/**
* Returns the best nested {@link ObjectMapper} instances that is in the scope of the specified
* nested docId.
*/
public ObjectMapper findNestedObjectMapper(
int nestedDocId, SearchContext sc, LeafReaderContext context) throws IOException {
ObjectMapper nestedObjectMapper = null;
for (ObjectMapper objectMapper : objectMappers().values()) {
if (!objectMapper.nested().isNested()) {
continue;
}
Filter filter = objectMapper.nestedTypeFilter();
if (filter == null) {
continue;
}
// We can pass down 'null' as acceptedDocs, because nestedDocId is a doc to be fetched and
// therefor is guaranteed to be a live doc.
DocIdSet nestedTypeSet = filter.getDocIdSet(context, null);
if (nestedTypeSet == null) {
continue;
}
DocIdSetIterator iterator = nestedTypeSet.iterator();
if (iterator == null) {
continue;
}
if (iterator.advance(nestedDocId) == nestedDocId) {
if (nestedObjectMapper == null) {
nestedObjectMapper = objectMapper;
} else {
if (nestedObjectMapper.fullPath().length() < objectMapper.fullPath().length()) {
nestedObjectMapper = objectMapper;
}
}
}
}
return nestedObjectMapper;
}
/** Resolves the closest inherited {@link ObjectMapper} that is nested. */
public ObjectMapper resolveClosestNestedObjectMapper(String fieldName) {
int indexOf = fieldName.lastIndexOf('.');
if (indexOf == -1) {
return null;
} else {
do {
String objectPath = fieldName.substring(0, indexOf);
ObjectMappers objectMappers = objectMapper(objectPath);
if (objectMappers == null) {
return null;
}
if (objectMappers.hasNested()) {
for (ObjectMapper objectMapper : objectMappers) {
if (objectMapper.nested().isNested()) {
return objectMapper;
}
}
}
indexOf = objectPath.lastIndexOf('.');
} while (indexOf != -1);
}
return null;
}
protected void addMappers(
Collection<ObjectMapper> objectMappers, Collection<FieldMapper> fieldMappers) {
assert mappingLock.isWriteLockedByCurrentThread();
ImmutableOpenMap.Builder<String, ObjectMapper> fullPathObjectMappers =
ImmutableOpenMap.builder(this.fullPathObjectMappers);
for (ObjectMapper objectMapper : objectMappers) {
fullPathObjectMappers.put(objectMapper.fullPath(), objectMapper);
if (objectMapper.nested().isNested()) {
hasNested = true;
}
}
this.fullPathObjectMappers = fullPathObjectMappers.build();
this.fieldTypes = this.fieldTypes.copyAndAddAll(fieldMappers);
}
@Override
public void objectMapper(ObjectMapper objectMapper) {
ObjectMappers mappers = objectMappers.get(objectMapper.fullPath());
if (mappers == null) {
mappers = new ObjectMappers(objectMapper);
} else {
mappers = mappers.concat(objectMapper);
}
objectMappers =
newMapBuilder(objectMappers).put(objectMapper.fullPath(), mappers).immutableMap();
// update the hasNested flag
if (objectMapper.nested().isNested()) {
hasNested = true;
}
}
private void addObjectMappers(ObjectMapper... objectMappers) {
synchronized (mutex) {
MapBuilder<String, ObjectMapper> builder = MapBuilder.newMapBuilder(this.objectMappers);
for (ObjectMapper objectMapper : objectMappers) {
builder.put(objectMapper.fullPath(), objectMapper);
if (objectMapper.nested().isNested()) {
hasNestedObjects = true;
}
}
this.objectMappers = builder.immutableMap();
}
for (ObjectMapperListener objectMapperListener : objectMapperListeners) {
objectMapperListener.objectMappers(objectMappers);
}
}
private void checkNestedFieldsLimit(Map<String, ObjectMapper> fullPathObjectMappers) {
long allowedNestedFields = indexSettings.getValue(INDEX_MAPPING_NESTED_FIELDS_LIMIT_SETTING);
long actualNestedFields = 0;
for (ObjectMapper objectMapper : fullPathObjectMappers.values()) {
if (objectMapper.nested().isNested()) {
actualNestedFields++;
}
}
if (actualNestedFields > allowedNestedFields) {
throw new IllegalArgumentException(
"Limit of nested fields ["
+ allowedNestedFields
+ "] in index ["
+ index().getName()
+ "] has been exceeded");
}
}
public void setPath(String path) {
this.path = path;
MapperService.SmartNameObjectMapper smart = parseContext.smartObjectMapper(path);
if (smart == null) {
throw new QueryParsingException(
parseContext.index(), "[nested] failed to find nested object under path [" + path + "]");
}
childDocumentMapper = smart.docMapper();
nestedObjectMapper = smart.mapper();
if (nestedObjectMapper == null) {
throw new QueryParsingException(
parseContext.index(), "[nested] failed to find nested object under path [" + path + "]");
}
if (!nestedObjectMapper.nested().isNested()) {
