zoukankan      html  css  js  c++  java

  • C#和JAVA的RSA密钥、公钥转换

    C#的秘钥跟JAVA的密钥区别

     
    RSA对于程序本身是没有区别的,其格式都是相同的。对于不同的程序来说,存储使用的语法(包装的类)会有所不同。
    RSA语法和语法标准有很多,大的类型大概分为ASN.1、PKCS、X.509。

    RSA语法介绍

    ASN.1、PKCS是最初的,也是最主要的RSA公钥和私钥的语法标准,被RSA Lab所维护。
    ASN.1、PKCS#1都定义了公钥和私钥的类型——序列化的数字。为了下一个层次的抽象(适当的包装),现在一般使用的组合是:PKCS#8的私钥,X.509的公钥 。
    PKCS语法主要用于私钥,其内部标准目前有10种。目前JAVA普遍使用的是PKCS#8,用作私钥格式。
    X.509语法主要用于公钥,广泛使用于web浏览器和SLL。 
    3种语法标准的公私钥可以实现相互转化,其核心为ASN1语法中的整数值(modulus,PublicExponent,privateExponent ),其余的数值都可以经过计算后得出。
     
    .NET使用的是标准的RSA格式,然后将其中的数字base64编码后,生成XML进行存储。
    java中使用的是PKCS#8,、X.509的公私钥语法,存储的都是相应的JAVA类自动生成的base64字符串。
    由于存储格式的区别,在相互转换、读取的时候,需要理解RSA相关的知识,才能正确使用类来转换。
     

    密钥格式

     
    java密钥:
    [java] view plain copy
     
    1. 私钥:  
    2. MIICdwIBADANBgkqhkiG9w0BAQEFAASCAmEwggJdAgEAAoGBAKSZSSEdPhv77O5ocnLNGXeQ21qJDArC1+yId+9/pY5bXkZk5vCB49EpfMwNukLv6AJqofThZPNOs1t015fdEYIUnkIc2QVxRwa0xTeFP  
    3. 6N8D4WQXRWs4fNG27JK5kP45s+9KlJtx5hs7G97aMczehIWpHaO6j9inOmjlU8l62KZAgMBAAECgYEAmK3TRtMwRJb33OGnn9OeFumYfy92qxi3X6Hq1o6qDBW2qkd4bImfv+ni6AinyOVuaadt2Y+lq4  
    4. dKGcCVJzoZvPm1VKxD2y7xKa8/vEbPRiRTt0qnPq9T7UJkpDsiXf/zOMfWdjc3uA1bPnQ65RWHSJ7zAE+Gd7xnyCE5MEyijLECQQDVYqQWDqOVLZ5lJUuIfUIrhv26GvuoTX8v60+opCz4/Mdfh6JlefI  
    5. CVD6SAaYvufXBHVFY26JicNlR62ZOiBoNAkEAxXhsuEnNJNQcQHEVTPZoulbMbTV1VZIDQ1zjG8fvu8sv6IBYcR5+EsC8n3/6RkW8/iCJDzxE++VHzhoSQSoDvQJBAM6/63J/rpndAIrJ7vyJOPLJsc9/U  
    6. 3SH2gMJAT7KC9UXvuldlsixtf3xuEpplKbLjEUXbfklnZm586a+6XqPvoUCQDFotltOLARBBmihYuEE7qNhQHk63QbyJ9rdDP5Qgo2Mg4o7QuXa6VSr4QZPsUGQBX/YiDLFs8ULU3IgV9zyNEkCQADAYR8  
    7. DctYzg0eBGdcOrDA5Szc62pYrS2wk89wUxyL4FyDL3omkVMKvtu5tccy7Xht2ikJZRqefZ3dS7ASm8/4=    
    8. 公钥:  
    9. MIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQCkmUkhHT4b++zuaHJyzRl3kNtaiQwKwtfsiHfvf6WOW15GZObwgePRKXzMDbpC7+gCaqH04WTzTrNbdNeX3RGCFJ5CHNkFcUcGtMU3hT+jfA+FkF0VrO  
    10. HzRtuySuZD+ObPvSpSbceYbOxve2jHM3oSFqR2juo/Ypzpo5VPJetimQIDAQAB   

