IDZSwiftCommonCrypto
A Swift wrapper for Apple's CommonCrypto
library.
IDZSwiftCommonCrypto works with both CocoaPods and Cathage. For more details on how to install it into your projects see INSTALL.md
If you are using CococaPods you must use pod cache clean IDZSwiftCommonCrypto --all
after you upgrade Xcode. This is needed to avoid stale module maps being used from the CocoaPods cache. Removing your Podfile.lock and Pods directory is not sufficient.
IDZSwiftCommonCrypto provides the following classes:
Digest
for calculating message digests,HMAC
for calculating Hash-based Message Authentication Codes,Cryptor
for encrypting and decrypting bounded buffers,StreamCryptor
for encrypting and decrypting streaming information, andPBKDF
for deriving key material from a password or passphrase.
Which Release to Use
Which version you use depends on which version of Xcode and Swift you are currently using. Please refer to the list below:
- 0.7.4 -- Xcode 7.3.1, Swift 2.2
- 0.8.0 -- Xcode 7.3.1, Swift 2.2, with additional APIs for
CCMode
- 0.8.3 -- Xcode 8.0, Swift 2.3
- 0.9.x -- Xcode 8.0, Swift 3.0
- 0.10.x -- Xcode 9.0, Swift 4.0
- 0.11.x -- Xcode 10.0, Swift 4.2
- 0.12.x -- Xcode 10.2, Swift 5.0
- 0.13.x -- Xcode 11.0, Swift 5.1, iOS 13.0
Digest
Using To calculate a message digest you create an instance of Digest
, call update
one or more times with the data over which the digest is being calculated and finally call final
to obtain the digest itself.
The update
method can take a String
let s = "The quick brown fox jumps over the lazy dog."
var md5s2 : Digest = Digest(algorithm:.MD5)
md5s2.update(s)
let digests2 = md5s2.final()
// According to Wikipedia this should be
// e4d909c290d0fb1ca068ffaddf22cbd0
hexStringFromArray(digests2)
assert(digests2 == arrayFromHexString("e4d909c290d0fb1ca068ffaddf22cbd0"))
or an array of UInt8
elements:
let b : [UInt8] =
[0x54,0x68,0x65,0x20,0x71,0x75,0x69,0x63,
0x6b,0x20,0x62,0x72,0x6f,0x77,0x6e,0x20,
0x66,0x6f,0x78,0x2e]
var md5s1 : Digest = Digest(algorithm:.MD5)
md5s1.update(b)
let digests1 = md5s1.final()
If you only have a single buffer you can simply write
var digests3 = Digest(algorithm: .md5).update(b)?.final() // digest is of type [UInt8]?
or
var digests4 = Digest(algorithm: .md5).update(s)?.final() // digest is of type [UInt8]?
Supported Algorithms
The Digest
class supports the following algorithms:
.md2
.md4
.md5
.sha1
.sha224
.sha256
.sha384
.sha512
HMAC
Using Calculating a keyed-Hash Message Authentication Code (HMAC) is very similar to calculating a message digest, except that the initialization routine now takes a key as well as an algorithm parameter.
var keys5 = arrayFrom(hexString: "0102030405060708090a0b0c0d0e0f10111213141516171819")
var datas5 : [UInt8] = Array(count:50, repeatedValue:0xcd)
var expecteds5 = arrayFrom(hexString: "4c9007f4026250c6bc8414f9bf50c86c2d7235da")
var hmacs5 = HMAC(algorithm:.sha1, key:keys5).update(datas5)?.final()
// RFC2202 says this should be 4c9007f4026250c6bc8414f9bf50c86c2d7235da
let expectedRFC2202 = arrayFrom(hexString: "4c9007f4026250c6bc8414f9bf50c86c2d7235da")
assert(hmacs5! == expectedRFC2202)
Supported Algorithms
.md5
.sha1
.sha224
.sha256
.sha384
.sha512
Cryptor
Using var key = arrayFrom(hexString: "2b7e151628aed2a6abf7158809cf4f3c")
var plainText = "The quick brown fox jumps over the lazy dog. The fox has more or less had it at this point."
