/* Check that all descriptors have been returned */
  private static void checkDescriptors(
      ModelMBeanInfo modelMBeanInfo, Descriptor[] descriptors, String string) {
    int errCount = 0;
    final ArrayList<Descriptor> list = new ArrayList<Descriptor>(descriptors.length);
    list.addAll(Arrays.asList(descriptors));
    System.out.println("Got " + list.size() + " descriptors for " + string);

    // checks that MBean's descriptor is returned.
    //
    final Descriptor mbd = ((MBeanInfo) modelMBeanInfo).getDescriptor();
    if (!mbd.equals(remove(list, mbd))) {
      System.err.println("modelMBeanInfo.getDescriptor(): not found");
      errCount++;
    }

    // checks that MBean's attributes descriptors are returned.
    //
    final MBeanAttributeInfo[] attrs = modelMBeanInfo.getAttributes();
    for (MBeanAttributeInfo att : attrs) {
      final Descriptor ad = att.getDescriptor();
      final String name = att.getName();
      if (!ad.equals(remove(list, ad))) {
        System.err.println("attInfo.getDescriptor(): not found for " + name);
        errCount++;
      }
    }

    // checks that MBean's operations descriptors are returned.
    //
    final MBeanOperationInfo[] ops = modelMBeanInfo.getOperations();
    for (MBeanOperationInfo op : ops) {
      final Descriptor od = op.getDescriptor();
      final String name = op.getName();
      if (!od.equals(remove(list, od))) {
        System.err.println("opInfo.getDescriptor(): not found for " + name);
        errCount++;
      }
    }

    // checks that MBean's notifications descriptors are returned.
    //
    final MBeanNotificationInfo[] ntfs = modelMBeanInfo.getNotifications();
    for (MBeanNotificationInfo ntf : ntfs) {
      final Descriptor nd = ntf.getDescriptor();
      final String name = ntf.getName();
      if (!nd.equals(remove(list, nd))) {
        System.err.println("notifInfo.getDescriptor(): not found for " + name);
        errCount++;
      }
    }
    if (errCount > 0) {
      throw new RuntimeException(string + ": failed with " + errCount + " errors");
    } else if (list.size() != 0) {
      // Check that there are no additional descriptors
      //
      throw new RuntimeException(string + ": Unexpected remaining descriptors: " + list);
    } else System.out.println(string + ": PASSED");
  }
  private static SSTableReader sstable(
      File dataFolder, ColumnFamilyStore cfs, int generation, int size) throws IOException {
    Descriptor descriptor =
        new Descriptor(dataFolder, cfs.keyspace.getName(), cfs.getTableName(), generation);
    Set<Component> components =
        ImmutableSet.of(Component.DATA, Component.PRIMARY_INDEX, Component.FILTER, Component.TOC);
    for (Component component : components) {
      File file = new File(descriptor.filenameFor(component));
      if (!file.exists()) assertTrue(file.createNewFile());
      try (RandomAccessFile raf = new RandomAccessFile(file, "rw")) {
        raf.setLength(size);
      }
    }

    SegmentedFile dFile =
        new BufferedSegmentedFile(
            new ChannelProxy(new File(descriptor.filenameFor(Component.DATA))),
            RandomAccessReader.DEFAULT_BUFFER_SIZE,
            0);
    SegmentedFile iFile =
        new BufferedSegmentedFile(
            new ChannelProxy(new File(descriptor.filenameFor(Component.PRIMARY_INDEX))),
            RandomAccessReader.DEFAULT_BUFFER_SIZE,
            0);

