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https://github.com/Kitura/BlueCryptor

Swift cross-platform crypto library using CommonCrypto/libcrypto
https://github.com/Kitura/BlueCryptor

commoncrypto cryptography libcrypto linux macos openssl swift

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Swift cross-platform crypto library using CommonCrypto/libcrypto

Lists

README 

        


    

    APIDoc

    

    

    Build Status - Master

    

    macOS

    iOS

    Linux

    Apache 2

    

    Slack Status

    




# BlueCryptor

Swift cross-platform crypto library derived from [IDZSwiftCommonCrypto](https://github.com/iosdevzone/IDZSwiftCommonCrypto).



**IMPORTANT NOTE:** This release is **NOT** entirely source code compatible with previous releases.  There are instances where *exceptions* are thrown now instead of the framework calling *fatalError()*.  This means that there are more *recoverable* errors in the library than before.  The only time that *fatalError()* is called is to indicate either a *programming error* or a *non-recoverable system error*.



**Note:** On macOS and iOS, _BlueCryptor_ uses the Apple provided *CommonCrypto* library. On Linux, it uses *libcrypto from the OpenSSL project*.



## Prerequisites



### Swift



* Swift Open Source `swift-5.1-RELEASE` toolchain (**Minimum REQUIRED for latest release**)

* Swift Open Source `swift-5.4-RELEASE` toolchain (**Recommended**)

* Swift toolchain included in *Xcode Version 11.0 or higher*.



### macOS



* macOS 10.14.6 (*Mojave*) or higher.

* Xcode Version 11.0 or higher using one of the above toolchains.

* Xcode Version 12.5 or higher using the included toolchain (*Recommended*).

* CommonCrypto is provided by macOS.



### iOS



* iOS 10.0 or higher

* Xcode Version 11.0 or higher using one of the above toolchains.

* Xcode Version 12.5 or higher using the included toolchain (*Recommended*).

* CommonCrypto is provided by iOS.



### Linux



* Ubuntu 16.04 (or 16.10 but only tested on 16.04) and 18.04.

* One of the Swift Open Source toolchain listed above.

* OpenSSL is provided by the distribution.  **Note:** 1.0.x, 1.1.x and later releases of OpenSSL are supported.

* The appropriate **libssl-dev** package is required to be installed when building.



## Build



To build **Cryptor** from the command line:



```

% cd 

% swift build

```



## Testing



To run the supplied unit tests for **Cryptor** from the command line:



```

% cd 

% swift build

% swift test

```



## Getting started



### Including in your project



#### Swift Package Manager



To include BlueCryptor into a Swift Package Manager package, add it to the `dependencies` attribute defined in your `Package.swift` file. You can select the version using the `majorVersion` and `minor` parameters. For example:

```

	dependencies: [

		.Package(url: "https://github.com/Kitura/BlueCryptor.git", majorVersion: , minor: )

	]

```



#### Carthage

To include BlueCryptor in a project using Carthage, add a line to your `Cartfile` with the GitHub organization and project names and version. For example:

```

	github "Kitura/BlueCryptor" ~> .

```



#### CocoaPods

To include BlueCryptor in a project using CocoaPods, you just add `BlueCryptor` to your `Podfile`, for example:

```

    platform :ios, '10.0'



    target 'MyApp' do

        use_frameworks!

        pod 'BlueCryptor'

    end

```



### Before starting



The first thing you need to do is import the Cryptor framework.  This is done by the following:

```swift

import Cryptor

```



## API



### Cryptor



The following code demonstrates encryption and decryption using `AES` single block CBC mode using optional chaining.

```swift

let key = CryptoUtils.byteArray(fromHex: "2b7e151628aed2a6abf7158809cf4f3c")

let iv = CryptoUtils.byteArray(fromHex: "00000000000000000000000000000000")

let plainText = CryptoUtils.byteArray(fromHex: "6bc1bee22e409f96e93d7e117393172a")



var textToCipher = plainText

if plainText.count % Cryptor.Algorithm.aes.blockSize != 0 {

	textToCipher = CryptoUtils.zeroPad(byteArray: plainText, blockSize: Cryptor.Algorithm.aes.blockSize)

}

do {

	let cipherText = try Cryptor(operation: .encrypt, algorithm: .aes, options: .none, key: key, iv: iv).update(byteArray: textToCipher)?.final()

		

	print(CryptoUtils.hexString(from: cipherText!))

		

	let decryptedText = try Cryptor(operation: .decrypt, algorithm: .aes, options: .none, key: key, iv: iv).update(byteArray: cipherText!)?.final()



	print(CryptoUtils.hexString(from: decryptedText!))

} catch let error {

	guard let err = error as? CryptorError else {

		// Handle non-Cryptor error...

		return

	}

	// Handle Cryptor error... (See Status.swift for types of errors thrown)

}

