Human-friendly and powerful HTTP request library for Node.js
Moving from Request? (Note that Request is unmaintained)
See how Got compares to other HTTP libraries
For browser usage, we recommend Ky by the same people.
Support questions should be asked here.
- Promise API
- Stream API
- Pagination API
- HTTP2 support
- Request cancelation
- RFC compliant caching
- Follows redirects
- Retries on failure
- Progress events
- Handles gzip/deflate/brotli
- Timeout handling
- Errors with metadata
- JSON mode
- WHATWG URL support
- HTTPS API
- Hooks
- Instances with custom defaults
- Types
- Composable
- Plugins
- Used by 4K+ packages and 1.8M+ repos
- Actively maintained
- Trusted by many companies
$ npm install got
const got = require('got');
(async () => {
try {
const response = await got('https://sindresorhus.com');
console.log(response.body);
//=> '<!doctype html> ...'
} catch (error) {
console.log(error.response.body);
//=> 'Internal server error ...'
}
})();
const got = require('got');
(async () => {
const {body} = await got.post('https://httpbin.org/anything', {
json: {
hello: 'world'
},
responseType: 'json'
});
console.log(body.data);
//=> {hello: 'world'}
})();
See JSON mode for more details.
const stream = require('stream');
const {promisify} = require('util');
const fs = require('fs');
const got = require('got');
const pipeline = promisify(stream.pipeline);
(async () => {
await pipeline(
got.stream('https://sindresorhus.com'),
fs.createWriteStream('index.html')
);
// For POST, PUT, PATCH, and DELETE methods, `got.stream` returns a `stream.Writable`.
await pipeline(
fs.createReadStream('index.html'),
got.stream.post('https://sindresorhus.com')
);
})();
Tip: from.pipe(to)
doesn't forward errors. Instead, use stream.pipeline(from, ..., to, callback)
.
Note: While got.post('https://example.com')
resolves, got.stream.post('https://example.com')
will hang indefinitely until a body is provided. If there's no body on purpose, remember to .end()
the stream or set the body
option to an empty string.
It's a GET
request by default, but can be changed by using different methods or via options.method
.
By default, Got will retry on failure. To disable this option, set options.retry
to 0
.
Returns a Promise giving a Response object or a Got Stream if options.isStream
is set to true.
Type: string | object
The URL to request, as a string, a https.request
options object, or a WHATWG URL
.
Properties from options
will override properties in the parsed url
.
If no protocol is specified, it will throw a TypeError
.
Note: The query string is not parsed as search params. Example:
got('https://example.com/?query=a b'); //=> https://example.com/?query=a%20b
got('https://example.com/', {searchParams: {query: 'a b'}}); //=> https://example.com/?query=a+b
// The query string is overridden by `searchParams`
got('https://example.com/?query=a b', {searchParams: {query: 'a b'}}); //=> https://example.com/?query=a+b
Type: object
Any of the https.request
options.
Note: Legacy URL support is disabled. options.path
is supported only for backwards compatibility. Use options.pathname
and options.searchParams
instead. options.auth
has been replaced with options.username
& options.password
.
Type: string
Default: GET
The HTTP method used to make the request.
Type: string | URL
When specified, prefixUrl
will be prepended to url
. The prefix can be any valid URL, either relative or absolute.
A trailing slash /
is optional - one will be added automatically.
Note: prefixUrl
will be ignored if the url
argument is a URL instance.
Note: Leading slashes in input
are disallowed when using this option to enforce consistency and avoid confusion. For example, when the prefix URL is https://example.com/foo
and the input is /bar
, there's ambiguity whether the resulting URL would become https://example.com/foo/bar
or https://example.com/bar
. The latter is used by browsers.
Tip: Useful when used with got.extend()
to create niche-specific Got instances.
Tip: You can change prefixUrl
using hooks as long as the URL still includes the prefixUrl
. If the URL doesn't include it anymore, it will throw.
const got = require('got');
(async () => {
await got('unicorn', {prefixUrl: 'https://cats.com'});
//=> 'https://cats.com/unicorn'
const instance = got.extend({
prefixUrl: 'https://google.com'
});
await instance('unicorn', {
hooks: {
beforeRequest: [
options => {
options.prefixUrl = 'https://cats.com';
}
]
}
});
//=> 'https://cats.com/unicorn'
})();
Type: object
Default: {}
Request headers.
Existing headers will be overwritten. Headers set to undefined
will be omitted.
Type: boolean
Default: false
Returns a Stream
instead of a Promise
. This is equivalent to calling got.stream(url, options?)
.
Type: string | Buffer | stream.Readable
or form-data
instance
Note #1: The body
option cannot be used with the json
or form
option.
Note #2: If you provide this option, got.stream()
will be read-only.
Note #3: If you provide a payload with the GET
or HEAD
method, it will throw a TypeError
unless the method is GET
and the allowGetBody
option is set to true
.
Note #4: This option is not enumerable and will not be merged with the instance defaults.
The content-length
header will be automatically set if body
is a string
/ Buffer
/ form-data
instance, and content-length
and transfer-encoding
are not manually set in options.headers
.
Since Got 12, the content-length
is not automatically set when body
is a fs.createReadStream
.
Type: object | Array | number | string | boolean | null
(JSON-serializable values)
Note #1: If you provide this option, got.stream()
will be read-only.
Note #2: This option is not enumerable and will not be merged with the instance defaults.
JSON body. If the Content-Type
header is not set, it will be set to application/json
.
Type: object
User data. context
is shallow merged and enumerable. If it contains non-enumerable properties they will NOT be merged.
It's very useful for storing auth tokens:
const got = require('got');
const instance = got.extend({
hooks: {
beforeRequest: [
options => {
if (!options.context || !options.context.token) {
throw new Error('Token required');
}
options.headers.token = options.context.token;
}
]
}
});
(async () => {
const context = {
token: 'secret'
};
const response = await instance('https://httpbin.org/headers', {context});
// Let's see the headers
console.log(response.body);
})();
Type: string
Default: 'text'
Note: When using streams, this option is ignored.
The parsing method. Can be 'text'
, 'json'
or 'buffer'
.
The promise also has .text()
, .json()
and .buffer()
methods which return another Got promise for the parsed body.
It's like setting the options to {responseType: 'json', resolveBodyOnly: true}
but without affecting the main Got promise.
