예제 #1
0
 /**
  * Register interest with ALL_KEYS, and InterestPolicyResult = KEYS_VALUES which is equivalent to
  * a full GII.
  *
  * @param aRegion The region to register interest on.
  */
 protected static void registerInterest(Region aRegion) {
   Log.getLogWriter()
       .info("Calling registerInterest for all keys, result interest policy KEYS_VALUES");
   aRegion.registerInterest("ALL_KEYS", InterestResultPolicy.KEYS_VALUES);
   Log.getLogWriter()
       .info(
           "Done calling registerInterest for all keys, "
               + "result interest policy KEYS_VALUES, "
               + aRegion.getFullPath()
               + " size is "
               + aRegion.size());
 }
예제 #2
0
 /**
  * Load a region with keys and values. The number of keys and values is specified by the total
  * number of keys in keyIntervals. This can be invoked by several threads to accomplish the work.
  */
 public void loadRegion() {
   final long LOG_INTERVAL_MILLIS = 10000;
   int numKeysToCreate = keyIntervals.getNumKeys();
   long lastLogTime = System.currentTimeMillis();
   long startTime = System.currentTimeMillis();
   SharedCounters sc = CQUtilBB.getBB().getSharedCounters();
   do {
     long shouldAddCount =
         CQUtilBB.getBB().getSharedCounters().incrementAndRead(CQUtilBB.SHOULD_ADD_COUNT);
     if (shouldAddCount > numKeysToCreate) {
       String aStr =
           "In loadRegion, shouldAddCount is "
               + shouldAddCount
               + ", numOriginalKeysCreated is "
               + sc.read(CQUtilBB.NUM_ORIGINAL_KEYS_CREATED)
               + ", numKeysToCreate is "
               + numKeysToCreate
               + ", region size is "
               + aRegion.size();
       Log.getLogWriter().info(aStr);
       NameBB.getBB().printSharedCounters();
       throw new StopSchedulingTaskOnClientOrder(aStr);
     }
     Object key = NameFactory.getNextPositiveObjectName();
     QueryObject value = getValueToAdd(key);
     value.extra = key;
     Log.getLogWriter().info("Creating with put, key " + key + ", value " + value.toStringFull());
     aRegion.put(key, value);
     sc.increment(CQUtilBB.NUM_ORIGINAL_KEYS_CREATED);
     if (System.currentTimeMillis() - lastLogTime > LOG_INTERVAL_MILLIS) {
       Log.getLogWriter()
           .info(
               "Added "
                   + NameFactory.getPositiveNameCounter()
                   + " out of "
                   + numKeysToCreate
                   + " entries into "
                   + TestHelper.regionToString(aRegion, false));
       lastLogTime = System.currentTimeMillis();
     }
   } while ((minTaskGranularitySec == -1)
       || (System.currentTimeMillis() - startTime < minTaskGranularityMS));
 }
예제 #3
0
  /**
   * Verify the contents of the region, taking into account the keys that were destroyed,
   * invalidated, etc (as specified in keyIntervals) Throw an error of any problems are detected.
   * This must be called repeatedly by the same thread until StopSchedulingTaskOnClientOrder is
   * thrown.
   */
  public void verifyRegionContents() {
    final long LOG_INTERVAL_MILLIS = 10000;
    // we already completed this check once; we can't do it again without reinitializing the
    // verify state variables
    if (verifyRegionContentsCompleted) {
      throw new TestException(
          "Test configuration problem; already verified region contents, "
              + "cannot call this task again without resetting batch variables");
    }

    // iterate keys
    long lastLogTime = System.currentTimeMillis();
    long minTaskGranularitySec = TestConfig.tab().longAt(TestHelperPrms.minTaskGranularitySec);
    long minTaskGranularityMS = minTaskGranularitySec * TestHelper.SEC_MILLI_FACTOR;
    long startTime = System.currentTimeMillis();
    long size = aRegion.size();
    boolean first = true;
    int numKeysToCheck = keyIntervals.getNumKeys() + numNewKeys;
    while (verifyRegionContentsIndex < numKeysToCheck) {
      verifyRegionContentsIndex++;
      if (first) {
        Log.getLogWriter()
            .info(
                "In verifyRegionContents, region has "
                    + size
                    + " keys; starting verify at verifyRegionContentsIndex "
                    + verifyRegionContentsIndex
                    + "; verifying key names with indexes through (and including) "
                    + numKeysToCheck);
        first = false;
      }

