Examples with CardApplicationPathResponse iso.std.iso_iec._24727.tech.schema.CardApplicationPathResponse used on opensource projects

Example 11 with CardApplicationPathResponse

use of iso.std.iso_iec._24727.tech.schema.CardApplicationPathResponse in project open-ecard by ecsec.

the class PINCompareProtocolTest method testDIDAuthenticate.

@Test(enabled = TESTS_ENABLED)
public void testDIDAuthenticate() throws ParserConfigurationException {
    CardApplicationPath cardApplicationPath = new CardApplicationPath();
    CardApplicationPathType cardApplicationPathType = new CardApplicationPathType();
    cardApplicationPathType.setCardApplication(this.appIdentifier_ROOT);
    cardApplicationPath.setCardAppPathRequest(cardApplicationPathType);
    CardApplicationPathResponse cardApplicationPathResponse = instance.cardApplicationPath(cardApplicationPath);
    CardApplicationConnect cardApplicationConnect = new CardApplicationConnect();
    cardApplicationPathType = cardApplicationPathResponse.getCardAppPathResultSet().getCardApplicationPathResult().get(0);
    cardApplicationConnect.setCardApplicationPath(cardApplicationPathType);
    CardApplicationConnectResponse result1 = instance.cardApplicationConnect(cardApplicationConnect);
    // /
    // / Test with a pin set.
    // /
    DIDAuthenticate parameters = new DIDAuthenticate();
    parameters.setDIDName("PIN.home");
    DocumentBuilderFactory factory = DocumentBuilderFactory.newInstance();
    factory.setNamespaceAware(true);
    DocumentBuilder builder = factory.newDocumentBuilder();
    Document d = builder.newDocument();
    Element elemPin = d.createElementNS("urn:iso:std:iso-iec:24727:tech:schema", "Pin");
    elemPin.setTextContent("123456");
    DIDAuthenticationDataType didAuthenticationData = new DIDAuthenticationDataType();
    didAuthenticationData.getAny().add(elemPin);
    PINCompareDIDAuthenticateInputType pinCompareDIDAuthenticateInputType = new PINCompareDIDAuthenticateInputType(didAuthenticationData);
    parameters.setAuthenticationProtocolData(didAuthenticationData);
    parameters.setConnectionHandle(result1.getConnectionHandle());
    didAuthenticationData.setProtocol(ECardConstants.Protocol.PIN_COMPARE);
    parameters.setAuthenticationProtocolData(didAuthenticationData);
    DIDAuthenticateResponse result = instance.didAuthenticate(parameters);
    assertEquals(result.getAuthenticationProtocolData().getProtocol(), ECardConstants.Protocol.PIN_COMPARE);
    assertEquals(ECardConstants.Major.OK, result.getResult().getResultMajor());
    assertEquals(result.getAuthenticationProtocolData().getAny().size(), 0);
    // /
    // / Test without a pin set.
    // /
    parameters = new DIDAuthenticate();
    parameters.setDIDName("PIN.home");
    didAuthenticationData = new DIDAuthenticationDataType();
    parameters.setAuthenticationProtocolData(didAuthenticationData);
    parameters.setConnectionHandle(result1.getConnectionHandle());
    didAuthenticationData.setProtocol(ECardConstants.Protocol.PIN_COMPARE);
    parameters.setAuthenticationProtocolData(didAuthenticationData);
    result = instance.didAuthenticate(parameters);
    assertEquals(result.getAuthenticationProtocolData().getProtocol(), ECardConstants.Protocol.PIN_COMPARE);
    assertEquals(ECardConstants.Major.OK, result.getResult().getResultMajor());
    assertEquals(result.getAuthenticationProtocolData().getAny().size(), 0);
}

Example 12 with CardApplicationPathResponse

use of iso.std.iso_iec._24727.tech.schema.CardApplicationPathResponse in project open-ecard by ecsec.

the class PINCompareProtocolTest method testUnsupportedFunctions.