```



### Digest



The following example illustrates generating an `MD5` digest from both a `String` and an instance of `NSData`.

```swift

let qbfBytes : [UInt8] = [0x54,0x68,0x65,0x20,0x71,0x75,0x69,0x63,0x6b,0x20,0x62,0x72,0x6f,0x77,0x6e,0x20,0x66,0x6f,0x78,0x20,0x6a,0x75,0x6d,0x70,0x73,0x20,0x6f,0x76,0x65,0x72,0x20,0x74,0x68,0x65,0x20,0x6c,0x61,0x7a,0x79,0x20,0x64,0x6f,0x67,0x2e]

let qbfString = "The quick brown fox jumps over the lazy dog."



// String...

let md5 = Digest(using: .md5)

md5.update(string: qfbString)

let digest = md5.final()



// NSData using optional chaining...

let qbfData = CryptoUtils.data(from: qbfBytes)

let digest = Digest(using: .md5).update(data: qbfData)?.final()

```



### HMAC



The following demonstrates generating an `SHA256` HMAC using byte arrays for keys and data.

```swift

let myKeyData = "0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b0b"

let myData = "4869205468657265"

let key = CryptoUtils.byteArray(fromHex: myKeyData)

let data : [UInt8] = CryptoUtils.byteArray(fromHex: myData)



let hmac = HMAC(using: HMAC.Algorithm.sha256, key: key).update(byteArray: data)?.final()

```



### Key Derivation



The following illustrates generating a key using a password, salt, number of rounds and a specified derived key length using the SHA1 algorithm. Then it shows how to generate a `String` from resultant key.

```swift

let password = "password"

let salt = salt

let rounds: UInt = 2

let derivedKeyLen = 20

do {

	let key = PBKDF.deriveKey(fromPassword: password, salt: salt, prf: .sha1, rounds: rounds, derivedKeyLength: derivedKeyLen)

	let keyString = CryptoUtils.hexString(from: key)

} catch let error {

	guard let err = error as? CryptorError else {

		// Handle non-Cryptor error...

		return

	}

	// Handle Cryptor error... (See Status.swift for types of errors thrown)

}

```



### Random Byte Generation



The following demonstrates generating random bytes of a given length.

```swift

let numberOfBytes = 256*256

do {

	let randomBytes = try Random.generate(byteCount: numberOfBytes)

} catch {

  	print("Error generating random bytes")

}

```



### Utilities



**Cryptor** also provides a set of data manipulation utility functions for conversion of data from various formats:

- To byteArray (`[UInt8]`)

	- From hex string

	- From UTF8 string

- To `Data`

	- From hex string

	- From byte array (`[UInt8]`)

- To `NSData`

	- From hex string

	- From byte array (`[UInt8]`)

- To `NSString`

	- From byte array (`[UInt8]`)

- To hexList (`String`)

	- From byte array (`[UInt8]`)



Also provided are an API to pad a byte array (`[UInt8]`) such that it is an integral number of `block size in bytes` long.

- ```func zeroPad(byteArray: [UInt8], blockSize: Int) -> [UInt8]```

- ```func zeroPad(string: String, blockSize: Int) -> [UInt8]```



## Restrictions



The following algorithm is not available on Linux since it is not supported by *OpenSSL*.

- Digest: MD2



In all cases, use of unsupported APIs or algorithms will result in a Swift `fatalError()`, terminating the program and should be treated as a programming error.



## Community



We love to talk server-side Swift and Kitura. Join our [Slack](http://swift-at-ibm-slack.mybluemix.net/) to meet the team!



## License



This library is licensed under Apache 2.0. Full license text is available in [LICENSE](https://github.com/Kitura/BlueCryptor/blob/master/LICENSE).