From 3798249570e97861793f5d0ebc695d94e8d5ddcd Mon Sep 17 00:00:00 2001 From: Nikita Mikhailov Date: Thu, 7 Apr 2016 01:22:24 +0600 Subject: OTG: Implement hidden activity usb detection technique --- .../keychain/javacard/BaseJavacardDevice.java | 712 --------------------- 1 file changed, 712 deletions(-) delete mode 100644 OpenKeychain/src/main/java/org/sufficientlysecure/keychain/javacard/BaseJavacardDevice.java (limited to 'OpenKeychain/src/main/java/org/sufficientlysecure/keychain/javacard/BaseJavacardDevice.java') diff --git a/OpenKeychain/src/main/java/org/sufficientlysecure/keychain/javacard/BaseJavacardDevice.java b/OpenKeychain/src/main/java/org/sufficientlysecure/keychain/javacard/BaseJavacardDevice.java deleted file mode 100644 index 796b4e1f3..000000000 --- a/OpenKeychain/src/main/java/org/sufficientlysecure/keychain/javacard/BaseJavacardDevice.java +++ /dev/null @@ -1,712 +0,0 @@ -package org.sufficientlysecure.keychain.javacard; - -import org.bouncycastle.bcpg.HashAlgorithmTags; -import org.bouncycastle.util.Arrays; -import org.bouncycastle.util.encoders.Hex; -import org.sufficientlysecure.keychain.Constants; -import org.sufficientlysecure.keychain.pgp.CanonicalizedSecretKey; -import org.sufficientlysecure.keychain.pgp.exception.PgpGeneralException; -import org.sufficientlysecure.keychain.util.Iso7816TLV; -import org.sufficientlysecure.keychain.util.Log; -import org.sufficientlysecure.keychain.util.Passphrase; - -import java.io.IOException; -import java.math.BigInteger; -import java.nio.ByteBuffer; -import java.security.interfaces.RSAPrivateCrtKey; - -import nordpol.Apdu; - -public class BaseJavacardDevice implements JavacardDevice { - // Fidesmo constants - private static final String FIDESMO_APPS_AID_PREFIX = "A000000617"; - - private static final byte[] BLANK_FINGERPRINT = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}; - private Transport mTransport; - - private Passphrase mPin; - private Passphrase mAdminPin; - private boolean mPw1ValidForMultipleSignatures; - private boolean mPw1ValidatedForSignature; - private boolean mPw1ValidatedForDecrypt; // Mode 82 does other things; consider renaming? - private boolean mPw3Validated; - private boolean mTagHandlingEnabled; - - public BaseJavacardDevice() { - } - - private static String getHex(byte[] raw) { - return new String(Hex.encode(raw)); - } - - public Passphrase getPin() { - return mPin; - } - - public void setPin(final Passphrase pin) { - this.mPin = pin; - } - - public Passphrase getAdminPin() { - return mAdminPin; - } - - public void setAdminPin(final Passphrase adminPin) { - this.mAdminPin = adminPin; - } - - public void changeKey(CanonicalizedSecretKey secretKey, Passphrase passphrase) throws IOException { - long keyGenerationTimestamp = secretKey.getCreationTime().getTime() / 1000; - byte[] timestampBytes = ByteBuffer.allocate(4).putInt((int) keyGenerationTimestamp).array(); - KeyType keyType = KeyType.from(secretKey); - - if (keyType == null) { - throw new IOException("Inappropriate key flags for smart card key."); - } - - // Slot is empty, or contains this key already. PUT KEY operation is safe - boolean canPutKey = !containsKey(keyType) - || keyMatchesFingerPrint(keyType, secretKey.getFingerprint()); - if (!canPutKey) { - throw new IOException(String.format("Key slot occupied; card must be reset to put new %s key.", - keyType.toString())); - } - - putKey(keyType.getmSlot(), secretKey, passphrase); - putData(keyType.getmFingerprintObjectId(), secretKey.getFingerprint()); - putData(keyType.getTimestampObjectId(), timestampBytes); - } - - public boolean containsKey(KeyType keyType) throws IOException { - return keyMatchesFingerPrint(keyType, BLANK_FINGERPRINT); - } - - public boolean keyMatchesFingerPrint(KeyType keyType, byte[] fingerprint) throws IOException { - return java.util.Arrays.equals(getMasterKeyFingerprint(keyType.getIdx()), fingerprint); - } - - // METHOD UPDATED OK - public void connectToDevice() throws IOException { - // SW1/2 0x9000 is the generic "ok" response, which we expect most of the time. - // See specification, page 51 - String accepted = "9000"; - - // Command APDU (page 51) for SELECT FILE command (page 29) - String opening = - "00" // CLA - + "A4" // INS - + "04" // P1 - + "00" // P2 - + "06" // Lc (number of bytes) - + "D27600012401" // Data (6 bytes) - + "00"; // Le - String response = nfcCommunicate(opening); // activate connection - if (!response.endsWith(accepted)) { - throw new CardException("Initialization failed!", parseCardStatus(response)); - } - - byte[] pwStatusBytes = nfcGetPwStatusBytes(); - mPw1ValidForMultipleSignatures = (pwStatusBytes[0] == 1); - mPw1ValidatedForSignature = false; - mPw1ValidatedForDecrypt = false; - mPw3Validated = false; - } - - /** - * Parses out the status word from a JavaCard response string. - * - * @param response A hex string with the response from the card - * @return A short indicating the SW1/SW2, or 0 if a status could not be determined. - */ - short parseCardStatus(String response) { - if (response.length() < 4) { - return 0; // invalid input - } - - try { - return Short.parseShort(response.substring(response.length() - 4), 16); - } catch (NumberFormatException e) { - return 0; - } - } - - /** - * Modifies the user's PW1 or PW3. Before sending, the new PIN will be validated for - * conformance to the token's requirements for key length. - * - * @param pw For PW1, this is 0x81. For PW3 (Admin PIN), mode is 0x83. - * @param newPin The new PW1 or PW3. - */ - // METHOD UPDATED[OK] - public void modifyPin(int pw, byte[] newPin) throws IOException { - final int MAX_PW1_LENGTH_INDEX = 1; - final int MAX_PW3_LENGTH_INDEX = 3; - - byte[] pwStatusBytes = nfcGetPwStatusBytes(); - - if (pw == 0x81) { - if (newPin.length < 6 || newPin.length > pwStatusBytes[MAX_PW1_LENGTH_INDEX]) { - throw new IOException("Invalid PIN length"); - } - } else if (pw == 0x83) { - if (newPin.length < 8 || newPin.length > pwStatusBytes[MAX_PW3_LENGTH_INDEX]) { - throw new IOException("Invalid PIN length"); - } - } else { - throw new IOException("Invalid PW index for modify PIN operation"); - } - - byte[] pin; - if (pw == 0x83) { - pin = mAdminPin.toStringUnsafe().getBytes(); - } else { - pin = mPin.toStringUnsafe().getBytes(); - } - - // Command APDU for CHANGE REFERENCE DATA command (page 32) - String changeReferenceDataApdu = "00" // CLA - + "24" // INS - + "00" // P1 - + String.format("%02x", pw) // P2 - + String.format("%02x", pin.length + newPin.length) // Lc - + getHex(pin) - + getHex(newPin); - String response = nfcCommunicate(changeReferenceDataApdu); // change PIN - if (!response.equals("9000")) { - throw new CardException("Failed to change PIN", parseCardStatus(response)); - } - } - - /** - * Call DECIPHER command - * - * @param encryptedSessionKey the encoded session key - * @return the decoded session key - */ - // METHOD UPDATED [OK] - public byte[] decryptSessionKey(byte[] encryptedSessionKey) throws IOException { - if (!mPw1ValidatedForDecrypt) { - nfcVerifyPin(0x82); // (Verify PW1 with mode 82 for decryption) - } - - String firstApdu = "102a8086fe"; - String secondApdu = "002a808603"; - String le = "00"; - - byte[] one = new byte[254]; - // leave out first byte: - System.arraycopy(encryptedSessionKey, 1, one, 0, one.length); - - byte[] two = new byte[encryptedSessionKey.length - 1 - one.length]; - for (int i = 0; i < two.length; i++) { - two[i] = encryptedSessionKey[i + one.length + 1]; - } - - nfcCommunicate(firstApdu + getHex(one)); - String second = nfcCommunicate(secondApdu + getHex(two) + le); - - String decryptedSessionKey = getDataField(second); - - return Hex.decode(decryptedSessionKey); - } - - /** - * Verifies the user's PW1 or PW3 with the appropriate mode. - * - * @param mode For PW1, this is 0x81 for signing, 0x82 for everything else. - * For PW3 (Admin PIN), mode is 0x83. - */ - // METHOD UPDATED [OK] - public void nfcVerifyPin(int mode) throws IOException { - if (mPin != null || mode == 0x83) { - - byte[] pin; - if (mode == 0x83) { - pin = mAdminPin.toStringUnsafe().getBytes(); - } else { - pin = mPin.toStringUnsafe().getBytes(); - } - - // SW1/2 0x9000 is the generic "ok" response, which we expect most of the time. - // See