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Sources/CryptoSwift | ||
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README.md |
CryptoSwift
Crypto related functions and helpers for Swift implemented in Swift. (#PureSwift)
Table of Contents
Requirements
Good mood
Features
- Easy to use
- Convenient extensions for String and Data
- Support for incremental updates (stream, ...)
- iOS, macOS, AppleTV, watchOS, Linux support
Donation
to make the CryptoSwift awesome! Thank you.
Hash (Digest)
Cyclic Redundancy Check (CRC)
Cipher
Message authenticators
Cipher block mode
- Electronic codebook (ECB)
- Cipher-block chaining (CBC)
- Propagating Cipher Block Chaining (PCBC)
- Cipher feedback (CFB)
- Output Feedback (OFB)
- Counter (CTR)
Password-Based Key Derivation Function
- PBKDF1 (Password-Based Key Derivation Function 1)
- PBKDF2 (Password-Based Key Derivation Function 2)
- HKDF (HMAC-based Extract-and-Expand Key Derivation Function)
Data padding
- PKCS#5
- PKCS#7
- Zero padding
- No padding
Why
Contribution
For the latest version, please check develop branch. Changes from this branch will be merged into the master branch at some point.
- If you want to contribute, submit a pull request against a development
develop
branch. - If you found a bug, open an issue.
- If you have a feature request, open an issue.
Installation
To install CryptoSwift, add it as a submodule to your project (on the top level project directory):
git submodule add https://github.com/krzyzanowskim/CryptoSwift.git
It is recommended to enable Whole-Module Optimization to gain better performance. Non-optimized build results in significantly worse performance.
Embedded Framework
Embedded frameworks require a minimum deployment target of iOS 8 or OS X Mavericks (10.9). Drag the CryptoSwift.xcodeproj
file into your Xcode project, and add appropriate framework as a dependency to your target. Now select your App and choose the General tab for the app target. Find Embedded Binaries and press "+", then select CryptoSwift.framework
(iOS, OS X, watchOS or tvOS)
Sometimes "embedded framework" option is not available. In that case, you have to add new build phase for the target
iOS, macOS, watchOS, tvOS
In the project, you'll find single scheme for all platforms:
- CryptoSwift
Swift versions support
- Swift 1.2: branch swift12 version <= 0.0.13
- Swift 2.1: branch swift21 version <= 0.2.3
- Swift 2.2, 2.3: branch swift2 version <= 0.5.2
- Swift 3.1, branch swift3 version <= 0.6.9
- Swift 3.2, branch swift32 version = 0.7.0
- Swift 4.0, branch master version >= 0.7.1
CocoaPods
You can use CocoaPods.
platform :ios, '8.0'
use_frameworks!
target 'MyApp' do
pod 'CryptoSwift'
end
or for newest version from specified branch of code:
pod 'CryptoSwift', :git => "https://github.com/krzyzanowskim/CryptoSwift", :branch => "master"
Bear in mind that CocoaPods will build CryptoSwift without Whole-Module Optimization that my impact performance. You can change it manually after installation, or use cocoapods-wholemodule plugin.
Carthage
You can use Carthage. Specify in Cartfile:
github "krzyzanowskim/CryptoSwift"
Run carthage
to build the framework and drag the built CryptoSwift.framework into your Xcode project. Follow build instructions. Common issues.
Swift Package Manager
You can use Swift Package Manager and specify dependency in Package.swift
by adding this:
dependencies: [
.Package(url: "https://github.com/krzyzanowskim/CryptoSwift.git", majorVersion: 0)
]
or more strict
dependencies: [
.Package(url: "https://github.com/krzyzanowskim/CryptoSwift.git", "0.7.2"),
]
Usage
- Basics (data types, conversion, ...)
- Digest (MD5, SHA...)
- Message authenticators (HMAC...)
- Password-Based Key Derivation Function (PBKDF2, ...)
- HMAC-based Key Derivation Function (HKDF)
- Data Padding
- ChaCha20
- Rabbit
- Blowfish
- Advanced Encryption Standard (AES)
also check Playground
Basics
import CryptoSwift
CryptoSwift uses array of bytes aka Array<UInt8>
as a base type for all operations. Every data may be converted to a stream of bytes. You will find convenience functions that accept String
or Data
, and it will be internally converted to the array of bytes.
