public ParsedStatement.Prepared prepare(ColumnSpecification[] boundNames) throws InvalidRequestException { CFMetaData metadata = ThriftValidation.validateColumnFamily(keyspace(), columnFamily()); type = metadata.getDefaultValidator().isCommutative() ? Type.COUNTER : Type.LOGGED; cfDef = metadata.getCfDef(); UpdateStatement.processKeys(cfDef, whereClause, processedKeys, boundNames); for (Selector column : columns) { CFDefinition.Name name = cfDef.get(column.id()); if (name == null) throw new InvalidRequestException(String.format("Unknown identifier %s", column)); // For compact, we only have one value except the key, so the only form of DELETE that make // sense is without a column // list. However, we support having the value name for coherence with the static/sparse case if (name.kind != CFDefinition.Name.Kind.COLUMN_METADATA && name.kind != CFDefinition.Name.Kind.VALUE_ALIAS) throw new InvalidRequestException( String.format( "Invalid identifier %s for deletion (should not be a PRIMARY KEY part)", column)); if (column.key() != null) { if (name.type instanceof ListType) { if (column.key().isBindMarker()) boundNames[column.key().bindIndex] = ListOperation.indexSpecOf(name); } else if (name.type instanceof MapType) { if (column.key().isBindMarker()) boundNames[column.key().bindIndex] = MapOperation.keySpecOf(name, (MapType) name.type); } else { throw new InvalidRequestException( String.format( "Invalid selection %s since %s is neither a list or a map", column, column.id())); } } toRemove.add(Pair.create(name, column.key())); } return new ParsedStatement.Prepared(this, Arrays.<ColumnSpecification>asList(boundNames)); }
public static ByteBuffer buildName(CFMetaData meta, ByteBuffer... args) { ColumnNameBuilder builder = meta.getCfDef().getColumnNameBuilder(); for (ByteBuffer arg : args) builder.add(arg); return builder.build(); }
private static AbstractType[] getKeyTypes(CFMetaData cfm) { AbstractType[] types = new AbstractType[cfm.getCfDef().keys.size()]; int i = 0; for (CFDefinition.Name name : cfm.getCfDef().keys.values()) types[i++] = name.type; return types; }
public TokenFct(CFMetaData cfm) { super("token", partitioner.getTokenValidator(), getKeyTypes(cfm)); this.cfDef = cfm.getCfDef(); }
public void announceMigration() throws RequestValidationException { CFMetaData meta = validateColumnFamily(keyspace(), columnFamily()); CFMetaData cfm = meta.clone(); CFDefinition cfDef = meta.getCfDef(); CFDefinition.Name name = columnName == null ? null : cfDef.get(columnName); switch (oType) { case ADD: if (cfDef.isCompact) throw new InvalidRequestException("Cannot add new column to a compact CF"); if (name != null) { switch (name.kind) { case KEY_ALIAS: case COLUMN_ALIAS: throw new InvalidRequestException( String.format( "Invalid column name %s because it conflicts with a PRIMARY KEY part", columnName)); case COLUMN_METADATA: throw new InvalidRequestException( String.format( "Invalid column name %s because it conflicts with an existing column", columnName)); } } AbstractType<?> type = validator.getType(); if (type instanceof CollectionType) { if (!cfDef.isComposite) throw new InvalidRequestException( "Cannot use collection types with non-composite PRIMARY KEY"); if (cfDef.cfm.isSuper()) throw new InvalidRequestException( "Cannot use collection types with Super column family"); Map<ByteBuffer, CollectionType> collections = cfDef.hasCollections ? new HashMap<ByteBuffer, CollectionType>(cfDef.getCollectionType().defined) : new HashMap<ByteBuffer, CollectionType>(); collections.put(columnName.key, (CollectionType) type); ColumnToCollectionType newColType = ColumnToCollectionType.getInstance(collections); List<AbstractType<?>> ctypes = new ArrayList<AbstractType<?>>(((CompositeType) cfm.comparator).types); if (cfDef.hasCollections) ctypes.set(ctypes.size() - 1, newColType); else ctypes.add(newColType); cfm.comparator = CompositeType.getInstance(ctypes); } Integer componentIndex = cfDef.isComposite ? ((CompositeType) meta.comparator).types.size() - (cfDef.hasCollections ? 2 : 1) : null; cfm.addColumnDefinition(ColumnDefinition.regularDef(columnName.key, type, componentIndex)); break; case ALTER: if (name == null) throw new InvalidRequestException( String.format("Column %s was not found in table %s", columnName, columnFamily())); switch (name.kind) { case KEY_ALIAS: AbstractType<?> newType = validator.getType(); if (newType instanceof CounterColumnType) throw new InvalidRequestException( String.format( "counter type is not supported for PRIMARY KEY part %s", columnName)); if (cfDef.hasCompositeKey) { List<AbstractType<?>> newTypes = new ArrayList<AbstractType<?>>(((CompositeType) cfm.getKeyValidator()).types); newTypes.set(name.position, newType); cfm.keyValidator(CompositeType.getInstance(newTypes)); } else { cfm.keyValidator(newType); } break; case COLUMN_ALIAS: assert cfDef.isComposite; List<AbstractType<?>> newTypes = new ArrayList<AbstractType<?>>(((CompositeType) cfm.comparator).types); newTypes.set(name.position, validator.getType()); cfm.comparator = CompositeType.getInstance(newTypes); break; case VALUE_ALIAS: cfm.defaultValidator(validator.getType()); break; case COLUMN_METADATA: ColumnDefinition column = cfm.getColumnDefinition(columnName.key); column.setValidator(validator.getType()); break; } break; case DROP: if (cfDef.isCompact) throw new InvalidRequestException("Cannot drop columns from a compact CF"); if (name == null) throw new InvalidRequestException( String.format("Column %s was not found in table %s", columnName, columnFamily())); switch (name.kind) { case KEY_ALIAS: case COLUMN_ALIAS: throw new InvalidRequestException( String.format("Cannot drop PRIMARY KEY part %s", columnName)); case COLUMN_METADATA: ColumnDefinition toDelete = null; for (ColumnDefinition columnDef : cfm.regularColumns()) { if (columnDef.name.equals(columnName.key)) toDelete = columnDef; } assert toDelete != null; cfm.removeColumnDefinition(toDelete); break; } break; case OPTS: if (cfProps == null) throw new InvalidRequestException( String.format("ALTER COLUMNFAMILY WITH invoked, but no parameters found")); cfProps.validate(); cfProps.applyToCFMetadata(cfm); break; case RENAME: for (Map.Entry<ColumnIdentifier, ColumnIdentifier> entry : renames.entrySet()) { ColumnIdentifier from = entry.getKey(); ColumnIdentifier to = entry.getValue(); cfm.renameColumn(from.key, from.toString(), to.key, to.toString()); } break; } MigrationManager.announceColumnFamilyUpdate(cfm, false); }