specification, page 51 - String accepted = "9000"; - String response = nfcTryPin(mode, pin); // login - if (!response.equals(accepted)) { - throw new CardException("Bad PIN!", parseCardStatus(response)); - } - - if (mode == 0x81) { - mPw1ValidatedForSignature = true; - } else if (mode == 0x82) { - mPw1ValidatedForDecrypt = true; - } else if (mode == 0x83) { - mPw3Validated = true; - } - } - } - - /** - * Stores a data object on the token. Automatically validates the proper PIN for the operation. - * Supported for all data objects < 255 bytes in length. Only the cardholder certificate - * (0x7F21) can exceed this length. - * - * @param dataObject The data object to be stored. - * @param data The data to store in the object - */ - // METHOD UPDATED [OK] - public void putData(int dataObject, byte[] data) throws IOException { - if (data.length > 254) { - throw new IOException("Cannot PUT DATA with length > 254"); - } - if (dataObject == 0x0101 || dataObject == 0x0103) { - if (!mPw1ValidatedForDecrypt) { - nfcVerifyPin(0x82); // (Verify PW1 for non-signing operations) - } - } else if (!mPw3Validated) { - nfcVerifyPin(0x83); // (Verify PW3) - } - - String putDataApdu = "00" // CLA - + "DA" // INS - + String.format("%02x", (dataObject & 0xFF00) >> 8) // P1 - + String.format("%02x", dataObject & 0xFF) // P2 - + String.format("%02x", data.length) // Lc - + getHex(data); - - String response = nfcCommunicate(putDataApdu); // put data - if (!response.equals("9000")) { - throw new CardException("Failed to put data.", parseCardStatus(response)); - } - } - - - /** - * Puts a key on the token in the given slot. - * - * @param slot The slot on the token where the key should be stored: - * 0xB6: Signature Key - * 0xB8: Decipherment Key - * 0xA4: Authentication Key - */ - // METHOD UPDATED [OK] - public void putKey(int slot, CanonicalizedSecretKey secretKey, Passphrase passphrase) - throws IOException { - if (slot != 0xB6 && slot != 0xB8 && slot != 0xA4) { - throw new IOException("Invalid key slot"); - } - - RSAPrivateCrtKey crtSecretKey; - try { - secretKey.unlock(passphrase); - crtSecretKey = secretKey.getCrtSecretKey(); - } catch (PgpGeneralException e) { - throw new IOException(e.getMessage()); - } - - // Shouldn't happen; the UI should block the user from getting an incompatible key this far. - if (crtSecretKey.getModulus().bitLength() > 2048) { - throw new IOException("Key too large to export to Security Token."); - } - - // Should happen only rarely; all GnuPG keys since 2006 use public exponent 65537. - if (!crtSecretKey.getPublicExponent().equals(new BigInteger("65537"))) { - throw new IOException("Invalid public exponent for smart Security Token."); - } - - if (!mPw3Validated) { - nfcVerifyPin(0x83); // (Verify PW3 with mode 83) - } - - byte[] header = Hex.decode( - "4D82" + "03A2" // Extended header list 4D82, length of 930 bytes. (page 23) - + String.format("%02x", slot) + "00" // CRT to indicate targeted key, no length - + "7F48" + "15" // Private key template 0x7F48, length 21 (decimal, 0x15 hex) - + "9103" // Public modulus, length 3 - + "928180" // Prime P, length 128 - + "938180" // Prime Q, length 128 - + "948180" // Coefficient (1/q mod p), length 128 - + "958180" // Prime exponent P (d mod (p - 1)), length 128 - + "968180" // Prime exponent Q (d mod (1 - 1)), length 128 - + "97820100" // Modulus, length 256, last item in private key template - + "5F48" + "820383");// DO 5F48; 899 bytes of concatenated key data will follow - byte[] dataToSend = new byte[934]; - byte[] currentKeyObject; - int offset = 0; - - System.arraycopy(header, 0, dataToSend, offset, header.length); - offset += header.length; - currentKeyObject = crtSecretKey.getPublicExponent().toByteArray(); - System.arraycopy(currentKeyObject, 0, dataToSend, offset, 3); - offset += 3; - // NOTE: For a 2048-bit key, these lengths are fixed. However, bigint includes a leading 0 - // in the array to represent sign, so we take care to set the offset to 1 if necessary. - currentKeyObject = crtSecretKey.getPrimeP().toByteArray(); - System.arraycopy(currentKeyObject, currentKeyObject.length - 128, dataToSend, offset, 128); - Arrays.fill(currentKeyObject, (byte) 0); - offset += 128; - currentKeyObject = crtSecretKey.getPrimeQ().toByteArray(); - System.arraycopy(currentKeyObject, currentKeyObject.length - 128, dataToSend, offset, 128); - Arrays.fill(currentKeyObject, (byte) 0); - offset += 128; - currentKeyObject = crtSecretKey.getCrtCoefficient().toByteArray(); - System.arraycopy(currentKeyObject, currentKeyObject.length - 128, dataToSend, offset, 128); - Arrays.fill(currentKeyObject, (byte) 0); - offset += 128; - currentKeyObject = crtSecretKey.getPrimeExponentP().toByteArray(); - System.arraycopy(currentKeyObject, currentKeyObject.length - 128, dataToSend, offset, 128); - Arrays.fill(currentKeyObject, (byte) 0); - offset += 128; - currentKeyObject = crtSecretKey.getPrimeExponentQ().toByteArray(); - System.arraycopy(currentKeyObject, currentKeyObject.length - 128, dataToSend, offset, 128); - Arrays.fill(currentKeyObject, (byte) 0); - offset += 128; - currentKeyObject = crtSecretKey.getModulus().toByteArray(); - System.arraycopy(currentKeyObject, currentKeyObject.length - 256, dataToSend, offset, 256); - - String putKeyCommand = "10DB3FFF"; - String lastPutKeyCommand = "00DB3FFF"; - - // Now we're ready to communicate with the token. - offset = 0; - String response; - while (offset < dataToSend.length) { - int dataRemaining = dataToSend.length - offset; - if (dataRemaining > 254) { - response = nfcCommunicate( - putKeyCommand + "FE" + Hex.toHexString(dataToSend, offset, 254) - ); - offset += 254; - } else { - int length = dataToSend.length - offset; - response = nfcCommunicate( - lastPutKeyCommand + String.format("%02x", length) - + Hex.toHexString(dataToSend, offset, length)); - offset += length; - } - - if (!response.endsWith("9000")) { - throw new CardException("Key export to Security Token failed", parseCardStatus(response)); - } - } - - // Clear array with secret data before we return. - Arrays.fill(dataToSend, (byte) 0); - } - - /** - * Return fingerprints of all keys from application specific data stored - * on tag, or null if data not available. - * - * @return The fingerprints of all subkeys in a contiguous byte array. - */ - // METHOD UPDATED [OK] - public byte[] getFingerprints() throws IOException { - String data = "00CA006E00"; - byte[] buf = mTransport.sendAndReceive(Hex.decode(data)); - - Iso7816TLV tlv = Iso7816TLV.readSingle(buf, true); - Log.d(Constants.TAG, "nfcGetFingerprints() Iso7816TLV tlv data:\n" + tlv.prettyPrint()); - - Iso7816TLV fptlv = Iso7816TLV.findRecursive(tlv, 0xc5); - if (fptlv == null) { - return null; - } - return fptlv.mV; - } - - /** - * Return the PW Status Bytes from the token. This is a simple DO; no TLV decoding needed. - * - * @return Seven bytes in fixed format, plus 0x9000 status word at the end. - */ - // METHOD UPDATED [OK] - public byte[] nfcGetPwStatusBytes() throws IOException { - String data = "00CA00C400"; - return mTransport.sendAndReceive(Hex.decode(data)); - } - - // METHOD UPDATED [OK] - public byte[] getAid() throws IOException { - String info = "00CA004F00"; - return mTransport.sendAndReceive(Hex.decode(info)); - } - - // METHOD UPDATED [OK] - public String getUserId() throws IOException { - String info = "00CA006500"; - return nfcGetHolderName(nfcCommunicate(info)); - } - - /** - * Call COMPUTE DIGITAL SIGNATURE command and returns the MPI value - * - * @param hash the hash for signing - * @return a big integer representing the MPI for the given hash - */ - // METHOD UPDATED [OK] - public byte[] calculateSignature(byte[] hash, int hashAlgo) throws IOException { - if (!mPw1ValidatedForSignature) { - nfcVerifyPin(0x81); // (Verify PW1 with mode 81 for signing) - } - - // dsi, including Lc - String dsi; - - Log.i(Constants.TAG, "Hash: " + hashAlgo); - switch (hashAlgo) { - case HashAlgorithmTags.SHA1: - if (hash.length != 20) { - throw new IOException("Bad hash length (" + hash.length + ", expected 10!"); - } - dsi = "23" // Lc - + "3021" // Tag/Length of Sequence, the 0x21 includes all following 33 bytes - + "3009" // Tag/Length of Sequence, the 0x09 are the