request is cross-origin, then:
- If the request is a simple request, then the request will be sent with credentials, but the server must set the
Access-Control-Allow-Credentials
andAccess-Control-Allow-Origin
response headers, or the browser will return a network error to the caller. If the server does set the correct headers, then the response, including credentials, will be delivered to the caller. - If the request is not a simple request, then the browser will send a preflighted request without credentials, and the server must set the
Access-Control-Allow-Credentials
andAccess-Control-Allow-Origin
response headers, or the browser will return a network error to the caller. If the server does set the correct headers, then the browser will follow up with the real request, including credentials, and will deliver the real response, including credentials, to the caller.
Creating a Request
object
The Request()
constructor takes the same arguments as fetch()
itself. This means that instead of passing options into fetch()
, you can pass the same options to the Request()
constructor, and then pass that object to fetch()
.
For example, we can make a POST request by passing options into fetch()
using code like this:
const myHeaders = new Headers();
myHeaders.append("Content-Type", "application/json");
const response = await fetch("https://example.org/post", {
method: "POST",
body: JSON.stringify({ username: "example" }),
headers: myHeaders,
});
However, we could rewrite this to pass the same arguments to the Request()
constructor:
const myHeaders = new Headers();
myHeaders.append("Content-Type", "application/json");
const myRequest = new Request("https://example.org/post", {
method: "POST",
body: JSON.stringify({ username: "example" }),
headers: myHeaders,
});
const response = await fetch(myRequest);
This also means that you can create a request from another request, while changing some of its properties using the second argument:
async function post(request) {
try {
const response = await fetch(request);
const result = await response.json();
console.log("Success:", result);
} catch (error) {
console.error("Error:", error);
}
}
const request1 = new Request("https://example.org/post", {
method: "POST",
headers: {
"Content-Type": "application/json",
},
body: JSON.stringify({ username: "example1" }),
});
const request2 = new Request(request1, {
body: JSON.stringify({ username: "example2" }),
});
post(request1);
post(request2);
Canceling a request
To make a request cancelable, create an AbortController
, and assign its AbortSignal
to the request's signal
property.
To cancel the request, call the controller's abort()
method. The fetch()
call will reject the promise with an AbortError
exception.
const controller = new AbortController();
const fetchButton = document.querySelector("#fetch");
fetchButton.addEventListener("click", async () => {
try {
console.log("Starting fetch");
const response = await fetch("https://example.org/get", {
signal: controller.signal,
});
console.log(`Response: ${response.status}`);
} catch (e) {
console.error(`Error: ${e}`);
}
});
const cancelButton = document.querySelector("#cancel");
cancelButton.addEventListener("click", () => {
controller.abort();
console.log("Canceled fetch");
});
If the request is aborted after the fetch()
call has been fulfilled but before the response body has been read, then attempting to read the response body will reject with an AbortError
exception.
async function get() {
const controller = new AbortController();
const request = new Request("https://example.org/get", {
signal: controller.signal,
});
const response = await fetch(request);
controller.abort();
// The next line will throw `AbortError`
const text = await response.text();
console.log(text);
}
Handling the response
As soon as the browser has received the response status and headers from the server (and potentially before the response body itself has been received), the promise returned by fetch()
is fulfilled with a Response
object.
Checking response status
The promise returned by fetch()
will reject on some errors, such as a network error or a bad scheme. However, if the server responds with an error like 404
, then fetch()
fulfills with a Response
, so we have to check the status before we can read the response body.
The Response.status
property tells us the numerical status code, and the Response.ok
property returns true
if the status is in the 200 range.
A common pattern is to check the value of ok
and throw if it is false
:
async function getData() {
const url = "https://example.org/products.json";
try {
const response = await fetch(url);
if (!response.ok) {
throw new Error(`Response status: ${response.status}`);
}
// ...
} catch (error) {
console.error(error.message);
}
}
Checking the response type
Responses have a type
property that can be one of the following:
basic
: the request was a same-origin request.cors
: the request was a cross-origin CORS request.opaque
: the request was a cross-origin simple request made with theno-cors
mode.opaqueredirect
: the request set theredirect
option tomanual
, and the server returned a redirect status.
The type determines the possible contents of the response, as follows:
- Basic responses exclude response headers from the Forbidden response header name list.
- CORS responses include only response headers from the CORS-safelisted response header list.
- Opaque responses and opaque redirect responses have a
status
of0
, an empty header list, and anull
body.
Checking headers
Just like the request, the response has a headers
property which is a Headers
object, and this contains any response headers that are exposed to scripts, subject to the exclusions made based on the response type.
A common use case for this is to check the content type before trying to read the body:
async function fetchJSON(request) {
try {
const response = await fetch(request);
const contentType = response.headers.get("content-type");
if (!contentType || !contentType.includes("application/json")) {
throw new TypeError("Oops, we haven't got JSON!");
}
// Otherwise, we can read the body as JSON
} catch (error) {
console.error("Error:", error);
}
}
Reading the response body
The Response
interface provides a number of methods to retrieve the entire body contents in a variety of different formats:
These are all asynchronous methods, returning a Promise
which will be fulfilled with the body content.