      // check region size the first time through the loop to avoid it being called
      // multiple times when this is batched
      if (verifyRegionContentsIndex == 1) {
        if (totalNumKeys != size) {
          String tmpStr = "Expected region size to be " + totalNumKeys + ", but it is size " + size;
          Log.getLogWriter().info(tmpStr);
          verifyRegionContentsErrStr.append(tmpStr + "\n");
        }
      }

      Object key = NameFactory.getObjectNameForCounter(verifyRegionContentsIndex);
      try {
        if (((verifyRegionContentsIndex >= keyIntervals.getFirstKey(KeyIntervals.NONE))
                && (verifyRegionContentsIndex <= keyIntervals.getLastKey(KeyIntervals.NONE)))
            || ((verifyRegionContentsIndex >= keyIntervals.getFirstKey(KeyIntervals.GET))
                && (verifyRegionContentsIndex <= keyIntervals.getLastKey(KeyIntervals.GET)))) {
          // this key was untouched after its creation
          checkContainsKey(key, true, "key was untouched");
          checkContainsValueForKey(key, true, "key was untouched");
          Object value = aRegion.get(key);
          checkValue(key, value);
        } else if ((verifyRegionContentsIndex >= keyIntervals.getFirstKey(KeyIntervals.INVALIDATE))
            && (verifyRegionContentsIndex <= keyIntervals.getLastKey(KeyIntervals.INVALIDATE))) {
          checkContainsKey(key, true, "key was invalidated");
          checkContainsValueForKey(key, false, "key was invalidated");
        } else if ((verifyRegionContentsIndex
                >= keyIntervals.getFirstKey(KeyIntervals.LOCAL_INVALIDATE))
            && (verifyRegionContentsIndex
                <= keyIntervals.getLastKey(KeyIntervals.LOCAL_INVALIDATE))) {
          // this key was locally invalidated
          checkContainsKey(key, true, "key was locally invalidated");
          checkContainsValueForKey(key, true, "key was locally invalidated");
          Object value = aRegion.get(key);
          checkValue(key, value);
        } else if ((verifyRegionContentsIndex >= keyIntervals.getFirstKey(KeyIntervals.DESTROY))
            && (verifyRegionContentsIndex <= keyIntervals.getLastKey(KeyIntervals.DESTROY))) {
          // this key was destroyed
          checkContainsKey(key, false, "key was destroyed");
          checkContainsValueForKey(key, false, "key was destroyed");
        } else if ((verifyRegionContentsIndex
                >= keyIntervals.getFirstKey(KeyIntervals.LOCAL_DESTROY))
            && (verifyRegionContentsIndex <= keyIntervals.getLastKey(KeyIntervals.LOCAL_DESTROY))) {
          // this key was locally destroyed
          checkContainsKey(key, true, "key was locally destroyed");
          checkContainsValueForKey(key, true, "key was locally destroyed");
          Object value = aRegion.get(key);
          checkValue(key, value);
        } else if ((verifyRegionContentsIndex
                >= keyIntervals.getFirstKey(KeyIntervals.UPDATE_EXISTING_KEY))
            && (verifyRegionContentsIndex
                <= keyIntervals.getLastKey(KeyIntervals.UPDATE_EXISTING_KEY))) {
          // this key was updated
          checkContainsKey(key, true, "key was updated");
          checkContainsValueForKey(key, true, "key was updated");
          Object value = aRegion.get(key);
          checkUpdatedValue(key, value);
        } else if (verifyRegionContentsIndex > keyIntervals.getNumKeys()) {
          // key was newly added
          checkContainsKey(key, true, "key was new");
          checkContainsValueForKey(key, true, "key was new");
          Object value = aRegion.get(key);
          checkValue(key, value);
        }
      } catch (TestException e) {
        Log.getLogWriter().info(TestHelper.getStackTrace(e));
        verifyRegionContentsErrStr.append(e.getMessage() + "\n");
      }

      if (System.currentTimeMillis() - lastLogTime > LOG_INTERVAL_MILLIS) {
        Log.getLogWriter()
            .info("Verified key " + verifyRegionContentsIndex + " out of " + totalNumKeys);
        lastLogTime = System.currentTimeMillis();
      }

