예제 #1
0
 /**
  * Destroy a key in region REGION_NAME. The keys to destroy are specified in keyIntervals.
  *
  * @return true if all keys to be destroyed have been completed.
  */
 protected boolean destroy() {
   SharedCounters sc = CQUtilBB.getBB().getSharedCounters();
   long nextKey = sc.incrementAndRead(CQUtilBB.LASTKEY_DESTROY);
   if (!keyIntervals.keyInRange(KeyIntervals.DESTROY, nextKey)) {
     Log.getLogWriter().info("All destroys completed; returning from destroy");
     return true;
   }
   Object key = NameFactory.getObjectNameForCounter(nextKey);
   Log.getLogWriter().info("Destroying " + key);
   checkContainsValueForKey(key, true, "before destroy");
   try {
     aRegion.destroy(key);
     Log.getLogWriter()
         .info(
             "Done Destroying "
                 + key
                 + ", num remaining: "
                 + (keyIntervals.getLastKey(KeyIntervals.DESTROY) - nextKey));
   } catch (CacheWriterException e) {
     throw new TestException(TestHelper.getStackTrace(e));
   } catch (TimeoutException e) {
     throw new TestException(TestHelper.getStackTrace(e));
   } catch (EntryNotFoundException e) {
     throw new TestException(TestHelper.getStackTrace(e));
   }
   return (nextKey >= keyIntervals.getLastKey(KeyIntervals.DESTROY));
 }
 /** destroy entry */
 public static void destroyEntriesK1andK2() {
   try {
     Region r = cache.getRegion(Region.SEPARATOR + REGION_NAME);
     assertNotNull(r);
     r.destroy("key1");
     r.destroy("key2");
   } catch (Exception ex) {
     fail("failed while destroyEntry()", ex);
   }
 }
예제 #3
0
  private ByteBuffer processBinaryCommand(RequestReader request, Cache cache) {
    ByteBuffer buffer = request.getRequest();
    ByteBuffer response = request.getResponse();

    KeyWrapper key = getKey(buffer, HEADER_LENGTH);

    Region<Object, ValueWrapper> r = getMemcachedRegion(cache);
    try {
      r.destroy(key);
      if (isQuiet()) {
        return null;
      }
      response.putShort(POSITION_RESPONSE_STATUS, ResponseStatus.NO_ERROR.asShort());
    } catch (EntryNotFoundException e) {
      response.putShort(POSITION_RESPONSE_STATUS, ResponseStatus.KEY_NOT_FOUND.asShort());
    }
    if (getLogger().fineEnabled()) {
      getLogger().fine("delete:key:" + key);
    }
    return response;
  }
예제 #4
0
  private ByteBuffer processAsciiCommand(ByteBuffer buffer, Cache cache) {
    CharBuffer flb = getFirstLineBuffer();
    getAsciiDecoder().reset();
    getAsciiDecoder().decode(buffer, flb, false);
    flb.flip();
    String firstLine = getFirstLine();
    String[] firstLineElements = firstLine.split(" ");

    assert "delete".equals(firstLineElements[0]);
    String key = stripNewline(firstLineElements[1]);
    boolean noReply = firstLineElements.length > 2;
    Region<Object, ValueWrapper> r = getMemcachedRegion(cache);
    String reply = null;
    try {
      r.destroy(key);
      reply = Reply.DELETED.toString();
    } catch (EntryNotFoundException e) {
      reply = Reply.NOT_FOUND.toString();
    }
    return noReply ? null : asciiCharset.encode(reply);
  }
 @Test
 public void testIndexOnCommitForDestroy() throws Exception {
   AttributesFactory af = new AttributesFactory();
   af.setDataPolicy(DataPolicy.REPLICATE);
   Region region = cache.createRegion("sample", af.create());
   qs.createIndex("foo", IndexType.FUNCTIONAL, "age", "/sample");
   Context ctx = cache.getJNDIContext();
   UserTransaction utx = (UserTransaction) ctx.lookup("java:/UserTransaction");
   Integer x = new Integer(0);
   utx.begin();
   region.create(x, new Person("xyz", 45));
   utx.commit();
   Query q = qs.newQuery("select * from /sample where age < 50");
   assertEquals(1, ((SelectResults) q.execute()).size());
   Person dsample = (Person) CopyHelper.copy(region.get(x));
   dsample.setAge(55);
   utx.begin();
   region.destroy(x);
   utx.commit();
   CacheUtils.log(((Person) region.get(x)));
   assertEquals(0, ((SelectResults) q.execute()).size());
 }
예제 #6
0
  public void execute(FunctionContext functionContext) {
    logger.debug("Starting expiration");

    long destroyedEntriesCount = 0;

