I want to convert user input or assume any string like "abc" to MD5 hash. I want to do this in ios swift. I have refered the below links but the solutions are not working for me or I am confused to implement it properly as i am new to swift programing. Could someone help me with clear steps to achieve this. Thanks in advance!

Importing CommonCrypto in a Swift framework

How to use CC_MD5 method in swift language.


To be more clear i want to achieve this in swift like what we do in php.

$str = "Hello";

echo md5($str);

Output: 8b1a9953c4611296a827abf8c47804d7

  • 5
    What's wrong with the links you gave? – jtbandes Aug 23 '15 at 6:30
  • 2
    The links you gave should work. Can you describe what your exact problem is? You could also include a third-party library to do what you want, ie. github.com/krzyzanowskim/CryptoSwift – Eric Amorde Aug 23 '15 at 6:34
  • 1
    As I have mentioned that im new to swift programing i was confused to implement it in right way. i was including this file(#import <CommonCrypto/CommonCrypto.h>) in swift controller file. But thanks for your replies, it is resolved now by Mr.zaph answer given below. – user3606682 Aug 24 '15 at 12:43
  • If you want a home grown implementation in Swift, then github.com/onmyway133/SwiftHash – onmyway133 Jul 2 '16 at 17:09

10 Answers 10


There are two steps:
1. Create md5 data from a string
2. Covert the md5 data to a hex string

Swift 2.0

func md5(string string: String) -> String {
    var digest = [UInt8](count: Int(CC_MD5_DIGEST_LENGTH), repeatedValue: 0)
    if let data = string.dataUsingEncoding(NSUTF8StringEncoding) {
        CC_MD5(data.bytes, CC_LONG(data.length), &digest)

    var digestHex = ""
    for index in 0..<Int(CC_MD5_DIGEST_LENGTH) {
        digestHex += String(format: "%02x", digest[index])

    return digestHex

let digest = md5(string:"Hello")
print("digest: \(digest)")


digest: 8b1a9953c4611296a827abf8c47804d7

Swift 3.0:

func MD5(string: String) -> Data {
    let messageData = string.data(using:.utf8)!
    var digestData = Data(count: Int(CC_MD5_DIGEST_LENGTH))

    _ = digestData.withUnsafeMutableBytes {digestBytes in
        messageData.withUnsafeBytes {messageBytes in
            CC_MD5(messageBytes, CC_LONG(messageData.count), digestBytes)

    return digestData

let md5Data = MD5(string:"Hello")

let md5Hex =  md5Data.map { String(format: "%02hhx", $0) }.joined()
print("md5Hex: \(md5Hex)")

let md5Base64 = md5Data.base64EncodedString()
print("md5Base64: \(md5Base64)")


md5Hex: 8b1a9953c4611296a827abf8c47804d7
md5Base64: ixqZU8RhEpaoJ6v4xHgE1w==

#import <CommonCrypto/CommonCrypto.h> must be added to a Bridging-Header file

For how to create a Bridging-Header see this SO answer.

In general MD5 should not be used for new work, SHA256 is a current best practice.

Example from deprecated documentation section:

MD2, MD4, MD5, SHA1, SHA224, SHA256, SHA384, SHA512 (Swift 3+)

These functions will hash either String or Data input with one of eight cryptographic hash algorithms.

The name parameter specifies the hash function name as a String
Supported functions are MD2, MD4, MD5, SHA1, SHA224, SHA256, SHA384 and SHA512 a This example requires Common Crypto
It is necessary to have a bridging header to the project:
#import <CommonCrypto/CommonCrypto.h>
Add the Security.framework to the project.

This function takes a hash name and String to be hashed and returns a Data:

name: A name of a hash function as a String  
string: The String to be hashed  
returns: the hashed result as Data  
func hash(name:String, string:String) -> Data? {
    let data = string.data(using:.utf8)!
    return hash(name:name, data:data)


let clearString = "clearData0123456"
let clearData   = clearString.data(using:.utf8)!
print("clearString: \(clearString)")
print("clearData: \(clearData as NSData)")

let hashSHA256 = hash(name:"SHA256", string:clearString)
print("hashSHA256: \(hashSHA256! as NSData)")

let hashMD5 = hash(name:"MD5", data:clearData)
print("hashMD5: \(hashMD5! as NSData)")