/*
     * [TR-03112-7] The following functions are not supported with this protocol
     * and, when called up, relay an error message to this effect
     * /resultminor/sal#inappropriateProtocolForAction:
     * CardApplicationStartSession, Encipher, Decipher, GetRandom, Hash, Sign,
     * VerifySignature, VerifyCertificate
     */
/**
 * This Test ensures that all functions unsupported by this protocol relay the correct error message when
 * called.
 */
@Test(enabled = TESTS_ENABLED)
public void testUnsupportedFunctions() {
    CardApplicationPath cardApplicationPath = new CardApplicationPath();
    CardApplicationPathType cardApplicationPathType = new CardApplicationPathType();
    cardApplicationPathType.setCardApplication(this.appIdentifier_ROOT);
    cardApplicationPath.setCardAppPathRequest(cardApplicationPathType);
    CardApplicationPathResponse cardApplicationPathResponse = instance.cardApplicationPath(cardApplicationPath);
    CardApplicationConnect cardApplicationConnect = new CardApplicationConnect();
    cardApplicationPathType = cardApplicationPathResponse.getCardAppPathResultSet().getCardApplicationPathResult().get(0);
    cardApplicationConnect.setCardApplicationPath(cardApplicationPathType);
    CardApplicationConnectResponse result1 = instance.cardApplicationConnect(cardApplicationConnect);
    Encipher encipher = new Encipher();
    encipher.setDIDName("PIN.home");
    encipher.setPlainText(new byte[] { 0x0, 0x0, 0x0 });
    encipher.setConnectionHandle(result1.getConnectionHandle());
    EncipherResponse encipherResponse = instance.encipher(encipher);
    assertEquals(encipherResponse.getResult().getResultMajor(), ECardConstants.Major.ERROR);
    assertEquals(encipherResponse.getResult().getResultMinor(), ECardConstants.Minor.SAL.INAPPROPRIATE_PROTOCOL_FOR_ACTION);
// TODO remaining unsupported functions
}

Example 13 with CardApplicationPathResponse

use of iso.std.iso_iec._24727.tech.schema.CardApplicationPathResponse in project open-ecard by ecsec.

the class CardSelectionAction method updateCards.

/**
 * Update the list of available and fitting cards.
 */
private void updateCards() {
    avCard.clear();
    CardApplicationPath cap = new CardApplicationPath();
    cap.setCardAppPathRequest(new CardApplicationPathType());
    CardApplicationPathResponse resp = (CardApplicationPathResponse) ctx.getDispatcher().safeDeliver(cap);
    List<CardApplicationPathType> cards = resp.getCardAppPathResultSet().getCardApplicationPathResult();
    for (CardApplicationPathType path : cards) {
        CardApplicationConnect connect = new CardApplicationConnect();
        connect.setCardApplicationPath(path);
        CardApplicationConnectResponse conResp = (CardApplicationConnectResponse) ctx.getDispatcher().safeDeliver(connect);
        if (types.contains(conResp.getConnectionHandle().getRecognitionInfo().getCardType())) {
            avCard.add(conResp.getConnectionHandle());
        } else {
            CardApplicationDisconnect disconnect = new CardApplicationDisconnect();
            disconnect.setConnectionHandle(conResp.getConnectionHandle());
            ctx.getDispatcher().safeDeliver(disconnect);
        }
    }
}

Example 14 with CardApplicationPathResponse

use of iso.std.iso_iec._24727.tech.schema.CardApplicationPathResponse in project open-ecard by ecsec.

the class GenericCryptographyProtocolTest method testDIDGet.

@Test(enabled = TESTS_ENABLED)
public void testDIDGet() throws ParserConfigurationException {
    CardApplicationPath cardApplicationPath = new CardApplicationPath();
    CardApplicationPathType cardApplicationPathType = new CardApplicationPathType();
    cardApplicationPathType.setCardApplication(cardApplication);
    cardApplicationPath.setCardAppPathRequest(cardApplicationPathType);
    CardApplicationPathResponse cardApplicationPathResponse = instance.cardApplicationPath(cardApplicationPath);
    CardApplicationConnect parameters = new CardApplicationConnect();
    CardAppPathResultSet cardAppPathResultSet = cardApplicationPathResponse.getCardAppPathResultSet();
    parameters.setCardApplicationPath(cardAppPathResultSet.getCardApplicationPathResult().get(0));
    CardApplicationConnectResponse result = instance.cardApplicationConnect(parameters);
    assertEquals(ECardConstants.Major.OK, result.getResult().getResultMajor());
    DIDList didList = new DIDList();
    didList.setConnectionHandle(result.getConnectionHandle());
    DIDQualifierType didQualifier = new DIDQualifierType();
    didQualifier.setApplicationIdentifier(cardApplication);
    didQualifier.setObjectIdentifier(ECardConstants.Protocol.GENERIC_CRYPTO);
    didQualifier.setApplicationFunction("Compute-signature");
    didList.setFilter(didQualifier);
    DIDListResponse didListResponse = instance.didList(didList);
    assertTrue(didListResponse.getDIDNameList().getDIDName().size() > 0);
    DIDGet didGet = new DIDGet();
    didGet.setConnectionHandle(result.getConnectionHandle());
    didGet.setDIDName(didListResponse.getDIDNameList().getDIDName().get(0));
    didGet.setDIDScope(DIDScopeType.LOCAL);
    DIDGetResponse didGetResponse = instance.didGet(didGet);
    assertEquals(ECardConstants.Major.OK, didGetResponse.getResult().getResultMajor());
    org.openecard.crypto.common.sal.did.CryptoMarkerType cryptoMarker = new org.openecard.crypto.common.sal.did.CryptoMarkerType((CryptoMarkerType) didGetResponse.getDIDStructure().getDIDMarker());
    assertEquals(cryptoMarker.getCertificateRefs().get(0).getDataSetName(), "EF.C.CH.AUT");
}

