/// <summary>
/// Decrypt cKeyData.
/// </summary>
///
/// <param name="cKeyData">The C-KEY data packet.</param>
/// <param name="onPlainText_0"></param>
/// <param name="onError_1">This calls onError.onError(errorCode, message) for an error.</param>
internal void decryptCKey(Data cKeyData, Consumer.OnPlainText onPlainText_0,
net.named_data.jndn.encrypt.EncryptError.OnError onError_1)
{
// Get the encrypted content.
Blob cKeyContent = cKeyData.getContent();
EncryptedContent cKeyEncryptedContent_2 = new EncryptedContent();
try {
cKeyEncryptedContent_2.wireDecode(cKeyContent);
} catch (EncodingException ex) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.InvalidEncryptedFormat,
ex.Message);
} catch (Exception exception) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception);
}
return;
}
Name eKeyName = cKeyEncryptedContent_2.getKeyLocator().getKeyName();
Name dKeyName_3 = eKeyName.getPrefix(-3);
dKeyName_3.append(net.named_data.jndn.encrypt.algo.Encryptor.NAME_COMPONENT_D_KEY).append(
eKeyName.getSubName(-2));
// Check if the decryption key is already in the store.
Blob dKey = (Blob)ILOG.J2CsMapping.Collections.Collections.Get(dKeyMap_, dKeyName_3);
if (dKey != null)
{
decrypt(cKeyEncryptedContent_2, dKey, onPlainText_0, onError_1);
}
else
{
// Get the D-Key Data.
Name interestName = new Name(dKeyName_3);
interestName.append(net.named_data.jndn.encrypt.algo.Encryptor.NAME_COMPONENT_FOR).append(
consumerName_);
Interest interest_4 = new Interest(interestName);
// Prepare the callback functions.
OnData onData_5 = new Consumer.Anonymous_C2(this, onError_1, onPlainText_0, cKeyEncryptedContent_2,
dKeyName_3);
OnTimeout onTimeout = new Consumer.Anonymous_C1(this, interest_4, onData_5, onError_1);
// Express the Interest.
try {
face_.expressInterest(interest_4, onData_5, onTimeout);
} catch (IOException ex_6) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.IOException,
"expressInterest error: " + ex_6.Message);
} catch (Exception exception_7) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception_7);
}
}
}
}
/// <summary>
/// Decrypt the data packet.
/// </summary>
///
/// <param name="data">The data packet.</param>
/// <param name="onPlainText_0"></param>
/// <param name="onError_1">This calls onError.onError(errorCode, message) for an error.</param>
internal void decryptContent(Data data, Consumer.OnPlainText onPlainText_0,
net.named_data.jndn.encrypt.EncryptError.OnError onError_1)
{
// Get the encrypted content.
EncryptedContent dataEncryptedContent_2 = new EncryptedContent();
try {
dataEncryptedContent_2.wireDecode(data.getContent());
} catch (EncodingException ex) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.InvalidEncryptedFormat,
ex.Message);
} catch (Exception exception) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception);
}
return;
}
Name cKeyName_3 = dataEncryptedContent_2.getKeyLocator().getKeyName();
// Check if the content key is already in the store.
Blob cKey = (Blob)ILOG.J2CsMapping.Collections.Collections.Get(cKeyMap_, cKeyName_3);
if (cKey != null)
{
decrypt(dataEncryptedContent_2, cKey, onPlainText_0, onError_1);
}
else
{
// Retrieve the C-KEY Data from the network.
Name interestName = new Name(cKeyName_3);
interestName.append(net.named_data.jndn.encrypt.algo.Encryptor.NAME_COMPONENT_FOR)
.append(groupName_);
Interest interest_4 = new Interest(interestName);
// Prepare the callback functions.
OnData onData_5 = new Consumer.Anonymous_C4(this, cKeyName_3, dataEncryptedContent_2, onPlainText_0,
onError_1);
OnTimeout onTimeout = new Consumer.Anonymous_C3(this, onError_1, interest_4, onData_5);
// Express the Interest.
try {
face_.expressInterest(interest_4, onData_5, onTimeout);
} catch (IOException ex_6) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.IOException,
"expressInterest error: " + ex_6.Message);
} catch (Exception exception_7) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception_7);
}
}
}
}
/// <summary>
/// Decode encryptedBlob as an EncryptedContent and decrypt using keyBits.
/// </summary>
///
/// <param name="encryptedBlob">The encoded EncryptedContent to decrypt.</param>
/// <param name="keyBits">The key value.</param>
/// <param name="onPlainText_0"></param>
/// <param name="onError_1">This calls onError.onError(errorCode, message) for an error.</param>
private static void decrypt(Blob encryptedBlob, Blob keyBits,
Consumer.OnPlainText onPlainText_0, net.named_data.jndn.encrypt.EncryptError.OnError onError_1)
{
EncryptedContent encryptedContent = new EncryptedContent();
try {
encryptedContent.wireDecode(encryptedBlob);
} catch (EncodingException ex) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.InvalidEncryptedFormat,
ex.Message);
} catch (Exception exception) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception);
}
return;
}
decrypt(encryptedContent, keyBits, onPlainText_0, onError_1);
}
/// <summary>
/// Decrypt the data packet.
/// </summary>
///
/// <param name="data">The data packet. This does not verify the packet.</param>
/// <param name="onPlainText_0"></param>
/// <param name="onError_1">This calls onError.onError(errorCode, message) for an error.</param>
internal void decryptContent(Data data, Consumer.OnPlainText onPlainText_0,
net.named_data.jndn.encrypt.EncryptError.OnError onError_1)
{
// Get the encrypted content.
