dart_pg 1.5.1 dart_pg: ^1.5.1 copied to clipboard
Dart PG (Dart Privacy Guard) - The OpenPGP implementation in Dart language.
Dart PG (Dart Privacy Guard) - The OpenPGP library in Dart language #
Dart PG is an implementation of the OpenPGP standard in Dart language. It implements RFC4880, RFC5581, RFC6637, parts of RFC4880bis.
Features #
- Support data signing & encryption.
- Support key management: key generation, key reading, key decryption.
- Support public-key algorithms: RSA, DSA, ElGamal, ECDSA, EdDSA and ECDH.
- Support symmetric ciphers: 3DES, IDEA, CAST5, Blowfish, Twofish, AES, Camellia.
- Support AEAD algorithms: EAX, OCB, GCM.
- Support hash algorithms: MD5, SHA-1, RIPEMD-160, SHA-256, SHA-384, SHA-512, SHA-224.
- Support compression algorithms: ZIP, ZLIB.
- Support ECC curves: secP256k1, secP384r1, secP521r1, brainpoolP256r1, brainpoolP384r1, brainpoolP512r1, curve25519, ed25519, prime256v1.
Getting started #
In Dart
or Flutter
project add the dependency:
dependencies:
...
dart_pg:
Usage #
Encrypt and decrypt data with a password #
const text = 'Hello Dart PG!';
const password = 'secret stuff';
final encryptedMessage = await OpenPGP.encrypt(
OpenPGP.createTextMessage(text), passwords: [password]
);
final encrypted = encryptedMessage.armor();
final decryptedMessage = await OpenPGP.decrypt(
OpenPGP.readMessage(encrypted), passwords: [password]
);
final decrypted = decryptedMessage.armor();
Encrypt and decrypt data with PGP keys #
Encryption will use the algorithm preferred by the public (encryption) key (defaults to aes256 for keys generated), and decryption will use the algorithm used for encryption.
const text = 'Hello Dart PG!';
const passphrase = 'secret stuff';
const armoredPublicKey = '-----BEGIN PGP PUBLIC KEY BLOCK-----';
const armoredPrivateKey = '-----BEGIN PGP PRIVATE KEY BLOCK-----';
final publicKey = await OpenPGP.readPublicKey(armoredPublicKey);
final privateKey = await OpenPGP.decryptPrivateKey(armoredPrivateKey, passphrase);
final encryptedMessage = await OpenPGP.encrypt(
OpenPGP.createTextMessage(text), encryptionKeys: [publicKey]
);
final encrypted = encryptedMessage.armor();
final decryptedMessage = await OpenPGP.decrypt(
OpenPGP.readMessage(encrypted), decryptionKeys: [privateKey]
);
final decrypted = decryptedMessage.armor();
Sign message & encrypt with multiple public keys:
final text = 'Hello Dart PG!';
const passphrase = 'secret stuff';
const armoredPublicKeys = ['-----BEGIN PGP PUBLIC KEY BLOCK-----'];
const armoredPrivateKey = '-----BEGIN PGP PRIVATE KEY BLOCK-----';
final publicKeys = await Future.wait(
armoredPublicKeys.map((armored) => OpenPGP.readPublicKey(armored))
);
final privateKey = await OpenPGP.decryptPrivateKey(armoredPrivateKey, passphrase);
final encryptedMessage = await OpenPGP.encrypt(
OpenPGP.createTextMessage(text),
encryptionKeys: publicKeys,
signingKeys: [privateKey],
);
final encrypted = encryptedMessage.armor();
Sign and verify cleartext #
const text = 'Hello Dart PG!';
const passphrase = 'secret stuff';
const armoredPublicKey = '-----BEGIN PGP PUBLIC KEY BLOCK-----';
const armoredPrivateKey = '-----BEGIN PGP PRIVATE KEY BLOCK-----';
final publicKey = await OpenPGP.readPublicKey(armoredPublicKey);
final privateKey = await OpenPGP.decryptPrivateKey(armoredPrivateKey, passphrase);
final signedMessage = await OpenPGP.sign(text, signingKeys: [privateKey]);
final signed = signedMessage.armor();
final verifiedMessage = await OpenPGP.verify(signed, verificationKeys: [publicKey]);
final verifications = verifiedMessage.verifications;
Detached sign and verify cleartext #
const text = 'Hello Dart PG!';
const passphrase = 'secret stuff';
const armoredPublicKey = '-----BEGIN PGP PUBLIC KEY BLOCK-----';
const armoredPrivateKey = '-----BEGIN PGP PRIVATE KEY BLOCK-----';
final publicKey = await OpenPGP.readPublicKey(armoredPublicKey);
final privateKey = await OpenPGP.decryptPrivateKey(armoredPrivateKey, passphrase);
final signature = await OpenPGP.signDetached(text, signingKeys: [privateKey]);
final armored = signature.armor();
final cleartextMessage = await OpenPGP.verifyDetached(
text, armored, verificationKeys: [publicKey]
);
final verifications = cleartextMessage.verifications;
Generate new key pair #
rsa type:
const passphrase = 'secret stuff';
final userID = [name, '($comment)', '<$email>'].join(' ');
final privateKey = await OpenPGP.generateKey(
[userID],
passphrase,
type: KeyGenerationType.rsa,
rsaKeySize: RSAKeySize.s4096,
);
final publicKey = privateKey.toPublic;
dsa type (uses DSA algorithm for signing & ElGamal algorithm for encryption):
const passphrase = 'secret stuff';
final userID = [name, '($comment)', '<$email>'].join(' ');
final privateKey = await OpenPGP.generateKey(
[userID],
passphrase,
type: KeyGenerationType.dsa,
dhKeySize: DHKeySize.l2048n224,
);
final publicKey = privateKey.toPublic;
ecdsa type (uses ECDSA algorithm for signing & ECDH algorithm for encryption): Possible values for curve are secp256k1, secp384r1, secp521r1, brainpoolp256r1, brainpoolp384r1, brainpoolp512r1 and prime256v1
const passphrase = 'secret stuff';
final userID = [name, '($comment)', '<$email>'].join(' ');
final privateKey = await OpenPGP.generateKey(
[userID],
passphrase,
type: KeyGenerationType.ecdsa,
curve: CurveInfo.secp521r1,
);
final publicKey = privateKey.toPublic;
eddsa type (uses EdDSA algorithm with ed25519 for signing & ECDH algorithm with curve25519 for encryption):
const passphrase = 'secret stuff';
final userID = [name, '($comment)', '<$email>'].join(' ');
final privateKey = await OpenPGP.generateKey(
[userID],
passphrase,
type: KeyGenerationType.eddsa,
);
final publicKey = privateKey.toPublic;
Development #
To create your own build of the library, just run the following command after cloning the git repo. This will download all dependencies, run the tests
dart pub get && dart test
Licensing #
For the full copyright and license information, please view the LICENSE
file that was distributed with this source code.