    ResultSender<Serializable> resultSender = functionContext.getResultSender();

    try {
      if (functionContext instanceof RegionFunctionContext) {
        RegionFunctionContext context = (RegionFunctionContext) functionContext;

        Serializable arguments = context.getArguments();
        if (arguments instanceof ExpirationFunctionArguments) {
          ExpirationFunctionArguments expirationFunctionArguments =
              (ExpirationFunctionArguments) arguments;

          long packetDelay = expirationFunctionArguments.getPacketDelay();
          long packetSize = expirationFunctionArguments.getPacketSize();

          logger.debug(
              "Expiration configured with packetSize = "
                  + packetSize
                  + ", packetDelay = "
                  + packetDelay);

          Region<Object, Object> region = PartitionRegionHelper.getLocalDataForContext(context);

          Set<Entry<Object, Object>> entrySet = region.entrySet();

          int numberOfEntries = entrySet.size();

          logger.debug("There are " + numberOfEntries + " entries to check");
          logger.debug("Starting the check");

          long packetCounter = 1;
          for (Entry<Object, Object> entry : entrySet) {

            if ((packetDelay > 0) && ((packetCounter % packetSize) == 0)) {
              logger.debug("Checking the " + packetCounter + " of " + numberOfEntries + " entry.");

              Thread.sleep(packetDelay);
            }

            if (entry instanceof Region.Entry) {
              Region.Entry<Object, Object> regionEntry = (Region.Entry<Object, Object>) entry;
              if ((policy != null) && policy.isExpired(regionEntry)) {

                Object key = entry.getKey();

                logger.trace("Destroing the entry with key " + key);

                region.destroy(key);
                destroyedEntriesCount++;
              }
            }

            packetCounter++;
          }

          logger.debug(
              "The check is finished. " + destroyedEntriesCount + " entries have been destroyed.");

        } else {
          throw new IllegalArgumentException(
              "The specified arguments are of type \""
                  + arguments.getClass().getName()
                  + "\". Should be of type \""
                  + ExpirationFunctionArguments.class.getName()
                  + "\"");
        }
      }
    } catch (Throwable t) {
      logger.error("Throwable during the expiration processing", t);
      resultSender.sendException(t);
    }

    resultSender.lastResult(destroyedEntriesCount);
  }
  @SuppressWarnings({"rawtypes", "unchecked"})
  private void doRegionTest(final RegionShortcut rs, final String rName, boolean compressed) {
    boolean isPersistent =
        rs == RegionShortcut.LOCAL_PERSISTENT
            || rs == RegionShortcut.REPLICATE_PERSISTENT
            || rs == RegionShortcut.PARTITION_PERSISTENT;
    GemFireCacheImpl gfc = createCache(isPersistent);
    Region r = null;
    try {
      gfc.setCopyOnRead(true);
      final MemoryAllocator ma = gfc.getOffHeapStore();
      assertNotNull(ma);
      assertEquals(0, ma.getUsedMemory());
      Compressor compressor = null;
      if (compressed) {
        compressor = SnappyCompressor.getDefaultInstance();
      }
      r = gfc.createRegionFactory(rs).setOffHeap(true).setCompressor(compressor).create(rName);
      assertEquals(true, r.isEmpty());
      assertEquals(0, ma.getUsedMemory());
      Object data = new Integer(123456789);
      r.put("key1", data);
      // System.out.println("After put of Integer value off heap used memory=" +
      // ma.getUsedMemory());
      assertTrue(ma.getUsedMemory() == 0);
      assertEquals(data, r.get("key1"));
      r.invalidate("key1");
      assertEquals(0, ma.getUsedMemory());
      r.put("key1", data);
      assertTrue(ma.getUsedMemory() == 0);
      long usedBeforeUpdate = ma.getUsedMemory();
      r.put("key1", data);
      assertEquals(usedBeforeUpdate, ma.getUsedMemory());
      assertEquals(data, r.get("key1"));
      r.destroy("key1");
      assertEquals(0, ma.getUsedMemory());

      data = new Long(0x007FFFFFL);
      r.put("key1", data);
      if (!compressed) {
        assertTrue(ma.getUsedMemory() == 0);
      }
      assertEquals(data, r.get("key1"));
      data = new Long(0xFF8000000L);
      r.put("key1", data);
      if (!compressed) {
        assertTrue(ma.getUsedMemory() == 0);
      }
      assertEquals(data, r.get("key1"));

