Encrypted messaging app
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9.3 KiB

import 'dart:convert';
import 'dart:math';
import 'dart:typed_data';
import 'package:pointycastle/export.dart';
import 'package:asn1lib/asn1lib.dart';
/*
var rsaKeyHelper = RsaKeyHelper();
var keyPair = rsaKeyHelper.generateRSAkeyPair();
var rsaPub = keyPair.publicKey;
var rsaPriv = keyPair.privateKey;
var cipherText = rsaKeyHelper.rsaEncrypt(rsaPub, Uint8List.fromList('Test Data'.codeUnits));
print(cipherText);
var plainText = rsaKeyHelper.rsaDecrypt(rsaPriv, cipherText);
print(String.fromCharCodes(plainText));
*/
List<int> decodePEM(String pem) {
var startsWith = [
'-----BEGIN PUBLIC KEY-----',
'-----BEGIN PUBLIC KEY-----',
'\n-----BEGIN PUBLIC KEY-----',
'-----BEGIN PRIVATE KEY-----',
'-----BEGIN PGP PUBLIC KEY BLOCK-----\r\nVersion: React-Native-OpenPGP.js 0.1\r\nComment: http://openpgpjs.org\r\n\r\n',
'-----BEGIN PGP PRIVATE KEY BLOCK-----\r\nVersion: React-Native-OpenPGP.js 0.1\r\nComment: http://openpgpjs.org\r\n\r\n',
];
var endsWith = [
'-----END PUBLIC KEY-----',
'-----END PRIVATE KEY-----',
'-----END PGP PUBLIC KEY BLOCK-----',
'-----END PGP PRIVATE KEY BLOCK-----',
];
bool isOpenPgp = pem.contains('BEGIN PGP');
for (var s in startsWith) {
if (pem.startsWith(s)) {
pem = pem.substring(s.length);
}
}
for (var s in endsWith) {
if (pem.endsWith(s)) {
pem = pem.substring(0, pem.length - s.length);
}
}
if (isOpenPgp) {
var index = pem.indexOf('\r\n');
pem = pem.substring(0, index);
}
pem = pem.replaceAll('\n', '');
pem = pem.replaceAll('\r', '');
return base64.decode(pem);
}
class RsaKeyHelper {
// Generate secure random sequence for seed
SecureRandom secureRandom() {
var secureRandom = FortunaRandom();
var random = Random.secure();
List<int> seeds = [];
for (int i = 0; i < 32; i++) {
seeds.add(random.nextInt(255));
}
secureRandom.seed(KeyParameter(Uint8List.fromList(seeds)));
return secureRandom;
}
// Generate RSA key pair
AsymmetricKeyPair<RSAPublicKey, RSAPrivateKey> generateRSAkeyPair({int bitLength = 2048}) {
var secureRandom = this.secureRandom();
// final keyGen = KeyGenerator('RSA'); // Get using registry
final keyGen = RSAKeyGenerator();
keyGen.init(ParametersWithRandom(
RSAKeyGeneratorParameters(BigInt.parse('65537'), bitLength, 64),
secureRandom));
// Use the generator
final pair = keyGen.generateKeyPair();
// Cast the generated key pair into the RSA key types
final myPublic = pair.publicKey as RSAPublicKey;
final myPrivate = pair.privateKey as RSAPrivateKey;
return AsymmetricKeyPair<RSAPublicKey, RSAPrivateKey>(myPublic, myPrivate);
}
// Encrypt data using RSA key
Uint8List rsaEncrypt(RSAPublicKey myPublic, Uint8List dataToEncrypt) {
final encryptor = OAEPEncoding(RSAEngine())
..init(true, PublicKeyParameter<RSAPublicKey>(myPublic)); // true=encrypt
return _processInBlocks(encryptor, dataToEncrypt);
}
// Decrypt data using RSA key
Uint8List rsaDecrypt(RSAPrivateKey myPrivate, Uint8List cipherText) {
final decryptor = OAEPEncoding(RSAEngine())
..init(false, PrivateKeyParameter<RSAPrivateKey>(myPrivate)); // false=decrypt
return _processInBlocks(decryptor, cipherText);
}
// Process blocks after encryption/descryption
Uint8List _processInBlocks(AsymmetricBlockCipher engine, Uint8List input) {
final numBlocks = input.length ~/ engine.inputBlockSize +
((input.length % engine.inputBlockSize != 0) ? 1 : 0);
final output = Uint8List(numBlocks * engine.outputBlockSize);
var inputOffset = 0;
var outputOffset = 0;
while (inputOffset < input.length) {
final chunkSize = (inputOffset + engine.inputBlockSize <= input.length)
? engine.inputBlockSize
: input.length - inputOffset;
outputOffset += engine.processBlock(
input, inputOffset, chunkSize, output, outputOffset);
inputOffset += chunkSize;
}
return (output.length == outputOffset)
? output
: output.sublist(0, outputOffset);
}
// Encode RSA public key to pem format
static encodePublicKeyToPem(RSAPublicKey publicKey) {
var algorithmSeq = ASN1Sequence();
