コード例 #1
0
    /** {@inheritDoc} */
    @Override
    public Serializable execute() {
      synchronized (mux) {
        execCnt++;
      }

      if (log.isInfoEnabled()) log.info("Executing job: " + jobCtx.getJobId());

      long now = System.currentTimeMillis();

      while (!isCancelled && now < thresholdTime) {
        synchronized (mux) {
          try {
            mux.wait(thresholdTime - now);
          } catch (InterruptedException ignored) {
            // No-op.
          }
        }

        now = System.currentTimeMillis();
      }

      synchronized (mux) {
        return isCancelled ? 1 : 0;
      }
    }
コード例 #2
0
  /** @throws Exception If failed. */
  public void testAntGarTaskToString() throws Exception {
    String tmpDirName = GridTestProperties.getProperty("ant.gar.tmpdir");
    String srcDirName = GridTestProperties.getProperty("ant.gar.srcdir");
    String baseDirName = tmpDirName + File.separator + System.currentTimeMillis() + "_6";
    String metaDirName = baseDirName + File.separator + "META-INF";
    String garFileName = baseDirName + ".gar";

    // Make base and META-INF dir.
    boolean mkdir = new File(baseDirName).mkdirs();

    assert mkdir;

    mkdir = new File(metaDirName).mkdirs();

    assert mkdir;

    // Copy files to basedir
    U.copy(new File(srcDirName), new File(baseDirName), true);

    IgniteDeploymentGarAntTask garTask = new IgniteDeploymentGarAntTask();

    Project garProject = new Project();

    garProject.setName("Gar test project");

    garTask.setDestFile(new File(garFileName));
    garTask.setBasedir(new File(garFileName));
    garTask.setProject(garProject);
    garTask.setDescrdir(new File(garFileName));

    garTask.toString();
  }
コード例 #3
0
  /** @throws Exception If failed. */
  @SuppressWarnings({"TypeMayBeWeakened"})
  public void testCorrectAntGarTask() throws Exception {
    String tmpDirName = GridTestProperties.getProperty("ant.gar.tmpdir");
    String srcDirName = GridTestProperties.getProperty("ant.gar.srcdir");
    String baseDirName = tmpDirName + File.separator + System.currentTimeMillis() + "_0";
    String metaDirName = baseDirName + File.separator + "META-INF";
    String garFileName = baseDirName + ".gar";
    String garDescDirName =
        U.resolveIgnitePath(GridTestProperties.getProperty("ant.gar.descriptor.dir"))
                .getAbsolutePath()
            + File.separator
            + "ignite.xml";

    // Make base and META-INF dir.
    boolean mkdir = new File(baseDirName).mkdirs();

    assert mkdir;

    mkdir = new File(metaDirName).mkdirs();

    assert mkdir;

    // Make Gar file
    U.copy(new File(garDescDirName), new File(metaDirName + File.separator + "ignite.xml"), true);

    // Copy files to basedir
    U.copy(new File(srcDirName), new File(baseDirName), true);

    IgniteDeploymentGarAntTask garTask = new IgniteDeploymentGarAntTask();

    Project garProject = new Project();

    garProject.setName("Gar test project");

    garTask.setDestFile(new File(garFileName));
    garTask.setBasedir(new File(baseDirName));
    garTask.setProject(garProject);

    garTask.execute();

    File garFile = new File(garFileName);

    assert garFile.exists();

    boolean res = checkStructure(garFile, true);

    assert res;
  }
コード例 #4
0
  /** @throws Exception If failed. */
  public void testAntGarTaskWithDoubleP2PDescriptor() throws Exception {
    String tmpDirName = GridTestProperties.getProperty("ant.gar.tmpdir");
    String srcDirName = GridTestProperties.getProperty("ant.gar.srcdir");
    String baseDirName = tmpDirName + File.separator + System.currentTimeMillis() + "_2";
    String metaDirName = baseDirName + File.separator + "META-INF";
    String garFileName = baseDirName + ".gar";
    String garDescrDirName =
        U.resolveIgnitePath(GridTestProperties.getProperty("ant.gar.descriptor.dir"))
                .getAbsolutePath()
            + File.separator
            + "ignite.xml";

    // Make base and META-INF dir.
    boolean mkdir = new File(baseDirName).mkdirs();

    assert mkdir;

    mkdir = new File(metaDirName).mkdirs();

    assert mkdir;

    // Make Gar file
    U.copy(new File(garDescrDirName), new File(metaDirName + File.separator + "ignite.xml"), true);

    // Copy files to basedir
    U.copy(new File(srcDirName), new File(baseDirName), true);

    IgniteDeploymentGarAntTask garTask = new IgniteDeploymentGarAntTask();