Example:
(async () => {
const responsePromise = got(url);
const bufferPromise = responsePromise.buffer();
const jsonPromise = responsePromise.json();
const [response, buffer, json] = await Promise.all([responsePromise, bufferPromise, jsonPromise]);
// `response` is an instance of Got Response
// `buffer` is an instance of Buffer
// `json` is an object
})();
// This
const body = await got(url).json();
// is semantically the same as this
const body = await got(url, {responseType: 'json', resolveBodyOnly: true});
Note: buffer
will return the raw body buffer. Modifying it will also alter the result of promise.text()
and promise.json()
. Before overwriting the buffer, please copy it first via Buffer.from(buffer)
. See nodejs/node#27080
Type: (text: string) => unknown
Default: (text: string) => JSON.parse(text)
A function used to parse JSON responses.
Example
Using bourne
to prevent prototype pollution:
const got = require('got');
const Bourne = require('@hapi/bourne');
(async () => {
const parsed = await got('https://example.com', {
parseJson: text => Bourne.parse(text)
}).json();
console.log(parsed);
})();
Type: (object: unknown) => string
Default: (object: unknown) => JSON.stringify(object)
A function used to stringify the body of JSON requests.
Examples
Ignore properties starting with _
:
const got = require('got');
(async () => {
await got.post('https://example.com', {
stringifyJson: object => JSON.stringify(object, (key, value) => {
if (key.startsWith('_')) {
return;
}
return value;
}),
json: {
some: 'payload',
_ignoreMe: 1234
}
});
})();
All numbers as strings:
const got = require('got');
(async () => {
await got.post('https://example.com', {
stringifyJson: object => JSON.stringify(object, (key, value) => {
if (typeof value === 'number') {
return value.toString();
}
return value;
}),
json: {
some: 'payload',
number: 1
}
});
})();
Type: boolean
Default: false
When set to true
the promise will return the Response body instead of the Response object.
Type: object
| tough.CookieJar
instance
Note: If you provide this option, options.headers.cookie
will be overridden.
Cookie support. You don't have to care about parsing or how to store them. Example.
Type: Function<Promise>
The function takes two arguments: rawCookie
(string
) and url
(string
).
Type: Function<Promise>
The function takes one argument: url
(string
).
Type: boolean
Default: false
Ignore invalid cookies instead of throwing an error. Only useful when the cookieJar
option has been set. Not recommended.
Type: string
Default: 'utf8'
Encoding to be used on setEncoding
of the response data.
To get a Buffer
, you need to set responseType
to buffer
instead. Don't set this option to null
.
Note: This doesn't affect streams! Instead, you need to do got.stream(...).setEncoding(encoding)
.
Type: object
Note #1: If you provide this option, got.stream()
will be read-only.
Note #2: This option is not enumerable and will not be merged with the instance defaults.
The form body is converted to a query string using (new URLSearchParams(object)).toString()
.
If the Content-Type
header is not present, it will be set to application/x-www-form-urlencoded
.
Type: string | object<string, string | number> | URLSearchParams
Query string that will be added to the request URL. This will override the query string in url
.
If you need to pass in an array, you can do it using a URLSearchParams
instance:
const got = require('got');
const searchParams = new URLSearchParams([['key', 'a'], ['key', 'b']]);
got('https://example.com', {searchParams});
console.log(searchParams.toString());
//=> 'key=a&key=b'
There are some exceptions in regards to URLSearchParams
behavior:
Note #1: null
values are not stringified, an empty string is used instead.
Note #2: undefined
values are not stringified, the entry is skipped instead.
Type: number | object
Milliseconds to wait for the server to end the response before aborting the request with got.TimeoutError
error (a.k.a. request
property). By default, there's no timeout.
This also accepts an object
with the following fields to constrain the duration of each phase of the request lifecycle:
lookup
starts when a socket is assigned and ends when the hostname has been resolved. Does not apply when using a Unix domain socket.connect
starts whenlookup
completes (or when the socket is assigned if lookup does not apply to the request) and ends when the socket is connected.secureConnect
starts whenconnect
completes and ends when the handshaking process completes (HTTPS only).socket
starts when the socket is connected. See request.setTimeout.response
starts when the request has been written to the socket and ends when the response headers are received.send
starts when the socket is connected and ends with the request has been written to the socket.request
starts when the request is initiated and ends when the response's end event fires.
Type: number | object
Default:
- limit:
2
- calculateDelay:
({attemptCount, retryOptions, error, computedValue}) => computedValue | Promise<computedValue>
- methods:
GET
PUT
HEAD
DELETE
OPTIONS
TRACE
- statusCodes:
408
413
429
500
502
503
504
521
522
524
- maxRetryAfter:
undefined
- errorCodes:
ETIMEDOUT
ECONNRESET
EADDRINUSE
ECONNREFUSED
EPIPE
ENOTFOUND
ENETUNREACH
EAI_AGAIN
An object representing limit
, calculateDelay
, methods
, statusCodes
, maxRetryAfter
and errorCodes
fields for maximum retry count, retry handler, allowed methods, allowed status codes, maximum Retry-After
time and allowed error codes.
If maxRetryAfter
is set to undefined
, it will use options.timeout
.
If Retry-After
header is greater than maxRetryAfter
, it will cancel the request.
Delays between retries counts with function 1000 * Math.pow(2, retry - 1) + Math.random() * 100
, where retry
is attempt number (starts from 1).
The calculateDelay
property is a function
that receives an object with attemptCount
, retryOptions
, error
and computedValue
properties for current retry count, the retry options, error and default computed value. The function must return a delay in milliseconds (or a Promise resolving with it) (0
return value cancels retry).
Note: The calculateDelay
function is responsible for the entire retry mechanism, including the limit
property. To support the limit
property, you need to check whether computedValue
is different than 0
.
By default, it retries only on the specified methods, status codes, and on these network errors:
ETIMEDOUT
: One of the timeout limits were reached.ECONNRESET
: Connection was forcibly closed by a peer.EADDRINUSE
: Could not bind to any free port.ECONNREFUSED
: Connection was refused by the server.EPIPE
: The remote side of the stream being written has been closed.ENOTFOUND
: Couldn't resolve the hostname to an IP address.ENETUNREACH
: No internet connection.EAI_AGAIN
: DNS lookup timed out.
