目录
查看Navicat加密的数据库密码1、打开运行窗口,输入regedit,点击确认按钮,打开注册表编辑器2、在注册表中找到Navicat加密后的密码3、打开PHP在线运行工具,粘贴解密代码4. 修改倒数第三行NavicatPassword的版本值5、更改倒数第二行decrypt()方法中的字符串为Navicat加密后的密码6、点击执行,右侧得到解密后的密码附录:navicat找出加密的密码Navicat导出(推荐)解密密文查看Navicat加密的数据库密码
背景:本机装的MySQL数据库密码忘记了,打开了Navicat连接过数据库,不过密码是加密的,既然能加密那就能解密,哈哈哈哈。
【资料图】
解密后发现密码居然是password,好尴尬
1、打开运行窗口,输入regedit,点击确认按钮,打开注册表编辑器
2、在注册表中找到Navicat加密后的密码
展开【HKEY_CURRENT_USER】展开【Software】展开【PremiumSoft】展开【NavicatPG】展开【Servers】选择 【MySQL】右侧找到 pwd,双击并复制数值数据3、打开PHP在线运行工具,粘贴解密代码
工具地址:https://tool.lu/coderunner复制解密代码到工具中version = $version; $this->blowKey = sha1("3DC5CA39", true); $this->blowIv = hex2bin("d9c7c3c8870d64bd"); } public function encrypt($string) { $result = FALSE; switch ($this->version) { case 11: $result = $this->encryptEleven($string); break; case 12: $result = $this->encryptTwelve($string); break; default: break; } return $result; } protected function encryptEleven($string) { $round = intval(floor(strlen($string) / 8)); $leftLength = strlen($string) % 8; $result = ""; $currentVector = $this->blowIv; for ($i = 0; $i < $round; $i++) { $temp = $this->encryptBlock($this->xorBytes(substr($string, 8 * $i, 8), $currentVector)); $currentVector = $this->xorBytes($currentVector, $temp); $result .= $temp; } if ($leftLength) { $currentVector = $this->encryptBlock($currentVector); $result .= $this->xorBytes(substr($string, 8 * $i, $leftLength), $currentVector); } return strtoupper(bin2hex($result)); } protected function encryptBlock($block) { return openssl_encrypt($block, "BF-ECB", $this->blowKey, OPENSSL_RAW_DATA|OPENSSL_NO_PADDING); } protected function decryptBlock($block) { return openssl_decrypt($block, "BF-ECB", $this->blowKey, OPENSSL_RAW_DATA|OPENSSL_NO_PADDING); } protected function xorBytes($str1, $str2) { $result = ""; for ($i = 0; $i < strlen($str1); $i++) { $result .= chr(ord($str1[$i]) ^ ord($str2[$i])); } return $result; } protected function encryptTwelve($string) { $result = openssl_encrypt($string, "AES-128-CBC", $this->aesKey, OPENSSL_RAW_DATA, $this->aesIv); return strtoupper(bin2hex($result)); } public function decrypt($string) { $result = FALSE; switch ($this->version) { case 11: $result = $this->decryptEleven($string); break; case 12: $result = $this->decryptTwelve($string); break; default: break; } return $result; } protected function decryptEleven($upperString) { $string = hex2bin(strtolower($upperString)); $round = intval(floor(strlen($string) / 8)); $leftLength = strlen($string) % 8; $result = ""; $currentVector = $this->blowIv; for ($i = 0; $i < $round; $i++) { $encryptedBlock = substr($string, 8 * $i, 8); $temp = $this->xorBytes($this->decryptBlock($encryptedBlock), $currentVector); $currentVector = $this->xorBytes($currentVector, $encryptedBlock); $result .= $temp; } if ($leftLength) { $currentVector = $this->encryptBlock($currentVector); $result .= $this->xorBytes(substr($string, 8 * $i, $leftLength), $currentVector); } return $result; } protected function decryptTwelve($upperString) { $string = hex2bin(strtolower($upperString)); return openssl_decrypt($string, "AES-128-CBC", $this->aesKey, OPENSSL_RAW_DATA, $this->aesIv); } }; //需要指定版本两种,11或12 //$navicatPassword = new NavicatPassword(11); $navicatPassword = new NavicatPassword(12); //解密 //$decode = $navicatPassword->decrypt("15057D7BA390"); $decode = $navicatPassword->decrypt("E75BF077AB8BAA3AC2D5"); // 替换成上一步的数据数值 echo $decode."\n"; ?>