var cryptor = Cryptor(operation:.encrypt, algorithm:.aes, options:.PKCS7Padding, key:key, iv:Array<UInt8>())
var cipherText = cryptor.update(plainText)?.final()
cryptor = Cryptor(operation:.decrypt, algorithm:.aes, options:.PKCS7Padding, key:key, iv:Array<UInt8>())
var decryptedPlainText = cryptor.update(cipherText!)?.final()
var decryptedString = decryptedPlainText!.reduce("") { $0 + String(UnicodeScalar($1)) }
decryptedString
assert(decryptedString == plainText)
Supported Algorithms
.AES
.DES
.TripleDES
.CAST
.RC2
.Blowfish
StreamCryptor
Using To encrypt a large file or a network stream use StreamCryptor
. The StreamCryptor
class does not accumulate the encrypted or decrypted data, instead each call to update
produces an output buffer.
The example below shows how to use StreamCryptor
to encrypt and decrypt an image file.
func crypt(sc : StreamCryptor, inputStream: NSInputStream, outputStream: NSOutputStream, bufferSize: Int)
{
var inputBuffer = Array<UInt8>(count:1024, repeatedValue:0)
var outputBuffer = Array<UInt8>(count:1024, repeatedValue:0)
inputStream.open()
outputStream.open()
var cryptedBytes : UInt = 0
while inputStream.hasBytesAvailable
{
let bytesRead = inputStream.read(&inputBuffer, maxLength: inputBuffer.count)
let status = sc.update(inputBuffer, byteCountIn: UInt(bytesRead), bufferOut: &outputBuffer, byteCapacityOut: UInt(outputBuffer.count), byteCountOut: &cryptedBytes)
assert(status == Status.Success)
if(cryptedBytes > 0)
{
let bytesWritten = outputStream.write(outputBuffer, maxLength: Int(cryptedBytes))
assert(bytesWritten == Int(cryptedBytes))
}
}
let status = sc.final(&outputBuffer, byteCapacityOut: UInt(outputBuffer.count), byteCountOut: &cryptedBytes)
assert(status == Status.Success)
if(cryptedBytes > 0)
{
let bytesWritten = outputStream.write(outputBuffer, maxLength: Int(cryptedBytes))
assert(bytesWritten == Int(cryptedBytes))
}
inputStream.close()
outputStream.close()
}
let imagePath = NSBundle.mainBundle().pathForResource("Riscal", ofType:"jpg")!
let tmp = NSTemporaryDirectory()
let encryptedFilePath = tmp.stringByAppendingPathComponent("Riscal.xjpgx")
var decryptedFilePath = tmp.stringByAppendingPathComponent("RiscalDecrypted.jpg")
var imageInputStream = NSInputStream(fileAtPath: imagePath)
var encryptedFileOutputStream = NSOutputStream(toFileAtPath: encryptedFilePath, append:false)
var encryptedFileInputStream = NSInputStream(fileAtPath: encryptedFilePath)
var decryptedFileOutputStream = NSOutputStream(toFileAtPath: decryptedFilePath, append:false)
var sc = StreamCryptor(operation:.encrypt, algorithm:.aes, options:.PKCS7Padding, key:key, iv:Array<UInt8>())
crypt(sc, imageInputStream, encryptedFileOutputStream, 1024)
// Uncomment this line to verify that the file is encrypted
//var encryptedImage = UIImage(contentsOfFile:encryptedFile)
sc = StreamCryptor(operation:.decrypt, algorithm:.aes, options:.PKCS7Padding, key:key, iv:Array<UInt8>())
crypt(sc, encryptedFileInputStream, decryptedFileOutputStream, 1024)
var image = UIImage(named:"Riscal.jpg")
var decryptedImage = UIImage(contentsOfFile:decryptedFilePath)
PBKDF
Using The PBKDF
class provides a method of deriving keys from a user password.
The following example derives a 20-byte key:
let keys6 = PBKDF.deriveKey("password", salt: "salt", prf: .SHA1, rounds: 1, derivedKeyLength: 20)
// RFC 6070 - Should derive 0c60c80f961f0e71f3a9b524af6012062fe037a6
let expectedRFC6070 = arrayFrom(hexString: "0c60c80f961f0e71f3a9b524af6012062fe037a6")
assert(keys6 == expectedRFC6070)
Supported Pseudo-Random Functions
.sha1
.sha224
.sha256
.sha384
.sha512