@peculiar/x509
About
@peculiar/x509
is an easy to use TypeScript/Javascript library based on @peculiar/asn1-schema
that makes generating X.509 Certificates and Certificate Requests as well as validating certificate chains easy.
Installation
npm install @peculiar/x509
Documentation
https://peculiarventures.github.io/x509/
Usage
Browser
Every release of @peculiar/x509
will have new build of ./build/x509.js
for use in the browser. To get access to module classes use x509
global variable.
WARN: We recommend hosting and controlling your own copy for security reasons
<script src="https://unpkg.com/@peculiar/x509"></script>
A simple web application examples
Set crypto provider for Node.js
In some cases you may want to use a different cryptographic implementation, for example when you want to work with an object that supports a cryptographic algorithm not supported by the platform you are on.
In these cases you can set a custom provider, these providers need to be compatible with the WebCrypto API, for example on NodeJS you can use @peculiar/webcrypto
to allow @peculiar/x509
to work the same as it does in browser!
import * as x509 from "@peculiar/x509";
import { Crypto } from "@peculiar/webcrypto";
const crypto = new Crypto();
x509.cryptoProvider.set(crypto);
Create a self-signed certificate
const alg = {
name: "RSASSA-PKCS1-v1_5",
hash: "SHA-256",
publicExponent: new Uint8Array([1, 0, 1]),
modulusLength: 2048,
};
const keys = await crypto.subtle.generateKey(alg, false, ["sign", "verify"]);
const cert = await x509.X509CertificateGenerator.createSelfSigned({
serialNumber: "01",
name: "CN=Test",
notBefore: new Date("2020/01/01"),
notAfter: new Date("2020/01/02"),
signingAlgorithm: alg,
keys,
extensions: [
new x509.BasicConstraintsExtension(true, 2, true),
new x509.ExtendedKeyUsageExtension(["1.2.3.4.5.6.7", "2.3.4.5.6.7.8"], true),
new x509.KeyUsagesExtension(x509.KeyUsageFlags.keyCertSign | x509.KeyUsageFlags.cRLSign, true),
await x509.SubjectKeyIdentifierExtension.create(keys.publicKey),
]
});
console.log(cert.toString("pem"));
Parse a x509 certificate
const base64 = "MIIDljCCAn6gAwIBAgIOSETcxtRwD...S+kAFXIwugUGYEnTWp0m5bAn5NlD314IEOg4mnS8Q==";
const cert = new x509.X509Certificate(base64);
console.log(cert.subject);
Create a PKCS#10 certificate request
const alg = {
name: "ECDSA",
namedCurve: "P-384",
hash: "SHA-384",
}
const keys = await crypto.subtle.generateKey(alg, false, ["sign", "verify"]);
const csr = await x509.Pkcs10CertificateRequestGenerator.create({
name: "CN=Test",
keys,
signingAlgorithm: alg,
extensions: [
new x509.KeyUsagesExtension(x509.KeyUsageFlags.digitalSignature | x509.KeyUsageFlags.keyEncipherment),
],
attributes: [
new x509.ChallengePasswordAttribute("password"),
]
});
console.log(csr.toString("base64"));
Decoded X509 certificate
X509Certificate {
rawData: ArrayBuffer {
