大文件加密（实现在文件流中进行加密解密的方法）-北大青鸟主机报警编程-程序博客网

对一般小的文件可以使用这样的加密解密方法（des）：
这里是把文件作为byte，全部缓存到内存中，如byte[] filebyte = getBytesFromFile(file_in);
在内存中直接用加密类对其进行加密，如CryptoUtils.decrypt(filebyte, newkey);
可是会产生一个问题，如果要加密的文件很大，比如要加密的文件 1G，而内存只有512M，这样就会使byte很大，导致缓冲区溢出，现在寻求如果对大文件进行加密的方法。

/*

* 加密文件

* file1加密后产生file2密文

* */

public static boolean enCryptoFile(String file1 ,String file2, String key)

{

//key转为成为bytes

byte[] newkey = new byte[8];

newkey = key.getBytes();

//输入文件转换成为bytes

File file_in = new File(file1);

byte[] filebyte = getBytesFromFile(file_in);

//定义输出文件

File file_out = new File(file2);

FileOutputStream out = null;

try {

out = new FileOutputStream(file_out);

filebyte = CryptoUtils.encrypt(filebyte, newkey);

out.write(filebyte,0,filebyte.length);

out.close();

return true;

} catch (Exception e1) {

// TODO Auto-generated catch block

e1.printStackTrace();

System.out.println("File enCrypto Error!");

}

return false;

}

/*

* 解密文件

* file1密文解密成file2明文

* key只能是8个byte

* */

public static boolean deCryptoFile(String file1 ,String file2, String key)

{

//key转为成为bytes

byte[] newkey = new byte[8];

newkey = key.getBytes();

//输入文件转换成为bytes

File file_in = new File(file1);

byte[] filebyte = getBytesFromFile(file_in);

//定义输出文件

File file_out = new File(file2);

FileOutputStream out = null;

try {

out = new FileOutputStream(file_out);

filebyte = CryptoUtils.decrypt(filebyte, newkey);

out.write(filebyte,0,filebyte.length);

out.close();

return true;

}catch(Exception e)

{

e.printStackTrace();

System.out.println("File deCrypto Error!");

return false;

}

解决方法：
经过研究发现1024个明文经过加密后变成1032个密文，
这样在进行流解密的时候，就需要读1032个密文，解密成为1024个明文。

/*

* 加密文件

* file1加密后产生file2密文

* */

public static boolean enoldCrByteFile(String file1 ,String file2, String key)

{

//key转为成为bytes

byte[] newkey = new byte[8];

newkey = key.getBytes();

try{

File file_in = new File(file1);

File file_out = new File(file2);

FileInputStream in = new FileInputStream(file_in);

FileOutputStream out =new FileOutputStream(file_out);

byte[] bytes = new byte[1024];

//String end = "<!~!>";

//System.out.print(end);

//byte [] bend = end.getBytes();

while((in.read(bytes))!=-1)

{

byte[] bout = CryptoUtils.encrypt(bytes, newkey);

System.out.println(bytes.length);

System.out.println(bout.length);

out.write(bout,0,1032);

//out.write(bend,0,bend.length);

}

in.close();

out.close();

return true;

}catch(Exception e)

{

e.printStackTrace();

System.out.println("File enCrypto Error!");

return false;

}

/*

* 解密文件

* file1密文解密成file2明文

* key只能是8个byte

* */

public static boolean deoldCrByteFile(String file1 ,String file2, String key)

{

//key转为成为bytes

byte[] newkey = new byte[8];

newkey = key.getBytes();

try{

File file_in = new File(file1);

File file_out = new File(file2);

FileInputStream in = new FileInputStream(file_in);

FileOutputStream out =new FileOutputStream(file_out);

byte[] bytes = new byte[1032];

//String end = "<!~!>";

//System.out.print(end);

//byte [] bend = end.getBytes();

while((in.read(bytes))!=-1)

{

byte[] bout = CryptoUtils.decrypt(bytes, newkey);

out.write(bout,0,bout.length);

//out.write(bend,0,bend.length);

}

in.close();

out.close();

return true;

}catch(Exception e)

{

e.printStackTrace();

System.out.println("File deCrypto Error!");

return false;

}

重构成这样，减少大对象创建。
此方法是对文件流进行了byte切割，对流中的byte进行加密。加密后的byte保存到文件中。在解密的时候同样进行分割文件byte流（这里的分割要与加密产生密文byte长度相同），这样就可以实现占用内存少且快速高效的加密方法了。

/*

* 加密文件

* file1加密后产生file2密文

* */

public static boolean enCrByteFile(String file1 ,String file2, String key)

{

Date date = new Date(); //程序开始时间

String dateStr1 = new Timestamp(date.getTime()).toString();

System.out.println("加密开始time=" + dateStr1);

//key转为成为bytes

byte[] newkey = new byte[8];

newkey = key.getBytes();

// 初始化一个用于des初始化的iv常量, 象形加密编码的要求

IvParameterSpec iv = new IvParameterSpec(new byte[] { 0x12, 0x34, 0x56,

0x78, (byte) 0x90, (byte) 0xAB, (byte) 0xCD,

(byte) 0xEF });

DESKeySpec dks = null;

try {

dks = new DESKeySpec(newkey);

} catch (InvalidKeyException e1) {

// TODO Auto-generated catch block

e1.printStackTrace();