    SerializationHeader header = SerializationHeader.make(cfs.metadata, Collections.emptyList());
    StatsMetadata metadata =
        (StatsMetadata)
            new MetadataCollector(cfs.metadata.comparator)
                .finalizeMetadata(
                    cfs.metadata.partitioner.getClass().getCanonicalName(), 0.01f, -1, header)
                .get(MetadataType.STATS);
    SSTableReader reader =
        SSTableReader.internalOpen(
            descriptor,
            components,
            cfs.metadata,
            dFile,
            iFile,
            MockSchema.indexSummary.sharedCopy(),
            new AlwaysPresentFilter(),
            1L,
            metadata,
            SSTableReader.OpenReason.NORMAL,
            header);
    reader.first = reader.last = MockSchema.readerBounds(generation);
    return reader;
  }
Beispiel #3
0
 /**
  * Constructs a new aggregate descriptor with the given category, e.g. "CONTENT".
  *
  * @param designation the descriptor type, e.g. "CONTENT"
  * @throws BadDataException if the designation is invalid.
  */
 public DescAggregate(String designation) throws BadDataException {
   super();
   idList = new TreeSet();
   if (!Descriptor.isCategory(designation)) {
     throw new BadDataException("Bad descriptor category -- " + designation);
   } else {
     setCategory(designation);
   }
 }
Beispiel #4
0
  /**
   * Returns a new descriptor eqiuvalent to this+D. Remember, composition is not commutative for all
   * attributes, and may not exist for some. To compose, remember to call
   * {@linkDescriptor#isComposable() isComposable} first and try both <code>A.compose (B)</code> and
   * <code>B.compose (A)</code>.
   *
   * @param D The Descriptor to compose with this Descriptor.
   * @param scope The attribute scope and mapping.
   * @return A new Descriptor that is equivalent to the composition of this and the argument D.
   * @throws BadDataException if the compose semantics are not correct.
   * @throws UncomposableException this instance of the descriptor cannot be composed. Check
   *     isComposable!
   */
  public Descriptor compose(Descriptor D, EvaluationParameters.ScopeRules scope)
      throws BadDataException, UncomposableException {
    DescAggregate temp = (DescAggregate) this.clone();
    // Unify Descriptions and Spans
    temp.span = temp.span.union(D.getFrameSpan());
    if (D.getClass().equals(DescSingle.class)) {
      if (idList.contains(D.getID()))
        throw new BadDataException("Attempting to compose the same descriptor multiple times");
      else temp.idList.add(D.getID());
    } else {
      // First, check to see if there are any dup ID numbers
      Iterator iterA = idList.iterator();
      Iterator iterB = ((TreeSet) D.getID()).iterator();
      Comparable A = (Comparable) iterA.next();
      Comparable B = (Comparable) iterB.next();

      /// difference will be negative iff A < B, and positive iff A > B.
      // I wish java had operator overloading. I really do.
      double difference = A.compareTo(B);
      while (iterA.hasNext() && iterB.hasNext() && (difference != 0)) {
        while ((difference < 0) && (iterA.hasNext() && iterB.hasNext())) {
          A = (Comparable) iterA.next();
          difference = A.compareTo(B);
        }
        while ((difference > 0) && (iterA.hasNext() && iterB.hasNext())) {
          B = (Comparable) iterB.next();
          difference = A.compareTo(B);
        }
      }
      if (difference == 0)
        // If there was a dup ID num, return 0
        throw new BadDataException("Attempting to compose the same descriptor multiple times");
      temp.idList.addAll(((DescAggregate) D).idList);
    }