throw new QueryParsingException(
parseContext.index(),
"[nested] nested object under path [" + path + "] is not of nested type");
}
}
private void addObjectMappers(ObjectMapper[] objectMappers) {
synchronized (mutex) {
MapBuilder<String, ObjectMappers> fullPathObjectMappers =
newMapBuilder(this.fullPathObjectMappers);
for (ObjectMapper objectMapper : objectMappers) {
ObjectMappers mappers = fullPathObjectMappers.get(objectMapper.fullPath());
if (mappers == null) {
mappers = new ObjectMappers(objectMapper);
} else {
mappers = mappers.concat(objectMapper);
}
fullPathObjectMappers.put(objectMapper.fullPath(), mappers);
// update the hasNested flag
if (objectMapper.nested().isNested()) {
hasNested = true;
}
}
this.fullPathObjectMappers = fullPathObjectMappers.map();
}
}
private void addMappers(
Collection<ObjectMapper> objectMappers, Collection<FieldMapper> fieldMappers) {
assert mappingLock.isWriteLockedByCurrentThread();
// first ensure we don't have any incompatible new fields
mapperService.checkNewMappersCompatibility(objectMappers, fieldMappers, true);
// update mappers for this document type
MapBuilder<String, ObjectMapper> builder = MapBuilder.newMapBuilder(this.objectMappers);
for (ObjectMapper objectMapper : objectMappers) {
builder.put(objectMapper.fullPath(), objectMapper);
if (objectMapper.nested().isNested()) {
hasNestedObjects = true;
}
}
this.objectMappers = builder.immutableMap();
this.fieldMappers = this.fieldMappers.copyAndAllAll(fieldMappers);
// finally update for the entire index
mapperService.addMappers(objectMappers, fieldMappers);
}
public DocumentMapper(
String index,
@Nullable Settings indexSettings,
DocumentMapperParser docMapperParser,
RootObjectMapper rootObjectMapper,
ImmutableMap<String, Object> meta,
NamedAnalyzer indexAnalyzer,
NamedAnalyzer searchAnalyzer,
NamedAnalyzer searchQuoteAnalyzer,
Map<Class<? extends RootMapper>, RootMapper> rootMappers) {
this.index = index;
this.indexSettings = indexSettings;
this.type = rootObjectMapper.name();
this.docMapperParser = docMapperParser;
this.meta = meta;
this.rootObjectMapper = rootObjectMapper;
this.rootMappers = ImmutableMap.copyOf(rootMappers);
this.rootMappersOrdered =
rootMappers.values().toArray(new RootMapper[rootMappers.values().size()]);
List<RootMapper> rootMappersNotIncludedInObjectLst = newArrayList();
for (RootMapper rootMapper : rootMappersOrdered) {
if (!rootMapper.includeInObject()) {
rootMappersNotIncludedInObjectLst.add(rootMapper);
}
}
this.rootMappersNotIncludedInObject =
rootMappersNotIncludedInObjectLst.toArray(
new RootMapper[rootMappersNotIncludedInObjectLst.size()]);
this.indexAnalyzer = indexAnalyzer;
this.searchAnalyzer = searchAnalyzer;
this.searchQuoteAnalyzer = searchQuoteAnalyzer != null ? searchQuoteAnalyzer : searchAnalyzer;
this.typeFilter = typeMapper().termFilter(type, null);
if (rootMapper(ParentFieldMapper.class) != null) {
// mark the routing field mapper as required
rootMapper(RoutingFieldMapper.class).markAsRequired();
}
FieldMapperListener.Aggregator fieldMappersAgg = new FieldMapperListener.Aggregator();
for (RootMapper rootMapper : rootMappersOrdered) {
if (rootMapper.includeInObject()) {
rootObjectMapper.putMapper(rootMapper);
} else {
if (rootMapper instanceof FieldMapper) {
fieldMappersAgg.mappers.add((FieldMapper) rootMapper);
}
}
}
// now traverse and get all the statically defined ones
rootObjectMapper.traverse(fieldMappersAgg);
this.fieldMappers = new DocumentFieldMappers(this, fieldMappersAgg.mappers);
final Map<String, ObjectMapper> objectMappers = Maps.newHashMap();
rootObjectMapper.traverse(
new ObjectMapperListener() {
@Override
public void objectMapper(ObjectMapper objectMapper) {
objectMappers.put(objectMapper.fullPath(), objectMapper);
}
});
this.objectMappers = ImmutableMap.copyOf(objectMappers);
for (ObjectMapper objectMapper : objectMappers.values()) {
if (objectMapper.nested().isNested()) {
hasNestedObjects = true;
}
}
refreshSource();
}
@Override
public void merge(final Mapper mergeWith, final MergeResult mergeResult)
throws MergeMappingException {
if (!(mergeWith instanceof ObjectMapper)) {
mergeResult.addConflict(
"Can't merge a non object mapping ["
+ mergeWith.name()
+ "] with an object mapping ["
+ name()
+ "]");
return;
}
ObjectMapper mergeWithObject = (ObjectMapper) mergeWith;
if (nested().isNested()) {
if (!mergeWithObject.nested().isNested()) {