    Project garProject = new Project();

    garProject.setName("Gar test project");

    garTask.setDestFile(new File(garFileName));
    garTask.setDescrdir(new File(garDescrDirName));
    garTask.setBasedir(new File(baseDirName));
    garTask.setProject(garProject);

    try {
      garTask.execute();

      assert false;
    } catch (BuildException e) {
      if (log().isInfoEnabled()) log().info(e.getMessage());
    }
  }
コード例 #5
0
  /** @throws Exception if error occur. */
  @SuppressWarnings("unchecked")
  private void checkGar() throws Exception {
    initGar = true;

    String garDir = "modules/extdata/p2p/deploy";
    String garFileName = "p2p.gar";

    File origGarPath = U.resolveIgnitePath(garDir + '/' + garFileName);

    File tmpPath = new File(System.getProperty("java.io.tmpdir"), UUID.randomUUID().toString());

    if (!tmpPath.mkdir()) throw new IOException("Can not create temp directory");

    try {
      File newGarFile = new File(tmpPath, garFileName);

      U.copy(origGarPath, newGarFile, false);

      assert newGarFile.exists();

      try {
        garFile = "file:///" + tmpPath.getAbsolutePath();

        try {
          Ignite ignite1 = startGrid(1);
          Ignite ignite2 = startGrid(2);

          Integer res =
              ignite1
                  .compute()
                  .<UUID, Integer>execute(TASK_NAME, ignite2.cluster().localNode().id());

          assert res != null;
        } finally {
          stopGrid(1);
          stopGrid(2);
        }
      } finally {
        if (newGarFile != null && !newGarFile.delete()) error("Can not delete temp gar file");
      }
    } finally {
      if (!tmpPath.delete()) error("Can not delete temp directory");
    }
  }
コード例 #6
0
  /**
   * Calls garbage collector and wait.
   *
   * @throws Exception if any thread has interrupted the current thread while waiting.
   */
  private void gc() throws Exception {
    Runtime rt = Runtime.getRuntime();

    long freeMem0 = rt.freeMemory();
    long freeMem = Long.MAX_VALUE;

    int cnt = 0;

    while (freeMem0 < freeMem && cnt < GC_CALL_CNT) {
      System.gc();

      U.sleep(WAIT_TIME);

      cnt++;

      freeMem = freeMem0;
      freeMem0 = rt.freeMemory();
    }
  }
コード例 #7
0
 public GridCancelTestJob() {
   thresholdTime = System.currentTimeMillis() + maxJobExecTime;
 }
コード例 #8
0
  /**
   * @param cacheMode Cache mode.
   * @param sameAff If {@code false} uses different number of partitions for caches.
   * @param concurrency Transaction concurrency.
   * @param isolation Transaction isolation.
   * @throws Exception If failed.
   */
  private void crossCacheTxFailover(
      CacheMode cacheMode,
      boolean sameAff,
      final TransactionConcurrency concurrency,
      final TransactionIsolation isolation)
      throws Exception {
    IgniteKernal ignite0 = (IgniteKernal) ignite(0);

    final AtomicBoolean stop = new AtomicBoolean();

    try {
      ignite0.createCache(cacheConfiguration(CACHE1, cacheMode, 256));
      ignite0.createCache(cacheConfiguration(CACHE2, cacheMode, sameAff ? 256 : 128));

      final AtomicInteger threadIdx = new AtomicInteger();

      IgniteInternalFuture<?> fut =
          GridTestUtils.runMultiThreadedAsync(
              new Callable<Void>() {
                @Override
                public Void call() throws Exception {
                  int idx = threadIdx.getAndIncrement();

                  Ignite ignite = ignite(idx % GRID_CNT);

                  log.info(
                      "Started update thread [node="
                          + ignite.name()
                          + ", client="
                          + ignite.configuration().isClientMode()
                          + ']');

                  IgniteCache<TestKey, TestValue> cache1 = ignite.cache(CACHE1);
                  IgniteCache<TestKey, TestValue> cache2 = ignite.cache(CACHE2);

                  assertNotSame(cache1, cache2);

                  IgniteTransactions txs = ignite.transactions();

                  ThreadLocalRandom rnd = ThreadLocalRandom.current();

                  long iter = 0;

                  while (!stop.get()) {
                    boolean sameKey = rnd.nextBoolean();

                    try {
                      try (Transaction tx = txs.txStart(concurrency, isolation)) {
                        if (sameKey) {
                          TestKey key = new TestKey(rnd.nextLong(KEY_RANGE));

                          cacheOperation(rnd, cache1, key);
                          cacheOperation(rnd, cache2, key);
                        } else {
                          TestKey key1 = new TestKey(rnd.nextLong(KEY_RANGE));
                          TestKey key2 = new TestKey(key1.key() + 1);