You can retry Got streams too. The implementation looks like this:
const got = require('got');
const fs = require('fs');
let writeStream;
const fn = (retryCount = 0) => {
const stream = got.stream('https://example.com');
stream.retryCount = retryCount;
if (writeStream) {
writeStream.destroy();
}
writeStream = fs.createWriteStream('example.com');
stream.pipe(writeStream);
// If you don't attach the listener, it will NOT make a retry.
// It automatically checks the listener count so it knows whether to retry or not :)
stream.once('retry', fn);
};
fn();
Type: boolean
Default: true
Defines if redirect responses should be followed automatically.
Note that if a 303
is sent by the server in response to any request type (POST
, DELETE
, etc.), Got will automatically request the resource pointed to in the location header via GET
. This is in accordance with the spec.
Type: boolean
Default: true
By default, redirects will use method rewriting. For example, when sending a POST request and receiving a 302
, it will resend the body to the new location using the same HTTP method (POST
in this case).
Type: boolean
Default: false
Note: The RFC 7321 doesn't specify any particular behavior for the GET method having a payload, therefore it's considered an anti-pattern.
Set this to true
to allow sending body for the GET
method. However, the HTTP/2 specification says that An HTTP GET request includes request header fields and no payload body
, therefore when using the HTTP/2 protocol this option will have no effect. This option is only meant to interact with non-compliant servers when you have no other choice.
Type: number
Default: 10
If exceeded, the request will be aborted and a MaxRedirectsError
will be thrown.
Type: boolean
Default: true
Decompress the response automatically. This will set the accept-encoding
header to gzip, deflate, br
on Node.js 11.7.0+ or gzip, deflate
for older Node.js versions, unless you set it yourself.
Brotli (br
) support requires Node.js 11.7.0 or later.
If this is disabled, a compressed response is returned as a Buffer
. This may be useful if you want to handle decompression yourself or stream the raw compressed data.
Type: object | false
Default: false
Cache adapter instance for storing cached response data.
Type: object | undefined
Default: {}
Cache options used for the specified request.
Type: CacheableLookup | false
Default: false
An instance of CacheableLookup
used for making DNS lookups. Useful when making lots of requests to different public hostnames.
Note: This should stay disabled when making requests to internal hostnames such as localhost
, database.local
etc.
CacheableLookup
uses dns.resolver4(..)
and dns.resolver6(...)
under the hood and fall backs to dns.lookup(...)
when the first two fail, which may lead to additional delay.
Type: 'auto' | 'ipv4' | 'ipv6'
Default: 'auto'
Indicates which DNS record family to use.
Values:
auto
: IPv4 (if present) or IPv6ipv4
: Only IPv4ipv6
: Only IPv6
Note: If you are using the undocumented option family
, dnsLookupIpVersion
will override it.
// `api6.ipify.org` will be resolved as IPv4 and the request will be over IPv4 (the website will respond with your public IPv4)
await got('https://api6.ipify.org', {
dnsLookupIpVersion: 'ipv4'
});
// `api6.ipify.org` will be resolved as IPv6 and the request will be over IPv6 (the website will respond with your public IPv6)
await got('https://api6.ipify.org', {
dnsLookupIpVersion: 'ipv6'
});
Type: Function
Default: dns.lookup
Custom DNS resolution logic.
The function signature is the same as dns.lookup
.
Type: Function
Default: http.request | https.request
(Depending on the protocol)
Custom request function. The main purpose of this is to support HTTP2 using a wrapper.
Type: boolean
Default: false
If set to true
, Got will additionally accept HTTP2 requests.
It will choose either HTTP/1.1 or HTTP/2 depending on the ALPN protocol.
Note: This option requires Node.js 15 or later as HTTP2 support on older Node.js versions are very buggy.
Note: Overriding options.request
will disable HTTP2 support.
const got = require('got');
(async () => {
const {headers} = await got('https://nghttp2.org/httpbin/anything', {http2: true});
console.log(headers.via);
//=> '2 nghttpx'
})();
Type: boolean
Default: true
Determines if a got.HTTPError
is thrown for unsuccessful responses.
If this is disabled, requests that encounter an error status code will be resolved with the response
instead of throwing. This may be useful if you are checking for resource availability and are expecting error responses.
Type: object
An object representing http
, https
and http2
keys for http.Agent
, https.Agent
and http2wrapper.Agent
instance. This is necessary because a request to one protocol might redirect to another. In such a scenario, Got will switch over to the right protocol agent for you.
If a key is not present, it will default to a global agent.
const got = require('got');
const HttpAgent = require('agentkeepalive');
const {HttpsAgent} = HttpAgent;
got('https://sindresorhus.com', {
agent: {
http: new HttpAgent(),
https: new HttpsAgent()
}
});
Type: object<string, Function[]>
Hooks allow modifications during the request lifecycle. Hook functions may be async and are run serially.
Type: Function[]
Default: []
Called with plain request options, right before their normalization. This is especially useful in conjunction with got.extend()
when the input needs custom handling.
See the Request migration guide for an example.
Note #1: This hook must be synchronous!
Note #2: Errors in this hook will be converted into an instances of RequestError
.
Note #3: The options object may not have a url
property. To modify it, use a beforeRequest
hook instead.
Type: Function[]
Default: []
Called with normalized request options. Got will make no further changes to the request before it is sent. This is especially useful in conjunction with got.extend()
when you want to create an API client that, for example, uses HMAC-signing.
Note: Changing options.json
or options.form
has no effect on the request, you should change options.body
instead. If needed, update the options.headers
accordingly. Example:
const got = require('got');
got.post({
json: {payload: 'old'},
hooks: {
beforeRequest: [
options => {
options.body = JSON.stringify({payload: 'new'});
options.headers['content-length'] = options.body.length.toString();
}
]
}
});
Tip: You can override the request
function by returning a ClientRequest
-like instance or a IncomingMessage
-like instance. This is very useful when creating a custom cache mechanism.
Type: Function[]
Default: []
Called with normalized request options and the redirect response. Got will make no further changes to the request. This is especially useful when you want to avoid dead sites. Example:
const got = require('got');
got('https://example.com', {
hooks: {
beforeRedirect: [
(options, response) => {
if (options.hostname === 'deadSite') {
options.hostname = 'fallbackSite';
}
}
]
}
});
Type: Function[]
Default: []
Note: When using streams, this hook is ignored.
