@Test(timeout = 60000)
  public void testModifyTable() throws Exception {
    final TableName tableName = TableName.valueOf("testModifyTable");
    final ProcedureExecutor<MasterProcedureEnv> procExec = getMasterProcedureExecutor();

    MasterProcedureTestingUtility.createTable(procExec, tableName, null, "cf");
    UTIL.getAdmin().disableTable(tableName);

    // Modify the table descriptor
    HTableDescriptor htd = new HTableDescriptor(UTIL.getAdmin().getTableDescriptor(tableName));

    // Test 1: Modify 1 property
    long newMaxFileSize = htd.getMaxFileSize() * 2;
    htd.setMaxFileSize(newMaxFileSize);
    htd.setRegionReplication(3);

    long procId1 =
        ProcedureTestingUtility.submitAndWait(
            procExec, new ModifyTableProcedure(procExec.getEnvironment(), htd));
    ProcedureTestingUtility.assertProcNotFailed(procExec.getResult(procId1));

    HTableDescriptor currentHtd = UTIL.getAdmin().getTableDescriptor(tableName);
    assertEquals(newMaxFileSize, currentHtd.getMaxFileSize());

    // Test 2: Modify multiple properties
    boolean newReadOnlyOption = htd.isReadOnly() ? false : true;
    long newMemStoreFlushSize = htd.getMemStoreFlushSize() * 2;
    htd.setReadOnly(newReadOnlyOption);
    htd.setMemStoreFlushSize(newMemStoreFlushSize);

    long procId2 =
        ProcedureTestingUtility.submitAndWait(
            procExec, new ModifyTableProcedure(procExec.getEnvironment(), htd));
    ProcedureTestingUtility.assertProcNotFailed(procExec.getResult(procId2));

    currentHtd = UTIL.getAdmin().getTableDescriptor(tableName);
    assertEquals(newReadOnlyOption, currentHtd.isReadOnly());
    assertEquals(newMemStoreFlushSize, currentHtd.getMemStoreFlushSize());
  }
Beispiel #2
0
  /** {@inheritDoc} */
  @Override
  public KijiTableLayout modifyTableLayout(
      TableLayoutDesc update, boolean dryRun, PrintStream printStream) throws IOException {
    final State state = mState.get();
    Preconditions.checkState(
        state == State.OPEN,
        "Cannot modify table layout in Kiji instance %s in state %s.",
        this,
        state);
    Preconditions.checkNotNull(update);

    ensureValidationCompatibility(update);

    if (dryRun && (null == printStream)) {
      printStream = System.out;
    }

    final KijiMetaTable metaTable = getMetaTable();

    final String tableName = update.getName();
    // Throws a KijiTableNotFoundException if there is no table.
    metaTable.getTableLayout(tableName);

    final KijiURI tableURI = KijiURI.newBuilder(mURI).withTableName(tableName).build();
    LOG.debug("Applying layout update {} on table {}", update, tableURI);

    KijiTableLayout newLayout = null;

    if (dryRun) {
      // Process column ids and perform validation, but don't actually update the meta table.
      final List<KijiTableLayout> layouts = metaTable.getTableLayoutVersions(tableName, 1);
      final KijiTableLayout currentLayout = layouts.isEmpty() ? null : layouts.get(0);
      newLayout = KijiTableLayout.createUpdatedLayout(update, currentLayout);
    } else {
      // Actually set it.
      if (mSystemVersion.compareTo(Versions.SYSTEM_2_0) >= 0) {
        try {
          // Use ZooKeeper to inform all watchers that a new table layout is available.
          final HBaseTableLayoutUpdater updater =
              new HBaseTableLayoutUpdater(this, tableURI, update);
          try {
            updater.update();
            newLayout = updater.getNewLayout();
          } finally {
            updater.close();
          }
        } catch (KeeperException ke) {
          throw new IOException(ke);
        }
      } else {
        // System versions before system-2.0 do not enforce table layout update consistency or
        // validation.
        newLayout = metaTable.updateTableLayout(tableName, update);
      }
    }
    Preconditions.checkState(newLayout != null);

    if (dryRun) {
      printStream.println("This table layout is valid.");
    }

    LOG.debug("Computing new HBase schema");
    final HTableSchemaTranslator translator = new HTableSchemaTranslator();
    final HTableDescriptor newTableDescriptor =
        translator.toHTableDescriptor(mURI.getInstance(), newLayout);