      // now lets set data to something that will be stored offheap
      data = new Long(Long.MAX_VALUE);
      r.put("key1", data);
      assertEquals(data, r.get("key1"));
      // System.out.println("After put of Integer value off heap used memory=" +
      // ma.getUsedMemory());
      assertTrue(ma.getUsedMemory() > 0);
      data = new Long(Long.MIN_VALUE);
      r.put("key1", data);
      assertEquals(data, r.get("key1"));
      // System.out.println("After put of Integer value off heap used memory=" +
      // ma.getUsedMemory());
      assertTrue(ma.getUsedMemory() > 0);
      r.invalidate("key1");
      assertEquals(0, ma.getUsedMemory());
      r.put("key1", data);
      assertTrue(ma.getUsedMemory() > 0);
      usedBeforeUpdate = ma.getUsedMemory();
      r.put("key1", data);
      assertEquals(usedBeforeUpdate, ma.getUsedMemory());
      assertEquals(data, r.get("key1"));
      r.destroy("key1");
      assertEquals(0, ma.getUsedMemory());

      // confirm that byte[] do use off heap
      {
        byte[] originalBytes = new byte[1024];
        Object oldV = r.put("byteArray", originalBytes);
        long startUsedMemory = ma.getUsedMemory();
        assertEquals(null, oldV);
        byte[] readBytes = (byte[]) r.get("byteArray");
        if (originalBytes == readBytes) {
          fail("Expected different byte[] identity");
        }
        if (!Arrays.equals(readBytes, originalBytes)) {
          fail("Expected byte array contents to be equal");
        }
        assertEquals(startUsedMemory, ma.getUsedMemory());
        oldV = r.put("byteArray", originalBytes);
        if (!compressed) {
          assertEquals(null, oldV); // we default to old value being null for offheap
        }
        assertEquals(startUsedMemory, ma.getUsedMemory());

        readBytes = (byte[]) r.putIfAbsent("byteArray", originalBytes);
        if (originalBytes == readBytes) {
          fail("Expected different byte[] identity");
        }
        if (!Arrays.equals(readBytes, originalBytes)) {
          fail("Expected byte array contents to be equal");
        }
        assertEquals(startUsedMemory, ma.getUsedMemory());
        if (!r.replace("byteArray", readBytes, originalBytes)) {
          fail("Expected replace to happen");
        }
        assertEquals(startUsedMemory, ma.getUsedMemory());
        byte[] otherBytes = new byte[1024];
        otherBytes[1023] = 1;
        if (r.replace("byteArray", otherBytes, originalBytes)) {
          fail("Expected replace to not happen");
        }
        if (r.replace("byteArray", "bogus string", originalBytes)) {
          fail("Expected replace to not happen");
        }
        if (r.remove("byteArray", "bogus string")) {
          fail("Expected remove to not happen");
        }
        assertEquals(startUsedMemory, ma.getUsedMemory());

        if (!r.remove("byteArray", originalBytes)) {
          fail("Expected remove to happen");
        }
        assertEquals(0, ma.getUsedMemory());
        oldV = r.putIfAbsent("byteArray", "string value");
        assertEquals(null, oldV);
        assertEquals("string value", r.get("byteArray"));
        if (r.replace("byteArray", "string valuE", originalBytes)) {
          fail("Expected replace to not happen");
        }
        if (!r.replace("byteArray", "string value", originalBytes)) {
          fail("Expected replace to happen");
        }
        oldV = r.destroy("byteArray"); // we default to old value being null for offheap
        if (!compressed) {
          assertEquals(null, oldV);
        }
        MyCacheListener listener = new MyCacheListener();
        r.getAttributesMutator().addCacheListener(listener);
        try {
          Object valueToReplace = "string value1";
          r.put("byteArray", valueToReplace);
          assertEquals(null, listener.ohOldValue);
          if (!compressed) {
            assertEquals("string value1", listener.ohNewValue.getDeserializedForReading());
            valueToReplace = listener.ohNewValue;
          }
          if (!r.replace("byteArray", valueToReplace, "string value2")) {
            fail("expected replace to happen");
          }
          if (!compressed) {
            assertEquals("string value2", listener.ohNewValue.getDeserializedForReading());
            assertEquals("string value1", listener.ohOldValue.getDeserializedForReading());
          }
          // make sure that a custom equals/hashCode are not used when comparing values.

