import java.io.OutputStream;
import java.io.UnsupportedEncodingException;
import java.security.InvalidKeyException;
-import java.security.NoSuchAlgorithmException;
import javax.crypto.BadPaddingException;
import javax.crypto.Cipher;
import javax.crypto.CipherInputStream;
import javax.crypto.CipherOutputStream;
import javax.crypto.IllegalBlockSizeException;
-import javax.crypto.NoSuchPaddingException;
-import javax.crypto.SecretKey;
+import javax.crypto.spec.IvParameterSpec;
import javax.crypto.spec.SecretKeySpec;
import javax.net.ssl.SSLException;
+import be.nikiroo.utils.streams.Base64InputStream;
+import be.nikiroo.utils.streams.Base64OutputStream;
+
/**
* Small utility class to do AES encryption/decryption.
* <p>
- * For the moment, it is multi-thread compatible, but beware:
+ * It is multi-thread compatible, but beware:
* <ul>
* <li>The encrypt/decrypt calls are serialized</li>
- * <li>The streams are independent and thus parallel</li>
+ * <li>The streams are independent (and thus parallel)</li>
* </ul>
* <p>
- * Do not assume it is actually secure until you checked the code...
+ * Do not assume it is secure; it just here to offer a more-or-less protected
+ * exchange of data because anonymous and self-signed certificates backed SSL is
+ * against Google wishes, and I need Android support.
*
* @author niki
*/
public class CryptUtils {
- static private final String AES_NAME = "AES/ECB/PKCS5Padding";
-
+ static private final String AES_NAME = "AES/CFB128/NoPadding";
+
private Cipher ecipher;
private Cipher dcipher;
- private SecretKey key;
+ private byte[] bytes32;
/**
- * Small and lazy-easy way to initialize a 128 bits key with {@link CryptUtils}.
+ * Small and lazy-easy way to initialize a 128 bits key with
+ * {@link CryptUtils}.
* <p>
* <b>Some</b> part of the key will be used to generate a 128 bits key and
* initialize the {@link CryptUtils}; even NULL will generate something.
}
/**
- * Create a new instance of {@link CryptUtils} with the given 128 bytes key.
+ * Create a new instance of {@link CryptUtils} with the given 128 bits key.
* <p>
- * The key <b>must</b> be exactly 128 bytes long.
+ * The key <b>must</b> be exactly 128 bits long.
*
* @param bytes32
* the 128 bits (32 bytes) of the key
*
* @throws InvalidKeyException
- * if the key is not an array of 128 bytes
+ * if the key is not an array of 128 bits
*/
public CryptUtils(byte[] bytes32) throws InvalidKeyException {
init(bytes32);
* the {@link InputStream} to wrap
* @return the auto-encode {@link InputStream}
*/
- public InputStream encryptInputStream(InputStream in) {
+ public InputStream encrypt(InputStream in) {
Cipher ecipher = newCipher(Cipher.ENCRYPT_MODE);
return new CipherInputStream(in, ecipher);
}
+ /**
+ * Wrap the given {@link InputStream} so it is transparently encrypted by
+ * the current {@link CryptUtils} and encoded in base64.
+ *
+ * @param in
+ * the {@link InputStream} to wrap
+ *
+ * @return the auto-encode {@link InputStream}
+ *
+ * @throws IOException
+ * in case of I/O error
+ */
+ public InputStream encrypt64(InputStream in) throws IOException {
+ return new Base64InputStream(encrypt(in), true);
+ }
+
/**
* Wrap the given {@link OutputStream} so it is transparently encrypted by
* the current {@link CryptUtils}.
*
- * @param in
+ * @param out
* the {@link OutputStream} to wrap
+ *
* @return the auto-encode {@link OutputStream}
*/
- public OutputStream encryptOutpuStream(OutputStream out) {
+ public OutputStream encrypt(OutputStream out) {
Cipher ecipher = newCipher(Cipher.ENCRYPT_MODE);
return new CipherOutputStream(out, ecipher);
}
/**
- * Wrap the given {@link OutStream} so it is transparently decoded by the
+ * Wrap the given {@link OutputStream} so it is transparently encrypted by
+ * the current {@link CryptUtils} and encoded in base64.
+ *
+ * @param out
+ * the {@link OutputStream} to wrap
+ *
+ * @return the auto-encode {@link OutputStream}
+ *
+ * @throws IOException
+ * in case of I/O error
+ */
+ public OutputStream encrypt64(OutputStream out) throws IOException {
+ return encrypt(new Base64OutputStream(out, true));
+ }
+
+ /**
+ * Wrap the given {@link OutputStream} so it is transparently decoded by the
* current {@link CryptUtils}.
*
* @param in
* the {@link InputStream} to wrap
+ *
* @return the auto-decode {@link InputStream}
*/
- public InputStream decryptInputStream(InputStream in) {
+ public InputStream decrypt(InputStream in) {
Cipher dcipher = newCipher(Cipher.DECRYPT_MODE);
return new CipherInputStream(in, dcipher);
}
/**
- * Wrap the given {@link OutStream} so it is transparently decoded by the
+ * Wrap the given {@link OutputStream} so it is transparently decoded by the
+ * current {@link CryptUtils} and decoded from base64.
+ *
+ * @param in
+ * the {@link InputStream} to wrap
+ *
+ * @return the auto-decode {@link InputStream}
+ *
+ * @throws IOException
+ * in case of I/O error
+ */
+ public InputStream decrypt64(InputStream in) throws IOException {
+ return decrypt(new Base64InputStream(in, false));
+ }
+
+ /**
+ * Wrap the given {@link OutputStream} so it is transparently decoded by the
* current {@link CryptUtils}.