mergeResult.addConflict(
"object mapping [" + name() + "] can't be changed from nested to non-nested");
return;
}
} else {
if (mergeWithObject.nested().isNested()) {
mergeResult.addConflict(
"object mapping [" + name() + "] can't be changed from non-nested to nested");
return;
}
}
if (!mergeResult.simulate()) {
if (mergeWithObject.dynamic != null) {
this.dynamic = mergeWithObject.dynamic;
}
}
doMerge(mergeWithObject, mergeResult);
List<Mapper> mappersToPut = new ArrayList<>();
List<ObjectMapper> newObjectMappers = new ArrayList<>();
List<FieldMapper> newFieldMappers = new ArrayList<>();
for (Mapper mapper : mergeWithObject) {
Mapper mergeWithMapper = mapper;
Mapper mergeIntoMapper = mappers.get(mergeWithMapper.simpleName());
if (mergeIntoMapper == null) {
// no mapping, simply add it if not simulating
if (!mergeResult.simulate()) {
mappersToPut.add(mergeWithMapper);
MapperUtils.collect(mergeWithMapper, newObjectMappers, newFieldMappers);
}
} else if (mergeIntoMapper instanceof MetadataFieldMapper == false) {
// root mappers can only exist here for backcompat, and are merged in Mapping
mergeIntoMapper.merge(mergeWithMapper, mergeResult);
}
}
if (!newFieldMappers.isEmpty()) {
mergeResult.addFieldMappers(newFieldMappers);
}
if (!newObjectMappers.isEmpty()) {
mergeResult.addObjectMappers(newObjectMappers);
}
// add the mappers only after the administration have been done, so it will not be visible to
// parser (which first try to read with no lock)
for (Mapper mapper : mappersToPut) {
putMapper(mapper);
}
}
@Override
public void merge(final Mapper mergeWith, final MergeContext mergeContext)
throws MergeMappingException {
if (!(mergeWith instanceof ObjectMapper)) {
mergeContext.addConflict(
"Can't merge a non object mapping ["
+ mergeWith.name()
+ "] with an object mapping ["
+ name()
+ "]");
return;
}
ObjectMapper mergeWithObject = (ObjectMapper) mergeWith;
if (nested().isNested()) {
if (!mergeWithObject.nested().isNested()) {
mergeContext.addConflict(
"object mapping [" + name() + "] can't be changed from nested to non-nested");
return;
}
} else {
if (mergeWithObject.nested().isNested()) {
mergeContext.addConflict(
"object mapping [" + name() + "] can't be changed from non-nested to nested");
return;
}
}
doMerge(mergeWithObject, mergeContext);
List<Mapper> mappersToTraverse = new ArrayList<Mapper>();
synchronized (mutex) {
for (Mapper mergeWithMapper : mergeWithObject.mappers.values()) {
Mapper mergeIntoMapper = mappers.get(mergeWithMapper.name());
if (mergeIntoMapper == null) {
// no mapping, simply add it if not simulating
if (!mergeContext.mergeFlags().simulate()) {
putMapper(mergeWithMapper);
mappersToTraverse.add(mergeWithMapper);
}
} else {
if ((mergeWithMapper instanceof MultiFieldMapper)
&& !(mergeIntoMapper instanceof MultiFieldMapper)) {
MultiFieldMapper mergeWithMultiField = (MultiFieldMapper) mergeWithMapper;
mergeWithMultiField.merge(mergeIntoMapper, mergeContext);
if (!mergeContext.mergeFlags().simulate()) {
putMapper(mergeWithMultiField);
// now, record mappers to traverse events for all mappers
for (Mapper mapper : mergeWithMultiField.mappers().values()) {
mappersToTraverse.add(mapper);
}
}
} else {
mergeIntoMapper.merge(mergeWithMapper, mergeContext);
}
}
}
}
// call this outside of the mutex
for (Mapper mapper : mappersToTraverse) {
mapper.traverse(mergeContext.newFieldMappers());
mapper.traverse(mergeContext.newObjectMappers());
}
}
/** Creates an copy of the current field with given field name and boost */
private static void parseCopy(String field, ParseContext context) throws IOException {
FieldMapper fieldMapper = context.docMapper().mappers().getMapper(field);
if (fieldMapper != null) {
fieldMapper.parse(context);
} else {
// The path of the dest field might be completely different from the current one so we need to
// reset it
context = context.overridePath(new ContentPath(0));
String[] paths = Strings.splitStringToArray(field, '.');
String fieldName = paths[paths.length - 1];
ObjectMapper mapper = context.root();
ObjectMapper[] mappers = new ObjectMapper[paths.length - 1];
if (paths.length > 1) {
ObjectMapper parent = context.root();
for (int i = 0; i < paths.length - 1; i++) {
mapper = context.docMapper().objectMappers().get(context.path().pathAsText(paths[i]));
if (mapper == null) {
// One mapping is missing, check if we are allowed to create a dynamic one.
