you must break message to blocks.
can use below class.
// Note: RSA has block limitation, text size must < (SIZE/8) , otherwise you see [too much data for RSA block]
public class RSA
{
private RSAPublicKey internalPublicKey;
private RSAPrivateCrtKey internalPrivateKey;
private int SIZE = -1;
private String cipherAlgorithm = "RSA/None/PKCS1PADDING";
private String keyAlgorithm = "RSA";
private int b64State = Base64.NO_WRAP;
private static int b64State_static = Base64.NO_WRAP;
public RSA(int size)
{
SIZE = size;
init();
}
public RSA(int size, RSAPublicKey puk, RSAPrivateCrtKey prk)
{
if(puk == null)
throw new RuntimeException("Err: PublicKey is null.");
if(prk != null)
{
if(!puk.getModulus().equals(prk.getModulus()))
throw new RuntimeException("Err: PublicKey not matched by PrivateKey.");
}
SIZE = size;
internalPublicKey = puk;
internalPrivateKey = prk;
}
private void init()
{
try
{
//SecretKeyFactory keyFac = SecretKeyFactory.getInstance("PBEWithSHA256And256BitAES-CBC-BC");
KeyPairGenerator kpg = KeyPairGenerator.getInstance(keyAlgorithm);
kpg.initialize(SIZE); //initialize(SIZE, new SecureRandom());
KeyPair kp = kpg.genKeyPair();
internalPublicKey = (RSAPublicKey) kp.getPublic();
internalPrivateKey = (RSAPrivateCrtKey) kp.getPrivate();
}
catch(Exception e)
{throw new RuntimeException("Err: init RSA. " + e.toString());}
}
public int getSize()
{
return SIZE;
}
public RSAPublicKey getPublicKey()
{
return internalPublicKey;
}
public RSAPrivateCrtKey getPrivateKey()
{
return internalPrivateKey;
}
public String getPublicModule()
{
String s = internalPublicKey.toString();
return s.substring(s.indexOf("modulus")+8, s.indexOf(",publicExponent"));
}
public BigInteger getPublicModuleInt()
{
return internalPublicKey.getModulus();
}
public String getPublicExponent()
{
String s = internalPublicKey.toString();
return s.substring(s.indexOf("publicExponent")+15, s.lastIndexOf("}"));
}
public BigInteger getPublicExponentInt()
{
return internalPublicKey.getPublicExponent();
}
public String getPrivateExponent()
{
String s = internalPrivateKey.toString();
return s.substring(s.indexOf("privateExponent")+16, s.indexOf(",primeP"));
}
public String getPrimP()
{
String s = internalPrivateKey.toString();
return s.substring(s.indexOf("primeP=")+7, s.indexOf(",primeQ"));
}
public String getPrimQ()
{
String s = internalPrivateKey.toString();
return s.substring(s.indexOf("primeQ=")+7, s.indexOf(",primeExponentP"));
}
public String getPrimExponentP()
{
String s = internalPrivateKey.toString();
return s.substring(s.indexOf("primeExponentP=")+15, s.indexOf(",primeExponentQ"));
}
public String getPrimExponentQ()
{
String s = internalPrivateKey.toString();
return s.substring(s.indexOf("primeExponentQ=")+15, s.indexOf(",crtCoefficient"));
}
public String getCrtCoefficient()
{
String s = internalPrivateKey.toString();
return s.substring(s.indexOf("crtCoefficient=")+15, s.lastIndexOf(","));
}
public byte[] getPublicKeyAsByte()
{
return internalPublicKey.getEncoded();
}
public byte[] getPrivateKeyAsByte()
{
return internalPrivateKey.getEncoded();
}
public void changeCipherAlgorithm(String algorithm)
{
cipherAlgorithm = algorithm;
}
public byte[] getEncrypt(byte[] plain)
{
try
{
Cipher cipher = Cipher.getInstance(cipherAlgorithm);
cipher.init(Cipher.ENCRYPT_MODE, internalPublicKey);
return cipher.doFinal(plain);
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: getEncrypt(byte[] plain), ", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public byte[] getEncrypt(String plain)
{
try
{
return getEncrypt(plain.getBytes("UTF-8"));
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: getEncrypt(String x), ", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public String getEncryptToB64(byte[] plain)
{