}

SecretKeyFactory keyFactory = null;

try {

keyFactory = SecretKeyFactory.getInstance(CIPHER_DES);

} catch (NoSuchAlgorithmException e1) {

// TODO Auto-generated catch block

e1.printStackTrace();

}

SecretKey secureKey = null;

try {

secureKey = keyFactory.generateSecret(dks);

} catch (InvalidKeySpecException e1) {

// TODO Auto-generated catch block

e1.printStackTrace();

}

Cipher cipher = null;

try {

cipher = Cipher.getInstance(CIPHER_DES_CBC);

} catch (NoSuchAlgorithmException e1) {

// TODO Auto-generated catch block

e1.printStackTrace();

} catch (NoSuchPaddingException e1) {

// TODO Auto-generated catch block

e1.printStackTrace();

}

try {

cipher.init(Cipher.ENCRYPT_MODE, secureKey, iv);

} catch (InvalidKeyException e1) {

// TODO Auto-generated catch block

e1.printStackTrace();

} catch (InvalidAlgorithmParameterException e1) {

// TODO Auto-generated catch block

e1.printStackTrace();

}

//return cipher.doFinal(src);

try{

File file_in = new File(file1);

File file_out = new File(file2);

FileInputStream in = new FileInputStream(file_in);

FileOutputStream out =new FileOutputStream(file_out);

byte[] bytes = new byte[1024];

//String end = "<!~!>";

//System.out.print(end);

//byte [] bend = end.getBytes();

while((in.read(bytes))!=-1)

{

//byte[] bout = CryptoUtils.encrypt(bytes, newkey);

byte[] bout = cipher.doFinal(bytes);//

//System.out.println(bytes.length);

//System.out.println(bout.length);

out.write(bout,0,1032);

//out.write(bend,0,bend.length);

}

in.close();

out.close();

return true;

}catch(Exception e)

{

e.printStackTrace();

System.out.println("File enCrypto Error!");

return false;

}

/*

* 解密文件

* file1密文解密成file2明文

* key只能是8个byte

* */

public static boolean deCrByteFile(String file1 ,String file2, String key)

{

//key转为成为bytes

byte[] newkey = new byte[8];

newkey = key.getBytes();

// 初始化一个用于des初始化的iv常量, 象形加密编码的要求

IvParameterSpec iv = new IvParameterSpec(new byte[] { 0x12, 0x34, 0x56,

0x78, (byte) 0x90, (byte) 0xAB, (byte) 0xCD,

(byte) 0xEF });

DESKeySpec dks = null;

try {

dks = new DESKeySpec(newkey);

} catch (InvalidKeyException e1) {

// TODO Auto-generated catch block

e1.printStackTrace();

}

SecretKeyFactory keyFactory = null;

try {

keyFactory = SecretKeyFactory.getInstance(CIPHER_DES);

} catch (NoSuchAlgorithmException e1) {

// TODO Auto-generated catch block

e1.printStackTrace();

}

SecretKey secureKey = null;

try {

secureKey = keyFactory.generateSecret(dks);

} catch (InvalidKeySpecException e1) {

// TODO Auto-generated catch block

e1.printStackTrace();

}

Cipher cipher = null;

try {

cipher = Cipher.getInstance(CIPHER_DES_CBC);

} catch (NoSuchAlgorithmException e1) {

// TODO Auto-generated catch block

e1.printStackTrace();

} catch (NoSuchPaddingException e1) {

// TODO Auto-generated catch block

e1.printStackTrace();

}

try {

cipher.init(Cipher.ENCRYPT_MODE, secureKey, iv);

} catch (InvalidKeyException e1) {

// TODO Auto-generated catch block

e1.printStackTrace();

} catch (InvalidAlgorithmParameterException e1) {

// TODO Auto-generated catch block

e1.printStackTrace();

}

try{

File file_in = new File(file1);

File file_out = new File(file2);

FileInputStream in = new FileInputStream(file_in);

FileOutputStream out =new FileOutputStream(file_out);

byte[] bytes = new byte[1032];

//String end = "<!~!>";

//System.out.print(end);

//byte [] bend = end.getBytes();

while((in.read(bytes))!=-1)

{

byte[] bout = CryptoUtils.decrypt(bytes, newkey);

out.write(bout,0,bout.length);

//out.write(bend,0,bend.length);

}

in.close();

out.close();

return true;

}catch(Exception e)

{

e.printStackTrace();

System.out.println("File deCrypto Error!");

return false;

}

环境pc、p3.0G、1G内存
测试加密效率，对一个434M的文件进行加密，用时2分06秒，内存占用不超过20M（实际上就18M多一点），cpu占用率约为60%，感觉在加密过程中机器反应迟钝。
感觉这个效率还不错，并没有比全部缓存到内存中慢，但是占用内存却很少。推荐以后使用此方法。

加密开始time={SysUpTime = 141204 days 10:4:21} {Timestamp = Fri Aug 29 18:36:26 CST 2008}
加密结束time={SysUpTime = 141204 days 10:25:28} {Timestamp = Fri Aug 29 18:38:32 CST 2008}

这个效率还不错，不过还有可以提高效率的地方，比如把1024换成des加密的使用的8位倍数的，减少一些最后补齐的加密；把des算法换成RC4等