ObjectMapper.Dynamic dynamic = parent.dynamic();
if (dynamic == null) {
dynamic = dynamicOrDefault(context.root().dynamic());
}
switch (dynamic) {
case STRICT:
throw new StrictDynamicMappingException(parent.fullPath(), paths[i]);
case TRUE:
Mapper.Builder builder =
context.root().findTemplateBuilder(context, paths[i], "object");
if (builder == null) {
// if this is a non root object, then explicitly set the dynamic behavior if set
if (!(parent instanceof RootObjectMapper)
&& parent.dynamic() != ObjectMapper.Defaults.DYNAMIC) {
((ObjectMapper.Builder) builder).dynamic(parent.dynamic());
}
builder = MapperBuilders.object(paths[i]).enabled(true);
}
Mapper.BuilderContext builderContext =
new Mapper.BuilderContext(context.indexSettings(), context.path());
mapper = (ObjectMapper) builder.build(builderContext);
if (mapper.nested() != ObjectMapper.Nested.NO) {
throw new MapperParsingException(
"It is forbidden to create dynamic nested objects (["
+ context.path().pathAsText(paths[i])
+ "]) through `copy_to`");
}
break;
case FALSE:
// Maybe we should log something to tell the user that the copy_to is ignored in
// this case.
break;
default:
throw new AssertionError("Unexpected dynamic type " + dynamic);
}
}
context.path().add(paths[i]);
mappers[i] = mapper;
parent = mapper;
}
}
ObjectMapper update =
parseDynamicValue(context, mapper, fieldName, context.parser().currentToken());
assert update
!= null; // we are parsing a dynamic value so we necessarily created a new mapping
if (paths.length > 1) {
for (int i = paths.length - 2; i >= 0; i--) {
ObjectMapper parent = context.root();
if (i > 0) {
parent = mappers[i - 1];
}
assert parent != null;
update = parent.mappingUpdate(update);
}
}
context.addDynamicMappingsUpdate(update);
}
}
private void addSortField(
SearchContext context,
List<SortField> sortFields,
String fieldName,
boolean reverse,
boolean ignoreUnmapped,
@Nullable final String missing,
SortMode sortMode,
String nestedPath,
Filter nestedFilter) {
if (SCORE_FIELD_NAME.equals(fieldName)) {
if (reverse) {
sortFields.add(SORT_SCORE_REVERSE);
} else {
sortFields.add(SORT_SCORE);
}
} else if (DOC_FIELD_NAME.equals(fieldName)) {
if (reverse) {
sortFields.add(SORT_DOC_REVERSE);
} else {
sortFields.add(SORT_DOC);
}
} else {
FieldMapper fieldMapper = context.smartNameFieldMapper(fieldName);
if (fieldMapper == null) {
if (ignoreUnmapped) {
return;
}
throw new SearchParseException(
context, "No mapping found for [" + fieldName + "] in order to sort on");
}
// Enable when we also know how to detect fields that do tokenize, but only emit one token
/*if (fieldMapper instanceof StringFieldMapper) {
StringFieldMapper stringFieldMapper = (StringFieldMapper) fieldMapper;
if (stringFieldMapper.fieldType().tokenized()) {
// Fail early
throw new SearchParseException(context, "Can't sort on tokenized string field[" + fieldName + "]");
}
}*/
// We only support AVG and SUM on number based fields
if (!(fieldMapper instanceof NumberFieldMapper)
&& (sortMode == SortMode.SUM || sortMode == SortMode.AVG)) {
sortMode = null;
}
if (sortMode == null) {
sortMode = resolveDefaultSortMode(reverse);
}
IndexFieldData.XFieldComparatorSource fieldComparatorSource =
context.fieldData().getForField(fieldMapper).comparatorSource(missing, sortMode);
ObjectMapper objectMapper;
if (nestedPath != null) {
ObjectMappers objectMappers = context.mapperService().objectMapper(nestedPath);
if (objectMappers == null) {
throw new ElasticSearchIllegalArgumentException(
"failed to find nested object mapping for explicit nested path [" + nestedPath + "]");
}
objectMapper = objectMappers.mapper();
if (!objectMapper.nested().isNested()) {
throw new ElasticSearchIllegalArgumentException(
"mapping for explicit nested path is not mapped as nested: [" + nestedPath + "]");
}
} else {
objectMapper = context.mapperService().resolveClosestNestedObjectMapper(fieldName);
}
if (objectMapper != null && objectMapper.nested().isNested()) {
Filter rootDocumentsFilter = context.filterCache().cache(NonNestedDocsFilter.INSTANCE);
Filter innerDocumentsFilter;
if (nestedFilter != null) {
innerDocumentsFilter = context.filterCache().cache(nestedFilter);
} else {
innerDocumentsFilter = context.filterCache().cache(objectMapper.nestedTypeFilter());
}
fieldComparatorSource =
new NestedFieldComparatorSource(
sortMode, fieldComparatorSource, rootDocumentsFilter, innerDocumentsFilter);
}
sortFields.add(
new SortField(fieldMapper.names().indexName(), fieldComparatorSource, reverse));
}
}
public DocumentMapper(
MapperService mapperService,
String index,
@Nullable Settings indexSettings,
DocumentMapperParser docMapperParser,
RootObjectMapper rootObjectMapper,
ImmutableMap<String, Object> meta,
