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springbootでsm2暗号化通信を使用する方法

王林
王林転載
2023-05-10 19:10:041308ブラウズ

加密原理

使用sm2生成一对公钥和私钥。然后将公钥发送给前端,私钥自己在后端进行保存(本次示例是将私钥保存在redis中,因为redis是使用键值对进行保存数据的,所以还需要生成一个uuid进行保存和获取密钥数据。)

前端使用公钥进行加密,然后将加密的数据发送给后端,后端使用对应的私钥进行解密,即可完成一次加密传输。

公共代码:springboot引用依赖

      <dependency>
          <groupId>org.bouncycastle</groupId>
          <artifactId>bcprov-jdk15to18</artifactId>
          <version>1.72</version>
      </dependency>

一:springboot+html使用方式

实体类代码:

import java.io.Serializable;
 
public class AsymmetricEncryption implements Serializable {
 
 
    private String id;
 
    /**
     * 算法
     */
    private String algorithm;
 
    private String privateKey;
 
    private String publicKey;
 
    public String getId() {
        return id;
    }
 
    public void setId(String id) {
        this.id = id;
    }
 
    public String getAlgorithm() {
        return algorithm;
    }
 
    public void setAlgorithm(String algorithm) {
        this.algorithm = algorithm;
    }
 
    public String getPrivateKey() {
        return privateKey;
    }
 
    public void setPrivateKey(String privateKey) {
        this.privateKey = privateKey;
    }
 
    public String getPublicKey() {
        return publicKey;
    }
 
    public void setPublicKey(String publicKey) {
        this.publicKey = publicKey;
    }
}

1:生成公钥私钥,有两种方式,第一种是指定sm2曲线为sm2p256v1。

注:指定的方式用于springboot+前端html页面形式,不指定的可以用于springboot+vue形式。原因为html页面无法引用依赖,则需要使用js文件。

springboot生成指定sm2p256v1规则代码

//生成密钥对
        X9ECParameters sm2ECParameters = GMNamedCurves.getByName("sm2p256v1");
        ECDomainParameters domainParameters = new ECDomainParameters(sm2ECParameters.getCurve(), sm2ECParameters.getG(), sm2ECParameters.getN());
        ECKeyPairGenerator keyPairGenerator = new ECKeyPairGenerator();
        try {
            keyPairGenerator.init(new ECKeyGenerationParameters(domainParameters, SecureRandom.getInstance("SHA1PRNG")));
        } catch (NoSuchAlgorithmException e) {
            e.printStackTrace();
        }
        AsymmetricCipherKeyPair asymmetricCipherKeyPair = keyPairGenerator.generateKeyPair();
 
        //生成私钥,16进制格式,自己保存,格式如a2081b5b81fbea0b6b973a3ab6dbbbc65b1164488bf22d8ae2ff0b8260f64853
        BigInteger privatekey = ((ECPrivateKeyParameters) asymmetricCipherKeyPair.getPrivate()).getD();
        String privateKeyHex = privatekey.toString(16);
 
        //公钥,16进制格式,发给前端,格式如            
04813d4d97ad31bd9d18d785f337f683233099d5abed09cb397152d50ac28cc0ba43711960e811d90453db5f5a9518d660858a8d0c57e359a8bf83427760ebcbba
        ECPoint ecPoint = ((ECPublicKeyParameters) asymmetricCipherKeyPair.getPublic()).getQ();
        String publicKeyHex = Hex.toHexString(ecPoint.getEncoded(false));
 
        //AsymmetricEncryption 为自己创建的实体类,
        AsymmetricEncryption asymmetricEncryption = new AsymmetricEncryption();
        asymmetricEncryption.setPrivateKey(privateKeyHex);
        asymmetricEncryption.setPublicKey(publicKeyHex);
        String uuid = UUID.randomUUID().toString().replace("-","");
        asymmetricEncryption.setId(uuid);
        String key = LoginConstants.ASYMMETRIC_ENCRYPTION_KEY + uuid;
        //本处采用的方式是将私钥存放在redis中,并且以生成的uuid进行存储,所以需要将uuid传送到前端,然后再让前端传回来
        redisTemplate.opsForValue().set(key, asymmetricEncryption, 2, TimeUnit.MINUTES);