return Base64.encodeToString(getEncrypt(plain), b64State);
}
public byte[] getLargeEncrypt(byte[] plain, boolean byPadding) //byPadding = true if use RSA/xxx/xxxPADDING
{
ByteArrayOutputStream out = new ByteArrayOutputStream();
try
{
int n = byPadding ? (getSize()/8) -11: (getSize()/8);
int offset = 0;
while(offset < plain.length)
{
byte[] section = Arrays.copyOfRange(plain, offset, Math.min(offset+n, plain.length));
byte[] cache = getEncrypt(section);
out.write(cache, 0, cache.length);
offset += n;
}
return out.toByteArray();
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: getLargeEncrypt(String x), ", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public byte[] getLargeEncrypt(String plain, boolean byPadding) //byPadding = true if use RSA/xxx/xxxPADDING
{
return getLargeEncrypt(plain.getBytes(Charset.forName("UTF-8")), byPadding);
}
public String getLargeEncryptToB64(String plain, boolean byPadding) //byPadding = true if use RSA/xxx/xxxPADDING
{
return Base64.encodeToString(getLargeEncrypt(plain, byPadding), Base64.NO_WRAP);
}
public String getLargeEncryptToB64Block(String plain, boolean byPadding) //byPadding = true if use RSA/xxx/xxxPADDING
{
StringBuilder sb = new StringBuilder();
try
{
byte[] enc = plain.getBytes("UTF-8");
int n = byPadding ? (getSize()/8) -11: (getSize()/8);
int offset = 0;
while(offset < enc.length)
{
byte[] section = Arrays.copyOfRange(enc, offset, Math.min(offset+n, enc.length));
sb.append(getEncryptToB64(section));
offset += n;
}
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: getLargeEncryptToB64Block(String x), ", Constants.DEFAULT_ALERT_STATE);
}
return sb.toString();
}
public String getLargeDecryptFromB64Block(String enc)
{
ByteArrayOutputStream out = new ByteArrayOutputStream();
try
{
int n = (getSize()/8)-11;
int x = getEncryptToB64(TextHelper.generateString(n).getBytes("UTF-8")).length();
String[] ex = TextHelper.splitFix(enc, x);
for(int i=0; i<ex.length; i++)
{
byte[] sec = Base64.decode(ex[i], Base64.NO_WRAP);
out.write(sec, 0, sec.length);
//sb.append(getDecryptFromB64(ex[i]));
}
return getLargeDecryptToString(out.toByteArray());//sb.toString()
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: getLargeDecryptFromB64Block(String x), ", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public byte[] getLargeDecrypt(byte[] enc)
{
ByteArrayOutputStream out = new ByteArrayOutputStream();
try
{
int n = (getSize()/8);
int offset = 0;
while(offset < enc.length)
{
byte[] section = Arrays.copyOfRange(enc, offset, Math.min(offset+n, enc.length));
byte[] cache = getDecrypt(section);
out.write(cache, 0, cache.length);
offset += n;
}
return out.toByteArray();
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: getLargeDecrypt(byte[] x), ", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public String getLargeDecryptToString(byte[] enc)
{
return new String(getLargeDecrypt(enc), Charset.forName("UTF-8"));
}
public String getLargeDecryptFromB64(String encB64)
{
return getLargeDecryptToString(Base64.decode(encB64, Base64.NO_WRAP));
}
public byte[] getDecrypt(byte[] encryptedBytes)
{
try
{
Cipher cipher = Cipher.getInstance(cipherAlgorithm);
cipher.init(Cipher.DECRYPT_MODE, internalPrivateKey);
return cipher.doFinal(encryptedBytes);
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: getDecrypt(byte[] x), ", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public String getDecryptFromB64(String encrypted)
{
try
{
byte[] b = Base64.decode(encrypted.getBytes("UTF-8"), b64State);
return getDecryptAsString(b);
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: getDecryptFromB64(String x), ", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public String getDecryptAsString(byte[] encryptedBytes)
{
return new String(getDecrypt(encryptedBytes), Charset.forName("UTF-8"));
