package doumeemes.core.utils.dingding; import java.io.ByteArrayOutputStream; import java.nio.charset.Charset; import java.security.MessageDigest; import java.security.Permission; import java.security.PermissionCollection; import java.util.Arrays; import java.util.HashMap; import java.util.Map; import java.util.Random; import java.security.Security; import java.lang.reflect.Field; import javax.crypto.Cipher; import javax.crypto.spec.IvParameterSpec; import javax.crypto.spec.SecretKeySpec; import com.alibaba.fastjson.JSON; import org.apache.commons.codec.binary.Base64; /** * 钉钉开放平台加解密方法 * 在ORACLE官方网站下载JCE无限制权限策略文件 * JDK6的下载地址:http://www.oracle.com/technetwork/java/javase/downloads/jce-6-download-429243.html * JDK7的下载地址: http://www.oracle.com/technetwork/java/javase/downloads/jce-7-download-432124.html * JDK8的下载地址 https://www.oracle.com/java/technologies/javase-jce8-downloads.html */ public class DingCallbackCrypto { private static final Charset CHARSET = Charset.forName("utf-8"); private static final Base64 base64 = new Base64(); private byte[] aesKey; private String token; private String corpId; /** * ask getPaddingBytes key固定长度 **/ private static final Integer AES_ENCODE_KEY_LENGTH = 43; /** * 加密随机字符串字节长度 **/ private static final Integer RANDOM_LENGTH = 16; /** * 构造函数 * * @param token 钉钉开放平台上,开发者设置的token * @param encodingAesKey 钉钉开放台上,开发者设置的EncodingAESKey * @param corpId 企业自建应用-事件订阅, 使用appKey * 企业自建应用-注册回调地址, 使用corpId * 第三方企业应用, 使用suiteKey * * @throws DingTalkEncryptException 执行失败,请查看该异常的错误码和具体的错误信息 */ public DingCallbackCrypto(String token, String encodingAesKey, String corpId) throws DingTalkEncryptException { if (null == encodingAesKey || encodingAesKey.length() != AES_ENCODE_KEY_LENGTH) { throw new DingTalkEncryptException(DingTalkEncryptException.AES_KEY_ILLEGAL); } this.token = token; this.corpId = corpId; aesKey = Base64.decodeBase64(encodingAesKey + "="); } public Map getEncryptedMap(String plaintext) throws DingTalkEncryptException { return getEncryptedMap(plaintext, System.currentTimeMillis(), Utils.getRandomStr(16)); } /** * 将和钉钉开放平台同步的消息体加密,返回加密Map * * @param plaintext 传递的消息体明文 * @param timeStamp 时间戳 * @param nonce 随机字符串 * @return * @throws DingTalkEncryptException */ public Map getEncryptedMap(String plaintext, Long timeStamp, String nonce) throws DingTalkEncryptException { if (null == plaintext) { throw new DingTalkEncryptException(DingTalkEncryptException.ENCRYPTION_PLAINTEXT_ILLEGAL); } if (null == timeStamp) { throw new DingTalkEncryptException(DingTalkEncryptException.ENCRYPTION_TIMESTAMP_ILLEGAL); } if (null == nonce) { throw new DingTalkEncryptException(DingTalkEncryptException.ENCRYPTION_NONCE_ILLEGAL); } // 加密 String encrypt = encrypt(Utils.getRandomStr(RANDOM_LENGTH), plaintext); String signature = getSignature(token, String.valueOf(timeStamp), nonce, encrypt); Map resultMap = new HashMap(); resultMap.put("msg_signature", signature); resultMap.put("encrypt", encrypt); resultMap.put("timeStamp", String.valueOf(timeStamp)); resultMap.put("nonce", nonce); return resultMap; } /** * 密文解密 * * @param msgSignature 签名串 * @param timeStamp 时间戳 * @param nonce 随机串 * @param encryptMsg 密文 * @return 解密后的原文 * @throws DingTalkEncryptException */ public String getDecryptMsg(String msgSignature, String timeStamp, String nonce, String encryptMsg) throws DingTalkEncryptException { //校验签名 String signature = getSignature(token, timeStamp, nonce, encryptMsg); if (!signature.equals(msgSignature)) { throw new DingTalkEncryptException(DingTalkEncryptException.COMPUTE_SIGNATURE_ERROR); } // 解密 String result = decrypt(encryptMsg); return result; } /* * 对明文加密. * @param text 需要加密的明文 * @return 加密后base64编码的字符串 */ private String encrypt(String random, String plaintext) throws DingTalkEncryptException { try { byte[] randomBytes = random.getBytes(CHARSET); byte[] plainTextBytes = plaintext.getBytes(CHARSET); byte[] lengthByte = Utils.int2Bytes(plainTextBytes.length); byte[] corpidBytes = corpId.getBytes(CHARSET); ByteArrayOutputStream byteStream = new ByteArrayOutputStream(); byteStream.write(randomBytes); byteStream.write(lengthByte); byteStream.write(plainTextBytes); byteStream.write(corpidBytes); byte[] padBytes = PKCS7Padding.getPaddingBytes(byteStream.size()); byteStream.write(padBytes); byte[] unencrypted = byteStream.toByteArray(); byteStream.close(); Cipher cipher = Cipher.getInstance("AES/CBC/NoPadding"); SecretKeySpec keySpec = new SecretKeySpec(aesKey, "AES"); IvParameterSpec iv = new IvParameterSpec(aesKey, 0, 16); cipher.init(Cipher.ENCRYPT_MODE, keySpec, iv); byte[] encrypted = cipher.doFinal(unencrypted); String result = base64.encodeToString(encrypted); return result; } catch (Exception e) { throw new DingTalkEncryptException(DingTalkEncryptException.COMPUTE_ENCRYPT_TEXT_ERROR); } } /* * 对密文进行解密. * @param text 需要解密的密文 * @return 解密得到的明文 */ private String decrypt(String text) throws DingTalkEncryptException { byte[] originalArr; try { // 设置解密模式为AES的CBC模式 Cipher cipher = Cipher.getInstance("AES/CBC/NoPadding"); SecretKeySpec keySpec = new SecretKeySpec(aesKey, "AES"); IvParameterSpec iv = new IvParameterSpec(Arrays.copyOfRange(aesKey, 0, 16)); cipher.init(Cipher.DECRYPT_MODE, keySpec, iv); // 使用BASE64对密文进行解码 byte[] encrypted = Base64.decodeBase64(text); // 解密 originalArr = cipher.doFinal(encrypted); } catch (Exception e) { throw new DingTalkEncryptException(DingTalkEncryptException.COMPUTE_DECRYPT_TEXT_ERROR); } String plainText; String fromCorpid; try { // 去除补位字符 byte[] bytes = PKCS7Padding.removePaddingBytes(originalArr); // 分离16位随机字符串,网络字节序和corpId byte[] networkOrder = Arrays.copyOfRange(bytes, 16, 20); int plainTextLegth = Utils.bytes2int(networkOrder); plainText = new String(Arrays.copyOfRange(bytes, 20, 20 + plainTextLegth), CHARSET); fromCorpid = new String(Arrays.copyOfRange(bytes, 20 + plainTextLegth, bytes.length), CHARSET); } catch (Exception e) { throw new DingTalkEncryptException(DingTalkEncryptException.COMPUTE_DECRYPT_TEXT_LENGTH_ERROR); } // corpid不相同的情况 if (!fromCorpid.equals(corpId)) { throw new DingTalkEncryptException(DingTalkEncryptException.COMPUTE_DECRYPT_TEXT_CORPID_ERROR); } return plainText; } /** * 数字签名 * * @param token isv token * @param timestamp 时间戳 * @param nonce 随机串 * @param encrypt 加密文本 * @return * @throws DingTalkEncryptException */ public String getSignature(String token, String timestamp, String nonce, String encrypt) throws DingTalkEncryptException { try { String[] array = new String[] {token, timestamp, nonce, encrypt}; Arrays.sort(array); System.out.println(JSON.toJSONString(array)); StringBuffer sb = new StringBuffer(); for (int i = 0; i < 4; i++) { sb.append(array[i]); } String str = sb.toString(); System.out.println(str); MessageDigest md = MessageDigest.getInstance("SHA-1"); md.update(str.getBytes()); byte[] digest = md.digest(); StringBuffer hexstr = new StringBuffer(); String shaHex = ""; for (int i = 0; i < digest.length; i++) { shaHex = Integer.toHexString(digest[i] & 0xFF); if (shaHex.length() < 2) { hexstr.append(0); } hexstr.append(shaHex); } return hexstr.toString(); } catch (Exception e) { throw new DingTalkEncryptException(DingTalkEncryptException.COMPUTE_SIGNATURE_ERROR); } } public static class Utils { public Utils() { } public static String getRandomStr(int count) { String base = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789"; Random random = new Random(); StringBuffer sb = new StringBuffer(); for (int i = 0; i < count; ++i) { int number = random.nextInt(base.length()); sb.append(base.charAt(number)); } return sb.toString(); } public static byte[] int2Bytes(int count) { byte[] byteArr = new byte[] {(byte)(count >> 24 & 255), (byte)(count >> 16 & 255), (byte)(count >> 8 & 255), (byte)(count & 255)}; return byteArr; } public static int bytes2int(byte[] byteArr) { int count = 