2:前端引用js文件

①:crypto-js.js 文件

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r=this.words,e=t.words,i=this.sigBytes,n=t.sigBytes;if(this.clamp(),i%4)for(var o=0;o<n;o++){var s=e[o>>>2]>>>24-o%4*8&255;r[i+o>>>2]|=s<<24-(i+o)%4*8}else for(var o=0;o<n;o+=4)r[i+o>>>2]=e[o>>>2];return this.sigBytes+=n,this},clamp:function(){var r=this.words,e=this.sigBytes;r[e>>>2]&=4294967295<<32-e%4*8,r.length=t.ceil(e/4)},clone:function(){var t=o.clone.call(this);return t.words=this.words.slice(0),t},random:function(r){for(var e,i=[],n=function(r){var r=r,e=987654321,i=4294967295;return function(){e=36969*(65535&e)+(e>>16)&i,r=18e3*(65535&r)+(r>>16)&i;var n=(e<<16)+r&i;return n/=4294967296,n+=.5,n*(t.random()>.5?1:-1)}},o=0;o<r;o+=4){var a=n(4294967296*(e||t.random()));e=987654071*a(),i.push(4294967296*a()|0)}return new s.init(i,r)}}),a=i.enc={},c=a.Hex={stringify:function(t){for(var r=t.words,e=t.sigBytes,i=[],n=0;n<e;n++){var o=r[n>>>2]>>>24-n%4*8&255;i.push((o>>>4).toString(16)),i.push((15&o).toString(16))}return i.join("")},parse:function(t){for(var r=t.length,e=[],i=0;i<r;i+=2)e[i>>>3]|=parseInt(t.substr(i,2),16)<<24-i%8*4;return new s.init(e,r/2)}},h=a.Latin1={stringify:function(t){for(var r=t.words,e=t.sigBytes,i=[],n=0;n<e;n++){var o=r[n>>>2]>>>24-n%4*8&255;i.push(String.fromCharCode(o))}return i.join("")},parse:function(t){for(var r=t.length,e=[],i=0;i<r;i++)e[i>>>2]|=(255&t.charCodeAt(i))<<24-i%4*8;return new s.init(e,r)}},l=a.Utf8={stringify:function(t){try{return decodeURIComponent(escape(h.stringify(t)))}catch(t){throw new Error("Malformed UTF-8 data")}},parse:function(t){return h.parse(unescape(encodeURIComponent(t)))}},f=n.BufferedBlockAlgorithm=o.extend({reset:function(){this._data=new s.init,this._nDataBytes=0},_append:function(t){"string"==typeof t&&(t=l.parse(t)),this._data.concat(t),this._nDataBytes+=t.sigBytes},_process:function(r){var e=this._data,i=e.words,n=e.sigBytes,o=this.blockSize,a=4*o,c=n/a;c=r?t.ceil(c):t.max((0|c)-this._minBufferSize,0);var h=c*o,l=t.min(4*h,n);if(h){for(var f=0;f<h;f+=o)this._doProcessBlock(i,f);var u=i.splice(0,h);e.sigBytes-=l}return new s.init(u,l)},clone:function(){var t=o.clone.call(this);return t._data=this._data.clone(),t},_minBufferSize:0}),u=(n.Hasher=f.extend({cfg:o.extend(),init:function(t){this.cfg=this.cfg.extend(t),this.reset()},reset:function(){f.reset.call(this),this._doReset()},update:function(t){return this._append(t),this._process(),this},finalize:function(t){t&&this._append(t);var r=this._doFinalize();return r},blockSize:16,_createHelper:function(t){return function(r,e){return new t.init(e).finalize(r)}},_createHmacHelper:function(t){return function(r,e){return new u.HMAC.init(t,e).finalize(r)}}}),i.algo={});return i}(Math);return function(){function r(t,r,e){for(var i=[],o=0,s=0;s<r;s++)if(s%4){var a=e[t.charCodeAt(s-1)]<<s%4*2,c=e[t.charCodeAt(s)]>>>6-s%4*2;i[o>>>2]|=(a|c)<<24-o%4*8,o++}return n.create(i,o)}var e=t,i=e.lib,n=i.WordArray,o=e.enc;o.Base64={stringify:function(t){var r=t.words,e=t.sigBytes,i=this._map;t.clamp();for(var n=[],o=0;o<e;o+=3)for(var s=r[o>>>2]>>>24-o%4*8&255,a=r[o+1>>>2]>>>24-(o+1)%4*8&255,c=r[o+2>>>2]>>>24-(o+2)%4*8&255,h=s<<16|a<<8|c,l=0;l<4&&o+.75*l<e;l++)n.push(i.charAt(h>>>6*(3-l)&63));var f=i.charAt(64);if(f)for(;n.length%4;)n.push(f);return n.join("")},parse:function(t){var e=t.length,i=this._map,n=this._reverseMap;if(!n){n=this._reverseMap=[];for(var o=0;o<i.length;o++)n[i.charCodeAt(o)]=o}var s=i.charAt(64);if(s){var a=t.indexOf(s);a!==-1&&(e=a)}return r(t,e,n)},_map:"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/="}}(),function(r){function e(t,r,e,i,n,o,s){var a=t+(r&e|~r&i)+n+s;return(a<<o|a>>>32-o)+r}function i(t,r,e,i,n,o,s){var a=t+(r&i|e&~i)+n+s;return(a<<o|a>>>32-o)+r}function n(t,r,e,i,n,o,s){var a=t+(r^e^i)+n+s;return(a<<o|a>>>32-o)+r}function o(t,r,e,i,n,o,s){var a=t+(e^(r|~i))+n+s;return(a<<o|a>>>32-o)+r}var s=t,a=s.lib,c=a.WordArray,h=a.Hasher,l=s.algo,f=[];!function(){for(var t=0;t<64;t++)f[t]=4294967296*r.abs(r.sin(t+1))|0}();var u=l.MD5=h.extend({_doReset:function(){this._hash=new c.init([1732584193,4023233417,2562383102,271733878])},_doProcessBlock:function(t,r){for(var s=0;s<16;s++){var a=r+s,c=t[a];t[a]=16711935&(c<<8|c>>>24)|4278255360&(c<<24|c>>>8)}var h=this._hash.words,l=t[r+0],u=t[r+1],d=t[r+2],v=t[r+3],p=t[r+4],_=t[r+5],y=t[r+6],g=t[r+7],B=t[r+8],w=t[r+9],k=t[r+10],S=t[r+11],m=t[r+12],x=t[r+13],b=t[r+14],H=t[r+15],z=h[0],A=h[1],C=h[2],D=h[3];z=e(z,A,C,D,l,7,f[0]),D=e(D,z,A,C,u,12,f[1]),C=e(C,D,z,A,d,17,f[2]),A=e(A,C,D,z,v,22,f[3]),z=e(z,A,C,D,p,7,f[4]),D=e(D,z,A,C,_,12,f[5]),C=e(C,D,z,A,y,17,f[6]),A=e(A,C,D,z,g,22,f[7]),z=e(z,A,C,D,B,7,f[8]),D=e(D,z,A,C,w,12,f[9]),C=e(C,D,z,A,k,17,f[10]),A=e(A,C,D,z,S,22,f[11]),z=e(z,A,C,D,m,7,f[12]),D=e(D,z,A,C,x,12,f[13]),C=e(C,D,z,A,b,17,f[14]),A=e(A,C,D,z,H,22,f[15]),z=i(z,A,C,D,u,5,f[16]),D=i(D,z,A,C,y,9,f[17]),C=i(C,D,z,A,S,14,f[18]),A=i(A,C,D,z,l,20,f[19]),z=i(z,A,C,D,_,5,f[20]),D=i(D,z,A,C,k,9,f[21]),C=i(C,D,z,A,H,14,f[22]),A=i(A,C,D,z,p,20,f[23]),z=i(z,A,C,D,w,5,f[24]),D=i(D,z,A,C,b,9,f[25]),C=i(C,D,z,A,v,14,f[26]),A=i(A,C,D,z,B,20,f[27]),z=i(z,A,C,D,x,5,f[28]),D=i(D,z,A,C,d,9,f[29]),C=i(C,D,z,A,g,14,f[30]),A=i(A,C,D,z,m,20,f[31]),z=n(z,A,C,D,_,4,f[32]),D=n(D,z,A,C,B,11,f[33]),C=n(C,D,z,A,S,16,f[34]),A=n(A,C,D,z,b,23,f[35]),z=n(z,A,C,D,u,4,f[36]),D=n(D,z,A,C,p,11,f[37]),C=n(C,D,z,A,g,16,f[38]),A=n(A,C,D,z,k,23,f[39]),z=n(z,A,C,D,x,4,f[40]),D=n(D,z,A,C,l,11,f[41]),C=n(C,D,z,A,v,16,f[42]),A=n(A,C,D,z,y,23,f[43]),z=n(z,A,C,D,w,4,f[44]),D=n(D,z,A,C,m,11,f[45]),C=n(C,D,z,A,H,16,f[46]),A=n(A,C,D,z,d,23,f[47]),z=o(z,A,C,D,l,6,f[48]),D=o(D,z,A,C,g,10,f[49]),C=o(C,D,z,A,b,15,f[50]),A=o(A,C,D,z,_,21,f[51]),z=o(z,A,C,D,m,6,f[52]),D=o(D,z,A,C,v,10,f[53]),C=o(C,D,z,A,k,15,f[54]),A=o(A,C,D,z,u,21,f[55]),z=o(z,A,C,D,B,6,f[56]),D=o(D,z,A,C,H,10,f[57]),C=o(C,D,z,A,y,15,f[58]),A=o(A,C,D,z,x,21,f[59]),z=o(z,A,C,D,p,6,f[60]),D=o(D,z,A,C,S,10,f[61]),C=o(C,D,z,A,d,15,f[62]),A=o(A,C,D,z,w,21,f[63]),h[0]=h[0]+z|0,h[1]=h[1]+A|0,h[2]=h[2]+C|0,h[3]=h[3]+D|0},_doFinalize:function(){var t=this._data,e=t.words,i=8*this._nDataBytes,n=8*t.sigBytes;e[n>>>5]|=128<<24-n%32;var o=r.floor(i/4294967296),s=i;e[(n+64>>>9<<4)+15]=16711935&(o<<8|o>>>24)|4278255360&(o<<24|o>>>8),e[(n+64>>>9<<4)+14]=16711935&(s<<8|s>>>24)|4278255360&(s<<24|s>>>8),t.sigBytes=4*(e.length+1),this._process();for(var a=this._hash,c=a.words,h=0;h<4;h++){var l=c[h];c[h]=16711935&(l<<8|l>>>24)|4278255360&(l<<24|l>>>8)}return a},clone:function(){var t=h.clone.call(this);return t._hash=this._hash.clone(),t}});s.MD5=h._createHelper(u),s.HmacMD5=h._createHmacHelper(u)}(Math),function(){var r=t,e=r.lib,i=e.WordArray,n=e.Hasher,o=r.algo,s=[],a=o.SHA1=n.extend({_doReset:function(){this._hash=new i.init([1732584193,4023233417,2562383102,271733878,3285377520])},_doProcessBlock:function(t,r){for(var e=this._hash.words,i=e[0],n=e[1],o=e[2],a=e[3],c=e[4],h=0;h<80;h++){if(h<16)s[h]=0|t[r+h];else{var l=s[h-3]^s[h-8]^s[h-14]^s[h-16];s[h]=l<<1|l>>>31}var f=(i<<5|i>>>27)+c+s[h];f+=h<20?(n&o|~n&a)+1518500249:h<40?(n^o^a)+1859775393:h<60?(n&o|n&a|o&a)-1894007588:(n^o^a)-899497514,c=a,a=o,o=n<<30|n>>>2,n=i,i=f}e[0]=e[0]+i|0,e[1]=e[1]+n|0,e[2]=e[2]+o|0,e[3]=e[3]+a|0,e[4]=e[4]+c|0},_doFinalize:function(){var t=this._data,r=t.words,e=8*this._nDataBytes,i=8*t.sigBytes;return r[i>>>5]|=128<<24-i%32,r[(i+64>>>9<<4)+14]=Math.floor(e/4294967296),r[(i+64>>>9<<4)+15]=e,t.sigBytes=4*r.length,this._process(),this._hash},clone:function(){var t=n.clone.call(this);return t._hash=this._hash.clone(),t}});r.SHA1=n._createHelper(a),r.HmacSHA1=n._createHmacHelper(a)}(),function(r){var e=t,i=e.lib,n=i.WordArray,o=i.Hasher,s=e.algo,a=[],c=[];!function(){function t(t){for(var e=r.sqrt(t),i=2;i<=e;i++)if(!(t%i))return!1;return!0}function e(t){return 4294967296*(t-(0|t))|0}for(var i=2,n=0;n<64;)t(i)&&(n<8&&(a[n]=e(r.pow(i,.5))),c[n]=e(r.pow(i,1/3)),n++),i++}();var h=[],l=s.SHA256=o.extend({_doReset:function(){this._hash=new n.init(a.slice(0))},_doProcessBlock:function(t,r){for(var e=this._hash.words,i=e[0],n=e[1],o=e[2],s=e[3],a=e[4],l=e[5],f=e[6],u=e[7],d=0;d<64;d++){if(d<16)h[d]=0|t[r+d];else{var v=h[d-15],p=(v<<25|v>>>7)^(v<<14|v>>>18)^v>>>3,_=h[d-2],y=(_<<15|_>>>17)^(_<<13|_>>>19)^_>>>10;h[d]=p+h[d-7]+y+h[d-16]}var g=a&l^~a&f,B=i&n^i&o^n&o,w=(i<<30|i>>>2)^(i<<19|i>>>13)^(i<<10|i>>>22),k=(a<<26|a>>>6)^(a<<21|a>>>11)^(a<<7|a>>>25),S=u+k+g+c[d]+h[d],m=w+B;u=f,f=l,l=a,a=s+S|0,s=o,o=n,n=i,i=S+m|0}e[0]=e[0]+i|0,e[1]=e[1]+n|0,e[2]=e[2]+o|0,e[3]=e[3]+s|0,e[4]=e[4]+a|0,e[5]=e[5]+l|0,e[6]=e[6]+f|0,e[7]=e[7]+u|0},_doFinalize:function(){var t=this._data,e=t.words,i=8*this._nDataBytes,n=8*t.sigBytes;return e[n>>>5]|=128<<24-n%32,e[(n+64>>>9<<4)+14]=r.floor(i/4294967296),e[(n+64>>>9<<4)+15]=i,t.sigBytes=4*e.length,this._process(),this._hash},clone:function(){var t=o.clone.call(this);return t._hash=this._hash.clone(),t}});e.SHA256=o._createHelper(l),e.HmacSHA256=o._createHmacHelper(l)}(Math),function(){function r(t){return t<<8&4278255360|t>>>8&16711935}var e=t,i=e.lib,n=i.WordArray,o=e.enc;o.Utf16=o.Utf16BE={stringify:function(t){for(var r=t.words,e=t.sigBytes,i=[],n=0;n<e;n+=2){var o=r[n>>>2]>>>16-n%4*8&65535;i.push(String.fromCharCode(o))}return i.join("")},parse:function(t){for(var r=t.length,e=[],i=0;i<r;i++)e[i>>>1]|=t.charCodeAt(i)<<16-i%2*16;return n.create(e,2*r)}};o.Utf16LE={stringify:function(t){for(var e=t.words,i=t.sigBytes,n=[],o=0;o<i;o+=2){var s=r(e[o>>>2]>>>16-o%4*8&65535);n.push(String.fromCharCode(s))}return n.join("")},parse:function(t){for(var e=t.length,i=[],o=0;o<e;o++)i[o>>>1]|=r(t.charCodeAt(o)<<16-o%2*16);return n.create(i,2*e)}}}(),function(){if("function"==typeof ArrayBuffer){var r=t,e=r.lib,i=e.WordArray,n=i.init,o=i.init=function(t){if(t instanceof ArrayBuffer&&(t=new Uint8Array(t)),(t instanceof Int8Array||"undefined"!=typeof Uint8ClampedArray&&t instanceof Uint8ClampedArray||t instanceof Int16Array||t instanceof Uint16Array||t instanceof Int32Array||t instanceof Uint32Array||t instanceof Float32Array||t instanceof Float64Array)&&(t=new Uint8Array(t.buffer,t.byteOffset,t.byteLength)),t instanceof Uint8Array){for(var r=t.byteLength,e=[],i=0;i<r;i++)e[i>>>2]|=t[i]<<24-i%4*8;n.call(this,e,r)}else n.apply(this,arguments)};o.prototype=i}}(),function(r){function e(t,r,e){return t^r^e}function i(t,r,e){return t&r|~t&e}function n(t,r,e){return(t|~r)^e}function o(t,r,e){return t&e|r&~e}function s(t,r,e){return t^(r|~e)}function a(t,r){return t<<r|t>>>32-r}var c=t,h=c.lib,l=h.WordArray,f=h.Hasher,u=c.algo,d=l.create([0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,7,4,13,1,10,6,15,3,12,0,9,5,2,14,11,8,3,10,14,4,9,15,8,1,2,7,0,6,13,11,5,12,1,9,11,10,0,8,12,4,13,3,7,15,14,5,6,2,4,0,5,9,7,12,2,10,14,1,3,8,11,6,15,13]),v=l.create([5,14,7,0,9,2,11,4,13,6,15,8,1,10,3,12,6,11,3,7,0,13,5,10,14,15,8,12,4,9,1,2,15,5,1,3,7,14,6,9,11,8,12,2,10,0,4,13,8,6,4,1,3,11,15,0,5,12,2,13,9,7,10,14,12,15,10,4,1,5,8,7,6,2,13,14,0,3,9,11]),p=l.create([11,14,15,12,5,8,7,9,11,13,14,15,6,7,9,8,7,6,8,13,11,9,7,15,7,12,15,9,11,7,13,12,11,13,6,7,14,9,13,15,14,8,13,6,5,12,7,5,11,12,14,15,14,15,9,8,9,14,5,6,8,6,5,12,9,15,5,11,6,8,13,12,5,12,13,14,11,8,5,6]),_=l.create([8,9,9,11,13,15,15,5,7,7,8,11,14,14,12,6,9,13,15,7,12,8,9,11,7,7,12,7,6,15,13,11,9,7,15,11,8,6,6,14,12,13,5,14,13,13,7,5,15,5,8,11,14,14,6,14,6,9,12,9,12,5,15,8,8,5,12,9,12,5,14,6,8,13,6,5,15,13,11,11]),y=l.create([0,1518500249,1859775393,2400959708,2840853838]),g=l.create([1352829926,1548603684,1836072691,2053994217,0]),B=u.RIPEMD160=f.extend({_doReset:function(){this._hash=l.create([1732584193,4023233417,2562383102,271733878,3285377520])},_doProcessBlock:function(t,r){for(var c=0;c<16;c++){var h=r+c,l=t[h];t[h]=16711935&(l<<8|l>>>24)|4278255360&(l<<24|l>>>8)}var f,u,B,w,k,S,m,x,b,H,z=this._hash.words,A=y.words,C=g.words,D=d.words,R=v.words,E=p.words,M=_.words;S=f=z[0],m=u=z[1],x=B=z[2],b=w=z[3],H=k=z[4];for(var F,c=0;c<80;c+=1)F=f+t[r+D[c]]|0,F+=c<16?e(u,B,w)+A[0]:c<32?i(u,B,w)+A[1]:c<48?n(u,B,w)+A[2]:c<64?o(u,B,w)+A[3]:s(u,B,w)+A[4],F|=0,F=a(F,E[c]),F=F+k|0,f=k,k=w,w=a(B,10),B=u,u=F,F=S+t[r+R[c]]|0,F+=c<16?s(m,x,b)+C[0]:c<32?o(m,x,b)+C[1]:c<48?n(m,x,b)+C[2]:c<64?i(m,x,b)+C[3]:e(m,x,b)+C[4],F|=0,F=a(F,M[c]),F=F+H|0,S=H,H=b,b=a(x,10),x=m,m=F;F=z[1]+B+b|0,z[1]=z[2]+w+H|0,z[2]=z[3]+k+S|0,z[3]=z[4]+f+m|0,z[4]=z[0]+u+x|0,z[0]=F},_doFinalize:function(){var t=this._data,r=t.words,e=8*this._nDataBytes,i=8*t.sigBytes;r[i>>>5]|=128<<24-i%32,r[(i+64>>>9<<4)+14]=16711935&(e<<8|e>>>24)|4278255360&(e<<24|e>>>8),t.sigBytes=4*(r.length+1),this._process();for(var n=this._hash,o=n.words,s=0;s<5;s++){var a=o[s];o[s]=16711935&(a<<8|a>>>24)|4278255360&(a<<24|a>>>8)}return n},clone:function(){var t=f.clone.call(this);return t._hash=this._hash.clone(),t}});c.RIPEMD160=f._createHelper(B),c.HmacRIPEMD160=f._createHmacHelper(B)}(Math),function(){var r=t,e=r.lib,i=e.Base,n=r.enc,o=n.Utf8,s=r.algo;s.HMAC=i.extend({init:function(t,r){t=this._hasher=new t.init,"string"==typeof r&&(r=o.parse(r));var e=t.blockSize,i=4*e;r.sigBytes>i&&(r=t.finalize(r)),r.clamp();for(var n=this._oKey=r.clone(),s=this._iKey=r.clone(),a=n.words,c=s.words,h=0;h<e;h++)a[h]^=1549556828,c[h]^=909522486;n.sigBytes=s.sigBytes=i,this.reset()},reset:function(){var t=this._hasher;t.reset(),t.update(this._iKey)},update:function(t){return this._hasher.update(t),this},finalize:function(t){var r=this._hasher,e=r.finalize(t);r.reset();var i=r.finalize(this._oKey.clone().concat(e));return i}})}(),function(){var r=t,e=r.lib,i=e.Base,n=e.WordArray,o=r.algo,s=o.SHA1,a=o.HMAC,c=o.PBKDF2=i.extend({cfg:i.extend({keySize:4,hasher:s,iterations:1}),init:function(t){this.cfg=this.cfg.extend(t)},compute:function(t,r){for(var e=this.cfg,i=a.create(e.hasher,t),o=n.create(),s=n.create([1]),c=o.words,h=s.words,l=e.keySize,f=e.iterations;c.length<l;){var u=i.update(r).finalize(s);i.reset();for(var d=u.words,v=d.length,p=u,_=1;_<f;_++){p=i.finalize(p),i.reset();for(var y=p.words,g=0;g<v;g++)d[g]^=y[g]}o.concat(u),h[0]++}return o.sigBytes=4*l,o}});r.PBKDF2=function(t,r,e){return c.create(e).compute(t,r)}}(),function(){var r=t,e=r.lib,i=e.Base,n=e.WordArray,o=r.algo,s=o.MD5,a=o.EvpKDF=i.extend({cfg:i.extend({keySize:4,hasher:s,iterations:1}),init:function(t){this.cfg=this.cfg.extend(t)},compute:function(t,r){for(var e=this.cfg,i=e.hasher.create(),o=n.create(),s=o.words,a=e.keySize,c=e.iterations;s.length<a;){h&&i.update(h);var h=i.update(t).finalize(r);i.reset();for(var l=1;l<c;l++)h=i.finalize(h),i.reset();o.concat(h)}return o.sigBytes=4*a,o}});r.EvpKDF=function(t,r,e){return a.create(e).compute(t,r)}}(),function(){var r=t,e=r.lib,i=e.WordArray,n=r.algo,o=n.SHA256,s=n.SHA224=o.extend({_doReset:function(){this._hash=new i.init([3238371032,914150663,812702999,4144912697,4290775857,1750603025,1694076839,3204075428])},_doFinalize:function(){var t=o._doFinalize.call(this);return t.sigBytes-=4,t}});r.SHA224=o._createHelper(s),r.HmacSHA224=o._createHmacHelper(s)}(),function(r){var e=t,i=e.lib,n=i.Base,o=i.WordArray,s=e.x64={};s.Word=n.extend({init:function(t,r){this.high=t,this.low=r}}),s.WordArray=n.extend({init:function(t,e){t=this.words=t||[],e!=r?this.sigBytes=e:this.sigBytes=8*t.length},toX32:function(){for(var t=this.words,r=t.length,e=[],i=0;i<r;i++){var n=t[i];e.push(n.high),e.push(n.low)}return o.create(e,this.sigBytes)},clone:function(){for(var t=n.clone.call(this),r=t.words=this.words.slice(0),e=r.length,i=0;i<e;i++)r[i]=r[i].clone();return t}})}(),function(r){var e=t,i=e.lib,n=i.WordArray,o=i.Hasher,s=e.x64,a=s.Word,c=e.algo,h=[],l=[],f=[];!function(){for(var t=1,r=0,e=0;e<24;e++){h[t+5*r]=(e+1)*(e+2)/2%64;var i=r%5,n=(2*t+3*r)%5;t=i,r=n}for(var t=0;t<5;t++)for(var r=0;r<5;r++)l[t+5*r]=r+(2*t+3*r)%5*5;for(var o=1,s=0;s<24;s++){for(var c=0,u=0,d=0;d<7;d++){if(1&o){var v=(1<<d)-1;v<32?u^=1<<v:c^=1<<v-32}128&o?o=o<<1^113:o<<=1}f[s]=a.create(c,u)}}();var u=[];!function(){for(var t=0;t<25;t++)u[t]=a.create()}();var d=c.SHA3=o.extend({cfg:o.cfg.extend({outputLength:512}),_doReset:function(){for(var t=this._state=[],r=0;r<25;r++)t[r]=new a.init;this.blockSize=(1600-2*this.cfg.outputLength)/32},_doProcessBlock:function(t,r){for(var e=this._state,i=this.blockSize/2,n=0;n<i;n++){var o=t[r+2*n],s=t[r+2*n+1];o=16711935&(o<<8|o>>>24)|4278255360&(o<<24|o>>>8),s=16711935&(s<<8|s>>>24)|4278255360&(s<<24|s>>>8);var a=e[n];a.high^=s,a.low^=o}for(var c=0;c<24;c++){for(var d=0;d<5;d++){for(var v=0,p=0,_=0;_<5;_++){var a=e[d+5*_];v^=a.high,p^=a.low}var y=u[d];y.high=v,y.low=p}for(var d=0;d<5;d++)for(var g=u[(d+4)%5],B=u[(d+1)%5],w=B.high,k=B.low,v=g.high^(w<<1|k>>>31),p=g.low^(k<<1|w>>>31),_=0;_<5;_++){var a=e[d+5*_];a.high^=v,a.low^=p}for(var S=1;S<25;S++){var a=e[S],m=a.high,x=a.low,b=h[S];if(b<32)var v=m<<b|x>>>32-b,p=x<<b|m>>>32-b;else var v=x<<b-32|m>>>64-b,p=m<<b-32|x>>>64-b;var H=u[l[S]];H.high=v,H.low=p}var z=u[0],A=e[0];z.high=A.high,z.low=A.low;for(var d=0;d<5;d++)for(var _=0;_<5;_++){var S=d+5*_,a=e[S],C=u[S],D=u[(d+1)%5+5*_],R=u[(d+2)%5+5*_];a.high=C.high^~D.high&R.high,a.low=C.low^~D.low&R.low}var a=e[0],E=f[c];a.high^=E.high,a.low^=E.low}},_doFinalize:function(){var t=this._data,e=t.words,i=(8*this._nDataBytes,8*t.sigBytes),o=32*this.blockSize;e[i>>>5]|=1<<24-i%32,e[(r.ceil((i+1)/o)*o>>>5)-1]|=128,t.sigBytes=4*e.length,this._process();for(var s=this._state,a=this.cfg.outputLength/8,c=a/8,h=[],l=0;l<c;l++){var f=s[l],u=f.high,d=f.low;u=16711935&(u<<8|u>>>24)|4278255360&(u<<24|u>>>8),d=16711935&(d<<8|d>>>24)|4278255360&(d<<24|d>>>8),h.push(d),h.push(u)}return new n.init(h,a)},clone:function(){for(var t=o.clone.call(this),r=t._state=this._state.slice(0),e=0;e<25;e++)r[e]=r[e].clone();return t}});e.SHA3=o._createHelper(d),e.HmacSHA3=o._createHmacHelper(d)}(Math),function(){function r(){return s.create.apply(s,arguments)}var e=t,i=e.lib,n=i.Hasher,o=e.x64,s=o.Word,a=o.WordArray,c=e.algo,h=[r(1116352408,3609767458),r(1899447441,602891725),r(3049323471,3964484399),r(3921009573,2173295548),r(961987163,4081628472),r(1508970993,3053834265),r(2453635748,2937671579),r(2870763221,3664609560),r(3624381080,2734883394),r(310598401,1164996542),r(607225278,1323610764),r(1426881987,3590304994),r(1925078388,4068182383),r(2162078206,991336113),r(2614888103,633803317),r(3248222580,3479774868),r(3835390401,2666613458),r(4022224774,944711139),r(264347078,2341262773),r(604807628,2007800933),r(770255983,1495990901),r(1249150122,1856431235),r(1555081692,3175218132),r(1996064986,2198950837),r(2554220882,3999719339),r(2821834349,766784016),r(2952996808,2566594879),r(3210313671,3203337956),r(3336571891,1034457026),r(3584528711,2466948901),r(113926993,3758326383),r(338241895,168717936),r(666307205,1188179964),r(773529912,1546045734),r(1294757372,1522805485),r(1396182291,2643833823),r(1695183700,2343527390),r(1986661051,1014477480),r(2177026350,1206759142),r(2456956037,344077627),r(2730485921,1290863460),r(2820302411,3158454273),r(3259730800,3505952657),r(3345764771,106217008),r(3516065817,3606008344),r(3600352804,1432725776),r(4094571909,1467031594),r(275423344,851169720),r(430227734,3100823752),r(506948616,1363258195),r(659060556,3750685593),r(883997877,3785050280),r(958139571,3318307427),r(1322822218,3812723403),r(1537002063,2003034995),r(1747873779,3602036899),r(1955562222,1575990012),r(2024104815,1125592928),r(2227730452,2716904306),r(2361852424,442776044),r(2428436474,593698344),r(2756734187,3733110249),r(3204031479,2999351573),r(3329325298,3815920427),r(3391569614,3928383900),r(3515267271,566280711),r(3940187606,3454069534),r(4118630271,4000239992),r(116418474,1914138554),r(174292421,2731055270),r(289380356,3203993006),r(460393269,320620315),r(685471733,587496836),r(852142971,1086792851),r(1017036298,365543100),r(1126000580,2618297676),r(1288033470,3409855158),r(1501505948,4234509866),r(1607167915,987167468),r(1816402316,1246189591)],l=[];!function(){for(var t=0;t<80;t++)l[t]=r()}();var f=c.SHA512=n.extend({_doReset:function(){this._hash=new a.init([new s.init(1779033703,4089235720),new s.init(3144134277,2227873595),new s.init(1013904242,4271175723),new s.init(2773480762,1595750129),new s.init(1359893119,2917565137),new s.init(2600822924,725511199),new s.init(528734635,4215389547),new s.init(1541459225,327033209)])},_doProcessBlock:function(t,r){for(var e=this._hash.words,i=e[0],n=e[1],o=e[2],s=e[3],a=e[4],c=e[5],f=e[6],u=e[7],d=i.high,v=i.low,p=n.high,_=n.low,y=o.high,g=o.low,B=s.high,w=s.low,k=a.high,S=a.low,m=c.high,x=c.low,b=f.high,H=f.low,z=u.high,A=u.low,C=d,D=v,R=p,E=_,M=y,F=g,P=B,W=w,O=k,U=S,I=m,K=x,X=b,L=H,j=z,N=A,T=0;T<80;T++){var Z=l[T];if(T<16)var q=Z.high=0|t[r+2*T],G=Z.low=0|t[r+2*T+1];else{var J=l[T-15],$=J.high,Q=J.low,V=($>>>1|Q<<31)^($>>>8|Q<<24)^$>>>7,Y=(Q>>>1|$<<31)^(Q>>>8|$<<24)^(Q>>>7|$<<25),tt=l[T-2],rt=tt.high,et=tt.low,it=(rt>>>19|et<<13)^(rt<<3|et>>>29)^rt>>>6,nt=(et>>>19|rt<<13)^(et<<3|rt>>>29)^(et>>>6|rt<<26),ot=l[T-7],st=ot.high,at=ot.low,ct=l[T-16],ht=ct.high,lt=ct.low,G=Y+at,q=V+st+(G>>>0<Y>>>0?1:0),G=G+nt,q=q+it+(G>>>0<nt>>>0?1:0),G=G+lt,q=q+ht+(G>>>0<lt>>>0?1:0);Z.high=q,Z.low=G}var ft=O&I^~O&X,ut=U&K^~U&L,dt=C&R^C&M^R&M,vt=D&E^D&F^E&F,pt=(C>>>28|D<<4)^(C<<30|D>>>2)^(C<<25|D>>>7),_t=(D>>>28|C<<4)^(D<<30|C>>>2)^(D<<25|C>>>7),yt=(O>>>14|U<<18)^(O>>>18|U<<14)^(O<<23|U>>>9),gt=(U>>>14|O<<18)^(U>>>18|O<<14)^(U<<23|O>>>9),Bt=h[T],wt=Bt.high,kt=Bt.low,St=N+gt,mt=j+yt+(St>>>0<N>>>0?1:0),St=St+ut,mt=mt+ft+(St>>>0<ut>>>0?1:0),St=St+kt,mt=mt+wt+(St>>>0<kt>>>0?1:0),St=St+G,mt=mt+q+(St>>>0<G>>>0?1:0),xt=_t+vt,bt=pt+dt+(xt>>>0<_t>>>0?1:0);j=X,N=L,X=I,L=K,I=O,K=U,U=W+St|0,O=P+mt+(U>>>0<W>>>0?1:0)|0,P=M,W=F,M=R,F=E,R=C,E=D,D=St+xt|0,C=mt+bt+(D>>>0<St>>>0?1:0)|0}v=i.low=v+D,i.high=d+C+(v>>>0<D>>>0?1:0),_=n.low=_+E,n.high=p+R+(_>>>0<E>>>0?1:0),g=o.low=g+F,o.high=y+M+(g>>>0<F>>>0?1:0),w=s.low=w+W,s.high=B+P+(w>>>0<W>>>0?1:0),S=a.low=S+U,a.high=k+O+(S>>>0<U>>>0?1:0),x=c.low=x+K,c.high=m+I+(x>>>0<K>>>0?1:0),H=f.low=H+L,f.high=b+X+(H>>>0<L>>>0?1:0),A=u.low=A+N,u.high=z+j+(A>>>0<N>>>0?1:0)},_doFinalize:function(){var t=this._data,r=t.words,e=8*this._nDataBytes,i=8*t.sigBytes;r[i>>>5]|=128<<24-i%32,r[(i+128>>>10<<5)+30]=Math.floor(e/4294967296),r[(i+128>>>10<<5)+31]=e,t.sigBytes=4*r.length,this._process();var n=this._hash.toX32();return n},clone:function(){var t=n.clone.call(this);return t._hash=this._hash.clone(),t},blockSize:32});e.SHA512=n._createHelper(f),e.HmacSHA512=n._createHmacHelper(f)}(),function(){var r=t,e=r.x64,i=e.Word,n=e.WordArray,o=r.algo,s=o.SHA512,a=o.SHA384=s.extend({_doReset:function(){this._hash=new n.init([new i.init(3418070365,3238371032),new i.init(1654270250,914150663),new i.init(2438529370,812702999),new i.init(355462360,4144912697),new i.init(1731405415,4290775857),new i.init(2394180231,1750603025),new i.init(3675008525,1694076839),new i.init(1203062813,3204075428)])},_doFinalize:function(){var t=s._doFinalize.call(this);return t.sigBytes-=16,t}});r.SHA384=s._createHelper(a),r.HmacSHA384=s._createHmacHelper(a)}(),t.lib.Cipher||function(r){var e=t,i=e.lib,n=i.Base,o=i.WordArray,s=i.BufferedBlockAlgorithm,a=e.enc,c=(a.Utf8,a.Base64),h=e.algo,l=h.EvpKDF,f=i.Cipher=s.extend({cfg:n.extend(),createEncryptor:function(t,r){return this.create(this._ENC_XFORM_MODE,t,r)},createDecryptor:function(t,r){return this.create(this._DEC_XFORM_MODE,t,r)},init:function(t,r,e){this.cfg=this.cfg.extend(e),this._xformMode=t,this._key=r,this.reset()},reset:function(){s.reset.call(this),this._doReset()},process:function(t){return this._append(t),this._process()},finalize:function(t){t&&this._append(t);var r=this._doFinalize();return r},keySize:4,ivSize:4,_ENC_XFORM_MODE:1,_DEC_XFORM_MODE:2,_createHelper:function(){function t(t){return"string"==typeof t?m:w}return function(r){return{encrypt:function(e,i,n){return t(i).encrypt(r,e,i,n)},decrypt:function(e,i,n){return t(i).decrypt(r,e,i,n)}}}}()}),u=(i.StreamCipher=f.extend({_doFinalize:function(){var t=this._process(!0);return t},blockSize:1}),e.mode={}),d=i.BlockCipherMode=n.extend({createEncryptor:function(t,r){return this.Encryptor.create(t,r)},createDecryptor:function(t,r){return this.Decryptor.create(t,r)},init:function(t,r){this._cipher=t,this._iv=r}}),v=u.CBC=function(){function t(t,e,i){var n=this._iv;if(n){var o=n;this._iv=r}else var o=this._prevBlock;for(var s=0;s<i;s++)t[e+s]^=o[s]}var e=d.extend();return e.Encryptor=e.extend({processBlock:function(r,e){var i=this._cipher,n=i.blockSize;t.call(this,r,e,n),i.encryptBlock(r,e),this._prevBlock=r.slice(e,e+n)}}),e.Decryptor=e.extend({processBlock:function(r,e){var i=this._cipher,n=i.blockSize,o=r.slice(e,e+n);i.decryptBlock(r,e),t.call(this,r,e,n),this._prevBlock=o}}),e}(),p=e.pad={},_=p.Pkcs7={pad:function(t,r){for(var e=4*r,i=e-t.sigBytes%e,n=i<<24|i<<16|i<<8|i,s=[],a=0;a<i;a+=4)s.push(n);var c=o.create(s,i);t.concat(c)},unpad:function(t){var r=255&t.words[t.sigBytes-1>>>2];t.sigBytes-=r}},y=(i.BlockCipher=f.extend({cfg:f.cfg.extend({mode:v,padding:_}),reset:function(){f.reset.call(this);var t=this.cfg,r=t.iv,e=t.mode;if(this._xformMode==this._ENC_XFORM_MODE)var i=e.createEncryptor;else{var i=e.createDecryptor;this._minBufferSize=1}this._mode&&this._mode.