@Test
public void test() throws SymmetricKeyDecryptionException, SymmetricKeyEncryptionException {
// Precondition:
// Owner has pw-protected MasterKeystore containig MKey_sig and MKey_enc
// Owner hat lesser protected DeviceKeystore containing at least one
// DeviceKey DevKey_1_enc
// Create Empty SharePartList
assertNotNull(volume);
// ShareMetaData shareMetaData = volume.createShareMetaData(alias,
// mKey_sig_pub, mKey_sig, deviceAlias, devKey1_enc);
ShareMetaData shareMetaData = null;
try {
shareMetaData =
new ShareMetaData(
new JDBCHelperNonRevokeable("jdbc:sqlite:" + dbName + File.separator), mKey_sig_pub);
} catch (Exception e) {
e.printStackTrace();
fail(e.getMessage());
}
try {
Field smdField = Volume.class.getDeclaredField("shareMetaData");
smdField.setAccessible(true);
smdField.set(volume, shareMetaData);
} catch (Exception e) {
fail(e.getMessage());
}
assertNotNull(shareMetaData);
SharePartList spl = shareMetaData.initSharePartList();
assertEquals("SharePartList is not empty, although it should be", 0, spl.size());
// Sign SharePartList
try {
spl.sign(mKey_sig);
assertTrue(CryptCore.verifySignature(spl, spl.getSignature(), mKey_sig_pub));
} catch (SignatureException e2) {
fail(e2.getMessage());
}
spl.add(mKey_sig_pub, alias);
assertEquals("SharePartList is not empty, although it should be", 1, spl.size());
try {
spl.sign(mKey_sig);
assertTrue(CryptCore.verifySignature(spl, spl.getSignature(), mKey_sig_pub));
} catch (SignatureException e2) {
fail(e2.getMessage());
}
// get DevKeys for the Devices that the owner wants to enable for this
// Volume
// Put keys in dkList
dkList.put(deviceAlias, devKey1_enc);
assertEquals("DeviceKeyList should have 1 element", 1, dkList.size());
// Create and sign devicelist
DeviceList dl = shareMetaData.createDeviceList(mKey_sig_pub, dkList);
assertEquals(
"ShareMetaData should have 1 DeviceList",
1,
shareMetaData.getDeviceLists().values().size());
// Create symmetric ShareKey
SecretKey sk = CryptCore.generateSymmetricKey();
assertNotNull(sk);
// Encrypt sk for all deviceLists
Collection<DeviceList> deviceLists = shareMetaData.getDeviceLists().values();
Collection<PublicKey> pubKeys = new LinkedList<PublicKey>();
for (DeviceList devList : deviceLists) {
pubKeys.addAll(devList.getPublicKeys());
}
assertEquals(1, pubKeys.size());
// fetch ShareKeyDB
ShareKeyDB db = shareMetaData.getShareKeys();
assertNotNull(db);
// add Encrypted Keys to db
try {
db.add(sk, pubKeys);
} catch (SymmetricKeyEncryptionException e1) {
fail(e1.getMessage());
}
assertEquals(1, db.size());
try {
db.sign(mKey_sig, alias);
} catch (SignatureException e1) {
fail(e1.getMessage());
}
// Encrypt skOb for all deviceLists
shareMetaData.addObfuscationKey(devKey1_enc, null, null);
System.out.println("Making ShareMetaData persistent...");
try {
dl.sign(mKey_sig, shareMetaData.shareKeys, shareMetaData.obfuscationKeys);
assertTrue(
SignatureHelper.verify(
dl.getSignature(),
mKey_sig_pub,
dl,
shareMetaData.shareKeys.get(dl.getPublicKeys()),
shareMetaData.obfuscationKeys.get(dl.getPublicKeys())));
} catch (SignatureException
| InvalidKeyException
| NoSuchAlgorithmException
| SerializationException e2) {
fail(e2.getMessage());
}
// make sharemetadata persistent
try {
shareMetaData.persist();
shareMetaData.persist(dl);
} catch (Exception e) {
fail(e.getMessage());
}
System.out.println("Loading Volume...");
// load volume with sharemetadata
try {
Volume loadedVol = new Volume(dbName);
ShareMetaData loadedSMD = loadedVol.loadShareMetaData(mKey_sig_pub);
assertArrayEquals(shareMetaData.getSignature(), loadedSMD.getSignature());