    // Unify Attributes
    String errMsg = null;
    for (Iterator iter = scope.getInScopeAttributesFor(temp); iter.hasNext(); ) {
      String currAttrName = (String) iter.next();
      int i = temp.getAttributeIndex(currAttrName, scope.getMap());
      try {
        temp.attributes[i] =
            Attribute.compose(
                this.span,
                this.getAttribute(currAttrName, scope.getMap()),
                D.span,
                D.getAttribute(currAttrName, scope.getMap()));
      } catch (UncomposableException ux) {
        if (errMsg == null) {
          errMsg = ux.getMessage();
        } else {
          errMsg += "\n" + ux.getMessage();
        }
      }
    }
    if (errMsg != null) System.err.println(errMsg + "\n fix your .epf");
    return temp;
  }
 private static void test(int testno) throws Exception {
   // com.sun.jmx.trace.TraceImplementation.init(2);
   Resource resource = new Resource();
   Class resourceClass = Resource.class;
   Class rmmbClass = RequiredModelMBean.class;
   Method setManagedResource =
       rmmbClass.getMethod("setManagedResource", new Class[] {Object.class, String.class});
   Method sendNotification =
       rmmbClass.getMethod("sendNotification", new Class[] {Notification.class});
   Method addAttributeChangeNL =
       rmmbClass.getMethod(
           "addAttributeChangeNotificationListener",
           new Class[] {NotificationListener.class, String.class, Object.class});
   Method getArray = resourceClass.getMethod("getArray", new Class[0]);
   Method getNumber = resourceClass.getMethod("getNumber", new Class[0]);
   Method setNumber = resourceClass.getMethod("setNumber", new Class[] {Integer.TYPE});
   Method tweakArray = resourceClass.getMethod("tweakArray", new Class[] {Object[].class});
   Method addOne = resourceClass.getMethod("addOne", new Class[] {Integer.TYPE});
   MBeanServer mbs = MBeanServerFactory.newMBeanServer();
   ObjectName on = new ObjectName("a:b=c");
   Descriptor attrDescr = new DescriptorSupport();
   attrDescr.setField("name", "Array");
   attrDescr.setField("descriptorType", "attribute");
   attrDescr.setField("getMethod", "getArray");
   ModelMBeanAttributeInfo attrInfo =
       new ModelMBeanAttributeInfo("Array", "array attr", getArray, null, attrDescr);
   Descriptor attrDescr2 = new DescriptorSupport();
   attrDescr2.setField("name", "Number");
   attrDescr2.setField("descriptorType", "attribute");
   attrDescr2.setField("getMethod", "getNumber");
   attrDescr2.setField("setMethod", "setNumber");
   ModelMBeanAttributeInfo attrInfo2 =
       new ModelMBeanAttributeInfo("Number", "number attr", getNumber, setNumber, attrDescr2);
   Descriptor attrDescr3 = new DescriptorSupport();
   attrDescr3.setField("name", "Local");
   attrDescr3.setField("descriptorType", "attribute");
   attrDescr3.setField("currencyTimeLimit", "" + Integer.MAX_VALUE);
   ModelMBeanAttributeInfo attrInfo3 =
       new ModelMBeanAttributeInfo(
           "Local", "java.lang.String", "local attr", true, true, false, attrDescr3);
   Descriptor attrDescr4 = new DescriptorSupport();
   attrDescr4.setField("name", "Local2");
   attrDescr4.setField("descriptorType", "attribute");
   ModelMBeanAttributeInfo attrInfo4 =
       new ModelMBeanAttributeInfo(
           "Local2", "java.lang.String", "local attr 2", true, true, false, attrDescr4);
   ModelMBeanAttributeInfo[] attrs =
       new ModelMBeanAttributeInfo[] {attrInfo, attrInfo2, attrInfo3, attrInfo4};
   ModelMBeanOperationInfo operInfo = new ModelMBeanOperationInfo("getArray descr", getArray);
   ModelMBeanOperationInfo operInfo2 = new ModelMBeanOperationInfo("getNumber descr", getNumber);
   ModelMBeanOperationInfo operInfo3 = new ModelMBeanOperationInfo("addOne descr", addOne);
   ModelMBeanOperationInfo operInfo4 = new ModelMBeanOperationInfo("setNumber descr", setNumber);
   ModelMBeanOperationInfo operInfo5 = new ModelMBeanOperationInfo("tweakArray descr", tweakArray);
   ModelMBeanOperationInfo operInfoSetManagedResource =
       new ModelMBeanOperationInfo("setManagedResource descr", setManagedResource);
   ModelMBeanOperationInfo operInfoSendNotification =
       new ModelMBeanOperationInfo("sendNotification descr", sendNotification);
   ModelMBeanOperationInfo operInfoAddAttributeChangeNL =
       new ModelMBeanOperationInfo("AddAttributeChangeNL descr", addAttributeChangeNL);
   ModelMBeanOperationInfo[] opers =
       new ModelMBeanOperationInfo[] {
         operInfo,
         operInfo2,
         operInfo3,
         operInfo4,
         operInfo5,
         operInfoSetManagedResource,
         operInfoSendNotification,
         operInfoAddAttributeChangeNL
       };
   ModelMBeanInfo info =
       new ModelMBeanInfoSupport(
           Resource.class.getName(), "Resourcish resource", attrs, null, opers, null, null);
   mbs.createMBean(
       RequiredModelMBean.class.getName(),
       on,
       new Object[] {info},
       new String[] {ModelMBeanInfo.class.getName()});
   mbs.invoke(
       on,
       "setManagedResource",
       new Object[] {resource, "objectReference"},
       new String[] {"java.lang.Object", "java.lang.String"});
   switch (testno) {
     case 0:
       {
         /* Check  getDescriptors("") on original MBeanInfo */
         final Descriptor[] desc = info.getDescriptors("");
         checkDescriptors(info, desc, "info.getDescriptors(\"\")");
         break;
       }
     case 1:
       {
         /* Check  getDescriptors(null) on original MBeanInfo */
         final Descriptor[] desc = info.getDescriptors(null);
         checkDescriptors(info, desc, "info.getDescriptors(null)");
         break;
       }
     case 2:
       {
         /* Check  getDescriptors("") on retrieved MBeanInfo */
         final MBeanInfo mbi = mbs.getMBeanInfo(on);
         final ModelMBeanInfo model = (ModelMBeanInfo) mbi;
         final Descriptor[] desc = model.getDescriptors("");
         checkDescriptors(info, desc, "model.getDescriptors(\"\")");
         break;
       }
     case 3:
       {
         /* Check  getDescriptors(null) on retrieved MBeanInfo */
         final MBeanInfo mbi = mbs.getMBeanInfo(on);
         final ModelMBeanInfo model = (ModelMBeanInfo) mbi;
         final Descriptor[] desc = model.getDescriptors(null);
         checkDescriptors(info, desc, "model.getDescriptors(null)");
         break;
       }
     default:
       System.err.println("UNKNOWN TEST NUMBER " + testno);
       break;
   }
 }
  public static void main(String args[]) throws IOException {
    Options options = Options.parseArgs(args);
    try {
      // load keyspace descriptions.
      DatabaseDescriptor.loadSchemas();