}
public static byte[] getEncrypt(byte[] plain, PublicKey pk, Cipher cipher)
{
try
{
cipher.init(Cipher.ENCRYPT_MODE, pk);
return cipher.doFinal(plain);
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: getEncrypt(byte[] x, PublicKey pk, Cipher cipher), ", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public static byte[] getEncrypt(String plain, PublicKey pk, Cipher cipher)
{
try
{
return getEncrypt(plain.getBytes("UTF-8"), pk, cipher);
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: getEncrypt(String x, PublicKey pk, Cipher cipher), ", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public static byte[] getDecrypt(byte[] encryptedBytes, PrivateKey pk, Cipher cipher)
{
try
{
cipher.init(Cipher.DECRYPT_MODE, pk);
return cipher.doFinal(encryptedBytes);
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public static String getDecryptAsString(byte[] encryptedBytes, PrivateKey pk, Cipher cipher)
{
try
{
return new String(getDecrypt(encryptedBytes, pk, cipher), "UTF-8");
}
catch(Exception e){}
return null;
}
public static byte[] getDecrypt(final byte[] encryptedBytes, byte[] privateKey, Cipher cipher)
{
try
{
KeyFactory keyFac = KeyFactory.getInstance("RSA");
KeySpec keySpec = new PKCS8EncodedKeySpec(privateKey);
PrivateKey pk = keyFac.generatePrivate(keySpec);
cipher.init(Cipher.DECRYPT_MODE, pk);
return cipher.doFinal(encryptedBytes);
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public static String getDecryptAsString(final byte[] encryptedBytes, byte[] privateKey, Cipher cipher)
{
return new String(getDecrypt(encryptedBytes, privateKey, cipher), Charset.forName("UTF-8"));
}
public static byte[] sign(byte[] forSign, PrivateKey byThisKey)
{
try
{
Signature privateSignature = Signature.getInstance("SHA1withRSA");//or SHA256withRSA
privateSignature.initSign(byThisKey);
privateSignature.update(forSign);
return privateSignature.sign();
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: sign(), ", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public static String sign(String forSign, PrivateKey byThisKey)
{
return Base64.encodeToString(sign(forSign.getBytes(), byThisKey), b64State_static);
}
public static boolean verify(String plainText, String signature, PublicKey publicKey)
{
Signature publicSignature;
try
{
publicSignature = Signature.getInstance("SHA1withRSA");
publicSignature.initVerify(publicKey);
publicSignature.update(plainText.getBytes());
byte[] signatureBytes = Base64.decode(signature, b64State_static);
return publicSignature.verify(signatureBytes);
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: verify(), ", Constants.DEFAULT_ALERT_STATE);
}
return false;
}
public static RSAPublicKey generatePublicKey(String modulus, String exponent)
{
try
{
BigInteger modBigInteger = new BigInteger(modulus, 16);
BigInteger exBigInteger = new BigInteger(exponent, 16);
RSAPublicKeySpec spec = new RSAPublicKeySpec(modBigInteger, exBigInteger);
KeyFactory factory = KeyFactory.getInstance("RSA");
return (RSAPublicKey) factory.generatePublic(spec);
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: getEncrypt(), ", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public static RSAPublicKey generatePublicKey(BigInteger modulus, BigInteger exponent)
{
try
{
RSAPublicKeySpec spec = new RSAPublicKeySpec(modulus, exponent);
KeyFactory factory = KeyFactory.getInstance("RSA");
return (RSAPublicKey) factory.generatePublic(spec);
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: getEncrypt(), ", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public static RSAPublicKey generatePublicKeyFromDotNet(String modulus, String exponent)
{
return generatePublicKey(RSA.parseDotNetBigInt(modulus), RSA.parseDotNetBigInt(exponent));
}