following header bytes - + "0605" + "2B0E03021A" // OID of SHA1 - + "0500" // TLV coding of ZERO - + "0414" + getHex(hash); // 0x14 are 20 hash bytes - break; - case HashAlgorithmTags.RIPEMD160: - if (hash.length != 20) { - throw new IOException("Bad hash length (" + hash.length + ", expected 20!"); - } - dsi = "233021300906052B2403020105000414" + getHex(hash); - break; - case HashAlgorithmTags.SHA224: - if (hash.length != 28) { - throw new IOException("Bad hash length (" + hash.length + ", expected 28!"); - } - dsi = "2F302D300D06096086480165030402040500041C" + getHex(hash); - break; - case HashAlgorithmTags.SHA256: - if (hash.length != 32) { - throw new IOException("Bad hash length (" + hash.length + ", expected 32!"); - } - dsi = "333031300D060960864801650304020105000420" + getHex(hash); - break; - case HashAlgorithmTags.SHA384: - if (hash.length != 48) { - throw new IOException("Bad hash length (" + hash.length + ", expected 48!"); - } - dsi = "433041300D060960864801650304020205000430" + getHex(hash); - break; - case HashAlgorithmTags.SHA512: - if (hash.length != 64) { - throw new IOException("Bad hash length (" + hash.length + ", expected 64!"); - } - dsi = "533051300D060960864801650304020305000440" + getHex(hash); - break; - default: - throw new IOException("Not supported hash algo!"); - } - - // Command APDU for PERFORM SECURITY OPERATION: COMPUTE DIGITAL SIGNATURE (page 37) - String apdu = - "002A9E9A" // CLA, INS, P1, P2 - + dsi // digital signature input - + "00"; // Le - - String response = nfcCommunicate(apdu); - - if (response.length() < 4) { - throw new CardException("Bad response", (short) 0); - } - // split up response into signature and status - String status = response.substring(response.length() - 4); - String signature = response.substring(0, response.length() - 4); - - // while we are getting 0x61 status codes, retrieve more data - while (status.substring(0, 2).equals("61")) { - Log.d(Constants.TAG, "requesting more data, status " + status); - // Send GET RESPONSE command - response = nfcCommunicate("00C00000" + status.substring(2)); - status = response.substring(response.length() - 4); - signature += response.substring(0, response.length() - 4); - } - - Log.d(Constants.TAG, "final response:" + status); - - if (!mPw1ValidForMultipleSignatures) { - mPw1ValidatedForSignature = false; - } - - if (!"9000".equals(status)) { - throw new CardException("Bad NFC response code: " + status, parseCardStatus(response)); - } - - // Make sure the signature we received is actually the expected number of bytes long! - if (signature.length() != 256 && signature.length() != 512) { - throw new IOException("Bad signature length! Expected 128 or 256 bytes, got " + signature.length() / 2); - } - - return Hex.decode(signature); - } - - public String nfcGetHolderName(String name) { - String slength; - int ilength; - name = name.substring(6); - slength = name.substring(0, 2); - ilength = Integer.parseInt(slength, 16) * 2; - name = name.substring(2, ilength + 2); - name = (new String(Hex.decode(name))).replace('<', ' '); - return (name); - } - - private String nfcGetDataField(String output) { - return output.substring(0, output.length() - 4); - } - - /** - * Transceive data via NFC encoded as Hex - */ - // METHOD UPDATED [OK] - public String nfcCommunicate(String apdu) throws IOException, TransportIoException { - return getHex(mTransport.sendAndReceive(Hex.decode(apdu))); - } - - public boolean isConnected() { - return mTransport.isConnected(); - } - - // NEW METHOD [OK] - public boolean isFidesmoToken() { - if (isConnected()) { // Check if we can still talk to the card - try { - // By trying to select any apps that have the Fidesmo AID prefix we can - // see if it is a Fidesmo device or not - byte[] mSelectResponse = mTransport.sendAndReceive(Apdu.select(FIDESMO_APPS_AID_PREFIX)); - // Compare the status returned by our select with the OK status code - return Apdu.hasStatus(mSelectResponse, Apdu.OK_APDU); - } catch (IOException e) { - Log.e(Constants.TAG, "Card communication failed!", e); - } - } - return false; - } - - /** - * Generates a key