      if (System.currentTimeMillis() - startTime >= minTaskGranularityMS) {
        Log.getLogWriter()
            .info(
                "In HydraTask_verifyRegionContents, returning before completing verify "
                    + "because of task granularity (this task must be batched to complete); last key verified is "
                    + key);
        return; // task is batched; we are done with this batch
      }
    }
    verifyRegionContentsCompleted = true;
    if (verifyRegionContentsErrStr.length() > 0) {
      throw new TestException(verifyRegionContentsErrStr.toString());
    }
    String aStr =
        "In HydraTask_verifyRegionContents, verified " + verifyRegionContentsIndex + " keys/values";
    Log.getLogWriter().info(aStr);
    throw new StopSchedulingTaskOnClientOrder(aStr);
  }
  /** check remote ops done in a normal vm are correctly distributed to PROXY regions */
  private void remoteOriginOps(DataPolicy dp, InterestPolicy ip) throws CacheException {
    initOtherId();
    AttributesFactory af = new AttributesFactory();
    af.setDataPolicy(dp);
    af.setSubscriptionAttributes(new SubscriptionAttributes(ip));
    af.setScope(Scope.DISTRIBUTED_ACK);
    CacheListener cl1 =
        new CacheListener() {
          public void afterUpdate(EntryEvent e) {
            clLastEvent = e;
            clInvokeCount++;
          }

          public void afterCreate(EntryEvent e) {
            clLastEvent = e;
            clInvokeCount++;
          }

          public void afterInvalidate(EntryEvent e) {
            clLastEvent = e;
            clInvokeCount++;
          }

          public void afterDestroy(EntryEvent e) {
            clLastEvent = e;
            clInvokeCount++;
          }

          public void afterRegionInvalidate(RegionEvent e) {
            clLastEvent = e;
            clInvokeCount++;
          }

          public void afterRegionDestroy(RegionEvent e) {
            clLastEvent = e;
            clInvokeCount++;
          }

          public void afterRegionClear(RegionEvent e) {
            clLastEvent = e;
            clInvokeCount++;
          }

          public void afterRegionCreate(RegionEvent e) {}

          public void afterRegionLive(RegionEvent e) {}

          public void close() {}
        };
    af.addCacheListener(cl1);
    Region r = createRootRegion("ProxyDUnitTest", af.create());
    this.clInvokeCount = 0;

    doCreateOtherVm();

    DMStats stats = getDMStats();
    long receivedMsgs = stats.getReceivedMessages();

    if (ip.isAll()) {
      getOtherVm()
          .invoke(
              new CacheSerializableRunnable("do put") {
                public void run2() throws CacheException {
                  Region r = getRootRegion("ProxyDUnitTest");
                  r.put("p", "v");
                }
              });
      assertEquals(1, this.clInvokeCount);
      assertEquals(Operation.CREATE, this.clLastEvent.getOperation());
      assertEquals(true, this.clLastEvent.isOriginRemote());
      assertEquals(this.otherId, this.clLastEvent.getDistributedMember());
      assertEquals(null, ((EntryEvent) this.clLastEvent).getOldValue());
      assertEquals(false, ((EntryEvent) this.clLastEvent).isOldValueAvailable()); // failure
      assertEquals("v", ((EntryEvent) this.clLastEvent).getNewValue());
      assertEquals("p", ((EntryEvent) this.clLastEvent).getKey());
      this.clInvokeCount = 0;

      getOtherVm()
          .invoke(
              new CacheSerializableRunnable("do create") {
                public void run2() throws CacheException {
                  Region r = getRootRegion("ProxyDUnitTest");
                  r.create("c", "v");
                }
              });
      assertEquals(1, this.clInvokeCount);
      assertEquals(Operation.CREATE, this.clLastEvent.getOperation());
      assertEquals(true, this.clLastEvent.isOriginRemote());
      assertEquals(this.otherId, this.clLastEvent.getDistributedMember());
      assertEquals(null, ((EntryEvent) this.clLastEvent).getOldValue());
      assertEquals(false, ((EntryEvent) this.clLastEvent).isOldValueAvailable());
      assertEquals("v", ((EntryEvent) this.clLastEvent).getNewValue());
      assertEquals("c", ((EntryEvent) this.clLastEvent).getKey());
      this.clInvokeCount = 0;

