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Node.js v10.0.0-test1a85328264 Documentation
Table of Contents
HTTPS#
HTTPS is the HTTP protocol over TLS/SSL. In Node.js this is implemented as a separate module.
Class: https.Agent#
An Agent
object for HTTPS similar to http.Agent
. See
https.request()
for more information.
Class: https.Server#
This class is a subclass of tls.Server
and emits events same as
http.Server
. See http.Server
for more information.
server.close([callback])#
callback
<Function>
See server.close()
from the HTTP module for details.
server.listen()#
Starts the HTTPS server listening for encrypted connections.
This method is identical to server.listen()
from net.Server
.
server.setTimeout([msecs][, callback])#
msecs
<number> Defaults to 120000 (2 minutes).callback
<Function>
server.timeout#
- <number> Defaults to 120000 (2 minutes).
See http.Server#timeout
.
server.keepAliveTimeout#
- <number> Defaults to 5000 (5 seconds).
See http.Server#keepAliveTimeout
.
https.createServer([options][, requestListener])#
options
<Object> Acceptsoptions
fromtls.createServer()
,tls.createSecureContext()
andhttp.createServer()
.requestListener
<Function> A listener to be added to therequest
event.
Example:
// curl -k https://localhost:8000/
const https = require('https');
const fs = require('fs');
const options = {
key: fs.readFileSync('test/fixtures/keys/agent2-key.pem'),
cert: fs.readFileSync('test/fixtures/keys/agent2-cert.pem')
};
https.createServer(options, (req, res) => {
res.writeHead(200);
res.end('hello world\n');
}).listen(8000);
Or
const https = require('https');
const fs = require('fs');
const options = {
pfx: fs.readFileSync('test/fixtures/test_cert.pfx'),
passphrase: 'sample'
};
https.createServer(options, (req, res) => {
res.writeHead(200);
res.end('hello world\n');
}).listen(8000);
https.get(options[, callback])#
options
<Object> | <string> | <URL> Accepts the sameoptions
ashttps.request()
, with themethod
always set toGET
.callback
<Function>
Like http.get()
but for HTTPS.
options
can be an object, a string, or a URL
object. If options
is a
string, it is automatically parsed with url.parse()
. If it is a URL
object, it will be automatically converted to an ordinary options
object.
Example:
const https = require('https');
https.get('https://encrypted.google.com/', (res) => {
console.log('statusCode:', res.statusCode);
console.log('headers:', res.headers);
res.on('data', (d) => {
process.stdout.write(d);
});
}).on('error', (e) => {
console.error(e);
});
https.globalAgent#
Global instance of https.Agent
for all HTTPS client requests.
https.request(options[, callback])#
options
<Object> | <string> | <URL> Accepts alloptions
fromhttp.request()
, with some differences in default values:protocol
Defaults tohttps:
port
Defaults to443
.agent
Defaults tohttps.globalAgent
.
callback
<Function>
Makes a request to a secure web server.
The following additional options
from tls.connect()
are also accepted:
ca
, cert
, ciphers
, clientCertEngine
, crl
, dhparam
, ecdhCurve
,
honorCipherOrder
, key
, passphrase
, pfx
, rejectUnauthorized
,
secureOptions
, secureProtocol
, servername
, sessionIdContext
options
can be an object, a string, or a URL
object. If options
is a
string, it is automatically parsed with url.parse()
. If it is a URL
object, it will be automatically converted to an ordinary options
object.
Example:
const https = require('https');
const options = {
hostname: 'encrypted.google.com',
port: 443,
path: '/',
method: 'GET'
};
const req = https.request(options, (res) => {
console.log('statusCode:', res.statusCode);
console.log('headers:', res.headers);
res.on('data', (d) => {
process.stdout.write(d);
});
});
req.on('error', (e) => {
console.error(e);
});
req.end();
Example using options from tls.connect()
:
const options = {
hostname: 'encrypted.google.com',
port: 443,
path: '/',
method: 'GET',
key: fs.readFileSync('test/fixtures/keys/agent2-key.pem'),
cert: fs.readFileSync('test/fixtures/keys/agent2-cert.pem')
};
options.agent = new https.Agent(options);
const req = https.request(options, (res) => {
// ...
});
Alternatively, opt out of connection pooling by not using an Agent
.
Example:
const options = {
hostname: 'encrypted.google.com',
port: 443,
path: '/',
method: 'GET',
key: fs.readFileSync('test/fixtures/keys/agent2-key.pem'),
cert: fs.readFileSync('test/fixtures/keys/agent2-cert.pem'),
agent: false
};
const req = https.request(options, (res) => {
// ...
});
Example using a URL
as options
:
const options = new URL('https://abc:xyz@example.com');
const req = https.request(options, (res) => {
// ...