clearString: clearData0123456
clearData: <636c6561 72446174 61303132 33343536>

hashSHA256: <aabc766b 6b357564 e41f4f91 2d494bcc bfa16924 b574abbd ba9e3e9d a0c8920a>
hashMD5: <4df665f7 b94aea69 695b0e7b baf9e9d6>
  • 3
    Thanks alottt @zaph, I was struggling for this since more than 2 days. Got it resolved with your above answer :) And yes im retrieving old data from the web where MD5 is used, so im forced to use MD5. But thanks again for the answer and suggestion to use SHA256 :) – user3606682 Aug 24 '15 at 12:32
  • String(data: digestData, encoding: String.Encoding.utf8) throws fatal error: unexpectedly found nil while unwrapping an Optional value – Siddharth Apr 27 '17 at 4:52
  • @Siddharth There is not enough information in the comment, it is not clear what digestData is. If it is hash data the chances or it being UTF-8 (or any string encoding is slim to nonexistent. – zaph Apr 30 '17 at 2:21
  • @zaph I have used the code as it is, and I am getting an error. – Siddharth Apr 30 '17 at 6:14
  • @Siddharth Hash data is binary data and the chances or it being UTF-8 (or any string encoding) is slim to nonexistent. If you need a String representation the usual method is to encode the data as either hexadecimal or Base64. See the test examples; for hexadecimal: md5Hex, for Base64:md5Base64 (just added). – zaph Apr 30 '17 at 14:40

SWIFT 3 version of md5 function:

func md5(_ string: String) -> String {

    let context = UnsafeMutablePointer<CC_MD5_CTX>.allocate(capacity: 1)
    var digest = Array<UInt8>(repeating:0, count:Int(CC_MD5_DIGEST_LENGTH))
    CC_MD5_Update(context, string, CC_LONG(string.lengthOfBytes(using: String.Encoding.utf8)))
    CC_MD5_Final(&digest, context)
    context.deallocate(capacity: 1)
    var hexString = ""
    for byte in digest {
        hexString += String(format:"%02x", byte)

    return hexString

Original link from http://iosdeveloperzone.com


I released a pure Swift implementation that does not depend on CommonCrypto or anything else. It's available under MIT license.

The code consists of a single swift file that you can just drop into your project. If you prefer you can also use the contained Xcode project with framework and unit test targets.

It's simple to use:

let input = "The quick brown fox jumps over the lazy dog"
let digest = input.utf8.md5
print("md5: \(digest)")

prints: md5: 9e107d9d372bb6826bd81d3542a419d6

The swift file contains documentation and more examples.

  • 3
    Requires Swift 4 which is not mentioned here or on the Github ReadMe. Usage should not be considered without performance figures provided in comparison to Common Crypto. Note: Common Crypto is FIPS 140 certified, SwiftDigest is not. Here is the key question: How is this better than Common Crypto for the implementation? More secure: No, faster: No. – zaph Sep 21 '17 at 3:20
  • 3
    @zaph I agree that security relevant implementations are not to be taken lightly. But MD5 has other uses than security—or, rather, security is where MD5 performs worst. Hashing algorithms are used for identification, sorting, storage, dictionaries, error detection and other reasons. MD5 is especially useful because of its ubiquity. So, while I agree with a couple of your comments I do not agree with the gist. I think your point of view and arguing is too narrow; it does not encompass the whole of the topic. – Nikolai Ruhe Sep 21 '17 at 12:04
  • 2
    Also, I just tested, and my implementation is faster than CommonCrypto for big messages :) – Nikolai Ruhe Sep 21 '17 at 12:06
  • 2
    good job @NikolaiRuhe! – Eduardo Irias Sep 29 '17 at 11:57
  • 2
    I like this implementation. Thanks very much @NikolaiRuhe! I was able to convert it easily to Swift 3 compatibility. I also added a few convenience methods including computing digest of file contents given a URL, and retrieving the base64 encoding (useful for Content-MD5 among other things). @Siddharth the only file you need is MD5Digest.swift. – biomiker Feb 10 '18 at 9:59

After reading through the other answers on here (and needing to support other hash types as well) I wrote a String extension that handles multiple hash types and output types.