__creator==i?this._mode.init(this,r&&r.words):(this._mode=i.call(e,this,r&&r.words),this._mode.__creator=i)},_doProcessBlock:function(t,r){this._mode.processBlock(t,r)},_doFinalize:function(){var t=this.cfg.padding;if(this._xformMode==this._ENC_XFORM_MODE){t.pad(this._data,this.blockSize);var r=this._process(!0)}else{var r=this._process(!0);t.unpad(r)}return r},blockSize:4}),i.CipherParams=n.extend({init:function(t){this.mixIn(t)},toString:function(t){return(t||this.formatter).stringify(this)}})),g=e.format={},B=g.OpenSSL={stringify:function(t){var r=t.ciphertext,e=t.salt;if(e)var i=o.create([1398893684,1701076831]).concat(e).concat(r);else var i=r;return i.toString(c)},parse:function(t){var r=c.parse(t),e=r.words;if(1398893684==e[0]&&1701076831==e[1]){var i=o.create(e.slice(2,4));e.splice(0,4),r.sigBytes-=16}return y.create({ciphertext:r,salt:i})}},w=i.SerializableCipher=n.extend({cfg:n.extend({format:B}),encrypt:function(t,r,e,i){i=this.cfg.extend(i);var n=t.createEncryptor(e,i),o=n.finalize(r),s=n.cfg;return y.create({ciphertext:o,key:e,iv:s.iv,algorithm:t,mode:s.mode,padding:s.padding,blockSize:t.blockSize,formatter:i.format})},decrypt:function(t,r,e,i){i=this.cfg.extend(i),r=this._parse(r,i.format);var n=t.createDecryptor(e,i).finalize(r.ciphertext);return n},_parse:function(t,r){return"string"==typeof t?r.parse(t,this):t}}),k=e.kdf={},S=k.OpenSSL={execute:function(t,r,e,i){i||(i=o.random(8));var n=l.create({keySize:r+e}).compute(t,i),s=o.create(n.words.slice(r),4*e);return n.sigBytes=4*r,y.create({key:n,iv:s,salt:i})}},m=i.PasswordBasedCipher=w.extend({cfg:w.cfg.extend({kdf:S}),encrypt:function(t,r,e,i){i=this.cfg.extend(i);var n=i.kdf.execute(e,t.keySize,t.ivSize);i.iv=n.iv;var o=w.encrypt.call(this,t,r,n.key,i);return o.mixIn(n),o},decrypt:function(t,r,e,i){i=this.cfg.extend(i),r=this._parse(r,i.format);var n=i.kdf.execute(e,t.keySize,t.ivSize,r.salt);i.iv=n.iv;var o=w.decrypt.call(this,t,r,n.key,i);return o}})}(),t.mode.CFB=function(){function r(t,r,e,i){var n=this._iv;if(n){var o=n.slice(0);this._iv=void 0}else var o=this._prevBlock;i.encryptBlock(o,0);for(var s=0;s<e;s++)t[r+s]^=o[s]}var e=t.lib.BlockCipherMode.extend();return e.Encryptor=e.extend({processBlock:function(t,e){var i=this._cipher,n=i.blockSize;r.call(this,t,e,n,i),this._prevBlock=t.slice(e,e+n)}}),e.Decryptor=e.extend({processBlock:function(t,e){var i=this._cipher,n=i.blockSize,o=t.slice(e,e+n);r.call(this,t,e,n,i),this._prevBlock=o}}),e}(),t.mode.ECB=function(){var r=t.lib.BlockCipherMode.extend();return r.Encryptor=r.extend({processBlock:function(t,r){this._cipher.encryptBlock(t,r)}}),r.Decryptor=r.extend({processBlock:function(t,r){this._cipher.decryptBlock(t,r)}}),r}(),t.pad.AnsiX923={pad:function(t,r){var e=t.sigBytes,i=4*r,n=i-e%i,o=e+n-1;t.clamp(),t.words[o>>>2]|=n<<24-o%4*8,t.sigBytes+=n},unpad:function(t){var r=255&t.words[t.sigBytes-1>>>2];t.sigBytes-=r}},t.pad.Iso10126={pad:function(r,e){var i=4*e,n=i-r.sigBytes%i;r.concat(t.lib.WordArray.random(n-1)).concat(t.lib.WordArray.create([n<<24],1))},unpad:function(t){var r=255&t.words[t.sigBytes-1>>>2];t.sigBytes-=r}},t.pad.Iso97971={pad:function(r,e){r.concat(t.lib.WordArray.create([2147483648],1)),t.pad.ZeroPadding.pad(r,e)},unpad:function(r){t.pad.ZeroPadding.unpad(r),r.sigBytes--}},t.mode.OFB=function(){var r=t.lib.BlockCipherMode.extend(),e=r.Encryptor=r.extend({processBlock:function(t,r){var e=this._cipher,i=e.blockSize,n=this._iv,o=this._keystream;n&&(o=this._keystream=n.slice(0),this._iv=void 0),e.encryptBlock(o,0);for(var s=0;s<i;s++)t[r+s]^=o[s]}});return r.Decryptor=e,r}(),t.pad.NoPadding={pad:function(){},unpad:function(){}},function(r){var e=t,i=e.lib,n=i.CipherParams,o=e.enc,s=o.Hex,a=e.format;a.Hex={stringify:function(t){return t.ciphertext.toString(s)},parse:function(t){var r=s.parse(t);return n.create({ciphertext:r})}}}(),function(){var r=t,e=r.lib,i=e.BlockCipher,n=r.algo,o=[],s=[],a=[],c=[],h=[],l=[],f=[],u=[],d=[],v=[];!function(){for(var t=[],r=0;r<256;r++)r<128?t[r]=r<<1:t[r]=r<<1^283;for(var e=0,i=0,r=0;r<256;r++){var n=i^i<<1^i<<2^i<<3^i<<4;n=n>>>8^255&n^99,o[e]=n,s[n]=e;var p=t[e],_=t[p],y=t[_],g=257*t[n]^16843008*n;a[e]=g<<24|g>>>8,c[e]=g<<16|g>>>16,h[e]=g<<8|g>>>24,l[e]=g;var g=16843009*y^65537*_^257*p^16843008*e;f[n]=g<<24|g>>>8,u[n]=g<<16|g>>>16,d[n]=g<<8|g>>>24,v[n]=g,e?(e=p^t[t[t[y^p]]],i^=t[t[i]]):e=i=1}}();var p=[0,1,2,4,8,16,32,64,128,27,54],_=n.AES=i.extend({_doReset:function(){if(!this._nRounds||this._keyPriorReset!==this._key){for(var t=this._keyPriorReset=this._key,r=t.words,e=t.sigBytes/4,i=this._nRounds=e+6,n=4*(i+1),s=this._keySchedule=[],a=0;a<n;a++)if(a<e)s[a]=r[a];else{var c=s[a-1];a%e?e>6&&a%e==4&&(c=o[c>>>24]<<24|o[c>>>16&255]<<16|o[c>>>8&255]<<8|o[255&c]):(c=c<<8|c>>>24,c=o[c>>>24]<<24|o[c>>>16&255]<<16|o[c>>>8&255]<<8|o[255&c],c^=p[a/e|0]<<24),s[a]=s[a-e]^c}for(var h=this._invKeySchedule=[],l=0;l<n;l++){var a=n-l;if(l%4)var c=s[a];else var c=s[a-4];l<4||a<=4?h[l]=c:h[l]=f[o[c>>>24]]^u[o[c>>>16&255]]^d[o[c>>>8&255]]^v[o[255&c]]}}},encryptBlock:function(t,r){this._doCryptBlock(t,r,this._keySchedule,a,c,h,l,o)},decryptBlock:function(t,r){var e=t[r+1];t[r+1]=t[r+3],t[r+3]=e,this._doCryptBlock(t,r,this._invKeySchedule,f,u,d,v,s);var e=t[r+1];t[r+1]=t[r+3],t[r+3]=e},_doCryptBlock:function(t,r,e,i,n,o,s,a){for(var c=this._nRounds,h=t[r]^e[0],l=t[r+1]^e[1],f=t[r+2]^e[2],u=t[r+3]^e[3],d=4,v=1;v<c;v++){var p=i[h>>>24]^n[l>>>16&255]^o[f>>>8&255]^s[255&u]^e[d++],_=i[l>>>24]^n[f>>>16&255]^o[u>>>8&255]^s[255&h]^e[d++],y=i[f>>>24]^n[u>>>16&255]^o[h>>>8&255]^s[255&l]^e[d++],g=i[u>>>24]^n[h>>>16&255]^o[l>>>8&255]^s[255&f]^e[d++];h=p,l=_,f=y,u=g}var p=(a[h>>>24]<<24|a[l>>>16&255]<<16|a[f>>>8&255]<<8|a[255&u])^e[d++],_=(a[l>>>24]<<24|a[f>>>16&255]<<16|a[u>>>8&255]<<8|a[255&h])^e[d++],y=(a[f>>>24]<<24|a[u>>>16&255]<<16|a[h>>>8&255]<<8|a[255&l])^e[d++],g=(a[u>>>24]<<24|a[h>>>16&255]<<16|a[l>>>8&255]<<8|a[255&f])^e[d++];t[r]=p,t[r+1]=_,t[r+2]=y,t[r+3]=g},keySize:8});r.AES=i._createHelper(_)}(),function(){function r(t,r){var e=(this._lBlock>>>t^this._rBlock)&r;this._rBlock^=e,this._lBlock^=e<<t}function e(t,r){var e=(this._rBlock>>>t^this._lBlock)&r;this._lBlock^=e,this._rBlock^=e<<t;
}var i=t,n=i.lib,o=n.WordArray,s=n.BlockCipher,a=i.algo,c=[57,49,41,33,25,17,9,1,58,50,42,34,26,18,10,2,59,51,43,35,27,19,11,3,60,52,44,36,63,55,47,39,31,23,15,7,62,54,46,38,30,22,14,6,61,53,45,37,29,21,13,5,28,20,12,4],h=[14,17,11,24,1,5,3,28,15,6,21,10,23,19,12,4,26,8,16,7,27,20,13,2,41,52,31,37,47,55,30,40,51,45,33,48,44,49,39,56,34,53,46,42,50,36,29,32],l=[1,2,4,6,8,10,12,14,15,17,19,21,23,25,27,28],f=[{0:8421888,268435456:32768,536870912:8421378,805306368:2,1073741824:512,1342177280:8421890,1610612736:8389122,1879048192:8388608,2147483648:514,2415919104:8389120,2684354560:33280,2952790016:8421376,3221225472:32770,3489660928:8388610,3758096384:0,4026531840:33282,134217728:0,402653184:8421890,671088640:33282,939524096:32768,1207959552:8421888,1476395008:512,1744830464:8421378,2013265920:2,2281701376:8389120,2550136832:33280,2818572288:8421376,3087007744:8389122,3355443200:8388610,3623878656:32770,3892314112:514,4160749568:8388608,1:32768,268435457:2,536870913:8421888,805306369:8388608,1073741825:8421378,1342177281:33280,1610612737:512,1879048193:8389122,2147483649:8421890,2415919105:8421376,2684354561:8388610,2952790017:33282,3221225473:514,3489660929:8389120,3758096385:32770,4026531841:0,134217729:8421890,402653185:8421376,671088641:8388608,939524097:512,1207959553:32768,1476395009:8388610,1744830465:2,2013265921:33282,2281701377:32770,2550136833:8389122,2818572289:514,3087007745:8421888,3355443201:8389120,3623878657:0,3892314113:33280,4160749569:8421378},{0:1074282512,16777216:16384,33554432:524288,50331648:1074266128,67108864:1073741840,83886080:1074282496,100663296:1073758208,117440512:16,134217728:540672,150994944:1073758224,167772160:1073741824,184549376:540688,201326592:524304,218103808:0,234881024:16400,251658240:1074266112,8388608:1073758208,25165824:540688,41943040:16,58720256:1073758224,75497472:1074282512,92274688:1073741824,109051904:524288,125829120:1074266128,142606336:524304,159383552:0,176160768:16384,192937984:1074266112,209715200:1073741840,226492416:540672,243269632:1074282496,260046848:16400,268435456:0,285212672:1074266128,301989888:1073758224,318767104:1074282496,335544320:1074266112,352321536:16,369098752:540688,385875968:16384,402653184:16400,419430400:524288,436207616:524304,452984832:1073741840,469762048:540672,486539264:1073758208,503316480:1073741824,520093696:1074282512,276824064:540688,293601280:524288,310378496:1074266112,327155712:16384,343932928:1073758208,360710144:1074282512,377487360:16,394264576:1073741824,411041792:1074282496,427819008:1073741840,444596224:1073758224,461373440:524304,478150656:0,494927872:16400,511705088:1074266128,528482304:540672},{0:260,1048576:0,2097152:67109120,3145728:65796,4194304:65540,5242880:67108868,6291456:67174660,7340032:67174400,8388608:67108864,9437184:67174656,10485760:65792,11534336:67174404,12582912:67109124,13631488:65536,14680064:4,15728640:256,524288:67174656,1572864:67174404,2621440:0,3670016:67109120,4718592:67108868,5767168:65536,6815744:65540,7864320:260,8912896:4,9961472:256,11010048:67174400,12058624:65796,13107200:65792,14155776:67109124,15204352:67174660,16252928:67108864,16777216:67174656,17825792:65540,18874368:65536,19922944:67109120,20971520:256,22020096:67174660,23068672:67108868,24117248:0,25165824:67109124,26214400:67108864,27262976:4,28311552:65792,29360128:67174400,30408704:260,31457280:65796,32505856:67174404,17301504:67108864,18350080:260,19398656:67174656,20447232:0,21495808:65540,22544384:67109120,23592960:256,24641536:67174404,25690112:65536,26738688:67174660,27787264:65796,28835840:67108868,29884416:67109124,30932992:67174400,31981568:4,33030144:65792},{0:2151682048,65536:2147487808,131072:4198464,196608:2151677952,262144:0,327680:4198400,393216:2147483712,458752:4194368,524288:2147483648,589824:4194304,655360:64,720896:2147487744,786432:2151678016,851968:4160,917504:4096,983040:2151682112,32768:2147487808,98304:64,163840:2151678016,229376:2147487744,294912:4198400,360448:2151682112,425984:0,491520:2151677952,557056:4096,622592:2151682048,688128:4194304,753664:4160,819200:2147483648,884736:4194368,950272:4198464,1015808:2147483712,1048576:4194368,1114112:4198400,1179648:2147483712,1245184:0,1310720:4160,1376256:2151678016,1441792:2151682048,1507328:2147487808,1572864:2151682112,1638400:2147483648,1703936:2151677952,1769472:4198464,1835008:2147487744,1900544:4194304,1966080:64,2031616:4096,1081344:2151677952,1146880:2151682112,1212416:0,1277952:4198400,1343488:4194368,1409024:2147483648,1474560:2147487808,1540096:64,1605632:2147483712,1671168:4096,1736704:2147487744,1802240:2151678016,1867776:4160,1933312:2151682048,1998848:4194304,2064384:4198464},{0:128,4096:17039360,8192:262144,12288:536870912,16384:537133184,20480:16777344,24576:553648256,28672:262272,32768:16777216,36864:537133056,40960:536871040,45056:553910400,49152:553910272,53248:0,57344:17039488,61440:553648128,2048:17039488,6144:553648256,10240:128,14336:17039360,18432:262144,22528:537133184,26624:553910272,30720:536870912,34816:537133056,38912:0,43008:553910400,47104:16777344,51200:536871040,55296:553648128,59392:16777216,63488:262272,65536:262144,69632:128,73728:536870912,77824:553648256,81920:16777344,86016:553910272,90112:537133184,94208:16777216,98304:553910400,102400:553648128,106496:17039360,110592:537133056,114688:262272,118784:536871040,122880:0,126976:17039488,67584:553648256,71680:16777216,75776:17039360,79872:537133184,83968:536870912,88064:17039488,92160:128,96256:553910272,100352:262272,104448:553910400,108544:0,112640:553648128,116736:16777344,120832:262144,124928:537133056,129024:536871040},{0:268435464,256:8192,512:270532608,768:270540808,1024:268443648,1280:2097152,1536:2097160,1792:268435456,2048:0,2304:268443656,2560:2105344,2816:8,3072:270532616,3328:2105352,3584:8200,3840:270540800,128:270532608,384:270540808,640:8,896:2097152,1152:2105352,1408:268435464,1664:268443648,1920:8200,2176:2097160,2432:8192,2688:268443656,2944:270532616,3200:0,3456:270540800,3712:2105344,3968:268435456,4096:268443648,4352:270532616,4608:270540808,4864:8200,5120:2097152,5376:268435456,5632:268435464,5888:2105344,6144:2105352,6400:0,6656:8,6912:270532608,7168:8192,7424:268443656,7680:270540800,7936:2097160,4224:8,4480:2105344,4736:2097152,4992:268435464,5248:268443648,5504:8200,5760:270540808,6016:270532608,6272:270540800,6528:270532616,6784:8192,7040:2105352,7296:2097160,7552:0,7808:268435456,8064:268443656},{0:1048576,16:33555457,32:1024,48:1049601,64:34604033,80:0,96:1,112:34603009,128:33555456,144:1048577,160:33554433,176:34604032,192:34603008,208:1025,224:1049600,240:33554432,8:34603009,24:0,40:33555457,56:34604032,72:1048576,88:33554433,104:33554432,120:1025,136:1049601,152:33555456,168:34603008,184:1048577,200:1024,216:34604033,232:1,248:1049600,256:33554432,272:1048576,288:33555457,304:34603009,320:1048577,336:33555456,352:34604032,368:1049601,384:1025,400:34604033,416:1049600,432:1,448:0,464:34603008,480:33554433,496:1024,264:1049600,280:33555457,296:34603009,312:1,328:33554432,344:1048576,360:1025,376:34604032,392:33554433,408:34603008,424:0,440:34604033,456:1049601,472:1024,488:33555456,504:1048577},{0:134219808,1:131072,2:134217728,3:32,4:131104,5:134350880,6:134350848,7:2048,8:134348800,9:134219776,10:133120,11:134348832,12:2080,13:0,14:134217760,15:133152,2147483648:2048,2147483649:134350880,2147483650:134219808,2147483651:134217728,2147483652:134348800,2147483653:133120,2147483654:133152,2147483655:32,2147483656:134217760,2147483657:2080,2147483658:131104,2147483659:134350848,2147483660:0,2147483661:134348832,2147483662:134219776,2147483663:131072,16:133152,17:134350848,18:32,19:2048,20:134219776,21:134217760,22:134348832,23:131072,24:0,25:131104,26:134348800,27:134219808,28:134350880,29:133120,30:2080,31:134217728,2147483664:131072,2147483665:2048,2147483666:134348832,2147483667:133152,2147483668:32,2147483669:134348800,2147483670:134217728,2147483671:134219808,2147483672:134350880,2147483673:134217760,2147483674:134219776,2147483675:0,2147483676:133120,2147483677:2080,2147483678:131104,2147483679:134350848}],u=[4160749569,528482304,33030144,2064384,129024,8064,504,2147483679],d=a.DES=s.extend({_doReset:function(){for(var t=this._key,r=t.words,e=[],i=0;i<56;i++){var n=c[i]-1;e[i]=r[n>>>5]>>>31-n%32&1}for(var o=this._subKeys=[],s=0;s<16;s++){for(var a=o[s]=[],f=l[s],i=0;i<24;i++)a[i/6|0]|=e[(h[i]-1+f)%28]<<31-i%6,a[4+(i/6|0)]|=e[28+(h[i+24]-1+f)%28]<<31-i%6;a[0]=a[0]<<1|a[0]>>>31;for(var i=1;i<7;i++)a[i]=a[i]>>>4*(i-1)+3;a[7]=a[7]<<5|a[7]>>>27}for(var u=this._invSubKeys=[],i=0;i<16;i++)u[i]=o[15-i]},encryptBlock:function(t,r){this._doCryptBlock(t,r,this._subKeys)},decryptBlock:function(t,r){this._doCryptBlock(t,r,this._invSubKeys)},_doCryptBlock:function(t,i,n){this._lBlock=t[i],this._rBlock=t[i+1],r.call(this,4,252645135),r.call(this,16,65535),e.call(this,2,858993459),e.call(this,8,16711935),r.call(this,1,1431655765);for(var o=0;o<16;o++){for(var s=n[o],a=this._lBlock,c=this._rBlock,h=0,l=0;l<8;l++)h|=f[l][((c^s[l])&u[l])>>>0];this._lBlock=c,this._rBlock=a^h}var d=this._lBlock;this._lBlock=this._rBlock,this._rBlock=d,r.call(this,1,1431655765),e.call(this,8,16711935),e.call(this,2,858993459),r.call(this,16,65535),r.call(this,4,252645135),t[i]=this._lBlock,t[i+1]=this._rBlock},keySize:2,ivSize:2,blockSize:2});i.DES=s._createHelper(d);var v=a.TripleDES=s.extend({_doReset:function(){var t=this._key,r=t.words;this._des1=d.createEncryptor(o.create(r.slice(0,2))),this._des2=d.createEncryptor(o.create(r.slice(2,4))),this._des3=d.createEncryptor(o.create(r.slice(4,6)))},encryptBlock:function(t,r){this._des1.encryptBlock(t,r),this._des2.decryptBlock(t,r),this._des3.encryptBlock(t,r)},decryptBlock:function(t,r){this._des3.decryptBlock(t,r),this._des2.encryptBlock(t,r),this._des1.decryptBlock(t,r)},keySize:6,ivSize:2,blockSize:2});i.TripleDES=s._createHelper(v)}(),function(){function r(){for(var t=this._S,r=this._i,e=this._j,i=0,n=0;n<4;n++){r=(r+1)%256,e=(e+t[r])%256;var o=t[r];t[r]=t[e],t[e]=o,i|=t[(t[r]+t[e])%256]<<24-8*n}return this._i=r,this._j=e,i}var e=t,i=e.lib,n=i.StreamCipher,o=e.algo,s=o.RC4=n.extend({_doReset:function(){for(var t=this._key,r=t.words,e=t.sigBytes,i=this._S=[],n=0;n<256;n++)i[n]=n;for(var n=0,o=0;n<256;n++){var s=n%e,a=r[s>>>2]>>>24-s%4*8&255;o=(o+i[n]+a)%256;var c=i[n];i[n]=i[o],i[o]=c}this._i=this._j=0},_doProcessBlock:function(t,e){t[e]^=r.call(this)},keySize:8,ivSize:0});e.RC4=n._createHelper(s);var a=o.RC4Drop=s.extend({cfg:s.cfg.extend({drop:192}),_doReset:function(){s._doReset.call(this);for(var t=this.cfg.drop;t>0;t--)r.call(this)}});e.RC4Drop=n._createHelper(a)}(),t.mode.CTRGladman=function(){function r(t){if(255===(t>>24&255)){var r=t>>16&255,e=t>>8&255,i=255&t;255===r?(r=0,255===e?(e=0,255===i?i=0:++i):++e):++r,t=0,t+=r<<16,t+=e<<8,t+=i}else t+=1<<24;return t}function e(t){return 0===(t[0]=r(t[0]))&&(t[1]=r(t[1])),t}var i=t.lib.BlockCipherMode.extend(),n=i.Encryptor=i.extend({processBlock:function(t,r){var i=this._cipher,n=i.blockSize,o=this._iv,s=this._counter;o&&(s=this._counter=o.slice(0),this._iv=void 0),e(s);var a=s.slice(0);i.encryptBlock(a,0);for(var c=0;c<n;c++)t[r+c]^=a[c]}});return i.Decryptor=n,i}(),function(){function r(){for(var t=this._X,r=this._C,e=0;e<8;e++)a[e]=r[e];r[0]=r[0]+1295307597+this._b|0,r[1]=r[1]+3545052371+(r[0]>>>0<a[0]>>>0?1:0)|0,r[2]=r[2]+886263092+(r[1]>>>0<a[1]>>>0?1:0)|0,r[3]=r[3]+1295307597+(r[2]>>>0<a[2]>>>0?1:0)|0,r[4]=r[4]+3545052371+(r[3]>>>0<a[3]>>>0?1:0)|0,r[5]=r[5]+886263092+(r[4]>>>0<a[4]>>>0?1:0)|0,r[6]=r[6]+1295307597+(r[5]>>>0<a[5]>>>0?1:0)|0,r[7]=r[7]+3545052371+(r[6]>>>0<a[6]>>>0?1:0)|0,this._b=r[7]>>>0<a[7]>>>0?1:0;for(var e=0;e<8;e++){var i=t[e]+r[e],n=65535&i,o=i>>>16,s=((n*n>>>17)+n*o>>>15)+o*o,h=((4294901760&i)*i|0)+((65535&i)*i|0);c[e]=s^h}t[0]=c[0]+(c[7]<<16|c[7]>>>16)+(c[6]<<16|c[6]>>>16)|0,t[1]=c[1]+(c[0]<<8|c[0]>>>24)+c[7]|0,t[2]=c[2]+(c[1]<<16|c[1]>>>16)+(c[0]<<16|c[0]>>>16)|0,t[3]=c[3]+(c[2]<<8|c[2]>>>24)+c[1]|0,t[4]=c[4]+(c[3]<<16|c[3]>>>16)+(c[2]<<16|c[2]>>>16)|0,t[5]=c[5]+(c[4]<<8|c[4]>>>24)+c[3]|0,t[6]=c[6]+(c[5]<<16|c[5]>>>16)+(c[4]<<16|c[4]>>>16)|0,t[7]=c[7]+(c[6]<<8|c[6]>>>24)+c[5]|0}var e=t,i=e.lib,n=i.StreamCipher,o=e.algo,s=[],a=[],c=[],h=o.Rabbit=n.extend({_doReset:function(){for(var t=this._key.words,e=this.cfg.iv,i=0;i<4;i++)t[i]=16711935&(t[i]<<8|t[i]>>>24)|4278255360&(t[i]<<24|t[i]>>>8);var n=this._X=[t[0],t[3]<<16|t[2]>>>16,t[1],t[0]<<16|t[3]>>>16,t[2],t[1]<<16|t[0]>>>16,t[3],t[2]<<16|t[1]>>>16],o=this._C=[t[2]<<16|t[2]>>>16,4294901760&t[0]|65535&t[1],t[3]<<16|t[3]>>>16,4294901760&t[1]|65535&t[2],t[0]<<16|t[0]>>>16,4294901760&t[2]|65535&t[3],t[1]<<16|t[1]>>>16,4294901760&t[3]|65535&t[0]];this._b=0;for(var i=0;i<4;i++)r.call(this);for(var i=0;i<8;i++)o[i]^=n[i+4&7];if(e){var s=e.words,a=s[0],c=s[1],h=16711935&(a<<8|a>>>24)|4278255360&(a<<24|a>>>8),l=16711935&(c<<8|c>>>24)|4278255360&(c<<24|c>>>8),f=h>>>16|4294901760&l,u=l<<16|65535&h;o[0]^=h,o[1]^=f,o[2]^=l,o[3]^=u,o[4]^=h,o[5]^=f,o[6]^=l,o[7]^=u;for(var i=0;i<4;i++)r.call(this)}},_doProcessBlock:function(t,e){var i=this._X;r.call(this),s[0]=i[0]^i[5]>>>16^i[3]<<16,s[1]=i[2]^i[7]>>>16^i[5]<<16,s[2]=i[4]^i[1]>>>16^i[7]<<16,s[3]=i[6]^i[3]>>>16^i[1]<<16;for(var n=0;n<4;n++)s[n]=16711935&(s[n]<<8|s[n]>>>24)|4278255360&(s[n]<<24|s[n]>>>8),t[e+n]^=s[n]},blockSize:4,ivSize:2});e.Rabbit=n._createHelper(h)}(),t.mode.CTR=function(){var r=t.lib.BlockCipherMode.extend(),e=r.Encryptor=r.extend({processBlock:function(t,r){var e=this._cipher,i=e.blockSize,n=this._iv,o=this._counter;n&&(o=this._counter=n.slice(0),this._iv=void 0);var s=o.slice(0);e.encryptBlock(s,0),o[i-1]=o[i-1]+1|0;for(var a=0;a<i;a++)t[r+a]^=s[a]}});return r.Decryptor=e,r}(),function(){function r(){for(var t=this._X,r=this._C,e=0;e<8;e++)a[e]=r[e];r[0]=r[0]+1295307597+this._b|0,r[1]=r[1]+3545052371+(r[0]>>>0<a[0]>>>0?1:0)|0,r[2]=r[2]+886263092+(r[1]>>>0<a[1]>>>0?1:0)|0,r[3]=r[3]+1295307597+(r[2]>>>0<a[2]>>>0?1:0)|0,r[4]=r[4]+3545052371+(r[3]>>>0<a[3]>>>0?1:0)|0,r[5]=r[5]+886263092+(r[4]>>>0<a[4]>>>0?1:0)|0,r[6]=r[6]+1295307597+(r[5]>>>0<a[5]>>>0?1:0)|0,r[7]=r[7]+3545052371+(r[6]>>>0<a[6]>>>0?1:0)|0,this._b=r[7]>>>0<a[7]>>>0?1:0;for(var e=0;e<8;e++){var i=t[e]+r[e],n=65535&i,o=i>>>16,s=((n*n>>>17)+n*o>>>15)+o*o,h=((4294901760&i)*i|0)+((65535&i)*i|0);c[e]=s^h}t[0]=c[0]+(c[7]<<16|c[7]>>>16)+(c[6]<<16|c[6]>>>16)|0,t[1]=c[1]+(c[0]<<8|c[0]>>>24)+c[7]|0,t[2]=c[2]+(c[1]<<16|c[1]>>>16)+(c[0]<<16|c[0]>>>16)|0,t[3]=c[3]+(c[2]<<8|c[2]>>>24)+c[1]|0,t[4]=c[4]+(c[3]<<16|c[3]>>>16)+(c[2]<<16|c[2]>>>16)|0,t[5]=c[5]+(c[4]<<8|c[4]>>>24)+c[3]|0,t[6]=c[6]+(c[5]<<16|c[5]>>>16)+(c[4]<<16|c[4]>>>16)|0,t[7]=c[7]+(c[6]<<8|c[6]>>>24)+c[5]|0}var e=t,i=e.lib,n=i.StreamCipher,o=e.algo,s=[],a=[],c=[],h=o.RabbitLegacy=n.extend({_doReset:function(){var t=this._key.words,e=this.cfg.iv,i=this._X=[t[0],t[3]<<16|t[2]>>>16,t[1],t[0]<<16|t[3]>>>16,t[2],t[1]<<16|t[0]>>>16,t[3],t[2]<<16|t[1]>>>16],n=this._C=[t[2]<<16|t[2]>>>16,4294901760&t[0]|65535&t[1],t[3]<<16|t[3]>>>16,4294901760&t[1]|65535&t[2],t[0]<<16|t[0]>>>16,4294901760&t[2]|65535&t[3],t[1]<<16|t[1]>>>16,4294901760&t[3]|65535&t[0]];this._b=0;for(var o=0;o<4;o++)r.call(this);for(var o=0;o<8;o++)n[o]^=i[o+4&7];if(e){var s=e.words,a=s[0],c=s[1],h=16711935&(a<<8|a>>>24)|4278255360&(a<<24|a>>>8),l=16711935&(c<<8|c>>>24)|4278255360&(c<<24|c>>>8),f=h>>>16|4294901760&l,u=l<<16|65535&h;n[0]^=h,n[1]^=f,n[2]^=l,n[3]^=u,n[4]^=h,n[5]^=f,n[6]^=l,n[7]^=u;for(var o=0;o<4;o++)r.call(this)}},_doProcessBlock:function(t,e){var i=this._X;r.call(this),s[0]=i[0]^i[5]>>>16^i[3]<<16,s[1]=i[2]^i[7]>>>16^i[5]<<16,s[2]=i[4]^i[1]>>>16^i[7]<<16,s[3]=i[6]^i[3]>>>16^i[1]<<16;for(var n=0;n<4;n++)s[n]=16711935&(s[n]<<8|s[n]>>>24)|4278255360&(s[n]<<24|s[n]>>>8),t[e+n]^=s[n]},blockSize:4,ivSize:2});e.RabbitLegacy=n._createHelper(h)}(),t.pad.ZeroPadding={pad:function(t,r){var e=4*r;t.clamp(),t.sigBytes+=e-(t.sigBytes%e||e)},unpad:function(t){for(var r=t.words,e=t.sigBytes-1;!(r[e>>>2]>>>24-e%4*8&255);)e--;t.sigBytes=e+1}},t});
//# sourceMappingURL=crypto-js.min.js.map