System.out.println("DONE");
} catch (Exception e) {
e.printStackTrace(System.err);
fail(e.getMessage());
}
}
@SuppressWarnings("unchecked")
@Test
public void testNewAPI()
throws NoSuchFieldException, SecurityException, IllegalArgumentException,
IllegalAccessException {
VolumeParamsFactory pf = VolumeParamsFactory.getFactory();
assertNotNull(volume);
ShareMetaData smd = null;
Volume volume2 = null;
ShareMetaData smd2 = null;
try {
VolumeParams p =
pf.createVolumeParams()
.setOwnerAlias(alias)
.setPublicSignatureKey(mKey_sig_pub)
.setPrivateSignatureKey(mKey_sig)
.setPublicEncryptionKey(mKey_enc_pub)
.setPrivateEncryptionKey(mKey_enc)
.setDeviceAlias(deviceAlias)
.setPublicDeviceKey(devKey1_enc);
smd = volume.createShareMetaData(p);
assertNotNull(smd);
} catch (Exception e) {
e.printStackTrace();
fail(e.getMessage());
}
try {
ObfuscationKeyDB okdb = smd.obfuscationKeys;
Field f = ObfuscationKeyDB.class.getDeclaredField("obfuscationKeys");
f.setAccessible(true);
int size = ((TreeMap<PublicKey, byte[]>) f.get(okdb)).size();
assertEquals(2, size);
} catch (Exception e) {
fail(e.getMessage());
}
try {
volume2 = new Volume(dbName);
smd2 = volume2.loadShareMetaData(mKey_sig_pub);
assertNotNull(smd2);
} catch (Exception e) {
fail(e.getMessage());
}
assertEquals(smd, smd2);
try {
volume.addDevice(
alias, mKey_sig_pub, mKey_sig, deviceAlias2, devKey2_enc, mKey_enc_pub, mKey_enc);
} catch (ShareMetaDataException e) {
fail(e.getMessage());
}
try {
ObfuscationKeyDB okdb = smd.obfuscationKeys;
Field f = ObfuscationKeyDB.class.getDeclaredField("obfuscationKeys");
f.setAccessible(true);
int size = ((TreeMap<PublicKey, byte[]>) f.get(okdb)).size();
assertEquals(3, size);
} catch (Exception e) {
fail(e.getMessage());
}
// try {
// volume.removeDevice(alias, mKey_sig_pub, mKey_sig, deviceAlias);
// } catch (Exception e) {
// fail(e.getMessage());
// }
//
// try {
// ObfuscationKeyDB okdb = smd.obfuscationKeys;
// Field f = ObfuscationKeyDB.class
// .getDeclaredField("obfuscationKeys");
// f.setAccessible(true);
// int size = ((TreeMap<PublicKey, byte[]>) f.get(okdb)).size();
// assertEquals(2, size);
// } catch (Exception e) {
// fail(e.getMessage());
// }
//
// try {
// volume.removeDevice(alias, mKey_sig_pub, mKey_sig, deviceAlias);
// } catch (Exception e) {
// fail(e.getMessage());
// }
//
// try {
// ObfuscationKeyDB okdb = smd.obfuscationKeys;
// Field f = ObfuscationKeyDB.class
// .getDeclaredField("obfuscationKeys");
// f.setAccessible(true);
// int size = ((TreeMap<PublicKey, byte[]>) f.get(okdb)).size();
// assertEquals(2, size);
// } catch (Exception e) {
// fail(e.getMessage());
// }
//
// try {
// volume.removeDevice(alias, mKey_sig_pub, mKey_sig, deviceAlias2);
// } catch (Exception e) {
// fail(e.getMessage());
// }
//
// try {
// ObfuscationKeyDB okdb = smd.obfuscationKeys;
// Field f = ObfuscationKeyDB.class
// .getDeclaredField("obfuscationKeys");
// f.setAccessible(true);
// int size = ((TreeMap<PublicKey, byte[]>) f.get(okdb)).size();
// assertEquals(1, size);
// } catch (Exception e) {
// fail(e.getMessage());
// }
//
// try {
// volume.addDevice(alias, mKey_sig_pub, mKey_sig, deviceAlias2,
// devKey2_enc, mKey_enc_pub, mKey_enc);
// } catch (ShareMetaDataException e) {
// fail(e.getMessage());
// }
//
// try {
// ObfuscationKeyDB okdb = smd.obfuscationKeys;
// Field f = ObfuscationKeyDB.class
// .getDeclaredField("obfuscationKeys");
// f.setAccessible(true);
// int size = ((TreeMap<PublicKey, byte[]>) f.get(okdb)).size();
// assertEquals(2, size);
// } catch (Exception e) {
// fail(e.getMessage());
// }
}