NOTE: CommonCrypto is included in Xcode 10, so you can simply import CommonCrypto without having to mess with a bridging header if you have the latest Xcode version installed... Otherwise a bridging header is necessary.



import Foundation
import CommonCrypto

// Defines types of hash string outputs available
public enum HashOutputType {
    // standard hex string output
    case hex
    // base 64 encoded string output
    case base64

// Defines types of hash algorithms available
public enum HashType {
    case md5
    case sha1
    case sha224
    case sha256
    case sha384
    case sha512

    var length: Int32 {
        switch self {
        case .md5: return CC_MD5_DIGEST_LENGTH
        case .sha1: return CC_SHA1_DIGEST_LENGTH
        case .sha224: return CC_SHA224_DIGEST_LENGTH
        case .sha256: return CC_SHA256_DIGEST_LENGTH
        case .sha384: return CC_SHA384_DIGEST_LENGTH
        case .sha512: return CC_SHA512_DIGEST_LENGTH

public extension String {

    /// Hashing algorithm for hashing a string instance.
    /// - Parameters:
    ///   - type: The type of hash to use.
    ///   - output: The type of output desired, defaults to .hex.
    /// - Returns: The requested hash output or nil if failure.
    public func hashed(_ type: HashType, output: HashOutputType = .hex) -> String? {

        // convert string to utf8 encoded data
        guard let message = data(using: .utf8) else { return nil }
        return message.hashed(type, output: output)


import Foundation
import CommonCrypto 

extension Data {

    /// Hashing algorithm that prepends an RSA2048ASN1Header to the beginning of the data being hashed.
    /// - Parameters:
    ///   - type: The type of hash algorithm to use for the hashing operation.
    ///   - output: The type of output string desired.
    /// - Returns: A hash string using the specified hashing algorithm, or nil.
    public func hashWithRSA2048Asn1Header(_ type: HashType, output: HashOutputType = .hex) -> String? {

        let rsa2048Asn1Header:[UInt8] = [
            0x30, 0x82, 0x01, 0x22, 0x30, 0x0d, 0x06, 0x09, 0x2a, 0x86, 0x48, 0x86,
            0xf7, 0x0d, 0x01, 0x01, 0x01, 0x05, 0x00, 0x03, 0x82, 0x01, 0x0f, 0x00

        var headerData = Data(bytes: rsa2048Asn1Header)

        return hashed(type, output: output)

    /// Hashing algorithm for hashing a Data instance.
    /// - Parameters:
    ///   - type: The type of hash to use.
    ///   - output: The type of hash output desired, defaults to .hex.
    ///   - Returns: The requested hash output or nil if failure.
    public func hashed(_ type: HashType, output: HashOutputType = .hex) -> String? {

        // setup data variable to hold hashed value
        var digest = Data(count: Int(type.length))

        // generate hash using specified hash type
        _ = digest.withUnsafeMutableBytes { (digestBytes: UnsafeMutablePointer<UInt8>) in
            self.withUnsafeBytes { (messageBytes: UnsafePointer<UInt8>) in
                let length = CC_LONG(self.count)
                switch type {
                case .md5: CC_MD5(messageBytes, length, digestBytes)
                case .sha1: CC_SHA1(messageBytes, length, digestBytes)
                case .sha224: CC_SHA224(messageBytes, length, digestBytes)
                case .sha256: CC_SHA256(messageBytes, length, digestBytes)
                case .sha384: CC_SHA384(messageBytes, length, digestBytes)
                case .sha512: CC_SHA512(messageBytes, length, digestBytes)

        // return the value based on the specified output type.
        switch output {
        case .hex: return digest.map { String(format: "%02hhx", $0) }.joined()
        case .base64: return digest.base64EncodedString()

Edit: since the hash actually happens on the Data, I split the hashing algorithm out into a Data extension. This allows the same algorithm to be used for SSL Certificate pinning hash operations as well.

Here's a short example of how you might use it for an SSL Pinning operation:

// Certificate pinning - get certificate as data
let data: Data = SecCertificateCopyData(serverCertificate) as Data

// compare hash of server certificate with local (expected) hash value
guard let serverHash = data.hashWithRSA2048Asn1Header(.sha256, output: .base64), serverHash == storedHash else {
    print("SSL PINNING: Server certificate hash does not match specified hash value.")
    return false

back to the original answer

I tested the hash algorithms using this:

let value = "This is my string"

if let md5 = value.hashed(.md5) {
    print("md5: \(md5)")
if let sha1 = value.hashed(.sha1) {
    print("sha1: \(sha1)")
if let sha224 = value.hashed(.sha224) {
    print("sha224: \(sha224)")
if let sha256 = value.hashed(.sha256) {
    print("sha256: \(sha256)")
if let sha384 = value.hashed(.sha384) {
    print("sha384: \(sha384)")
if let sha512 = value.hashed(.sha512) {
    print("sha512: \(sha512)")