    LOG.debug("Reading existing HBase schema");
    final KijiManagedHBaseTableName hbaseTableName =
        KijiManagedHBaseTableName.getKijiTableName(mURI.getInstance(), tableName);
    HTableDescriptor currentTableDescriptor = null;
    byte[] tableNameAsBytes = hbaseTableName.toBytes();
    try {
      currentTableDescriptor = getHBaseAdmin().getTableDescriptor(tableNameAsBytes);
    } catch (TableNotFoundException tnfe) {
      if (!dryRun) {
        throw tnfe; // Not in dry-run mode; table needs to exist. Rethrow exception.
      }
    }
    if (currentTableDescriptor == null) {
      if (dryRun) {
        printStream.println("Would create new table: " + tableName);
        currentTableDescriptor =
            HTableDescriptorComparator.makeEmptyTableDescriptor(hbaseTableName);
      } else {
        throw new RuntimeException(
            "Table " + hbaseTableName.getKijiTableName() + " does not exist");
      }
    }
    LOG.debug("Existing table descriptor: {}", currentTableDescriptor);
    LOG.debug("New table descriptor: {}", newTableDescriptor);

    LOG.debug("Checking for differences between the new HBase schema and the existing one");
    final HTableDescriptorComparator comparator = new HTableDescriptorComparator();
    if (0 == comparator.compare(currentTableDescriptor, newTableDescriptor)) {
      LOG.debug("HBase schemas are the same.  No need to change HBase schema");
      if (dryRun) {
        printStream.println("This layout does not require any physical table schema changes.");
      }
    } else {
      LOG.debug("HBase schema must be changed, but no columns will be deleted");

      if (dryRun) {
        printStream.println("Changes caused by this table layout:");
      } else {
        LOG.debug("Disabling HBase table");
        getHBaseAdmin().disableTable(hbaseTableName.toString());
      }

      for (HColumnDescriptor newColumnDescriptor : newTableDescriptor.getFamilies()) {
        final String columnName = Bytes.toString(newColumnDescriptor.getName());
        final ColumnId columnId = ColumnId.fromString(columnName);
        final String lgName = newLayout.getLocalityGroupIdNameMap().get(columnId);
        final HColumnDescriptor currentColumnDescriptor =
            currentTableDescriptor.getFamily(newColumnDescriptor.getName());
        if (null == currentColumnDescriptor) {
          if (dryRun) {
            printStream.println("  Creating new locality group: " + lgName);
          } else {
            LOG.debug("Creating new column " + columnName);
            getHBaseAdmin().addColumn(hbaseTableName.toString(), newColumnDescriptor);
          }
        } else if (!newColumnDescriptor.equals(currentColumnDescriptor)) {
          if (dryRun) {
            printStream.println("  Modifying locality group: " + lgName);
          } else {
            LOG.debug("Modifying column " + columnName);
            getHBaseAdmin().modifyColumn(hbaseTableName.toString(), newColumnDescriptor);
          }
        } else {
          LOG.debug("No changes needed for column " + columnName);
        }
      }

      if (dryRun) {
        if (newTableDescriptor.getMaxFileSize() != currentTableDescriptor.getMaxFileSize()) {
          printStream.printf(
              "  Changing max_filesize from %d to %d: %n",
              currentTableDescriptor.getMaxFileSize(), newTableDescriptor.getMaxFileSize());
        }
        if (newTableDescriptor.getMaxFileSize() != currentTableDescriptor.getMaxFileSize()) {
          printStream.printf(
              "  Changing memstore_flushsize from %d to %d: %n",
              currentTableDescriptor.getMemStoreFlushSize(),
              newTableDescriptor.getMemStoreFlushSize());
        }
      } else {
        LOG.debug("Modifying table descriptor");
        getHBaseAdmin().modifyTable(tableNameAsBytes, newTableDescriptor);
      }

      if (!dryRun) {
        LOG.debug("Re-enabling HBase table");
        getHBaseAdmin().enableTable(hbaseTableName.toString());
      }
    }

    return newLayout;
  }