②:sm2.js 文件

function SM2Cipher(a) {
    this.ct = 1;
    this.sm3c3 = this.sm3keybase = this.p2 = null;
    this.key = Array(32);
    this.keyOff = 0;
    this.cipherMode = "undefined" != typeof a ? a : SM2CipherMode.C1C3C2
}
(function (global, undefined) {
    "use strict";
    var SM2CipherMode = {
        C1C2C3: "0",
        C1C3C2: "1"
    };
    (function () {
        function a(a, c) {
            var b = (this._lBlock >>> a ^ this._rBlock) & c;
            this._rBlock ^= b;
            this._lBlock ^= b << a
        }
 
        function b(a, c) {
            var b = (this._rBlock >>> a ^ this._lBlock) & c;
            this._lBlock ^= b;
            this._rBlock ^= b << a
        }
        var c = CryptoJS,
            d = c.lib,
            e = d.WordArray,
            d = d.BlockCipher,
            f = c.algo,
            g = [57, 49, 41, 33, 25, 17, 9, 1, 58, 50, 42, 34, 26, 18, 10, 2, 59, 51, 43, 35, 27, 19, 11, 3, 60, 52, 44, 36, 63, 55, 47, 39, 31, 23, 15, 7, 62, 54, 46, 38, 30, 22, 14, 6, 61, 53, 45, 37, 29, 21, 13, 5, 28, 20, 12, 4],
            h = [14, 17, 11, 24, 1, 5, 3, 28, 15, 6, 21, 10, 23, 19, 12, 4, 26, 8, 16, 7, 27, 20, 13, 2, 41, 52, 31, 37, 47, 55, 30, 40, 51, 45, 33, 48, 44, 49, 39, 56, 34, 53, 46, 42, 50, 36, 29, 32],
            k = [1, 2, 4, 6, 8, 10, 12, 14, 15, 17, 19, 21, 23, 25, 27, 28],
            l = [{
                0: 8421888,
                268435456: 32768,
                536870912: 8421378,
                805306368: 2,
                1073741824: 512,
                1342177280: 8421890,
                1610612736: 8389122,
                1879048192: 8388608,
                2147483648: 514,
                2415919104: 8389120,
                2684354560: 33280,
                2952790016: 8421376,
                3221225472: 32770,
                3489660928: 8388610,
                3758096384: 0,
                4026531840: 33282,
                134217728: 0,
                402653184: 8421890,
                671088640: 33282,
                939524096: 32768,
                1207959552: 8421888,
                1476395008: 512,
                1744830464: 8421378,
                2013265920: 2,
                2281701376: 8389120,
                2550136832: 33280,
                2818572288: 8421376,
                3087007744: 8389122,
                3355443200: 8388610,
                3623878656: 32770,
                3892314112: 514,
                4160749568: 8388608,
                1: 32768,
                268435457: 2,
                536870913: 8421888,
                805306369: 8388608,
                1073741825: 8421378,
                1342177281: 33280,
                1610612737: 512,
                1879048193: 8389122,
                2147483649: 8421890,
                2415919105: 8421376,
                2684354561: 8388610,
                2952790017: 33282,
                3221225473: 514,
                3489660929: 8389120,
                3758096385: 32770,
                4026531841: 0,
                134217729: 8421890,
                402653185: 8421376,
                671088641: 8388608,
                939524097: 512,
                1207959553: 32768,
                1476395009: 8388610,
                1744830465: 2,
                2013265921: 33282,
                2281701377: 32770,
                2550136833: 8389122,
                2818572289: 514,
                3087007745: 8421888,
                3355443201: 8389120,
                3623878657: 0,
                3892314113: 33280,
                4160749569: 8421378
            }, {
                0: 1074282512,
                16777216: 16384,
                33554432: 524288,
                50331648: 1074266128,
                67108864: 1073741840,
                83886080: 1074282496,
                100663296: 1073758208,
                117440512: 16,
                134217728: 540672,
                150994944: 1073758224,
                167772160: 1073741824,
                184549376: 540688,
                201326592: 524304,
                218103808: 0,
                234881024: 16400,
                251658240: 1074266112,
                8388608: 1073758208,
                25165824: 540688,
                41943040: 16,
                58720256: 1073758224,
                75497472: 1074282512,
                92274688: 1073741824,
                109051904: 524288,
                125829120: 1074266128,
                142606336: 524304,
                159383552: 0,
                176160768: 16384,
                192937984: 1074266112,
                209715200: 1073741840,
                226492416: 540672,
                243269632: 1074282496,
                260046848: 16400,
                268435456: 0,
                285212672: 1074266128,
                301989888: 1073758224,
                318767104: 1074282496,
                335544320: 1074266112,
                352321536: 16,
                369098752: 540688,
                385875968: 16384,
                402653184: 16400,
                419430400: 524288,
                436207616: 524304,
                452984832: 1073741840,
                469762048: 540672,
                486539264: 1073758208,
                503316480: 1073741824,
                520093696: 1074282512,
                276824064: 540688,
                293601280: 524288,
                310378496: 1074266112,
                327155712: 16384,
                343932928: 1073758208,
                360710144: 1074282512,
                377487360: 16,
                394264576: 1073741824,
                411041792: 1074282496,
                427819008: 1073741840,
                444596224: 1073758224,
                461373440: 524304,
                478150656: 0,
                494927872: 16400,
                511705088: 1074266128,
                528482304: 540672
            }, {
                0: 260,
                1048576: 0,
                2097152: 67109120,
                3145728: 65796,
                4194304: 65540,
                5242880: 67108868,
                6291456: 67174660,
                7340032: 67174400,
                8388608: 67108864,
                9437184: 67174656,
                10485760: 65792,
                11534336: 67174404,
                12582912: 67109124,
                13631488: 65536,
                14680064: 4,
                15728640: 256,
                524288: 67174656,
                1572864: 67174404,
                2621440: 0,
                3670016: 67109120,
                4718592: 67108868,
                5767168: 65536,
                6815744: 65540,
                7864320: 260,
                8912896: 4,
                9961472: 256,
                11010048: 67174400,
                12058624: 65796,
                13107200: 65792,
                14155776: 67109124,
                15204352: 67174660,
                16252928: 67108864,
                16777216: 67174656,
                17825792: 65540,
                18874368: 65536,
                19922944: 67109120,
                20971520: 256,
                22020096: 67174660,
                23068672: 67108868,
                24117248: 0,
                25165824: 67109124,
                26214400: 67108864,
                27262976: 4,
                28311552: 65792,
                29360128: 67174400,
                30408704: 260,
                31457280: 65796,
                32505856: 67174404,
                17301504: 67108864,
                18350080: 260,
                19398656: 67174656,
                20447232: 0,
                21495808: 65540,
                22544384: 67109120,
                23592960: 256,
                24641536: 67174404,
                25690112: 65536,
                26738688: 67174660,
                27787264: 65796,
                28835840: 67108868,
                29884416: 67109124,
                30932992: 67174400,
                31981568: 4,
                33030144: 65792
            }, {
                0: 2151682048,
                65536: 2147487808,
                131072: 4198464,
                196608: 2151677952,
                262144: 0,
                327680: 4198400,
                393216: 2147483712,
                458752: 4194368,
                524288: 2147483648,
                589824: 4194304,
                655360: 64,
                720896: 2147487744,
                786432: 2151678016,
                851968: 4160,
                917504: 4096,
                983040: 2151682112,
                32768: 2147487808,
                98304: 64,
                163840: 2151678016,
                229376: 2147487744,
                294912: 4198400,
                360448: 2151682112,
                425984: 0,
                491520: 2151677952,
                557056: 4096,
                622592: 2151682048,
                688128: 4194304,
                753664: 4160,
                819200: 2147483648,
                884736: 4194368,
                950272: 4198464,
                1015808: 2147483712,
                1048576: 4194368,
                1114112: 4198400,
                1179648: 2147483712,
                1245184: 0,
                1310720: 4160,
                1376256: 2151678016,
                1441792: 2151682048,
                1507328: 2147487808,
                1572864: 2151682112,
                1638400: 2147483648,
                1703936: 2151677952,
                1769472: 4198464,
                1835008: 2147487744,
                1900544: 4194304,
                1966080: 64,
                2031616: 4096,
                1081344: 2151677952,
                1146880: 2151682112,
                1212416: 0,
                1277952: 4198400,
                1343488: 4194368,
                1409024: 2147483648,
                1474560: 2147487808,
                1540096: 64,
                1605632: 2147483712,
                1671168: 4096,
                1736704: 2147487744,
                1802240: 2151678016,
                1867776: 4160,
                1933312: 2151682048,
                1998848: 4194304,
                2064384: 4198464
            }, {
                0: 128,
                4096: 17039360,
                8192: 262144,
                12288: 536870912,
                16384: 537133184,
                20480: 16777344,
                24576: 553648256,
                28672: 262272,
                32768: 16777216,
                36864: 537133056,
                40960: 536871040,
                45056: 553910400,
                49152: 553910272,
                53248: 0,
                57344: 17039488,
                61440: 553648128,
                2048: 17039488,
                6144: 553648256,
                10240: 128,
                14336: 17039360,
                18432: 262144,
                22528: 537133184,
                26624: 553910272,
                30720: 536870912,
                34816: 537133056,
                38912: 0,
                43008: 553910400,
                47104: 16777344,
                51200: 536871040,
                55296: 553648128,
                59392: 16777216,
                63488: 262272,
                65536: 262144,
                69632: 128,
                73728: 536870912,
                77824: 553648256,
                81920: 16777344,
                86016: 553910272,
                90112: 537133184,
                94208: 16777216,
                98304: 553910400,
                102400: 553648128,
                106496: 17039360,
                110592: 537133056,
                114688: 262272,
                118784: 536871040,
                122880: 0,
                126976: 17039488,
                67584: 553648256,
                71680: 16777216,
                75776: 17039360,
                79872: 537133184,
                83968: 536870912,
                88064: 17039488,
                92160: 128,
                96256: 553910272,
                100352: 262272,
                104448: 553910400,
                108544: 0,
                112640: 553648128,
                116736: 16777344,
                120832: 262144,
                124928: 537133056,
                129024: 536871040
            }, {
                0: 268435464,
                256: 8192,
                512: 270532608,
                768: 270540808,
                1024: 268443648,
                1280: 2097152,
                1536: 2097160,
                1792: 268435456,
                2048: 0,
                2304: 268443656,
                2560: 2105344,
                2816: 8,
                3072: 270532616,
                3328: 2105352,
                3584: 8200,
                3840: 270540800,
                128: 270532608,
                384: 270540808,
                640: 8,
                896: 2097152,
                1152: 2105352,
                1408: 268435464,
                1664: 268443648,
                1920: 8200,
                2176: 2097160,
                2432: 8192,
                2688: 268443656,
                2944: 270532616,
                3200: 0,
                3456: 270540800,
                3712: 2105344,
                3968: 268435456,
                4096: 268443648,
                4352: 270532616,
                4608: 270540808,
                4864: 8200,
                5120: 2097152,
                5376: 268435456,
                5632: 268435464,
                5888: 2105344,
                6144: 2105352,
                6400: 0,
                6656: 8,
                6912: 270532608,
                7168: 8192,
                7424: 268443656,
                7680: 270540800,
                7936: 2097160,
                4224: 8,
                4480: 2105344,
                4736: 2097152,
                4992: 268435464,
                5248: 268443648,
                5504: 8200,
                5760: 270540808,
                6016: 270532608,
                6272: 270540800,
                6528: 270532616,
                6784: 8192,
                7040: 2105352,
                7296: 2097160,
                7552: 0,
                7808: 268435456,
                8064: 268443656
            }, {
                0: 1048576,
                16: 33555457,
                32: 1024,
                48: 1049601,
                64: 34604033,
                80: 0,
                96: 1,
                112: 34603009,
                128: 33555456,
                144: 1048577,
                160: 33554433,
                176: 34604032,
                192: 34603008,
                208: 1025,
                224: 1049600,
                240: 33554432,
                8: 34603009,
                24: 0,
                40: 33555457,
                56: 34604032,
                72: 1048576,
                88: 33554433,
                104: 33554432,
                120: 1025,
                136: 1049601,
                152: 33555456,
                168: 34603008,
                184: 1048577,
                200: 1024,
                216: 34604033,
                232: 1,
                248: 1049600,
                256: 33554432,
                272: 1048576,
                288: 33555457,
                304: 34603009,
                320: 1048577,
                336: 33555456,
                352: 34604032,
                368: 1049601,
                384: 1025,
                400: 34604033,
                416: 1049600,
                432: 1,
                448: 0,
                464: 34603008,
                480: 33554433,
                496: 1024,
                264: 1049600,
                280: 33555457,
                296: 34603009,
                312: 1,
                328: 33554432,
                344: 1048576,
                360: 1025,
                376: 34604032,
                392: 33554433,
                408: 34603008,
                424: 0,
                440: 34604033,
                456: 1049601,
                472: 1024,
                488: 33555456,
                504: 1048577
            }, {
                0: 134219808,
                1: 131072,
                2: 134217728,
                3: 32,
                4: 131104,
                5: 134350880,
                6: 134350848,
                7: 2048,
                8: 134348800,
                9: 134219776,
                10: 133120,
                11: 134348832,
                12: 2080,
                13: 0,
                14: 134217760,
                15: 133152,
                2147483648: 2048,
                2147483649: 134350880,
                2147483650: 134219808,
                2147483651: 134217728,
                2147483652: 134348800,
                2147483653: 133120,
                2147483654: 133152,
                2147483655: 32,
                2147483656: 134217760,
                2147483657: 2080,
                2147483658: 131104,
                2147483659: 134350848,
                2147483660: 0,
                2147483661: 134348832,
                2147483662: 134219776,
                2147483663: 131072,
                16: 133152,
                17: 134350848,
                18: 32,
                19: 2048,
                20: 134219776,
                21: 134217760,
                22: 134348832,
                23: 131072,
                24: 0,
                25: 131104,
                26: 134348800,
                27: 134219808,
                28: 134350880,
                29: 133120,
                30: 2080,
                31: 134217728,
                2147483664: 131072,
                2147483665: 2048,
                2147483666: 134348832,
                2147483667: 133152,
                2147483668: 32,
                2147483669: 134348800,
                2147483670: 134217728,
                2147483671: 134219808,
                2147483672: 134350880,
                2147483673: 134217760,
                2147483674: 134219776,
                2147483675: 0,
                2147483676: 133120,
                2147483677: 2080,
                2147483678: 131104,
                2147483679: 134350848
            }],
            p = [4160749569, 528482304, 33030144, 2064384, 129024, 8064, 504, 2147483679],
            n = f.DES = d.extend({
                _doReset: function () {
                    for (var a = this._key.words, c = [], b = 0; 56 > b; b++) {
                        var d = g[b] - 1;
                        c[b] = a[d >>> 5] >>> 31 - d % 32 & 1
                    }
                    a = this._subKeys = [];
                    for (d = 0; 16 > d; d++) {
                        for (var e = a[d] = [], f = k[d], b = 0; 24 > b; b++)
                            e[b / 6 | 0] |= c[(h[b] - 1 + f) % 28] << 31 - b % 6,
                            e[4 + (b / 6 | 0)] |= c[28 + (h[b + 24] - 1 + f) % 28] << 31 - b % 6;
                        e[0] = e[0] << 1 | e[0] >>> 31;
                        for (b = 1; 7 > b; b++)
                            e[b] >>>= 4 * (b - 1) + 3;
                        e[7] = e[7] << 5 | e[7] >>> 27
                    }
                    c = this._invSubKeys = [];
                    for (b = 0; 16 > b; b++)
                        c[b] = a[15 - b]
                },
                encryptBlock: function (a, c) {
                    this._doCryptBlock(a, c, this._subKeys)
                },
                decryptBlock: function (a, c) {
                    this._doCryptBlock(a, c, this._invSubKeys)
                },
                _doCryptBlock: function (c, d, e) {
                    this._lBlock = c[d];
                    this._rBlock = c[d + 1];
                    a.call(this, 4, 252645135);
                    a.call(this, 16, 65535);
                    b.call(this, 2, 858993459);
                    b.call(this, 8, 16711935);
                    a.call(this, 1, 1431655765);
                    for (var f = 0; 16 > f; f++) {
                        for (var g = e[f], h = this._lBlock, k = this._rBlock, n = 0, u = 0; 8 > u; u++)
                            n |= l[u][((k ^ g[u]) & p[u]) >>> 0];
                        this._lBlock = k;
                        this._rBlock = h ^ n
                    }
                    e = this._lBlock;
                    this._lBlock = this._rBlock;
                    this._rBlock = e;
                    a.call(this, 1, 1431655765);
                    b.call(this, 8, 16711935);
                    b.call(this, 2, 858993459);
                    a.call(this, 16, 65535);
                    a.call(this, 4, 252645135);
                    c[d] = this._lBlock;
                    c[d + 1] = this._rBlock
                },
                keySize: 2,
                ivSize: 2,
                blockSize: 2
            });
        c.DES = d._createHelper(n);
        f = f.TripleDES = d.extend({
            _doReset: function () {
                var a = this._key.words;
                this._des1 = n.createEncryptor(e.create(a.slice(0, 2)));
                this._des2 = n.createEncryptor(e.create(a.slice(2, 4)));
                this._des3 = n.createEncryptor(e.create(a.slice(4, 6)))
            },
            encryptBlock: function (a, c) {
                this._des1.encryptBlock(a, c);
                this._des2.decryptBlock(a, c);
                this._des3.encryptBlock(a, c)
            },
            decryptBlock: function (a, c) {
                this._des3.decryptBlock(a, c);
                this._des2.encryptBlock(a, c);
                this._des1.decryptBlock(a, c)
            },
            keySize: 6,
            ivSize: 2,
            blockSize: 2
        });
        c.TripleDES = d._createHelper(f)
    })();
    (function () {
        var a = CryptoJS,
            b = a.lib.WordArray;
        a.enc.Base64 = {
            stringify: function (a) {
                var b = a.words,
                    e = a.sigBytes,
                    f = this._map;
                a.clamp();
                a = [];
                for (var g = 0; g < e; g += 3)
                    for (var h = (b[g >>> 2] >>> 24 - g % 4 * 8 & 255) << 16 | (b[g + 1 >>> 2] >>> 24 - (g + 1) % 4 * 8 & 255) << 8 | b[g + 2 >>> 2] >>> 24 - (g + 2) % 4 * 8 & 255, k = 0; 4 > k && g + .75 * k < e; k++)
                        a.push(f.charAt(h >>> 6 * (3 - k) & 63));
                if (b = f.charAt(64))
                    for (; a.length % 4;)
                        a.push(b);
                return a.join("")
            },
            parse: function (a) {
                var d = a.length,
                    e = this._map,
                    f = e.charAt(64);
                f && (f = a.indexOf(f),
                    -1 != f && (d = f));
                for (var f = [], g = 0, h = 0; h < d; h++)
                    if (h % 4) {
                        var k = e.indexOf(a.charAt(h - 1)) << h % 4 * 2,
                            l = e.indexOf(a.charAt(h)) >>> 6 - h % 4 * 2;
                        f[g >>> 2] |= (k | l) << 24 - g % 4 * 8;
                        g++
                    }
                return b.create(f, g)
            },
            _map: "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/="
        }
    })();
    var dbits, canary = 0xdeadbeefcafe,
        j_lm = 15715070 == (canary & 16777215);
 
    function BigInteger(a, b, c) {
        null != a && ("number" == typeof a ? this.fromNumber(a, b, c) : null == b && "string" != typeof a ? this.fromString(a, 256) : this.fromString(a, b))
    }
 
    function nbi() {
        return new BigInteger(null)
    }
 
    function am1(a, b, c, d, e, f) {
        for (; 0 <= --f;) {
            var g = b * this[a++] + c[d] + e;
            e = Math.floor(g / 67108864);
            c[d++] = g & 67108863
        }
        return e
    }
 
    function am2(a, b, c, d, e, f) {
        var g = b & 32767;
        for (b >>= 15; 0 <= --f;) {
            var h = this[a] & 32767,
                k = this[a++] >> 15,
                l = b * h + k * g,
                h = g * h + ((l & 32767) << 15) + c[d] + (e & 1073741823);
            e = (h >>> 30) + (l >>> 15) + b * k + (e >>> 30);
            c[d++] = h & 1073741823
        }
        return e
    }
 
    function am3(a, b, c, d, e, f) {
        var g = b & 16383;
        for (b >>= 14; 0 <= --f;) {
            var h = this[a] & 16383,
                k = this[a++] >> 14,
                l = b * h + k * g,
                h = g * h + ((l & 16383) << 14) + c[d] + e;
            e = (h >> 28) + (l >> 14) + b * k;
            c[d++] = h & 268435455
        }
        return e
    }
    j_lm && "Microsoft Internet Explorer" == navigator.appName ? (BigInteger.prototype.am = am2,
        dbits = 30) : j_lm && "Netscape" != navigator.appName ? (BigInteger.prototype.am = am1,
        dbits = 26) : (BigInteger.prototype.am = am3,
        dbits = 28);
    BigInteger.prototype.DB = dbits;
    BigInteger.prototype.DM = (1 << dbits) - 1;
    BigInteger.prototype.DV = 1 << dbits;
    var BI_FP = 52;
    BigInteger.prototype.FV = Math.pow(2, BI_FP);
    BigInteger.prototype.F1 = BI_FP - dbits;
    BigInteger.prototype.F2 = 2 * dbits - BI_FP;
    var BI_RM = "0123456789abcdefghijklmnopqrstuvwxyz",
        BI_RC = [],
        rr, vv;
    rr = 48;
    for (vv = 0; 9 >= vv; ++vv)
        BI_RC[rr++] = vv;
    rr = 97;
    for (vv = 10; 36 > vv; ++vv)
        BI_RC[rr++] = vv;
    rr = 65;
    for (vv = 10; 36 > vv; ++vv)
        BI_RC[rr++] = vv;
 
    function int2char(a) {
        return BI_RM.charAt(a)
    }
 
    function intAt(a, b) {
        var c = BI_RC[a.charCodeAt(b)];
        return null == c ? -1 : c
    }
 
    function bnpCopyTo(a) {
        for (var b = this.t - 1; 0 <= b; --b)
            a[b] = this[b];
        a.t = this.t;
        a.s = this.s
    }
 
    function bnpFromInt(a) {
        this.t = 1;
        this.s = 0 > a ? -1 : 0;
        0 < a ? this[0] = a : -1 > a ? this[0] = a + this.DV : this.t = 0
    }
 
    function nbv(a) {
        var b = nbi();
        b.fromInt(a);
        return b
    }
 
    function bnpFromString(a, b) {
        var c;
        if (16 == b)
            c = 4;
        else if (8 == b)
            c = 3;
        else if (256 == b)
            c = 8;
        else if (2 == b)
            c = 1;
        else if (32 == b)
            c = 5;
        else if (4 == b)
            c = 2;
        else {
            this.fromRadix(a, b);
            return
        }
        this.s = this.t = 0;
        for (var d = a.length, e = !1, f = 0; 0 <= --d;) {
            var g = 8 == c ? a[d] & 255 : intAt(a, d);
            0 > g ? "-" == a.charAt(d) && (e = !0) : (e = !1,
                0 == f ? this[this.t++] = g : f + c > this.DB ? (this[this.t - 1] |= (g & (1 << this.DB - f) - 1) << f,
                    this[this.t++] = g >> this.DB - f) : this[this.t - 1] |= g << f,
                f += c,
                f >= this.DB && (f -= this.DB))
        }
        8 == c && 0 != (a[0] & 128) && (this.s = -1,
            0 < f && (this[this.t - 1] |= (1 << this.DB - f) - 1 << f));
        this.clamp();
        e && BigInteger.ZERO.subTo(this, this)
    }
 
    function bnpClamp() {
        for (var a = this.s & this.DM; 0 < this.t && this[this.t - 1] == a;)
            --this.t
    }
 
    function bnToString(a) {
        if (0 > this.s)
            return "-" + this.negate().toString(a);
        if (16 == a)
            a = 4;
        else if (8 == a)
            a = 3;
        else if (2 == a)
            a = 1;
        else if (32 == a)
            a = 5;
        else if (4 == a)
            a = 2;
        else
            return this.toRadix(a);
        var b = (1 << a) - 1,
            c, d = !1,
            e = "",
            f = this.t,
            g = this.DB - f * this.DB % a;
        if (0 < f--)
            for (g < this.DB && 0 < (c = this[f] >> g) && (d = !0,
                    e = int2char(c)); 0 <= f;)
                g < a ? (c = (this[f] & (1 << g) - 1) << a - g,
                    c |= this[--f] >> (g += this.DB - a)) : (c = this[f] >> (g -= a) & b,
                    0 >= g && (g += this.DB,
                        --f)),
                0 < c && (d = !0),
                d && (e += int2char(c));
        return d ? e : "0"
    }
 
    function bnNegate() {
        var a = nbi();
        BigInteger.ZERO.subTo(this, a);
        return a
    }
 
    function bnAbs() {
        return 0 > this.s ? this.negate() : this
    }
 
    function bnCompareTo(a) {
        var b = this.s - a.s;
        if (0 != b)
            return b;
        var c = this.t,
            b = c - a.t;
        if (0 != b)
            return 0 > this.s ? -b : b;
        for (; 0 <= --c;)
            if (0 != (b = this[c] - a[c]))
                return b;
        return 0
    }
 
    function nbits(a) {
        var b = 1,
            c;
        0 != (c = a >>> 16) && (a = c,
            b += 16);
        0 != (c = a >> 8) && (a = c,
            b += 8);
        0 != (c = a >> 4) && (a = c,
            b += 4);
        0 != (c = a >> 2) && (a = c,
            b += 2);
        0 != a >> 1 && (b += 1);
        return b
    }
 
    function bnBitLength() {
        return 0 >= this.t ? 0 : this.DB * (this.t - 1) + nbits(this[this.t - 1] ^ this.s & this.DM)
    }
 
    function bnpDLShiftTo(a, b) {
        var c;
        for (c = this.t - 1; 0 <= c; --c)
            b[c + a] = this[c];
        for (c = a - 1; 0 <= c; --c)
            b[c] = 0;
        b.t = this.t + a;
        b.s = this.s
    }
 
    function bnpDRShiftTo(a, b) {
        for (var c = a; c < this.t; ++c)
            b[c - a] = this[c];
        b.t = Math.max(this.t - a, 0);
        b.s = this.s
    }
 
    function bnpLShiftTo(a, b) {
        var c = a % this.DB,
            d = this.DB - c,
            e = (1 << d) - 1,
            f = Math.floor(a / this.DB),
            g = this.s << c & this.DM,
            h;
        for (h = this.t - 1; 0 <= h; --h)
            b[h + f + 1] = this[h] >> d | g,
            g = (this[h] & e) << c;
        for (h = f - 1; 0 <= h; --h)
            b[h] = 0;
        b[f] = g;
        b.t = this.t + f + 1;
        b.s = this.s;
        b.clamp()
    }
 
    function bnpRShiftTo(a, b) {
        b.s = this.s;
        var c = Math.floor(a / this.DB);
        if (c >= this.t)
            b.t = 0;
        else {
            var d = a % this.DB,
                e = this.DB - d,
                f = (1 << d) - 1;
            b[0] = this[c] >> d;
            for (var g = c + 1; g < this.t; ++g)
                b[g - c - 1] |= (this[g] & f) << e,
                b[g - c] = this[g] >> d;
            0 < d && (b[this.t - c - 1] |= (this.s & f) << e);
            b.t = this.t - c;
            b.clamp()
        }
    }
 
    function bnpSubTo(a, b) {
        for (var c = 0, d = 0, e = Math.min(a.t, this.t); c < e;)
            d += this[c] - a[c],
            b[c++] = d & this.DM,
            d >>= this.DB;
        if (a.t < this.t) {
            for (d -= a.s; c < this.t;)
                d += this[c],
                b[c++] = d & this.DM,
                d >>= this.DB;
            d += this.s
        } else {
            for (d += this.s; c < a.t;)
                d -= a[c],
                b[c++] = d & this.DM,
                d >>= this.DB;
            d -= a.s
        }
        b.s = 0 > d ? -1 : 0; -
        1 > d ? b[c++] = this.DV + d : 0 < d && (b[c++] = d);
        b.t = c;
        b.clamp()
    }
 
    function bnpMultiplyTo(a, b) {
        var c = this.abs(),
            d = a.abs(),
            e = c.t;
        for (b.t = e + d.t; 0 <= --e;)
            b[e] = 0;
        for (e = 0; e < d.t; ++e)
            b[e + c.t] = c.am(0, d[e], b, e, 0, c.t);
        b.s = 0;
        b.clamp();
        this.s != a.s && BigInteger.ZERO.subTo(b, b)
    }
 
    function bnpSquareTo(a) {
        for (var b = this.abs(), c = a.t = 2 * b.t; 0 <= --c;)
            a[c] = 0;
        for (c = 0; c < b.t - 1; ++c) {
            var d = b.am(c, b[c], a, 2 * c, 0, 1);
            (a[c + b.t] += b.am(c + 1, 2 * b[c], a, 2 * c + 1, d, b.t - c - 1)) >= b.DV && (a[c + b.t] -= b.DV,
                a[c + b.t + 1] = 1)
        }
        0 < a.t && (a[a.t - 1] += b.am(c, b[c], a, 2 * c, 0, 1));
        a.s = 0;
        a.clamp()
    }
 
    function bnpDivRemTo(a, b, c) {
        var d = a.abs();
        if (!(0 >= d.t)) {
            var e = this.abs();
            if (e.t < d.t)
                null != b && b.fromInt(0),
                null != c && this.copyTo(c);
            else {
                null == c && (c = nbi());
                var f = nbi(),
                    g = this.s;
                a = a.s;
                var h = this.DB - nbits(d[d.t - 1]);
                0 < h ? (d.lShiftTo(h, f),
                    e.lShiftTo(h, c)) : (d.copyTo(f),
                    e.copyTo(c));
                d = f.t;
                e = f[d - 1];
                if (0 != e) {
                    var k = e * (1 << this.F1) + (1 < d ? f[d - 2] >> this.F2 : 0),
                        l = this.FV / k,
                        k = (1 << this.F1) / k,
                        p = 1 << this.F2,
                        n = c.t,
                        q = n - d,
                        m = null == b ? nbi() : b;
                    f.dlShiftTo(q, m);
                    0 <= c.compareTo(m) && (c[c.t++] = 1,
                        c.subTo(m, c));
                    BigInteger.ONE.dlShiftTo(d, m);
                    for (m.subTo(f, f); f.t < d;)
                        f[f.t++] = 0;
                    for (; 0 <= --q;) {
                        var r = c[--n] == e ? this.DM : Math.floor(c[n] * l + (c[n - 1] + p) * k);
                        if ((c[n] += f.am(0, r, c, q, 0, d)) < r)
                            for (f.dlShiftTo(q, m),
                                c.subTo(m, c); c[n] < --r;)
                                c.subTo(m, c)
                    }
                    null != b && (c.drShiftTo(d, b),
                        g != a && BigInteger.ZERO.subTo(b, b));
                    c.t = d;
                    c.clamp();
                    0 < h && c.rShiftTo(h, c);
                    0 > g && BigInteger.ZERO.subTo(c, c)
                }
            }
        }
    }
 
    function bnMod(a) {
        var b = nbi();
        this.abs().divRemTo(a, null, b);
        0 > this.s && 0 < b.compareTo(BigInteger.ZERO) && a.subTo(b, b);
        return b
    }
 
    function Classic(a) {
        this.m = a
    }
 
    function cConvert(a) {
        return 0 > a.s || 0 <= a.compareTo(this.m) ? a.mod(this.m) : a
    }
 
    function cRevert(a) {
        return a
    }
 
    function cReduce(a) {
        a.divRemTo(this.m, null, a)
    }
 
    function cMulTo(a, b, c) {
        a.multiplyTo(b, c);
        this.reduce(c)
    }
 
    function cSqrTo(a, b) {
        a.squareTo(b);
        this.reduce(b)
    }
    Classic.prototype.convert = cConvert;
    Classic.prototype.revert = cRevert;
    Classic.prototype.reduce = cReduce;
    Classic.prototype.mulTo = cMulTo;
    Classic.prototype.sqrTo = cSqrTo;
 
    function bnpInvDigit() {
        if (1 > this.t)
            return 0;
        var a = this[0];
        if (0 == (a & 1))
            return 0;
        var b = a & 3,
            b = b * (2 - (a & 15) * b) & 15,
            b = b * (2 - (a & 255) * b) & 255,
            b = b * (2 - ((a & 65535) * b & 65535)) & 65535,
            b = b * (2 - a * b % this.DV) % this.DV;
        return 0 < b ? this.DV - b : -b
    }
 
    function Montgomery(a) {
        this.m = a;
        this.mp = a.invDigit();
        this.mpl = this.mp & 32767;
        this.mph = this.mp >> 15;
        this.um = (1 << a.DB - 15) - 1;
        this.mt2 = 2 * a.t
    }
 
    function montConvert(a) {
        var b = nbi();
        a.abs().dlShiftTo(this.m.t, b);
        b.divRemTo(this.m, null, b);
        0 > a.s && 0 < b.compareTo(BigInteger.ZERO) && this.m.subTo(b, b);
        return b
    }
 
    function montRevert(a) {
        var b = nbi();
        a.copyTo(b);
        this.reduce(b);
        return b
    }
 
    function montReduce(a) {
        for (; a.t <= this.mt2;)
            a[a.t++] = 0;
        for (var b = 0; b < this.m.t; ++b) {
            var c = a[b] & 32767,
                d = c * this.mpl + ((c * this.mph + (a[b] >> 15) * this.mpl & this.um) << 15) & a.DM,
                c = b + this.m.t;
            for (a[c] += this.m.am(0, d, a, b, 0, this.m.t); a[c] >= a.DV;)
                a[c] -= a.DV,
                a[++c]++
        }
        a.clamp();
        a.drShiftTo(this.m.t, a);
        0 <= a.compareTo(this.m) && a.subTo(this.m, a)
    }
 
    function montSqrTo(a, b) {
        a.squareTo(b);
        this.reduce(b)
    }
 
    function montMulTo(a, b, c) {
        a.multiplyTo(b, c);
        this.reduce(c)
    }
    Montgomery.prototype.convert = montConvert;
    Montgomery.prototype.revert = montRevert;
    Montgomery.prototype.reduce = montReduce;
    Montgomery.prototype.mulTo = montMulTo;
    Montgomery.prototype.sqrTo = montSqrTo;
 
    function bnpIsEven() {
        return 0 == (0 < this.t ? this[0] & 1 : this.s)
    }
 
    function bnpExp(a, b) {
        if (4294967295 < a || 1 > a)
            return BigInteger.ONE;
        var c = nbi(),
            d = nbi(),
            e = b.convert(this),
            f = nbits(a) - 1;
        for (e.copyTo(c); 0 <= --f;)
            if (b.sqrTo(c, d),
                0 < (a & 1 << f))
                b.mulTo(d, e, c);
            else
                var g = c,
                    c = d,
                    d = g;
        return b.revert(c)
    }
 
