Exemple #1
0
  /**
   * Starts requesting first chunk of next piece. Returns true if something has been added to the
   * requests, false otherwise. Caller should synchronize.
   */
  private boolean requestNextPiece() {
    // Check that we already know what the other side has.
    if (bitfield != null) {
      // Check for adopting an orphaned partial piece
      PartialPiece pp = listener.getPartialPiece(peer, bitfield);
      if (pp != null) {
        // Double-check that r not already in outstandingRequests
        if (!getRequestedPieces().contains(Integer.valueOf(pp.getPiece()))) {
          Request r = pp.getRequest();
          outstandingRequests.add(r);
          if (!choked) out.sendRequest(r);
          lastRequest = r;
          return true;
        } else {
          if (_log.shouldLog(Log.WARN)) _log.warn("Got dup from coord: " + pp);
          pp.release();
        }
      }

      /**
       * ***** getPartialPiece() does it all now // Note that in addition to the bitfield,
       * PeerCoordinator uses // its request tracking and isRequesting() to determine // what piece
       * to give us next. int nextPiece = listener.wantPiece(peer, bitfield); if (nextPiece != -1 &&
       * (lastRequest == null || lastRequest.getPiece() != nextPiece)) { if
       * (_log.shouldLog(Log.DEBUG)) _log.debug(peer + " want piece " + nextPiece); // Fail safe to
       * make sure we are interested // When we transition into the end game we may not be
       * interested... if (!interesting) { if (_log.shouldLog(Log.DEBUG)) _log.debug(peer + "
       * transition to end game, setting interesting"); interesting = true; out.sendInterest(true);
       * }
       *
       * <p>int piece_length = metainfo.getPieceLength(nextPiece); //Catch a common place for OOMs
       * esp. on 1MB pieces byte[] bs; try { bs = new byte[piece_length]; } catch (OutOfMemoryError
       * oom) { _log.warn("Out of memory, can't request piece " + nextPiece, oom); return false; }
       *
       * <p>int length = Math.min(piece_length, PARTSIZE); Request req = new Request(nextPiece, bs,
       * 0, length); outstandingRequests.add(req); if (!choked) out.sendRequest(req); lastRequest =
       * req; return true; } else { if (_log.shouldLog(Log.DEBUG)) _log.debug(peer + " no more
       * pieces to request"); } *****
       */
    }

    // failsafe
    // However this is bad as it thrashes the peer when we change our mind
    // Ticket 691 cause here?
    if (outstandingRequests.isEmpty()) lastRequest = null;

    // If we are not in the end game, we may run out of things to request
    // because we are asking other peers. Set not-interesting now rather than
    // wait for those other requests to be satisfied via havePiece()
    if (interesting && lastRequest == null) {
      interesting = false;
      out.sendInterest(false);
      if (_log.shouldLog(Log.DEBUG))
        _log.debug(peer + " nothing more to request, now uninteresting");
    }
    return false;
  }
Exemple #2
0
 /**
  * @return good
  * @since 0.9.1
  */
 boolean checkPiece(PartialPiece pp) {
   int piece = pp.getPiece();
   byte[] hash;
   try {
     hash = pp.getHash();
   } catch (IOException ioe) {
     // Could be caused by closing a peer connnection
     // we don't want the exception to propagate through
     // to Storage.putPiece()
     _log.warn("Error checking", ioe);
     return false;
   }
   for (int i = 0; i < 20; i++) {
     if (hash[i] != piece_hashes[20 * piece + i]) return false;
   }
   return true;
 }