        } finally {
          r.getAttributesMutator().removeCacheListener(listener);
        }
      }
      assertTrue(ma.getUsedMemory() > 0);
      {
        Object key = "MyValueWithPartialEquals";
        MyValueWithPartialEquals v1 = new MyValueWithPartialEquals("s1");
        MyValueWithPartialEquals v2 = new MyValueWithPartialEquals("s2");
        MyValueWithPartialEquals v3 = new MyValueWithPartialEquals("s1");
        r.put(key, v1);
        try {
          if (r.replace(key, v2, "should not happen")) {
            fail("v1 should not be equal to v2 on an offheap region");
          }
          if (!r.replace(key, v3, "should happen")) {
            fail("v1 should be equal to v3 on an offheap region");
          }
          r.put(key, v1);
          if (r.remove(key, v2)) {
            fail("v1 should not be equal to v2 on an offheap region");
          }
          if (!r.remove(key, v3)) {
            fail("v1 should be equal to v3 on an offheap region");
          }
        } finally {
          r.remove(key);
        }
      }
      {
        Object key = "MyPdxWithPartialEquals";
        MyPdxWithPartialEquals v1 = new MyPdxWithPartialEquals("s", "1");
        MyPdxWithPartialEquals v2 = new MyPdxWithPartialEquals("s", "2");
        MyPdxWithPartialEquals v3 = new MyPdxWithPartialEquals("t", "1");
        r.put(key, v1);
        try {
          if (r.replace(key, v3, "should not happen")) {
            fail("v1 should not be equal to v3 on an offheap region");
          }
          if (!r.replace(key, v2, "should happen")) {
            fail("v1 should be equal to v2 on an offheap region");
          }
          r.put(key, v1);
          if (r.remove(key, v3)) {
            fail("v1 should not be equal to v3 on an offheap region");
          }
          if (!r.remove(key, v2)) {
            fail("v1 should be equal to v2 on an offheap region");
          }
        } finally {
          r.remove(key);
        }
      }
      byte[] value = new byte[1024];
      /*while (value != null) */ {
        r.put("byteArray", value);
      }
      r.remove("byteArray");
      assertEquals(0, ma.getUsedMemory());

      r.put("key1", data);
      assertTrue(ma.getUsedMemory() > 0);
      r.invalidateRegion();
      assertEquals(0, ma.getUsedMemory());

      r.put("key1", data);
      assertTrue(ma.getUsedMemory() > 0);
      try {
        r.clear();
        assertEquals(0, ma.getUsedMemory());
      } catch (UnsupportedOperationException ok) {
      }

      r.put("key1", data);
      assertTrue(ma.getUsedMemory() > 0);
      if (r.getAttributes().getDataPolicy().withPersistence()) {
        r.put("key2", Integer.valueOf(1234567890));
        r.put("key3", new Long(0x007FFFFFL));
        r.put("key4", new Long(0xFF8000000L));
        assertEquals(4, r.size());
        r.close();
        assertEquals(0, ma.getUsedMemory());
        // simple test of recovery
        r = gfc.createRegionFactory(rs).setOffHeap(true).create(rName);
        assertEquals(4, r.size());
        assertEquals(data, r.get("key1"));
        assertEquals(Integer.valueOf(1234567890), r.get("key2"));
        assertEquals(new Long(0x007FFFFFL), r.get("key3"));
        assertEquals(new Long(0xFF8000000L), r.get("key4"));
        closeCache(gfc, true);
        assertEquals(0, ma.getUsedMemory());
        gfc = createCache();
        if (ma != gfc.getOffHeapStore()) {
          fail("identity of offHeapStore changed when cache was recreated");
        }
        r = gfc.createRegionFactory(rs).setOffHeap(true).create(rName);
        assertTrue(ma.getUsedMemory() > 0);
        assertEquals(4, r.size());
        assertEquals(data, r.get("key1"));
        assertEquals(Integer.valueOf(1234567890), r.get("key2"));
        assertEquals(new Long(0x007FFFFFL), r.get("key3"));
        assertEquals(new Long(0xFF8000000L), r.get("key4"));
      }

      r.destroyRegion();
      assertEquals(0, ma.getUsedMemory());