EncryptedContent dataEncryptedContent_2 = new EncryptedContent();
try {
dataEncryptedContent_2.wireDecode(data.getContent());
} catch (EncodingException ex) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.InvalidEncryptedFormat,
ex.Message);
} catch (Exception exception) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception);
}
return;
}
Name cKeyName_3 = dataEncryptedContent_2.getKeyLocator().getKeyName();
// Check if the content key is already in the store.
Blob cKey = (Blob)ILOG.J2CsMapping.Collections.Collections.Get(cKeyMap_, cKeyName_3);
if (cKey != null)
{
decrypt(dataEncryptedContent_2, cKey, onPlainText_0, onError_1);
}
else
{
// Retrieve the C-KEY Data from the network.
Name interestName = new Name(cKeyName_3);
interestName.append(net.named_data.jndn.encrypt.algo.Encryptor.NAME_COMPONENT_FOR)
.append(groupName_);
Interest interest = new Interest(interestName);
sendInterest(interest, 1, cKeyLink_, new Consumer.Anonymous_C5(this, dataEncryptedContent_2, onError_1, onPlainText_0,
cKeyName_3), onError_1);
}
}
/// <summary>
/// Decrypt dKeyData.
/// </summary>
///
/// <param name="dKeyData">The D-KEY data packet.</param>
/// <param name="onPlainText_0"></param>
/// <param name="onError_1">This calls onError.onError(errorCode, message) for an error.</param>
internal void decryptDKey(Data dKeyData, Consumer.OnPlainText onPlainText_0,
net.named_data.jndn.encrypt.EncryptError.OnError onError_1)
{
// Get the encrypted content.
Blob dataContent = dKeyData.getContent();
// Process the nonce.
// dataContent is a sequence of the two EncryptedContent.
EncryptedContent encryptedNonce = new EncryptedContent();
try {
encryptedNonce.wireDecode(dataContent);
} catch (EncodingException ex) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.InvalidEncryptedFormat,
ex.Message);
} catch (Exception exception) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception);
}
return;
}
Name consumerKeyName = encryptedNonce.getKeyLocator().getKeyName();
// Get consumer decryption key.
Blob consumerKeyBlob;
try {
consumerKeyBlob = getDecryptionKey(consumerKeyName);
} catch (ConsumerDb.Error ex_2) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.NoDecryptKey,
"Database error: " + ex_2.Message);
} catch (Exception exception_3) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception_3);
}
return;
}
if (consumerKeyBlob.size() == 0)
{
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.NoDecryptKey,
"The desired consumer decryption key in not in the database");
} catch (Exception exception_4) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception_4);
}
return;
}
// Process the D-KEY.
// Use the size of encryptedNonce to find the start of encryptedPayload.
ByteBuffer encryptedPayloadBuffer = dataContent.buf().duplicate();
encryptedPayloadBuffer.position(encryptedNonce.wireEncode().size());
Blob encryptedPayloadBlob_5 = new Blob(encryptedPayloadBuffer,
false);
if (encryptedPayloadBlob_5.size() == 0)
{
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.InvalidEncryptedFormat,
"The data packet does not satisfy the D-KEY packet format");
} catch (Exception ex_6) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", ex_6);
}
return;
}
// Decrypt the D-KEY.
Consumer.OnPlainText callerOnPlainText_7 = onPlainText_0;