    c#密钥:
    [csharp] view plain copy
     
    1. 私钥:  
    2. <RSAKeyValue>    
    3. <Modulus>pJlJIR0+G/vs7mhycs0Zd5DbWokMCsLX7Ih373+ljlteRmTm8IHj0Sl8zA26Qu/oAmqh9OFk806zW3TXl90RghSeQhzZBXFHBrTFN4U/o3wPhZBdFazh80bbskrmQ/jmz70qUm3HmGzsb3tox  
    4. zN6Ehakdo7qP2Kc6aOVTyXrYpk=</Modulus>    
    5.   <Exponent>AQAB</Exponent>    
    6.   <P>1WKkFg6jlS2eZSVLiH1CK4b9uhr7qE1/L+tPqKQs+PzHX4eiZXnyAlQ+kgGmL7n1wR1RWNuiYnDZUetmTogaDQ==</P>    
    7.   <Q>xXhsuEnNJNQcQHEVTPZoulbMbTV1VZIDQ1zjG8fvu8sv6IBYcR5+EsC8n3/6RkW8/iCJDzxE++VHzhoSQSoDvQ==</Q>    
    8.   <DP>zr/rcn+umd0Aisnu/Ik48smxz39TdIfaAwkBPsoL1Re+6V2WyLG1/fG4SmmUpsuMRRdt+SWdmbnzpr7peo++hQ==</DP>    
    9.   <DQ>MWi2W04sBEEGaKFi4QTuo2FAeTrdBvIn2t0M/lCCjYyDijtC5drpVKvhBk+xQZAFf9iIMsWzxQtTciBX3PI0SQ==</DQ>    
    10.   <InverseQ>wGEfA3LWM4NHgRnXDqwwOUs3OtqWK0tsJPPcFMci+Bcgy96JpFTCr7bubXHMu14bdopCWUann2d3UuwEpvP+</InverseQ>    
    11.   <D>mK3TRtMwRJb33OGnn9OeFumYfy92qxi3X6Hq1o6qDBW2qkd4bImfv+ni6AinyOVuaadt2Y+lq4dKGcCVJzoZvPm1VKxD2y7xKa8/vEbPRiRTt0qnPq9T7UJkpDsiXf/zOMfWdjc3uA1bPnQ65RWHS  
    12. J7zAE+Gd7xnyCE5MEyijLE=</D>    
    13. </RSAKeyValue>    
    14.   
    15. 公钥:  
    16. <RSAKeyValue>    
    17. <Modulus>pJlJIR0+G/vs7mhycs0Zd5DbWokMCsLX7Ih373+ljlteRmTm8IHj0Sl8zA26Qu/oAmqh9OFk806zW3TXl90RghSeQhzZBXFHBrTFN4U/o3wPhZBdFazh80bbskrmQ/jmz70qUm3HmGzsb3tox  
    18. zN6Ehakdo7qP2Kc6aOVTyXrYpk=</Modulus>    
    19.   <Exponent>AQAB</Exponent>    
    20. </RSAKeyValue>    


    C#转JAVA(C#代码)

    C#中的公私钥使用XML字符串进行存储,读取时直接读入字符串即可。
    由于C#使用的是标准的RSA格式,因此JAVA的RSAPublicKeySpec、RSAPrivateKeySpec配置类的核心参数(modulus,PublicExponent,privateExponent )都可以从对应XML中的节点值(Modulus-modulus 、Exponent-PublicExponent 、D-privateExponent )base64解码后获取。然后将其传入JAVA配置类中,然后根据配置类生成相应的RSA公私钥。

