This project is a Swift adaptation of the portable C Ed25519
implementation available here.
The complete functionality,
including the key exchange and scalar addition functions are available.
On both macOS and Linux systems, /dev/urandom
will be used for generating seeds.
To integrate the library in your SwiftPM project, add the following dependency to Package.swift:
.Package(url: "https://github.com/bytehubio/ed25519.git", branch: "master")
let seed = try Seed()
Creates a 32 byte random seed for key generation.
May throw Ed25519Error.seedGenerationFailed
in case there was a problem with reading from /dev/urandom
.
let seedBytes: [UInt8] = [ ... ]
let seed2 = try Seed(bytes: bytes)
Creates a seed for key generation with a previously known value.
bytes
must be an array of 32 bytes, otherwise Ed25519Error.invalidSeedLength
will be thrown.
let keyPair = KeyPair(seed: seed)
Creates a new key pair from the given seed.
let pubBytes: [UInt8] = [ ... ]
let privBytes: [UInt8] = [ ... ]
let keyPair2 = try KeyPair(publicKey: pubBytes, privateKey: privBytes)
Creates a key pair from the previously known public and private keys.
Throws Ed25519Error.invalidPublicKeyLength
if the public key is not 32,
or Ed25519Error.invalidPrivateKeyLength
if the private key is not 64 bytes long.
let publicKey = try PublicKey(pubBytes)
let privateKey = try PrivateKey(privBytes)
let keyPair3 = KeyPair(publicKey: publicKey, privateKey: privateKey)
Construct public and private keys directly.
The same length limitations and exceptions apply.
publicKey.bytes
privateKey.bytes
keyPair.publicKey.bytes
keyPair.privateKey.bytes
seed.bytes
Access raw byte arrays behind any key or seed with the bytes
property.
let message: [UInt8] = [ ... ]
let signature: [UInt8] = keyPair.sign(message: message)
Creates a signature of the given message with the given key pair.
signature
will be an array of 64 bytes.
let valid: Bool = try keyPair.verify(signature: signature, message: message)
let valid2: Bool = try publicKey.verify(signature: signature, message: message)
Verifies the signature on the given message using a key pair or a public key.
Both methods throw Ed25519Error.invalidSignatureLength
if signature
is not an array of 64 bytes.
let scalar: [UInt8] = [ ... ]
let keyPairMod = try keyPair.add(scalar: scalar)
let publicKeyMod = try publicKey.add(scalar: scalar)
let privateKeyMod = try privateKey.add(scalar: scalar)
Adds scalar
to the given key pair, public or private key, where scalar is a 32 byte buffer (possibly
generated with a seed), generating new key(s). This is useful for enforcing
randomness on a key pair by a third party while only knowing the public key,
among other things. Warning: the last bit of the scalar is ignored - if
comparing scalars make sure to ignore scalar[31]
.
let sharedSecret = keyPair.keyExchange()
let sharedSecret2 = try KeyPair.keyExchange(publicKey: pubBytes, privateKey: privBytes)
let sharedSecret3 = KeyPair.keyExchange(publicKey: publicKey, privateKey: privateKey)
Performs a key exchange on the given public key and private key, producing a shared secret, an array of 32 bytes. It is recommended to hash the shared secret before using it.
Check the unit tests for usage examples.
The Swift library is released under the MIT license. See LICENSE for details.
The C implementation is (c) 2015 Orson Peters, licensed under the permissive zlib license. See license.txt in CEd25519 for details.