Example 15 with CardApplicationPathResponse

use of iso.std.iso_iec._24727.tech.schema.CardApplicationPathResponse in project open-ecard by ecsec.

the class GenericCryptographyProtocolTest method testDecipher.

/**
 * Test for the Decipher Step of the Generic Cryptography protocol. After we connected to the ESIGN application
 * of the eGK, we use DIDList to get a List of DIDs that support the Decipher function. We then authenticate with
 * PIN.home and read the contents of the DIDs certificate. With it's public key we encrypt the contents of
 * plaintext.txt and finally let the card decrypt it through a call to Decipher. In the end we match the result with
 * the original plaintext.
 *
 * @throws Exception when something in this test went unexpectedly wrong
 */
@Test(enabled = TESTS_ENABLED)
public void testDecipher() throws Exception {
    CardApplicationPath cardApplicationPath = new CardApplicationPath();
    CardApplicationPathType cardApplicationPathType = new CardApplicationPathType();
    cardApplicationPathType.setCardApplication(cardApplication);
    cardApplicationPath.setCardAppPathRequest(cardApplicationPathType);
    CardApplicationPathResponse cardApplicationPathResponse = instance.cardApplicationPath(cardApplicationPath);
    WSHelper.checkResult(cardApplicationPathResponse);
    CardApplicationConnect parameters = new CardApplicationConnect();
    CardAppPathResultSet cardAppPathResultSet = cardApplicationPathResponse.getCardAppPathResultSet();
    parameters.setCardApplicationPath(cardAppPathResultSet.getCardApplicationPathResult().get(0));
    CardApplicationConnectResponse result = instance.cardApplicationConnect(parameters);
    WSHelper.checkResult(result);
    assertEquals(ECardConstants.Major.OK, result.getResult().getResultMajor());
    DIDList didList = new DIDList();
    didList.setConnectionHandle(result.getConnectionHandle());
    DIDQualifierType didQualifier = new DIDQualifierType();
    didQualifier.setApplicationIdentifier(cardApplication);
    didQualifier.setObjectIdentifier(ECardConstants.Protocol.GENERIC_CRYPTO);
    didQualifier.setApplicationFunction("Decipher");
    didList.setFilter(didQualifier);
    DIDListResponse didListResponse = instance.didList(didList);
    assertTrue(didListResponse.getDIDNameList().getDIDName().size() > 0);
    WSHelper.checkResult(didListResponse);
    DIDAuthenticate didAthenticate = new DIDAuthenticate();
    didAthenticate.setDIDName("PIN.home");
    PinCompareDIDAuthenticateInputType didAuthenticationData = new PinCompareDIDAuthenticateInputType();
    didAthenticate.setAuthenticationProtocolData(didAuthenticationData);
    didAthenticate.setConnectionHandle(result.getConnectionHandle());
    didAthenticate.getConnectionHandle().setCardApplication(cardApplication_ROOT);
    didAuthenticationData.setProtocol(ECardConstants.Protocol.PIN_COMPARE);
    didAthenticate.setAuthenticationProtocolData(didAuthenticationData);
    DIDAuthenticateResponse didAuthenticateResult = instance.didAuthenticate(didAthenticate);
    WSHelper.checkResult(didAuthenticateResult);
    assertEquals(didAuthenticateResult.getAuthenticationProtocolData().getProtocol(), ECardConstants.Protocol.PIN_COMPARE);
    assertEquals(didAuthenticateResult.getAuthenticationProtocolData().getAny().size(), 0);
    assertEquals(ECardConstants.Major.OK, didAuthenticateResult.getResult().getResultMajor());
    byte[] plaintextBytes = plaintext.getBytes();
    for (int numOfDIDs = 0; numOfDIDs < didListResponse.getDIDNameList().getDIDName().size(); numOfDIDs++) {
        String didName = didListResponse.getDIDNameList().getDIDName().get(numOfDIDs);
        DIDGet didGet = new DIDGet();
        didGet.setDIDName(didName);