      getOtherVm()
          .invoke(
              new CacheSerializableRunnable("do update") {
                public void run2() throws CacheException {
                  Region r = getRootRegion("ProxyDUnitTest");
                  r.put("c", "v2");
                }
              });
      assertEquals(1, this.clInvokeCount);
      assertEquals(Operation.UPDATE, this.clLastEvent.getOperation());
      assertEquals(true, this.clLastEvent.isOriginRemote());
      assertEquals(this.otherId, this.clLastEvent.getDistributedMember());
      assertEquals(null, ((EntryEvent) this.clLastEvent).getOldValue());
      assertEquals(false, ((EntryEvent) this.clLastEvent).isOldValueAvailable());
      assertEquals("v2", ((EntryEvent) this.clLastEvent).getNewValue());
      assertEquals("c", ((EntryEvent) this.clLastEvent).getKey());
      this.clInvokeCount = 0;

      getOtherVm()
          .invoke(
              new CacheSerializableRunnable("do invalidate") {
                public void run2() throws CacheException {
                  Region r = getRootRegion("ProxyDUnitTest");
                  r.invalidate("c");
                }
              });
      assertEquals(1, this.clInvokeCount);
      assertEquals(Operation.INVALIDATE, this.clLastEvent.getOperation());
      assertEquals(true, this.clLastEvent.isOriginRemote());
      assertEquals(this.otherId, this.clLastEvent.getDistributedMember());
      assertEquals(null, ((EntryEvent) this.clLastEvent).getOldValue());
      assertEquals(false, ((EntryEvent) this.clLastEvent).isOldValueAvailable());
      assertEquals(null, ((EntryEvent) this.clLastEvent).getNewValue());
      assertEquals("c", ((EntryEvent) this.clLastEvent).getKey());
      this.clInvokeCount = 0;

      getOtherVm()
          .invoke(
              new CacheSerializableRunnable("do destroy") {
                public void run2() throws CacheException {
                  Region r = getRootRegion("ProxyDUnitTest");
                  r.destroy("c");
                }
              });
      assertEquals(1, this.clInvokeCount);
      assertEquals(Operation.DESTROY, this.clLastEvent.getOperation());
      assertEquals(true, this.clLastEvent.isOriginRemote());
      assertEquals(this.otherId, this.clLastEvent.getDistributedMember());
      assertEquals(null, ((EntryEvent) this.clLastEvent).getOldValue());
      assertEquals(false, ((EntryEvent) this.clLastEvent).isOldValueAvailable());
      assertEquals(null, ((EntryEvent) this.clLastEvent).getNewValue());
      assertEquals("c", ((EntryEvent) this.clLastEvent).getKey());
      this.clInvokeCount = 0;

      getOtherVm()
          .invoke(
              new CacheSerializableRunnable("do putAll") {
                public void run2() throws CacheException {
                  Region r = getRootRegion("ProxyDUnitTest");
                  Map m = new HashMap();
                  m.put("putAllKey1", "putAllValue1");
                  m.put("putAllKey2", "putAllValue2");
                  r.putAll(m);
                }
              });
      assertEquals(2, this.clInvokeCount);
      // @todo darrel; check putAll events
      this.clInvokeCount = 0;

      getOtherVm()
          .invoke(
              new CacheSerializableRunnable("do netsearch") {
                public void run2() throws CacheException {
                  Region r = getRootRegion("ProxyDUnitTest");
                  assertEquals(null, r.get("loadkey")); // total miss
                }
              });
      assertEquals(0, this.clInvokeCount);

    } else {
      getOtherVm()
          .invoke(
              new CacheSerializableRunnable("do entry ops") {
                public void run2() throws CacheException {
                  Region r = getRootRegion("ProxyDUnitTest");
                  r.put("p", "v");
                  r.create("c", "v");
                  r.put("c", "v"); // update
                  r.invalidate("c");
                  r.destroy("c");
                  {
                    Map m = new HashMap();
                    m.put("putAllKey1", "putAllValue1");
                    m.put("putAllKey2", "putAllValue2");
                    r.putAll(m);
                  }
                  assertEquals(null, r.get("loadkey")); // total miss
                }
              });

      assertEquals(0, this.clInvokeCount);
      assertEquals(0, r.size());
      // check the stats to make sure none of the above sent up messages
      assertEquals(receivedMsgs, stats.getReceivedMessages());
    }

