Android使用RSA加密和解密的示例代码

一、公钥加密和私钥解密

/**RSA算法*/

public static final String RSA = "RSA";

/**加密方式,android的*/

// public static final String TRANSFORMATION = "RSA/None/NoPadding";

/**加密方式,标准jdk的*/

public static final String TRANSFORMATION = "RSA/None/PKCS1Padding";

/** 使用公钥加密 */

public static byte[] encryptByPublicKey(byte[] data, byte[] publicKey) throws Exception {

// 得到公钥对象

X509EncodedKeySpec keySpec = new X509EncodedKeySpec(publicKey);

KeyFactory keyFactory = KeyFactory.getInstance("RSA");

PublicKey pubKey = keyFactory.generatePublic(keySpec);

// 加密数据

Cipher cp = Cipher.getInstance(TRANSFORMATION);

cp.init(Cipher.ENCRYPT_MODE, pubKey);

return cp.doFinal(data);

}

/** 使用私钥解密 */

public static byte[] decryptByPrivateKey(byte[] encrypted, byte[] privateKey) throws Exception {

// 得到私钥对象

PKCS8EncodedKeySpec keySpec = new PKCS8EncodedKeySpec(privateKey);

KeyFactory kf = KeyFactory.getInstance(RSA);

PrivateKey keyPrivate = kf.generatePrivate(keySpec);

// 解密数据

Cipher cp = Cipher.getInstance(TRANSFORMATION);

cp.init(Cipher.DECRYPT_MODE, keyPrivate);

byte[] arr = cp.doFinal(encrypted);

return arr;

}

1.data是要加密的数据,如果是字符串则getBytes。publicKey是公钥,privateKey是私钥。自定义密钥对测试

String data = "hello world";

try {

int keyLength = 1024;

//生成密钥对

KeyPair keyPair = RSAUtils.generateRSAKeyPair(keyLength);

//获取公钥

byte[] publicKey = RSAUtils.getPublicKey(keyPair);

//获取私钥

byte[] privateKey = RSAUtils.getPrivateKey(keyPair);

//用公钥加密

byte[] encrypt = RSAUtils.encryptByPublicKey(data.getBytes(), publicKey);

Log.d("TAG", "加密后的数据:" + StringUtils.byteArrayToString(encrypt));

//用私钥解密

byte[] decrypt = RSAUtils.decryptByPrivateKey(encrypt, privateKey);

Log.d("TAG", "解密后的数据:" + new String(decrypt, "utf-8"));

} catch (Exception e) {

e.printStackTrace();

}

2.从文件中读取公钥

String data = "hello world";

//读取公钥文件

String publicKeyString = IOUtils.readAssetsFile(this, "rsa_public_key.pem");

//base64解码

byte[] publicKey = Base64Utils.decodeToBytes(publicKeyString);

try {

//加密

byte[] encrypt = RSAUtils.encryptByPublicKey(data.getBytes(), publicKey);

Log.d("TAG", "加密后的数据:" + StringUtils.byteArrayToString(encrypt));

// //读取私钥文件

// String privateKeyString = IOUtils.readAssetsFile(this, "rsa_private_key.pem");

// //base64解码

// byte[] privateKey = Base64Utils.decodeToBytes(privateKeyString);

// //解密

// byte[] decrypt = RSAUtils.decryptByPrivateKey(encrypt, privateKey);

// Log.d("TAG", "解密后的数据:" + new String(decrypt, "utf-8"));

} catch (Exception e) {

e.printStackTrace();

}

二、公钥分段加密和私钥分段解密

当加密的数据过长时,会出现javax.crypto.IllegalBlockSizeException: Data must not be longer than 117 bytes的异常。rsa算法规定一次加密的数据不能超过生成密钥对时的keyLength/8-11,keyLength一般是1024个字节,则加密的数据不能超过117个字节

/**秘钥默认长度*/

public static final int DEFAULT_KEY_SIZE = 1024;

/**加密的数据最大的字节数,即117个字节*/

public static final int DEFAULT_BUFFERSIZE = (DEFAULT_KEY_SIZE / 8) - 11;

/**当加密的数据超过DEFAULT_BUFFERSIZE,则使用分段加密*/

public static final byte[] DEFAULT_SPLIT = "#PART#".getBytes();

/** 使用公钥分段加密 */

public static byte[] encryptByPublicKeyForSpilt(byte[] data, byte[] publicKey) throws Exception{

int dataLen = data.length;

if (dataLen <= DEFAULT_BUFFERSIZE) {

return encryptByPublicKey(data, publicKey);

}

List<Byte> allBytes = new ArrayList<Byte>(2048);

int bufIndex = 0;

int subDataLoop = 0;

byte[] buf = new byte[DEFAULT_BUFFERSIZE];

for (int i = 0; i < dataLen; i++) {

buf[bufIndex] = data[i];

if (++bufIndex == DEFAULT_BUFFERSIZE || i == dataLen - 1) {

subDataLoop++;

if (subDataLoop != 1) {

for (byte b : DEFAULT_SPLIT) {

allBytes.add(b);

}

}

byte[] encryptBytes = encryptByPublicKey(buf, publicKey);

for (byte b : encryptBytes) {

allBytes.add(b);

}

bufIndex = 0;

if (i == dataLen - 1) {

buf = null;

} else {

buf = new byte[Math

.min(DEFAULT_BUFFERSIZE, dataLen - i - 1)];

}

}

}

byte[] bytes = new byte[allBytes.size()];

int i = 0;

for (Byte b : allBytes) {

bytes[i++] = b.byteValue();

}

return bytes;