var algorithmAsn1Obj = ASN1Object.fromBytes(Uint8List.fromList([0x6, 0x9, 0x2a, 0x86, 0x48, 0x86, 0xf7, 0xd, 0x1, 0x1, 0x1]));
var paramsAsn1Obj = ASN1Object.fromBytes(Uint8List.fromList([0x5, 0x0]));
algorithmSeq.add(algorithmAsn1Obj);
algorithmSeq.add(paramsAsn1Obj);
var publicKeySeq = ASN1Sequence();
publicKeySeq.add(ASN1Integer(publicKey.modulus!));
publicKeySeq.add(ASN1Integer(publicKey.exponent!));
var publicKeySeqBitString = ASN1BitString(Uint8List.fromList(publicKeySeq.encodedBytes));
var topLevelSeq = ASN1Sequence();
topLevelSeq.add(algorithmSeq);
topLevelSeq.add(publicKeySeqBitString);
var dataBase64 = base64.encode(topLevelSeq.encodedBytes);
return """-----BEGIN PUBLIC KEY-----\r\n$dataBase64\r\n-----END PUBLIC KEY-----""";
}
// Parse public key PEM file
static parsePublicKeyFromPem(pemString) {
List<int> publicKeyDER = decodePEM(pemString);
var asn1Parser = ASN1Parser(Uint8List.fromList(publicKeyDER));
var topLevelSeq = asn1Parser.nextObject() as ASN1Sequence;
var publicKeyBitString = topLevelSeq.elements[1];
var publicKeyAsn = ASN1Parser(publicKeyBitString.contentBytes()!, relaxedParsing: true);
var publicKeySeq = publicKeyAsn.nextObject() as ASN1Sequence;
var modulus = publicKeySeq.elements[0] as ASN1Integer;
var exponent = publicKeySeq.elements[1] as ASN1Integer;
RSAPublicKey rsaPublicKey = RSAPublicKey(
modulus.valueAsBigInteger!,
exponent.valueAsBigInteger!
);
return rsaPublicKey;
}
// Encode RSA private key to pem format
static encodePrivateKeyToPem(RSAPrivateKey privateKey) {
var version = ASN1Integer(BigInt.zero);
var algorithmSeq = ASN1Sequence();
var algorithmAsn1Obj = ASN1Object.fromBytes(Uint8List.fromList([
0x6, 0x9, 0x2a, 0x86, 0x48, 0x86, 0xf7, 0xd, 0x1, 0x1, 0x1
]));
var paramsAsn1Obj = ASN1Object.fromBytes(Uint8List.fromList([0x5, 0x0]));
algorithmSeq.add(algorithmAsn1Obj);
algorithmSeq.add(paramsAsn1Obj);
var privateKeySeq = ASN1Sequence();
var modulus = ASN1Integer(privateKey.n!);
var publicExponent = ASN1Integer(BigInt.parse('65537'));
var privateExponent = ASN1Integer(privateKey.privateExponent!);
var p = ASN1Integer(privateKey.p!);
var q = ASN1Integer(privateKey.q!);
var dP = privateKey.privateExponent! % (privateKey.p! - BigInt.one);
var exp1 = ASN1Integer(dP);
var dQ = privateKey.privateExponent! % (privateKey.q! - BigInt.one);
var exp2 = ASN1Integer(dQ);
var iQ = privateKey.q?.modInverse(privateKey.p!);
var co = ASN1Integer(iQ!);
privateKeySeq.add(version);
privateKeySeq.add(modulus);
privateKeySeq.add(publicExponent);
privateKeySeq.add(privateExponent);
privateKeySeq.add(p);
privateKeySeq.add(q);
privateKeySeq.add(exp1);
privateKeySeq.add(exp2);
privateKeySeq.add(co);
var publicKeySeqOctetString = ASN1OctetString(Uint8List.fromList(privateKeySeq.encodedBytes));
var topLevelSeq = ASN1Sequence();
topLevelSeq.add(version);
topLevelSeq.add(algorithmSeq);
topLevelSeq.add(publicKeySeqOctetString);
var dataBase64 = base64.encode(topLevelSeq.encodedBytes);
return """-----BEGIN PRIVATE KEY-----\r\n$dataBase64\r\n-----END PRIVATE KEY-----""";
}
static parsePrivateKeyFromPem(pemString) {
List<int> privateKeyDER = decodePEM(pemString);
var asn1Parser = ASN1Parser(Uint8List.fromList(privateKeyDER));
var topLevelSeq = asn1Parser.nextObject() as ASN1Sequence;
var version = topLevelSeq.elements[0];
var algorithm = topLevelSeq.elements[1];
var privateKey = topLevelSeq.elements[2];
asn1Parser = ASN1Parser(privateKey.contentBytes()!);
var pkSeq = asn1Parser.nextObject() as ASN1Sequence;
version = pkSeq.elements[0];
var modulus = pkSeq.elements[1] as ASN1Integer;
//var publicExponent = pkSeq.elements[2] as ASN1Integer;
var privateExponent = pkSeq.elements[3] as ASN1Integer;
var p = pkSeq.elements[4] as ASN1Integer;
var q = pkSeq.elements[5] as ASN1Integer;
var exp1 = pkSeq.elements[6] as ASN1Integer;
var exp2 = pkSeq.elements[7] as ASN1Integer;
var co = pkSeq.elements[8] as ASN1Integer;
RSAPrivateKey rsaPrivateKey = RSAPrivateKey(
modulus.valueAsBigInteger!,
privateExponent.valueAsBigInteger!,
p.valueAsBigInteger,
q.valueAsBigInteger
);
return rsaPrivateKey;
}
}