Called with normalized request options, the error and the retry count. Got will make no further changes to the request. This is especially useful when some extra work is required before the next try. Example:
const got = require('got');
got.post('https://example.com', {
hooks: {
beforeRetry: [
(options, error, retryCount) => {
if (error.response.statusCode === 413) { // Payload too large
options.body = getNewBody();
}
}
]
}
});
Note: When retrying in a afterResponse
hook, all remaining beforeRetry
hooks will be called without the error
and retryCount
arguments.
Type: Function[]
Default: []
Note: When using streams, this hook is ignored.
Called with response object and a retry function. Calling the retry function will trigger beforeRetry
hooks.
Each function should return the response. This is especially useful when you want to refresh an access token. Example:
const got = require('got');
const instance = got.extend({
hooks: {
afterResponse: [
(response, retryWithMergedOptions) => {
if (response.statusCode === 401) { // Unauthorized
const updatedOptions = {
headers: {
token: getNewToken() // Refresh the access token
}
};
// Save for further requests
instance.defaults.options = got.mergeOptions(instance.defaults.options, updatedOptions);
// Make a new retry
return retryWithMergedOptions(updatedOptions);
}
// No changes otherwise
return response;
}
],
beforeRetry: [
(options, error, retryCount) => {
// This will be called on `retryWithMergedOptions(...)`
}
]
},
mutableDefaults: true
});
Type: Function[]
Default: []
Called with an Error
instance. The error is passed to the hook right before it's thrown. This is especially useful when you want to have more detailed errors.
Note: Errors thrown while normalizing input options are thrown directly and not part of this hook.
const got = require('got');
got('https://api.github.com/some-endpoint', {
hooks: {
beforeError: [
error => {
const {response} = error;
if (response && response.body) {
error.name = 'GitHubError';
error.message = `${response.body.message} (${response.statusCode})`;
}
return error;
}
]
}
});
Type: object
Note: We're looking for feedback, any ideas on how to improve the API are welcome.
Type: Function
Default: response => JSON.parse(response.body)
A function that transform Response
into an array of items. This is where you should do the parsing.
Type: Function
Default: Link
header logic
The function takes three arguments:
response
- The current response object.allItems
- An array of the emitted items.currentItems
- Items from the current response.
It should return an object representing Got options pointing to the next page. The options are merged automatically with the previous request, therefore the options returned pagination.paginate(...)
must reflect changes only. If there are no more pages, false
should be returned.
For example, if you want to stop when the response contains less items than expected, you can use something like this:
const got = require('got');
(async () => {
const limit = 10;
const items = got.paginate('https://example.com/items', {
searchParams: {
limit,
offset: 0
},
pagination: {
paginate: (response, allItems, currentItems) => {
const previousSearchParams = response.request.options.searchParams;
const previousOffset = previousSearchParams.get('offset');
if (currentItems.length < limit) {
return false;
}
return {
searchParams: {
...previousSearchParams,
offset: Number(previousOffset) + limit,
}
};
}
}
});
console.log('Items from all pages:', items);
})();
Type: Function
Default: (item, allItems, currentItems) => true
Checks whether the item should be emitted or not.
Type: Function
Default: (item, allItems, currentItems) => true
Checks whether the pagination should continue.
For example, if you need to stop before emitting an entry with some flag, you should use (item, allItems, currentItems) => !item.flag
. If you want to stop after emitting the entry, you should use (item, allItems, currentItems) => allItems.some(entry => entry.flag)
instead.
Type: number
Default: Infinity
The maximum amount of items that should be emitted.
Type: number
Default: 0
Milliseconds to wait before the next request is triggered.
Type: number
Default: 10000
The maximum amount of request that should be triggered. Retries on failure are not counted towards this limit.
For example, it can be helpful during development to avoid an infinite number of requests.
Type: boolean
Default: true
Defines how the parameter allItems
in pagination.paginate, pagination.filter and pagination.shouldContinue is managed. When set to false
, the parameter allItems
is always an empty array.
This option can be helpful to save on memory usage when working with a large dataset.
Type: string
The IP address used to send the request from.
Note: If the request is not HTTPS, these options will be ignored.
Type: string | Buffer | Array<string | Buffer>
Override the default Certificate Authorities (from Mozilla)
// Single Certificate Authority
got('https://example.com', {
https: {
certificateAuthority: fs.readFileSync('./my_ca.pem')
}
});
Type: string | Buffer | Array<string | Buffer> | object[]
Private keys in PEM format.
PEM allows the option of private keys being encrypted. Encrypted keys will be decrypted with options.https.passphrase
.
Multiple keys with different passphrases can be provided as an array of {pem: <string | Buffer>, passphrase: <string>}
Type: string | Buffer | (string | Buffer)[]
Certificate chains in PEM format.
One cert chain should be provided per private key (options.https.key
).
When providing multiple cert chains, they do not have to be in the same order as their private keys in options.https.key
.
If the intermediate certificates are not provided, the peer will not be able to validate the certificate, and the handshake will fail.
Type: string
The passphrase to decrypt the options.https.key
(if different keys have different passphrases refer to options.https.key
documentation).
Type: string | Buffer | Array<string | Buffer | object>
PFX or PKCS12 encoded private key and certificate chain. Using options.https.pfx
is an alternative to providing options.https.key
and options.https.certificate
individually. A PFX is usually encrypted, and if it is, options.https.passphrase
will be used to decrypt it.
Multiple PFX's can be be provided as an array of unencrypted buffers or an array of objects like:
{
buffer: string | Buffer,
passphrase?: string
}
This object form can only occur in an array. If the provided buffers are encrypted, object.passphrase
can be used to decrypt them. If object.passphrase
is not provided, options.https.passphrase
will be used for decryption.
