I am trying to use AWS lambda to verify signatures created with sec256r1 in swift.

Message: "some text to sign"

Has been hashed with sha256 too

signatures will be in base64


and public key will look like so:

-----END PUBLIC KEY-----

To clarify,

I am trying to use lambda to verify signatures that come from the client side, and encrypt data with their public key if need be.

Here is code:

    const crypto = require('crypto');
    const verify = crypto.createVerify('SHA256');

    verify.write('some text to sign');

    const l1 = "-----BEGIN PUBLIC KEY-----\n"
    const l2 = 

    const l3 = "\n-----END PUBLIC KEY-----"

    const publicKey = l1 + l2 + l3

    const signature = "MEYCIQCPfWhpzxMqu3gZWflBm5V0aetgb2/S+SGyGcElaOjgdgIhALaD4lbxVwa8HUUBFOLz+CGvIioDkf9oihSnXHCqh8yV";

    console.log(verify.verify(publicKey, signature));// Prints: true or false
  • What is your question? Please edit the question to include what you are seeking help with. – Jason Aller Feb 4 '18 at 18:14
  • I'm trying to use lambda to verify the signature that I generated – WeCanBeFriends Feb 4 '18 at 18:15
  • What is the problem you've encountered while trying to use lambda to verify the signature? What have you tried? Is there code that would add context? – Jason Aller Feb 4 '18 at 18:16
  • It is saying that the signature is false, not sure why. It was in nodejs – WeCanBeFriends Feb 4 '18 at 18:18
  • It sounds like your problem is how to use the Python crypto API correctly and not anything specific to Lambda. Can you get this code working outside of Lambda? – jarmod Feb 4 '18 at 18:23

Please see the fuller solution at this StackOverflow post which shows how to use the verify.update() and verify.verify() methods in node.js.


Here's how to inegrate with Nodejs.Crypto. First, the RSA private and public keys need to be generated. There are several ways to do that, here's an a way to do this online with encrypt.JS. You can use getSignatureByInput function below after private and public keys have been stored into the filesystem which generates a unique signature given a string input:

const crypto = require('crypto')
const fs = require('fs')

const getSignatureByInput = (input) => {
  let privatePem = fs.readFileSync('PRIVATE_KEY_FILE_PATH_GOES_HERE')
  let key = privatePem.toString('ascii')
  let sign = crypto.createSign('RSA-SHA256')
  let signature = sign.sign(key, 'hex')

  return signature

Thereafter, to verify a signature, you can use the following function:

const getSignatureVerifyResult = (input) => {
        let signatureSignedByPrivateKey = getSignatureByInput(input)

        let pem = fs.readFileSync('PUBLIC_KEY_FILE_PATH_GOES_HERE')
        let publicKey = pem.toString('ascii')
        const verifier = crypto.createVerify('RSA-SHA256')

        verifier.update(input, 'ascii')

        const publicKeyBuf = new Buffer(publicKey, 'ascii')
        const signatureBuf = new Buffer(signatureSignedByPrivateKey, 'hex')
        const result = verifier.verify(publicKeyBuf, signatureBuf)

        return result;

getSignatureVerifyResult will return true/false depending on whether the signature are verified. Keep in mind that there's a plethora of algorithms to choose when it comes to signing.

  • 1
    exactly what I was looking for 🙌 – Saksham Khurana Feb 15 '20 at 16:54

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