The crypto.createVerify() will create and return a verify object that uses the passed algorithm in the parameter. One can use, crypto.getHashes() to get the names of all the available signing algorithms. You can create a Verify instance by using the name of the signature algorithms such as 'RHA-SHA256' only in some of the cases, instead of a digest algorithm.
Syntax
crypto.createVerify(algorithm, [options])
Parameters
The above parameters are described as below −
algorithm – It takes the input for the algorithm name to be used while creating the verify object/instance.
options – This is an optional parameter that can be used for controlling the stream behaviour.
Example
Create a file with name – createVerify.js and copy the below code snippet. After creating file, use the following command to run this code as shown in the example below −
node createVerify.js
createVerify.js
// Node.js program to demonstrate the use of createVerify() method
// Importing the crypto module
const crypto = require('crypto');
// Creating verify object with the input algorithm
const verify = crypto.createVerify('SHA256');
// Returning the verify object
console.log(verify);Output
C:\home\node>> node createVerify.js
Verify {
_handle: {},
_writableState:
WritableState {
objectMode: false,
highWaterMark: 16384,
finalCalled: false,
needDrain: false,
ending: false,
ended: false,
finished: false,
destroyed: false,
decodeStrings: true,
defaultEncoding: 'utf8',
length: 0,
writing: false,
corked: 0,
sync: true,
bufferProcessing: false,
onwrite: [Function: bound onwrite],
writecb: null,
writelen: 0,
bufferedRequest: null,
lastBufferedRequest: null,
pendingcb: 0,
prefinished: false,
errorEmitted: false,
emitClose: true,
autoDestroy: false,
bufferedRequestCount: 0,
corkedRequestsFree:
{ next: null,
entry: null,
finish: [Function: bound onCorkedFinish] } },
writable: true,
_events: [Object: null prototype] {},
_eventsCount: 0,
_maxListeners: undefined }Example
Let's take a look at one more example.
// Node.js program to demonstrate the use of createVerify() method
// Importing the crypto module
const crypto = require('crypto');
// Creating the verify object from SHA256 algo
const verify = crypto.createVerify('SHA256');
// Writing the below data to be signed and verified
verify.write('TutorialPoint');
// Ending the method
verify.end();
// Beginning public key execution
const l1 = "-----BEGIN PUBLIC KEY-----\n"
// Encrypted data
const l2 = "MFkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDQgAEXIvPbzLjaPLd8jgiv1TL/X8PXpJNgDkGRj9U9Lcx1
yKURpQFVavcMkfWyO8r7JlZNMax0JKfLZUM1IePRjHlFw=="
// Finishing public key execution
const l3 = "\n-----END PUBLIC KEY-----"
// concatenating all public keys
const publicKey = l1 + l2 + l3
// Signature that will be verified
const signature = "MEYCIQCPfWhpzxMqu3gZWflBm5V0aetgb2/S+SGyGcElaOjgdgIhALaD4lbxVwa8HUUBFOLz+CGvI
ioDkf9oihSnXHCqh8yV";
// Prints true if signature is verified else false
console.log(verify.verify(publicKey, signature));Output
C:\home\node>> node createVerify.js false