// Single key with certificate
got('https://example.com', {
https: {
key: fs.readFileSync('./client_key.pem'),
certificate: fs.readFileSync('./client_cert.pem')
}
});
// Multiple keys with certificates (out of order)
got('https://example.com', {
https: {
key: [
fs.readFileSync('./client_key1.pem'),
fs.readFileSync('./client_key2.pem')
],
certificate: [
fs.readFileSync('./client_cert2.pem'),
fs.readFileSync('./client_cert1.pem')
]
}
});
// Single key with passphrase
got('https://example.com', {
https: {
key: fs.readFileSync('./client_key.pem'),
certificate: fs.readFileSync('./client_cert.pem'),
passphrase: 'client_key_passphrase'
}
});
// Multiple keys with different passphrases
got('https://example.com', {
https: {
key: [
{pem: fs.readFileSync('./client_key1.pem'), passphrase: 'passphrase1'},
{pem: fs.readFileSync('./client_key2.pem'), passphrase: 'passphrase2'},
],
certificate: [
fs.readFileSync('./client_cert1.pem'),
fs.readFileSync('./client_cert2.pem')
]
}
});
// Single encrypted PFX with passphrase
got('https://example.com', {
https: {
pfx: fs.readFileSync('./fake.pfx'),
passphrase: 'passphrase'
}
});
// Multiple encrypted PFX's with different passphrases
got('https://example.com', {
https: {
pfx: [
{
buffer: fs.readFileSync('./key1.pfx'),
passphrase: 'passphrase1'
},
{
buffer: fs.readFileSync('./key2.pfx'),
passphrase: 'passphrase2'
}
]
}
});
// Multiple encrypted PFX's with single passphrase
got('https://example.com', {
https: {
passphrase: 'passphrase',
pfx: [
{
buffer: fs.readFileSync('./key1.pfx')
},
{
buffer: fs.readFileSync('./key2.pfx')
}
]
}
});
Type: boolean
Default: true
If set to false
, all invalid SSL certificates will be ignored and no error will be thrown.
If set to true
, it will throw an error whenever an invalid SSL certificate is detected.
We strongly recommend to have this set to true
for security reasons.
const got = require('got');
(async () => {
// Correct:
await got('https://example.com', {
https: {
rejectUnauthorized: true
}
});
// You can disable it when developing an HTTPS app:
await got('https://localhost', {
https: {
rejectUnauthorized: false
}
});
// Never do this:
await got('https://example.com', {
https: {
rejectUnauthorized: false
}
});
Type: Function
Signature: (hostname: string, certificate: DetailedPeerCertificate) => Error | undefined
Default: tls.checkServerIdentity
(from the tls
module)
This function enable a custom check of the certificate.
Note: In order to have the function called the certificate must not be expired
, self-signed
or with an untrusted-root
.
The function parameters are:
hostname
: The server hostname (used when connecting)certificate
: The server certificate
The function must return undefined
if the check succeeded or an Error
if it failed.
await got('https://example.com', {
https: {
checkServerIdentity: (hostname, certificate) => {
if (hostname === 'example.com') {
return; // Certificate OK
}
return new Error('Invalid Hostname'); // Certificate NOT OK
}
}
});
The response object will typically be a Node.js HTTP response stream, however, if returned from the cache it will be a response-like object which behaves in the same way.
Type: object
Note: This is not a http.ClientRequest.
options
- The Got options that were set on this request.
Type: string | object | Buffer
(Depending on options.responseType
)
The result of the request.
Type: Buffer
The raw result of the request.
Type: string
The request URL or the final URL after redirects.
Type: string
The remote IP address.
Note: Not available when the response is cached. This is hopefully a temporary limitation, see lukechilds/cacheable-request#86.
Type: string
The original request URL.
Type: object
The object contains the following properties:
start
- Time when the request started.socket
- Time when a socket was assigned to the request.lookup
- Time when the DNS lookup finished.connect
- Time when the socket successfully connected.secureConnect
- Time when the socket securely connected.upload
- Time when the request finished uploading.response
- Time when the request firedresponse
event.end
- Time when the response firedend
event.error
- Time when the request firederror
event.abort
- Time when the request firedabort
event.phases
wait
-timings.socket - timings.start
dns
-timings.lookup - timings.socket
tcp
-timings.connect - timings.lookup
tls
-timings.secureConnect - timings.connect
request
-timings.upload - (timings.secureConnect || timings.connect)
firstByte
-timings.response - timings.upload
download
-timings.end - timings.response
total
-(timings.end || timings.error || timings.abort) - timings.start
If something has not been measured yet, it will be undefined
.
Note: The time is a number
representing the milliseconds elapsed since the UNIX epoch.
Type: boolean
Whether the response was retrieved from the cache.
Type: string[]
The redirect URLs.
Type: number
The number of times the request was retried.
Note: Progress events, redirect events and request/response events can also be used with promises.
Note: To access response.isFromCache
you need to use got.stream(url, options).isFromCache
. The value will be undefined until the response
event.
Sets options.isStream
to true
.
Returns a duplex stream with additional events:
request
event to get the request object of the request.
Tip: You can use request
event to abort request:
got.stream('https://github.com')
.on('request', request => setTimeout(() => request.destroy(), 50));
The response
event to get the response object of the final request.
The redirect
event to get the response object of a redirect. The second argument is options for the next request to the redirect location.
Progress events for uploading (sending a request) and downloading (receiving a response). The progress
argument is an object like:
{
percent: 0.1,
transferred: 1024,
total: 10240
}
If the content-length
header is missing, total
will be undefined
.
(async () => {
const response = await got('https://sindresorhus.com')
.on('downloadProgress', progress => {
// Report download progress
})
.on('uploadProgress', progress => {
// Report upload progress
});
console.log(response);
})();
To enable retrying on a Got stream, it is required to have a retry
handler attached.
When this event is emitted, you should reset the stream you were writing to and prepare the body again.
See the retry
option for an example implementation.
Type: string
The remote IP address.
Type: boolean
Indicates whether the request has been aborted or not.
The same as response.timings
.
The same as response.isFromCache
.
The same as response.socket
.
The emitted error
is an instance of RequestError
.
Returns an async iterator:
(async () => {
const countLimit = 10;
const pagination = got.paginate('https://api.github.com/repos/sindresorhus/got/commits', {
pagination: {countLimit}
});
console.log(`Printing latest ${countLimit} Got commits (newest to oldest):`);
for await (const commitData of pagination) {
console.log(commitData.commit.message);
}
})();
See options.pagination
for more pagination options.
Returns a Promise for an array of all results:
(async () => {
const countLimit = 10;
const results = await got.paginate.all('https://api.github.com/repos/sindresorhus/got/commits', {
pagination: {countLimit}
});
console.log(`Printing latest ${countLimit} Got commits (newest to oldest):`);
console.log(results);
})();
See options.pagination
for more pagination options.
Sets options.method
to the method name and makes a request.
