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Contents.swift
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Contents.swift
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/*:
To whom may be concerned: I offer professional support to all my open source projects.
Contact: [[email protected]](http://krzyzanowskim.com)
*/
import CryptoSwift
import Foundation
/*:
# Data types conversinn
*/
let data = Data(bytes: [0x01, 0x02, 0x03])
let bytes = data.bytes
let bytesHex = Array<UInt8>(hex: "0x010203")
let hexString = bytesHex.toHexString()
/*:
# Digest
*/
data.md5()
data.sha1()
data.sha224()
data.sha256()
data.sha384()
data.sha512()
bytes.sha1()
"123".sha1()
Digest.sha1(bytes)
//: Digest calculated incrementally
do {
var digest = MD5()
_ = try digest.update(withBytes: [0x31, 0x32])
_ = try digest.update(withBytes: [0x33])
let result = try digest.finish()
print(result)
} catch {}
/*:
# CRC
*/
bytes.crc16()
bytes.crc32()
bytes.crc32c()
/*:
# HMAC
*/
do {
let key: Array<UInt8> = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 23, 25, 26, 27, 28, 29, 30, 31, 32]
try Poly1305(key: key).authenticate(bytes)
try HMAC(key: key, variant: .sha256).authenticate(bytes)
} catch {}
/*:
# PBKDF1, PBKDF2
*/
do {
let password: Array<UInt8> = Array("s33krit".utf8)
let salt: Array<UInt8> = Array("nacllcan".utf8)
try PKCS5.PBKDF1(password: password, salt: salt, variant: .sha1, iterations: 4096).calculate()
let value = try PKCS5.PBKDF2(password: password, salt: salt, iterations: 4096, variant: .sha256).calculate()
print(value)
} catch {}
/*:
# Padding
*/
Padding.pkcs7.add(to: bytes, blockSize: AES.blockSize)
/*:
# ChaCha20
*/
do {
let key: Array<UInt8> = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32]
let iv: Array<UInt8> = [1, 2, 3, 4, 5, 6, 7, 8]
let message = Array<UInt8>(repeating: 7, count: 10)
let encrypted = try ChaCha20(key: key, iv: iv).encrypt(message)
let decrypted = try ChaCha20(key: key, iv: iv).decrypt(encrypted)
print(decrypted)
} catch {
print(error)
}
/*:
# AES
### One-time shot.
Encrypt all data at once.
*/
do {
let aes = try AES(key: "passwordpassword", iv: "drowssapdrowssap") // aes128
let ciphertext = try aes.encrypt(Array("Nullam quis risus eget urna mollis ornare vel eu leo.".utf8))
print(ciphertext.toHexString())
} catch {
print(error)
}
/*:
### Incremental encryption
Instantiate Encryptor for AES encryption (or decryptor for decryption) and process input data partially.
*/
do {
var encryptor = try AES(key: "passwordpassword", iv: "drowssapdrowssap").makeEncryptor()
var ciphertext = Array<UInt8>()
// aggregate partial results
ciphertext += try encryptor.update(withBytes: Array("Nullam quis risus ".utf8))
ciphertext += try encryptor.update(withBytes: Array("eget urna mollis ".utf8))
ciphertext += try encryptor.update(withBytes: Array("ornare vel eu leo.".utf8))
// finish at the end
ciphertext += try encryptor.finish()
print(ciphertext.toHexString())
} catch {
print(error)
}
/*:
### Encrypt stream
*/
do {
// write until all is written
func writeTo(stream: OutputStream, bytes: Array<UInt8>) {
var writtenCount = 0
while stream.hasSpaceAvailable && writtenCount < bytes.count {
writtenCount += stream.write(bytes, maxLength: bytes.count)
}
}
let aes = try AES(key: "passwordpassword", iv: "drowssapdrowssap")
var encryptor = try! aes.makeEncryptor()
// prepare streams
let data = Data(bytes: (0 ..< 100).map { $0 })
let inputStream = InputStream(data: data)
let outputStream = OutputStream(toMemory: ())
inputStream.open()
outputStream.open()
var buffer = Array<UInt8>(repeating: 0, count: 2)
// encrypt input stream data and write encrypted result to output stream
while inputStream.hasBytesAvailable {
let readCount = inputStream.read(&buffer, maxLength: buffer.count)
if readCount > 0 {
try encryptor.update(withBytes: buffer[0 ..< readCount]) { bytes in
writeTo(stream: outputStream, bytes: bytes)
}
}
}
// finalize encryption
try encryptor.finish { bytes in
writeTo(stream: outputStream, bytes: bytes)
}
// print result
if let ciphertext = outputStream.property(forKey: Stream.PropertyKey(rawValue: Stream.PropertyKey.dataWrittenToMemoryStreamKey.rawValue)) as? Data {
print("Encrypted stream data: \(ciphertext.toHexString())")
}
} catch {
print(error)
}