java加密解密工具类
package com.founder.mrp.util; import java.nio.charset.StandardCharsets; import java.security.Key; import javax.crypto.Cipher; import javax.crypto.spec.SecretKeySpec; import com.founder.mrp.web.jsonEntity.AccountJson; /** * 加密解密类 * @author xiongzq * */ public class EncryptionDecryption { private static String strDefaultKey = "UvVi-s`75X-d9fO3"; /** 加密工具 */ private ThreadLocal<Cipher> encryptCipher = new ThreadLocal<Cipher>() { @Override protected Cipher initialValue() { try { Cipher encryptCipher = Cipher.getInstance(algorithmName); encryptCipher.init(Cipher.ENCRYPT_MODE, key); return encryptCipher; } catch (Exception e) { e.printStackTrace(); return null; } } }; /** 解密工具 */ private ThreadLocal<Cipher> decryptCipher = new ThreadLocal<Cipher>() { @Override protected Cipher initialValue() { try { Cipher decryptCipher = Cipher.getInstance(algorithmName); decryptCipher.init(Cipher.DECRYPT_MODE, key); return decryptCipher; } catch (Exception e) { e.printStackTrace(); return null; } } }; private String algorithmName; private Key key; /** * 将byte数组转换为表示16进制值的字符串, 如:byte[]{8,18}转换为:0813, 和public static byte[] * hexStr2ByteArr(String strIn) 互为可逆的转换过程 * * @param arrB * 需要转换的byte数组 * @return 转换后的字符串 * @throws Exception * */ public static String byteArr2HexStr(byte[] arrB) throws Exception { // 每个byte用两个字符才能表示,所以字符串的长度是数组长度的两倍 StringBuilder sb = new StringBuilder(arrB.length * 2); for (int b : arrB) { int intTmp = b; // 把负数转换为正数 while (intTmp < 0) { intTmp = intTmp + 256; } // 小于0F的数需要在前面补0 if (intTmp < 16) { sb.append("0"); } sb.append(Integer.toString(intTmp, 16)); } return sb.toString(); } /** * 将表示16进制值的字符串转换为byte数组, 和public static String byteArr2HexStr(byte[] arrB) * 互为可逆的转换过程 * * @param strIn 需要转换的字符串 * @return 转换后的byte数组 * */ public static byte[] hexStr2ByteArr(String strIn) { byte[] arrB = strIn.getBytes(); int iLen = arrB.length; // 两个字符表示一个字节,所以字节数组长度是字符串长度除以2 byte[] arrOut = new byte[iLen / 2]; for (int i = 0; i < iLen; i = i + 2) { String strTmp = new String(arrB, i, 2); arrOut[i / 2] = (byte) Integer.parseInt(strTmp, 16); } return arrOut; } /** * 默认构造方法,使用默认密钥 * * @throws Exception */ public EncryptionDecryption() throws Exception { this("AES/ECB/PKCS5Padding", strDefaultKey, 128); } /** * 指定密钥构造方法 * * @param strKey 指定的密钥 * @throws Exception */ public EncryptionDecryption(String algorithmName, String strKey, int keySizeInBits) throws Exception { this.algorithmName = algorithmName; this.key = getKey(strKey.getBytes(StandardCharsets.UTF_8), keySizeInBits); } /** * 加密字节数组 * * @param arrB * 需加密的字节数组 * @return 加密后的字节数组 * @throws Exception */ public byte[] encrypt(byte[] arrB) throws Exception { return encryptCipher.get().doFinal(arrB); } /** * 加密字符串 * * @param strIn * 需加密的字符串 * @return 加密后的字符串 * @throws Exception */ public String encrypt(String strIn) throws Exception { return byteArr2HexStr(encrypt(strIn.getBytes())); } /** * 解密字节数组 * * @param arrB * 需解密的字节数组 * @return 解密后的字节数组 * @throws Exception */ public byte[] decrypt(byte[] arrB) throws Exception { return decryptCipher.get().doFinal(arrB); } /** * 解密字符串 * * @param strIn * 需解密的字符串 * @return 解密后的字符串 * @throws Exception */ public String decrypt(String strIn) throws Exception { try { return new String(decrypt(hexStr2ByteArr(strIn))); } catch (Exception e) { return ""; } } /** * 从指定字符串生成密钥,密钥所需的字节数组长度为8位 不足8位时后面补0,超出8位只取前8位 * * @param arrBTmp * 构成该字符串的字节数组 * @param keySizeInBits * @return 生成的密钥 * @throws java.lang.Exception */ private Key getKey(byte[] arrBTmp, int keySizeInBits) throws Exception { // 创建一个空的字节数组(默认值为0) byte[] arrB = new byte[keySizeInBits / 8]; // 将原始字节数组转换为8位 for (int i = 0; i < arrBTmp.length && i < arrB.length; i++) { arrB[i] = arrBTmp[i]; } // 生成密钥 String keyAlg = algorithmName; int t = algorithmName.indexOf('/'); if (t != -1) { keyAlg = algorithmName.substring(0, t); } return new SecretKeySpec(arrB, keyAlg); } }