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package sun.security.smartcardio;

import java.nio.ByteBuffer;
import java.security.AccessController;
import java.security.PrivilegedAction;
import javax.smartcardio.*;
import static sun.security.smartcardio.PCSC.*;

Card implementation.
Author: Andreas Sterbenz
Since: 1.6
/** * Card implementation. * * @since 1.6 * @author Andreas Sterbenz */
final class CardImpl extends Card { private static enum State { OK, REMOVED, DISCONNECTED }; // the terminal that created this card private final TerminalImpl terminal; // the native SCARDHANDLE final long cardId; // atr of this card private final ATR atr; // protocol in use, one of SCARD_PROTOCOL_T0 and SCARD_PROTOCOL_T1 final int protocol; // the basic logical channel (channel 0) private final ChannelImpl basicChannel; // state of this card connection private volatile State state; // thread holding exclusive access to the card, or null private volatile Thread exclusiveThread; // used for platform specific logic private static final boolean isWindows; static { final String osName = AccessController.doPrivileged( new PrivilegedAction<String>() { @Override public String run() { return System.getProperty("os.name"); } }); isWindows = osName.startsWith("Windows"); } CardImpl(TerminalImpl terminal, String protocol) throws PCSCException { this.terminal = terminal; int sharingMode = SCARD_SHARE_SHARED; int connectProtocol; if (protocol.equals("*")) { connectProtocol = SCARD_PROTOCOL_T0 | SCARD_PROTOCOL_T1; } else if (protocol.equalsIgnoreCase("T=0")) { connectProtocol = SCARD_PROTOCOL_T0; } else if (protocol.equalsIgnoreCase("T=1")) { connectProtocol = SCARD_PROTOCOL_T1; } else if (protocol.equalsIgnoreCase("direct")) { // testing // MSDN states that the preferred protocol can be zero, but doesn't // specify whether other values are allowed. // pcsc-lite implementation expects the preferred protocol to be non zero. connectProtocol = isWindows ? 0 : SCARD_PROTOCOL_RAW; sharingMode = SCARD_SHARE_DIRECT; } else { throw new IllegalArgumentException("Unsupported protocol " + protocol); } cardId = SCardConnect(terminal.contextId, terminal.name, sharingMode, connectProtocol); byte[] status = new byte[2]; byte[] atrBytes = SCardStatus(cardId, status); atr = new ATR(atrBytes); this.protocol = status[1] & 0xff; basicChannel = new ChannelImpl(this, 0); state = State.OK; } void checkState() { State s = state; if (s == State.DISCONNECTED) { throw new IllegalStateException("Card has been disconnected"); } else if (s == State.REMOVED) { throw new IllegalStateException("Card has been removed"); } } boolean isValid() { if (state != State.OK) { return false; } // ping card via SCardStatus try { SCardStatus(cardId, new byte[2]); return true; } catch (PCSCException e) { state = State.REMOVED; return false; } } private void checkSecurity(String action) { SecurityManager sm = System.getSecurityManager(); if (sm != null) { sm.checkPermission(new CardPermission(terminal.name, action)); } } void handleError(PCSCException e) { if (e.code == SCARD_W_REMOVED_CARD) { state = State.REMOVED; } } public ATR getATR() { return atr; } public String getProtocol() { switch (protocol) { case SCARD_PROTOCOL_T0: return "T=0"; case SCARD_PROTOCOL_T1: return "T=1"; default: // should never occur return "Unknown protocol " + protocol; } } public CardChannel getBasicChannel() { checkSecurity("getBasicChannel"); checkState(); return basicChannel; } private static int getSW(byte[] b) { if (b.length < 2) { return -1; } int sw1 = b[b.length - 2] & 0xff; int sw2 = b[b.length - 1] & 0xff; return (sw1 << 8) | sw2; } private static byte[] commandOpenChannel = new byte[] {0, 0x70, 0, 0, 1}; public CardChannel openLogicalChannel() throws CardException { checkSecurity("openLogicalChannel"); checkState(); checkExclusive(); try { byte[] response = SCardTransmit (cardId, protocol, commandOpenChannel, 0, commandOpenChannel.length); if ((response.length != 3) || (getSW(response) != 0x9000)) { throw new CardException ("openLogicalChannel() failed, card response: " + PCSC.toString(response)); } return new ChannelImpl(this, response[0]); } catch (PCSCException e) { handleError(e); throw new CardException("openLogicalChannel() failed", e); } } void checkExclusive() throws CardException { Thread t = exclusiveThread; if (t == null) { return; } if (t != Thread.currentThread()) { throw new CardException("Exclusive access established by another Thread"); } } public synchronized void beginExclusive() throws CardException { checkSecurity("exclusive"); checkState(); if (exclusiveThread != null) { throw new CardException ("Exclusive access has already been assigned to Thread " + exclusiveThread.getName()); } try { SCardBeginTransaction(cardId); } catch (PCSCException e) { handleError(e); throw new CardException("beginExclusive() failed", e); } exclusiveThread = Thread.currentThread(); } public synchronized void endExclusive() throws CardException { checkState(); if (exclusiveThread != Thread.currentThread()) { throw new IllegalStateException ("Exclusive access not assigned to current Thread"); } try { SCardEndTransaction(cardId, SCARD_LEAVE_CARD); } catch (PCSCException e) { handleError(e); throw new CardException("endExclusive() failed", e); } finally { exclusiveThread = null; } } public byte[] transmitControlCommand(int controlCode, byte[] command) throws CardException { checkSecurity("transmitControl"); checkState(); checkExclusive(); if (command == null) { throw new NullPointerException(); } try { byte[] r = SCardControl(cardId, controlCode, command); return r; } catch (PCSCException e) { handleError(e); throw new CardException("transmitControlCommand() failed", e); } } private static final boolean invertReset = Boolean.parseBoolean( java.security.AccessController.doPrivileged( new sun.security.action.GetPropertyAction( "sun.security.smartcardio.invertCardReset", "true"))); public void disconnect(boolean reset) throws CardException { if (reset) { checkSecurity("reset"); } if (state != State.OK) { return; } checkExclusive(); // to preserve old behaviour, don't change flag until here if (invertReset) { reset = !reset; } try { SCardDisconnect(cardId, (reset ? SCARD_RESET_CARD : SCARD_LEAVE_CARD)); } catch (PCSCException e) { throw new CardException("disconnect() failed", e); } finally { state = State.DISCONNECTED; exclusiveThread = null; } } public String toString() { return "PC/SC card in " + terminal.name + ", protocol " + getProtocol() + ", state " + state; } protected void finalize() throws Throwable { try { if (state == State.OK) { state = State.DISCONNECTED; SCardDisconnect(cardId, SCARD_LEAVE_CARD); } } finally { super.finalize(); } } }