    手动转换

    [csharp] view plain copy
     
    1. void Convert()  
    2. {  
    3.        //公钥  
    4.         byte[] m = Base64.decodeBase64("mX/9zl8rflH5pLaP5P1Qd/9wXwNBSx7OpLlYDnGr7wD0njiDfPSUkgf9oF5NcvZwl24qdJ1SLmrgUtnr+yeXBNZNKaan1xXKISHdlHvbW5G8nJCJW6CuaHMkVw3Y7kwaIIlUdv09vxfjj0AoabttjbtF1kqETzbQ6fK3EN6sY5U=");  
    5.         byte[] e = Base64.decodeBase64("AQAB");  
    6.         BigInteger b1 = new BigInteger(1, m);  
    7.         BigInteger b2 = new BigInteger(1, e);  
    8.         //私钥  
    9.         byte[] m1 = Base64.decodeBase64("3RgqP5YOYUXft8YOlDphyaCoof27MSfTD2eVCFVXB5hatrls1fSUcmUuWuGV970sS6KQZZtyWHQ5970sCzKFlq82He8Uoe0JM3axBvd6PbSGjulUJr62qNW5hgkIEfxSRYl8AQsbbusFtks4obfepsfE02cLmmZepnZAdIOWifE=");  
    10.         byte[] e1 = Base64.decodeBase64("QcSZdLbHakolxX4GAjPnuNmwsBdRIsss7o0qeQMh02GPwoEgDfkmW20bv+8Q9FPypEEkYQU/m25ffAFq453QvLegYYi8OvWN+dvgchQRdeb22d+s6xYGGN9DRcPFRE48INde8FBHf/lzVgToV75h1H7g+jB4hLmLeuIuHsB43/0=");  
    11.         BigInteger b11 = new BigInteger(1, m1);  
    12.         BigInteger b21 = new BigInteger(1, e1);  
    13.         //公钥  
    14.         KeyFactory keyFactory = KeyFactory.getInstance("RSA");  
    15.         RSAPublicKeySpec keySpec = new RSAPublicKeySpec(b1, b2);  
    16.         RSAPublicKey pubKey = (RSAPublicKey) keyFactory.generatePublic(keySpec);  
    17.         //私钥  
    18.         RSAPrivateKeySpec priKeySpec = new RSAPrivateKeySpec(b11, b21);  
    19.         RSAPrivateKey priKey = (RSAPrivateKey) keyFactory.generatePrivate(priKeySpec);  
    20. }  


    BouncyCastle Crypto转换

    格式转换要用到一个开源加密库Bouncy Castle Crypto APIs,

    官网地址:http://www.bouncycastle.org/csharp/
    具体实现代码如下:

    [csharp] view plain copy
     
    1. using System;    
    2. using System.Xml;    
    3. using Org.BouncyCastle.Asn1.Pkcs;    
    4. using Org.BouncyCastle.Asn1.X509;    
    5. using Org.BouncyCastle.Crypto.Parameters;    
    6. using Org.BouncyCastle.Math;    
    7. using Org.BouncyCastle.Pkcs;    
    8. using Org.BouncyCastle.Security;    
    9. using Org.BouncyCastle.X509;    
    10.     
    11. /// <summary>    
    12. /// RSA密钥格式转换    
    13. /// </summary>    
    14. public class RSAKeyConvert    
    15. {    
    16.     /// <summary>    
    17.     /// RSA私钥格式转换,java->.net    
    18.     /// </summary>    
    19.     /// <param name="privateKey">java生成的RSA私钥</param>    
    20.     /// <returns></returns>    
    21.     public static string RSAPrivateKeyJava2DotNet(string privateKey)    
    22.     {    
    23.         RsaPrivateCrtKeyParameters privateKeyParam = (RsaPrivateCrtKeyParameters)PrivateKeyFactory.CreateKey(Convert.FromBase64String(privateKey));    
    24.     
    25.         return string.Format("<RSAKeyValue><Modulus>{0}</Modulus><Exponent>{1}</Exponent><P>{2}</P><Q>{3}</Q><DP>{4}</DP><DQ>{5}</DQ><InverseQ>{6}</InverseQ><D>{7}</D></RSAKeyValue>",    
    26.             Convert.ToBase64String(privateKeyParam.Modulus.ToByteArrayUnsigned()),    
    27.             Convert.ToBase64String(privateKeyParam.PublicExponent.ToByteArrayUnsigned()),    
    28.             Convert.ToBase64String(privateKeyParam.P.ToByteArrayUnsigned()),    
    29.             Convert.ToBase64String(privateKeyParam.Q.ToByteArrayUnsigned()),    
    30.             Convert.ToBase64String(privateKeyParam.DP.ToByteArrayUnsigned()),    
    31.             Convert.ToBase64String(privateKeyParam.DQ.ToByteArrayUnsigned()),    
    32.             Convert.ToBase64String(privateKeyParam.QInv.ToByteArrayUnsigned()),    
    33.             Convert.ToBase64String(privateKeyParam.Exponent.ToByteArrayUnsigned()));    
    34.     }    
    35.     
    36.     /// <summary>    
    37.     /// RSA私钥格式转换,.net->java    
    38.     /// </summary>    
    39.     /// <param name="privateKey">.net生成的私钥</param>    
    40.     /// <returns></returns>    
    41.     public static string RSAPrivateKeyDotNet2Java(string privateKey)    
    42.     {    
    43.         XmlDocument doc = new XmlDocument();    
    44.         doc.LoadXml(privateKey);    
    45.         BigInteger m = new BigInteger(1, Convert.FromBase64String(doc.DocumentElement.GetElementsByTagName("Modulus")[0].InnerText));    
    46.         BigInteger exp = new BigInteger(1, Convert.FromBase64String(doc.DocumentElement.GetElementsByTagName("Exponent")[0].InnerText));    
    47.         BigInteger d = new BigInteger(1, Convert.FromBase64String(doc.DocumentElement.GetElementsByTagName("D")[0].InnerText));    
    48.         BigInteger p = new BigInteger(1, Convert.FromBase64String(doc.DocumentElement.GetElementsByTagName("P")[0].InnerText));    
    49.         BigInteger q = new BigInteger(1, Convert.FromBase64String(doc.DocumentElement.GetElementsByTagName("Q")[0].InnerText));    
    50.         BigInteger dp = new BigInteger(1, Convert.FromBase64String(doc.DocumentElement.GetElementsByTagName("DP")[0].InnerText));    
    51.         BigInteger dq = new BigInteger(1, Convert.FromBase64String(doc.DocumentElement.GetElementsByTagName("DQ")[0].InnerText));    
    52.         BigInteger qinv = new BigInteger(1, Convert.FromBase64String(doc.DocumentElement.GetElementsByTagName("InverseQ")[0].InnerText));    
    53.     
    54.         RsaPrivateCrtKeyParameters privateKeyParam = new RsaPrivateCrtKeyParameters(m, exp, d, p, q, dp, dq, qinv);    
    55.     
    56.         PrivateKeyInfo privateKeyInfo = PrivateKeyInfoFactory.CreatePrivateKeyInfo(privateKeyParam);    
    57.         byte[] serializedPrivateBytes = privateKeyInfo.ToAsn1Object().GetEncoded();    
    58.         return Convert.ToBase64String(serializedPrivateBytes);    
    59.     }    
    60.     
    61.     /// <summary>    
    62.     /// RSA公钥格式转换,java->.net    
    63.     /// </summary>    
    64.     /// <param name="publicKey">java生成的公钥</param>    
    65.     /// <returns></returns>    
    66.     public static string RSAPublicKeyJava2DotNet(string publicKey)    
    67.     {    
    68.         RsaKeyParameters publicKeyParam = (RsaKeyParameters)PublicKeyFactory.CreateKey(Convert.FromBase64String(publicKey));    
    69.         return string.Format("<RSAKeyValue><Modulus>{0}</Modulus><Exponent>{1}</Exponent></RSAKeyValue>",    
    70.             Convert.ToBase64String(publicKeyParam.Modulus.ToByteArrayUnsigned()),    
    71.             Convert.ToBase64String(publicKeyParam.Exponent.ToByteArrayUnsigned()));    
    72.     }    
    73.     
    74.     /// <summary>    
    75.     /// RSA公钥格式转换,.net->java    
    76.     /// </summary>    
    77.     /// <param name="publicKey">.net生成的公钥</param>    
    78.     /// <returns></returns>    
    79.     public static string RSAPublicKeyDotNet2Java(string publicKey)    
    80.     {    
    81.         XmlDocument doc = new XmlDocument();    
    82.         doc.LoadXml(publicKey);    
    83.         BigInteger m = new BigInteger(1, Convert.FromBase64String(doc.DocumentElement.GetElementsByTagName("Modulus")[0].InnerText));    
    84.         BigInteger p = new BigInteger(1, Convert.FromBase64String(doc.DocumentElement.GetElementsByTagName("Exponent")[0].InnerText));    
    85.         RsaKeyParameters pub = new RsaKeyParameters(false, m, p);    
    86.     
    87.         SubjectPublicKeyInfo publicKeyInfo = SubjectPublicKeyInfoFactory.CreateSubjectPublicKeyInfo(pub);    
    88.         byte[] serializedPublicBytes = publicKeyInfo.ToAsn1Object().GetDerEncoded();    
    89.         return Convert.ToBase64String(serializedPublicBytes);    
    90.     }    
    91. }    