4. 修改倒数第三行NavicatPassword的版本值
5、更改倒数第二行decrypt()方法中的字符串为Navicat加密后的密码
6、点击执行,右侧得到解密后的密码
附录:navicat找出加密的密码
Navicat(11.2.7、12.1.15、15.1.17、16.0.6上述版本均已通过测试)进入注册表进行查询使用【Win】+ 【R】组合快捷键,快速打开运行命令框,在打开后面键入命令:【Regedit】打开注册表编辑器
文件路径:
计算机\HKEY_CURRENT_USER\SOFTWARE\PremiumSoft\Navicat\Servers\
以Navicat16为例,通过上方路径,找到注册表中存储密码值的位置(如下图),选中要查看密码的连接名称,双击Pwd项,复制对应的值,至此获得了密文
Navicat导出(推荐)
以Navicat16为例,菜单栏上点击文件,选择导出连接...,一定要选中导出密码!!!导出格式为*.ncx(该ncx本质上是xml文件,文件中包含连接的全部信息)
注:Navicat11版本没有勾选导出密码选项,直接导出即可;Navicat12+版本要勾选【导出密码】选项!
解密密文
Go
https://www.nhooo.com/tool/java8/
运行代码
Go
import javax.crypto.Cipher; import javax.crypto.spec.IvParameterSpec; import javax.crypto.spec.SecretKeySpec; import javax.xml.bind.DatatypeConverter; import java.nio.charset.StandardCharsets; import java.security.MessageDigest; import java.util.Arrays; public class Main { public static void main(String []args) { //navicat11解密 Navicat11Cipher de = new Navicat11Cipher(); System.out.println(de.decryptString("密文放此处")); //navicat12+解密 Navicat12Cipher de12 = new Navicat12Cipher(); System.out.println(de12.decryptString("密文放此处")); } static class Navicat11Cipher { public static final String DefaultUserKey = "3DC5CA39"; private static byte[] _IV; private static SecretKeySpec _Key; private static Cipher _Encryptor; private static Cipher _Decryptor; private static void initKey(String UserKey) { try { MessageDigest sha1 = MessageDigest.getInstance("SHA1"); byte[] userkey_data = UserKey.getBytes(StandardCharsets.UTF_8); sha1.update(userkey_data, 0, userkey_data.length); _Key = new SecretKeySpec(sha1.digest(), "Blowfish"); } catch (Exception e) { e.printStackTrace(); } } private static void initChiperEncrypt() { try { // Must use NoPadding _Encryptor = Cipher.getInstance("Blowfish/ECB/NoPadding"); _Encryptor.init(Cipher.ENCRYPT_MODE, _Key); } catch (Exception e) { e.printStackTrace(); } } private static void initChiperDecrypt() { try { // Must use NoPadding _Decryptor = Cipher.getInstance("Blowfish/ECB/NoPadding"); _Decryptor.init(Cipher.DECRYPT_MODE, _Key); } catch (Exception e) { e.printStackTrace(); } } private static void initIV() { try { byte[] initVec = DatatypeConverter.parseHexBinary("FFFFFFFFFFFFFFFF"); _IV = _Encryptor.doFinal(initVec); } catch (Exception e) { e.printStackTrace(); } } private void xorBytes(byte[] a, byte[] b) { for (int i = 0; i < a.length; i++) { int aVal = a[i] & 0xff; // convert byte to integerint bVal = b[i] & 0xff; a[i] = (byte) (aVal ^ bVal); // xor aVal and bVal and typecast to byte } } private void xorBytes(byte[] a, byte[] b, int l) { for (int i = 0; i < l; i++) { int aVal = a[i] & 0xff; // convert byte to integerint bVal = b[i] & 0xff; a[i] = (byte) (aVal ^ bVal); // xor aVal and bVal and typecast to byte } } static { initKey(DefaultUserKey); initChiperEncrypt(); initChiperDecrypt(); initIV(); } private