decrypt(encryptedNonce, consumerKeyBlob, new Consumer.Anonymous_C3(callerOnPlainText_7, onError_1, encryptedPayloadBlob_5), onError_1);
}
public void testContentAsymmetricEncryptLarge()
{
/* foreach */
foreach (TestEncryptor.AsymmetricEncryptInput input in encryptorRsaTestInputs) {
Blob largeContent = new Blob(toBuffer(new int[] { 0x73, 0x5a, 0xbd,
0x47, 0x0c, 0xfe, 0xf8, 0x7d, 0x2e, 0x17, 0xaa, 0x11, 0x6f,
0x23, 0xc5, 0x10, 0x23, 0x36, 0x88, 0xc4, 0x2a, 0x0f, 0x9a,
0x72, 0x54, 0x31, 0xa8, 0xb3, 0x51, 0x18, 0x9f, 0x0e, 0x1b,
0x93, 0x62, 0xd9, 0xc4, 0xf5, 0xf4, 0x3d, 0x61, 0x9a, 0xca,
0x05, 0x65, 0x6b, 0xc6, 0x41, 0xf9, 0xd5, 0x1c, 0x67, 0xc1,
0xd0, 0xd5, 0x6f, 0x7b, 0x70, 0xb8, 0x8f, 0xdb, 0x19, 0x68,
0x7c, 0xe0, 0x2d, 0x04, 0x49, 0xa9, 0xa2, 0x77, 0x4e, 0xfc,
0x60, 0x0d, 0x7c, 0x1b, 0x93, 0x6c, 0xd2, 0x61, 0xc4, 0x6b,
0x01, 0xe9, 0x12, 0x28, 0x6d, 0xf5, 0x78, 0xe9, 0x99, 0x0b,
0x9c, 0x4f, 0x90, 0x34, 0x3e, 0x06, 0x92, 0x57, 0xe3, 0x7a,
0x8f, 0x13, 0xc7, 0xf3, 0xfe, 0xf0, 0xe2, 0x59, 0x48, 0x15,
0xb9, 0xdb, 0x77, 0x07, 0x1d, 0x6d, 0xb5, 0x65, 0x17, 0xdf,
0x76, 0x6f, 0xb5, 0x43, 0xde, 0x71, 0xac, 0xf1, 0x22, 0xbf,
0xb2, 0xe5, 0xd9, 0x22, 0xf1, 0x67, 0x76, 0x71, 0x0c, 0xff,
0x99, 0x7b, 0x94, 0x9b, 0x24, 0x20, 0x80, 0xe3, 0xcc, 0x06,
0x4a, 0xed, 0xdf, 0xec, 0x50, 0xd5, 0x87, 0x3d, 0xa0, 0x7d,
0x9c, 0xe5, 0x13, 0x10, 0x98, 0x14, 0xc3, 0x90, 0x10, 0xd9,
0x25, 0x9a, 0x59, 0xe9, 0x37, 0x26, 0xfd, 0x87, 0xd7, 0xf4,
0xf9, 0x11, 0x91, 0xad, 0x5c, 0x00, 0x95, 0xf5, 0x2b, 0x37,
0xf7, 0x4e, 0xb4, 0x4b, 0x42, 0x7c, 0xb3, 0xad, 0xd6, 0x33,
0x5f, 0x0b, 0x84, 0x57, 0x7f, 0xa7, 0x07, 0x73, 0x37, 0x4b,
0xab, 0x2e, 0xfb, 0xfe, 0x1e, 0xcb, 0xb6, 0x4a, 0xc1, 0x21,
0x5f, 0xec, 0x92, 0xb7, 0xac, 0x97, 0x75, 0x20, 0xc9, 0xd8,
0x9e, 0x93, 0xd5, 0x12, 0x7a, 0x64, 0xb9, 0x4c, 0xed, 0x49,
0x87, 0x44, 0x5b, 0x4f, 0x90, 0x34, 0x3e, 0x06, 0x92, 0x57,
0xe3, 0x7a, 0x8f, 0x13, 0xc7, 0xf3, 0xfe, 0xf0, 0xe2, 0x59,
0x48, 0x15, 0xb9, 0xdb, 0x77, 0x07, 0x1d, 0x6d, 0xb5, 0x65,
0x17, 0xdf, 0x76, 0x6f, 0xb5, 0x43, 0xde, 0x71, 0xac, 0xf1,
0x22, 0xbf, 0xb2, 0xe5, 0xd9 }), false);
Data data = new Data();
RsaKeyParams rsaParams = new RsaKeyParams(1024);
Name keyName = new Name("test");
DecryptKey decryptKey = net.named_data.jndn.encrypt.algo.RsaAlgorithm.generateKey(rsaParams);
EncryptKey encryptKey = net.named_data.jndn.encrypt.algo.RsaAlgorithm.deriveEncryptKey(decryptKey
.getKeyBits());
Blob eKey = encryptKey.getKeyBits();
Blob dKey = decryptKey.getKeyBits();
EncryptParams encryptParams = new EncryptParams(input.type());
net.named_data.jndn.encrypt.algo.Encryptor.encryptData(data, largeContent, keyName, eKey,
encryptParams);
Assert.AssertEquals(input.testName(), new Name("/FOR").append(keyName),
data.getName());
Blob largeDataContent = data.getContent();
// largeDataContent is a sequence of the two EncryptedContent.
EncryptedContent encryptedNonce = new EncryptedContent();
encryptedNonce.wireDecode(largeDataContent);
Assert.AssertEquals(input.testName(), keyName, encryptedNonce
.getKeyLocator().getKeyName());
Assert.AssertEquals(input.testName(), 0, encryptedNonce.getInitialVector()
.size());
Assert.AssertEquals(input.testName(), input.type(),
encryptedNonce.getAlgorithmType());
// Use the size of encryptedNonce to find the start of encryptedPayload.
