Awesome
<br>JOSESwift is a modular and extensible framework for the JOSE standards JWS, JWE, and JWK written in Swift.
:bulb: Please note that this implementation of the JOSE standards is not fully complete yet. For example, there is only a limited set of supported algorithms available at the moment. Moreover we currently only support compact serialization of JOSE types. If you are missing a specific feature, algorithm, or serialization, feel free to submit a pull request.
Contents
Features
- JWS: Digitally signing and verifying arbitrary data using the JWS standard.
- JWE: Encrypting and decrypting arbitrary data using the JWE standard.
- JWK: Encoding and decoding cryptographic keys.
If you are missing a specific feature, algorithm, or serialization, feel free to submit a pull request.
Cryptographic Algorithms
<table> <tr> <th colspan="2">:lock_with_ink_pen: JWS</th> <th rowspan="19"></th> <th colspan="4">:closed_lock_with_key: JWE</th> <th rowspan="19"></th> <th colspan="2">:key: JWK</th> </tr> <tr> <th colspan="2"><a href="https://tools.ietf.org/html/rfc7518#section-3">Digital Signatures and MACs</a></th> <th colspan="2"><a href="https://tools.ietf.org/html/rfc7518#section-4">Key Management</a></th> <th colspan="2"><a href="https://tools.ietf.org/html/rfc7518#section-5">Content Encryption</a></th> <th colspan="2"><a href="https://tools.ietf.org/html/rfc7518#section-6">Keys</a></th> </tr> <tr><td><code>HS256</code></td><td>:white_check_mark:</td> <td><code>RSA1_5</code></td><td>:white_check_mark:</td> <td><code>A128CBC-HS256</code></td><td>:white_check_mark:</td> <td><code>RSA</code></td><td>:white_check_mark:</td></tr> <tr><td><code>HS384</code></td><td>:white_check_mark:</td> <td><code>RSA-OAEP</code></td><td>:white_check_mark:</td> <td><code>A192CBC-HS384</code></td><td>:white_check_mark:</td> <td><code>EC</code></td><td>:white_check_mark:</td></tr> <tr><td><code>HS512</code></td><td>:white_check_mark:</td> <td><code>RSA-OAEP-256</code></td><td>:white_check_mark:</td> <td><code>A256CBC-HS512</code></td><td>:white_check_mark:</td> <td><code>oct</code></td><td>:white_check_mark:</td></tr> <tr><td><code>RS256</code></td><td>:white_check_mark:</td> <td><code>A128KW</code></td><td>:white_check_mark:</td> <td><code>A128GCM</code></td><td>:white_check_mark:</td> <th rowspan="14"></th><th rowspan="14"></th></tr> <tr><td><code>RS384</code></td><td>:white_check_mark:</td> <td><code>A192KW</code></td><td>:white_check_mark:</td> <td><code>A192GCM</code></td><td>:white_check_mark:</td> <tr><td><code>RS512</code></td><td>:white_check_mark:</td> <td><code>A256KW</code></td><td>:white_check_mark:</td> <td><code>A256GCM</code></td><td>:white_check_mark:</td> <tr><td><code>ES256</code></td><td>:white_check_mark:</td> <td><code>dir</code></td><td>:white_check_mark:</td> <th rowspan="11"></th><th rowspan="11"></th></tr> <tr><td><code>ES384</code></td><td>:white_check_mark:</td> <td><code>ECDH-ES</code></td><td>:white_check_mark:</td></tr> <tr><td><code>ES512</code></td><td>:white_check_mark:</td> <td><code>ECDH-ES+A128KW</code></td><td>:white_check_mark:</td></tr> <tr><td><code>PS256</code></td><td>:white_check_mark:</td> <td><code>ECDH-ES+A192KW</code></td><td>:white_check_mark:</td></tr> <tr><td><code>PS384</code></td><td>:white_check_mark:</td> <td><code>ECDH-ES+A256KW</code></td><td>:white_check_mark:</td></tr> <tr><td><code>PS512</code></td><td>:white_check_mark:</td> <td><code>A128GCMKW</code></td><td></td></tr> <tr><th rowspan="5"></th><th rowspan="5"></th> <td><code>A192GCMKW</code></td><td></td></tr> <tr> <td><code>A256GCMKW</code></td><td></td></tr> <tr> <td><code>PBES2-HS256+A128KW</code></td><td>:white_check_mark:</td></tr> <tr> <td><code>PBES2-HS384+A192KW</code></td><td>:white_check_mark:</td></tr> <tr> <td><code>PBES2-HS512+A256KW</code></td><td>:white_check_mark:</td></tr> </table>Serializations
For interchangeability JOSESwift currently supports compact serialization for JWS and for JWE.