byte[] Encrypt(byte[] inData) { try { byte[] CV = Arrays.copyOf(_IV, _IV.length); byte[] ret = newbyte[inData.length]; int blocks_len = inData.length / 8; int left_len = inData.length % 8; for (int i = 0; i < blocks_len; i++) { byte[] temp = Arrays.copyOfRange(inData, i * 8, (i * 8) + 8); xorBytes(temp, CV); temp = _Encryptor.doFinal(temp); xorBytes(CV, temp); System.arraycopy(temp, 0, ret, i * 8, 8); } if (left_len != 0) { CV = _Encryptor.doFinal(CV); byte[] temp = Arrays.copyOfRange(inData, blocks_len * 8, (blocks_len * 8) + left_len); xorBytes(temp, CV, left_len); System.arraycopy(temp, 0, ret, blocks_len * 8, temp.length); } return ret; } catch (Exception e) { e.printStackTrace(); return null; } } public String encryptString(String inputString) { try { byte[] inData = inputString.getBytes(StandardCharsets.UTF_8); byte[] outData = Encrypt(inData); return DatatypeConverter.printHexBinary(outData); } catch (Exception e) { e.printStackTrace(); return""; } } private byte[] Decrypt(byte[] inData) { try { byte[] CV = Arrays.copyOf(_IV, _IV.length); byte[] ret = newbyte[inData.length]; int blocks_len = inData.length / 8; int left_len = inData.length % 8; for (int i = 0; i < blocks_len; i++) { byte[] temp = Arrays.copyOfRange(inData, i * 8, (i * 8) + 8); temp = _Decryptor.doFinal(temp); xorBytes(temp, CV); System.arraycopy(temp, 0, ret, i * 8, 8); for (int j = 0; j < CV.length; j++) { CV[j] = (byte) (CV[j] ^ inData[i * 8 + j]); } } if (left_len != 0) { CV = _Encryptor.doFinal(CV); byte[] temp = Arrays.copyOfRange(inData, blocks_len * 8, (blocks_len * 8) + left_len); xorBytes(temp, CV, left_len); for (int j = 0; j < temp.length; j++) { ret[blocks_len * 8 + j] = temp[j]; } } return ret; } catch (Exception e) { e.printStackTrace(); return null; } } public String decryptString(String hexString) { try { byte[] inData = DatatypeConverter.parseHexBinary(hexString); byte[] outData = Decrypt(inData); returnnew String(outData, StandardCharsets.UTF_8); } catch (Exception e) { e.printStackTrace(); return""; } } } static class Navicat12Cipher { private static SecretKeySpec _AesKey; private static IvParameterSpec _AesIV; static { _AesKey = new SecretKeySpec("libcckeylibcckey".getBytes(StandardCharsets.UTF_8), "AES"); _AesIV = new IvParameterSpec("libcciv libcciv ".getBytes(StandardCharsets.UTF_8)); } public String encryptString(String plaintext) { try { Cipher cipher = Cipher.getInstance("AES/CBC/PKCS5Padding"); cipher.init(Cipher.ENCRYPT_MODE, _AesKey, _AesIV); byte[] ret = cipher.doFinal(plaintext.getBytes(StandardCharsets.UTF_8)); return DatatypeConverter.printHexBinary(ret); } catch (Exception e) { e.printStackTrace(); return""; } } public String decryptString(String ciphertext) { try { Cipher cipher = Cipher.getInstance("AES/CBC/PKCS5Padding"); cipher.init(Cipher.DECRYPT_MODE, _AesKey, _AesIV); byte[] ret = cipher.doFinal(DatatypeConverter.parseHexBinary(ciphertext)); returnnew String(ret, StandardCharsets.UTF_8); } catch (Exception e) { e.printStackTrace(); return""; } } } }
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