Map<Class<? extends MetadataFieldMapper>, MetadataFieldMapper> rootMappers,
List<SourceTransform> sourceTransforms,
ReentrantReadWriteLock mappingLock) {
this.mapperService = mapperService;
this.type = rootObjectMapper.name();
this.typeText = new StringAndBytesText(this.type);
this.mapping =
new Mapping(
Version.indexCreated(indexSettings),
rootObjectMapper,
rootMappers.values().toArray(new MetadataFieldMapper[rootMappers.values().size()]),
sourceTransforms.toArray(new SourceTransform[sourceTransforms.size()]),
meta);
this.documentParser =
new DocumentParser(
index,
indexSettings,
docMapperParser,
this,
new ReleasableLock(mappingLock.readLock()));
this.typeFilter = typeMapper().fieldType().termQuery(type, null);
this.mappingWriteLock = new ReleasableLock(mappingLock.writeLock());
this.mappingLock = mappingLock;
if (rootMapper(ParentFieldMapper.class).active()) {
// mark the routing field mapper as required
rootMapper(RoutingFieldMapper.class).markAsRequired();
}
// collect all the mappers for this type
List<ObjectMapper> newObjectMappers = new ArrayList<>();
List<FieldMapper> newFieldMappers = new ArrayList<>();
for (MetadataFieldMapper metadataMapper : this.mapping.metadataMappers) {
if (metadataMapper instanceof FieldMapper) {
newFieldMappers.add((FieldMapper) metadataMapper);
}
}
MapperUtils.collect(this.mapping.root, newObjectMappers, newFieldMappers);
this.fieldMappers =
new DocumentFieldMappers(docMapperParser.analysisService).copyAndAllAll(newFieldMappers);
this.objectMappers =
Maps.uniqueIndex(
newObjectMappers,
new Function<ObjectMapper, String>() {
@Override
public String apply(ObjectMapper mapper) {
return mapper.fullPath();
}
});
for (ObjectMapper objectMapper : newObjectMappers) {
if (objectMapper.nested().isNested()) {
hasNestedObjects = true;
}
}
refreshSource();
}
@Override
public Filter parse(QueryParseContext parseContext) throws IOException, QueryParsingException {
XContentParser parser = parseContext.parser();
Query query = null;
Filter filter = null;
float boost = 1.0f;
String scope = null;
String path = null;
boolean cache = false;
String filterName = null;
// we need a late binding filter so we can inject a parent nested filter inner nested queries
NestedQueryParser.LateBindingParentFilter currentParentFilterContext =
NestedQueryParser.parentFilterContext.get();
NestedQueryParser.LateBindingParentFilter usAsParentFilter =
new NestedQueryParser.LateBindingParentFilter();
NestedQueryParser.parentFilterContext.set(usAsParentFilter);
String currentFieldName = null;
XContentParser.Token token;
while ((token = parser.nextToken()) != XContentParser.Token.END_OBJECT) {
if (token == XContentParser.Token.FIELD_NAME) {
currentFieldName = parser.currentName();
} else if (token == XContentParser.Token.START_OBJECT) {
if ("query".equals(currentFieldName)) {
query = parseContext.parseInnerQuery();
} else if ("filter".equals(currentFieldName)) {
filter = parseContext.parseInnerFilter();
}
} else if (token.isValue()) {
if ("path".equals(currentFieldName)) {
path = parser.text();
} else if ("boost".equals(currentFieldName)) {
boost = parser.floatValue();
} else if ("_scope".equals(currentFieldName)) {
scope = parser.text();
} else if ("_name".equals(currentFieldName)) {
filterName = parser.text();
} else if ("_cache".equals(currentFieldName)) {
cache = parser.booleanValue();
}
}
}
if (query == null && filter == null) {
throw new QueryParsingException(
parseContext.index(), "[nested] requires either 'query' or 'filter' field");
}
if (path == null) {
throw new QueryParsingException(parseContext.index(), "[nested] requires 'path' field");
}
if (filter != null) {
query = new DeletionAwareConstantScoreQuery(filter);
}
query.setBoost(boost);
MapperService.SmartNameObjectMapper mapper =
parseContext.mapperService().smartNameObjectMapper(path);
if (mapper == null) {
throw new QueryParsingException(
parseContext.index(), "[nested] failed to find nested object under path [" + path + "]");
}
ObjectMapper objectMapper = mapper.mapper();
if (objectMapper == null) {
throw new QueryParsingException(
parseContext.index(), "[nested] failed to find nested object under path [" + path + "]");
}
if (!objectMapper.nested().isNested()) {
throw new QueryParsingException(
parseContext.index(),
"[nested] nested object under path [" + path + "] is not of nested type");
}
Filter childFilter = parseContext.cacheFilter(objectMapper.nestedTypeFilter());
usAsParentFilter.filter = childFilter;
// wrap the child query to only work on the nested path type
query = new FilteredQuery(query, childFilter);
Filter parentFilter = currentParentFilterContext;
if (parentFilter == null) {
parentFilter = NonNestedDocsFilter.INSTANCE;
if (mapper.hasDocMapper()) {
// filter based on the type...