on the card in the given slot. If the slot is 0xB6 (the signature key), - * this command also has the effect of resetting the digital signature counter. - * NOTE: This does not set the key fingerprint data object! After calling this command, you - * must construct a public key packet using the returned public key data objects, compute the - * key fingerprint, and store it on the card using: putData(0xC8, key.getFingerprint()) - * - * @param slot The slot on the card where the key should be generated: - * 0xB6: Signature Key - * 0xB8: Decipherment Key - * 0xA4: Authentication Key - * @return the public key data objects, in TLV format. For RSA this will be the public modulus - * (0x81) and exponent (0x82). These may come out of order; proper TLV parsing is required. - */ - // NEW METHOD [OK] - public byte[] nfcGenerateKey(int slot) throws IOException { - if (slot != 0xB6 && slot != 0xB8 && slot != 0xA4) { - throw new IOException("Invalid key slot"); - } - - if (!mPw3Validated) { - nfcVerifyPin(0x83); // (Verify PW3 with mode 83) - } - - String generateKeyApdu = "0047800002" + String.format("%02x", slot) + "0000"; - String getResponseApdu = "00C00000"; - - String first = nfcCommunicate(generateKeyApdu); - String second = nfcCommunicate(getResponseApdu); - - if (!second.endsWith("9000")) { - throw new IOException("On-card key generation failed"); - } - - String publicKeyData = getDataField(first) + getDataField(second); - - Log.d(Constants.TAG, "Public Key Data Objects: " + publicKeyData); - - return Hex.decode(publicKeyData); - } - - // NEW METHOD [OK][OK] - private String getDataField(String output) { - return output.substring(0, output.length() - 4); - } - - // NEW METHOD [OK] - private String nfcTryPin(int mode, byte[] pin) throws IOException { - // Command APDU for VERIFY command (page 32) - String login = - "00" // CLA - + "20" // INS - + "00" // P1 - + String.format("%02x", mode) // P2 - + String.format("%02x", pin.length) // Lc - + Hex.toHexString(pin); - - return nfcCommunicate(login); - } - - /** - * Resets security token, which deletes all keys and data objects. - * This works by entering a wrong PIN and then Admin PIN 4 times respectively. - * Afterwards, the token is reactivated. - */ - // NEW METHOD [OK] - public void resetAndWipeToken() throws IOException { - String accepted = "9000"; - - // try wrong PIN 4 times until counter goes to C0 - byte[] pin = "XXXXXX".getBytes(); - for (int i = 0; i <= 4; i++) { - String response = nfcTryPin(0x81, pin); - if (response.equals(accepted)) { // Should NOT accept! - throw new CardException("Should never happen, XXXXXX has been accepted!", parseCardStatus(response)); - } - } - - // try wrong Admin PIN 4 times until counter goes to C0 - byte[] adminPin = "XXXXXXXX".getBytes(); - for (int i = 0; i <= 4; i++) { - String response = nfcTryPin(0x83, adminPin); - if (response.equals(accepted)) { // Should NOT accept! - throw new CardException("Should never happen, XXXXXXXX has been accepted", parseCardStatus(response)); - } - } - - // reactivate token! - String reactivate1 = "00" + "e6" + "00" + "00"; - String reactivate2 = "00" + "44" + "00" + "00"; - String response1 = nfcCommunicate(reactivate1); - String response2 = nfcCommunicate(reactivate2); - if (!response1.equals(accepted) || !response2.equals(accepted)) { - throw new CardException("Reactivating failed!", parseCardStatus(response1)); - } - - } - - /** - * Return the fingerprint from application specific data stored on tag, or - * null if it doesn't exist. - * - * @param idx Index of the key to return the fingerprint from. - * @return The fingerprint of the requested key, or null if not found. - */ - public byte[] getMasterKeyFingerprint(int idx) throws IOException { - byte[] data = getFingerprints(); - if (data == null) { - return null; - } - - // return the master key fingerprint - ByteBuffer fpbuf = ByteBuffer.wrap(data); - byte[] fp = new byte[20]; - fpbuf.position(idx * 20); - fpbuf.get(fp, 0, 20); - - return fp; - } - - @Override - public void setTransport(Transport mTransport) { - this.mTransport = mTransport; - - } -} -- cgit v1.2.3