    JAVA转C#(java代码)

    JAVA中的公私钥使用base64进行存储,解码成字节数组后,首先需要生成相应的配置对象(PKCS#8,、X.509 ),根据配置对象生成RSA公私钥。

    私钥
    C#使用的是标准的RSA格式,PKCS#1语法中包含了标准RSA格式私钥中的所有整数值。配置对象需要生成PKCS#1语法的RSA对象(RSAPrivateCrtKey),获取对象属性,自行构造私钥XML。
    就算不会JAVA的新手都可以转换的,只需要把以下的代码添加进eclipse中就可以了,具体的怎么建java工程就自己去查一下。
    把一对密钥转成C#中格式的密钥在JAVA中的转换代码如下:

    [java] view plain copy
     
    1. package com;    
    2.     
    3. import java.security.KeyFactory;    
    4. import java.security.PublicKey;    
    5. import java.security.interfaces.RSAPrivateCrtKey;    
    6. import java.security.interfaces.RSAPublicKey;    
    7. import java.security.spec.PKCS8EncodedKeySpec;    
    8. import java.security.spec.X509EncodedKeySpec;    
    9. import com.sun.org.apache.xerces.internal.impl.dv.util.Base64;    
    10.      
    11. public class test {    
    12.     
    13.     public static void main(String[] args) {    
    14.             
    15.         String tes = "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";    
    16.         byte[] temp = b64decode(tes);    
    17.         String ver = getRSAPrivateKeyAsNetFormat(temp);// 转换私钥    
    18.             
    19.         String tes1 = "MIGfMA0GCSqGSIb4DQEBAQUAA4GNADCBiQKBgQC/M9kJVwi+sO672NBm5fAEbUEl2PqRFuYZVB5ZrKah7eJPP0pKBe/eoA6pOMsjnKFoZGVizz7oCt+TJ+1fpuScn7vAtIFSjn1jgPANE+IcVdk4QKDFKu0LQdiurPQKLpq8Q3wJDAW7FxB2MHw/4ca/9w0N5VL0hQegZ4YhxDss6QIDAQAB";    
    20.         byte[] temp1 = b64decode(tes1);    
    21.         String ver1 = getRSAPublicKeyAsNetFormat(temp1);// 转换公钥    
    22.         System.out.println(ver);    
    23.         System.out.println(ver1);    
    24.     }    
    25.     
    26.     private static String getRSAPrivateKeyAsNetFormat(byte[] encodedPrivkey) {    
    27.         try {    
    28.             StringBuffer buff = new StringBuffer(1024);    
    29.     
    30.             PKCS8EncodedKeySpec pvkKeySpec = new PKCS8EncodedKeySpec(    
    31.                     encodedPrivkey);    
    32.             KeyFactory keyFactory = KeyFactory.getInstance("RSA");    
    33.             RSAPrivateCrtKey pvkKey = (RSAPrivateCrtKey) keyFactory    
    34.                     .generatePrivate(pvkKeySpec);    
    35.     
    36.             buff.append("<RSAKeyValue>");    
    37.             buff.append("<Modulus>"    
    38.                             + b64encode(removeMSZero(pvkKey.getModulus()    
    39.                                     .toByteArray())) + "</Modulus>");    
    40.     
    41.             buff.append("<Exponent>"    
    42.                     + b64encode(removeMSZero(pvkKey.getPublicExponent()    
    43.                             .toByteArray())) + "</Exponent>");    
    44.     
    45.             buff.append("<P>"    
    46.                     + b64encode(removeMSZero(pvkKey.getPrimeP().toByteArray()))    
    47.                     + "</P>");    
    48.     
    49.             buff.append("<Q>"    
    50.                     + b64encode(removeMSZero(pvkKey.getPrimeQ().toByteArray()))    
    51.                     + "</Q>");    
    52.     
    53.             buff.append("<DP>"    
    54.                     + b64encode(removeMSZero(pvkKey.getPrimeExponentP()    
    55.                             .toByteArray())) + "</DP>");    
    56.     
    57.             buff.append("<DQ>"    
    58.                     + b64encode(removeMSZero(pvkKey.getPrimeExponentQ()    
    59.                             .toByteArray())) + "</DQ>");    
    60.     
    61.             buff.append("<InverseQ>"    
    62.                     + b64encode(removeMSZero(pvkKey.getCrtCoefficient()    
    63.                             .toByteArray())) + "</InverseQ>");    
    64.     
    65.             buff.append("<D>"    