parentFilter = mapper.docMapper().typeFilter();
}
parentFilter = parseContext.cacheFilter(parentFilter);
}
// restore the thread local one...
NestedQueryParser.parentFilterContext.set(currentParentFilterContext);
BlockJoinQuery joinQuery =
new BlockJoinQuery(query, parentFilter, BlockJoinQuery.ScoreMode.None);
if (scope != null) {
SearchContext.current().addNestedQuery(scope, joinQuery);
}
Filter joinFilter = new QueryWrapperFilter(joinQuery);
if (cache) {
joinFilter = parseContext.cacheFilter(joinFilter);
}
if (filterName != null) {
parseContext.addNamedFilter(filterName, joinFilter);
}
return joinFilter;
}
private synchronized DocumentMapper merge(
DocumentMapper mapper, MergeReason reason, boolean updateAllTypes) {
if (mapper.type().length() == 0) {
throw new InvalidTypeNameException("mapping type name is empty");
}
if (mapper.type().length() > 255) {
throw new InvalidTypeNameException(
"mapping type name ["
+ mapper.type()
+ "] is too long; limit is length 255 but was ["
+ mapper.type().length()
+ "]");
}
if (mapper.type().charAt(0) == '_') {
throw new InvalidTypeNameException(
"mapping type name [" + mapper.type() + "] can't start with '_'");
}
if (mapper.type().contains("#")) {
throw new InvalidTypeNameException(
"mapping type name [" + mapper.type() + "] should not include '#' in it");
}
if (mapper.type().contains(",")) {
throw new InvalidTypeNameException(
"mapping type name [" + mapper.type() + "] should not include ',' in it");
}
if (mapper.type().equals(mapper.parentFieldMapper().type())) {
throw new IllegalArgumentException("The [_parent.type] option can't point to the same type");
}
if (typeNameStartsWithIllegalDot(mapper)) {
throw new IllegalArgumentException(
"mapping type name [" + mapper.type() + "] must not start with a '.'");
}
// 1. compute the merged DocumentMapper
DocumentMapper oldMapper = mappers.get(mapper.type());
DocumentMapper newMapper;
if (oldMapper != null) {
newMapper = oldMapper.merge(mapper.mapping(), updateAllTypes);
} else {
newMapper = mapper;
}
// 2. check basic sanity of the new mapping
List<ObjectMapper> objectMappers = new ArrayList<>();
List<FieldMapper> fieldMappers = new ArrayList<>();
Collections.addAll(fieldMappers, newMapper.mapping().metadataMappers);
MapperUtils.collect(newMapper.mapping().root(), objectMappers, fieldMappers);
checkFieldUniqueness(newMapper.type(), objectMappers, fieldMappers);
checkObjectsCompatibility(newMapper.type(), objectMappers, fieldMappers, updateAllTypes);
// 3. update lookup data-structures
// this will in particular make sure that the merged fields are compatible with other types
FieldTypeLookup fieldTypes =
this.fieldTypes.copyAndAddAll(newMapper.type(), fieldMappers, updateAllTypes);
boolean hasNested = this.hasNested;
Map<String, ObjectMapper> fullPathObjectMappers = new HashMap<>(this.fullPathObjectMappers);
for (ObjectMapper objectMapper : objectMappers) {
fullPathObjectMappers.put(objectMapper.fullPath(), objectMapper);
if (objectMapper.nested().isNested()) {
hasNested = true;
}
}
fullPathObjectMappers = Collections.unmodifiableMap(fullPathObjectMappers);
if (reason == MergeReason.MAPPING_UPDATE) {
// this check will only be performed on the master node when there is
// a call to the update mapping API. For all other cases like
// the master node restoring mappings from disk or data nodes
// deserializing cluster state that was sent by the master node,
// this check will be skipped.