});
Example pinning on certificate fingerprint, or the public key (similar to
pin-sha256
):
const tls = require('tls');
const https = require('https');
const crypto = require('crypto');
function sha256(s) {
return crypto.createHash('sha256').update(s).digest('base64');
}
const options = {
hostname: 'github.com',
port: 443,
path: '/',
method: 'GET',
checkServerIdentity: function(host, cert) {
// Make sure the certificate is issued to the host we are connected to
const err = tls.checkServerIdentity(host, cert);
if (err) {
return err;
}
// Pin the public key, similar to HPKP pin-sha25 pinning
const pubkey256 = 'pL1+qb9HTMRZJmuC/bB/ZI9d302BYrrqiVuRyW+DGrU=';
if (sha256(cert.pubkey) !== pubkey256) {
const msg = 'Certificate verification error: ' +
`The public key of '${cert.subject.CN}' ` +
'does not match our pinned fingerprint';
return new Error(msg);
}
// Pin the exact certificate, rather then the pub key
const cert256 = '25:FE:39:32:D9:63:8C:8A:FC:A1:9A:29:87:' +
'D8:3E:4C:1D:98:DB:71:E4:1A:48:03:98:EA:22:6A:BD:8B:93:16';
if (cert.fingerprint256 !== cert256) {
const msg = 'Certificate verification error: ' +
`The certificate of '${cert.subject.CN}' ` +
'does not match our pinned fingerprint';
return new Error(msg);
}
// This loop is informational only.
// Print the certificate and public key fingerprints of all certs in the
// chain. Its common to pin the public key of the issuer on the public
// internet, while pinning the public key of the service in sensitive
// environments.
do {
console.log('Subject Common Name:', cert.subject.CN);
console.log(' Certificate SHA256 fingerprint:', cert.fingerprint256);
hash = crypto.createHash('sha256');
console.log(' Public key ping-sha256:', sha256(cert.pubkey));
lastprint256 = cert.fingerprint256;
cert = cert.issuerCertificate;
} while (cert.fingerprint256 !== lastprint256);
},
};
options.agent = new https.Agent(options);
const req = https.request(options, (res) => {
console.log('All OK. Server matched our pinned cert or public key');
console.log('statusCode:', res.statusCode);
// Print the HPKP values
console.log('headers:', res.headers['public-key-pins']);
res.on('data', (d) => {});
});
req.on('error', (e) => {
console.error(e.message);
});
req.end();
Outputs for example:
Subject Common Name: github.com
Certificate SHA256 fingerprint: 25:FE:39:32:D9:63:8C:8A:FC:A1:9A:29:87:D8:3E:4C:1D:98:DB:71:E4:1A:48:03:98:EA:22:6A:BD:8B:93:16
Public key ping-sha256: pL1+qb9HTMRZJmuC/bB/ZI9d302BYrrqiVuRyW+DGrU=
Subject Common Name: DigiCert SHA2 Extended Validation Server CA
Certificate SHA256 fingerprint: 40:3E:06:2A:26:53:05:91:13:28:5B:AF:80:A0:D4:AE:42:2C:84:8C:9F:78:FA:D0:1F:C9:4B:C5:B8:7F:EF:1A
Public key ping-sha256: RRM1dGqnDFsCJXBTHky16vi1obOlCgFFn/yOhI/y+ho=
Subject Common Name: DigiCert High Assurance EV Root CA
Certificate SHA256 fingerprint: 74:31:E5:F4:C3:C1:CE:46:90:77:4F:0B:61:E0:54:40:88:3B:A9:A0:1E:D0:0B:A6:AB:D7:80:6E:D3:B1:18:CF
Public key ping-sha256: WoiWRyIOVNa9ihaBciRSC7XHjliYS9VwUGOIud4PB18=
All OK. Server matched our pinned cert or public key
statusCode: 200
headers: max-age=0; pin-sha256="WoiWRyIOVNa9ihaBciRSC7XHjliYS9VwUGOIud4PB18="; pin-sha256="RRM1dGqnDFsCJXBTHky16vi1obOlCgFFn/yOhI/y+ho="; pin-sha256="k2v657xBsOVe1PQRwOsHsw3bsGT2VzIqz5K+59sNQws="; pin-sha256="K87oWBWM9UZfyddvDfoxL+8lpNyoUB2ptGtn0fv6G2Q="; pin-sha256="IQBnNBEiFuhj+8x6X8XLgh01V9Ic5/V3IRQLNFFc7v4="; pin-sha256="iie1VXtL7HzAMF+/PVPR9xzT80kQxdZeJ+zduCB3uj0="; pin-sha256="LvRiGEjRqfzurezaWuj8Wie2gyHMrW5Q06LspMnox7A="; includeSubDomains