Configure a new got
instance with default options
. The options
are merged with the parent instance's defaults.options
using got.mergeOptions
. You can access the resolved options with the .defaults
property on the instance.
const client = got.extend({
prefixUrl: 'https://example.com',
headers: {
'x-unicorn': 'rainbow'
}
});
client.get('demo');
/* HTTP Request =>
* GET /demo HTTP/1.1
* Host: example.com
* x-unicorn: rainbow
*/
(async () => {
const client = got.extend({
prefixUrl: 'httpbin.org',
headers: {
'x-foo': 'bar'
}
});
const {headers} = await client.get('headers').json();
//=> headers['x-foo'] === 'bar'
const jsonClient = client.extend({
responseType: 'json',
resolveBodyOnly: true,
headers: {
'x-baz': 'qux'
}
});
const {headers: headers2} = await jsonClient.get('headers');
//=> headers2['x-foo'] === 'bar'
//=> headers2['x-baz'] === 'qux'
})();
Additionally, got.extend()
accepts two properties from the defaults
object: mutableDefaults
and handlers
. Example:
// You can now modify `mutableGot.defaults.options`.
const mutableGot = got.extend({mutableDefaults: true});
const mergedHandlers = got.extend({
handlers: [
(options, next) => {
delete options.headers.referer;
return next(options);
}
]
});
Note: Handlers can be asynchronous. The recommended approach is:
const handler = (options, next) => {
if (options.isStream) {
// It's a Stream
return next(options);
}
// It's a Promise
return (async () => {
try {
const response = await next(options);
response.yourOwnProperty = true;
return response;
} catch (error) {
// Every error will be replaced by this one.
// Before you receive any error here,
// it will be passed to the `beforeError` hooks first.
// Note: this one won't be passed to `beforeError` hook. It's final.
throw new Error('Your very own error.');
}
})();
};
const instance = got.extend({handlers: [handler]});
Merges many instances into a single one:
- options are merged using
got.mergeOptions()
(including hooks), - handlers are stored in an array (you can access them through
instance.defaults.handlers
).
const a = {headers: {cat: 'meow'}};
const b = got.extend({
options: {
headers: {
cow: 'moo'
}
}
});
// The same as `got.extend(a).extend(b)`.
// Note `a` is options and `b` is an instance.
got.extend(a, b);
//=> {headers: {cat: 'meow', cow: 'moo'}}
Extends parent options. Avoid using object spread as it doesn't work recursively:
const a = {headers: {cat: 'meow', wolf: ['bark', 'wrrr']}};
const b = {headers: {cow: 'moo', wolf: ['auuu']}};
{...a, ...b} // => {headers: {cow: 'moo', wolf: ['auuu']}}
got.mergeOptions(a, b) // => {headers: {cat: 'meow', cow: 'moo', wolf: ['auuu']}}
Note: Only Got options are merged! Custom user options should be defined via options.context
.
Options are deeply merged to a new object. The value of each key is determined as follows:
- If the new property is not defined, the old value is used.
- If the new property is explicitly set to
undefined
:- If the parent property is a plain
object
, the parent value is deeply cloned. - Otherwise,
undefined
is used.
- If the parent property is a plain
- If the parent value is an instance of
URLSearchParams
:- If the new value is a
string
, anobject
or an instance ofURLSearchParams
, a newURLSearchParams
instance is created. The values are merged usingurlSearchParams.append(key, value)
. The keys defined in the new value override the keys defined in the parent value. Please note thatnull
values point to an empty string andundefined
values will exclude the entry. - Otherwise, the only available value is
undefined
.
- If the new value is a
- If the new property is a plain
object
:- If the parent property is a plain
object
too, both values are merged recursively into a newobject
. - Otherwise, only the new value is deeply cloned.
- If the parent property is a plain
- If the new property is an
Array
, it overwrites the old one with a deep clone of the new property. - Properties that are not enumerable, such as
context
,body
,json
, andform
, will not be merged. - Otherwise, the new value is assigned to the key.
const a = {json: {cat: 'meow'}};
const b = {json: {cow: 'moo'}};
got.mergeOptions(a, b);
//=> {json: {cow: 'moo'}}
Type: object
The Got defaults used in that instance.
Type: Function[]
Default: []
An array of functions. You execute them directly by calling got()
. They are some sort of "global hooks" - these functions are called first. The last handler (it's hidden) is either asPromise
or asStream
, depending on the options.isStream
property.
Each handler takes two arguments:
Returns a Promise
or a Stream
depending on options.isStream
.
const settings = {
handlers: [
(options, next) => {
if (options.isStream) {
// It's a Stream, so we can perform stream-specific actions on it
return next(options)
.on('request', request => {
setTimeout(() => {
request.abort();
}, 50);
});
}
// It's a Promise
return next(options);
}
],
options: got.mergeOptions(got.defaults.options, {
responseType: 'json'
})
};
const jsonGot = got.extend(settings);
Type: boolean
Default: false
A read-only boolean describing whether the defaults are mutable or not. If set to true
, you can update headers over time, for example, update an access token when it expires.
Got exports some handy TypeScript types and interfaces. See the type definition for all the exported types.
TypeScript will automatically infer types for Got instances, but in case you want to define something like dependencies, you can import the available types directly from Got.
import {GotRequestFunction} from 'got';
interface Dependencies {
readonly post: GotRequestFunction
}
When writing hooks, you can refer to their types to keep your interfaces consistent.
import {BeforeRequestHook} from 'got';
const addAccessToken = (accessToken: string): BeforeRequestHook => options => {
options.path = `${options.path}?access_token=${accessToken}`;
}
Each error contains an options
property which are the options Got used to create a request - just to make debugging easier.
Additionally, the errors may have request
(Got Stream) and response
(Got Response) properties depending on which phase of the request failed.
When a request fails. Contains a code
property with error class code, like ECONNREFUSED
. All the errors below inherit this one.
When a cache method fails, for example, if the database goes down or there's a filesystem error.
When reading from response stream fails.
When server response code is 2xx, and parsing body fails. Includes a response
property.
When the request body is a stream and an error occurs while reading from that stream.
When the server response code is not 2xx nor 3xx if options.followRedirect
is true
, but always except for 304. Includes a response
property.
When the server redirects you more than ten times. Includes a response
property.
When given an unsupported protocol.
When the request is aborted due to a timeout. Includes an event
and timings
property.
When the request is aborted with .cancel()
.
The promise returned by Got has a .cancel()
method which when called, aborts the request.