    {
      AttributesMutator am = r.getAttributesMutator();
      CacheLoader cl =
          new CacheLoader() {
            public Object load(LoaderHelper helper) throws CacheLoaderException {
              if (helper.getKey().equals("loadkey")) {
                return "loadvalue";
              } else if (helper.getKey().equals("loadexception")) {
                throw new CacheLoaderException("expected");
              } else {
                return null;
              }
            }

            public void close() {}
          };
      am.setCacheLoader(cl);
    }

    receivedMsgs = stats.getReceivedMessages();
    getOtherVm()
        .invoke(
            new CacheSerializableRunnable("check net loader") {
              public void run2() throws CacheException {
                Region r = getRootRegion("ProxyDUnitTest");
                assertEquals("loadvalue", r.get("loadkey")); // net load
                assertEquals(null, r.get("foobar")); // total miss
                try {
                  r.get("loadexception");
                  fail("expected CacheLoaderException");
                } catch (CacheLoaderException expected) {
                }
              }
            });
    assertTrue(stats.getReceivedMessages() > receivedMsgs);
    if (ip.isAll()) {
      assertEquals(1, this.clInvokeCount);
      assertEquals(Operation.NET_LOAD_CREATE, this.clLastEvent.getOperation());
      assertEquals(true, this.clLastEvent.isOriginRemote());
      assertEquals(this.otherId, this.clLastEvent.getDistributedMember());
      assertEquals(null, ((EntryEvent) this.clLastEvent).getOldValue());
      assertEquals(false, ((EntryEvent) this.clLastEvent).isOldValueAvailable());
      this.clInvokeCount = 0;
    } else {
      assertEquals(0, this.clInvokeCount);
    }

    {
      AttributesMutator am = r.getAttributesMutator();
      am.setCacheLoader(null);
      CacheWriter cw =
          new CacheWriterAdapter() {
            public void beforeCreate(EntryEvent event) throws CacheWriterException {
              throw new CacheWriterException("expected");
            }
          };
      am.setCacheWriter(cw);
    }
    receivedMsgs = stats.getReceivedMessages();
    getOtherVm()
        .invoke(
            new CacheSerializableRunnable("check net write") {
              public void run2() throws CacheException {
                Region r = getRootRegion("ProxyDUnitTest");
                try {
                  r.put("putkey", "putvalue");
                  fail("expected CacheWriterException");
                } catch (CacheWriterException expected) {
                }
              }
            });
    assertTrue(stats.getReceivedMessages() > receivedMsgs);
    {
      AttributesMutator am = r.getAttributesMutator();
      am.setCacheWriter(null);
    }
    assertEquals(0, this.clInvokeCount);
    this.clLastEvent = null;
    getOtherVm()
        .invoke(
            new CacheSerializableRunnable("check region invalidate") {
              public void run2() throws CacheException {
                Region r = getRootRegion("ProxyDUnitTest");
                r.invalidateRegion();
              }
            });
    assertEquals(1, this.clInvokeCount);
    assertEquals(Operation.REGION_INVALIDATE, this.clLastEvent.getOperation());
    assertEquals(true, this.clLastEvent.isOriginRemote());
    assertEquals(this.otherId, this.clLastEvent.getDistributedMember());

    this.clLastEvent = null;
    getOtherVm()
        .invoke(
            new CacheSerializableRunnable("check region clear") {
              public void run2() throws CacheException {
                Region r = getRootRegion("ProxyDUnitTest");
                r.clear();
              }
            });
    assertEquals(2, this.clInvokeCount);
    assertEquals(Operation.REGION_CLEAR, this.clLastEvent.getOperation());
    assertEquals(true, this.clLastEvent.isOriginRemote());
    assertEquals(this.otherId, this.clLastEvent.getDistributedMember());

    this.clLastEvent = null;
    getOtherVm()
        .invoke(
            new CacheSerializableRunnable("check region destroy") {
              public void run2() throws CacheException {
                Region r = getRootRegion("ProxyDUnitTest");
                r.destroyRegion();
              }
            });
    assertEquals(3, this.clInvokeCount);
    assertEquals(Operation.REGION_DESTROY, this.clLastEvent.getOperation());
    assertEquals(true, this.clLastEvent.isOriginRemote());
    assertEquals(this.otherId, this.clLastEvent.getDistributedMember());
    assertTrue(r.isDestroyed());
  }