public static RSAPrivateCrtKey generatePrivateKeyFromDotNet(String modulus, String pubEx, String priEx, String p, String q, String dp, String dq,String invQ)
{
return generatePrivateKey(RSA.parseDotNetBigInt(modulus), RSA.parseDotNetBigInt(pubEx), RSA.parseDotNetBigInt(priEx), RSA.parseDotNetBigInt(p)
,RSA.parseDotNetBigInt(q),RSA.parseDotNetBigInt(dp), RSA.parseDotNetBigInt(dq), RSA.parseDotNetBigInt(invQ));
}
public static PublicKey generateBCPublicKey(String modulus, String exponent)
{
try
{
BigInteger modBigInteger = new BigInteger(modulus, 16);
BigInteger exBigInteger = new BigInteger(exponent, 16);
RSAPublicKeySpec spec = new RSAPublicKeySpec(modBigInteger, exBigInteger);
KeyFactory factory = KeyFactory.getInstance("RSA", "BC");
return factory.generatePublic(spec);
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: getBCPublicKey(), ", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public static RSAPrivateCrtKey generatePrivateKey(String modulus, String publicExpo, String privateExpo, String primP, String primQ, String ePrimP, String ePrimQ, String cof)
{
try
{
BigInteger module = new BigInteger(modulus, 16);
BigInteger expo1 = new BigInteger(publicExpo, 16);
BigInteger expo2 = new BigInteger(privateExpo, 16);
BigInteger prim_P = new BigInteger(primP, 16);
BigInteger prim_Q = new BigInteger(primQ, 16);
BigInteger prim_EP = new BigInteger(ePrimP, 16);
BigInteger prim_EQ = new BigInteger(ePrimQ, 16);
BigInteger coefficient = new BigInteger(cof, 16);
/*BigInteger module = new BigInteger(1, Base64.encode(modulus.getBytes(), b64State));*/
RSAPrivateCrtKeySpec spec = new RSAPrivateCrtKeySpec(module, expo1, expo2, prim_P, prim_Q, prim_EP, prim_EQ, coefficient);
KeyFactory factory = KeyFactory.getInstance("RSA");
return (RSAPrivateCrtKey) factory.generatePrivate(spec);
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public static RSAPrivateCrtKey generatePrivateKey(BigInteger modulus, BigInteger publicExpo, BigInteger privateExpo, BigInteger primP, BigInteger primQ, BigInteger ePrimP, BigInteger ePrimQ, BigInteger cof)
{
try
{
RSAPrivateCrtKeySpec spec = new RSAPrivateCrtKeySpec(modulus, publicExpo, privateExpo, primP, primQ, ePrimP, ePrimQ, cof);
KeyFactory factory = KeyFactory.getInstance("RSA");
return (RSAPrivateCrtKey) factory.generatePrivate(spec);
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public static PrivateKey generateBCPrivateKey(String modulus, String publicExpo, String privateExpo, String primP, String primQ, String ePrimP, String ePrimQ, String cof)
{
try
{
BigInteger module = new BigInteger(modulus, 16);
BigInteger expo1 = new BigInteger(publicExpo, 16);
BigInteger expo2 = new BigInteger(privateExpo, 16);
BigInteger prim_P = new BigInteger(primP, 16);
BigInteger prim_Q = new BigInteger(primQ, 16);
BigInteger prim_EP = new BigInteger(ePrimP, 16);
BigInteger prim_EQ = new BigInteger(ePrimQ, 16);
BigInteger coefficient = new BigInteger(cof, 16);
RSAPrivateCrtKeySpec spec = new RSAPrivateCrtKeySpec(module, expo1, expo2, prim_P, prim_Q, prim_EP, prim_EQ, coefficient);
KeyFactory factory = KeyFactory.getInstance("RSA", "BC");
return factory.generatePrivate(spec);
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public static Cipher generateCipher(String alg,@Nullable String provider)
{
try
{
if(provider == null)
return Cipher.getInstance(alg);
else
return Cipher.getInstance(alg, provider);
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: generateCipher(), ", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public static BigInteger parseDotNetBigInt(String b64BigInt)
{
try
{
String modulusHex = Hex.encodeHex(Base64.decode(b64BigInt.getBytes("UTF-8"), Base64.NO_WRAP));
return new BigInteger(modulusHex, 16);
}
catch (Exception ex)
{