(async () => {
const request = got(url, options);
// β¦
// In another part of the code
if (something) {
request.cancel();
}
// β¦
try {
await request;
} catch (error) {
if (request.isCanceled) { // Or `error instanceof got.CancelError`
// Handle cancelation
}
// Handle other errors
}
})();
When using hooks, simply throw an error to abort the request.
const got = require('got');
(async () => {
const request = got(url, {
hooks: {
beforeRequest: [
() => {
throw new Error('Oops. Request canceled.');
}
]
}
});
try {
await request;
} catch (error) {
// β¦
}
})();
To abort the Got Stream request, just call stream.destroy()
.
const got = require('got');
const stream = got.stream(url);
stream.destroy();
Got implements RFC 7234 compliant HTTP caching which works out of the box in-memory and is easily pluggable with a wide range of storage adapters. Fresh cache entries are served directly from the cache, and stale cache entries are revalidated with If-None-Match
/If-Modified-Since
headers. You can read more about the underlying cache behavior in the cacheable-request
documentation. For DNS cache, Got uses cacheable-lookup
.
You can use the JavaScript Map
type as an in-memory cache:
const got = require('got');
const map = new Map();
(async () => {
let response = await got('https://sindresorhus.com', {cache: map});
console.log(response.isFromCache);
//=> false
response = await got('https://sindresorhus.com', {cache: map});
console.log(response.isFromCache);
//=> true
})();
Got uses Keyv internally to support a wide range of storage adapters. For something more scalable you could use an official Keyv storage adapter:
$ npm install @keyv/redis
const got = require('got');
const KeyvRedis = require('@keyv/redis');
const redis = new KeyvRedis('redis://user:pass@localhost:6379');
got('https://sindresorhus.com', {cache: redis});
Got supports anything that follows the Map API, so it's easy to write your own storage adapter or use a third-party solution.
For example, the following are all valid storage adapters:
const storageAdapter = new Map();
// Or
const storageAdapter = require('./my-storage-adapter');
// Or
const QuickLRU = require('quick-lru');
const storageAdapter = new QuickLRU({maxSize: 1000});
got('https://sindresorhus.com', {cache: storageAdapter});
View the Keyv docs for more information on how to use storage adapters.
You can use the tunnel
package with the agent
option to work with proxies:
const got = require('got');
const tunnel = require('tunnel');
got('https://sindresorhus.com', {
agent: {
https: tunnel.httpsOverHttp({
proxy: {
host: 'localhost'
}
})
}
});
Otherwise, you can use the hpagent
package, which keeps the internal sockets alive to be reused.
const got = require('got');
const {HttpsProxyAgent} = require('hpagent');
got('https://sindresorhus.com', {
agent: {
https: new HttpsProxyAgent({
keepAlive: true,
keepAliveMsecs: 1000,
maxSockets: 256,
maxFreeSockets: 256,
scheduling: 'lifo',
proxy: 'https://localhost:8080'
})
}
});
Alternatively, use global-agent
to configure a global proxy for all HTTP/HTTPS traffic in your program.
Read the http2-wrapper
docs to learn about proxying for HTTP/2.
You can use the tough-cookie
package:
const {promisify} = require('util');
const got = require('got');
const {CookieJar} = require('tough-cookie');
(async () => {
const cookieJar = new CookieJar();
const setCookie = promisify(cookieJar.setCookie.bind(cookieJar));
await setCookie('foo=bar', 'https://example.com');
await got('https://example.com', {cookieJar});
})();
You can use the form-data
package to create POST request with form data:
const fs = require('fs');
const got = require('got');
const FormData = require('form-data');
const form = new FormData();
form.append('my_file', fs.createReadStream('/foo/bar.jpg'));
got.post('https://example.com', {
body: form
});
You can use the oauth-1.0a
package to create a signed OAuth request:
const got = require('got');
const crypto = require('crypto');
const OAuth = require('oauth-1.0a');
const oauth = OAuth({
consumer: {
key: process.env.CONSUMER_KEY,
secret: process.env.CONSUMER_SECRET
},
signature_method: 'HMAC-SHA1',
hash_function: (baseString, key) => crypto.createHmac('sha1', key).update(baseString).digest('base64')
});
const token = {
key: process.env.ACCESS_TOKEN,
secret: process.env.ACCESS_TOKEN_SECRET
};
const url = 'https://api.twitter.com/1.1/statuses/home_timeline.json';
got(url, {
headers: oauth.toHeader(oauth.authorize({url, method: 'GET'}, token)),
responseType: 'json'
});
Requests can also be sent via unix domain sockets. Use the following URL scheme: PROTOCOL://unix:SOCKET:PATH
.
PROTOCOL
-http
orhttps
(optional)SOCKET
- Absolute path to a unix domain socket, for example:/var/run/docker.sock
PATH
- Request path, for example:/v2/keys
const got = require('got');
got('http://unix:/var/run/docker.sock:/containers/json');
// Or without protocol (HTTP by default)
got('unix:/var/run/docker.sock:/containers/json');
Requests to AWS services need to have their headers signed. This can be accomplished by using the got4aws
package. This is an example for querying an "API Gateway" with a signed request.
const got4aws = require('got4aws');;
const awsClient = got4aws();
const response = await awsClient('https://<api-id>.execute-api.<api-region>.amazonaws.com/<stage>/endpoint/path', {
// Request-specific options
});
You can test your requests by using the nock
package to mock an endpoint:
const got = require('got');
const nock = require('nock');
nock('https://sindresorhus.com')
.get('/')
.reply(200, 'Hello world!');
(async () => {
const response = await got('https://sindresorhus.com');
console.log(response.body);
//=> 'Hello world!'