      String ksName = null;
      String cfName = null;
      Map<Descriptor, Set<Component>> parsedFilenames = new HashMap<Descriptor, Set<Component>>();
      for (String filename : options.filenames) {
        File file = new File(filename);
        if (!file.exists()) {
          System.out.println("Skipping inexisting file " + file);
          continue;
        }

        Pair<Descriptor, Component> pair =
            SSTable.tryComponentFromFilename(file.getParentFile(), file.getName());
        if (pair == null) {
          System.out.println("Skipping non sstable file " + file);
          continue;
        }
        Descriptor desc = pair.left;

        if (ksName == null) ksName = desc.ksname;
        else if (!ksName.equals(desc.ksname))
          throw new IllegalArgumentException("All sstables must be part of the same keyspace");

        if (cfName == null) cfName = desc.cfname;
        else if (!cfName.equals(desc.cfname))
          throw new IllegalArgumentException("All sstables must be part of the same column family");

        Set<Component> components =
            new HashSet<Component>(
                Arrays.asList(
                    new Component[] {
                      Component.DATA,
                      Component.PRIMARY_INDEX,
                      Component.FILTER,
                      Component.COMPRESSION_INFO,
                      Component.STATS
                    }));

        Iterator<Component> iter = components.iterator();
        while (iter.hasNext()) {
          Component component = iter.next();
          if (!(new File(desc.filenameFor(component)).exists())) iter.remove();
        }
        parsedFilenames.put(desc, components);
      }

      if (ksName == null || cfName == null) {
        System.err.println("No valid sstables to split");
        System.exit(1);
      }

      // Do not load sstables since they might be broken
      Table table = Table.openWithoutSSTables(ksName);
      ColumnFamilyStore cfs = table.getColumnFamilyStore(cfName);

      String snapshotName = "pre-split-" + System.currentTimeMillis();

      List<SSTableReader> sstables = new ArrayList<SSTableReader>();
      for (Map.Entry<Descriptor, Set<Component>> fn : parsedFilenames.entrySet()) {
        try {
          SSTableReader sstable =
              SSTableReader.openNoValidation(fn.getKey(), fn.getValue(), cfs.metadata);
          sstables.add(sstable);

          if (options.snapshot) {
            File snapshotDirectory =
                Directories.getSnapshotDirectory(sstable.descriptor, snapshotName);
            sstable.createLinks(snapshotDirectory.getPath());
          }

        } catch (Exception e) {
          System.err.println(String.format("Error Loading %s: %s", fn.getKey(), e.getMessage()));
          if (options.debug) e.printStackTrace(System.err);
        }
      }
      if (options.snapshot)
        System.out.println(
            String.format("Pre-split sstables snapshotted into snapshot %s", snapshotName));

      cfs.getDataTracker().markCompacting(sstables);
      for (SSTableReader sstable : sstables) {
        try {
          new SSTableSplitter(cfs, sstable, options.sizeInMB).split();

          // Remove the sstable
          sstable.markCompacted();
          sstable.releaseReference();
        } catch (Exception e) {
          System.err.println(String.format("Error splitting %s: %s", sstable, e.getMessage()));
          if (options.debug) e.printStackTrace(System.err);
        }
      }
      SSTableDeletingTask.waitForDeletions();
      System.exit(0); // We need that to stop non daemonized threads
    } catch (Exception e) {
      System.err.println(e.getMessage());
      if (options.debug) e.printStackTrace(System.err);
      System.exit(1);
    }
  }
Beispiel #7
0
 /** Gets all the job properties configured for this job. */
 @SuppressWarnings("unchecked")
 public Map<JobPropertyDescriptor, JobProperty<? super JobT>> getProperties() {
   return Descriptor.toMap((Iterable) properties);
 }