java实现谷歌二步验证 (Google Authenticator)

2018-09-01 05:40:10来源:博客园 阅读 ()

新老客户大回馈,云服务器低至5折

准备:

  一个谷歌二步验证APP,  我用的是ios 身份宝

资料:

  1.Google Authenticator 原理及Java实现   //主要参考

    https://blog.csdn.net/lizhengjava/article/details/76947962#

  2.谷歌验证 (Google Authenticator) 的实现原理是什么?

    https://www.zhihu.com/question/20462696

  3.谷歌验证,又称两步验证,

    https://www.360shouzhuan.com/android/news/youxi/1632.htm

 

这个是谷歌二步验证, 获取key, 与验证,  

package com.rekoo;

//Google  Authenticator

// 只从google出了双重身份验证后,就方便了大家,等同于有了google一个级别的安全,但是我们该怎么使用google authenticator (双重身份验证),

//下面是java的算法,这样大家都可以得到根据key得到公共的秘钥了,直接复制,记得导入JAR包:
//
//commons-codec-1.8.jar
//
//junit-4.10.jar


//测试方法:
//
//1、执行测试代码中的“genSecret”方法,将生成一个KEY(用户为testuser),URL打开是一张二维码图片。
//
//2、在手机中下载“GOOGLE身份验证器”。
//
//3、在身份验证器中配置账户,输入账户名(第一步中的用户testuser)、密钥(第一步生成的KEY),选择基于时间。
//
//4、运行authcode方法将key和要测试的验证码带进去(codes,key),就可以知道是不是正确的秘钥了!返回值布尔

//main我就不写了大家~~因为这个可以当做util工具直接调用就行了
//



import java.security.InvalidKeyException;
import java.security.NoSuchAlgorithmException;
import java.security.SecureRandom;

import javax.crypto.Mac;
import javax.crypto.spec.SecretKeySpec;

import org.apache.commons.codec.binary.Base32;
import org.apache.commons.codec.binary.Base64;



public class GoogleAuthenticator {

    // taken from Google pam docs - we probably don't need to mess with these
    public static final int SECRET_SIZE = 10;

    public static final String SEED = "g8GjEvTbW5oVSV7avLBdwIHqGlUYNzKFI7izOF8GwLDVKs2m0QN7vxRs2im5MDaNCWGmcD2rvcZx";

    public static final String RANDOM_NUMBER_ALGORITHM = "SHA1PRNG";

    int window_size = 3; // default 3 - max 17 (from google docs)最多可偏移的时间

    public void setWindowSize(int s) {
        if (s >= 1 && s <= 17)
            window_size = s;
    }



    public static Boolean authcode(String codes, String savedSecret) {
        // enter the code shown on device. Edit this and run it fast before the
        // code expires!
        long code = Long.parseLong(codes);
        long t = System.currentTimeMillis();
        GoogleAuthenticator ga = new GoogleAuthenticator();
        ga.setWindowSize(15); // should give 5 * 30 seconds of grace...
        boolean r = ga.check_code(savedSecret, code, t);
        return r;
    }

    public static String genSecret(String name) {
        String secret = GoogleAuthenticator.generateSecretKey();
        //GoogleAuthenticator.getQRBarcodeURL("testuser","testhost", secret);
        GoogleAuthenticator.getQRBarcodeURL(name,
                "testhost", secret);
        return secret;
    }

    public static String generateSecretKey() {
        SecureRandom sr = null;
        try {
            sr = SecureRandom.getInstance(RANDOM_NUMBER_ALGORITHM);
            sr.setSeed(Base64.decodeBase64(SEED));
            byte[] buffer = sr.generateSeed(SECRET_SIZE);
            Base32 codec = new Base32();
            byte[] bEncodedKey = codec.encode(buffer);
            String encodedKey = new String(bEncodedKey);
            return encodedKey;
        }catch (NoSuchAlgorithmException e) {
            // should never occur... configuration error
        }
        return null;
    }


    public static String getQRBarcodeURL(String user, String host, String secret) {
        String format = "https://www.google.com/chart?chs=200x200&chld=M%%7C0&cht=qr&chl=otpauth://totp/%s@%s%%3Fsecret%%3D%s";
        return String.format(format, user, host, secret);
    }


    public boolean check_code(String secret, long code, long timeMsec) {
        Base32 codec = new Base32();
        byte[] decodedKey = codec.decode(secret);
        // convert unix msec time into a 30 second "window"
        // this is per the TOTP spec (see the RFC for details)
        long t = (timeMsec / 1000L) / 30L;
        // Window is used to check codes generated in the near past.
        // You can use this value to tune how far you're willing to go.
        for (int i = -window_size; i <= window_size; ++i) {
            long hash;
            try {
                hash = verify_code(decodedKey, t + i);
            }catch (Exception e) {
                // Yes, this is bad form - but
                // the exceptions thrown would be rare and a static configuration problem
                e.printStackTrace();
                throw new RuntimeException(e.getMessage());
                //return false;
            }
            if (hash == code) {
                return true;
            }
        }
        // The validation code is invalid.
        return false;
    }

    private static int verify_code(byte[] key, long t) throws NoSuchAlgorithmException, InvalidKeyException {
        byte[] data = new byte[8];
        long value = t;
        for (int i = 8; i-- > 0; value >>>= 8) {
            data[i] = (byte) value;
        }
        SecretKeySpec signKey = new SecretKeySpec(key, "HmacSHA1");
        Mac mac = Mac.getInstance("HmacSHA1");
        mac.init(signKey);
        byte[] hash = mac.doFinal(data);
        int offset = hash[20 - 1] & 0xF;
        // We're using a long because Java hasn't got unsigned int.
        long truncatedHash = 0;
        for (int i = 0; i < 4; ++i) {
            truncatedHash <<= 8;
            // We are dealing with signed bytes:
            // we just keep the first byte.
            truncatedHash |= (hash[offset + i] & 0xFF);
        }
        truncatedHash &= 0x7FFFFFFF;
        truncatedHash %= 1000000;
        return (int) truncatedHash;
    }


    public static void main(String[] args) {
        String secret = genSecret("testuser");//获取key
        System.out.println("secret : "+secret);
        String key = "";
        Boolean authcode = authcode(key, secret);//验证
        if(authcode){
            System.out.printf("真...........");
        }else {
            System.out.printf("假.........");
        }
    }



}

 

 

最后: 亲爱的读者, 可以粉我一下吗? 

 

 

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