    function bnModPowInt(a, b) {
        var c;
        c = 256 > a || b.isEven() ? new Classic(b) : new Montgomery(b);
        return this.exp(a, c)
    }
    BigInteger.prototype.copyTo = bnpCopyTo;
    BigInteger.prototype.fromInt = bnpFromInt;
    BigInteger.prototype.fromString = bnpFromString;
    BigInteger.prototype.clamp = bnpClamp;
    BigInteger.prototype.dlShiftTo = bnpDLShiftTo;
    BigInteger.prototype.drShiftTo = bnpDRShiftTo;
    BigInteger.prototype.lShiftTo = bnpLShiftTo;
    BigInteger.prototype.rShiftTo = bnpRShiftTo;
    BigInteger.prototype.subTo = bnpSubTo;
    BigInteger.prototype.multiplyTo = bnpMultiplyTo;
    BigInteger.prototype.squareTo = bnpSquareTo;
    BigInteger.prototype.divRemTo = bnpDivRemTo;
    BigInteger.prototype.invDigit = bnpInvDigit;
    BigInteger.prototype.isEven = bnpIsEven;
    BigInteger.prototype.exp = bnpExp;
    BigInteger.prototype.toString = bnToString;
    BigInteger.prototype.negate = bnNegate;
    BigInteger.prototype.abs = bnAbs;
    BigInteger.prototype.compareTo = bnCompareTo;
    BigInteger.prototype.bitLength = bnBitLength;
    BigInteger.prototype.mod = bnMod;
    BigInteger.prototype.modPowInt = bnModPowInt;
    BigInteger.ZERO = nbv(0);
    BigInteger.ONE = nbv(1);
 
    function bnClone() {
        var a = nbi();
        this.copyTo(a);
        return a
    }
 
    function bnIntValue() {
        if (0 > this.s) {
            if (1 == this.t)
                return this[0] - this.DV;
            if (0 == this.t)
                return -1
        } else {
            if (1 == this.t)
                return this[0];
            if (0 == this.t)
                return 0
        }
        return (this[1] & (1 << 32 - this.DB) - 1) << this.DB | this[0]
    }
 
    function bnByteValue() {
        return 0 == this.t ? this.s : this[0] << 24 >> 24
    }
 
    function bnShortValue() {
        return 0 == this.t ? this.s : this[0] << 16 >> 16
    }
 
    function bnpChunkSize(a) {
        return Math.floor(Math.LN2 * this.DB / Math.log(a))
    }
 
    function bnSigNum() {
        return 0 > this.s ? -1 : 0 >= this.t || 1 == this.t && 0 >= this[0] ? 0 : 1
    }
 
    function bnpToRadix(a) {
        null == a && (a = 10);
        if (0 == this.signum() || 2 > a || 36 < a)
            return "0";
        var b = this.chunkSize(a),
            b = Math.pow(a, b),
            c = nbv(b),
            d = nbi(),
            e = nbi(),
            f = "";
        for (this.divRemTo(c, d, e); 0 < d.signum();)
            f = (b + e.intValue()).toString(a).substr(1) + f,
            d.divRemTo(c, d, e);
        return e.intValue().toString(a) + f
    }
 
    function bnpFromRadix(a, b) {
        this.fromInt(0);
        null == b && (b = 10);
        for (var c = this.chunkSize(b), d = Math.pow(b, c), e = !1, f = 0, g = 0, h = 0; h < a.length; ++h) {
            var k = intAt(a, h);
            0 > k ? "-" == a.charAt(h) && 0 == this.signum() && (e = !0) : (g = b * g + k,
                ++f >= c && (this.dMultiply(d),
                    this.dAddOffset(g, 0),
                    g = f = 0))
        }
        0 < f && (this.dMultiply(Math.pow(b, f)),
            this.dAddOffset(g, 0));
        e && BigInteger.ZERO.subTo(this, this)
    }
 
    function bnpFromNumber(a, b, c) {
        if ("number" == typeof b)
            if (2 > a)
                this.fromInt(1);
            else
                for (this.fromNumber(a, c),
                    this.testBit(a - 1) || this.bitwiseTo(BigInteger.ONE.shiftLeft(a - 1), op_or, this),
                    this.isEven() && this.dAddOffset(1, 0); !this.isProbablePrime(b);)
                    this.dAddOffset(2, 0),
                    this.bitLength() > a && this.subTo(BigInteger.ONE.shiftLeft(a - 1), this);
        else {
            c = [];
            var d = a & 7;
            c.length = (a >> 3) + 1;
            b.nextBytes(c);
            c[0] = 0 < d ? c[0] & (1 << d) - 1 : 0;
            this.fromString(c, 256)
        }
    }
 
    function bnToByteArray() {
        var a = this.t,
            b = [];
        b[0] = this.s;
        var c = this.DB - a * this.DB % 8,
            d, e = 0;
        if (0 < a--)
            for (c < this.DB && (d = this[a] >> c) != (this.s & this.DM) >> c && (b[e++] = d | this.s << this.DB - c); 0 <= a;)
                if (8 > c ? (d = (this[a] & (1 << c) - 1) << 8 - c,
                        d |= this[--a] >> (c += this.DB - 8)) : (d = this[a] >> (c -= 8) & 255,
                        0 >= c && (c += this.DB,
                            --a)),
                    0 != (d & 128) && (d |= -256),
                    0 == e && (this.s & 128) != (d & 128) && ++e,
                    0 < e || d != this.s)
                    b[e++] = d;
        return b
    }
 
    function bnEquals(a) {
        return 0 == this.compareTo(a)
    }
 
    function bnMin(a) {
        return 0 > this.compareTo(a) ? this : a
    }
 
    function bnMax(a) {
        return 0 < this.compareTo(a) ? this : a
    }
 
    function bnpBitwiseTo(a, b, c) {
        var d, e, f = Math.min(a.t, this.t);
        for (d = 0; d < f; ++d)
            c[d] = b(this[d], a[d]);
        if (a.t < this.t) {
            e = a.s & this.DM;
            for (d = f; d < this.t; ++d)
                c[d] = b(this[d], e);
            c.t = this.t
        } else {
            e = this.s & this.DM;
            for (d = f; d < a.t; ++d)
                c[d] = b(e, a[d]);
            c.t = a.t
        }
        c.s = b(this.s, a.s);
        c.clamp()
    }
 
    function op_and(a, b) {
        return a & b
    }
 
    function bnAnd(a) {
        var b = nbi();
        this.bitwiseTo(a, op_and, b);
        return b
    }
 
    function op_or(a, b) {
        return a | b
    }
 
    function bnOr(a) {
        var b = nbi();
        this.bitwiseTo(a, op_or, b);
        return b
    }
 
    function op_xor(a, b) {
        return a ^ b
    }
 
    function bnXor(a) {
        var b = nbi();
        this.bitwiseTo(a, op_xor, b);
        return b
    }
 
    function op_andnot(a, b) {
        return a & ~b
    }
 
    function bnAndNot(a) {
        var b = nbi();
        this.bitwiseTo(a, op_andnot, b);
        return b
    }
 
    function bnNot() {
        for (var a = nbi(), b = 0; b < this.t; ++b)
            a[b] = this.DM & ~this[b];
        a.t = this.t;
        a.s = ~this.s;
        return a
    }
 
    function bnShiftLeft(a) {
        var b = nbi();
        0 > a ? this.rShiftTo(-a, b) : this.lShiftTo(a, b);
        return b
    }
 
    function bnShiftRight(a) {
        var b = nbi();
        0 > a ? this.lShiftTo(-a, b) : this.rShiftTo(a, b);
        return b
    }
 
    function lbit(a) {
        if (0 == a)
            return -1;
        var b = 0;
        0 == (a & 65535) && (a >>= 16,
            b += 16);
        0 == (a & 255) && (a >>= 8,
            b += 8);
        0 == (a & 15) && (a >>= 4,
            b += 4);
        0 == (a & 3) && (a >>= 2,
            b += 2);
        0 == (a & 1) && ++b;
        return b
    }
 
    function bnGetLowestSetBit() {
        for (var a = 0; a < this.t; ++a)
            if (0 != this[a])
                return a * this.DB + lbit(this[a]);
        return 0 > this.s ? this.t * this.DB : -1
    }
 
    function cbit(a) {
        for (var b = 0; 0 != a;)
            a &= a - 1,
            ++b;
        return b
    }
 
    function bnBitCount() {
        for (var a = 0, b = this.s & this.DM, c = 0; c < this.t; ++c)
            a += cbit(this[c] ^ b);
        return a
    }
 
    function bnTestBit(a) {
        var b = Math.floor(a / this.DB);
        return b >= this.t ? 0 != this.s : 0 != (this[b] & 1 << a % this.DB)
    }
 
    function bnpChangeBit(a, b) {
        var c = BigInteger.ONE.shiftLeft(a);
        this.bitwiseTo(c, b, c);
        return c
    }
 
    function bnSetBit(a) {
        return this.changeBit(a, op_or)
    }
 
    function bnClearBit(a) {
        return this.changeBit(a, op_andnot)
    }
 
    function bnFlipBit(a) {
        return this.changeBit(a, op_xor)
    }
 
    function bnpAddTo(a, b) {
        for (var c = 0, d = 0, e = Math.min(a.t, this.t); c < e;)
            d += this[c] + a[c],
            b[c++] = d & this.DM,
            d >>= this.DB;
        if (a.t < this.t) {
            for (d += a.s; c < this.t;)
                d += this[c],
                b[c++] = d & this.DM,
                d >>= this.DB;
            d += this.s
        } else {
            for (d += this.s; c < a.t;)
                d += a[c],
                b[c++] = d & this.DM,
                d >>= this.DB;
            d += a.s
        }
        b.s = 0 > d ? -1 : 0;
        0 < d ? b[c++] = d : -1 > d && (b[c++] = this.DV + d);
        b.t = c;
        b.clamp()
    }
 
    function bnAdd(a) {
        var b = nbi();
        this.addTo(a, b);
        return b
    }
 
    function bnSubtract(a) {
        var b = nbi();
        this.subTo(a, b);
        return b
    }
 
    function bnMultiply(a) {
        var b = nbi();
        this.multiplyTo(a, b);
        return b
    }
 
    function bnSquare() {
        var a = nbi();
        this.squareTo(a);
        return a
    }
 
    function bnDivide(a) {
        var b = nbi();
        this.divRemTo(a, b, null);
        return b
    }
 
    function bnRemainder(a) {
        var b = nbi();
        this.divRemTo(a, null, b);
        return b
    }
 
    function bnDivideAndRemainder(a) {
        var b = nbi(),
            c = nbi();
        this.divRemTo(a, b, c);
        return [b, c]
    }
 
    function bnpDMultiply(a) {
        this[this.t] = this.am(0, a - 1, this, 0, 0, this.t);
        ++this.t;
        this.clamp()
    }
 
    function bnpDAddOffset(a, b) {
        if (0 != a) {
            for (; this.t <= b;)
                this[this.t++] = 0;
            for (this[b] += a; this[b] >= this.DV;)
                this[b] -= this.DV,
                ++b >= this.t && (this[this.t++] = 0),
                ++this[b]
        }
    }
 
    function NullExp() {}
 
    function nNop(a) {
        return a
    }
 
    function nMulTo(a, b, c) {
        a.multiplyTo(b, c)
    }
 
    function nSqrTo(a, b) {
        a.squareTo(b)
    }
    NullExp.prototype.convert = nNop;
    NullExp.prototype.revert = nNop;
    NullExp.prototype.mulTo = nMulTo;
    NullExp.prototype.sqrTo = nSqrTo;
 
    function bnPow(a) {
        return this.exp(a, new NullExp)
    }
 
    function bnpMultiplyLowerTo(a, b, c) {
        var d = Math.min(this.t + a.t, b);
        c.s = 0;
        for (c.t = d; 0 < d;)
            c[--d] = 0;
        var e;
        for (e = c.t - this.t; d < e; ++d)
            c[d + this.t] = this.am(0, a[d], c, d, 0, this.t);
        for (e = Math.min(a.t, b); d < e; ++d)
            this.am(0, a[d], c, d, 0, b - d);
        c.clamp()
    }
 
    function bnpMultiplyUpperTo(a, b, c) {
        --b;
        var d = c.t = this.t + a.t - b;
        for (c.s = 0; 0 <= --d;)
            c[d] = 0;
        for (d = Math.max(b - this.t, 0); d < a.t; ++d)
            c[this.t + d - b] = this.am(b - d, a[d], c, 0, 0, this.t + d - b);
        c.clamp();
        c.drShiftTo(1, c)
    }
 
    function Barrett(a) {
        this.r2 = nbi();
        this.q3 = nbi();
        BigInteger.ONE.dlShiftTo(2 * a.t, this.r2);
        this.mu = this.r2.divide(a);
        this.m = a
    }
 
    function barrettConvert(a) {
        if (0 > a.s || a.t > 2 * this.m.t)
            return a.mod(this.m);
        if (0 > a.compareTo(this.m))
            return a;
        var b = nbi();
        a.copyTo(b);
        this.reduce(b);
        return b
    }
 
    function barrettRevert(a) {
        return a
    }
 
    function barrettReduce(a) {
        a.drShiftTo(this.m.t - 1, this.r2);
        a.t > this.m.t + 1 && (a.t = this.m.t + 1,
            a.clamp());
        this.mu.multiplyUpperTo(this.r2, this.m.t + 1, this.q3);
        for (this.m.multiplyLowerTo(this.q3, this.m.t + 1, this.r2); 0 > a.compareTo(this.r2);)
            a.dAddOffset(1, this.m.t + 1);
        for (a.subTo(this.r2, a); 0 <= a.compareTo(this.m);)
            a.subTo(this.m, a)
    }
 
    function barrettSqrTo(a, b) {
        a.squareTo(b);
        this.reduce(b)
    }
 
    function barrettMulTo(a, b, c) {
        a.multiplyTo(b, c);
        this.reduce(c)
    }
    Barrett.prototype.convert = barrettConvert;
    Barrett.prototype.revert = barrettRevert;
    Barrett.prototype.reduce = barrettReduce;
    Barrett.prototype.mulTo = barrettMulTo;
    Barrett.prototype.sqrTo = barrettSqrTo;
 
    function bnModPow(a, b) {
        var c = a.bitLength(),
            d, e = nbv(1),
            f;
        if (0 >= c)
            return e;
        d = 18 > c ? 1 : 48 > c ? 3 : 144 > c ? 4 : 768 > c ? 5 : 6;
        f = 8 > c ? new Classic(b) : b.isEven() ? new Barrett(b) : new Montgomery(b);
        var g = [],
            h = 3,
            k = d - 1,
            l = (1 << d) - 1;
        g[1] = f.convert(this);
        if (1 < d)
            for (c = nbi(),
                f.sqrTo(g[1], c); h <= l;)
                g[h] = nbi(),
                f.mulTo(c, g[h - 2], g[h]),
                h += 2;
        for (var p = a.t - 1, n, q = !0, m = nbi(), c = nbits(a[p]) - 1; 0 <= p;) {
            c >= k ? n = a[p] >> c - k & l : (n = (a[p] & (1 << c + 1) - 1) << k - c,
                0 < p && (n |= a[p - 1] >> this.DB + c - k));
            for (h = d; 0 == (n & 1);)
                n >>= 1,
                --h;
            0 > (c -= h) && (c += this.DB,
                --p);
            if (q)
                g[n].copyTo(e),
                q = !1;
            else {
                for (; 1 < h;)
                    f.sqrTo(e, m),
                    f.sqrTo(m, e),
                    h -= 2;
                0 < h ? f.sqrTo(e, m) : (h = e,
                    e = m,
                    m = h);
                f.mulTo(m, g[n], e)
            }
            for (; 0 <= p && 0 == (a[p] & 1 << c);)
                f.sqrTo(e, m),
                h = e,
                e = m,
                m = h,
                0 > --c && (c = this.DB - 1,
                    --p)
        }
        return f.revert(e)
    }
 
    function bnGCD(a) {
        var b = 0 > this.s ? this.negate() : this.clone();
        a = 0 > a.s ? a.negate() : a.clone();
        if (0 > b.compareTo(a)) {
            var c = b,
                b = a;
            a = c
        }
        var c = b.getLowestSetBit(),
            d = a.getLowestSetBit();
        if (0 > d)
            return b;
        c < d && (d = c);
        0 < d && (b.rShiftTo(d, b),
            a.rShiftTo(d, a));
        for (; 0 < b.signum();)
            0 < (c = b.getLowestSetBit()) && b.rShiftTo(c, b),
            0 < (c = a.getLowestSetBit()) && a.rShiftTo(c, a),
            0 <= b.compareTo(a) ? (b.subTo(a, b),
                b.rShiftTo(1, b)) : (a.subTo(b, a),
                a.rShiftTo(1, a));
        0 < d && a.lShiftTo(d, a);
        return a
    }
 
    function bnpModInt(a) {
        if (0 >= a)
            return 0;
        var b = this.DV % a,
            c = 0 > this.s ? a - 1 : 0;
        if (0 < this.t)
            if (0 == b)
                c = this[0] % a;
            else
                for (var d = this.t - 1; 0 <= d; --d)
                    c = (b * c + this[d]) % a;
        return c
    }
 
    function bnModInverse(a) {
        var b = a.isEven();
        if (this.isEven() && b || 0 == a.signum())
            return BigInteger.ZERO;
        for (var c = a.clone(), d = this.clone(), e = nbv(1), f = nbv(0), g = nbv(0), h = nbv(1); 0 != c.signum();) {
            for (; c.isEven();)
                c.rShiftTo(1, c),
                b ? (e.isEven() && f.isEven() || (e.addTo(this, e),
                        f.subTo(a, f)),
                    e.rShiftTo(1, e)) : f.isEven() || f.subTo(a, f),
                f.rShiftTo(1, f);
            for (; d.isEven();)
                d.rShiftTo(1, d),
                b ? (g.isEven() && h.isEven() || (g.addTo(this, g),
                        h.subTo(a, h)),
                    g.rShiftTo(1, g)) : h.isEven() || h.subTo(a, h),
                h.rShiftTo(1, h);
            0 <= c.compareTo(d) ? (c.subTo(d, c),
                b && e.subTo(g, e),
                f.subTo(h, f)) : (d.subTo(c, d),
                b && g.subTo(e, g),
                h.subTo(f, h))
        }
        if (0 != d.compareTo(BigInteger.ONE))
            return BigInteger.ZERO;
        if (0 <= h.compareTo(a))
            return h.subtract(a);
        if (0 > h.signum())
            h.addTo(a, h);
        else
            return h;
        return 0 > h.signum() ? h.add(a) : h
    }
    var lowprimes = [2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67, 71, 73, 79, 83, 89, 97, 101, 103, 107, 109, 113, 127, 131, 137, 139, 149, 151, 157, 163, 167, 173, 179, 181, 191, 193, 197, 199, 211, 223, 227, 229, 233, 239, 241, 251, 257, 263, 269, 271, 277, 281, 283, 293, 307, 311, 313, 317, 331, 337, 347, 349, 353, 359, 367, 373, 379, 383, 389, 397, 401, 409, 419, 421, 431, 433, 439, 443, 449, 457, 461, 463, 467, 479, 487, 491, 499, 503, 509, 521, 523, 541, 547, 557, 563, 569, 571, 577, 587, 593, 599, 601, 607, 613, 617, 619, 631, 641, 643, 647, 653, 659, 661, 673, 677, 683, 691, 701, 709, 719, 727, 733, 739, 743, 751, 757, 761, 769, 773, 787, 797, 809, 811, 821, 823, 827, 829, 839, 853, 857, 859, 863, 877, 881, 883, 887, 907, 911, 919, 929, 937, 941, 947, 953, 967, 971, 977, 983, 991, 997],
        lplim = 67108864 / lowprimes[lowprimes.length - 1];
 
    function bnIsProbablePrime(a) {
        var b, c = this.abs();
        if (1 == c.t && c[0] <= lowprimes[lowprimes.length - 1]) {
            for (b = 0; b < lowprimes.length; ++b)
                if (c[0] == lowprimes[b])
                    return !0;
            return !1
        }
        if (c.isEven())
            return !1;
        for (b = 1; b < lowprimes.length;) {
            for (var d = lowprimes[b], e = b + 1; e < lowprimes.length && d < lplim;)
                d *= lowprimes[e++];
            for (d = c.modInt(d); b < e;)
                if (0 == d % lowprimes[b++])
                    return !1
        }
        return c.millerRabin(a)
    }
 
    function bnpMillerRabin(a) {
        var b = this.subtract(BigInteger.ONE),
            c = b.getLowestSetBit();
        if (0 >= c)
            return !1;
        var d = b.shiftRight(c);
        a = a + 1 >> 1;
        a > lowprimes.length && (a = lowprimes.length);
        for (var e = nbi(), f = 0; f < a; ++f) {
            e.fromInt(lowprimes[Math.floor(Math.random() * lowprimes.length)]);
            var g = e.modPow(d, this);
            if (0 != g.compareTo(BigInteger.ONE) && 0 != g.compareTo(b)) {
                for (var h = 1; h++ < c && 0 != g.compareTo(b);)
                    if (g = g.modPowInt(2, this),
                        0 == g.compareTo(BigInteger.ONE))
                        return !1;
                if (0 != g.compareTo(b))
                    return !1
            }
        }
        return !0
    }
    BigInteger.prototype.chunkSize = bnpChunkSize;
    BigInteger.prototype.toRadix = bnpToRadix;
    BigInteger.prototype.fromRadix = bnpFromRadix;
    BigInteger.prototype.fromNumber = bnpFromNumber;
    BigInteger.prototype.bitwiseTo = bnpBitwiseTo;
    BigInteger.prototype.changeBit = bnpChangeBit;
    BigInteger.prototype.addTo = bnpAddTo;
    BigInteger.prototype.dMultiply = bnpDMultiply;
    BigInteger.prototype.dAddOffset = bnpDAddOffset;
    BigInteger.prototype.multiplyLowerTo = bnpMultiplyLowerTo;
    BigInteger.prototype.multiplyUpperTo = bnpMultiplyUpperTo;
    BigInteger.prototype.modInt = bnpModInt;
    BigInteger.prototype.millerRabin = bnpMillerRabin;
    BigInteger.prototype.clone = bnClone;
    BigInteger.prototype.intValue = bnIntValue;
    BigInteger.prototype.byteValue = bnByteValue;
    BigInteger.prototype.shortValue = bnShortValue;
    BigInteger.prototype.signum = bnSigNum;
    BigInteger.prototype.toByteArray = bnToByteArray;
    BigInteger.prototype.equals = bnEquals;
    BigInteger.prototype.min = bnMin;
    BigInteger.prototype.max = bnMax;
    BigInteger.prototype.and = bnAnd;
    BigInteger.prototype.or = bnOr;
    BigInteger.prototype.xor = bnXor;
    BigInteger.prototype.andNot = bnAndNot;
    BigInteger.prototype.not = bnNot;
    BigInteger.prototype.shiftLeft = bnShiftLeft;
    BigInteger.prototype.shiftRight = bnShiftRight;
    BigInteger.prototype.getLowestSetBit = bnGetLowestSetBit;
    BigInteger.prototype.bitCount = bnBitCount;
    BigInteger.prototype.testBit = bnTestBit;
    BigInteger.prototype.setBit = bnSetBit;
    BigInteger.prototype.clearBit = bnClearBit;
    BigInteger.prototype.flipBit = bnFlipBit;
    BigInteger.prototype.add = bnAdd;
    BigInteger.prototype.subtract = bnSubtract;
    BigInteger.prototype.multiply = bnMultiply;
    BigInteger.prototype.divide = bnDivide;
    BigInteger.prototype.remainder = bnRemainder;
    BigInteger.prototype.divideAndRemainder = bnDivideAndRemainder;
    BigInteger.prototype.modPow = bnModPow;
    BigInteger.prototype.modInverse = bnModInverse;
    BigInteger.prototype.pow = bnPow;
    BigInteger.prototype.gcd = bnGCD;
    BigInteger.prototype.isProbablePrime = bnIsProbablePrime;
    BigInteger.prototype.square = bnSquare;
 
    function Arcfour() {
        this.j = this.i = 0;
        this.S = []
    }
 
    function ARC4init(a) {
        var b, c, d;
        for (b = 0; 256 > b; ++b)
            this.S[b] = b;
        for (b = c = 0; 256 > b; ++b)
            c = c + this.S[b] + a[b % a.length] & 255,
            d = this.S[b],
            this.S[b] = this.S[c],
            this.S[c] = d;
        this.j = this.i = 0
    }
 
    function ARC4next() {
        var a;
        this.i = this.i + 1 & 255;
        this.j = this.j + this.S[this.i] & 255;
        a = this.S[this.i];
        this.S[this.i] = this.S[this.j];
        this.S[this.j] = a;
        return this.S[a + this.S[this.i] & 255]
    }
    Arcfour.prototype.init = ARC4init;
    Arcfour.prototype.next = ARC4next;
 
    function prng_newstate() {
        return new Arcfour
    }
    var rng_psize = 256,
        rng_state, rng_pool, rng_pptr;
 
    function rng_seed_int(a) {
        rng_pool[rng_pptr++] ^= a & 255;
        rng_pool[rng_pptr++] ^= a >> 8 & 255;
        rng_pool[rng_pptr++] ^= a >> 16 & 255;
        rng_pool[rng_pptr++] ^= a >> 24 & 255;
        rng_pptr >= rng_psize && (rng_pptr -= rng_psize)
    }
 
    function rng_seed_time() {
        rng_seed_int((new Date).getTime())
    }
    if (null == rng_pool) {
        rng_pool = [];
        rng_pptr = 0;
        var t;
        if ("Netscape" == navigator.appName && "5" > navigator.appVersion && window.crypto) {
            var z = window.crypto.random(32);
            for (t = 0; t < z.length; ++t)
                rng_pool[rng_pptr++] = z.charCodeAt(t) & 255
        }
        for (; rng_pptr < rng_psize;)
            t = Math.floor(65536 * Math.random()),
            rng_pool[rng_pptr++] = t >>> 8,
            rng_pool[rng_pptr++] = t & 255;
        rng_pptr = 0;
        rng_seed_time()
    }
 
    function rng_get_byte() {
        if (null == rng_state) {
            rng_seed_time();
            rng_state = prng_newstate();
            rng_state.init(rng_pool);
            for (rng_pptr = 0; rng_pptr < rng_pool.length; ++rng_pptr)
                rng_pool[rng_pptr] = 0;
            rng_pptr = 0
        }
        return rng_state.next()
    }
 
    function rng_get_bytes(a) {
        var b;
        for (b = 0; b < a.length; ++b)
            a[b] = rng_get_byte()
    }
 