})();
Bear in mind, that by default nock
mocks only one request. Got will retry on failed requests by default, causing a No match for request ...
error. The solution is to either disable retrying (set options.retry
to 0
) or call .persist()
on the mocked request.
const got = require('got');
const nock = require('nock');
const scope = nock('https://sindresorhus.com')
.get('/')
.reply(500, 'Internal server error')
.persist();
(async () => {
try {
await got('https://sindresorhus.com')
} catch (error) {
console.log(error.response.body);
//=> 'Internal server error'
console.log(error.response.retryCount);
//=> 2
}
scope.persist(false);
})();
For real integration testing we recommend using ava
with create-test-server
. We're using a macro so we don't have to server.listen()
and server.close()
every test. Take a look at one of our tests:
test('retry function gets iteration count', withServer, async (t, server, got) => {
let knocks = 0;
server.get('/', (request, response) => {
if (knocks++ === 1) {
response.end('who`s there?');
}
});
await got({
retry: {
calculateDelay: ({attemptCount}) => {
t.true(is.number(attemptCount));
return attemptCount < 2 ? 1 : 0;
}
}
});
});
To pass an object as the body, you need to use the json
option. It will be stringified using JSON.stringify
. Example:
const got = require('got');
(async () => {
const {body} = await got.post('https://httpbin.org/anything', {
json: {
hello: 'world'
},
responseType: 'json'
});
console.log(body.data);
//=> '{"hello":"world"}'
})();
To receive a JSON body you can either set responseType
option to json
or use promise.json()
. Example:
const got = require('got');
(async () => {
const body = await got.post('https://httpbin.org/anything', {
json: {
hello: 'world'
}
}).json();
console.log(body);
//=> {β¦}
})();
It's a good idea to set the 'user-agent'
header so the provider can more easily see how their resource is used. By default, it's the URL to this repo. You can omit this header by setting it to undefined
.
const got = require('got');
const pkg = require('./package.json');
got('https://sindresorhus.com', {
headers: {
'user-agent': `my-package/${pkg.version} (https://github.com/username/my-package)`
}
});
got('https://sindresorhus.com', {
headers: {
'user-agent': undefined
}
});
Bear in mind; if you send an if-modified-since
header and receive a 304 Not Modified
response, the body will be empty. It's your responsibility to cache and retrieve the body contents.
Use got.extend()
to make it nicer to work with REST APIs. Especially if you use the prefixUrl
option.
const got = require('got');
const pkg = require('./package.json');
const custom = got.extend({
prefixUrl: 'example.com',
responseType: 'json',
headers: {
'user-agent': `my-package/${pkg.version} (https://github.com/username/my-package)`
}
});
// Use `custom` exactly how you use `got`
(async () => {
const list = await custom('v1/users/list');
})();
Got was created because the popular request
package is bloated:
Furthermore, Got is fully written in TypeScript and actively maintained.
The Electron net
module is not consistent with the Node.js http
module. See #899 for more info.
got |
request |
node-fetch |
ky |
axios |
superagent |
|
---|---|---|---|---|---|---|
HTTP/2 support | βοΈ | β | β | β | β | βοΈ** |
Browser support | β | β | βοΈ* | βοΈ | βοΈ | βοΈ |
Promise API | βοΈ | βοΈ | βοΈ | βοΈ | βοΈ | βοΈ |
Stream API | βοΈ | βοΈ | Node.js only | β | β | βοΈ |
Pagination API | βοΈ | β | β | β | β | β |
Request cancelation | βοΈ | β | βοΈ | βοΈ | βοΈ | βοΈ |
RFC compliant caching | βοΈ | β | β | β | β | β |
Cookies (out-of-box) | βοΈ | βοΈ | β | β | β | β |
Follows redirects | βοΈ | βοΈ | βοΈ | βοΈ | βοΈ | βοΈ |
Retries on failure | βοΈ | β | β | βοΈ | β | βοΈ |
Progress events | βοΈ | β | β | βοΈ*** | Browser only | βοΈ |
Handles gzip/deflate | βοΈ | βοΈ | βοΈ | βοΈ | βοΈ | βοΈ |
Advanced timeouts | βοΈ | β | β | β | β | β |
Timings | βοΈ | βοΈ | β | β | β | β |
Errors with metadata | βοΈ | β | β | βοΈ | βοΈ | β |
JSON mode | βοΈ | βοΈ | βοΈ | βοΈ | βοΈ | βοΈ |
Custom defaults | βοΈ | βοΈ | β | βοΈ | βοΈ | β |
Composable | βοΈ | β | β | β | β | βοΈ |
Hooks | βοΈ | β | β | βοΈ | βοΈ | β |
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* It's almost API compatible with the browser fetch
API.
** Need to switch the protocol manually. Doesn't accept PUSH streams and doesn't reuse HTTP/2 sessions.
*** Currently, only DownloadProgress
event is supported, UploadProgress
event is not supported.
βοΈ Almost-stable feature, but the API may change. Don't hesitate to try it out!
β Feature in early stage of development. Very experimental.
Click here to see the install size of the Got dependencies.
- gh-got - Got convenience wrapper to interact with the GitHub API
- gl-got - Got convenience wrapper to interact with the GitLab API
- travis-got - Got convenience wrapper to interact with the Travis API
- graphql-got - Got convenience wrapper to interact with GraphQL
- GotQL - Got convenience wrapper to interact with GraphQL using JSON-parsed queries instead of strings
- got-fetch - Got with a
fetch
interface
Sindre Sorhus | Szymon Marczak | Giovanni Minotti |
Segment is a happy user of Got! Got powers the main backend API that our app talks to. It's used by our in-house RPC client that we use to communicate with all microservices.
β Vadim Demedes
Antora, a static site generator for creating documentation sites, uses Got to download the UI bundle. In Antora, the UI bundle (aka theme) is maintained as a separate project. That project exports the UI as a zip file we call the UI bundle. The main site generator downloads that UI from a URL using Got and streams it to vinyl-zip to extract the files. Those files go on to be used to create the HTML pages and supporting assets.
β Dan Allen
GetVoIP is happily using Got in production. One of the unique capabilities of Got is the ability to handle Unix sockets which enables us to build a full control interfaces for our docker stack.
β Daniel Kalen
We're using Got inside of Exoframe to handle all the communication between CLI and server. Exoframe is a self-hosted tool that allows simple one-command deployments using Docker.
β Tim Ermilov
Karaoke Mugen uses Got to fetch content updates from its online server.
β Axel Terizaki
Renovate uses Got, gh-got and gl-got to send millions of queries per day to GitHub, GitLab, npmjs, PyPi, Packagist, Docker Hub, Terraform, CircleCI, and more.
β Rhys Arkins
Resistbot uses Got to communicate from the API frontend where all correspondence ingresses to the officials lookup database in back.
β Chris Erickson
Natural Cycles is using Got to communicate with all kinds of 3rd-party REST APIs (over 9000!).
β Kirill Groshkov
Microlink is a cloud browser as an API service that uses Got widely as the main HTTP client, serving ~22M requests a month, every time a network call needs to be performed.
β Kiko Beats
Weβre using Got at Radity. Thanks for such an amazing work!
β Mirzayev Farid
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