Beispiel #1
0
 public ScopeMapping(@Nullable String defaultName, @Nullable Collection<String> names) {
   _defaultName = defaultName;
   _nameToMeasurePoints = new LinkedHashMap<>();
   if (names == null || names.isEmpty()) {
     _nameToMeasurePoints.put(defaultName, new MeasurePoints());
   } else {
     for (String possibleSpecificName : names) {
       _nameToMeasurePoints.put(possibleSpecificName, new MeasurePoints());
     }
   }
 }
Beispiel #2
0
 /**
  * Check if the given element denotes a supported array-friendly data structure, i.e. a data
  * structure jconsole can render as an array.
  */
 public static boolean canBeRenderedAsArray(Object elem) {
   if (isSupportedArray(elem)) return true;
   if (elem instanceof Collection) {
     Collection<?> c = (Collection<?>) elem;
     if (c.isEmpty()) {
       // Empty collections of any Java type are not handled as arrays
       //
       return false;
     } else {
       // - Collections of CompositeData/TabularData are not handled
       //   as arrays
       // - Collections of other Java types are handled as arrays
       //
       return !isUniformCollection(c, CompositeData.class)
           && !isUniformCollection(c, TabularData.class);
     }
   }
   if (elem instanceof Map) {
     return !(elem instanceof TabularData);
   }
   return false;
 }
Beispiel #3
0
 /** Check if the given collection is a uniform collection of the given type. */
 public static boolean isUniformCollection(Collection<?> c, Class<?> e) {
   if (e == null) {
     throw new IllegalArgumentException("Null reference type");
   }
   if (c == null) {
     throw new IllegalArgumentException("Null collection");
   }
   if (c.isEmpty()) {
     return false;
   }
   for (Object o : c) {
     if (o == null || !e.isAssignableFrom(o.getClass())) {
       return false;
     }
   }
   return true;
 }
	public void testInvalidRegionName() {
		Collection<String> invalidNames = new ArrayList<String>();
		invalidNames.addAll(Arrays.asList(":", "bad:Name", ":bad::name:", ":badname", "badname:"));
		invalidNames.addAll(Arrays.asList("=", "bad=Name", "=bad==name=", "=badname", "badname="));
		invalidNames.addAll(Arrays.asList("\n", "bad\nName", "\nbad\n\nname\n", "\nbadname", "badname\n"));
		invalidNames.addAll(Arrays.asList("*", "bad*Name", "*bad**name*", "*badname", "badname*"));
		invalidNames.addAll(Arrays.asList("?", "bad?Name", "?bad??name?", "?badname", "badname?"));
		invalidNames.addAll(Arrays.asList(",", "bad,Name", ",bad,,name,", ",badname", "badname,"));
		invalidNames.addAll(Arrays.asList("\"", "bad\"Name", "\"bad\"\"name\"", "\"badname", "badname\""));
		invalidNames.addAll(Arrays.asList("\\", "bad\\Name", "\\bad\\\\name\\", "\\badname", "badname\\"));

		for (String invalidName : invalidNames) {
			try {
				digraph.createRegion(invalidName);
				fail("Expected failure to create region.");
			} catch (IllegalArgumentException e) {
				// expected
			} catch (BundleException e) {
				fail("Unexpected bundle exception: " + e.getMessage());
			}
		}

	}
	public void testBundleCollisionDisconnectedRegions() throws BundleException, InvalidSyntaxException {
		// get the system region
		Region systemRegion = digraph.getRegion(0);
		Collection<Bundle> bundles = new HashSet<Bundle>();
		// create 4 disconnected test regions and install each bundle into each region
		int numRegions = 4;
		String regionName = "IsolatedRegion_";
		for (int i = 0; i < numRegions; i++) {
			Region region = digraph.createRegion(regionName + i);
			// Import the system bundle from the systemRegion
			digraph.connect(region, digraph.createRegionFilterBuilder().allow(RegionFilter.VISIBLE_BUNDLE_NAMESPACE, "(id=0)").build(), systemRegion);
			// must import Boolean services into systemRegion to test
			digraph.connect(systemRegion, digraph.createRegionFilterBuilder().allow(RegionFilter.VISIBLE_SERVICE_NAMESPACE, "(objectClass=java.lang.Boolean)").build(), region);
			for (String location : ALL) {
				Bundle b = bundleInstaller.installBundle(location, region);
				bundles.add(b);
			}
		}

		assertEquals("Wrong number of bundles installed", numRegions * ALL.size(), bundles.size());
		assertTrue("Could not resolve bundles.", bundleInstaller.resolveBundles(bundles.toArray(new Bundle[bundles.size()])));

		// test install of duplicates
		for (int i = 0; i < numRegions; i++) {
			Region region = digraph.getRegion(regionName + i);
			for (String name : ALL) {
				String location = bundleInstaller.getBundleLocation(name);
				try {
					Bundle b = region.installBundle(getName() + "_expectToFail", new URL(location).openStream());
					b.uninstall();
					fail("Expected a bundle exception on duplicate bundle installation: " + name);
				} catch (BundleException e) {
					// expected
					assertEquals("Wrong exception type.", BundleException.DUPLICATE_BUNDLE_ERROR, e.getType());
				} catch (IOException e) {
					fail("Failed to open bunldle location: " + e.getMessage());
				}
			}
		}