Compact Serialization | JSON Serialization |
---|---|
:white_check_mark: |
Compression Algorithms
JOSESwift supports the DEFLATE compression algorithm for JWE.
Installation
JOSESwift integrates nicely into your iOS and macOS projects. We support the following package managers:
CocoaPods
To integrate JOSESwift into your Xcode project, include it in your Podfile
:
source 'https://cdn.cocoapods.org/'
platform :ios, '13.0'
use_frameworks!
target '<Your Target Name>' do
pod 'JOSESwift', '~> 3.0'
end
Then install it by running pod install
. More documentation on using CocoaPods can be found here.
Carthage
To integrate JOSESwift in your Xcode project, include it in your Cartfile
:
github "airsidemobile/JOSESwift" ~> 3.0
Then build it by running carthage update
and drag the built framework into your Xcode project. More documentation on using Carthage can be found here.
Swift Package Manager
To integrate JOSESwift in your Xcode project as a Swift package, follow Apple's article on how to add package dependencies to your app.
Alternatively, when using Swift Package Manager manually include the following dependency in your Package.swift
file. See Apple's documentation for more details on specifying dependency version requirements.
.package(url: "https://github.com/airsidemobile/JOSESwift.git", from: "3.0.0")
Usage
JOSESwift covers three functional aspects:
JWS: Digital Signatures
A JWS
encapsulates and secures data using a digital signature which can be verified by the receiver of the JWS
.
Signing Data
In order to construct a JWS we need to provide the following parts:
- Header
- Payload
- Signer
Header
var header = JWSHeader(algorithm: .RS512)
You can set registered header parameters via convenient accessors:
header.kid = "2018-10-08"
header.typ = "JWS"
Public and private header parameters can be set and read like so:
try header.set("rice", forParameter: "meal")
let meal = header.get(parameter: "meal") // "rice"
header.remove(parameter: "meal")
Payload
let message = "Summer ⛱, Sun ☀️, Cactus 🌵".data(using: .utf8)!
let payload = Payload(message)
Signer
The signer algorithm must match the header algorithm.
let privateKey: SecKey = /* ... */
let signer = Signer(signingAlgorithm: .RS512, privateKey: privateKey)!
Serializing
The JWS compact serialization is a URL-safe string that can easily be transmitted to a third party using a method of your choice.
guard let jws = try? JWS(header: header, payload: payload, signer: signer) else { ... }
print(jws.compactSerializedString) // ey (...) J9.U3 (...) LU.na (...) 1A
More details about constructing a JWS can be found in the wiki.
Verifying Data
let publicKey: SecKey = /* ... */
let serialization = "ey (..) n0.HK (..) pQ.yS (..) PA.AK (..) Jx.hB (..) 7w"
do {
let jws = try JWS(compactSerialization: serialization)
let verifier = Verifier(verifyingAlgorithm: .RS512, publicKey: publicKey)!
let payload = try jws.validate(using: verifier).payload
let message = String(data: payload.data(), encoding: .utf8)!
print(message) // Summer ⛱, Sun ☀️, Cactus 🌵
}
More details about verifying an existing, serialized JWS can be found in the wiki.
JWE: Encryption and Decryption
A JWE encapsulates and secures data by encrypting it. It can be decrypted by the receiver of the JWE.
Encrypting Data
In order to construct a JWE we need to provide the following parts:
- Header
- Payload
- Encrypter
Header
var header = JWEHeader(keyManagementAlgorithm: .RSA1_5, contentEncryptionAlgorithm: .A256CBCHS512)
You can set registered header parameters:
header.kid = "2018-10-08"
header.typ = "JWE"
Public and private header parameters can be set and read like so:
try header.set("rice", forParameter: "meal")
let meal = header.get(parameter: "meal") // "rice"
header.remove(parameter: "meal")
Payload
let message = "Summer ⛱, Sun ☀️, Cactus 🌵".data(using: .utf8)!
let payload = Payload(message)
Encrypter
The encrypter algorithms must match the header algorithms.
let publicKey: SecKey = /* ... */
let encrypter = Encrypter(keyManagementAlgorithm: .RSA1_5, contentEncryptionAlgorithm: .A256CBCHS512, encryptionKey: publicKey)!