[Uint8Contents]: <30 82 02 fc 30 82 01 e4 a0 03 02 01 02 02 01 01 30 0d 06 09 2a 86 48 86 f7 0d 01 01 0b 05 00 30 0f 31 0d 30 0b 06 03 55 04 03 13 04 54 65 73 74 30 1e 17 0d 31 39 31 32 33 31 32 31 30 30 30 30 5a 17 0d 32 30 30 31 30 31 32 31 30 30 30 30 5a 30 0f 31 0d 30 0b 06 03 55 04 03 13 04 54 65 73 74 30 82 01 ... 668 more bytes>,
byteLength: 768
},
tbs: ArrayBuffer {
[Uint8Contents]: <30 82 01 e4 a0 03 02 01 02 02 01 01 30 0d 06 09 2a 86 48 86 f7 0d 01 01 0b 05 00 30 0f 31 0d 30 0b 06 03 55 04 03 13 04 54 65 73 74 30 1e 17 0d 31 39 31 32 33 31 32 31 30 30 30 30 5a 17 0d 32 30 30 31 30 31 32 31 30 30 30 30 5a 30 0f 31 0d 30 0b 06 03 55 04 03 13 04 54 65 73 74 30 82 01 22 30 0d 06 ... 388 more bytes>,
byteLength: 488
},
serialNumber: '01',
subject: 'CN=Test',
issuer: 'CN=Test',
signatureAlgorithm: { name: 'RSASSA-PKCS1-v1_5', hash: { name: 'SHA-256' } },
signature: ArrayBuffer {
[Uint8Contents]: <2e 78 fb 4b f6 c8 a1 9d b4 d1 8b 22 80 20 c1 68 46 39 a6 11 d1 a9 7a 13 03 8d 1e 0e 5e 87 b5 33 2a ba 44 1b 96 6d 91 e7 fd c0 ce b7 93 fe e4 df d3 d0 57 7c 9a eb 7e 3e 8b ed c6 07 ad 80 df fd 8f f7 ce 26 07 db 0e 9f af e6 cb 70 02 2d 17 9f f5 c1 0d ef d6 cf 1d ec 78 a0 dd 5d 46 2a 60 08 71 74 2c 26 ... 156 more bytes>,
byteLength: 256
},
notBefore: 2019-12-31T21:00:00.000Z,
notAfter: 2020-01-01T21:00:00.000Z,
extensions: Extensions(4) [
BasicConstraintsExtension {
rawData: [ArrayBuffer],
type: '2.5.29.19',
critical: true,
value: [ArrayBuffer],
ca: true,
pathLength: 2
},
ExtendedKeyUsageExtension {
rawData: [ArrayBuffer],
type: '2.5.29.37',
critical: true,
value: [ArrayBuffer],
usages: [ExtendedKeyUsage]
},
KeyUsagesExtension {
rawData: [ArrayBuffer],
type: '2.5.29.15',
critical: true,
value: [ArrayBuffer],
usages: 96
},
SubjectKeyIdentifierExtension {
rawData: [ArrayBuffer],
type: '2.5.29.14',
critical: false,
value: [ArrayBuffer],
keyId: 'f525754650a3dee83f8bd777ee3b53ecc2c8d726'
}
],
publicKey: PublicKey {
rawData: ArrayBuffer {
[Uint8Contents]: <30 82 01 22 30 0d 06 09 2a 86 48 86 f7 0d 01 01 01 05 00 03 82 01 0f 00 30 82 01 0a 02 82 01 01 00 b6 f4 f1 cf dd 26 a1 23 45 b6 6e 4e ec 3e 20 8a 3f 90 ec 84 46 49 87 a2 05 c5 eb da ac 84 37 eb a3 bf 46 b5 8e 82 75 25 8a 80 19 10 79 13 c0 13 6c 29 df 56 44 1c ec f8 7b 34 0a f2 13 41 b5 53 98 e1 f5 ... 194 more bytes>,
byteLength: 294
},
algorithm: {
name: 'RSASSA-PKCS1-v1_5',
publicExponent: [Uint8Array],
modulusLength: 2048
}
}
}
Build a certificate chain
const chain = new x509.X509ChainBuilder({
certificates: [
new x509.X509Certificate(raw1),
new x509.X509Certificate(raw2),
new x509.X509Certificate(rawN),
],
});
const cert = x509.X509Certificate(raw);
const items = await chain.build(cert);
console.log(items);
Export a list of X509 certificates to PKCS#7 format
const certs = new x509.X509Certificates([
new x509.X509Certificate("MIIDljCCAn6gAwIBAgIOSETcxtRwD...S+kAFXIwugUGYEnTWp0m5bAn5NlD314IEOg4mnS8Q=="),
new x509.X509Certificate("MIIDljCCAn6gAwIBAgIOSETcxtRwD...w8Y/o+hk3QzNBVa3ZUvzDhVAmamQflvw3lXMm/JG4U="),
]);
console.log(certs.export("base64"));