and this is the printed results:

md5: c2a9ce57e8df081b4baad80d81868bbb
sha1: 37fb219bf98bee51d2fdc3ba6d866c97f06c8223
sha224: f88e2f20aa89fb4dffb6bdc62d7bd75e1ba02574fae4a437c3bf49c7
sha256: 9da6c02379110815278b615f015f0b254fd3d5a691c9d8abf8141655982c046b
sha384: d9d7fc8aefe7f8f0a969b132a59070836397147338e454acc6e65ca616099d03a61fcf9cc8c4d45a2623145ebd398450
sha512: 349cc35836ba85915ace9d7f895b712fe018452bb4b20ff257257e12adeb1e83ad780c6568a12d03f5b2cb1e3da23b8b7ced9012a188ef3855e0a8f3db211883

Just two notes here:

Using Crypto is too much overhead for achieving just this.

The accepted answer is perfect! Nevertheless I just wanted to share a Swift ier code approach using Swift 2.2.

Please bear in mind that you still have to #import <CommonCrypto/CommonCrypto.h> in your Bridging-Header file

struct MD5Digester {
    // return MD5 digest of string provided
    static func digest(string: String) -> String? {

        guard let data = string.dataUsingEncoding(NSUTF8StringEncoding) else { return nil }

        var digest = [UInt8](count: Int(CC_MD5_DIGEST_LENGTH), repeatedValue: 0)

        CC_MD5(data.bytes, CC_LONG(data.length), &digest)

        return (0..<Int(CC_MD5_DIGEST_LENGTH)).reduce("") { $0 + String(format: "%02x", digest[$1]) }

Swift 4.* , Xcode 10 Update :

In Xcode 10 you don't have to use Bridging-Header Anymore , you can directly import using

import CommonCrypto

And Then write a method something like :

func MD5(_ string: String) -> String? {
        let length = Int(CC_MD5_DIGEST_LENGTH)
        var digest = [UInt8](repeating: 0, count: length)

        if let d = string.data(using: String.Encoding.utf8) {
            _ = d.withUnsafeBytes { (body: UnsafePointer<UInt8>) in
                CC_MD5(body, CC_LONG(d.count), &digest)

        return (0..<length).reduce("") {
            $0 + String(format: "%02x", digest[$1])

Usage :

MD5("This is my string")



Here's an extension based on zaph answer

extension String{
    var MD5:String {
            let messageData = self.data(using:.utf8)!
            var digestData = Data(count: Int(CC_MD5_DIGEST_LENGTH))

            _ = digestData.withUnsafeMutableBytes {digestBytes in
                messageData.withUnsafeBytes {messageBytes in
                    CC_MD5(messageBytes, CC_LONG(messageData.count), digestBytes)

            return digestData.map { String(format: "%02hhx", $0) }.joined()

Fully compatible with swift 3.0.you still have to #import <CommonCrypto/CommonCrypto.h> in your Bridging-Header file


I used Carthage and Cyrpto to do this.

  1. Install Carthage if you've not already done so

  2. Install Crypto into your project

  3. execute 'cartage update'

  4. If you're running from the commandline add in the framework in the swift file

    #!/usr/bin/env xcrun swift -F Carthage/Build/Mac
  5. Add import Crypto to your swift file.

  6. then it just works!

    print( "convert this".MD5 )
  • It's a bit over the top to use a full fledged cryptography library when only one function is needed – Mark Bourke Dec 24 '16 at 16:14
  • Apologize for the old-thread comment... Perhaps, but common libraries are (presumably) always up to day with platform changes, thus yielding common results and minimizing fragmentation, and no one has to continually reinvent wheels or use a bunch of internet-found code that may or may not be reliable, fast, or patterned on standards. I'm all for minimizing dependencies, but in something like this, I look at OS options first, common language options second, and at third-party standard options next, and result to one-offs or "this guy's library is pretty good" options last. * shrug * – ChrisH Mar 25 '18 at 12:50

MD5 is a hashing algorithm, no need to use the bulky CommonCrypto library for this (and get rejected by Apple review), just use any md5 hashing library.

One such library I use is SwiftHash, a pure swift implementation of MD5 (based on http://pajhome.org.uk/crypt/md5/md5.html)


I found this library that seems to work pretty well.



Your Answer

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.