    function SecureRandom() {}
    SecureRandom.prototype.nextBytes = rng_get_bytes;
    var KJUR = {};
    //"undefined" != typeof KJUR && KJUR || (KJUR = {});  
    "undefined" != typeof KJUR.crypto && KJUR.crypto || (KJUR.crypto = {});
    KJUR.crypto.Util = new function () {
        this.DIGESTINFOHEAD = {
            sha1: "3021300906052b0e03021a05000414",
            sha224: "302d300d06096086480165030402040500041c",
            sha256: "3031300d060960864801650304020105000420",
            sha384: "3041300d060960864801650304020205000430",
            sha512: "3051300d060960864801650304020305000440",
            md2: "3020300c06082a864886f70d020205000410",
            md5: "3020300c06082a864886f70d020505000410",
            ripemd160: "3021300906052b2403020105000414"
        };
        this.DEFAULTPROVIDER = {
            md5: "cryptojs",
            sha1: "cryptojs",
            sha224: "cryptojs",
            sha256: "cryptojs",
            sha384: "cryptojs",
            sha512: "cryptojs",
            ripemd160: "cryptojs",
            hmacmd5: "cryptojs",
            hmacsha1: "cryptojs",
            hmacsha224: "cryptojs",
            hmacsha256: "cryptojs",
            hmacsha384: "cryptojs",
            hmacsha512: "cryptojs",
            hmacripemd160: "cryptojs",
            sm3: "cryptojs",
            MD5withRSA: "cryptojs/jsrsa",
            SHA1withRSA: "cryptojs/jsrsa",
            SHA224withRSA: "cryptojs/jsrsa",
            SHA256withRSA: "cryptojs/jsrsa",
            SHA384withRSA: "cryptojs/jsrsa",
            SHA512withRSA: "cryptojs/jsrsa",
            RIPEMD160withRSA: "cryptojs/jsrsa",
            MD5withECDSA: "cryptojs/jsrsa",
            SHA1withECDSA: "cryptojs/jsrsa",
            SHA224withECDSA: "cryptojs/jsrsa",
            SHA256withECDSA: "cryptojs/jsrsa",
            SHA384withECDSA: "cryptojs/jsrsa",
            SHA512withECDSA: "cryptojs/jsrsa",
            RIPEMD160withECDSA: "cryptojs/jsrsa",
            SHA1withDSA: "cryptojs/jsrsa",
            SHA224withDSA: "cryptojs/jsrsa",
            SHA256withDSA: "cryptojs/jsrsa",
            MD5withRSAandMGF1: "cryptojs/jsrsa",
            SHA1withRSAandMGF1: "cryptojs/jsrsa",
            SHA224withRSAandMGF1: "cryptojs/jsrsa",
            SHA256withRSAandMGF1: "cryptojs/jsrsa",
            SHA384withRSAandMGF1: "cryptojs/jsrsa",
            SHA512withRSAandMGF1: "cryptojs/jsrsa",
            RIPEMD160withRSAandMGF1: "cryptojs/jsrsa"
        };
        this.CRYPTOJSMESSAGEDIGESTNAME = {
            md5: "CryptoJS.algo.MD5",
            sha1: "CryptoJS.algo.SHA1",
            sha224: "CryptoJS.algo.SHA224",
            sha256: "CryptoJS.algo.SHA256",
            sha384: "CryptoJS.algo.SHA384",
            sha512: "CryptoJS.algo.SHA512",
            ripemd160: "CryptoJS.algo.RIPEMD160",
            sm3: "CryptoJS.algo.SM3"
        };
        this.getDigestInfoHex = function (a, b) {
            if ("undefined" == typeof this.DIGESTINFOHEAD[b])
                throw "alg not supported in Util.DIGESTINFOHEAD: " + b;
            return this.DIGESTINFOHEAD[b] + a
        };
        this.getPaddedDigestInfoHex = function (a, b, c) {
            var d = this.getDigestInfoHex(a, b);
            a = c / 4;
            if (d.length + 22 > a)
                throw "key is too short for SigAlg: keylen=" + c + "," + b;
            b = "00" + d;
            c = "";
            a = a - 4 - b.length;
            for (d = 0; d < a; d += 2)
                c += "ff";
            return "0001" + c + b
        };
        this.hashString = function (a, b) {
            return (new KJUR.crypto.MessageDigest({
                alg: b
            })).digestString(a)
        };
        this.hashHex = function (a, b) {
            return (new KJUR.crypto.MessageDigest({
                alg: b
            })).digestHex(a)
        };
        this.sha1 = function (a) {
            return (new KJUR.crypto.MessageDigest({
                alg: "sha1",
                prov: "cryptojs"
            })).digestString(a)
        };
        this.sha256 = function (a) {
            return (new KJUR.crypto.MessageDigest({
                alg: "sha256",
                prov: "cryptojs"
            })).digestString(a)
        };
        this.sha256Hex = function (a) {
            return (new KJUR.crypto.MessageDigest({
                alg: "sha256",
                prov: "cryptojs"
            })).digestHex(a)
        };
        this.sha512 = function (a) {
            return (new KJUR.crypto.MessageDigest({
                alg: "sha512",
                prov: "cryptojs"
            })).digestString(a)
        };
        this.sha512Hex = function (a) {
            return (new KJUR.crypto.MessageDigest({
                alg: "sha512",
                prov: "cryptojs"
            })).digestHex(a)
        };
        this.md5 = function (a) {
            return (new KJUR.crypto.MessageDigest({
                alg: "md5",
                prov: "cryptojs"
            })).digestString(a)
        };
        this.ripemd160 = function (a) {
            return (new KJUR.crypto.MessageDigest({
                alg: "ripemd160",
                prov: "cryptojs"
            })).digestString(a)
        };
        this.getCryptoJSMDByName = function (a) {}
    };
    KJUR.crypto.MessageDigest = function (a) {
        this.setAlgAndProvider = function (a, c) {
            null != a && void 0 === c && (c = KJUR.crypto.Util.DEFAULTPROVIDER[a]);
            if (-1 != ":md5:sha1:sha224:sha256:sha384:sha512:ripemd160:sm3:".indexOf(a) && "cryptojs" == c) {
                try {
                    this.md = eval(KJUR.crypto.Util.CRYPTOJSMESSAGEDIGESTNAME[a]).create()
                } catch (d) {
                    throw "setAlgAndProvider hash alg set fail alg=" + a + "/" + d;
                }
                this.updateString = function (a) {
                    this.md.update(a)
                };
                this.updateHex = function (a) {
                    a = CryptoJS.enc.Hex.parse(a);
                    this.md.update(a)
                };
                this.digest = function () {
                    return this.md.finalize().toString(CryptoJS.enc.Hex)
                };
                this.digestString = function (a) {
                    this.updateString(a);
                    return this.digest()
                };
                this.digestHex = function (a) {
                    this.updateHex(a);
                    return this.digest()
                }
            }
            if (-1 != ":sha256:".indexOf(a) && "sjcl" == c) {
                try {
                    this.md = new sjcl.hash.sha256
                } catch (d) {
                    throw "setAlgAndProvider hash alg set fail alg=" + a + "/" + d;
                }
                this.updateString = function (a) {
                    this.md.update(a)
                };
                this.updateHex = function (a) {
                    a = sjcl.codec.hex.toBits(a);
                    this.md.update(a)
                };
                this.digest = function () {
                    var a = this.md.finalize();
                    return sjcl.codec.hex.fromBits(a)
                };
                this.digestString = function (a) {
                    this.updateString(a);
                    return this.digest()
                };
                this.digestHex = function (a) {
                    this.updateHex(a);
                    return this.digest()
                }
            }
        };
        this.updateString = function (a) {
            throw "updateString(str) not supported for this alg/prov: " + this.algName + "/" + this.provName;
        };
        this.updateHex = function (a) {
            throw "updateHex(hex) not supported for this alg/prov: " + this.algName + "/" + this.provName;
        };
        this.digest = function () {
            throw "digest() not supported for this alg/prov: " + this.algName + "/" + this.provName;
        };
        this.digestString = function (a) {
            throw "digestString(str) not supported for this alg/prov: " + this.algName + "/" + this.provName;
        };
        this.digestHex = function (a) {
            throw "digestHex(hex) not supported for this alg/prov: " + this.algName + "/" + this.provName;
        };
        void 0 !== a && void 0 !== a.alg && (this.algName = a.alg,
            void 0 === a.prov && (this.provName = KJUR.crypto.Util.DEFAULTPROVIDER[this.algName]),
            this.setAlgAndProvider(this.algName, this.provName))
    };
    KJUR.crypto.Mac = function (a) {
        this.setAlgAndProvider = function (a, c) {
            null == a && (a = "hmacsha1");
            a = a.toLowerCase();
            if ("hmac" != a.substr(0, 4))
                throw "setAlgAndProvider unsupported HMAC alg: " + a;
            void 0 === c && (c = KJUR.crypto.Util.DEFAULTPROVIDER[a]);
            this.algProv = a + "/" + c;
            var d = a.substr(4);
            if (-1 != ":md5:sha1:sha224:sha256:sha384:sha512:ripemd160:".indexOf(d) && "cryptojs" == c) {
                try {
                    var e = eval(KJUR.crypto.Util.CRYPTOJSMESSAGEDIGESTNAME[d]);
                    this.mac = CryptoJS.algo.HMAC.create(e, this.pass)
                } catch (f) {
                    throw "setAlgAndProvider hash alg set fail hashAlg=" + d + "/" + f;
                }
                this.updateString = function (a) {
                    this.mac.update(a)
                };
                this.updateHex = function (a) {
                    a = CryptoJS.enc.Hex.parse(a);
                    this.mac.update(a)
                };
                this.doFinal = function () {
                    return this.mac.finalize().toString(CryptoJS.enc.Hex)
                };
                this.doFinalString = function (a) {
                    this.updateString(a);
                    return this.doFinal()
                };
                this.doFinalHex = function (a) {
                    this.updateHex(a);
                    return this.doFinal()
                }
            }
        };
        this.updateString = function (a) {
            throw "updateString(str) not supported for this alg/prov: " + this.algProv;
        };
        this.updateHex = function (a) {
            throw "updateHex(hex) not supported for this alg/prov: " + this.algProv;
        };
        this.doFinal = function () {
            throw "digest() not supported for this alg/prov: " + this.algProv;
        };
        this.doFinalString = function (a) {
            throw "digestString(str) not supported for this alg/prov: " + this.algProv;
        };
        this.doFinalHex = function (a) {
            throw "digestHex(hex) not supported for this alg/prov: " + this.algProv;
        };
        void 0 !== a && (void 0 !== a.pass && (this.pass = a.pass),
            void 0 !== a.alg && (this.algName = a.alg,
                void 0 === a.prov && (this.provName = KJUR.crypto.Util.DEFAULTPROVIDER[this.algName]),
                this.setAlgAndProvider(this.algName, this.provName)))
    };
    KJUR.crypto.Signature = function (a) {
        var b = null;
        this._setAlgNames = function () {
            this.algName.match(/^(.+)with(.+)$/) && (this.mdAlgName = RegExp.$1.toLowerCase(),
                this.pubkeyAlgName = RegExp.$2.toLowerCase())
        };
        this._zeroPaddingOfSignature = function (a, b) {
            for (var e = "", f = b / 4 - a.length, g = 0; g < f; g++)
                e += "0";
            return e + a
        };
        this.setAlgAndProvider = function (a, b) {
            this._setAlgNames();
            if ("cryptojs/jsrsa" != b)
                throw "provider not supported: " + b;
            if (-1 != ":md5:sha1:sha224:sha256:sha384:sha512:ripemd160:sm3:".indexOf(this.mdAlgName)) {
                try {
                    this.md = new KJUR.crypto.MessageDigest({
                        alg: this.mdAlgName
                    })
                } catch (e) {
                    throw "setAlgAndProvider hash alg set fail alg=" + this.mdAlgName + "/" + e;
                }
                this.init = function (a, c) {
                    var b = null;
                    try {
                        b = void 0 === c ? KEYUTIL.getKey(a) : KEYUTIL.getKey(a, c)
                    } catch (d) {
                        throw "init failed:" + d;
                    }
                    if (!0 === b.isPrivate)
                        this.prvKey = b,
                        this.state = "SIGN";
                    else if (!0 === b.isPublic)
                        this.pubKey = b,
                        this.state = "VERIFY";
                    else
                        throw "init failed.:" + b;
                };
                this.initSign = function (a) {
                    "string" == typeof a.ecprvhex && "string" == typeof a.eccurvename ? (this.ecprvhex = a.ecprvhex,
                        this.eccurvename = a.eccurvename) : this.prvKey = a;
                    this.state = "SIGN"
                };
                this.initVerifyByPublicKey = function (a) {
                    "string" == typeof a.ecpubhex && "string" == typeof a.eccurvename ? (this.ecpubhex = a.ecpubhex,
                        this.eccurvename = a.eccurvename) : a instanceof KJUR.crypto.ECDSA ? this.pubKey = a : a instanceof RSAKey && (this.pubKey = a);
                    this.state = "VERIFY"
                };
                this.initVerifyByCertificatePEM = function (a) {
                    var c = new X509;
                    c.readCertPEM(a);
                    this.pubKey = c.subjectPublicKeyRSA;
                    this.state = "VERIFY"
                };
                this.updateString = function (a) {
                    this.md.updateString(a)
                };
                this.updateHex = function (a) {
                    this.md.updateHex(a)
                };
                this.sign = function () {
                    "sm2" != this.eccurvename && (this.sHashHex = this.md.digest());
                    if ("undefined" != typeof this.ecprvhex && "undefined" != typeof this.eccurvename) {
                        if ("sm2" == this.eccurvename) {
                            var a = new KJUR.crypto.SM3withSM2({
                                    curve: this.eccurvename
                                }),
                                c = a.ecparams.G,
                                b = c.multiply(new BigInteger(this.ecprvhex, 16)),
                                d = b.getX().toBigInteger().toRadix(16) + b.getY().toBigInteger().toRadix(16),
                                b = new SM3Digest,
                                c = (new SM3Digest).GetZ(c, d),
                                c = b.GetWords(b.GetHex(c).toString()),
                                d = CryptoJS.enc.Utf8.stringify(this.md.md._data),
                                d = CryptoJS.enc.Utf8.parse(d).toString(),
                                d = b.GetWords(d),
                                k = Array(b.GetDigestSize());
                            b.BlockUpdate(c, 0, c.length);
                            b.BlockUpdate(d, 0, d.length);
                            b.DoFinal(k, 0);
                            this.sHashHex = b.GetHex(k).toString()
                        } else
                            a = new KJUR.crypto.ECDSA({
                                curve: this.eccurvename
                            });
                        this.hSign = a.signHex(this.sHashHex, this.ecprvhex)
                    } else if ("rsaandmgf1" == this.pubkeyAlgName)
                        this.hSign = this.prvKey.signWithMessageHashPSS(this.sHashHex, this.mdAlgName, this.pssSaltLen);
                    else if ("rsa" == this.pubkeyAlgName)
                        this.hSign = this.prvKey.signWithMessageHash(this.sHashHex, this.mdAlgName);
                    else if (this.prvKey instanceof KJUR.crypto.ECDSA)
                        this.hSign = this.prvKey.signWithMessageHash(this.sHashHex);
                    else if (this.prvKey instanceof KJUR.crypto.DSA)
                        this.hSign = this.prvKey.signWithMessageHash(this.sHashHex);
                    else
                        throw "Signature: unsupported public key alg: " + this.pubkeyAlgName;
                    return this.hSign
                };
                this.signString = function (a) {
                    this.updateString(a);
                    this.sign()
                };
                this.signHex = function (a) {
                    this.updateHex(a);
                    this.sign()
                };
                this.verify = function (a) {
                    "sm2" != this.eccurvename && (this.sHashHex = this.md.digest());
                    if ("undefined" != typeof this.ecpubhex && "undefined" != typeof this.eccurvename) {
                        if ("sm2" == this.eccurvename) {
                            var c = new KJUR.crypto.SM3withSM2({
                                    curve: this.eccurvename
                                }),
                                b = c.ecparams.G,
                                d = this.ecpubhex.substr(2, 128),
                                k = new SM3Digest,
                                b = (new SM3Digest).GetZ(b, d),
                                b = k.GetWords(k.GetHex(b).toString()),
                                d = CryptoJS.enc.Utf8.stringify(this.md.md._data),
                                d = CryptoJS.enc.Utf8.parse(d).toString(),
                                d = k.GetWords(d),
                                l = Array(k.GetDigestSize());
                            k.BlockUpdate(b, 0, b.length);
                            k.BlockUpdate(d, 0, d.length);
                            k.DoFinal(l, 0);
                            this.sHashHex = k.GetHex(l).toString()
                        } else
                            c = new KJUR.crypto.ECDSA({
                                curve: this.eccurvename
                            });
                        return c.verifyHex(this.sHashHex, a, this.ecpubhex)
                    }
                    if ("rsaandmgf1" == this.pubkeyAlgName)
                        return this.pubKey.verifyWithMessageHashPSS(this.sHashHex, a, this.mdAlgName, this.pssSaltLen);
                    if ("rsa" == this.pubkeyAlgName || this.pubKey instanceof KJUR.crypto.ECDSA || this.pubKey instanceof KJUR.crypto.DSA)
                        return this.pubKey.verifyWithMessageHash(this.sHashHex, a);
                    throw "Signature: unsupported public key alg: " + this.pubkeyAlgName;
                }
            }
        };
        this.init = function (a, b) {
            throw "init(key, pass) not supported for this alg:prov=" + this.algProvName;
        };
        this.initVerifyByPublicKey = function (a) {
            throw "initVerifyByPublicKey(rsaPubKeyy) not supported for this alg:prov=" + this.algProvName;
        };
        this.initVerifyByCertificatePEM = function (a) {
            throw "initVerifyByCertificatePEM(certPEM) not supported for this alg:prov=" + this.algProvName;
        };
        this.initSign = function (a) {
            throw "initSign(prvKey) not supported for this alg:prov=" + this.algProvName;
        };
        this.updateString = function (a) {
            throw "updateString(str) not supported for this alg:prov=" + this.algProvName;
        };
        this.updateHex = function (a) {
            throw "updateHex(hex) not supported for this alg:prov=" + this.algProvName;
        };
        this.sign = function () {
            throw "sign() not supported for this alg:prov=" + this.algProvName;
        };
        this.signString = function (a) {
            throw "digestString(str) not supported for this alg:prov=" + this.algProvName;
        };
        this.signHex = function (a) {
            throw "digestHex(hex) not supported for this alg:prov=" + this.algProvName;
        };
        this.verify = function (a) {
            throw "verify(hSigVal) not supported for this alg:prov=" + this.algProvName;
        };
        this.initParams = a;
        if (void 0 !== a && (void 0 !== a.alg && (this.algName = a.alg,
                    this.provName = void 0 === a.prov ? KJUR.crypto.Util.DEFAULTPROVIDER[this.algName] : a.prov,
                    this.algProvName = this.algName + ":" + this.provName,
                    this.setAlgAndProvider(this.algName, this.provName),
                    this._setAlgNames()),
                void 0 !== a.psssaltlen && (this.pssSaltLen = a.psssaltlen),
                void 0 !== a.prvkeypem)) {
            if (void 0 !== a.prvkeypas)
                throw "both prvkeypem and prvkeypas parameters not supported";
            try {
                b = new RSAKey,
                    b.readPrivateKeyFromPEMString(a.prvkeypem),
                    this.initSign(b)
            } catch (c) {
                throw "fatal error to load pem private key: " + c;
            }
        }
    };
    KJUR.crypto.OID = new function () {
        this.oidhex2name = {
            "2a864886f70d010101": "rsaEncryption",
            "2a8648ce3d0201": "ecPublicKey",
            "2a8648ce380401": "dsa",
            "2a8648ce3d030107": "secp256r1",
            "2b8104001f": "secp192k1",
            "2b81040021": "secp224r1",
            "2b8104000a": "secp256k1",
            "2b81040023": "secp521r1",
            "2b81040022": "secp384r1",
            "2a8648ce380403": "SHA1withDSA",
            "608648016503040301": "SHA224withDSA",
            "608648016503040302": "SHA256withDSA"
        }
    };
 
    function ECFieldElementFp(a, b) {
        this.x = b;
        this.q = a
    }
 
    function feFpEquals(a) {
        return a == this ? !0 : this.q.equals(a.q) && this.x.equals(a.x)
    }
 
    function feFpToBigInteger() {
        return this.x
    }
 
    function feFpNegate() {
        return new ECFieldElementFp(this.q, this.x.negate().mod(this.q))
    }
 
    function feFpAdd(a) {
        return new ECFieldElementFp(this.q, this.x.add(a.toBigInteger()).mod(this.q))
    }
 
    function feFpSubtract(a) {
        return new ECFieldElementFp(this.q, this.x.subtract(a.toBigInteger()).mod(this.q))
    }
 
    function feFpMultiply(a) {
        return new ECFieldElementFp(this.q, this.x.multiply(a.toBigInteger()).mod(this.q))
    }
 
    function feFpSquare() {
        return new ECFieldElementFp(this.q, this.x.square().mod(this.q))
    }
 
    function feFpDivide(a) {
        return new ECFieldElementFp(this.q, this.x.multiply(a.toBigInteger().modInverse(this.q)).mod(this.q))
    }
    ECFieldElementFp.prototype.equals = feFpEquals;
    ECFieldElementFp.prototype.toBigInteger = feFpToBigInteger;
    ECFieldElementFp.prototype.negate = feFpNegate;
    ECFieldElementFp.prototype.add = feFpAdd;
    ECFieldElementFp.prototype.subtract = feFpSubtract;
    ECFieldElementFp.prototype.multiply = feFpMultiply;
    ECFieldElementFp.prototype.square = feFpSquare;
    ECFieldElementFp.prototype.divide = feFpDivide;
 
    function ECPointFp(a, b, c, d) {
        this.curve = a;
        this.x = b;
        this.y = c;
        this.z = null == d ? BigInteger.ONE : d;
        this.zinv = null
    }
 
    function pointFpGetX() {
        null == this.zinv && (this.zinv = this.z.modInverse(this.curve.q));
        return this.curve.fromBigInteger(this.x.toBigInteger().multiply(this.zinv).mod(this.curve.q))
    }
 
    function pointFpGetY() {
        null == this.zinv && (this.zinv = this.z.modInverse(this.curve.q));
        return this.curve.fromBigInteger(this.y.toBigInteger().multiply(this.zinv).mod(this.curve.q))
    }
 
    function pointFpEquals(a) {
        return a == this ? !0 : this.isInfinity() ? a.isInfinity() : a.isInfinity() ? this.isInfinity() : a.y.toBigInteger().multiply(this.z).subtract(this.y.toBigInteger().multiply(a.z)).mod(this.curve.q).equals(BigInteger.ZERO) ? a.x.toBigInteger().multiply(this.z).subtract(this.x.toBigInteger().multiply(a.z)).mod(this.curve.q).equals(BigInteger.ZERO) : !1
    }
 
    function pointFpIsInfinity() {
        return null == this.x && null == this.y ? !0 : this.z.equals(BigInteger.ZERO) && !this.y.toBigInteger().equals(BigInteger.ZERO)
    }
 
    function pointFpNegate() {
        return new ECPointFp(this.curve, this.x, this.y.negate(), this.z)
    }
 
    function pointFpAdd(a) {
        if (this.isInfinity())
            return a;
        if (a.isInfinity())
            return this;
        var b = a.y.toBigInteger().multiply(this.z).subtract(this.y.toBigInteger().multiply(a.z)).mod(this.curve.q),
            c = a.x.toBigInteger().multiply(this.z).subtract(this.x.toBigInteger().multiply(a.z)).mod(this.curve.q);
        if (BigInteger.ZERO.equals(c))
            return BigInteger.ZERO.equals(b) ? this.twice() : this.curve.getInfinity();
        var d = new BigInteger("3"),
            e = this.x.toBigInteger(),
            f = this.y.toBigInteger();
        a.x.toBigInteger();
        a.y.toBigInteger();
        var g = c.square(),
            h = g.multiply(c),
            e = e.multiply(g),
            g = b.square().multiply(this.z),
            c = g.subtract(e.shiftLeft(1)).multiply(a.z).subtract(h).multiply(c).mod(this.curve.q),
            b = e.multiply(d).multiply(b).subtract(f.multiply(h)).subtract(g.multiply(b)).multiply(a.z).add(b.multiply(h)).mod(this.curve.q);
        a = h.multiply(this.z).multiply(a.z).mod(this.curve.q);
        return new ECPointFp(this.curve, this.curve.fromBigInteger(c), this.curve.fromBigInteger(b), a)
    }
 
    function pointFpTwice() {
        if (this.isInfinity())
            return this;
        if (0 == this.y.toBigInteger().signum())
            return this.curve.getInfinity();
        var a = new BigInteger("3"),
            b = this.x.toBigInteger(),
            c = this.y.toBigInteger(),
            d = c.multiply(this.z),
            e = d.multiply(c).mod(this.curve.q),
            c = this.curve.a.toBigInteger(),
            f = b.square().multiply(a);
        BigInteger.ZERO.equals(c) || (f = f.add(this.z.square().multiply(c)));
        f = f.mod(this.curve.q);
        c = f.square().subtract(b.shiftLeft(3).multiply(e)).shiftLeft(1).multiply(d).mod(this.curve.q);
        a = f.multiply(a).multiply(b).subtract(e.shiftLeft(1)).shiftLeft(2).multiply(e).subtract(f.square().multiply(f)).mod(this.curve.q);
        d = d.square().multiply(d).shiftLeft(3).mod(this.curve.q);
        return new ECPointFp(this.curve, this.curve.fromBigInteger(c), this.curve.fromBigInteger(a), d)
    }
 
    function pointFpMultiply(a) {
        if (this.isInfinity())
            return this;
        if (0 == a.signum())
            return this.curve.getInfinity();
        var b = a.multiply(new BigInteger("3")),
            c = this.negate(),
            d = this,
            e;
        for (e = b.bitLength() - 2; 0 < e; --e) {
            var d = d.twice(),
                f = b.testBit(e),
                g = a.testBit(e);
            f != g && (d = d.add(f ? this : c))
        }
        return d
    }
 
    function pointFpMultiplyTwo(a, b, c) {
        var d;
        d = a.bitLength() > c.bitLength() ? a.bitLength() - 1 : c.bitLength() - 1;
        for (var e = this.curve.getInfinity(), f = this.add(b); 0 <= d;)
            e = e.twice(),
            a.testBit(d) ? e = c.testBit(d) ? e.add(f) : e.add(this) : c.testBit(d) && (e = e.add(b)),
            --d;
        return e
    }
    ECPointFp.prototype.getX = pointFpGetX;
    ECPointFp.prototype.getY = pointFpGetY;
    ECPointFp.prototype.equals = pointFpEquals;
    ECPointFp.prototype.isInfinity = pointFpIsInfinity;
    ECPointFp.prototype.negate = pointFpNegate;
    ECPointFp.prototype.add = pointFpAdd;
    ECPointFp.prototype.twice = pointFpTwice;
    ECPointFp.prototype.multiply = pointFpMultiply;
    ECPointFp.prototype.multiplyTwo = pointFpMultiplyTwo;
 
    function ECCurveFp(a, b, c) {
        this.q = a;
        this.a = this.fromBigInteger(b);
        this.b = this.fromBigInteger(c);
        this.infinity = new ECPointFp(this, null, null)
    }
 
    function curveFpGetQ() {
        return this.q
    }
 
    function curveFpGetA() {
        return this.a
    }
 
    function curveFpGetB() {
        return this.b
    }
 
    function curveFpEquals(a) {
        return a == this ? !0 : this.q.equals(a.q) && this.a.equals(a.a) && this.b.equals(a.b)
    }
 
    function curveFpGetInfinity() {
        return this.infinity
    }
 
    function curveFpFromBigInteger(a) {
        return new ECFieldElementFp(this.q, a)
    }
 
