/** connect to the given destination */
 I2PSocket connect(PeerID peer) throws IOException {
   I2PSocketManager mgr = _manager;
   if (mgr == null) throw new IOException("No socket manager");
   Destination addr = peer.getAddress();
   if (addr == null) throw new IOException("Null address");
   if (addr.equals(getMyDestination())) throw new IOException("Attempt to connect to myself");
   Hash dest = addr.calculateHash();
   if (_banlist.contains(dest))
     throw new IOException("Not trying to contact " + dest.toBase64() + ", as they are banlisted");
   try {
     // TODO opts.setPort(xxx); connect(addr, opts)
     // DHT moved above 6881 in 0.9.9
     I2PSocket rv = _manager.connect(addr);
     if (rv != null) _banlist.remove(dest);
     return rv;
   } catch (I2PException ie) {
     _banlist.add(dest);
     _context.simpleScheduler().addEvent(new Unbanlist(dest), 10 * 60 * 1000);
     IOException ioe = new IOException("Unable to reach the peer " + peer);
     ioe.initCause(ie);
     throw ioe;
   }
 }
Beispiel #2
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  /**
   * Receive an incoming connection (built from a received SYN) Non-SYN packets with a zero
   * SendStreamID may also be queued here so that they don't get thrown away while the SYN packet
   * before it is queued.
   *
   * @param timeoutMs max amount of time to wait for a connection (if less than 1ms, wait
   *     indefinitely)
   * @return connection received, or null if there was a timeout or the handler was shut down
   */
  public Connection accept(long timeoutMs) {
    if (_log.shouldLog(Log.DEBUG)) _log.debug("Accept(" + timeoutMs + ") called");

    long expiration = timeoutMs + _context.clock().now();
    while (true) {
      if ((timeoutMs > 0) && (expiration < _context.clock().now())) return null;
      if (!_active) {
        // fail all the ones we had queued up
        while (true) {
          Packet packet = _synQueue.poll(); // fails immediately if empty
          if (packet == null || packet.getOptionalDelay() == PoisonPacket.POISON_MAX_DELAY_REQUEST)
            break;
          sendReset(packet);
        }
        return null;
      }

      Packet syn = null;
      while (_active && syn == null) {
        if (_log.shouldLog(Log.DEBUG))
          _log.debug(
              "Accept(" + timeoutMs + "): active=" + _active + " queue: " + _synQueue.size());
        if (timeoutMs <= 0) {
          try {
            syn = _synQueue.take(); // waits forever
          } catch (InterruptedException ie) {
          } // { break;}
        } else {
          long remaining = expiration - _context.clock().now();
          // (dont think this applies anymore for LinkedBlockingQueue)
          // BUGFIX
          // The specified amount of real time has elapsed, more or less.
          // If timeout is zero, however, then real time is not taken into consideration
          // and the thread simply waits until notified.
          if (remaining < 1) break;
          try {
            syn = _synQueue.poll(remaining, TimeUnit.MILLISECONDS); // waits the specified time max
          } catch (InterruptedException ie) {
          }
          break;
        }
      }

      if (syn != null) {
        if (syn.getOptionalDelay() == PoisonPacket.POISON_MAX_DELAY_REQUEST) return null;

        // deal with forged / invalid syn packets in _manager.receiveConnection()

        // Handle both SYN and non-SYN packets in the queue
        if (syn.isFlagSet(Packet.FLAG_SYNCHRONIZE)) {
          // We are single-threaded here, so this is
          // a good place to check for dup SYNs and drop them
          Destination from = syn.getOptionalFrom();
          if (from == null) {
            if (_log.shouldLog(Log.WARN)) _log.warn("Dropping SYN packet with no FROM: " + syn);
            // drop it
            continue;
          }
          Connection oldcon = _manager.getConnectionByOutboundId(syn.getReceiveStreamId());
          if (oldcon != null) {
            // His ID not guaranteed to be unique to us, but probably is...
            // only drop it on a destination match too
            if (from.equals(oldcon.getRemotePeer())) {
              if (_log.shouldLog(Log.WARN)) _log.warn("Dropping dup SYN: " + syn);
              continue;
            }
          }
          Connection con = _manager.receiveConnection(syn);
          if (con != null) return con;
        } else {
          reReceivePacket(syn);
          // ... and keep looping
        }
      }
      // keep looping...
    }
  }