0; for (int i = 0; i < 4; ++i) { count <<= 8; count |= byteArr[i] & 255; } return count; } } public static class PKCS7Padding { private static final Charset CHARSET = Charset.forName("utf-8"); private static final int BLOCK_SIZE = 32; public PKCS7Padding() { } public static byte[] getPaddingBytes(int count) { int amountToPad = 32 - count % 32; if (amountToPad == 0) { amountToPad = 32; } char padChr = chr(amountToPad); String tmp = new String(); for (int index = 0; index < amountToPad; ++index) { tmp = tmp + padChr; } return tmp.getBytes(CHARSET); } public static byte[] removePaddingBytes(byte[] decrypted) { int pad = decrypted[decrypted.length - 1]; if (pad < 1 || pad > 32) { pad = 0; } return Arrays.copyOfRange(decrypted, 0, decrypted.length - pad); } private static char chr(int a) { byte target = (byte)(a & 255); return (char)target; } } public static class DingTalkEncryptException extends Exception { public static final int SUCCESS = 0; public static final int ENCRYPTION_PLAINTEXT_ILLEGAL = 900001; public static final int ENCRYPTION_TIMESTAMP_ILLEGAL = 900002; public static final int ENCRYPTION_NONCE_ILLEGAL = 900003; public static final int AES_KEY_ILLEGAL = 900004; public static final int SIGNATURE_NOT_MATCH = 900005; public static final int COMPUTE_SIGNATURE_ERROR = 900006; public static final int COMPUTE_ENCRYPT_TEXT_ERROR = 900007; public static final int COMPUTE_DECRYPT_TEXT_ERROR = 900008; public static final int COMPUTE_DECRYPT_TEXT_LENGTH_ERROR = 900009; public static final int COMPUTE_DECRYPT_TEXT_CORPID_ERROR = 900010; private static Map msgMap = new HashMap(); private Integer code; static { msgMap.put(0, "成功"); msgMap.put(900001, "加密明文文本非法"); msgMap.put(900002, "加密时间戳参数非法"); msgMap.put(900003, "加密随机字符串参数非法"); msgMap.put(900005, "签名不匹配"); msgMap.put(900006, "签名计算失败"); msgMap.put(900004, "不合法的aes key"); msgMap.put(900007, "计算加密文字错误"); msgMap.put(900008, "计算解密文字错误"); msgMap.put(900009, "计算解密文字长度不匹配"); msgMap.put(900010, "计算解密文字corpid不匹配"); } public Integer getCode() { return this.code; } public DingTalkEncryptException(Integer exceptionCode) { super((String)msgMap.get(exceptionCode)); this.code = exceptionCode; } } static { try { Security.setProperty("crypto.policy", "limited"); RemoveCryptographyRestrictions(); } catch (Exception var1) { } } private static void RemoveCryptographyRestrictions() throws Exception { Class jceSecurity = getClazz("javax.crypto.JceSecurity"); Class cryptoPermissions = getClazz("javax.crypto.CryptoPermissions"); Class cryptoAllPermission = getClazz("javax.crypto.CryptoAllPermission"); if (jceSecurity != null) { setFinalStaticValue(jceSecurity, "isRestricted", false); PermissionCollection defaultPolicy = (PermissionCollection)getFieldValue(jceSecurity, "defaultPolicy", (Object)null, PermissionCollection.class); if (cryptoPermissions != null) { Map map = (Map)getFieldValue(cryptoPermissions, "perms", defaultPolicy, Map.class); map.clear(); } if (cryptoAllPermission != null) { Permission permission = (Permission)getFieldValue(cryptoAllPermission, "INSTANCE", (Object)null, Permission.class); defaultPolicy.add(permission); } } } private static Class getClazz(String className) { Class clazz = null; try { clazz = Class.forName(className); } catch (Exception var3) { } return clazz; } private static void setFinalStaticValue(Class srcClazz, String fieldName, Object newValue) throws Exception { Field field = srcClazz.getDeclaredField(fieldName); field.setAccessible(true); Field modifiersField = Field.class.getDeclaredField("modifiers"); modifiersField.setAccessible(true); modifiersField.setInt(field, field.getModifiers() & -17); field.set((Object)null, newValue); } private static T getFieldValue(Class srcClazz, String fieldName, Object owner, Class dstClazz) throws Exception { Field field = srcClazz.getDeclaredField(fieldName); field.setAccessible(true); return dstClazz.cast(field.get(owner)); } }