    function curveFpDecodePointHex(a) {
        switch (parseInt(a.substr(0, 2), 16)) {
            case 0:
                return this.infinity;
            case 2:
            case 3:
                return null;
            case 4:
            case 6:
            case 7:
                var b = (a.length - 2) / 2,
                    c = a.substr(2, b);
                a = a.substr(b + 2, b);
                return new ECPointFp(this, this.fromBigInteger(new BigInteger(c, 16)), this.fromBigInteger(new BigInteger(a, 16)));
            default:
                return null
        }
    }
    ECCurveFp.prototype.getQ = curveFpGetQ;
    ECCurveFp.prototype.getA = curveFpGetA;
    ECCurveFp.prototype.getB = curveFpGetB;
    ECCurveFp.prototype.equals = curveFpEquals;
    ECCurveFp.prototype.getInfinity = curveFpGetInfinity;
    ECCurveFp.prototype.fromBigInteger = curveFpFromBigInteger;
    ECCurveFp.prototype.decodePointHex = curveFpDecodePointHex;
    ECFieldElementFp.prototype.getByteLength = function () {
        return Math.floor((this.toBigInteger().bitLength() + 7) / 8)
    };
    ECPointFp.prototype.getEncoded = function (a) {
        var b = function (a, c) {
                var b = a.toByteArrayUnsigned();
                if (c < b.length)
                    b = b.slice(b.length - c);
                else
                    for (; c > b.length;)
                        b.unshift(0);
                return b
            },
            c = this.getX().toBigInteger(),
            d = this.getY().toBigInteger(),
            c = b(c, 32);
        a ? d.isEven() ? c.unshift(2) : c.unshift(3) : (c.unshift(4),
            c = c.concat(b(d, 32)));
        return c
    };
    ECPointFp.decodeFrom = function (a, b) {
        var c = b.length - 1,
            d = b.slice(1, 1 + c / 2),
            c = b.slice(1 + c / 2, 1 + c);
        d.unshift(0);
        c.unshift(0);
        d = new BigInteger(d);
        c = new BigInteger(c);
        return new ECPointFp(a, a.fromBigInteger(d), a.fromBigInteger(c))
    };
    ECPointFp.decodeFromHex = function (a, b) {
        b.substr(0, 2);
        var c = b.length - 2,
            d = b.substr(2, c / 2),
            c = b.substr(2 + c / 2, c / 2),
            d = new BigInteger(d, 16),
            c = new BigInteger(c, 16);
        return new ECPointFp(a, a.fromBigInteger(d), a.fromBigInteger(c))
    };
    ECPointFp.prototype.add2D = function (a) {
        if (this.isInfinity())
            return a;
        if (a.isInfinity())
            return this;
        if (this.x.equals(a.x))
            return this.y.equals(a.y) ? this.twice() : this.curve.getInfinity();
        var b = a.x.subtract(this.x),
            b = a.y.subtract(this.y).divide(b);
        a = b.square().subtract(this.x).subtract(a.x);
        b = b.multiply(this.x.subtract(a)).subtract(this.y);
        return new ECPointFp(this.curve, a, b)
    };
    ECPointFp.prototype.twice2D = function () {
        if (this.isInfinity())
            return this;
        if (0 == this.y.toBigInteger().signum())
            return this.curve.getInfinity();
        var a = this.curve.fromBigInteger(BigInteger.valueOf(2)),
            b = this.curve.fromBigInteger(BigInteger.valueOf(3)),
            b = this.x.square().multiply(b).add(this.curve.a).divide(this.y.multiply(a)),
            a = b.square().subtract(this.x.multiply(a)),
            b = b.multiply(this.x.subtract(a)).subtract(this.y);
        return new ECPointFp(this.curve, a, b)
    };
    ECPointFp.prototype.multiply2D = function (a) {
        if (this.isInfinity())
            return this;
        if (0 == a.signum())
            return this.curve.getInfinity();
        var b = a.multiply(new BigInteger("3")),
            c = this.negate(),
            d = this,
            e;
        for (e = b.bitLength() - 2; 0 < e; --e) {
            var d = d.twice(),
                f = b.testBit(e),
                g = a.testBit(e);
            f != g && (d = d.add2D(f ? this : c))
        }
        return d
    };
    ECPointFp.prototype.isOnCurve = function () {
        var a = this.getX().toBigInteger(),
            b = this.getY().toBigInteger(),
            c = this.curve.getA().toBigInteger(),
            d = this.curve.getB().toBigInteger(),
            e = this.curve.getQ(),
            b = b.multiply(b).mod(e),
            a = a.multiply(a).multiply(a).add(c.multiply(a)).add(d).mod(e);
        return b.equals(a)
    };
    ECPointFp.prototype.toString = function () {
        return "(" + this.getX().toBigInteger().toString() + "," + this.getY().toBigInteger().toString() + ")"
    };
    ECPointFp.prototype.validate = function () {
        var a = this.curve.getQ();
        if (this.isInfinity())
            throw Error("Point is at infinity.");
        var b = this.getX().toBigInteger(),
            c = this.getY().toBigInteger();
        if (0 > b.compareTo(BigInteger.ONE) || 0 < b.compareTo(a.subtract(BigInteger.ONE)))
            throw Error("x coordinate out of bounds");
        if (0 > c.compareTo(BigInteger.ONE) || 0 < c.compareTo(a.subtract(BigInteger.ONE)))
            throw Error("y coordinate out of bounds");
        if (!this.isOnCurve())
            throw Error("Point is not on the curve.");
        if (this.multiply(a).isInfinity())
            throw Error("Point is not a scalar multiple of G.");
        return !0
    };
    "undefined" != typeof KJUR && KJUR || (KJUR = {});
    "undefined" != typeof KJUR.crypto && KJUR.crypto || (KJUR.crypto = {});
    KJUR.crypto.ECDSA = function (a) {
        var b = new SecureRandom;
        this.type = "EC";
        this.getBigRandom = function (a) {
            return (new BigInteger(a.bitLength(), b)).mod(a.subtract(BigInteger.ONE)).add(BigInteger.ONE)
        };
        this.setNamedCurve = function (a) {
            this.ecparams = KJUR.crypto.ECParameterDB.getByName(a);
            this.pubKeyHex = this.prvKeyHex = null;
            this.curveName = a
        };
        this.setPrivateKeyHex = function (a) {
            this.isPrivate = !0;
            this.prvKeyHex = a
        };
        this.setPublicKeyHex = function (a) {
            this.isPublic = !0;
            this.pubKeyHex = a
        };
        this.generateKeyPairHex = function () {
            var a = this.getBigRandom(this.ecparams.n),
                b = this.ecparams.G.multiply(a),
                e = b.getX().toBigInteger(),
                b = b.getY().toBigInteger(),
                f = this.ecparams.keylen / 4,
                a = ("0000000000" + a.toString(16)).slice(-f),
                e = ("0000000000" + e.toString(16)).slice(-f),
                b = ("0000000000" + b.toString(16)).slice(-f),
                e = "04" + e + b;
            this.setPrivateKeyHex(a);
            this.setPublicKeyHex(e);
            return {
                ecprvhex: a,
                ecpubhex: e
            }
        };
        this.signWithMessageHash = function (a) {
            return this.signHex(a, this.prvKeyHex)
        };
        this.signHex = function (a, b) {
            var e = new BigInteger(b, 16),
                f = this.ecparams.n,
                g = new BigInteger(a, 16);
            do
                var h = this.getBigRandom(f),
                    k = this.ecparams.G.multiply(h).getX().toBigInteger().mod(f);
            while (0 >= k.compareTo(BigInteger.ZERO));
            e = h.modInverse(f).multiply(g.add(e.multiply(k))).mod(f);
            return KJUR.crypto.ECDSA.biRSSigToASN1Sig(k, e)
        };
        this.sign = function (a, b) {
            var e = this.ecparams.n,
                f = BigInteger.fromByteArrayUnsigned(a);
            do
                var g = this.getBigRandom(e),
                    h = this.ecparams.G.multiply(g).getX().toBigInteger().mod(e);
            while (0 >= h.compareTo(BigInteger.ZERO));
            e = g.modInverse(e).multiply(f.add(b.multiply(h))).mod(e);
            return this.serializeSig(h, e)
        };
        this.verifyWithMessageHash = function (a, b) {
            return this.verifyHex(a, b, this.pubKeyHex)
        };
        this.verifyHex = function (a, b, e) {
            var f;
            f = KJUR.crypto.ECDSA.parseSigHex(b);
            b = f.r;
            f = f.s;
            e = ECPointFp.decodeFromHex(this.ecparams.curve, e);
            a = new BigInteger(a, 16);
            return this.verifyRaw(a, b, f, e)
        };
        this.verify = function (a, b, e) {
            var f;
            if (Bitcoin.Util.isArray(b))
                b = this.parseSig(b),
                f = b.r,
                b = b.s;
            else if ("object" === typeof b && b.r && b.s)
                f = b.r,
                b = b.s;
            else
                throw "Invalid value for signature";
            if (!(e instanceof ECPointFp))
                if (Bitcoin.Util.isArray(e))
                    e = ECPointFp.decodeFrom(this.ecparams.curve, e);
                else
                    throw "Invalid format for pubkey value, must be byte array or ECPointFp";
            a = BigInteger.fromByteArrayUnsigned(a);
            return this.verifyRaw(a, f, b, e)
        };
        this.verifyRaw = function (a, b, e, f) {
            var g = this.ecparams.n,
                h = this.ecparams.G;
            if (0 > b.compareTo(BigInteger.ONE) || 0 <= b.compareTo(g) || 0 > e.compareTo(BigInteger.ONE) || 0 <= e.compareTo(g))
                return !1;
            e = e.modInverse(g);
            a = a.multiply(e).mod(g);
            e = b.multiply(e).mod(g);
            return h.multiply(a).add(f.multiply(e)).getX().toBigInteger().mod(g).equals(b)
        };
        this.serializeSig = function (a, b) {
            var e = a.toByteArraySigned(),
                f = b.toByteArraySigned(),
                g = [];
            g.push(2);
            g.push(e.length);
            g = g.concat(e);
            g.push(2);
            g.push(f.length);
            g = g.concat(f);
            g.unshift(g.length);
            g.unshift(48);
            return g
        };
        this.parseSig = function (a) {
            var b;
            if (48 != a[0])
                throw Error("Signature not a valid DERSequence");
            b = 2;
            if (2 != a[b])
                throw Error("First element in signature must be a DERInteger");
            var e = a.slice(b + 2, b + 2 + a[b + 1]);
            b += 2 + a[b + 1];
            if (2 != a[b])
                throw Error("Second element in signature must be a DERInteger");
            a = a.slice(b + 2, b + 2 + a[b + 1]);
            e = BigInteger.fromByteArrayUnsigned(e);
            a = BigInteger.fromByteArrayUnsigned(a);
            return {
                r: e,
                s: a
            }
        };
        this.parseSigCompact = function (a) {
            if (65 !== a.length)
                throw "Signature has the wrong length";
            var b = a[0] - 27;
            if (0 > b || 7 < b)
                throw "Invalid signature type";
            var e = this.ecparams.n,
                f = BigInteger.fromByteArrayUnsigned(a.slice(1, 33)).mod(e);
            a = BigInteger.fromByteArrayUnsigned(a.slice(33, 65)).mod(e);
            return {
                r: f,
                s: a,
                i: b
            }
        };
        void 0 !== a && void 0 !== a.curve && (this.curveName = a.curve);
        void 0 === this.curveName && (this.curveName = "secp256r1");
        this.setNamedCurve(this.curveName);
        void 0 !== a && (void 0 !== a.prv && this.setPrivateKeyHex(a.prv),
            void 0 !== a.pub && this.setPublicKeyHex(a.pub))
    };
    KJUR.crypto.ECDSA.parseSigHex = function (a) {
        var b = KJUR.crypto.ECDSA.parseSigHexInHexRS(a);
        a = new BigInteger(b.r, 16);
        b = new BigInteger(b.s, 16);
        return {
            r: a,
            s: b
        }
    };
    KJUR.crypto.ECDSA.parseSigHexInHexRS = function (a) {
        if ("30" != a.substr(0, 2))
            throw "signature is not a ASN.1 sequence";
        var b = ASN1HEX.getPosArrayOfChildren_AtObj(a, 0);
        if (2 != b.length)
            throw "number of signature ASN.1 sequence elements seem wrong";
        var c = b[0],
            b = b[1];
        if ("02" != a.substr(c, 2))
            throw "1st item of sequene of signature is not ASN.1 integer";
        if ("02" != a.substr(b, 2))
            throw "2nd item of sequene of signature is not ASN.1 integer";
        c = ASN1HEX.getHexOfV_AtObj(a, c);
        a = ASN1HEX.getHexOfV_AtObj(a, b);
        return {
            r: c,
            s: a
        }
    };
    KJUR.crypto.ECDSA.asn1SigToConcatSig = function (a) {
        var b = KJUR.crypto.ECDSA.parseSigHexInHexRS(a);
        a = b.r;
        b = b.s;
        "00" == a.substr(0, 2) && 8 == a.length / 2 * 8 % 128 && (a = a.substr(2));
        "00" == b.substr(0, 2) && 8 == b.length / 2 * 8 % 128 && (b = b.substr(2));
        if (0 != a.length / 2 * 8 % 128)
            throw "unknown ECDSA sig r length error";
        if (0 != b.length / 2 * 8 % 128)
            throw "unknown ECDSA sig s length error";
        return a + b
    };
    KJUR.crypto.ECDSA.concatSigToASN1Sig = function (a) {
        if (0 != a.length / 2 * 8 % 128)
            throw "unknown ECDSA concatinated r-s sig  length error";
        var b = a.substr(0, a.length / 2);
        a = a.substr(a.length / 2);
        return KJUR.crypto.ECDSA.hexRSSigToASN1Sig(b, a)
    };
    KJUR.crypto.ECDSA.hexRSSigToASN1Sig = function (a, b) {
        var c = new BigInteger(a, 16),
            d = new BigInteger(b, 16);
        return KJUR.crypto.ECDSA.biRSSigToASN1Sig(c, d)
    };
    KJUR.crypto.ECDSA.biRSSigToASN1Sig = function (a, b) {
        var c = new KJUR.asn1.DERInteger({
                bigint: a
            }),
            d = new KJUR.asn1.DERInteger({
                bigint: b
            });
        return (new KJUR.asn1.DERSequence({
            array: [c, d]
        })).getEncodedHex()
    };
    (function () {
        var a = CryptoJS,
            b = a.lib,
            c = b.WordArray,
            d = b.Hasher,
            e = [],
            b = a.algo.SM3 = d.extend({
                _doReset: function () {
                    this._hash = new c.init([1937774191, 1226093241, 388252375, 3666478592, 2842636476, 372324522, 3817729613, 2969243214])
                },
                _doProcessBlock: function (a, b) {
                    for (var c = this._hash.words, d = c[0], l = c[1], p = c[2], n = c[3], q = c[4], m = 0; 80 > m; m++) {
                        if (16 > m)
                            e[m] = a[b + m] | 0;
                        else {
                            var r = e[m - 3] ^ e[m - 8] ^ e[m - 14] ^ e[m - 16];
                            e[m] = r << 1 | r >>> 31
                        }
                        r = (d << 5 | d >>> 27) + q + e[m];
                        r = 20 > m ? r + ((l & p | ~l & n) + 1518500249) : 40 > m ? r + ((l ^ p ^ n) + 1859775393) : 60 > m ? r + ((l & p | l & n | p & n) - 1894007588) : r + ((l ^ p ^ n) - 899497514);
                        q = n;
                        n = p;
                        p = l << 30 | l >>> 2;
                        l = d;
                        d = r
                    }
                    c[0] = c[0] + d | 0;
                    c[1] = c[1] + l | 0;
                    c[2] = c[2] + p | 0;
                    c[3] = c[3] + n | 0;
                    c[4] = c[4] + q | 0
                },
                _doFinalize: function () {
                    var a = this._data,
                        b = a.words,
                        c = 8 * this._nDataBytes,
                        d = 8 * a.sigBytes;
                    b[d >>> 5] |= 128 << 24 - d % 32;
                    b[(d + 64 >>> 9 << 4) + 14] = Math.floor(c / 4294967296);
                    b[(d + 64 >>> 9 << 4) + 15] = c;
                    a.sigBytes = 4 * b.length;
                    this._process();
                    return this._hash
                },
                clone: function () {
                    var a = d.clone.call(this);
                    a._hash = this._hash.clone();
                    return a
                }
            });
        a.SM3 = d._createHelper(b);
        a.HmacSM3 = d._createHmacHelper(b)
    })();
 
