3.4 KiB
3.4 KiB
Connector
Undici creates the underlying socket via the connector builder. Normally, this happens automatically and you don't need to care about this, but if you need to perform some additional check over the currently used socket, this is the right place.
If you want to create a custom connector, you must import the buildConnector
utility.
Parameter: buildConnector.BuildOptions
Every Tls option, see here. Furthermore, the following options can be passed:
- socketPath
string | null
(optional) - Default:null
- An IPC endpoint, either Unix domain socket or Windows named pipe. - maxCachedSessions
number | null
(optional) - Default:100
- Maximum number of TLS cached sessions. Use 0 to disable TLS session caching. Default:100
. - timeout
number | null
(optional) - In milliseconds. Default10e3
. - servername
string | null
(optional)
Once you call buildConnector
, it will return a connector function, which takes the following parameters.
Parameter: connector.Options
- hostname
string
(required) - host
string
(optional) - protocol
string
(required) - port
string
(required) - servername
string
(optional) - localAddress
string | null
(optional) Local address the socket should connect from. - httpSocket
Socket
(optional) Establish secure connection on a given socket rather than creating a new socket. It can only be sent on TLS update.
Basic example
'use strict'
import { Client, buildConnector } from 'undici'
const connector = buildConnector({ rejectUnauthorized: false })
const client = new Client('https://localhost:3000', {
connect (opts, cb) {
connector(opts, (err, socket) => {
if (err) {
cb(err)
} else if (/* assertion */) {
socket.destroy()
cb(new Error('kaboom'))
} else {
cb(null, socket)
}
})
}
})
Example: validate the CA fingerprint
'use strict'
import { Client, buildConnector } from 'undici'
const caFingerprint = 'FO:OB:AR'
const connector = buildConnector({ rejectUnauthorized: false })
const client = new Client('https://localhost:3000', {
connect (opts, cb) {
connector(opts, (err, socket) => {
if (err) {
cb(err)
} else if (getIssuerCertificate(socket).fingerprint256 !== caFingerprint) {
socket.destroy()
cb(new Error('Fingerprint does not match or malformed certificate'))
} else {
cb(null, socket)
}
})
}
})
client.request({
path: '/',
method: 'GET'
}, (err, data) => {
if (err) throw err
const bufs = []
data.body.on('data', (buf) => {
bufs.push(buf)
})
data.body.on('end', () => {
console.log(Buffer.concat(bufs).toString('utf8'))
client.close()
})
})
function getIssuerCertificate (socket) {
let certificate = socket.getPeerCertificate(true)
while (certificate && Object.keys(certificate).length > 0) {
// invalid certificate
if (certificate.issuerCertificate == null) {
return null
}
// We have reached the root certificate.
// In case of self-signed certificates, `issuerCertificate` may be a circular reference.
if (certificate.fingerprint256 === certificate.issuerCertificate.fingerprint256) {
break
}
// continue the loop
certificate = certificate.issuerCertificate
}
return certificate
}