steel_crypt 0.4.1

A collection of high-level API's exposing PointyCastle/encrypt to perform hashing and encrypting in popular and/or secure algorithms.

Steel Crypt

A comprehensive library of high-level, cryptographic API's from PointyCastle/encrypt. This library currently supports hashing, two-way encryption, and key/IV generation:

2-Way Symmetric (class SymCrypt)

• AES with PKCS7 Padding ('AES') (Default Encryption)
• Salsa20 ('Salsa20')
• More planned...
• Note: AES requires 16 bytes of IV, whereas Salsa 20 requires 8

2-Way Asymmetric (class RsaCrypt)

• RSA
• Note: RsaCrypt is non-traditional. It auto-generates keys and stores them. However, it requires authentication text on the user end to work correctly.

Hashing (class HashCrypt)

• SHA-3 ('SHA-3/___') :

  • /224
  • /256
  • /384
  • /512 (Default Hash)

• SHA-2 ('SHA-___'):

  • -224
  • -256
  • -384
  • -512

• SHA-1 ('SHA-1') UNSECURE

• Tiger ('Tiger')

• Blake2b ('Blake2b')

• RipeMD ('RIPEMD-___'):

  • -128
  • -160
  • -256
  • -320

• MD5 ('MD5') UNSECURE

• MD4 ('MD4') UNSECURE

• MD2 ('MD2') UNSECURE

• Note: HMAC + key can be added to any of the above using the .hashHMAC(input, key) function.

• Note: Compare plaintext to hashtext using .checkpass(plain, hashed) and .checkpassHMAC(plain, hashed, key)

Key/IV Generation (class CryptKey)

• Generates cryptographically secure keys + IV's
• Keys default to length 32, IV's to length 16

Usage

A simple usage example:

import 'package:steel_crypt/steel_crypt.dart';

main() {

  var private = CryptKey().genKey();



  var encrypter = SymCrypt(private, 'AES');

  var encrypter2 = RsaCrypt();


  var hasher = HashCrypt();

  var hasher2 = HashCrypt('SHA-3/256');


  var iv = CryptKey().genIV(16);



  print(private);


  print(hasher.hash('word'));

  var hash = hasher.hash('word');

  print(hasher.checkpass('word', hash));


  print(hasher2.hashHMAC('word', private));


  print(encrypter.encrypt('word', iv));

  String crypted = encrypter.encrypt('word', iv);

  print(encrypter.decrypt(crypted, iv));



  var crypted2 = encrypter2.encrypt('word', "This is authentication text...");

  print(encrypter2.getString(crypted2));

  print(encrypter2.decrypt(crypted2));

}

Notes

• Use in production AT YOUR OWN RISK.
• This is a work-in-progress, but will be actively maintained.
• Please file feature requests and bugs at the issue tracker.
• I'm busy, so file a PR for new features if possible...

TODO's

• ✅ Create Project + add "Starter Set" of algorithms
• ✅ Add more, different hashes
• ❌ Add CMAC
• ❌ Add more, different 2-way encryption algorithms + packaging options
• ✅ Tackle adding an RSA solution OR expose crypto_tool's RSA
• ✅ Create a more complete password solution
• ❌ Add more detailed example

Reading

• Look at these links for further information on ciphers, hashes, and terminology used here:
  • https://en.wikipedia.org/wiki/Salsa20
  • https://en.wikipedia.org/wiki/Advanced_Encryption_Standard
  • https://en.wikipedia.org/wiki/RSA_(cryptosystem)
  • https://en.wikipedia.org/wiki/SHA-2
  • https://en.wikipedia.org/wiki/SHA-1
  • https://en.wikipedia.org/wiki/MD5
  • https://en.wikipedia.org/wiki/HMAC
  • https://en.wikipedia.org/wiki/PKCS_1
  • https://en.wikipedia.org/wiki/Padding_(cryptography)#PKCS#5_and_PKCS#7
  • https://en.wikipedia.org/wiki/Initialization_vector
  • https://en.wikipedia.org/wiki/Cryptographic_hash_function
  • https://en.wikipedia.org/wiki/Symmetric-key_algorithm
  • https://en.wikipedia.org/wiki/Public-key_cryptography

Licensed under the Mozilla Public License 2.0