*
* @param out
* the {@link OutputStream} to wrap
* @return the auto-decode {@link OutputStream}
*/
- public OutputStream decryptOutputStream(OutputStream out) {
+ public OutputStream decrypt(OutputStream out) {
Cipher dcipher = newCipher(Cipher.DECRYPT_MODE);
return new CipherOutputStream(out, dcipher);
}
/**
- * This method required an array of 128 bytes.
+ * Wrap the given {@link OutputStream} so it is transparently decoded by the
+ * current {@link CryptUtils} and decoded from base64.
+ *
+ * @param out
+ * the {@link OutputStream} to wrap
+ *
+ * @return the auto-decode {@link OutputStream}
+ *
+ * @throws IOException
+ * in case of I/O error
+ */
+ public OutputStream decrypt64(OutputStream out) throws IOException {
+ return new Base64OutputStream(decrypt(out), false);
+ }
+
+ /**
+ * This method required an array of 128 bits.
*
* @param bytes32
* the array, which <b>must</b> be of 128 bits (32 bytes)
+ " bytes");
}
- key = new SecretKeySpec(bytes32, "AES");
- ecipher = newCipher(Cipher.ENCRYPT_MODE);
- dcipher = newCipher(Cipher.DECRYPT_MODE);
+ this.bytes32 = bytes32;
+ this.ecipher = newCipher(Cipher.ENCRYPT_MODE);
+ this.dcipher = newCipher(Cipher.DECRYPT_MODE);
}
-
+
/**
* Create a new {@link Cipher}of the given mode (see
* {@link Cipher#ENCRYPT_MODE} and {@link Cipher#ENCRYPT_MODE}).
*/
private Cipher newCipher(int mode) {
try {
+ // bytes32 = 32 bytes, 32 > 16
+ byte[] iv = new byte[16];
+ for (int i = 0; i < iv.length; i++) {
+ iv[i] = bytes32[i];
+ }
+ IvParameterSpec ivspec = new IvParameterSpec(iv);
Cipher cipher = Cipher.getInstance(AES_NAME);
- cipher.init(mode, key);
+ cipher.init(mode, new SecretKeySpec(bytes32, "AES"), ivspec);
return cipher;
- } catch (NoSuchAlgorithmException e) {
- // Every implementation of the Java platform is required to support
- // this standard Cipher transformation with 128 bits keys
- e.printStackTrace();
- } catch (NoSuchPaddingException e) {
- // Every implementation of the Java platform is required to support
- // this standard Cipher transformation with 128 bits keys
- e.printStackTrace();
- } catch (InvalidKeyException e) {
- // Every implementation of the Java platform is required to support
- // this standard Cipher transformation with 128 bits keys
+ } catch (Exception e) {
e.printStackTrace();
+ throw new RuntimeException(
+ "Cannot initialize encryption sub-system", e);
}
-
- return null;
}
/**
* it was)
*/
public byte[] encrypt(String data) throws SSLException {
- try {
- return encrypt(data.getBytes("UTF8"));
- } catch (UnsupportedEncodingException e) {
- // UTF-8 is required in all confirm JVMs
- e.printStackTrace();
- return null;
- }
+ return encrypt(StringUtils.getBytes(data));
}
/**
* in case of I/O error (i.e., the data is not what you assumed
* it was)
*/
- public String encrypt64(String data, boolean zip) throws SSLException {
- try {
- return encrypt64(data.getBytes("UTF8"), zip);
- } catch (UnsupportedEncodingException e) {
- // UTF-8 is required in all confirm JVMs
- e.printStackTrace();
- return null;
- }
+ public String encrypt64(String data) throws SSLException {
+ return encrypt64(StringUtils.getBytes(data));
}
/**
*
* @param data
* the data to encrypt
- * @param zip
- * TRUE to also compress the data in GZIP format; remember that
- * compressed and not-compressed content are different; you need
- * to know which is which when decoding
*
* @return the encrypted data, encoded in Base64
*
* in case of I/O error (i.e., the data is not what you assumed
* it was)
*/
- public String encrypt64(byte[] data, boolean zip) throws SSLException {
+ public String encrypt64(byte[] data) throws SSLException {
try {
- return StringUtils.base64(encrypt(data), zip);
+ return StringUtils.base64(encrypt(data));
} catch (IOException e) {
// not exactly true, but we consider here that this error is a crypt
// error, not a normal I/O error
try {
return new String(decrypt(data), "UTF-8");
} catch (UnsupportedEncodingException e) {
- // UTF-8 is required in all confirm JVMs
+ // UTF-8 is required in all conform JVMs
e.printStackTrace();
return null;
}
* @throws SSLException
* in case of I/O error
*/
- public byte[] decrypt64(String data, boolean zip) throws SSLException {
+ public byte[] decrypt64(String data) throws SSLException {
try {
- return decrypt(StringUtils.unbase64(data, zip));
+ return decrypt(StringUtils.unbase64(data));
} catch (IOException e) {
// not exactly true, but we consider here that this error is a crypt
// error, not a normal I/O error
* @throws SSLException
* in case of I/O error
*/
- public String decrypt64s(String data, boolean zip) throws SSLException {
+ public String decrypt64s(String data) throws SSLException {
try {
- return new String(decrypt(StringUtils.unbase64(data, zip)), "UTF-8");
+ return new String(decrypt(StringUtils.unbase64(data)), "UTF-8");
} catch (UnsupportedEncodingException e) {
- // UTF-8 is required in all confirm JVMs
+ // UTF-8 is required in all conform JVMs
e.printStackTrace();
return null;
} catch (IOException e) {