ThreadHelper.exceptionAlert(ex, Constants.TAG_FOR_LOG, "Err: parseDotNetBigInt(),", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public static String privateKeyToXMLString(RSAPrivateCrtKey key)
{
try
{
Document xml = privateKeyToXML(key);
Transformer transformer = TransformerFactory.newInstance().newTransformer();
StringWriter sw = new StringWriter();
transformer.transform(new DOMSource(xml), new StreamResult(sw));
return sw.getBuffer().toString();
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: privateKeyToXMLString(RSAPrivateCrtKey x),", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public static String publicKeyToXMLString(RSAPublicKey key)
{
try
{
Document xml = publicKeyToXML(key);
Transformer transformer = TransformerFactory.newInstance().newTransformer();
StringWriter sw = new StringWriter();
transformer.transform(new DOMSource(xml), new StreamResult(sw));
return sw.getBuffer().toString();
}
catch(Exception e){}
return null;
}
public static Document publicKeyToXML(RSAPublicKey key)
{
try
{
Document result = DocumentBuilderFactory.newInstance().newDocumentBuilder().newDocument();
Element rsaKeyValue = result.createElement("RSAKeyValue");
result.appendChild(rsaKeyValue);
Element modulus = result.createElement("Modulus");
rsaKeyValue.appendChild(modulus);
byte[] modulusBytes = key.getModulus().toByteArray();
modulusBytes = stripLeadingZeros(modulusBytes);
modulus.appendChild(result.createTextNode(new String(Base64.encode(modulusBytes, b64State_static))));
Element exponent = result.createElement("Exponent");
rsaKeyValue.appendChild(exponent);
byte[] exponentBytes = key.getPublicExponent().toByteArray();
exponent.appendChild(result.createTextNode(new String(Base64.encode(exponentBytes, b64State_static))));
return result;
}
catch(Exception e){}
return null;
}
public static Document privateKeyToXML(RSAPrivateCrtKey key)
{
try
{
Document result = DocumentBuilderFactory.newInstance().newDocumentBuilder().newDocument();
Element rsaKeyValue = result.createElement("RSAKeyValue");
result.appendChild(rsaKeyValue);
Element modulus = result.createElement("Modulus");
rsaKeyValue.appendChild(modulus);
Element exponent = result.createElement("Exponent");
rsaKeyValue.appendChild(exponent);
Element P = result.createElement("P");
rsaKeyValue.appendChild(P);
Element Q = result.createElement("Q");
rsaKeyValue.appendChild(Q);
Element DP = result.createElement("DP");
rsaKeyValue.appendChild(DP);
Element DQ = result.createElement("DQ");
rsaKeyValue.appendChild(DQ);
Element InverseQ = result.createElement("InverseQ");
rsaKeyValue.appendChild(InverseQ);
Element D = result.createElement("D");
rsaKeyValue.appendChild(D);
byte[] modulusBytes = key.getModulus().toByteArray();
modulusBytes = stripLeadingZeros(modulusBytes);
modulus.appendChild(result.createTextNode(new String(Base64.encode(modulusBytes, b64State_static))));
byte[] pubExponent = key.getPublicExponent().toByteArray();
exponent.appendChild(result.createTextNode(new String(Base64.encode(pubExponent, b64State_static))));
byte[] p = key.getPrimeP().toByteArray();
P.appendChild(result.createTextNode(new String(Base64.encode(p, b64State_static))));
byte[] q = key.getPrimeQ().toByteArray();
Q.appendChild(result.createTextNode(new String(Base64.encode(q, b64State_static))));
byte[] ep = key.getPrimeExponentP().toByteArray();
DP.appendChild(result.createTextNode(new String(Base64.encode(ep, b64State_static))));
byte[] eq = key.getPrimeExponentP().toByteArray();
DQ.appendChild(result.createTextNode(new String(Base64.encode(eq, b64State_static))));
byte[] cof = key.getCrtCoefficient().toByteArray();
InverseQ.appendChild(result.createTextNode(new String(Base64.encode(cof, b64State_static))));
byte[] priExponent = key.getPrivateExponent().toByteArray();
D.appendChild(result.createTextNode(new String(Base64.encode(priExponent, b64State_static))));