ByteBuffer payloadContent = largeDataContent.buf().duplicate();
payloadContent.position(encryptedNonce.wireEncode().size());
EncryptedContent encryptedPayload = new EncryptedContent();
encryptedPayload.wireDecode(payloadContent);
Name nonceKeyName = new Name(keyName);
nonceKeyName.append("nonce");
Assert.AssertEquals(input.testName(), nonceKeyName, encryptedPayload
.getKeyLocator().getKeyName());
Assert.AssertEquals(input.testName(), 16, encryptedPayload
.getInitialVector().size());
Assert.AssertEquals(input.testName(), net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.AesCbc,
encryptedPayload.getAlgorithmType());
Assert.AssertTrue(input.testName(), encryptedNonce.wireEncode().size()
+ encryptedPayload.wireEncode().size() == largeDataContent
.size());
Blob blobNonce = encryptedNonce.getPayload();
Blob nonce = net.named_data.jndn.encrypt.algo.RsaAlgorithm.decrypt(dKey, blobNonce, encryptParams);
encryptParams.setAlgorithmType(net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.AesCbc);
encryptParams.setInitialVector(encryptedPayload.getInitialVector());
Blob bufferPayload = encryptedPayload.getPayload();
Blob largePayload = net.named_data.jndn.encrypt.algo.AesAlgorithm.decrypt(nonce, bufferPayload,
encryptParams);
Assert.AssertTrue(input.testName(), largeContent.equals(largePayload));
}
}
public void testContentSymmetricEncrypt()
{
/* foreach */
foreach (TestEncryptor.SymmetricEncryptInput input in encryptorAesTestInputs) {
Data data = new Data();
net.named_data.jndn.encrypt.algo.Encryptor.encryptData(data, input.plainText(), input.keyName(),
input.key(), input.encryptParams());
Assert.AssertEquals(input.testName(),
new Name("/FOR").append(input.keyName()), data.getName());
Assert.AssertTrue(input.testName(),
input.encryptedContent().equals(data.getContent()));
EncryptedContent content = new EncryptedContent();
content.wireDecode(data.getContent());
Blob decryptedOutput = net.named_data.jndn.encrypt.algo.AesAlgorithm.decrypt(input.key(),
content.getPayload(), input.encryptParams());
Assert.AssertTrue(input.testName(),
input.plainText().equals(decryptedOutput));
}
}
public void testContentAsymmetricEncryptSmall()
{
/* foreach */
foreach (TestEncryptor.AsymmetricEncryptInput input in encryptorRsaTestInputs) {
Blob rawContent = new Blob(toBuffer(new int[] { 0x01, 0x23, 0x45,
0x67, 0x89, 0xab, 0xcd, 0xef, 0xfe, 0xdc, 0xba, 0x98, 0x76,
0x54, 0x32, 0x10, 0x63, 0x6f, 0x6e, 0x74, 0x65, 0x6e, 0x74,
0x73 }), false);
Data data = new Data();
RsaKeyParams rsaParams = new RsaKeyParams(1024);
Name keyName = new Name("test");
DecryptKey decryptKey = net.named_data.jndn.encrypt.algo.RsaAlgorithm.generateKey(rsaParams);
EncryptKey encryptKey = net.named_data.jndn.encrypt.algo.RsaAlgorithm.deriveEncryptKey(decryptKey
.getKeyBits());
Blob eKey = encryptKey.getKeyBits();
Blob dKey = decryptKey.getKeyBits();
EncryptParams encryptParams = new EncryptParams(input.type());
net.named_data.jndn.encrypt.algo.Encryptor.encryptData(data, rawContent, keyName, eKey,
encryptParams);
Assert.AssertEquals(input.testName(), new Name("/FOR").append(keyName),
data.getName());
EncryptedContent extractContent = new EncryptedContent();
extractContent.wireDecode(data.getContent());
Assert.AssertEquals(input.testName(), keyName, extractContent
.getKeyLocator().getKeyName());
Assert.AssertEquals(input.testName(), 0, extractContent.getInitialVector()
.size());
Assert.AssertEquals(input.testName(), input.type(),
extractContent.getAlgorithmType());
Blob recovered = extractContent.getPayload();
Blob decrypted = net.named_data.jndn.encrypt.algo.RsaAlgorithm.decrypt(dKey, recovered,
encryptParams);
Assert.AssertTrue(input.testName(), rawContent.equals(decrypted));
}
}
/// <summary>
/// Decode encryptedBlob as an EncryptedContent and decrypt using keyBits.
/// </summary>
///
/// <param name="encryptedBlob">The encoded EncryptedContent to decrypt.</param>
/// <param name="keyBits">The key value.</param>
/// <param name="onPlainText_0"></param>
/// <param name="onError_1">This calls onError.onError(errorCode, message) for an error.</param>
private static void decrypt(Blob encryptedBlob, Blob keyBits,
Consumer.OnPlainText onPlainText_0, net.named_data.jndn.encrypt.EncryptError.OnError onError_1)
{
EncryptedContent encryptedContent = new EncryptedContent();
try {
encryptedContent.wireDecode(encryptedBlob);
} catch (EncodingException ex) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.InvalidEncryptedFormat,
ex.Message);
} catch (Exception exception) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception);
}
return;
}
decrypt(encryptedContent, keyBits, onPlainText_0, onError_1);
}
/// <summary>
/// Decrypt the data packet.
/// </summary>
///
/// <param name="data">The data packet. This does not verify the packet.</param>
/// <param name="onPlainText_0"></param>
/// <param name="onError_1">This calls onError.onError(errorCode, message) for an error.</param>
internal void decryptContent(Data data, Consumer.OnPlainText onPlainText_0,
net.named_data.jndn.encrypt.EncryptError.OnError onError_1)
{
// Get the encrypted content.
EncryptedContent dataEncryptedContent_2 = new EncryptedContent();
try {
dataEncryptedContent_2.wireDecode(data.getContent());
} catch (EncodingException ex) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.InvalidEncryptedFormat,
ex.Message);
} catch (Exception exception) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception);
}
return;
}
Name cKeyName_3 = dataEncryptedContent_2.getKeyLocator().getKeyName();
// Check if the content key is already in the store.
Blob cKey = (Blob) ILOG.J2CsMapping.Collections.Collections.Get(cKeyMap_,cKeyName_3);
if (cKey != null)
decrypt(dataEncryptedContent_2, cKey, onPlainText_0, onError_1);
else {
// Retrieve the C-KEY Data from the network.
Name interestName = new Name(cKeyName_3);
interestName.append(net.named_data.jndn.encrypt.algo.Encryptor.NAME_COMPONENT_FOR)
.append(groupName_);
Interest interest_4 = new Interest(interestName);
// Prepare the callback functions.
OnData onData_5 = new Consumer.Anonymous_C4 (this, cKeyName_3, onError_1, onPlainText_0,
dataEncryptedContent_2);
OnTimeout onTimeout = new Consumer.Anonymous_C3 (this, onData_5, onError_1, interest_4);
// Express the Interest.
try {
face_.expressInterest(interest_4, onData_5, onTimeout);
} catch (IOException ex_6) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.IOException,
"expressInterest error: " + ex_6.Message);
} catch (Exception exception_7) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception_7);
}
}
}
}
/// <summary>
/// Decrypt dKeyData.
