This library is a small wrapper around node's crypto
library. It offers convenience methods for encrypting and decrypting arbitrary payloads in both AES and RSA.
For use encrypting / decrypting payloads in Anvil, you can generate an RSA keypair from your organization's settings page.
Anvil provides easy APIs for all things paperwork.
- PDF filling API - fill out a PDF template with a web request and structured JSON data.
- PDF generation API - send markdown or HTML and Anvil will render it to a PDF.
- Etch E-sign with API - customizable, embeddable, e-signature platform with an API to control the signing process end-to-end.
- Anvil Workflows (w/ API) - Webforms + PDF + E-sign with a powerful no-code builder. Easily collect structured data, generate PDFs, and request signatures.
Learn more about Anvil on our Anvil developer page.
yarn add @anvilco/encryption
Then use it
// For RSA functions
import { encryptRSA, decryptRSA } from '@anvilco/encryption'
// For AES functions
import { generateAESKey, encryptAES, decryptAES } from '@anvilco/encryption'
// Could grab the keys from file (or preferably from environment variables)
import fs from 'fs'
const privateKey = fs.readFileSync('path/to/privateKey.pem')
const publicKey = fs.readFileSync('path/to/publicKey.pem')
// RSA
const message = 'Super secret message'
const encryptedRSAMessage = encryptRSA(publicKey, message)
const origRSAMessage = decryptRSA(privateKey, encryptedRSAMessage)
console.log(origRSAMessage === message) // => true
// AES
const aesKey = generateAESKey()
const encryptedAESMessage = encryptAES(aesKey, message)
const origAESMessage = decryptAES(aesKey, encryptedAESMessage)
console.log(origAESMessage === message) // => true
There are two functions for RSA: encryptRSA
, decryptRSA
, and three for AES: generateAESKey
, encryptAES
, decryptAES
.
There are three functions for AES:
key = generateAESKey()
encryptedMessage = encryptAES(key, plainMessage)
plainMessage = decryptAES(key, encryptedMessage)
encryptAES
creates a unique IV for each message encrypted and prepends it to the resulting encrypted payload. So encryptedMessage
will be in the format
<iv>:<aesEncryptedPayload>
There are two functions for RSA:
encryptedMessage = encryptRSA(publicKey, plainMessage)
plainMessage = decryptRSA(privateKey, encryptedMessage)
These functions encrypt / decrypt with RSA and AES. RSA has an upper limit on how much data it can encrypt. So we create an AES key, encrypt the AES key with RSA, then encrypt the actual message with AES.
Note the encrypted payload (result of encryptRSA
) is in the format:
<rsaEncryptedAESKey>:<aesEncryptedMessage>
This library does not have a way to generate RSA keys.
You could use openssl:
# This generates a 2048 bit private key to file
openssl genrsa -out privateKey.pem 2048
# This extracts the public key to file
openssl rsa -in privateKey.pem -outform PEM -pubout -out publicKey.pem
You could also use something like node-rsa:
// Example generating a RSA keypair with node-rsa
import NodeRSA from 'node-rsa'
function generateRSAKeypair () {
const key = new NodeRSA()
key.generateKeyPair(2048, 65537)
return {
publicKey: key.exportKey('pkcs8-public-pem'),
privateKey: key.exportKey('pkcs8-private-pem'),
}
}
MIT