在开发Java Web应用的时候,可能会在服务器端用Java做Base64编码,而在客户端用JavaScript进行解码。这样就要求两边的Base64编码机制保持一致。
使用Base64编码,可能会碰到各种奇怪情况,甚至怀疑编码有bug。但实际上不是这样的。Base64理论上操作的对象不是字符串而是字节数组。它的原理就是把ASCII码的255个字符缩小到用64个来表示。具体就是原来三个字节用四个字节表示,编码后长度有一定的增长。
1) 最好一次编码,避免分段编码,确实要分段编码,每一段字节数应该是3的倍数。
长字节流,如果要边读取边编码,每一段必须是3的倍数,否则就可能在还原的时候出乱。一般人喜欢用2的乘方来定义数组,例如 byte[1024],因为不是3的倍数,可能还原时出错。正确的例子是:
byte[] bs=new byte[3*100] ....inputStream.read(bs)......encode(bs )....
对于字符串,一般要整个一次编码,以避免分段编码出错。
当然,如果你分段编码,还原的时候也是一段一段地还原,那是没有问题的。
2)确保字符串还原的时候按照原来的编码还原。
因为它操作的是字节数组,所以对于GBK编码的汉字和UTF-8编码汉字,经过 Base64编码后结果是不一样的。例如“我们”这两个字如果是GBK编码,转成Base64后就是ztLDxw== ;如果是UTF-8编码,转成Base64后就是5oiR5Lus。
也就是 “我们” ==》 getBytes("GBK") ==> Base64
所以Java这边用什么编码转换,在JavaScript那边就要用什么编码还原。要保证Java和JavaScript通用,我们采用Unicode的编码(JavaScript转成UTF-8、GBK不方便,所以就采用了其本身的Unicode编码),具体如下:
服务器端:
1)用getBytes("Unicode")转成Unicode字节数组。
2) 编码成Base64字符串
3)传送到客户端
客户端:
1)Base64 解码成字节数组
2)按Unicode还原
代码如下(相关的函数看附件):
Base64.encode(data,"Unicode"); //java 端编码
decode64(data); //javascript解码
附一:Java中Base64编码
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package websharp.util; public class Base64 { private static final byte [] encodingTable = { ( byte ) 'A' , ( byte ) 'B' , ( byte ) 'C' , ( byte ) 'D' , ( byte ) 'E' , ( byte ) 'F' , ( byte ) 'G' , ( byte ) 'H' , ( byte ) 'I' , ( byte ) 'J' , ( byte ) 'K' , ( byte ) 'L' , ( byte ) 'M' , ( byte ) 'N' , ( byte ) 'O' , ( byte ) 'P' , ( byte ) 'Q' , ( byte ) 'R' , ( byte ) 'S' , ( byte ) 'T' , ( byte ) 'U' , ( byte ) 'V' , ( byte ) 'W' , ( byte ) 'X' , ( byte ) 'Y' , ( byte ) 'Z' , ( byte ) 'a' , ( byte ) 'b' , ( byte ) 'c' , ( byte ) 'd' , ( byte ) 'e' , ( byte ) 'f' , ( byte ) 'g' , ( byte ) 'h' , ( byte ) 'i' , ( byte ) 'j' , ( byte ) 'k' , ( byte ) 'l' , ( byte ) 'm' , ( byte ) 'n' , ( byte ) 'o' , ( byte ) 'p' , ( byte ) 'q' , ( byte ) 'r' , ( byte ) 's' , ( byte ) 't' , ( byte ) 'u' , ( byte ) 'v' , ( byte ) 'w' , ( byte ) 'x' , ( byte ) 'y' , ( byte ) 'z' , ( byte ) '0' , ( byte ) '1' , ( byte ) '2' , ( byte ) '3' , ( byte ) '4' , ( byte ) '5' , ( byte ) '6' , ( byte ) '7' , ( byte ) '8' , ( byte ) '9' , ( byte ) '+' , ( byte ) '/' }; private static final byte [] decodingTable; static { decodingTable = new byte [ 128 ]; for ( int i = 0 ; i < 128 ; i++) { decodingTable[i] = ( byte ) - 1 ; } for ( int i = 'A' ; i <= 'Z' ; i++) { decodingTable[i] = ( byte ) (i - 'A' ); } for ( int i = 'a' ; i <= 'z' ; i++) { decodingTable[i] = ( byte ) (i - 'a' + 26 ); } for ( int i = '0' ; i <= '9' ; i++) { decodingTable[i] = ( byte ) (i - '0' + 52 ); } decodingTable[ '+' ] = 62 ; decodingTable[ '/' ] = 63 ; } public static byte [] encode( byte [] data, int offset) { byte [] bytes; int realCount=data.length-offset; int modulus = realCount % 3 ; if (modulus == 0 ) { bytes = new byte [( 4 * realCount) / 3 ]; } else { bytes = new byte [ 4 * ((realCount / 3 ) + 1 )]; } int dataLength = (data.length - modulus); int a1; int a2; int a3; for ( int i = offset, j = 0 ; i < dataLength; i += 3 , j += 4 ) { a1 = data[i] & 0xff ; a2 = data[i + 1 ] & 0xff ; a3 = data[i + 2 ] & 0xff ; bytes[j] = encodingTable[(a1 >>> 2 ) & 0x3f ]; bytes[j + 1 ] = encodingTable[((a1 << 4 ) | (a2 >>> 4 )) & 0x3f ]; bytes[j + 2 ] = encodingTable[((a2 << 2 ) | (a3 >>> 6 )) & 0x3f ]; bytes[j + 3 ] = encodingTable[a3 & 0x3f ]; } int b1; int b2; int b3; int d1; int d2; switch (modulus) { case 0 : /* nothing left to do */ break ; case 1 : d1 = data[data.length - 1 ] & 0xff ; b1 = (d1 >>> 2 ) & 0x3f ; b2 = (d1 << 4 ) & 0x3f ; bytes[bytes.length - 4 ] = encodingTable[b1]; bytes[bytes.length - 3 ] = encodingTable[b2]; bytes[bytes.length - 2 ] = ( byte ) '=' ; bytes[bytes.length - 1 ] = ( byte ) '=' ; break ; case 2 : d1 = data[data.length - 2 ] & 0xff ; d2 = data[data.length - 1 ] & 0xff ; b1 = (d1 >>> 2 ) & 0x3f ; b2 = ((d1 << 4 ) | (d2 >>> 4 )) & 0x3f ; b3 = (d2 << 2 ) & 0x3f ; bytes[bytes.length - 4 ] = encodingTable[b1]; bytes[bytes.length - 3 ] = encodingTable[b2]; bytes[bytes.length - 2 ] = encodingTable[b3]; bytes[bytes.length - 1 ] = ( byte ) '=' ; break ; } return bytes; } public static byte [] decode( byte [] data) { byte [] bytes; byte b1; byte b2; byte b3; byte b4; data = discardNonBase64Bytes(data); if (data[data.length - 2 ] == '=' ) { bytes = new byte [(((data.length / 4 ) - 1 ) * 3 ) + 1 ]; } else if (data[data.length - 1 ] == '=' ) { bytes = new byte [(((data.length / 4 ) - 1 ) * 3 ) + 2 ]; } else { bytes = new byte [((data.length / 4 ) * 3 )]; } for ( int i = 0 , j = 0 ; i < (data.length - 4 ); i += 4 , j += 3 ) { b1 = decodingTable[data[i]]; b2 = decodingTable[data[i + 1 ]]; b3 = decodingTable[data[i + 2 ]]; b4 = decodingTable[data[i + 3 ]]; bytes[j] = ( byte ) ((b1 << 2 ) | (b2 >> 4 )); bytes[j + 1 ] = ( byte ) ((b2 << 4 ) | (b3 >> 2 )); bytes[j + 2 ] = ( byte ) ((b3 << 6 ) | b4); } if (data[data.length - 2 ] == '=' ) { b1 = decodingTable[data[data.length - 4 ]]; b2 = decodingTable[data[data.length - 3 ]]; bytes[bytes.length - 1 ] = ( byte ) ((b1 << 2 ) | (b2 >> 4 )); } else if (data[data.length - 1 ] == '=' ) { b1 = decodingTable[data[data.length - 4 ]]; b2 = decodingTable[data[data.length - 3 ]]; b3 = decodingTable[data[data.length - 2 ]]; bytes[bytes.length - 2 ] = ( byte ) ((b1 << 2 ) | (b2 >> 4 )); bytes[bytes.length - 1 ] = ( byte ) ((b2 << 4 ) | (b3 >> 2 )); } else { b1 = decodingTable[data[data.length - 4 ]]; b2 = decodingTable[data[data.length - 3 ]]; b3 = decodingTable[data[data.length - 2 ]]; b4 = decodingTable[data[data.length - 1 ]]; bytes[bytes.length - 3 ] = ( byte ) ((b1 << 2 ) | (b2 >> 4 )); bytes[bytes.length - 2 ] = ( byte ) ((b2 << 4 ) | (b3 >> 2 )); bytes[bytes.length - 1 ] = ( byte ) ((b3 << 6 ) | b4); } return bytes; } public static byte [] decode(String data) { byte [] bytes; byte b1; byte b2; byte b3; byte b4; data = discardNonBase64Chars(data); if (data.charAt(data.length() - 2 ) == '=' ) { bytes = new byte [(((data.length() / 4 ) - 1 ) * 3 ) + 1 ]; } else if (data.charAt(data.length() - 1 ) == '=' ) { bytes = new byte [(((data.length() / 4 ) - 1 ) * 3 ) + 2 ]; } else { bytes = new byte [((data.length() / 4 ) * 3 )]; } for ( int i = 0 , j = 0 ; i < (data.length() - 4 ); i += 4 , j += 3 ) { b1 = decodingTable[data.charAt(i)]; b2 = decodingTable[data.charAt(i + 1 )]; b3 = decodingTable[data.charAt(i + 2 )]; b4 = decodingTable[data.charAt(i + 3 )]; bytes[j] = ( byte ) ((b1 << 2 ) | (b2 >> 4 )); bytes[j + 1 ] = ( byte ) ((b2 << 4 ) | (b3 >> 2 )); bytes[j + 2 ] = ( byte ) ((b3 << 6 ) | b4); } if (data.charAt(data.length() - 2 ) == '=' ) { b1 = decodingTable[data.charAt(data.length() - 4 )]; b2 = decodingTable[data.charAt(data.length() - 3 )]; bytes[bytes.length - 1 ] = ( byte ) ((b1 << 2 ) | (b2 >> 4 )); } else if (data.charAt(data.length() - 1 ) == '=' ) { b1 = decodingTable[data.charAt(data.length() - 4 )]; b2 = decodingTable[data.charAt(data.length() - 3 )]; b3 = decodingTable[data.charAt(data.length() - 2 )]; bytes[bytes.length - 2 ] = ( byte ) ((b1 << 2 ) | (b2 >> 4 )); bytes[bytes.length - 1 ] = ( byte ) ((b2 << 4 ) | (b3 >> 2 )); } else { b1 = decodingTable[data.charAt(data.length() - 4 )]; b2 = decodingTable[data.charAt(data.length() - 3 )]; b3 = decodingTable[data.charAt(data.length() - 2 )]; b4 = decodingTable[data.charAt(data.length() - 1 )]; bytes[bytes.length - 3 ] = ( byte ) ((b1 << 2 ) | (b2 >> 4 )); bytes[bytes.length - 2 ] = ( byte ) ((b2 << 4 ) | (b3 >> 2 )); bytes[bytes.length - 1 ] = ( byte ) ((b3 << 6 ) | b4); } for ( int i= 0 ;i<bytes.length;i++) System.out.println( "," +bytes[i]); return bytes; } private static byte [] discardNonBase64Bytes( byte [] data) { byte [] temp = new byte [data.length]; int bytesCopied = 0 ; for ( int i = 0 ; i < data.length; i++) { if (isValidBase64Byte(data[i])) { temp[bytesCopied++] = data[i]; } } byte [] newData = new byte [bytesCopied]; System.arraycopy(temp, 0 , newData, 0 , bytesCopied); return newData; } private static String discardNonBase64Chars(String data) { StringBuffer sb = new StringBuffer(); int length = data.length(); for ( int i = 0 ; i < length; i++) { if (isValidBase64Byte(( byte ) (data.charAt(i)))) { sb.append(data.charAt(i)); } } return sb.toString(); } private static boolean isValidBase64Byte( byte b) { if (b == '=' ) { return true ; } else if ((b < 0 ) || (b >= 128 )) { return false ; } else if (decodingTable[b] == - 1 ) { return false ; } return true ; } public static String encode(String data,String charset) throws Exception { // byte[] result = (data.getBytes("Unicode")); if (data== null || data.length()== 0 ) return data; int offset= 0 ; // getBytes("unicode")转完后会在前头加上两字节”FE“ byte [] result=encode (data.getBytes(charset),offset); StringBuffer sb= new StringBuffer(result.length); for ( int i= 0 ;i<result.length;i++) sb.append(( char )result[i]); return sb.toString(); } public static String decode(String data,String charset) throws Exception { if (data== null || data.length()== 0 ) return data; return new String(Base64.decode(data),charset); } public static void main(String[] args) throws Exception { String data = "我们" ; String data1=encode(data, "Unicode" ); String data2=decode(data1, "Unicode" ); System.out.println(data); System.out.println(data1); System.out.println(data2); } } |
附二:JavaScript中Base64编码