/// </summary>
///
/// <param name="dKeyData">The D-KEY data packet.</param>
/// <param name="onPlainText_0"></param>
/// <param name="onError_1">This calls onError.onError(errorCode, message) for an error.</param>
internal void decryptDKey(Data dKeyData, Consumer.OnPlainText onPlainText_0,
net.named_data.jndn.encrypt.EncryptError.OnError onError_1)
{
// Get the encrypted content.
Blob dataContent = dKeyData.getContent();
// Process the nonce.
// dataContent is a sequence of the two EncryptedContent.
EncryptedContent encryptedNonce = new EncryptedContent();
try {
encryptedNonce.wireDecode(dataContent);
} catch (EncodingException ex) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.InvalidEncryptedFormat,
ex.Message);
} catch (Exception exception) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception);
}
return;
}
Name consumerKeyName = encryptedNonce.getKeyLocator().getKeyName();
// Get consumer decryption key.
Blob consumerKeyBlob;
try {
consumerKeyBlob = getDecryptionKey(consumerKeyName);
} catch (ConsumerDb.Error ex_2) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.NoDecryptKey,
"Database error: " + ex_2.Message);
} catch (Exception exception_3) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception_3);
}
return;
}
if (consumerKeyBlob.size() == 0) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.NoDecryptKey,
"The desired consumer decryption key in not in the database");
} catch (Exception exception_4) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception_4);
}
return;
}
// Process the D-KEY.
// Use the size of encryptedNonce to find the start of encryptedPayload.
ByteBuffer encryptedPayloadBuffer = dataContent.buf().duplicate();
encryptedPayloadBuffer.position(encryptedNonce.wireEncode().size());
Blob encryptedPayloadBlob_5 = new Blob(encryptedPayloadBuffer,
false);
if (encryptedPayloadBlob_5.size() == 0) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.InvalidEncryptedFormat,
"The data packet does not satisfy the D-KEY packet format");
} catch (Exception ex_6) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", ex_6);
}
return;
}
// Decrypt the D-KEY.
Consumer.OnPlainText callerOnPlainText_7 = onPlainText_0;
decrypt(encryptedNonce, consumerKeyBlob, new Consumer.Anonymous_C0 (callerOnPlainText_7, encryptedPayloadBlob_5, onError_1), onError_1);
}
/// <summary>
/// Decrypt cKeyData.
/// </summary>
///
/// <param name="cKeyData">The C-KEY data packet.</param>
/// <param name="onPlainText_0"></param>
/// <param name="onError_1">This calls onError.onError(errorCode, message) for an error.</param>
internal void decryptCKey(Data cKeyData, Consumer.OnPlainText onPlainText_0,
net.named_data.jndn.encrypt.EncryptError.OnError onError_1)
{
// Get the encrypted content.
Blob cKeyContent = cKeyData.getContent();
EncryptedContent cKeyEncryptedContent_2 = new EncryptedContent();
try {
cKeyEncryptedContent_2.wireDecode(cKeyContent);
} catch (EncodingException ex) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.InvalidEncryptedFormat,
ex.Message);
} catch (Exception exception) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception);
}
return;
}
Name eKeyName = cKeyEncryptedContent_2.getKeyLocator().getKeyName();
Name dKeyName_3 = eKeyName.getPrefix(-3);
dKeyName_3.append(net.named_data.jndn.encrypt.algo.Encryptor.NAME_COMPONENT_D_KEY).append(
eKeyName.getSubName(-2));
// Check if the decryption key is already in the store.
Blob dKey = (Blob) ILOG.J2CsMapping.Collections.Collections.Get(dKeyMap_,dKeyName_3);
if (dKey != null)
decrypt(cKeyEncryptedContent_2, dKey, onPlainText_0, onError_1);
else {
// Get the D-Key Data.
Name interestName = new Name(dKeyName_3);
interestName.append(net.named_data.jndn.encrypt.algo.Encryptor.NAME_COMPONENT_FOR).append(
consumerName_);
Interest interest_4 = new Interest(interestName);
// Prepare the callback functions.
OnData onData_5 = new Consumer.Anonymous_C2 (this, onError_1, onPlainText_0, dKeyName_3,
cKeyEncryptedContent_2);
OnTimeout onTimeout = new Consumer.Anonymous_C1 (this, interest_4, onData_5, onError_1);
// Express the Interest.
try {
face_.expressInterest(interest_4, onData_5, onTimeout);
} catch (IOException ex_6) {
try {
onError_1.onError(net.named_data.jndn.encrypt.EncryptError.ErrorCode.IOException,
"expressInterest error: " + ex_6.Message);
} catch (Exception exception_7) {
logger_.log(ILOG.J2CsMapping.Util.Logging.Level.SEVERE, "Error in onError", exception_7);
}
}
}
}
public void testConstructor()
{
// Check default settings.
EncryptedContent content = new EncryptedContent();
Assert.AssertEquals(net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.NONE, content.getAlgorithmType());
Assert.AssertEquals(true, content.getPayload().isNull());
Assert.AssertEquals(true, content.getInitialVector().isNull());
Assert.AssertEquals(net.named_data.jndn.KeyLocatorType.NONE, content.getKeyLocator().getType());
// Check an encrypted content with IV.