Note that the type of the provided encryption key must match the specified key management algorithm as shown in the following table.
Key Management Algorithm | Encryption Key Type |
---|---|
RSA1_5 | SecKey |
RSAOAEP | SecKey |
RSAOAEP256 | SecKey |
A128KW | Data |
A192KW | Data |
A256KW | Data |
direct | Data |
Serialization
The JWE compact serialization is a URL-safe string that can easily be transmitted to a third party using a method of your choice.
guard let jwe = try? JWE(header: header, payload: payload, encrypter: encrypter) else { ... }
print(jwe.compactSerializedString) // ey (..) n0.HK (..) pQ.yS (..) PA.AK (..) Jx.hB (..) 7w
More details about constructing a JWE can be found in the wiki.
Decrypting Data
let privateKey: SecKey = /* ... */
let serialization = "ey (..) n0.HK (..) pQ.yS (..) PA.AK (..) Jx.hB (..) 7w"
do {
let jwe = try JWE(compactSerialization: serialization)
let decrypter = Decrypter(keyManagementAlgorithm: .RSA1_5, contentEncryptionAlgorithm: .A256CBCHS512, decryptionKey: privateKey)!
let payload = try jwe.decrypt(using: decrypter)
let message = String(data: payload.data(), encoding: .utf8)!
print(message) // Summer ⛱, Sun ☀️, Cactus 🌵
}
More details about decrypting an existing, serialized JWE can be found in the wiki.
Note that the type of the provided decryption key must match the specified key management algorithm as shown in the following table.
Key Management Algorithm | Decryption Key Type |
---|---|
RSA1_5 | SecKey |
RSAOAEP | SecKey |
RSAOAEP256 | SecKey |
A128KW | Data |
A192KW | Data |
A256KW | Data |
direct | Data |
JWK: Representing Keys
A JWK is a JSON data structure that represents a cryptographic key. You could use it, for instance, as the payload of a JWS or a JWE to transmit your public key to a server.
Encoding RSA Public Keys
let publicKey: SecKey = /* ... */
let jwk = try! RSAPublicKey(publicKey: publicKey)
let json = jwk.jsonString()! // {"kty":"RSA","n":"MHZ4L...uS2d3","e":"QVFBQg"}
More details about encoding RSA public keys can be found in the wiki.
Decoding RSA Public Keys
let json: Data = /* ... */
let jwk = try! RSAPublicKey(data: json)
let publicKey: SecKey = try! jwk.converted(to: SecKey.self)
More details about decoding RSA public keys can be found in the wiki.
:warning: We currently ignore the key parameters "key_ops"
and "x5c"
when decoding. This is due to a bug in our decoding implementation. See #117 for details.
Security
JOSESwift uses Apple's Security framework, Apple’s CommonCrypto, and Apples's CryptoKit for cryptography.
For security disclosures or related matters, please contact joseswift@airsidemobile.com.
See our security policy for more information.
Contributing
Contributions to the project are encouraged and more than welcome. :nerd_face:
If you want to contribute, please submit a pull request. For feature requests, discussions, or bug reports, just open an issue.
See our contributing guidelines for more information.
Resources
You can find detailed information about the relevant JOSE standards in the respective RFCs:
- RFC-7515: JSON Web Signature (JWS)
- RFC-7516: JSON Web Encryption (JWE)
- RFC-7517: JSON Web Key (JWK)
- RFC-7518: JSON Web Algorithms (JWA)
Don’t forget to check our our wiki for more detailed documentation.
Contact
Feel free to contact the project maintainers at joseswift@airsidemobile.com.
Credits
JOSESwift is maintained by Airside Mobile.
Project Maintainers
Logo
The logo was designed by Ivan Leuzzi.
Thanks
To the following projects, which served us as reference and inspiration during development:
License
JOSESwift is licensed under the Apache License 2.0. See LICENSE for details.