public static string GeneratePassword(int minimumLength = -1, int maximumLength = -1, int minimumLowerAlphaCount = -1, int minimumUpperAlphaCount = -1, int minimumNumericCount = -1, int minimumNonAlphaNumericCount = -1, int maximumPatternMatchLength = -1, string pattern = null) { string result; while (true) { result = RandomStringGenerator.GenerateRandomString(minimumLength, maximumLength, minimumLowerAlphaCount, minimumUpperAlphaCount, minimumNumericCount, minimumNonAlphaNumericCount, maximumPatternMatchLength, pattern); if (VerifyPasswordComplexity(result, minimumLength, maximumLength, minimumLowerAlphaCount, minimumUpperAlphaCount, minimumNumericCount, minimumNonAlphaNumericCount, maximumPatternMatchLength, pattern)) { break; } } return(result); }
private static void InitializeObscurity() { encryptKeyArray = new string[_randomizationLevel]; for (int i = 0; i < encryptKeyArray.Length; i++) { bool validated = false; while (!validated) { encryptKeyArray[i] = RandomStringGenerator.GenerateRandomString(24, 24, 2, 2, 2, 2); validated = RandomStringGenerator.ValidateRandomString(encryptKeyArray[i], 24, 24, 2, 2, 2, 2); } } initVectorArray = new string[_randomizationLevel]; for (int i = 0; i < initVectorArray.Length; i++) { bool validated = false; while (!validated) { initVectorArray[i] = RandomStringGenerator.GenerateRandomString(16, 16, 2, 2, 2, 2); validated = RandomStringGenerator.ValidateRandomString(initVectorArray[i], 16, 16, 2, 2, 2, 2); } } }