KeyLocator keyLocator = new KeyLocator();
keyLocator.setType(net.named_data.jndn.KeyLocatorType.KEYNAME);
keyLocator.getKeyName().set("/test/key/locator");
EncryptedContent rsaOaepContent = new EncryptedContent();
rsaOaepContent.setAlgorithmType(net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.RsaOaep)
.setKeyLocator(keyLocator).setPayload(new Blob(message, false))
.setInitialVector(new Blob(iv, false));
Assert.AssertEquals(net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.RsaOaep,
rsaOaepContent.getAlgorithmType());
Assert.AssertTrue(rsaOaepContent.getPayload().equals(new Blob(message, false)));
Assert.AssertTrue(rsaOaepContent.getInitialVector()
.equals(new Blob(iv, false)));
Assert.AssertTrue(rsaOaepContent.getKeyLocator().getType() != net.named_data.jndn.KeyLocatorType.NONE);
Assert.AssertTrue(rsaOaepContent.getKeyLocator().getKeyName()
.equals(new Name("/test/key/locator")));
// Encoding.
Blob encryptedBlob = new Blob(encrypted, false);
Blob encoded = rsaOaepContent.wireEncode();
Assert.AssertTrue(encryptedBlob.equals(encoded));
// Decoding.
EncryptedContent rsaOaepContent2 = new EncryptedContent();
rsaOaepContent2.wireDecode(encryptedBlob);
Assert.AssertEquals(net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.RsaOaep,
rsaOaepContent2.getAlgorithmType());
Assert.AssertTrue(rsaOaepContent2.getPayload()
.equals(new Blob(message, false)));
Assert.AssertTrue(rsaOaepContent2.getInitialVector().equals(
new Blob(iv, false)));
Assert.AssertTrue(rsaOaepContent2.getKeyLocator().getType() != net.named_data.jndn.KeyLocatorType.NONE);
Assert.AssertTrue(rsaOaepContent2.getKeyLocator().getKeyName()
.equals(new Name("/test/key/locator")));
// Check the no IV case.
EncryptedContent rsaOaepContentNoIv = new EncryptedContent();
rsaOaepContentNoIv.setAlgorithmType(net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.RsaOaep)
.setKeyLocator(keyLocator).setPayload(new Blob(message, false));
Assert.AssertEquals(net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.RsaOaep,
rsaOaepContentNoIv.getAlgorithmType());
Assert.AssertTrue(rsaOaepContentNoIv.getPayload().equals(
new Blob(message, false)));
Assert.AssertTrue(rsaOaepContentNoIv.getInitialVector().isNull());
Assert.AssertTrue(rsaOaepContentNoIv.getKeyLocator().getType() != net.named_data.jndn.KeyLocatorType.NONE);
Assert.AssertTrue(rsaOaepContentNoIv.getKeyLocator().getKeyName()
.equals(new Name("/test/key/locator")));
// Encoding.
Blob encryptedBlob2 = new Blob(encryptedNoIv, false);
Blob encodedNoIV = rsaOaepContentNoIv.wireEncode();
Assert.AssertTrue(encryptedBlob2.equals(encodedNoIV));
// Decoding.
EncryptedContent rsaOaepContentNoIv2 = new EncryptedContent();
rsaOaepContentNoIv2.wireDecode(encryptedBlob2);
Assert.AssertEquals(net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.RsaOaep,
rsaOaepContentNoIv2.getAlgorithmType());
Assert.AssertTrue(rsaOaepContentNoIv2.getPayload().equals(
new Blob(message, false)));
Assert.AssertTrue(rsaOaepContentNoIv2.getInitialVector().isNull());
Assert.AssertTrue(rsaOaepContentNoIv2.getKeyLocator().getType() != net.named_data.jndn.KeyLocatorType.NONE);
Assert.AssertTrue(rsaOaepContentNoIv2.getKeyLocator().getKeyName()
.equals(new Name("/test/key/locator")));
}
public void testDecodingError()
{
EncryptedContent encryptedContent = new EncryptedContent();
Blob errorBlob1 = new Blob(toBuffer(new int[] {
0x1f,
0x30, // Wrong EncryptedContent (0x82, 0x24)
0x1c,
0x16, // KeyLocator
0x07,
0x14, // Name
0x08, 0x04, 0x74, 0x65, 0x73, 0x74, 0x08, 0x03, 0x6b, 0x65,
0x79, 0x08, 0x07, 0x6c, 0x6f, 0x63, 0x61, 0x74, 0x6f, 0x72,
0x83,
0x01, // EncryptedAlgorithm
0x00, 0x85,
0x0a, // InitialVector
0x72, 0x61, 0x6e, 0x64, 0x6f, 0x6d, 0x62, 0x69, 0x74, 0x73,
0x84, 0x07, // EncryptedPayload
0x63, 0x6f, 0x6e, 0x74, 0x65, 0x6e, 0x74 }), false);
try {
encryptedContent.wireDecode(errorBlob1);
Assert.Fail("wireDecode did not throw an exception");
} catch (EncodingException ex) {
} catch (Exception ex_0) {
Assert.Fail("wireDecode did not throw EncodingException");
}
Blob errorBlob2 = new Blob(toBuffer(new int[] {
0x82,
0x30, // EncryptedContent
0x1d,