checkNestedFieldsLimit(fullPathObjectMappers);
checkTotalFieldsLimit(objectMappers.size() + fieldMappers.size());
checkDepthLimit(fullPathObjectMappers.keySet());
checkPercolatorFieldLimit(fieldTypes);
}
Set<String> parentTypes = this.parentTypes;
if (oldMapper == null && newMapper.parentFieldMapper().active()) {
parentTypes = new HashSet<>(parentTypes.size() + 1);
parentTypes.addAll(this.parentTypes);
parentTypes.add(mapper.parentFieldMapper().type());
parentTypes = Collections.unmodifiableSet(parentTypes);
}
Map<String, DocumentMapper> mappers = new HashMap<>(this.mappers);
mappers.put(newMapper.type(), newMapper);
for (Map.Entry<String, DocumentMapper> entry : mappers.entrySet()) {
if (entry.getKey().equals(DEFAULT_MAPPING)) {
continue;
}
DocumentMapper m = entry.getValue();
// apply changes to the field types back
m = m.updateFieldType(fieldTypes.fullNameToFieldType);
entry.setValue(m);
}
mappers = Collections.unmodifiableMap(mappers);
// 4. commit the change
this.mappers = mappers;
this.fieldTypes = fieldTypes;
this.hasNested = hasNested;
this.fullPathObjectMappers = fullPathObjectMappers;
this.parentTypes = parentTypes;
assert assertSerialization(newMapper);
assert assertMappersShareSameFieldType();
return newMapper;
}
static ObjectMapper parseObject(ParseContext context, ObjectMapper mapper, boolean atRoot)
throws IOException {
if (mapper.isEnabled() == false) {
context.parser().skipChildren();
return null;
}
XContentParser parser = context.parser();
String currentFieldName = parser.currentName();
if (atRoot
&& MapperService.isMetadataField(currentFieldName)
&& Version.indexCreated(context.indexSettings()).onOrAfter(Version.V_2_0_0_beta1)) {
throw new MapperParsingException(
"Field ["
+ currentFieldName
+ "] is a metadata field and cannot be added inside a document. Use the index API request parameters.");
}
XContentParser.Token token = parser.currentToken();
if (token == XContentParser.Token.VALUE_NULL) {
// the object is null ("obj1" : null), simply bail
return null;
}
if (token.isValue()) {
throw new MapperParsingException(
"object mapping for ["
+ mapper.name()
+ "] tried to parse field ["
+ currentFieldName
+ "] as object, but found a concrete value");
}
ObjectMapper.Nested nested = mapper.nested();
if (nested.isNested()) {
context = context.createNestedContext(mapper.fullPath());
ParseContext.Document nestedDoc = context.doc();
ParseContext.Document parentDoc = nestedDoc.getParent();
// pre add the uid field if possible (id was already provided)
IndexableField uidField = parentDoc.getField(UidFieldMapper.NAME);
if (uidField != null) {
// we don't need to add it as a full uid field in nested docs, since we don't need
// versioning
// we also rely on this for UidField#loadVersion
// this is a deeply nested field
nestedDoc.add(
new Field(
UidFieldMapper.NAME,
uidField.stringValue(),
UidFieldMapper.Defaults.NESTED_FIELD_TYPE));
}
// the type of the nested doc starts with __, so we can identify that its a nested one in
// filters
// note, we don't prefix it with the type of the doc since it allows us to execute a nested
// query
// across types (for example, with similar nested objects)
nestedDoc.add(
new Field(
TypeFieldMapper.NAME,
mapper.nestedTypePathAsString(),
TypeFieldMapper.Defaults.FIELD_TYPE));
}
// if we are at the end of the previous object, advance
if (token == XContentParser.Token.END_OBJECT) {
token = parser.nextToken();
}
if (token == XContentParser.Token.START_OBJECT) {
// if we are just starting an OBJECT, advance, this is the object we are parsing, we need the
// name first
token = parser.nextToken();
}
ObjectMapper update = null;
while (token != XContentParser.Token.END_OBJECT) {
ObjectMapper newUpdate = null;
if (token == XContentParser.Token.START_OBJECT) {
newUpdate = parseObject(context, mapper, currentFieldName);
} else if (token == XContentParser.Token.START_ARRAY) {
newUpdate = parseArray(context, mapper, currentFieldName);
} else if (token == XContentParser.Token.FIELD_NAME) {
currentFieldName = parser.currentName();
} else if (token == XContentParser.Token.VALUE_NULL) {
parseNullValue(context, mapper, currentFieldName);
} else if (token == null) {
throw new MapperParsingException(
"object mapping for ["
+ mapper.name()
+ "] tried to parse field ["
+ currentFieldName
+ "] as object, but got EOF, has a concrete value been provided to it?");
} else if (token.isValue()) {
newUpdate = parseValue(context, mapper, currentFieldName, token);
}
token = parser.nextToken();
if (newUpdate != null) {
if (update == null) {
update = newUpdate;
} else {
update = update.merge(newUpdate, false);
}
}
}
// restore the enable path flag
if (nested.isNested()) {
ParseContext.Document nestedDoc = context.doc();
ParseContext.Document parentDoc = nestedDoc.getParent();
if (nested.isIncludeInParent()) {
for (IndexableField field : nestedDoc.getFields()) {
if (field.name().equals(UidFieldMapper.NAME)
|| field.name().equals(TypeFieldMapper.NAME)) {
continue;
} else {
parentDoc.add(field);
}
}
}
if (nested.isIncludeInRoot()) {
ParseContext.Document rootDoc = context.rootDoc();
// don't add it twice, if its included in parent, and we are handling the master doc...