    } finally {
      if (r != null && !r.isDestroyed()) {
        r.destroyRegion();
      }
      closeCache(gfc, false);
    }
  }
  /**
   * check distributed ops that originate in a PROXY are correctly distributed to non-proxy regions.
   */
  private void distributedOps(DataPolicy dp, InterestPolicy ip) throws CacheException {
    initOtherId();
    AttributesFactory af = new AttributesFactory();
    af.setDataPolicy(dp);
    af.setSubscriptionAttributes(new SubscriptionAttributes(ip));
    af.setScope(Scope.DISTRIBUTED_ACK);
    Region r = createRootRegion("ProxyDUnitTest", af.create());

    doCreateOtherVm();

    r.put("putkey", "putvalue1");

    getOtherVm()
        .invoke(
            new CacheSerializableRunnable("check put") {
              public void run2() throws CacheException {
                Region r = getRootRegion("ProxyDUnitTest");
                assertEquals(true, r.containsKey("putkey"));
                assertEquals("putvalue1", r.getEntry("putkey").getValue());
                r.put("putkey", "putvalue2");
              }
            });

    assertEquals(false, r.containsKey("putkey"));
    assertEquals("putvalue2", r.get("putkey")); // netsearch

    r.invalidate("putkey");

    getOtherVm()
        .invoke(
            new CacheSerializableRunnable("check invalidate") {
              public void run2() throws CacheException {
                Region r = getRootRegion("ProxyDUnitTest");
                assertEquals(true, r.containsKey("putkey"));
                assertEquals(null, r.getEntry("putkey").getValue());
              }
            });
    assertEquals(null, r.get("putkey")); // invalid so total miss

    r.destroy("putkey");

    getOtherVm()
        .invoke(
            new CacheSerializableRunnable("check destroy") {
              public void run2() throws CacheException {
                Region r = getRootRegion("ProxyDUnitTest");
                assertEquals(false, r.containsKey("putkey"));
              }
            });

    assertEquals(null, r.get("putkey")); // total miss

    r.create("createKey", "createValue1");
    getOtherVm()
        .invoke(
            new CacheSerializableRunnable("check create") {
              public void run2() throws CacheException {
                Region r = getRootRegion("ProxyDUnitTest");
                assertEquals(true, r.containsKey("createKey"));
                assertEquals("createValue1", r.getEntry("createKey").getValue());
              }
            });
    {
      Map m = new HashMap();
      m.put("putAllKey1", "putAllValue1");
      m.put("putAllKey2", "putAllValue2");
      r.putAll(m, "putAllCallback");
    }
    getOtherVm()
        .invoke(
            new CacheSerializableRunnable("check putAll") {
              public void run2() throws CacheException {
                Region r = getRootRegion("ProxyDUnitTest");
                assertEquals(true, r.containsKey("putAllKey1"));
                assertEquals("putAllValue1", r.getEntry("putAllKey1").getValue());
                assertEquals(true, r.containsKey("putAllKey2"));
                assertEquals("putAllValue2", r.getEntry("putAllKey2").getValue());
              }
            });
    r.clear();
    getOtherVm()
        .invoke(
            new CacheSerializableRunnable("check clear") {
              public void run2() throws CacheException {
                Region r = getRootRegion("ProxyDUnitTest");
                assertEquals(0, r.size());
              }
            });

    getOtherVm()
        .invoke(
            new CacheSerializableRunnable("install CacheWriter") {
              public void run2() throws CacheException {
                Region r = getRootRegion("ProxyDUnitTest");
                AttributesMutator am = r.getAttributesMutator();
                CacheWriter cw =
                    new CacheWriterAdapter() {
                      public void beforeCreate(EntryEvent event) throws CacheWriterException {
                        throw new CacheWriterException("expected");
                      }
                    };
                am.setCacheWriter(cw);
              }
            });
    try {
      r.put("putkey", "putvalue");
      fail("expected CacheWriterException");
    } catch (CacheWriterException expected) {
    }
    getOtherVm()
        .invoke(
            new CacheSerializableRunnable("check clear") {
              public void run2() throws CacheException {
                Region r = getRootRegion("ProxyDUnitTest");
                assertEquals(0, r.size());
              }
            });

    assertEquals(null, r.get("loadkey")); // total miss
    getOtherVm()
        .invoke(
            new CacheSerializableRunnable("install CacheLoader") {
              public void run2() throws CacheException {
                Region r = getRootRegion("ProxyDUnitTest");
                AttributesMutator am = r.getAttributesMutator();
                am.setCacheWriter(null); // clear csche writer
                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);
              }
            });
    assertEquals("loadvalue", r.get("loadkey")); // net load
    assertEquals(null, r.get("foobar")); // total miss
    try {
      r.get("loadexception");
      fail("expected CacheLoaderException");
    } catch (CacheLoaderException expected) {
    }
    r.destroyRegion();
    getOtherVm()
        .invoke(
            new CacheSerializableRunnable("check clear") {
              public void run2() throws CacheException {
                Region r = getRootRegion("ProxyDUnitTest");
                assertEquals(null, r);
              }
            });
  }