}

/** 使用私钥分段解密 */

public static byte[] decryptByPrivateKeyForSpilt(byte[] encrypted, byte[] privateKey) throws Exception {

int splitLen = DEFAULT_SPLIT.length;

if (splitLen <= 0) {

return decryptByPrivateKey(encrypted, privateKey);

}

int dataLen = encrypted.length;

List<Byte> allBytes = new ArrayList<Byte>(1024);

int latestStartIndex = 0;

for (int i = 0; i < dataLen; i++) {

byte bt = encrypted[i];

boolean isMatchSplit = false;

if (i == dataLen - 1) {

// 到data的最后了

byte[] part = new byte[dataLen - latestStartIndex];

System.arraycopy(encrypted, latestStartIndex, part, 0, part.length);

byte[] decryptPart = decryptByPrivateKey(part, privateKey);

for (byte b : decryptPart) {

allBytes.add(b);

}

latestStartIndex = i + splitLen;

i = latestStartIndex - 1;

} else if (bt == DEFAULT_SPLIT[0]) {

// 这个是以split[0]开头

if (splitLen > 1) {

if (i + splitLen < dataLen) {

// 没有超出data的范围

for (int j = 1; j < splitLen; j++) {

if (DEFAULT_SPLIT[j] != encrypted[i + j]) {

break;

}

if (j == splitLen - 1) {

// 验证到split的最后一位,都没有break,则表明已经确认是split段

isMatchSplit = true;

}

}

}

} else {

// split只有一位,则已经匹配了

isMatchSplit = true;

}

}

if (isMatchSplit) {

byte[] part = new byte[i - latestStartIndex];

System.arraycopy(encrypted, latestStartIndex, part, 0, part.length);

byte[] decryptPart = decryptByPrivateKey(part, privateKey);

for (byte b : decryptPart) {

allBytes.add(b);

}

latestStartIndex = i + splitLen;

i = latestStartIndex - 1;

}

}

byte[] bytes = new byte[allBytes.size()];

int i = 0;

for (Byte b : allBytes) {

bytes[i++] = b.byteValue();

}

return bytes;

}

测试分段加密和解密

String data = "hello world hello world hello world hello world hello world hello world hello world hello world " +

"hello world hello world hello world hello world hello world hello world hello world hello world hello world " +

"hello world hello world hello world hello world hello world hello world hello world hello world hello world ";

Log.d("TAG", "要加密的数据:" + data + ", 要加密的数据长度:" + data.length());

try {

//分段加密

byte[] encrypt = RSAUtils.encryptByPublicKeyForSpilt(data.getBytes(), publicKey);

Log.d("TAG", "加密后的数据:" + StringUtils.byteArrayToString(encrypt));

//分段解密

byte[] decrypt = RSAUtils.decryptByPrivateKeyForSpilt(encrypt, privateKey);

Log.d("TAG", "解密后的数据:" + new String(decrypt, "utf-8"));

} catch (Exception e) {

e.printStackTrace();

}

三、生成密钥对

/** 生成密钥对,即公钥和私钥。key长度是512-2048,一般为1024 */

public static KeyPair generateRSAKeyPair(int keyLength) throws NoSuchAlgorithmException {

KeyPairGenerator kpg = KeyPairGenerator.getInstance(RSA);

kpg.initialize(keyLength);

return kpg.genKeyPair();

}

/** 获取公钥,打印为48-12613448136942-12272-122-913111503-126115048-12...等等一长串用-拼接的数字 */

public static byte[] getPublicKey(KeyPair keyPair) {

RSAPublicKey rsaPublicKey = (RSAPublicKey) keyPair.getPublic();

return rsaPublicKey.getEncoded();

}

/** 获取私钥,同上 */

public static byte[] getPrivateKey(KeyPair keyPair) {

RSAPrivateKey rsaPrivateKey = (RSAPrivateKey) keyPair.getPrivate();

return rsaPrivateKey.getEncoded();

}

生成公钥和私钥后,用base64编码

int keyLength = 1024;

try {

//生成密钥对

KeyPair keyPair = RSAUtils.generateRSAKeyPair(keyLength);

//获取公钥

byte[] publicKey = RSAUtils.getPublicKey(keyPair);

Log.d("TAG", "公钥:" + StringUtils.byteArrayToString(publicKey));

//公钥用base64编码

String encodePublic = Base64Utils.encodeToString(publicKey);

Log.d("TAG", "base64编码的公钥:" + encodePublic);

//获取私钥

byte[] privateKey = RSAUtils.getPrivateKey(keyPair);

Log.d("TAG", "私钥:" + StringUtils.byteArrayToString(privateKey));

//私钥用base64编码

String encodePrivate = Base64Utils.encodeToString(privateKey);

Log.d("TAG", "base64编码的私钥:" + encodePrivate);

} catch (NoSuchAlgorithmException e) {

e.printStackTrace();

}

其它

一、android加密的数据服务器上无法解密?

android的rsa加密方式是RSA/ECB/NoPadding,而标准jdk是RSA/ECB/PKCS1Padding,所以加密时要设置标准jdk的加密方式

二、base64编码。因为不同的设备对字符的处理方式不同,字符有可能处理出错,不利于传输。所以先把数据做base64编码,变成可见字符,减少出错

官方提供的base64类,Base64.encode编码,Base64.decode解码。用这个会有换行符,需要自定义

三、rsa是非对称加密算法。依赖于大数计算,加密速度比des慢,通常只用于加密少量数据或密钥

四、公钥加密比私钥加密块,公钥解密比私钥解密慢。加密后的数据大概是加密前的1.5倍

以上是 Android使用RSA加密和解密的示例代码 的全部内容, 来源链接: utcz.com/z/359967.html

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