Data types conversion
For you convenience CryptoSwift provides two functions to easily convert array of bytes to Data
and another way around:
Data from bytes:
let data = Data(bytes: [0x01, 0x02, 0x03])
Data
to Array<UInt8>
let bytes = data.bytes // [1,2,3]
Hexadecimal encoding:
let bytes = Array<UInt8>(hex: "0x010203") // [1,2,3]
let hex = bytes.toHexString() // "010203"
Build bytes out of String
let bytes: Array<UInt8> = "password".bytes // Array("password".utf8)
Also... check out helpers that work with Base64 encoded data:
"aPf/i9th9iX+vf49eR7PYk2q7S5xmm3jkRLejgzHNJs=".decryptBase64ToString(cipher)
"aPf/i9th9iX+vf49eR7PYk2q7S5xmm3jkRLejgzHNJs=".decryptBase64(cipher)
bytes.toBase64()
Calculate Digest
Hashing a data or array of bytes (aka Array<UInt8>
)
/* Hash struct usage */
let bytes:Array<UInt8> = [0x01, 0x02, 0x03]
let digest = input.md5()
let digest = Digest.md5(bytes)
let data = Data(bytes: [0x01, 0x02, 0x03])
let hash = data.md5()
let hash = data.sha1()
let hash = data.sha224()
let hash = data.sha256()
let hash = data.sha384()
let hash = data.sha512()
do {
var digest = MD5()
let partial1 = try digest.update(withBytes: [0x31, 0x32])
let partial2 = try digest.update(withBytes: [0x33])
let result = try digest.finish()
} catch { }
Hashing a String and printing result
let hash = "123".md5() // "123".bytes.md5()
Calculate CRC
bytes.crc16()
data.crc16()
bytes.crc32()
data.crc32()
Message authenticators
// Calculate Message Authentication Code (MAC) for message
let key:Array<UInt8> = [1,2,3,4,5,6,7,8,9,10,...]
try Poly1305(key: key).authenticate(bytes)
try HMAC(key: key, variant: .sha256).authenticate(bytes)
Password-Based Key Derivation Functions
let password: Array<UInt8> = Array("s33krit".utf8)
let salt: Array<UInt8> = Array("nacllcan".utf8)
try PKCS5.PBKDF2(password: password, salt: salt, iterations: 4096, variant: .sha256).calculate()
HMAC-based Key Derivation Function
let password: Array<UInt8> = Array("s33krit".utf8)
let salt: Array<UInt8> = Array("nacllcan".utf8)
try HKDF(password: password, salt: salt, variant: .sha256).calculate()
Data Padding
Some content-encryption algorithms assume the input length is a multiple of k
octets, where k
is greater than one. For such algorithms, the input shall be padded.
Padding.pkcs7.add(to: bytes, blockSize: AES.blockSize)
Working with Ciphers
ChaCha20
let encrypted = try ChaCha20(key: key, iv: iv).encrypt(message)
let decrypted = try ChaCha20(key: key, iv: iv).decrypt(encrypted)
Rabbit
let encrypted = try Rabbit(key: key, iv: iv).encrypt(message)
let decrypted = try Rabbit(key: key, iv: iv).decrypt(encrypted)
Blowfish
let encrypted = try Blowfish(key: key, blockMode: .CBC(iv: iv), padding: .pkcs7).encrypt(message)
let decrypted = try Blowfish(key: key, blockMode: .CBC(iv: iv), padding: .pkcs7).decrypt(encrypted)
AES
Notice regarding padding: Manual padding of data is optional, and CryptoSwift is using PKCS7 padding by default. If you need manually disable/enable padding, you can do this by setting parameter for AES class
Variant of AES encryption (AES-128, AES-192, AES-256) depends on given key length:
- AES-128 = 16 bytes
- AES-192 = 24 bytes
- AES-256 = 32 bytes
AES-256 example
try AES(key: [1,2,3,...,32], blockMode: .CBC(iv: [1,2,3,...,16]), padding: .pkcs7)
All 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))
} catch { }
Incremental updates
Incremental operations use instance of Cryptor and encrypt/decrypt one part at a time, this way you can save on memory for large files.
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)
}
See Playground for sample code that work with stream.
AES Advanced usage
let input: Array<UInt8> = [0,1,2,3,4,5,6,7,8,9]
let key: Array<UInt8> = [0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00]
let iv: Array<UInt8> = AES.randomIV(AES.blockSize)
do {
let encrypted = try AES(key: key, blockMode: .CBC(iv: iv), padding: .pkcs7).encrypt(input)
let decrypted = try AES(key: key, blockMode: .CBC(iv: iv), padding: .pkcs7).decrypt(encrypted)
} catch {
print(error)
}
AES without data padding
let input: Array<UInt8> = [0,1,2,3,4,5,6,7,8,9]
let encrypted: Array<UInt8> = try! AES(key: Array("secret0key000000".utf8), blockMode: .CBC(iv: Array("0123456789012345".utf8)), padding: .noPadding).encrypt(input)
Using convenience extensions
let plain = Data(bytes: [0x01, 0x02, 0x03])
let encrypted = try! plain.encrypt(ChaCha20(key: key, iv: iv))
let decrypted = try! encrypted.decrypt(ChaCha20(key: key, iv: iv))
Author
CryptoSwift is owned and maintained by Marcin Krzyżanowski
You can follow me on Twitter at @krzyzanowskim for project updates and releases.
License
Copyright (C) 2014-2017 Marcin Krzyżanowski marcin@krzyzanowskim.com This software is provided 'as-is', without any express or implied warranty.
In no event will the authors be held liable for any damages arising from the use of this software.
Permission is granted to anyone to use this software for any purpose, including commercial applications, and to alter it and redistribute it freely, subject to the following restrictions:
- The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product documentation is required.
- Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software.
- This notice may not be removed or altered from any source or binary distribution.
Changelog
See CHANGELOG file.