		// test update to a duplicate
		for (int i = 0; i < numRegions; i++) {
			Region region = digraph.getRegion(regionName + i);

			Bundle regionPP1 = region.getBundle(PP1, new Version(1, 0, 0));

			String locationSP1 = bundleInstaller.getBundleLocation(SP1);
			try {
				regionPP1.update(new URL(locationSP1).openStream());
				fail("Expected a bundle exception on duplicate bundle update: " + region);
			} catch (BundleException e) {
				// expected
				assertEquals("Wrong exception type.", BundleException.DUPLICATE_BUNDLE_ERROR, e.getType());
			} catch (IOException e) {
				fail("Failed to open bunldle location: " + e.getMessage());
			}

			// now uninstall SP1 and try to update PP1 to SP1 again
			Bundle regionSP1 = region.getBundle(SP1, new Version(1, 0, 0));
			regionSP1.uninstall();

			try {
				regionPP1.update(new URL(locationSP1).openStream());
			} catch (IOException e) {
				fail("Failed to open bunldle location: " + e.getMessage());
			}
		}
	}
  /**
   * See <a href="http://e-docs.bea.com/wls/docs100/javadocs/weblogic/common/T3StartupDef.html">
   * http://e-docs.bea.com/wls/docs100/javadocs/weblogic/common/T3StartupDef.html</a> for more
   * information.
   *
   * @param str Virtual name by which the class is registered as a {@code startupClass} in the
   *     {@code config.xml} file
   * @param params A hashtable that is made up of the name-value pairs supplied from the {@code
   *     startupArgs} property
   * @return Result string (log message).
   * @throws Exception Thrown if error occurred.
   */
  @SuppressWarnings({"unchecked", "CatchGenericClass"})
  @Override
  public String startup(String str, Hashtable params) throws Exception {
    GridLogger log = new GridJavaLogger(LoggingHelper.getServerLogger());

    cfgFile = (String) params.get(cfgFilePathParam);

    if (cfgFile == null) {
      throw new IllegalArgumentException("Failed to read property: " + cfgFilePathParam);
    }

    String workMgrName = (String) params.get(workMgrParam);

    URL cfgUrl = U.resolveGridGainUrl(cfgFile);

    if (cfgUrl == null)
      throw new ServerLifecycleException(
          "Failed to find Spring configuration file (path provided should be "
              + "either absolute, relative to GRIDGAIN_HOME, or relative to META-INF folder): "
              + cfgFile);

    GenericApplicationContext springCtx;

    try {
      springCtx = new GenericApplicationContext();

      XmlBeanDefinitionReader xmlReader = new XmlBeanDefinitionReader(springCtx);

      xmlReader.loadBeanDefinitions(new UrlResource(cfgUrl));

      springCtx.refresh();
    } catch (BeansException e) {
      throw new ServerLifecycleException(
          "Failed to instantiate Spring XML application context: " + e.getMessage(), e);
    }

    Map cfgMap;

    try {
      // Note: Spring is not generics-friendly.
      cfgMap = springCtx.getBeansOfType(GridConfiguration.class);
    } catch (BeansException e) {
      throw new ServerLifecycleException(
          "Failed to instantiate bean [type="
              + GridConfiguration.class
              + ", err="
              + e.getMessage()
              + ']',
          e);
    }

    if (cfgMap == null)
      throw new ServerLifecycleException(
          "Failed to find a single grid factory configuration in: " + cfgUrl);

    if (cfgMap.isEmpty())
      throw new ServerLifecycleException("Can't find grid factory configuration in: " + cfgUrl);

    try {
      ExecutorService execSvc = null;

      MBeanServer mbeanSrv = null;

      for (GridConfiguration cfg : (Collection<GridConfiguration>) cfgMap.values()) {
        assert cfg != null;

        GridConfigurationAdapter adapter = new GridConfigurationAdapter(cfg);

        // Set logger.
        if (cfg.getGridLogger() == null) adapter.setGridLogger(log);

        if (cfg.getExecutorService() == null) {
          if (execSvc == null)
            execSvc =
                workMgrName != null
                    ? new GridThreadWorkManagerExecutor(workMgrName)
                    : new GridThreadWorkManagerExecutor(J2EEWorkManager.getDefault());

          adapter.setExecutorService(execSvc);
        }

        if (cfg.getMBeanServer() == null) {
          if (mbeanSrv == null) {
            InitialContext ctx = null;

            try {
              ctx = new InitialContext();

              mbeanSrv = (MBeanServer) ctx.lookup("java:comp/jmx/runtime");
            } catch (Exception e) {
              throw new IllegalArgumentException(
                  "MBean server was not provided and failed to obtain " + "Weblogic MBean server.",
                  e);
            } finally {
              if (ctx != null) ctx.close();
            }
          }

          adapter.setMBeanServer(mbeanSrv);
        }

        Grid grid = G.start(adapter, springCtx);

        // Test if grid is not null - started properly.
        if (grid != null) gridNames.add(grid.name());
      }

      return getClass().getSimpleName() + " started successfully.";
    } catch (GridException e) {
      // Stop started grids only.
      for (String name : gridNames) G.stop(name, true);

      throw new ServerLifecycleException("Failed to start GridGain.", e);
    }
  }