                          cacheOperation(rnd, cache1, key1);
                          cacheOperation(rnd, cache2, key2);
                        }

                        tx.commit();
                      }
                    } catch (CacheException | IgniteException e) {
                      log.info("Update error: " + e);
                    }

                    if (iter++ % 500 == 0) log.info("Iteration: " + iter);
                  }

                  return null;
                }

                /**
                 * @param rnd Random.
                 * @param cache Cache.
                 * @param key Key.
                 */
                private void cacheOperation(
                    ThreadLocalRandom rnd, IgniteCache<TestKey, TestValue> cache, TestKey key) {
                  switch (rnd.nextInt(4)) {
                    case 0:
                      cache.put(key, new TestValue(rnd.nextLong()));

                      break;

                    case 1:
                      cache.remove(key);

                      break;

                    case 2:
                      cache.invoke(key, new TestEntryProcessor(rnd.nextBoolean() ? 1L : null));

                      break;

                    case 3:
                      cache.get(key);

                      break;

                    default:
                      assert false;
                  }
                }
              },
              10,
              "tx-thread");

      long stopTime = System.currentTimeMillis() + 3 * 60_000;

      long topVer = ignite0.cluster().topologyVersion();

      boolean failed = false;

      while (System.currentTimeMillis() < stopTime) {
        log.info("Start node.");

        IgniteKernal ignite = (IgniteKernal) startGrid(GRID_CNT);

        assertFalse(ignite.configuration().isClientMode());

        topVer++;

        IgniteInternalFuture<?> affFut =
            ignite
                .context()
                .cache()
                .context()
                .exchange()
                .affinityReadyFuture(new AffinityTopologyVersion(topVer));

        try {
          if (affFut != null) affFut.get(30_000);
        } catch (IgniteFutureTimeoutCheckedException e) {
          log.error("Failed to wait for affinity future after start: " + topVer);

          failed = true;

          break;
        }

        Thread.sleep(500);

        log.info("Stop node.");

        stopGrid(GRID_CNT);

        topVer++;

        affFut =
            ignite0
                .context()
                .cache()
                .context()
                .exchange()
                .affinityReadyFuture(new AffinityTopologyVersion(topVer));

        try {
          if (affFut != null) affFut.get(30_000);
        } catch (IgniteFutureTimeoutCheckedException e) {
          log.error("Failed to wait for affinity future after stop: " + topVer);

          failed = true;

          break;
        }
      }

      stop.set(true);

      fut.get();

      assertFalse("Test failed, see log for details.", failed);
    } finally {
      stop.set(true);

      ignite0.destroyCache(CACHE1);
      ignite0.destroyCache(CACHE2);

      awaitPartitionMapExchange();
    }
  }
コード例 #9
0
  /** @throws Exception If failed. */
  private void doTest() throws Exception {
    System.gc();
    System.gc();
    System.gc();

    try {
      useCache = true;

      startGridsMultiThreaded(GRID_CNT);

      useCache = false;

      Ignite ignite = startGrid();

      final IgniteDataStreamer<Integer, String> ldr = ignite.dataStreamer(null);

      ldr.perNodeBufferSize(8192);
      ldr.receiver(DataStreamerCacheUpdaters.<Integer, String>batchedSorted());
      ldr.autoFlushFrequency(0);

      final LongAdder8 cnt = new LongAdder8();

      long start = U.currentTimeMillis();

      Thread t =
          new Thread(
              new Runnable() {
                @SuppressWarnings("BusyWait")
                @Override
                public void run() {
                  while (true) {
                    try {
                      Thread.sleep(10000);
                    } catch (InterruptedException ignored) {
                      break;
                    }

                    info(">>> Adds/sec: " + cnt.sumThenReset() / 10);
                  }
                }
              });

      t.setDaemon(true);

      t.start();

      int threadNum = 2; // Runtime.getRuntime().availableProcessors();

      multithreaded(
          new Callable<Object>() {
            @SuppressWarnings("InfiniteLoopStatement")
            @Override
            public Object call() throws Exception {
              ThreadLocalRandom8 rnd = ThreadLocalRandom8.current();

              while (true) {
                int i = rnd.nextInt(ENTRY_CNT);

                ldr.addData(i, vals[rnd.nextInt(vals.length)]);

                cnt.increment();
              }
            }
          },
          threadNum,
          "loader");

      info("Closing loader...");

      ldr.close(false);

      long duration = U.currentTimeMillis() - start;

      info("Finished performance test. Duration: " + duration + "ms.");
    } finally {
      stopAllGrids();
    }
  }