    66.                     + b64encode(removeMSZero(pvkKey.getPrivateExponent()    
    67.                             .toByteArray())) + "</D>");    
    68.             buff.append("</RSAKeyValue>");    
    69.     
    70.             return buff.toString().replaceAll("[  ]", "");    
    71.         } catch (Exception e) {    
    72.             System.err.println(e);    
    73.             return null;    
    74.         }    
    75.     }    
    76.     
    77.     private static String getRSAPublicKeyAsNetFormat(byte[] encodedPrivkey) {    
    78.         try {    
    79.             StringBuffer buff = new StringBuffer(1024);    
    80.     
    81.             PKCS8EncodedKeySpec pvkKeySpec = new PKCS8EncodedKeySpec(    
    82.                     encodedPrivkey);    
    83.             KeyFactory keyFactory = KeyFactory.getInstance("RSA");    
    84.             RSAPublicKey pukKey = (RSAPublicKey) keyFactory    
    85.                     .generatePublic(new X509EncodedKeySpec(encodedPrivkey));    
    86.                  
    87.             buff.append("<RSAKeyValue>");    
    88.             buff.append("<Modulus>"    
    89.                             + b64encode(removeMSZero(pukKey.getModulus()    
    90.                                     .toByteArray())) + "</Modulus>");    
    91.             buff.append("<Exponent>"    
    92.                     + b64encode(removeMSZero(pukKey.getPublicExponent()    
    93.                             .toByteArray())) + "</Exponent>");    
    94.             buff.append("</RSAKeyValue>");    
    95.             return buff.toString().replaceAll("[  ]", "");    
    96.         } catch (Exception e) {    
    97.             System.err.println(e);    
    98.             return null;    
    99.         }    
    100.     }    
    101.     
    102.     public static String encodePublicKeyToXml(PublicKey key) {    
    103.         if (!RSAPublicKey.class.isInstance(key)) {    
    104.             return null;    
    105.         }    
    106.         RSAPublicKey pubKey = (RSAPublicKey) key;    
    107.         StringBuilder sb = new StringBuilder();    
    108.     
    109.         sb.append("<RSAKeyValue>");    
    110.         sb.append("<Modulus>").append(    
    111.                 Base64.encode(pubKey.getModulus().toByteArray())).append(    
    112.                 "</Modulus>");    
    113.         sb.append("<Exponent>").append(    
    114.                 Base64.encode(pubKey.getPublicExponent().toByteArray()))    
    115.                 .append("</Exponent>");    
    116.         sb.append("</RSAKeyValue>");    
    117.         return sb.toString();    
    118.     }    
    119.     
    120.     private static byte[] removeMSZero(byte[] data) {    
    121.         byte[] data1;    
    122.         int len = data.length;    
    123.         if (data[0] == 0) {    
    124.             data1 = new byte[data.length - 1];    
    125.             System.arraycopy(data, 1, data1, 0, len - 1);    
    126.         } else    
    127.             data1 = data;    
    128.     
    129.         return data1;    
    130.     }    
    131.     
    132.     private static String b64encode(byte[] data) {    
    133.         String b64str = new String(Base64.encode(data));    
    134.         return b64str;    
    135.     }    
    136.     
    137.     private static byte[] b64decode(String data) {    
    138.         byte[] decodeData = Base64.decode(data);    
    139.         return decodeData;    
    140.     }    
    141. }    
  • 相关阅读:
    LeetCode(122. 买卖股票的最佳时机 II)
    LeetCode(485. 最大连续1的个数)

    约瑟夫问题
    链表
    队列
    稀疏数组
    乐优商城项目学习
    LeetCode_Climbing Stairs
    数据结构&&算法基础知识
  • 原文地址:https://www.cnblogs.com/Alex80/p/9205020.html
Copyright © 2011-2022 走看看