0x16, // Wrong KeyLocator (0x1c, 0x16)
0x07,
0x14, // Name
0x08, 0x04, 0x74, 0x65, 0x73, 0x74, 0x08, 0x03, 0x6b, 0x65,
0x79, 0x08, 0x07, 0x6c, 0x6f, 0x63, 0x61, 0x74, 0x6f, 0x72,
0x83,
0x01, // EncryptedAlgorithm
0x00, 0x85,
0x0a, // InitialVector
0x72, 0x61, 0x6e, 0x64, 0x6f, 0x6d, 0x62, 0x69, 0x74, 0x73,
0x84, 0x07, // EncryptedPayload
0x63, 0x6f, 0x6e, 0x74, 0x65, 0x6e, 0x74 }), false);
try {
encryptedContent.wireDecode(errorBlob2);
Assert.Fail("wireDecode did not throw an exception");
} catch (EncodingException ex_1) {
} catch (Exception ex_2) {
Assert.Fail("wireDecode did not throw EncodingException");
}
Blob errorBlob3 = new Blob(toBuffer(new int[] {
0x82,
0x30, // EncryptedContent
0x1c,
0x16, // KeyLocator
0x07,
0x14, // Name
0x08, 0x04, 0x74, 0x65, 0x73, 0x74, 0x08, 0x03, 0x6b, 0x65,
0x79, 0x08, 0x07, 0x6c, 0x6f, 0x63, 0x61, 0x74, 0x6f, 0x72,
0x1d,
0x01, // Wrong EncryptedAlgorithm (0x83, 0x01)
0x00, 0x85,
0x0a, // InitialVector
0x72, 0x61, 0x6e, 0x64, 0x6f, 0x6d, 0x62, 0x69, 0x74, 0x73,
0x84, 0x07, // EncryptedPayload
0x63, 0x6f, 0x6e, 0x74, 0x65, 0x6e, 0x74 }), false);
try {
encryptedContent.wireDecode(errorBlob3);
Assert.Fail("wireDecode did not throw an exception");
} catch (EncodingException ex_3) {
} catch (Exception ex_4) {
Assert.Fail("wireDecode did not throw EncodingException");
}
Blob errorBlob4 = new Blob(toBuffer(new int[] { 0x82,
0x30, // EncryptedContent
0x1c,
0x16, // KeyLocator
0x07,
0x14, // Name
0x08, 0x04, 0x74, 0x65, 0x73,
0x74, // 'test'
0x08, 0x03, 0x6b, 0x65,
0x79, // 'key'
0x08, 0x07, 0x6c, 0x6f, 0x63, 0x61, 0x74, 0x6f,
0x72, // 'locator'
0x83,
0x01, // EncryptedAlgorithm
0x00, 0x1f,
0x0a, // InitialVector (0x84, 0x0a)
0x72, 0x61, 0x6e, 0x64, 0x6f, 0x6d, 0x62, 0x69, 0x74, 0x73,
0x84, 0x07, // EncryptedPayload
0x63, 0x6f, 0x6e, 0x74, 0x65, 0x6e, 0x74 }), false);
try {
encryptedContent.wireDecode(errorBlob4);
Assert.Fail("wireDecode did not throw an exception");
} catch (EncodingException ex_5) {
} catch (Exception ex_6) {
Assert.Fail("wireDecode did not throw EncodingException");
}
Blob errorBlob5 = new Blob(toBuffer(new int[] { 0x82,
0x30, // EncryptedContent
0x1c,
0x16, // KeyLocator
0x07,
0x14, // Name
0x08, 0x04, 0x74, 0x65, 0x73,
0x74, // 'test'
0x08, 0x03, 0x6b, 0x65,
0x79, // 'key'
0x08, 0x07, 0x6c, 0x6f, 0x63, 0x61, 0x74, 0x6f,
0x72, // 'locator'
0x83,
0x01, // EncryptedAlgorithm
0x00, 0x85,
0x0a, // InitialVector
0x72, 0x61, 0x6e, 0x64, 0x6f, 0x6d, 0x62, 0x69, 0x74, 0x73,
0x21, 0x07, // EncryptedPayload (0x85, 0x07)
0x63, 0x6f, 0x6e, 0x74, 0x65, 0x6e, 0x74 }), false);
try {
encryptedContent.wireDecode(errorBlob5);
Assert.Fail("wireDecode did not throw an exception");
} catch (EncodingException ex_7) {
} catch (Exception ex_8) {
Assert.Fail("wireDecode did not throw EncodingException");
}
Blob errorBlob6 = new Blob(toBuffer(new int[] { 0x82, 0x00 // Empty EncryptedContent
}), false);
try {
encryptedContent.wireDecode(errorBlob6);
Assert.Fail("wireDecode did not throw an exception");
} catch (EncodingException ex_9) {
} catch (Exception ex_10) {
Assert.Fail("wireDecode did not throw EncodingException");
}
}
public void testGetGroupKey()
{
// Create the group manager.
GroupManager manager = new GroupManager(new Name("Alice"), new Name(
"data_type"), new Sqlite3GroupManagerDb(
System.IO.Path.GetFullPath(groupKeyDatabaseFilePath.Name)), 1024, 1, keyChain);
setManager(manager);
// Get the data list from the group manager.
double timePoint1 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150825T093000");
IList result = manager.getGroupKey(timePoint1);
AssertEquals(4, result.Count);
// The first data packet contains the group's encryption key (public key).
Data data = (Data) result[0];
AssertEquals(
"/Alice/READ/data_type/E-KEY/20150825T090000/20150825T100000",
data.getName().toUri());
EncryptKey groupEKey = new EncryptKey(data.getContent());
// Get the second data packet and decrypt.
data = (Data) result[1];
AssertEquals(
"/Alice/READ/data_type/D-KEY/20150825T090000/20150825T100000/FOR/ndn/memberA/ksk-123",
data.getName().toUri());
/////////////////////////////////////////////////////// Start decryption.