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<html> <head> <title>base64 Encoding/Decoding</title> </head> <script type= "text/javascript" ><!-- var keyStr = "ABCDEFGHIJKLMNOP" + "QRSTUVWXYZabcdef" + "ghijklmnopqrstuv" + "wxyz0123456789+/" + "=" ; function encode64(input) { input = unicodetoBytes(input); var output = "" ; var chr1, chr2, chr3 = "" ; var enc1, enc2, enc3, enc4 = "" ; var i = 0; do { chr1 = input[i++]; chr2 = input[i++]; chr3 = input[i++]; enc1 = chr1 >> 2; enc2 = ((chr1 & 3) << 4) | (chr2 >> 4); enc3 = ((chr2 & 15) << 2) | (chr3 >> 6); enc4 = chr3 & 63; if (isNaN(chr2)) { enc3 = enc4 = 64; } else if (isNaN(chr3)) { enc4 = 64; } output = output + keyStr.charAt(enc1) + keyStr.charAt(enc2) + keyStr.charAt(enc3) + keyStr.charAt(enc4); chr1 = chr2 = chr3 = "" ; enc1 = enc2 = enc3 = enc4 = "" ; } while (i < input.length); return output; } function decode64(input) { var output = "" ; var chr1, chr2, chr3 = "" ; var enc1, enc2, enc3, enc4 = "" ; var i = 0; // remove all characters that are not A-Z, a-z, 0-9, +, /, or = var base64test = /[^A-Za-z0-9/+ ///=]/g; if (base64test.exec(input)) { alert( "There were invalid base64 characters in the input text./n" + "Valid base64 characters are A-Z, a-z, 0-9, '+', '/', and '='/n" + "Expect errors in decoding." ); } input = input.replace(/[^A-Za-z0-9/+ ///=]/g, ""); output= new Array(); do { enc1 = keyStr.indexOf(input.charAt(i++)); enc2 = keyStr.indexOf(input.charAt(i++)); enc3 = keyStr.indexOf(input.charAt(i++)); enc4 = keyStr.indexOf(input.charAt(i++)); chr1 = (enc1 << 2) | (enc2 >> 4); chr2 = ((enc2 & 15) << 4) | (enc3 >> 2); chr3 = ((enc3 & 3) << 6) | enc4; output.push(chr1); if (enc3 != 64) { output.push(chr2); } if (enc4 != 64) { output.push(chr3); } chr1 = chr2 = chr3 = "" ; enc1 = enc2 = enc3 = enc4 = "" ; } while (i < input.length); return bytesToUnicode(output); } function unicodetoBytes(s) { var result= new Array(); if (s== null || s== "" ) return result; result.push(255); // add "FE" to head result.push(254); for ( var i=0;i<s.length;i++) { var c=s.charCodeAt(i).toString(16); if (c.length==1) i= "000" +c; else if (c.length==2) c= "00" +c; else if (c.length==3) c= "0" +c; var var1=parseInt( c.substring(2),16); var var2=parseInt( c.substring(0,2),16); result.push( var1); result.push(var2) ; } return result; } function bytesToUnicode(bs) { var result= "" ; var offset=0; if (bs.length>=2 && bs[0]==255 && bs[1]==254) offset=2; // delete "FE" for ( var i=offset;i<bs.length;i+=2) { var code=bs[i]+(bs[i+1]<<8); result+=String.fromCharCode(code); } return result; } //--> </script> <body> <form name= "base64Form" > Type in the message you want to encode in base64, or paste<br> base64 encoded text into the text field, select Encode or Decode, <br> and click the button!<br> <textarea name= "theText" cols= "40" rows= "6" ></textarea><br> <input type= "button" name= "encode" value= "Encode to base64" onClick= "document.base64Form.theText.value=encode64(document.base64Form.theText.value);" > <input type= "button" name= "decode" value= "Decode from base64" onClick= "document.base64Form.theText.value=decode64(document.base64Form.theText.value);" > </form> </body> </html> |
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