package applets; import javacard.framework.ISO7816; import javacard.framework.Util; import javacard.security.CryptoException; import javacard.security.ECPrivateKey; import javacard.security.ECPublicKey; import javacard.security.KeyPair; /** * */ public class ECKeyGenerator { private KeyPair ecKeyPair = null; private ECPrivateKey ecPrivateKey = null; private ECPublicKey ecPublicKey = null; public static final byte KEY_PUBLIC = 0x1; public static final byte KEY_PRIVATE = 0x2; public static final byte KEY_BOTH = KEY_PUBLIC & KEY_PRIVATE; public short allocatePair(byte algorithm, short keyLength) { short result = ISO7816.SW_NO_ERROR; try { ecKeyPair = new KeyPair(algorithm, keyLength); ecPrivateKey = (ECPrivateKey) ecKeyPair.getPrivate(); ecPublicKey = (ECPublicKey) ecKeyPair.getPublic(); } catch (CryptoException ce) { result = ce.getReason(); } catch (Exception e) { result = ISO7816.SW_UNKNOWN; } return result; } public boolean isAllocated() { return ecKeyPair != null && ecPrivateKey != null && ecPublicKey != null; } public short generatePair() { short result = ISO7816.SW_NO_ERROR; try { ecKeyPair.genKeyPair(); ecPrivateKey = (ECPrivateKey) ecKeyPair.getPrivate(); ecPublicKey = (ECPublicKey) ecKeyPair.getPublic(); } catch (CryptoException ce) { result = ce.getReason(); } catch (Exception e) { result = ISO7816.SW_UNKNOWN; } return result; } public short setCustomCurve(byte keyClass, short keyLength, byte[] buffer, short offset) { return setCustomCurve(EC_Consts.getCurve(keyClass, keyLength), buffer, offset); } public short setCustomCurve(byte curve, byte[] buffer, short offset) { byte alg = EC_Consts.getCurveType(curve); short sw = ISO7816.SW_NO_ERROR; short length; if (alg == KeyPair.ALG_EC_FP) { length = EC_Consts.getCurveParameter(curve, EC_Consts.PARAMETER_FP, buffer, offset); sw = setExternalParameter(KEY_BOTH, EC_Consts.PARAMETER_FP, buffer, offset, length); } else if (alg == KeyPair.ALG_EC_F2M) { length = EC_Consts.getCurveParameter(curve, EC_Consts.PARAMETER_F2M, buffer, offset); sw = setExternalParameter(KEY_BOTH, EC_Consts.PARAMETER_F2M, buffer, offset, length); } if (sw != ISO7816.SW_NO_ERROR) return sw; for (byte param = EC_Consts.PARAMETER_A; param < EC_Consts.PARAMETER_K; ++param) { length = EC_Consts.getCurveParameter(curve, param, buffer, offset); sw = setExternalParameter(KEY_BOTH, param, buffer, offset, length); if (sw != ISO7816.SW_NO_ERROR) break; } return sw; } public short setCustomInvalidCurve(short keyClass, short keyLength, byte key, byte param, short corruptionType, byte[] buffer, short offset) { return setCustomInvalidCurve(EC_Consts.getCurve(keyClass, keyLength), key, param, corruptionType, buffer, offset); } public short setCustomInvalidCurve(byte curve, byte key, byte param, short corruptionType, byte[] buffer, short offset) { short sw = setCustomCurve(curve, buffer, offset); if (sw != ISO7816.SW_NO_ERROR) return sw; short length = EC_Consts.getCorruptCurveParameter(curve, param, buffer, offset, corruptionType); sw = setExternalParameter(key, param, buffer, offset, length); return sw; } public short setExternalParameter(byte key, byte param, byte[] data, short offset, short length) { short result = ISO7816.SW_NO_ERROR; try { switch (param) { case EC_Consts.PARAMETER_FP: if ((key & KEY_PRIVATE) != 0) ecPrivateKey.setFieldFP(data, offset, length); if ((key & KEY_PUBLIC) != 0) ecPublicKey.setFieldFP(data, offset, length); break; case EC_Consts.PARAMETER_F2M: if (length == 2) { short i = Util.makeShort(data[offset], data[(short) (offset + 1)]); if ((key & KEY_PRIVATE) != 0) ecPrivateKey.setFieldF2M(i); if ((key & KEY_PUBLIC) != 0) ecPublicKey.setFieldF2M(i); } else if (length == 6) { short i1 = Util.makeShort(data[offset], data[(short) (offset + 1)]); short i2 = Util.makeShort(data[(short) (offset + 2)], data[(short) (offset + 3)]); short i3 = Util.makeShort(data[(short) (offset + 4)], data[(short) (offset + 5)]); if ((key & KEY_PRIVATE) != 0) ecPrivateKey.setFieldF2M(i1, i2, i3); if ((key & KEY_PUBLIC) != 0) ecPublicKey.setFieldF2M(i1, i2, i3); } else { result = ISO7816.SW_UNKNOWN; } break; case EC_Consts.PARAMETER_A: if ((key & KEY_PRIVATE) != 0) ecPrivateKey.setA(data, offset, length); if ((key & KEY_PUBLIC) != 0) ecPublicKey.setA(data, offset, length); break; case EC_Consts.PARAMETER_B: if ((key & KEY_PRIVATE) != 0) ecPrivateKey.setB(data, offset, length); if ((key & KEY_PUBLIC) != 0) ecPublicKey.setB(data, offset, length); break; case EC_Consts.PARAMETER_G: if ((key & KEY_PRIVATE) != 0) ecPrivateKey.setG(data, offset, length); if ((key & KEY_PUBLIC) != 0) ecPublicKey.setG(data, offset, length); break; case EC_Consts.PARAMETER_R: if ((key & KEY_PRIVATE) != 0) ecPrivateKey.setR(data, offset, length); if ((key & KEY_PUBLIC) != 0) ecPublicKey.setR(data, offset, length); break; case EC_Consts.PARAMETER_K: if (length != 2) { result = ISO7816.SW_UNKNOWN; } else { short k = Util.makeShort(data[offset], data[(short) (offset + 1)]); if ((key & KEY_PRIVATE) != 0) ecPrivateKey.setK(k); if ((key & KEY_PUBLIC) != 0) ecPublicKey.setK(k); } break; case EC_Consts.PARAMETER_S: if ((key & KEY_PRIVATE) != 0) ecPrivateKey.setS(data, offset, length); break; case EC_Consts.PARAMETER_W: if ((key & KEY_PUBLIC) != 0) ecPublicKey.setW(data, offset, length); break; default: result = ISO7816.SW_UNKNOWN; } } catch (CryptoException ce) { result = ce.getReason(); } catch (Exception e) { result = ISO7816.SW_UNKNOWN; } return result; } public short exportParameter(byte key, short param, byte[] outputBuffer, short outputOffset) { if (key == KEY_BOTH) { return -1; }//TODO: change error handling. short length = 0; try { switch (param) { case EC_Consts.PARAMETER_FP: case EC_Consts.PARAMETER_F2M: if ((key & KEY_PUBLIC) != 0) length = ecPublicKey.getField(outputBuffer, outputOffset); if ((key & KEY_PRIVATE) != 0) length = ecPrivateKey.getField(outputBuffer, outputOffset); break; case EC_Consts.PARAMETER_A: if ((key & KEY_PUBLIC) != 0) length = ecPublicKey.getA(outputBuffer, outputOffset); if ((key & KEY_PRIVATE) != 0) length = ecPrivateKey.getA(outputBuffer, outputOffset); break; case EC_Consts.PARAMETER_B: if ((key & KEY_PUBLIC) != 0) length = ecPublicKey.getB(outputBuffer, outputOffset); if ((key & KEY_PRIVATE) != 0) length = ecPrivateKey.getB(outputBuffer, outputOffset); break; case EC_Consts.PARAMETER_G: if ((key & KEY_PUBLIC) != 0) length = ecPublicKey.getG(outputBuffer, outputOffset); if ((key & KEY_PRIVATE) != 0) length = ecPrivateKey.getG(outputBuffer, outputOffset); break; case EC_Consts.PARAMETER_R: if ((key & KEY_PUBLIC) != 0) length = ecPublicKey.getR(outputBuffer, outputOffset); if ((key & KEY_PRIVATE) != 0) length = ecPrivateKey.getR(outputBuffer, outputOffset); break; case EC_Consts.PARAMETER_K: if ((key & KEY_PUBLIC) != 0) Util.setShort(outputBuffer, outputOffset, ecPublicKey.getK()); if ((key & KEY_PRIVATE) != 0) Util.setShort(outputBuffer, outputOffset, ecPrivateKey.getK()); length = 2; break; case EC_Consts.PARAMETER_S: if ((key & KEY_PRIVATE) != 0) length = ecPrivateKey.getS(outputBuffer, outputOffset); break; case EC_Consts.PARAMETER_W: if ((key & KEY_PUBLIC) != 0) length = ecPublicKey.getW(outputBuffer, outputOffset); break; default: length = -1; } } catch (CryptoException ce) { length = -1; } catch (Exception e) { length = -1; } return length; } public ECPrivateKey getPrivateKey() { return ecPrivateKey; } public ECPublicKey getPublicKey() { return ecPublicKey; } public KeyPair getKeyPair() { return ecKeyPair; } }