return result;
}
catch(Exception e)
{
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public static byte[] stripLeadingZeros(byte[] input)
{
while (input[0] == (byte) 0)
{
input = Arrays.copyOfRange(input, 1, input.length);
}
return input;
}
public static void saveKey(File file, PublicKey key)
{
try
{
X509EncodedKeySpec x509EncodedKeySpec = new X509EncodedKeySpec(key.getEncoded());
FileOutputStream fos = new FileOutputStream(file);
fos.write(x509EncodedKeySpec.getEncoded());
fos.close();
}
catch(Exception e){}
}
public static void saveKey(File file, PrivateKey key)
{
try
{
PKCS8EncodedKeySpec pkcs8EncodedKeySpec = new PKCS8EncodedKeySpec(key.getEncoded());
FileOutputStream fos = new FileOutputStream(file);
fos.write(pkcs8EncodedKeySpec.getEncoded());
fos.close();
}
catch(Exception e){}
}
public PublicKey openPublicKey(String path, String algorithm)
{
try
{
File filePublicKey = new File(path);
FileInputStream fis = new FileInputStream(path);
byte[] encodedPublicKey = new byte[(int) filePublicKey.length()];
fis.read(encodedPublicKey);
fis.close();
KeyFactory keyFactory = KeyFactory.getInstance(algorithm);
X509EncodedKeySpec publicKeySpec = new X509EncodedKeySpec(encodedPublicKey);
return keyFactory.generatePublic(publicKeySpec);
}
catch(Exception e){}
return null;
}
public PrivateKey openPrivateKey(String path, String algorithm)
{
try
{
File filePrivateKey = new File(path);
FileInputStream fis = new FileInputStream(path);
byte[] encodedPrivateKey = new byte[(int) filePrivateKey.length()];
fis.read(encodedPrivateKey);
fis.close();
KeyFactory keyFactory = KeyFactory.getInstance(algorithm);//RSA
PKCS8EncodedKeySpec privateKeySpec = new PKCS8EncodedKeySpec(encodedPrivateKey);
return keyFactory.generatePrivate(privateKeySpec);
}
catch(Exception e){}
return null;
}
public static RSAPublicKey fetchPublicKeyFromXML(Document xml)
{
try
{
Element root = XMLMaster.getRoot(xml);
String mud = XMLMaster.getTextContent(root, "Modulus", 0);
String pubE = XMLMaster.getNodeValue(root, "Exponent", 0);
return generatePublicKeyFromDotNet(mud, pubE);
}
catch (Throwable e)
{
//throw new RuntimeException("Err: can not fetch PublicKey. " + e.toString());
ThreadHelper.exceptionAlert(e, Constants.TAG_FOR_LOG, "Err: can not fetch PublicKey. ", Constants.DEFAULT_ALERT_STATE);
}
return null;
}
public static RSAPrivateCrtKey fetchPrivateKeyFromXML(Document xml)
{
try
{
Element root = XMLMaster.getRoot(xml);
String mud = XMLMaster.getTextContent(root, "Modulus", 0);
String pubE = XMLMaster.getNodeValue(root, "Exponent", 0);
String priE = XMLMaster.getNodeValue(root, "D", 0);
String p = XMLMaster.getNodeValue(root, "P", 0);
String Q = XMLMaster.getNodeValue(root, "Q", 0);
String EP = XMLMaster.getNodeValue(root, "DP", 0);
String EQ = XMLMaster.getNodeValue(root, "DQ", 0);
String cof = XMLMaster.getNodeValue(root, "InverseQ", 0);
return generatePrivateKeyFromDotNet(mud, pubE, priE, p, Q, EP, EQ, cof);
}
catch (Throwable e)
{
throw new RuntimeException("Err: can not fetch PrivateKey. " + e.toString());
}
}
public static PrivateKey loadPrivateKey(String privateKeyB64)
{
try
{
byte[] buffer = Base64.decode(privateKeyB64, Base64.NO_WRAP);
PKCS8EncodedKeySpec keySpec = new PKCS8EncodedKeySpec(buffer);
KeyFactory keyFactory = KeyFactory.getInstance("RSA");
return keyFactory.generatePrivate(keySpec);
//Class c = Reflector.getClassByAddressName("com.android.org.conscrypt.OpenSSLRSAPrivateKey");
//RSAPrivateKeySpec privSpec = new RSAPrivateKeySpec(modules, d);
}
catch (Throwable e)
{
throw new RuntimeException("Err: can not load PrivateKey. " + e.toString());
}
}
public String convertCaseToString(BigInteger num)
{
return num.toString(16);
} // Use: convertCaseToString(rsa.getPublicModule())
}