import 'dart:convert'; import 'package:cryptography/cryptography.dart'; import 'package:meta/meta.dart'; import 'package:omemo_dart/src/helpers.dart'; import 'package:pinenacl/api.dart'; import 'package:pinenacl/tweetnacl.dart'; const privateKeyLength = 32; const publicKeyLength = 32; class OmemoPublicKey { const OmemoPublicKey(this._pubkey); factory OmemoPublicKey.fromBytes(List bytes, KeyPairType type) { return OmemoPublicKey( SimplePublicKey( bytes, type: type, ), ); } final SimplePublicKey _pubkey; KeyPairType get type => _pubkey.type; /// Return the bytes that comprise the public key. Future> getBytes() async => _pubkey.bytes; /// Returns the public key encoded as base64. Future asBase64() async => base64Encode(_pubkey.bytes); Future toCurve25519() async { assert(type == KeyPairType.ed25519, 'Cannot convert non-Ed25519 public key to X25519',); final pkc = Uint8List(publicKeyLength); TweetNaClExt.crypto_sign_ed25519_pk_to_x25519_pk( pkc, Uint8List.fromList(await getBytes()), ); return OmemoPublicKey( SimplePublicKey(List.from(pkc), type: KeyPairType.x25519),); } SimplePublicKey asPublicKey() => _pubkey; @visibleForTesting Future equals(OmemoPublicKey key) async { return type == key.type && listsEqual( await getBytes(), await key.getBytes(), ); } } class OmemoPrivateKey { const OmemoPrivateKey(this._privkey, this.type); final List _privkey; final KeyPairType type; Future> getBytes() async => _privkey; Future toCurve25519() async { assert(type == KeyPairType.ed25519, 'Cannot convert non-Ed25519 private key to X25519',); final skc = Uint8List(privateKeyLength); TweetNaClExt.crypto_sign_ed25519_sk_to_x25519_sk( skc, Uint8List.fromList(await getBytes()), ); return OmemoPrivateKey(List.from(skc), KeyPairType.x25519); } @visibleForTesting Future equals(OmemoPrivateKey key) async { return type == key.type && listsEqual( await getBytes(), await key.getBytes(), ); } } /// A generic wrapper class for both Ed25519 and X25519 keypairs class OmemoKeyPair { const OmemoKeyPair(this.pk, this.sk, this.type); /// Create an OmemoKeyPair just from a [type] and the bytes of the private and public /// key. factory OmemoKeyPair.fromBytes( List publicKey, List privateKey, KeyPairType type,) { return OmemoKeyPair( OmemoPublicKey.fromBytes( publicKey, type, ), OmemoPrivateKey( privateKey, type, ), type, ); } /// Generate a completely new random OmemoKeyPair of type [type]. [type] must be either /// KeyPairType.ed25519 or KeyPairType.x25519. static Future generateNewPair(KeyPairType type) async { assert(type == KeyPairType.ed25519 || type == KeyPairType.x25519, 'Keypair must be either Ed25519 or X25519',); SimpleKeyPair kp; if (type == KeyPairType.ed25519) { final ed = Ed25519(); kp = await ed.newKeyPair(); } else if (type == KeyPairType.x25519) { final x = Cryptography.instance.x25519(); kp = await x.newKeyPair(); } else { // Should never happen throw Exception(); } final kpd = await kp.extract(); return OmemoKeyPair( OmemoPublicKey(await kp.extractPublicKey()), OmemoPrivateKey(await kpd.extractPrivateKeyBytes(), type), type, ); } final KeyPairType type; final OmemoPublicKey pk; final OmemoPrivateKey sk; /// Return the bytes that comprise the public key. Future toCurve25519() async { assert(type == KeyPairType.ed25519, 'Cannot convert non-Ed25519 keypair to X25519',); return OmemoKeyPair( await pk.toCurve25519(), await sk.toCurve25519(), KeyPairType.x25519, ); } Future asKeyPair() async { return SimpleKeyPairData( await sk.getBytes(), publicKey: pk.asPublicKey(), type: type, ); } @visibleForTesting Future equals(OmemoKeyPair pair) async { return type == pair.type && await pk.equals(pair.pk) && await sk.equals(pair.sk); } }