    function SM3Digest() {
        this.BYTE_LENGTH = 64;
        this.xBuf = [];
        this.byteCount = this.xBufOff = 0;
        this.DIGEST_LENGTH = 32;
        this.v0 = [1937774191, 1226093241, 388252375, 3666478592, 2842636476, 372324522, 3817729613, 2969243214];
        this.v0 = [1937774191, 1226093241, 388252375, -628488704, -1452330820, 372324522, -477237683, -1325724082];
        this.v = Array(8);
        this.v_ = Array(8);
        this.X0 = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
        this.X = Array(68);
        this.xOff = 0;
        this.T_00_15 = 2043430169;
        this.T_16_63 = 2055708042;
        0 < arguments.length ? this.InitDigest(arguments[0]) : this.Init()
    }
    SM3Digest.prototype = {
        Init: function () {
            this.xBuf = Array(4);
            this.Reset()
        },
        InitDigest: function (a) {
            this.xBuf = Array(a.xBuf.length);
            Array.Copy(a.xBuf, 0, this.xBuf, 0, a.xBuf.length);
            this.xBufOff = a.xBufOff;
            this.byteCount = a.byteCount;
            Array.Copy(a.X, 0, this.X, 0, a.X.length);
            this.xOff = a.xOff;
            Array.Copy(a.v, 0, this.v, 0, a.v.length)
        },
        GetDigestSize: function () {
            return this.DIGEST_LENGTH
        },
        Reset: function () {
            this.xBufOff = this.byteCount = 0;
            Array.Clear(this.xBuf, 0, this.xBuf.length);
            Array.Copy(this.v0, 0, this.v, 0, this.v0.length);
            this.xOff = 0;
            Array.Copy(this.X0, 0, this.X, 0, this.X0.length)
        },
        GetByteLength: function () {
            return this.BYTE_LENGTH
        },
        ProcessBlock: function () {
            var a, b = this.X,
                c = Array(64);
            for (a = 16; 68 > a; a++)
                b[a] = this.P1(b[a - 16] ^ b[a - 9] ^ this.ROTATE(b[a - 3], 15)) ^ this.ROTATE(b[a - 13], 7) ^ b[a - 6];
            for (a = 0; 64 > a; a++)
                c[a] = b[a] ^ b[a + 4];
            var d = this.v,
                e = this.v_;
            Array.Copy(d, 0, e, 0, this.v0.length);
            var f, g;
            for (a = 0; 16 > a; a++)
                g = this.ROTATE(e[0], 12),
                f = Int32.parse(Int32.parse(g + e[4]) + this.ROTATE(this.T_00_15, a)),
                f = this.ROTATE(f, 7),
                g ^= f,
                g = Int32.parse(Int32.parse(this.FF_00_15(e[0], e[1], e[2]) + e[3]) + g) + c[a],
                f = Int32.parse(Int32.parse(this.GG_00_15(e[4], e[5], e[6]) + e[7]) + f) + b[a],
                e[3] = e[2],
                e[2] = this.ROTATE(e[1], 9),
                e[1] = e[0],
                e[0] = g,
                e[7] = e[6],
                e[6] = this.ROTATE(e[5], 19),
                e[5] = e[4],
                e[4] = this.P0(f);
            for (a = 16; 64 > a; a++)
                g = this.ROTATE(e[0], 12),
                f = Int32.parse(Int32.parse(g + e[4]) + this.ROTATE(this.T_16_63, a)),
                f = this.ROTATE(f, 7),
                g ^= f,
                g = Int32.parse(Int32.parse(this.FF_16_63(e[0], e[1], e[2]) + e[3]) + g) + c[a],
                f = Int32.parse(Int32.parse(this.GG_16_63(e[4], e[5], e[6]) + e[7]) + f) + b[a],
                e[3] = e[2],
                e[2] = this.ROTATE(e[1], 9),
                e[1] = e[0],
                e[0] = g,
                e[7] = e[6],
                e[6] = this.ROTATE(e[5], 19),
                e[5] = e[4],
                e[4] = this.P0(f);
            for (a = 0; 8 > a; a++)
                d[a] ^= Int32.parse(e[a]);
            this.xOff = 0;
            Array.Copy(this.X0, 0, this.X, 0, this.X0.length)
        },
        ProcessWord: function (a, b) {
            var c = a[b] << 24,
                c = c | (a[++b] & 255) << 16,
                c = c | (a[++b] & 255) << 8,
                c = c | a[++b] & 255;
            this.X[this.xOff] = c;
            16 == ++this.xOff && this.ProcessBlock()
        },
        ProcessLength: function (a) {
            14 < this.xOff && this.ProcessBlock();
            this.X[14] = this.URShiftLong(a, 32);
            this.X[15] = a & 4294967295
        },
        IntToBigEndian: function (a, b, c) {
            b[c] = Int32.parseByte(this.URShift(a, 24));
            b[++c] = Int32.parseByte(this.URShift(a, 16));
            b[++c] = Int32.parseByte(this.URShift(a, 8));
            b[++c] = Int32.parseByte(a)
        },
        DoFinal: function (a, b) {
            this.Finish();
            for (var c = 0; 8 > c; c++)
                this.IntToBigEndian(this.v[c], a, b + 4 * c);
            this.Reset();
            for (var d = a.length, c = 0; c < d; c++)
                a[c] &= 255;
            return this.DIGEST_LENGTH
        },
        Update: function (a) {
            this.xBuf[this.xBufOff++] = a;
            this.xBufOff == this.xBuf.length && (this.ProcessWord(this.xBuf, 0),
                this.xBufOff = 0);
            this.byteCount++
        },
        BlockUpdate: function (a, b, c) {
            for (; 0 != this.xBufOff && 0 < c;)
                this.Update(a[b]),
                b++,
                c--;
            for (; c > this.xBuf.length;)
                this.ProcessWord(a, b),
                b += this.xBuf.length,
                c -= this.xBuf.length,
                this.byteCount += this.xBuf.length;
            for (; 0 < c;)
                this.Update(a[b]),
                b++,
                c--
        },
        Finish: function () {
            var a = this.byteCount << 3;
            for (this.Update(128); 0 != this.xBufOff;)
                this.Update(0);
            this.ProcessLength(a);
            this.ProcessBlock()
        },
        ROTATE: function (a, b) {
            return a << b | this.URShift(a, 32 - b)
        },
        P0: function (a) {
            return a ^ this.ROTATE(a, 9) ^ this.ROTATE(a, 17)
        },
        P1: function (a) {
            return a ^ this.ROTATE(a, 15) ^ this.ROTATE(a, 23)
        },
        FF_00_15: function (a, b, c) {
            return a ^ b ^ c
        },
        FF_16_63: function (a, b, c) {
            return a & b | a & c | b & c
        },
        GG_00_15: function (a, b, c) {
            return a ^ b ^ c
        },
        GG_16_63: function (a, b, c) {
            return a & b | ~a & c
        },
        URShift: function (a, b) {
            if (a > Int32.maxValue || a < Int32.minValue)
                a = Int32.parse(a);
            return 0 <= a ? a >> b : (a >> b) + (2 << ~b)
        },
        URShiftLong: function (a, b) {
            var c;
            c = new BigInteger;
            c.fromInt(a);
            if (0 <= c.signum())
                c = c.shiftRight(b).intValue();
            else {
                var d = new BigInteger;
                d.fromInt(2);
                var e = ~b;
                c = "";
                if (0 > e) {
                    d = 64 + e;
                    for (e = 0; e < d; e++)
                        c += "0";
                    d = new BigInteger;
                    d.fromInt(a >> b);
                    c = new BigInteger("10" + c, 2);
                    c.toRadix(10);
                    c = c.add(d).toRadix(10)
                } else
                    c = d.shiftLeft(~b).intValue(),
                    c = (a >> b) + c
            }
            return c
        },
        GetZ: function (a, b) {
            var c = CryptoJS.enc.Utf8.parse("1234567812345678"),
                d = 32 * c.words.length;
            this.Update(d >> 8 & 255);
            this.Update(d & 255);
            c = this.GetWords(c.toString());
            this.BlockUpdate(c, 0, c.length);
            var c = this.GetWords(a.curve.a.toBigInteger().toRadix(16)),
                d = this.GetWords(a.curve.b.toBigInteger().toRadix(16)),
                e = this.GetWords(a.getX().toBigInteger().toRadix(16)),
                f = this.GetWords(a.getY().toBigInteger().toRadix(16)),
                g = this.GetWords(b.substr(0, 64)),
                h = this.GetWords(b.substr(64, 64));
            this.BlockUpdate(c, 0, c.length);
            this.BlockUpdate(d, 0, d.length);
            this.BlockUpdate(e, 0, e.length);
            this.BlockUpdate(f, 0, f.length);
            this.BlockUpdate(g, 0, g.length);
            this.BlockUpdate(h, 0, h.length);
            c = Array(this.GetDigestSize());
            this.DoFinal(c, 0);
            return c
        },
        GetWords: function (a) {
            for (var b = [], c = a.length, d = 0; d < c; d += 2)
                b[b.length] = parseInt(a.substr(d, 2), 16);
            return b
        },
        GetHex: function (a) {
            for (var b = [], c = 0, d = 0; d < 2 * a.length; d += 2)
                b[d >>> 3] |= parseInt(a[c]) << 24 - d % 8 * 4,
                c++;
            return new CryptoJS.lib.WordArray.init(b, a.length)
        }
    };
    Array.Clear = function (a, b, c) {
        for (var elm in a)
            a[elm] = null
    };
    Array.Copy = function (a, b, c, d, e) {
        a = a.slice(b, b + e);
        for (b = 0; b < a.length; b++)
            c[d] = a[b],
            d++
    };
    var Int32 = { //zdk  
        minValue: -parseInt("10000000000000000000000000000000", 2),
        maxValue: 2147483647,
        parse: function (a) {
            if (a < this.minValue) {
                a = new Number(-a);
                a = a.toString(2);
                a = a.substr(a.length - 31, 31);
                for (var b = "", c = 0; c < a.length; c++)
                    var d = a.substr(c, 1),
                        b = b + ("0" == d ? "1" : "0");
                a = parseInt(b, 2);
                return a + 1
            }
            if (a > this.maxValue) {
                a = Number(a);
                a = a.toString(2);
                a = a.substr(a.length - 31, 31);
                b = "";
                for (c = 0; c < a.length; c++)
                    d = a.substr(c, 1),
                    b += "0" == d ? "1" : "0";
                a = parseInt(b, 2);
                return -(a + 1)
            }
            return a
        },
        parseByte: function (a) {
            if (0 > a) {
                a = new Number(-a);
                a = a.toString(2);
                a = a.substr(a.length - 8, 8);
                for (var b = "", c = 0; c < a.length; c++)
                    var d = a.substr(c, 1),
                        b = b + ("0" == d ? "1" : "0");
                return parseInt(b, 2) + 1
            }
            return 255 < a ? (a = Number(a),
                a = a.toString(2),
                parseInt(a.substr(a.length - 8, 8), 2)) : a
        }
    };
    "undefined" != typeof KJUR && KJUR || (KJUR = {});
    "undefined" != typeof KJUR.crypto && KJUR.crypto || (KJUR.crypto = {});
    KJUR.crypto.SM3withSM2 = function (a) {
        var b = new SecureRandom;
        this.type = "SM2";
        this.getBigRandom = function (a) {
            return (new BigInteger(a.bitLength(), b)).mod(a.subtract(BigInteger.ONE)).add(BigInteger.ONE)
        };
        this.setNamedCurve = function (a) {
            this.ecparams = KJUR.crypto.ECParameterDB.getByName(a);
            this.pubKeyHex = this.prvKeyHex = null;
            this.curveName = a
        };
        this.setPrivateKeyHex = function (a) {
            this.isPrivate = !0;
            this.prvKeyHex = a
        };
        this.setPublicKeyHex = function (a) {
            this.isPublic = !0;
            this.pubKeyHex = a
        };
        this.generateKeyPairHex = function () {
            var a = this.getBigRandom(this.ecparams.n),
                b = this.ecparams.G.multiply(a),
                e = b.getX().toBigInteger(),
                b = b.getY().toBigInteger(),
                f = this.ecparams.keylen / 4,
                a = ("0000000000" + a.toString(16)).slice(-f),
                e = ("0000000000" + e.toString(16)).slice(-f),
                b = ("0000000000" + b.toString(16)).slice(-f),
                e = "04" + e + b;
            this.setPrivateKeyHex(a);
            this.setPublicKeyHex(e);
            return {
                ecprvhex: a,
                ecpubhex: e
            }
        };
        this.signWithMessageHash = function (a) {
            return this.signHex(a, this.prvKeyHex)
        };
        this.signHex = function (a, b) {
            var e = new BigInteger(b, 16),
                f = this.ecparams.n,
                g = new BigInteger(a, 16),
                h = null,
                k = null,
                l = k = null;
            do {
                do
                    k = this.generateKeyPairHex(),
                    h = new BigInteger(k.ecprvhex, 16),
                    k = ECPointFp.decodeFromHex(this.ecparams.curve, k.ecpubhex),
                    k = g.add(k.getX().toBigInteger()),
                    k = k.mod(f);
                while (k.equals(BigInteger.ZERO) || k.add(h).equals(f));
                var p = e.add(BigInteger.ONE),
                    p = p.modInverse(f),
                    l = k.multiply(e),
                    l = h.subtract(l).mod(f),
                    l = p.multiply(l).mod(f)
            } while (l.equals(BigInteger.ZERO));
            return KJUR.crypto.ECDSA.biRSSigToASN1Sig(k, l)
        };
        this.sign = function (a, b) {
            var e = this.ecparams.n,
                f = BigInteger.fromByteArrayUnsigned(a);
            do
                var g = this.getBigRandom(e),
                    h = this.ecparams.G.multiply(g).getX().toBigInteger().mod(e);
            while (0 >= h.compareTo(BigInteger.ZERO));
            e = g.modInverse(e).multiply(f.add(b.multiply(h))).mod(e);
            return this.serializeSig(h, e)
        };
        this.verifyWithMessageHash = function (a, b) {
            return this.verifyHex(a, b, this.pubKeyHex)
        };
        this.verifyHex = function (a, b, e) {
            var f;
            f = KJUR.crypto.ECDSA.parseSigHex(b);
            b = f.r;
            f = f.s;
            e = ECPointFp.decodeFromHex(this.ecparams.curve, e);
            a = new BigInteger(a, 16);
            return this.verifyRaw(a, b, f, e)
        };
        this.verify = function (a, b, e) {
            var f;
            if (Bitcoin.Util.isArray(b))
                b = this.parseSig(b),
                f = b.r,
                b = b.s;
            else if ("object" === typeof b && b.r && b.s)
                f = b.r,
                b = b.s;
            else
                throw "Invalid value for signature";
            if (!(e instanceof ECPointFp))
                if (Bitcoin.Util.isArray(e))
                    e = ECPointFp.decodeFrom(this.ecparams.curve, e);
                else
                    throw "Invalid format for pubkey value, must be byte array or ECPointFp";
            a = BigInteger.fromByteArrayUnsigned(a);
            return this.verifyRaw(a, f, b, e)
        };
        this.verifyRaw = function (a, b, e, f) {
            var g = this.ecparams.n,
                h = this.ecparams.G,
                k = b.add(e).mod(g);
            if (k.equals(BigInteger.ZERO))
                return !1;
            e = h.multiply(e);
            e = e.add(f.multiply(k));
            a = a.add(e.getX().toBigInteger()).mod(g);
            return b.equals(a)
        };
        this.serializeSig = function (a, b) {
            var e = a.toByteArraySigned(),
                f = b.toByteArraySigned(),
                g = [];
            g.push(2);
            g.push(e.length);
            g = g.concat(e);
            g.push(2);
            g.push(f.length);
            g = g.concat(f);
            g.unshift(g.length);
            g.unshift(48);
            return g
        };
        this.parseSig = function (a) {
            var b;
            if (48 != a[0])
                throw Error("Signature not a valid DERSequence");
            b = 2;
            if (2 != a[b])
                throw Error("First element in signature must be a DERInteger");
            var e = a.slice(b + 2, b + 2 + a[b + 1]);
            b += 2 + a[b + 1];
            if (2 != a[b])
                throw Error("Second element in signature must be a DERInteger");
            a = a.slice(b + 2, b + 2 + a[b + 1]);
            e = BigInteger.fromByteArrayUnsigned(e);
            a = BigInteger.fromByteArrayUnsigned(a);
            return {
                r: e,
                s: a
            }
        };
        this.parseSigCompact = function (a) {
            if (65 !== a.length)
                throw "Signature has the wrong length";
            var b = a[0] - 27;
            if (0 > b || 7 < b)
                throw "Invalid signature type";
            var e = this.ecparams.n,
                f = BigInteger.fromByteArrayUnsigned(a.slice(1, 33)).mod(e);
            a = BigInteger.fromByteArrayUnsigned(a.slice(33, 65)).mod(e);
            return {
                r: f,
                s: a,
                i: b
            }
        };
        void 0 !== a && void 0 !== a.curve && (this.curveName = a.curve);
        void 0 === this.curveName && (this.curveName = "sm2");
        this.setNamedCurve(this.curveName);
        void 0 !== a && (void 0 !== a.prv && this.setPrivateKeyHex(a.prv),
            void 0 !== a.pub && this.setPublicKeyHex(a.pub))
    };
    "undefined" != typeof KJUR && KJUR || (KJUR = {});
    "undefined" != typeof KJUR.crypto && KJUR.crypto || (KJUR.crypto = {});
    KJUR.crypto.ECParameterDB = new function () {
        var a = {},
            b = {};
        this.getByName = function (c) {
            var d = c;
            "undefined" != typeof b[d] && (d = b[c]);
            if ("undefined" != typeof a[d])
                return a[d];
            throw "unregistered EC curve name: " + d;
        };
        this.regist = function (c, d, e, f, g, h, k, l, p, n, q, m) {
            a[c] = {};
            e = new BigInteger(e, 16);
            f = new BigInteger(f, 16);
            g = new BigInteger(g, 16);
            h = new BigInteger(h, 16);
            k = new BigInteger(k, 16);
            e = new ECCurveFp(e, f, g);
            l = e.decodePointHex("04" + l + p);
            a[c].name = c;
            a[c].keylen = d;
            a[c].curve = e;
            a[c].G = l;
            a[c].n = h;
            a[c].h = k;
            a[c].oid = q;
            a[c].info = m;
            for (d = 0; d < n.length; d++)
                b[n[d]] = c
        }
    };
    KJUR.crypto.ECParameterDB.regist("secp128r1", 128, "FFFFFFFDFFFFFFFFFFFFFFFFFFFFFFFF", "FFFFFFFDFFFFFFFFFFFFFFFFFFFFFFFC", "E87579C11079F43DD824993C2CEE5ED3", "FFFFFFFE0000000075A30D1B9038A115", "1", "161FF7528B899B2D0C28607CA52C5B86", "CF5AC8395BAFEB13C02DA292DDED7A83", [], "", "secp128r1 : SECG curve over a 128 bit prime field");
    KJUR.crypto.ECParameterDB.regist("secp160k1", 160, "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFAC73", "0", "7", "0100000000000000000001B8FA16DFAB9ACA16B6B3", "1", "3B4C382CE37AA192A4019E763036F4F5DD4D7EBB", "938CF935318FDCED6BC28286531733C3F03C4FEE", [], "", "secp160k1 : SECG curve over a 160 bit prime field");
    KJUR.crypto.ECParameterDB.regist("secp160r1", 160, "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF7FFFFFFF", "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF7FFFFFFC", "1C97BEFC54BD7A8B65ACF89F81D4D4ADC565FA45", "0100000000000000000001F4C8F927AED3CA752257", "1", "4A96B5688EF573284664698968C38BB913CBFC82", "23A628553168947D59DCC912042351377AC5FB32", [], "", "secp160r1 : SECG curve over a 160 bit prime field");
    KJUR.crypto.ECParameterDB.regist("secp192k1", 192, "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFEE37", "0", "3", "FFFFFFFFFFFFFFFFFFFFFFFE26F2FC170F69466A74DEFD8D", "1", "DB4FF10EC057E9AE26B07D0280B7F4341DA5D1B1EAE06C7D", "9B2F2F6D9C5628A7844163D015BE86344082AA88D95E2F9D", []);
    KJUR.crypto.ECParameterDB.regist("secp192r1", 192, "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFFFFFFFFFFFF", "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFFFFFFFFFFFC", "64210519E59C80E70FA7E9AB72243049FEB8DEECC146B9B1", "FFFFFFFFFFFFFFFFFFFFFFFF99DEF836146BC9B1B4D22831", "1", "188DA80EB03090F67CBF20EB43A18800F4FF0AFD82FF1012", "07192B95FFC8DA78631011ED6B24CDD573F977A11E794811", []);
    KJUR.crypto.ECParameterDB.regist("secp224r1", 224, "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF000000000000000000000001", "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFFFFFFFFFFFFFFFFFFFE", "B4050A850C04B3ABF54132565044B0B7D7BFD8BA270B39432355FFB4", "FFFFFFFFFFFFFFFFFFFFFFFFFFFF16A2E0B8F03E13DD29455C5C2A3D", "1", "B70E0CBD6BB4BF7F321390B94A03C1D356C21122343280D6115C1D21", "BD376388B5F723FB4C22DFE6CD4375A05A07476444D5819985007E34", []);
    KJUR.crypto.ECParameterDB.regist("secp256k1", 256, "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2F", "0", "7", "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141", "1", "79BE667EF9DCBBAC55A06295CE870B07029BFCDB2DCE28D959F2815B16F81798", "483ADA7726A3C4655DA4FBFC0E1108A8FD17B448A68554199C47D08FFB10D4B8", []);
    KJUR.crypto.ECParameterDB.regist("secp256r1", 256, "FFFFFFFF00000001000000000000000000000000FFFFFFFFFFFFFFFFFFFFFFFF", "FFFFFFFF00000001000000000000000000000000FFFFFFFFFFFFFFFFFFFFFFFC", "5AC635D8AA3A93E7B3EBBD55769886BC651D06B0CC53B0F63BCE3C3E27D2604B", "FFFFFFFF00000000FFFFFFFFFFFFFFFFBCE6FAADA7179E84F3B9CAC2FC632551", "1", "6B17D1F2E12C4247F8BCE6E563A440F277037D812DEB33A0F4A13945D898C296", "4FE342E2FE1A7F9B8EE7EB4A7C0F9E162BCE33576B315ECECBB6406837BF51F5", ["NIST P-256", "P-256", "prime256v1"]);
    KJUR.crypto.ECParameterDB.regist("secp384r1", 384, "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFFFF0000000000000000FFFFFFFF", "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFFFF0000000000000000FFFFFFFC", "B3312FA7E23EE7E4988E056BE3F82D19181D9C6EFE8141120314088F5013875AC656398D8A2ED19D2A85C8EDD3EC2AEF", "FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFC7634D81F4372DDF581A0DB248B0A77AECEC196ACCC52973", "1", "AA87CA22BE8B05378EB1C71EF320AD746E1D3B628BA79B9859F741E082542A385502F25DBF55296C3A545E3872760AB7", "3617de4a96262c6f5d9e98bf9292dc29f8f41dbd289a147ce9da3113b5f0b8c00a60b1ce1d7e819d7a431d7c90ea0e5f", ["NIST P-384", "P-384"]);
    KJUR.crypto.ECParameterDB.regist("secp521r1", 521, "1FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF", "1FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFC", "051953EB9618E1C9A1F929A21A0B68540EEA2DA725B99B315F3B8B489918EF109E156193951EC7E937B1652C0BD3BB1BF073573DF883D2C34F1EF451FD46B503F00", "1FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFA51868783BF2F966B7FCC0148F709A5D03BB5C9B8899C47AEBB6FB71E91386409", "1", "C6858E06B70404E9CD9E3ECB662395B4429C648139053FB521F828AF606B4D3DBAA14B5E77EFE75928FE1DC127A2FFA8DE3348B3C1856A429BF97E7E31C2E5BD66", "011839296a789a3bc0045c8a5fb42c7d1bd998f54449579b446817afbd17273e662c97ee72995ef42640c550b9013fad0761353c7086a272c24088be94769fd16650", ["NIST P-521", "P-521"]);
    KJUR.crypto.ECParameterDB.regist("sm2", 256, "FFFFFFFEFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF00000000FFFFFFFFFFFFFFFF", "FFFFFFFEFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF00000000FFFFFFFFFFFFFFFC", "28E9FA9E9D9F5E344D5A9E4BCF6509A7F39789F515AB8F92DDBCBD414D940E93", "FFFFFFFEFFFFFFFFFFFFFFFFFFFFFFFF7203DF6B21C6052B53BBF40939D54123", "1", "32C4AE2C1F1981195F9904466A39C9948FE30BBFF2660BE1715A4589334C74C7", "BC3736A2F4F6779C59BDCEE36B692153D0A9877CC62A474002DF32E52139F0A0", ["sm2", "SM2"]);
 
    SM2Cipher.prototype = {
        Reset: function () {
            this.sm3keybase = new SM3Digest;
            this.sm3c3 = new SM3Digest;
            for (var a = this.p2.getX().toBigInteger().toRadix(16); 64 > a.length;)
                a = "0" + a;
            for (var a = this.GetWords(a), b = this.p2.getY().toBigInteger().toRadix(16); 64 > b.length;)
                b = "0" + b;
            b = this.GetWords(b);
            this.sm3keybase.BlockUpdate(a, 0, a.length);
            this.sm3c3.BlockUpdate(a, 0, a.length);
            this.sm3keybase.BlockUpdate(b, 0, b.length);
            this.ct = 1;
            this.NextKey()
        },
        NextKey: function () {
            var a = new SM3Digest(this.sm3keybase);
            a.Update(this.ct >> 24 & 255);
            a.Update(this.ct >> 16 & 255);
            a.Update(this.ct >> 8 & 255);
            a.Update(this.ct & 255);
            a.DoFinal(this.key, 0);
            this.keyOff = 0;
            this.ct++
        },
        KDF: function (a) {
            var b = Array(a),
                c = new SM3Digest,
                d = Array(32),
                e = 1,
                f = a / 32;
            a %= 32;
            for (var g = this.p2.getX().toBigInteger().toRadix(16); 64 > g.length;)
                g = "0" + g;
            for (var g = this.GetWords(g), h = this.p2.getY().toBigInteger().toRadix(16); 64 > h.length;)
                h = "0" + h;
            for (var h = this.GetWords(h), k = 0, l = 0; l < f; l++)
                c.BlockUpdate(g, 0, g.length),
                c.BlockUpdate(h, 0, h.length),
                c.Update(e >> 24 & 255),
                c.Update(e >> 16 & 255),
                c.Update(e >> 8 & 255),
                c.Update(e & 255),
                c.DoFinal(b, k),
                k += 32,
                e++;
            0 != a && (c.BlockUpdate(g, 0, g.length),
                c.BlockUpdate(h, 0, h.length),
                c.Update(e >> 24 & 255),
                c.Update(e >> 16 & 255),
                c.Update(e >> 8 & 255),
                c.Update(e & 255),
                c.DoFinal(d, 0));
            Array.Copy(d, 0, b, k, a);
            for (l = 0; l < b.length; l++)
                b[l] &= 255;
            return b
        },
        InitEncipher: function (a) {
            var b = null,
                c = null,
                c = new KJUR.crypto.ECDSA({
                    curve: "sm2"
                }),
                d = c.generateKeyPairHex(),
                b = new BigInteger(d.ecprvhex, 16),
                c = ECPointFp.decodeFromHex(c.ecparams.curve, d.ecpubhex);
            this.p2 = a.multiply(b);
            this.Reset();
            return c
        },
        EncryptBlock: function (a) {
            this.sm3c3.BlockUpdate(a, 0, a.length);
            for (var b = this.KDF(a.length), c = 0; c < a.length; c++)
                a[c] ^= b[c]
        },
        InitDecipher: function (a, b) {
            this.p2 = b.multiply(a);
            this.p2.getX().toBigInteger().toRadix(16);
            this.p2.getY().toBigInteger().toRadix(16);
            this.Reset()
        },
        DecryptBlock: function (a) {
            for (var b = this.KDF(a.length), c = 0, d = "", c = 0; c < b.length; c++)
                d += b[c].toString(16);
            for (c = 0; c < a.length; c++)
                a[c] ^= b[c];
            this.sm3c3.BlockUpdate(a, 0, a.length)
        },
        Dofinal: function (a) {
            for (var b = this.p2.getY().toBigInteger().toRadix(16); 64 > b.length;)
                b = "0" + b;
            b = this.GetWords(b);
            this.sm3c3.BlockUpdate(b, 0, b.length);
            this.sm3c3.DoFinal(a, 0);
            this.Reset()
        },
        Encrypt: function (a, b) {
            var c = Array(b.length);
            Array.Copy(b, 0, c, 0, b.length);
            var d = this.InitEncipher(a);
            this.EncryptBlock(c);
            var e = Array(32);
            this.Dofinal(e);
            for (var f = d.getX().toBigInteger().toRadix(16), d = d.getY().toBigInteger().toRadix(16); 64 > f.length;)
                f = "0" + f;
            for (; 64 > d.length;)
                d = "0" + d;
            f += d;
            c = this.GetHex(c).toString();
            0 != c.length % 2 && (c = "0" + c);
            e = this.GetHex(e).toString();
            d = f + c + e;
            this.cipherMode == SM2CipherMode.C1C3C2 && (d = f + e + c);
            return d
        },
        GetWords: function (a) {
            for (var b = [], c = a.length, d = 0; d < c; d += 2)
                b[b.length] = parseInt(a.substr(d, 2), 16);
            return b
        },
        GetHex: function (a) {
            for (var b = [], c = 0, d = 0; d < 2 * a.length; d += 2)
                b[d >>> 3] |= parseInt(a[c]) << 24 - d % 8 * 4,
                c++;
            return new CryptoJS.lib.WordArray.init(b, a.length)
        },
        Decrypt: function (a, b) {
            var c = b.substr(0, 64),
                d = b.substr(0 + c.length, 64),
                e = b.substr(c.length + d.length, b.length - c.length - d.length - 64),
                f = b.substr(b.length - 64);
            this.cipherMode == SM2CipherMode.C1C3C2 && (f = b.substr(c.length + d.length, 64),
                e = b.substr(c.length + d.length + 64));
            e = this.GetWords(e);
            c = this.CreatePoint(c, d);
            this.InitDecipher(a, c);
            this.DecryptBlock(e);
            c = Array(32);
            this.Dofinal(c);
            return this.GetHex(c).toString() == f ? (f = this.GetHex(e),
                CryptoJS.enc.Utf8.stringify(f)) : ""
        },
        CreatePoint: function (a, b) {
            var c = new KJUR.crypto.ECDSA({
                curve: "sm2"
            });
            return ECPointFp.decodeFromHex(c.ecparams.curve, "04" + a + b)
        }
    };
 
    /*-------------下面修改----------*/
 
    var SM2Key = function (key) {
        this.setKey(key);
    };
 
    function SM2SetKey(key) {
        if (key && typeof key === &#39;object&#39;) {
            this.eccX = key.eccX;
            this.eccY = key.eccY;
        } else {
            this.eccX = "F1342ADB38855E1F8C37D1181378DE446E52788389F7DB3DEA022A1FC4D4D856";
            this.eccY = "66FC6DE253C822F1E52914D9E0B80C5D825759CE696CF039A8449F98017510B7";
        }
    }
 
    /* 
     *加密数据 
     */
    function SM2Encrypt(text) {
        var cipherMode = SM2CipherMode.C1C3C2,
            cipher = new SM2Cipher(cipherMode),
            textData = CryptoJS.enc.Utf8.parse(text);
        var cipher = new SM2Cipher(cipherMode);
        var userKey = cipher.CreatePoint(this.eccX, this.eccY);
        var msgData = cipher.GetWords(textData.toString());
 
        return cipher.Encrypt(userKey, msgData);
    }
 
    SM2Key.prototype.setKey = SM2SetKey;
    SM2Key.prototype.encrypt = SM2Encrypt;
 
    //export default SM2Key;  
    global.SM2 = {
        SM2CipherMode: SM2CipherMode,
        SM2Cipher: SM2Cipher,
        CryptoJS: CryptoJS,
		tool:getBigInteger
    }
	function getBigInteger(a){
		return new BigInteger(a,16)
	}
}(window));
 
window.SM2Utils = {};
 
function sm2Encrypt(data, publickey, cipherMode) {
    cipherMode = cipherMode == 0 ? cipherMode : 1;
    // msg = SM2.utf8tob64(msg);
    var msgData = CryptoJS.enc.Utf8.parse(data);
 
    msgData = CryptoJS.enc.Base64.stringify(msgData);
	//在转utf-8
    msgData = CryptoJS.enc.Utf8.parse(msgData);
 
    var pubkeyHex = publickey;
    if (pubkeyHex.length > 64 * 2) {
        pubkeyHex = pubkeyHex.substr(pubkeyHex.length - 64 * 2);
    }
    var xHex = pubkeyHex.substr(0, 64);
    var yHex = pubkeyHex.substr(64);
    var cipher = new SM2Cipher(cipherMode);
    var userKey = cipher.CreatePoint(xHex, yHex);
    msgData = cipher.GetWords(msgData.toString());
    var encryptData = cipher.Encrypt(userKey, msgData);
 
    return &#39;04&#39; + encryptData;
}
 
function sm2Decrypt1(data, privatekey, cipherMode) {
    cipherMode = cipherMode == 0 ? cipherMode : 1;
    // msg = SM2.utf8tob64(msg);
    data = data.substr(2);
	var pk = SM2.tool(privatekey)
    var cipher = new SM2Cipher(cipherMode);
	
    var decryptData = cipher.Decrypt(pk,data);
 
	decryptData = CryptoJS.enc.Base64.parse(decryptData)
	decryptData = CryptoJS.enc.Utf8.stringify(decryptData);
    return decryptData;
}
function sm2Decrypt(data, privatekey, cipherMode) {
    cipherMode = cipherMode == 0 ? cipherMode : 1;
    // msg = SM2.utf8tob64(msg);
    data = data.substr(2);
	var pk = SM2.tool(privatekey)
    var cipher = new SM2Cipher(cipherMode);
	
    var decryptData = cipher.Decrypt(pk,data);
 
	//decryptData = CryptoJS.enc.Base64.parse(decryptData)
	//decryptData = CryptoJS.enc.Utf8.stringify(decryptData);
    return decryptData;
}
/**
 * 根据公钥进行加密
 */
SM2Utils.encs = function (key, s, cipherMode) {
    if (s == null || s.length == 0) {
        return "";
    }
    return sm2Encrypt(s, key, cipherMode);
}
 
SM2Utils.decs = function (key, s, cipherMode) {
    if (s == null || s.length == 0) {
        return "";
    }
    return sm2Decrypt(s, key, cipherMode);
}

3:前端加密代码

<script src="${request.contextPath}/skins/js/crypto-js.js"></script>
<script src="${request.contextPath}/skins/js/sm2.js"></script>
<script type="text/javascript">
    login : function(){
        var username = $("#username").val()
        var pwd = $.md5($("#pwd").val());
        var publicKey = $("#publicKey").val();
        var pubUuid= $("#pubUuid").val();
        pwd = sm2Encrypt(pwd,publicKey ,0);
 
        //本处使用的私钥存储方式是redis,让后又因为redis是根据uuid进行存储的,所以需要将uuid再重新传给后台,让后台根据uuid获取私钥
        $.post(logUrl,{"username":username,"pwd":pwd,"pubUuid":pubUuid},function(o){
            if(o.code==1){
                Message.success("操作成功");
            }else{
                Message.error(o.msg);
            }
        });
    }
    
</script>

4:后端解密

//本处是将私钥存放再redis中,获取方式是根据后端传的uuid进行获取的
AsymmetricEncryption asymmetricEncryption = (AsymmetricEncryption)redisTemplate.opsForValue().get(LoginConstants.ASYMMETRIC_ENCRYPTION_KEY + pubUuid);
if(null != asymmetricEncryption && null != asymmetricEncryption.getPrivateKey()){
    byte[] cipherDataByte = Hex.decode(pwd);
    //刚才的私钥Hex,先还原私钥
    BigInteger privateKeyD = new BigInteger(asymmetricEncryption.getPrivateKey(), 16);
    X9ECParameters sm2ECParameters = GMNamedCurves.getByName("sm2p256v1");
    ECDomainParameters domainParameters = new ECDomainParameters(sm2ECParameters.getCurve(), sm2ECParameters.getG(), sm2ECParameters.getN());
    ECPrivateKeyParameters privateKeyParameters = new ECPrivateKeyParameters(privateKeyD, domainParameters);
    //用私钥解密
    SM2Engine sm2Engine = new SM2Engine();
    sm2Engine.init(false, privateKeyParameters);
    //processBlock得到Base64格式,记得解码
    byte[] arrayOfBytes = Base64.getDecoder().decode(sm2Engine.processBlock(cipherDataByte, 0, cipherDataByte.length));
    pwd = new String(arrayOfBytes);
}

二:后端使用springboot,前端使用vue

实体类代码:

import lombok.Data;
 
import java.io.Serializable;
 
@Data
public class AsymmetricEncryption implements Serializable {
 
 
    private String id;
 
    /**
     * 算法
     */
    private String algorithm;
 
    private byte[] privateKey;
 
    private String publicKey;
 
}

1:获取公钥私钥

public AsymmetricEncryption getAsymmetricEncryption(){
    SM2 sm2 = SmUtil.sm2();
    AsymmetricEncryption asymmetricEncryption = new AsymmetricEncryption();
    String uuid = IdUtils.fastUUID();
    asymmetricEncryption.setId(uuid);
    asymmetricEncryption.setAlgorithm("SM2");
    asymmetricEncryption.setPublicKey(HexUtil.encodeHexStr(((BCECPublicKey) sm2.getPublicKey()).getQ().getEncoded(false)));
    asymmetricEncryption.setPrivateKey(sm2.getPrivateKey().getEncoded());
    String key = "asymmetric_encryption_key:"+ uuid;
    redisService.setCacheObject(key, asymmetricEncryption, Constants.CAPTCHA_EXPIRATION, TimeUnit.MINUTES);
    return asymmetricEncryption;
}

2:前端进行加密       

①:前端引用的包 

"sm-crypto": "^0.3.11",
"jsencrypt": "3.0.0-rc.1",

②:前端加密方法:

// SM2 加密
export function sm2encrypt(txt, publicKey) {
  console.log("txt", txt);
  console.log("publicKey", publicKey);
  const sm2 = require(&#39;sm-crypto&#39;).sm2
  const cipherMode = 1 // 1 - C1C3C2,0 - C1C2C3,默认为1
  const encrypttxt = &#39;04&#39; + sm2.doEncrypt(txt, publicKey, cipherMode) // 加密结果
  return encrypttxt;
}

③前端发送请求

// 登录方法
export function login(username, password, code, uuid, publicKey, keyUuid) {
  const encryptpassword = sm2encrypt(password, publicKey) // 加密结果
  return request({
    url: &#39;/auth/login&#39;,
    headers: {
      isToken: false
    },
    method: &#39;post&#39;,
    data: { username, password: encryptpassword, code, uuid, keyUuid }
  })
}

3:后端进行解密

String key = "asymmetric_encryption_key:"+ keyUuid;
AsymmetricEncryption asymmetricEncryption = redisService.getCacheObject(key);
try {
    final SM2 sm2 = new SM2(asymmetricEncryption.getPrivateKey(), null);
    password = sm2.decryptStr(password, KeyType.PrivateKey);
} catch (Exception e) {
    log.error(e);
}

以上がspringbootでsm2暗号化通信を使用する方法の詳細内容です。詳細については、PHP 中国語 Web サイトの他の関連記事を参照してください。

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