Blob dataContent = data.getContent();
// Get the nonce key.
// dataContent is a sequence of the two EncryptedContent.
EncryptedContent encryptedNonce = new EncryptedContent();
encryptedNonce.wireDecode(dataContent);
AssertEquals(0, encryptedNonce.getInitialVector().size());
AssertEquals(net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.RsaOaep,
encryptedNonce.getAlgorithmType());
EncryptParams decryptParams = new EncryptParams(
net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.RsaOaep);
Blob blobNonce = encryptedNonce.getPayload();
Blob nonce = net.named_data.jndn.encrypt.algo.RsaAlgorithm.decrypt(decryptKeyBlob, blobNonce,
decryptParams);
// Get the payload.
// Use the size of encryptedNonce to find the start of encryptedPayload.
ByteBuffer payloadContent = dataContent.buf().duplicate();
payloadContent.position(encryptedNonce.wireEncode().size());
EncryptedContent encryptedPayload = new EncryptedContent();
encryptedPayload.wireDecode(payloadContent);
AssertEquals(16, encryptedPayload.getInitialVector().size());
AssertEquals(net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.AesCbc,
encryptedPayload.getAlgorithmType());
decryptParams.setAlgorithmType(net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.AesCbc);
decryptParams.setInitialVector(encryptedPayload.getInitialVector());
Blob blobPayload = encryptedPayload.getPayload();
Blob largePayload = net.named_data.jndn.encrypt.algo.AesAlgorithm.decrypt(nonce, blobPayload,
decryptParams);
// Get the group D-KEY.
DecryptKey groupDKey = new DecryptKey(largePayload);
/////////////////////////////////////////////////////// End decryption.
// Check the D-KEY.
EncryptKey derivedGroupEKey = net.named_data.jndn.encrypt.algo.RsaAlgorithm.deriveEncryptKey(groupDKey
.getKeyBits());
AssertTrue(groupEKey.getKeyBits().equals(derivedGroupEKey.getKeyBits()));
// Check the third data packet.
data = (Data) result[2];
AssertEquals(
"/Alice/READ/data_type/D-KEY/20150825T090000/20150825T100000/FOR/ndn/memberB/ksk-123",
data.getName().toUri());
// Check the fourth data packet.
data = (Data) result[3];
AssertEquals(
"/Alice/READ/data_type/D-KEY/20150825T090000/20150825T100000/FOR/ndn/memberC/ksk-123",
data.getName().toUri());
// Check invalid time stamps for getting the group key.
double timePoint2 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150826T083000");
AssertEquals(0, manager.getGroupKey(timePoint2).Count);
double timePoint3 = net.named_data.jndn.tests.unit_tests.UnitTestsCommon.fromIsoString("20150827T023000");
AssertEquals(0, manager.getGroupKey(timePoint3).Count);
}
public void testCreateDKeyData()
{
// Create the group manager.
GroupManager manager = new GroupManager(new Name("Alice"), new Name(
"data_type"), new Sqlite3GroupManagerDb(
System.IO.Path.GetFullPath(dKeyDatabaseFilePath.Name)), 2048, 1, keyChain);
Blob newCertificateBlob = certificate.wireEncode();
IdentityCertificate newCertificate = new IdentityCertificate();
newCertificate.wireDecode(newCertificateBlob);
// Encrypt the D-KEY.
Data data = friendAccess.createDKeyData(manager, "20150825T000000",
"20150827T000000", new Name("/ndn/memberA/KEY"),
decryptKeyBlob, newCertificate.getPublicKeyInfo().getKeyDer());
// Verify the encrypted D-KEY.
Blob dataContent = data.getContent();
// Get the nonce key.
// dataContent is a sequence of the two EncryptedContent.
EncryptedContent encryptedNonce = new EncryptedContent();
encryptedNonce.wireDecode(dataContent);
AssertEquals(0, encryptedNonce.getInitialVector().size());
AssertEquals(net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.RsaOaep,
encryptedNonce.getAlgorithmType());
Blob blobNonce = encryptedNonce.getPayload();
EncryptParams decryptParams = new EncryptParams(
net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.RsaOaep);
Blob nonce = net.named_data.jndn.encrypt.algo.RsaAlgorithm.decrypt(decryptKeyBlob, blobNonce,
decryptParams);
// Get the D-KEY.
// Use the size of encryptedNonce to find the start of encryptedPayload.
ByteBuffer payloadContent = dataContent.buf().duplicate();
payloadContent.position(encryptedNonce.wireEncode().size());
EncryptedContent encryptedPayload = new EncryptedContent();
encryptedPayload.wireDecode(payloadContent);
AssertEquals(16, encryptedPayload.getInitialVector().size());
AssertEquals(net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.AesCbc,
encryptedPayload.getAlgorithmType());
decryptParams.setAlgorithmType(net.named_data.jndn.encrypt.algo.EncryptAlgorithmType.AesCbc);
decryptParams.setInitialVector(encryptedPayload.getInitialVector());
Blob blobPayload = encryptedPayload.getPayload();
Blob largePayload = net.named_data.jndn.encrypt.algo.AesAlgorithm.decrypt(nonce, blobPayload,
decryptParams);
AssertTrue(largePayload.equals(decryptKeyBlob));
}
