public void testUpdatingLastUsed() throws Exception {
    long idle = 600000;
    dc.put("k", "v", -1, -1);
    InternalCacheEntry ice = dc.get("k");
    assert ice.getClass().equals(immortaltype());
    assert ice.getExpiryTime() == -1;
    assert ice.getMaxIdle() == -1;
    assert ice.getLifespan() == -1;
    dc.put("k", "v", -1, idle);
    long oldTime = System.currentTimeMillis();
    Thread.sleep(100); // for time calc granularity
    ice = dc.get("k");
    assert ice.getClass().equals(transienttype());
    assert ice.getExpiryTime() > -1;
    assert ice.getLastUsed() > oldTime;
    Thread.sleep(100); // for time calc granularity
    assert ice.getLastUsed() < System.currentTimeMillis();
    assert ice.getMaxIdle() == idle;
    assert ice.getLifespan() == -1;

    oldTime = System.currentTimeMillis();
    Thread.sleep(100); // for time calc granularity
    assert dc.get("k") != null;

    // check that the last used stamp has been updated on a get
    assert ice.getLastUsed() > oldTime;
    Thread.sleep(100); // for time calc granularity
    assert ice.getLastUsed() < System.currentTimeMillis();
  }
 @Override
 protected String toString(InternalCacheEntry ice) {
   if (ice == null) return null;
   StringBuilder sb = new StringBuilder(256);
   sb.append(ice.getClass().getSimpleName());
   sb.append("[key=").append(ice.getKey()).append(", value=").append(ice.getValue());
   sb.append(", created=").append(ice.getCreated()).append(", isCreated=").append(ice.isCreated());
   sb.append(", lastUsed=")
       .append(ice.getLastUsed())
       .append(", isChanged=")
       .append(ice.isChanged());
   sb.append(", expires=")
       .append(ice.getExpiryTime())
       .append(", isExpired=")
       .append(ice.isExpired(System.currentTimeMillis()));
   sb.append(", canExpire=")
       .append(ice.canExpire())
       .append(", isEvicted=")
       .append(ice.isEvicted());
   sb.append(", isRemoved=").append(ice.isRemoved()).append(", isValid=").append(ice.isValid());
   sb.append(", lifespan=")
       .append(ice.getLifespan())
       .append(", maxIdle=")
       .append(ice.getMaxIdle());
   return sb.append(']').toString();
 }
Exemplo n.º 3
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 public Object getValueAt(int rowIndex, int columnIndex) {
   if (data.size() > rowIndex) {
     InternalCacheEntry e = data.get(rowIndex);
     switch (columnIndex) {
       case 0:
         return e.getKey();
       case 1:
         return e.getValue();
       case 2:
         return e.getLifespan();
       case 3:
         return e.getMaxIdle();
     }
   }
   return "NULL!";
 }
Exemplo n.º 4
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  public void testIdleExpiryInPut() throws InterruptedException {
    Cache<String, String> cache = cm.getCache();
    long idleTime = IDLE_TIMEOUT;
    cache.put("k", "v", -1, MILLISECONDS, idleTime, MILLISECONDS);

    DataContainer dc = cache.getAdvancedCache().getDataContainer();
    InternalCacheEntry se = dc.get("k", null);
    assert se.getKey().equals("k");
    assert se.getValue().equals("v");
    assert se.getLifespan() == -1;
    assert se.getMaxIdle() == idleTime;
    assert !se.isExpired();
    assert cache.get("k").equals("v");
    Thread.sleep(idleTime + 100);
    assert se.isExpired();
    assert cache.get("k") == null;
  }
Exemplo n.º 5
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  private void doApplyState(
      Address sender, int segmentId, Collection<InternalCacheEntry> cacheEntries) {
    log.debugf(
        "Applying new state for segment %d of cache %s from node %s: received %d cache entries",
        segmentId, cacheName, sender, cacheEntries.size());
    if (trace) {
      List<Object> keys = new ArrayList<Object>(cacheEntries.size());
      for (InternalCacheEntry e : cacheEntries) {
        keys.add(e.getKey());
      }
      log.tracef(
          "Received keys %s for segment %d of cache %s from node %s",
          keys, segmentId, cacheName, sender);
    }

    // CACHE_MODE_LOCAL avoids handling by StateTransferInterceptor and any potential locks in
    // StateTransferLock
    EnumSet<Flag> flags =
        EnumSet.of(
            PUT_FOR_STATE_TRANSFER,
            CACHE_MODE_LOCAL,
            IGNORE_RETURN_VALUES,
            SKIP_REMOTE_LOOKUP,
            SKIP_SHARED_CACHE_STORE,
            SKIP_OWNERSHIP_CHECK,
            SKIP_XSITE_BACKUP);
    for (InternalCacheEntry e : cacheEntries) {
      try {
        InvocationContext ctx;
        if (transactionManager != null) {
          // cache is transactional
          transactionManager.begin();
          Transaction transaction = transactionManager.getTransaction();
          ctx = icc.createInvocationContext(transaction);
          ((TxInvocationContext) ctx).setImplicitTransaction(true);
        } else {
          // non-tx cache
          ctx = icc.createSingleKeyNonTxInvocationContext();
        }

        PutKeyValueCommand put =
            useVersionedPut
                ? commandsFactory.buildVersionedPutKeyValueCommand(
                    e.getKey(),
                    e.getValue(),
                    e.getLifespan(),
                    e.getMaxIdle(),
                    e.getVersion(),
                    flags)
                : commandsFactory.buildPutKeyValueCommand(
                    e.getKey(), e.getValue(), e.getLifespan(), e.getMaxIdle(), flags);

        boolean success = false;
        try {
          interceptorChain.invoke(ctx, put);
          success = true;
        } finally {
          if (ctx.isInTxScope()) {
            if (success) {
              ((LocalTransaction) ((TxInvocationContext) ctx).getCacheTransaction())
                  .setFromStateTransfer(true);
              try {
                transactionManager.commit();
              } catch (Throwable ex) {
                log.errorf(
                    ex,
                    "Could not commit transaction created by state transfer of key %s",
                    e.getKey());
                if (transactionManager.getTransaction() != null) {
                  transactionManager.rollback();
                }
              }
            } else {
              transactionManager.rollback();
            }
          }
        }
      } catch (Exception ex) {
        log.problemApplyingStateForKey(ex.getMessage(), e.getKey(), ex);
      }
    }
    log.debugf("Finished applying state for segment %d of cache %s", segmentId, cacheName);
  }