In this example, we fetch an image and read it as a Blob
, which we can then use to create an object URL:
const image = document.querySelector("img");
const url = "flowers.jpg";
async function setImage() {
try {
const response = await fetch(url);
if (!response.ok) {
throw new Error(`Response status: ${response.status}`);
}
const blob = await response.blob();
const objectURL = URL.createObjectURL(blob);
image.src = objectURL;
} catch (e) {
console.error(e);
}
}
The method will throw an exception if the response body is not in the appropriate format: for example, if you call json()
on a response that can't be parsed as JSON.
Streaming the response body
Request and response bodies are actually ReadableStream
objects, and whenever you read them, you're streaming the content. This is good for memory efficiency, because the browser doesn't have to buffer the entire response in memory before the caller retrieves it using a method like json()
.
This also means that the caller can process the content incrementally as it is received.
For example, consider a GET
request that fetches a large text file and processes it in some way, or displays it to the user:
const url = "https://www.example.org/a-large-file.txt";
async function fetchText(url) {
try {
const response = await fetch(url);
if (!response.ok) {
throw new Error(`Response status: ${response.status}`);
}
const text = await response.text();
console.log(text);
} catch (e) {
console.error(e);
}
}
If we use Response.text()
, as above, we must wait until the whole file has been received before we can process any of it.
If we stream the response instead, we can process chunks of the body as they are received from the network:
const url = "https://www.example.org/a-large-file.txt";
async function fetchTextAsStream(url) {
try {
const response = await fetch(url);
if (!response.ok) {
throw new Error(`Response status: ${response.status}`);
}
const stream = response.body.pipeThrough(new TextDecoderStream());
for await (const value of stream) {
console.log(value);
}
} catch (e) {
console.error(e);
}
}
In this example, we iterate asynchronously over the stream, processing each chunk as it arrives.
Note that when you access the body directly like this, you get the raw bytes of the response and must transform it yourself. In this case we call ReadableStream.pipeThrough()
to pipe the response through a TextDecoderStream
, which decodes the UTF-8-encoded body data as text.
Processing a text file line by line
In the example below, we fetch a text resource and process it line by line, using a regular expression to look for line endings. For simplicity, we assume the text is UTF-8, and don't handle fetch errors:
async function* makeTextFileLineIterator(fileURL) {
const response = await fetch(fileURL);
const reader = response.body.pipeThrough(new TextDecoderStream()).getReader();
let { value: chunk, done: readerDone } = await reader.read();
chunk = chunk || "";
const newline = /\r?\n/gm;
let startIndex = 0;
let result;
while (true) {
const result = newline.exec(chunk);
if (!result) {
if (readerDone) break;
const remainder = chunk.substr(startIndex);
({ value: chunk, done: readerDone } = await reader.read());
chunk = remainder + (chunk || "");
startIndex = newline.lastIndex = 0;
continue;
}
yield chunk.substring(startIndex, result.index);
startIndex = newline.lastIndex;
}
if (startIndex < chunk.length) {
// Last line didn't end in a newline char
yield chunk.substring(startIndex);
}
}
async function run(urlOfFile) {
for await (const line of makeTextFileLineIterator(urlOfFile)) {
processLine(line);
}
}
function processLine(line) {
console.log(line);
}
run("https://www.example.org/a-large-file.txt");
Locked and disturbed streams
The consequences of request and response bodies being streams are that:
- if a reader has been attached to a stream using
ReadableStream.getReader()
, then the stream is locked, and nothing else can read the stream. - if any content has been read from the stream, then the stream is disturbed, and nothing else can read from the stream.
This means it's not possible to read the same response (or request) body more than once:
async function getData() {
const url = "https://example.org/products.json";
try {
const response = await fetch(url);
if (!response.ok) {
throw new Error(`Response status: ${response.status}`);
}
const json1 = await response.json();
const json2 = await response.json(); // will throw
} catch (error) {
console.error(error.message);
}
}
If you do need to read the body more than once, you must call Response.clone()
before reading the body:
async function getData() {
const url = "https://example.org/products.json";
try {
const response1 = await fetch(url);
if (!response1.ok) {
throw new Error(`Response status: ${response1.status}`);
}
const response2 = response1.clone();
const json1 = await response1.json();
const json2 = await response2.json();
} catch (error) {
console.error(error.message);
}
}
This is a common pattern when implementing an offline cache with service workers. The service worker wants to return the response to the app, but also to cache the response. So it clones the response, returns the original, and caches the clone:
async function cacheFirst(request) {
const cachedResponse = await caches.match(request);
if (cachedResponse) {
return cachedResponse;
}
try {
const networkResponse = await fetch(request);
if (networkResponse.ok) {
const cache = await caches.open("MyCache_1");
cache.put(request, networkResponse.clone());
}
return networkResponse;
} catch (error) {
return Response.error();
}
}
self.addEventListener("fetch", (event) => {
if (precachedResources.includes(url.pathname)) {
event.respondWith(cacheFirst(event.request));
}
});