        didGet.setDIDScope(DIDScopeType.LOCAL);
        didGet.setConnectionHandle(result.getConnectionHandle());
        didGet.getConnectionHandle().setCardApplication(cardApplication);
        DIDGetResponse didGetResponse = instance.didGet(didGet);
        org.openecard.crypto.common.sal.did.CryptoMarkerType cryptoMarker = new org.openecard.crypto.common.sal.did.CryptoMarkerType((CryptoMarkerType) didGetResponse.getDIDStructure().getDIDMarker());
        ByteArrayOutputStream ciphertext = new ByteArrayOutputStream();
        // read the certificate
        DSIRead dsiRead = new DSIRead();
        dsiRead.setConnectionHandle(result.getConnectionHandle());
        dsiRead.getConnectionHandle().setCardApplication(cardApplication);
        dsiRead.setDSIName(cryptoMarker.getCertificateRefs().get(0).getDataSetName());
        DSIReadResponse dsiReadResponse = instance.dsiRead(dsiRead);
        assertEquals(ECardConstants.Major.OK, dsiReadResponse.getResult().getResultMajor());
        assertTrue(dsiReadResponse.getDSIContent().length > 0);
        // convert the contents to a certificate
        Certificate cert = (X509Certificate) CertificateFactory.getInstance("X.509").generateCertificate(new ByteArrayInputStream(dsiReadResponse.getDSIContent()));
        Cipher cipher;
        int blocksize;
        String algorithmUri = cryptoMarker.getAlgorithmInfo().getAlgorithmIdentifier().getAlgorithm();
        if (algorithmUri.equals(GenericCryptoUris.RSA_ENCRYPTION)) {
            cipher = Cipher.getInstance("RSA/ECB/PKCS1Padding");
            cipher.init(Cipher.ENCRYPT_MODE, cert);
            // keysize/8-pkcspadding = (2048)/8-11
            blocksize = 245;
        } else if (algorithmUri.equals(GenericCryptoUris.RSAES_OAEP)) {
            cipher = Cipher.getInstance("RSA/ECB/OAEPWithSHA-256AndMGF1Padding", new BouncyCastleProvider());
            cipher.init(Cipher.ENCRYPT_MODE, cert);
            blocksize = cipher.getBlockSize();
        } else {
            LOG.warn("Skipping decipher for the unsupported algorithmOID: {}", algorithmUri);
            continue;
        }
        int rest = plaintextBytes.length % blocksize;
        // encrypt block for block
        for (int offset = 0; offset < plaintextBytes.length; offset += blocksize) {
            if ((offset + blocksize) > plaintextBytes.length) {
                ciphertext.write(cipher.doFinal(plaintextBytes, offset, rest));
            } else {
                ciphertext.write(cipher.doFinal(plaintextBytes, offset, blocksize));
            }
        }
        Decipher decipher = new Decipher();
        decipher.setCipherText(ciphertext.toByteArray());
        decipher.setConnectionHandle(result.getConnectionHandle());
        decipher.getConnectionHandle().setCardApplication(cardApplication);
        decipher.setDIDName(didName);
        decipher.setDIDScope(DIDScopeType.LOCAL);
        DecipherResponse decipherResponse = instance.decipher(decipher);
        assertEquals(decipherResponse.getPlainText(), plaintextBytes);
        // test invalid ciphertext length (not divisible through blocksize without rest)
        decipher = new Decipher();
        decipher.setCipherText(ByteUtils.concatenate((byte) 0x00, ciphertext.toByteArray()));
        decipher.setConnectionHandle(result.getConnectionHandle());
        decipher.getConnectionHandle().setCardApplication(cardApplication);
        decipher.setDIDName(didName);
        decipher.setDIDScope(DIDScopeType.LOCAL);
        decipherResponse = instance.decipher(decipher);
        Result res = decipherResponse.getResult();
        assertEquals(res.getResultMajor(), ECardConstants.Major.ERROR);
        assertEquals(res.getResultMinor(), ECardConstants.Minor.App.INCORRECT_PARM);
    }
}