if (!nested.isIncludeInParent() || parentDoc != rootDoc) {
for (IndexableField field : nestedDoc.getFields()) {
if (field.name().equals(UidFieldMapper.NAME)
|| field.name().equals(TypeFieldMapper.NAME)) {
continue;
} else {
rootDoc.add(field);
}
}
}
}
}
return update;
}
private InternalSearchHit.InternalNestedIdentity getInternalNestedIdentity(
SearchContext context,
int nestedSubDocId,
LeafReaderContext subReaderContext,
DocumentMapper documentMapper,
ObjectMapper nestedObjectMapper)
throws IOException {
int currentParent = nestedSubDocId;
ObjectMapper nestedParentObjectMapper;
StringBuilder field = new StringBuilder();
ObjectMapper current = nestedObjectMapper;
InternalSearchHit.InternalNestedIdentity nestedIdentity = null;
do {
Filter parentFilter;
nestedParentObjectMapper = documentMapper.findParentObjectMapper(current);
if (field.length() != 0) {
field.insert(0, '.');
}
field.insert(0, current.name());
if (nestedParentObjectMapper != null) {
if (nestedParentObjectMapper.nested().isNested() == false) {
current = nestedParentObjectMapper;
continue;
}
parentFilter = nestedParentObjectMapper.nestedTypeFilter();
} else {
parentFilter = Queries.newNonNestedFilter();
}
Filter childFilter = nestedObjectMapper.nestedTypeFilter();
if (childFilter == null) {
current = nestedParentObjectMapper;
continue;
}
// We can pass down 'null' as acceptedDocs, because we're fetching matched docId that matched
// in the query phase.
DocIdSet childDocSet = childFilter.getDocIdSet(subReaderContext, null);
if (childDocSet == null) {
current = nestedParentObjectMapper;
continue;
}
DocIdSetIterator childIter = childDocSet.iterator();
if (childIter == null) {
current = nestedParentObjectMapper;
continue;
}
BitDocIdSet parentBitSet =
context
.bitsetFilterCache()
.getBitDocIdSetFilter(parentFilter)
.getDocIdSet(subReaderContext);
BitSet parentBits = parentBitSet.bits();
int offset = 0;
int nextParent = parentBits.nextSetBit(currentParent);
for (int docId = childIter.advance(currentParent + 1);
docId < nextParent && docId != DocIdSetIterator.NO_MORE_DOCS;
docId = childIter.nextDoc()) {
offset++;
}
currentParent = nextParent;
current = nestedObjectMapper = nestedParentObjectMapper;
nestedIdentity =
new InternalSearchHit.InternalNestedIdentity(field.toString(), offset, nestedIdentity);
field = new StringBuilder();
} while (current != null);
return nestedIdentity;
}
@Override
public void merge(final Mapper mergeWith, final MergeContext mergeContext)
throws MergeMappingException {
if (!(mergeWith instanceof ObjectMapper)) {
mergeContext.addConflict(
"Can't merge a non object mapping ["
+ mergeWith.name()
+ "] with an object mapping ["
+ name()
+ "]");
return;
}
ObjectMapper mergeWithObject = (ObjectMapper) mergeWith;
if (nested().isNested()) {
if (!mergeWithObject.nested().isNested()) {
mergeContext.addConflict(
"object mapping [" + name() + "] can't be changed from nested to non-nested");
return;
}
} else {
if (mergeWithObject.nested().isNested()) {
mergeContext.addConflict(
"object mapping [" + name() + "] can't be changed from non-nested to nested");
return;
}
}
if (!mergeContext.mergeFlags().simulate()) {
if (mergeWithObject.dynamic != null) {
this.dynamic = mergeWithObject.dynamic;
}
}
doMerge(mergeWithObject, mergeContext);
List<Mapper> mappersToPut = new ArrayList<>();
FieldMapperListener.Aggregator newFieldMappers = new FieldMapperListener.Aggregator();
ObjectMapperListener.Aggregator newObjectMappers = new ObjectMapperListener.Aggregator();
synchronized (mutex) {
for (Mapper mapper : mergeWithObject.mappers.values()) {
Mapper mergeWithMapper = mapper;
Mapper mergeIntoMapper = mappers.get(mergeWithMapper.name());
if (mergeIntoMapper == null) {
// no mapping, simply add it if not simulating
if (!mergeContext.mergeFlags().simulate()) {
mappersToPut.add(mergeWithMapper);
mergeWithMapper.traverse(newFieldMappers);
mergeWithMapper.traverse(newObjectMappers);
}
} else {
mergeIntoMapper.merge(mergeWithMapper, mergeContext);
}
}
if (!newFieldMappers.mappers.isEmpty()) {
mergeContext.docMapper().addFieldMappers(newFieldMappers.mappers);
}
if (!newObjectMappers.mappers.isEmpty()) {
mergeContext.docMapper().addObjectMappers(newObjectMappers.mappers);
}
// and the mappers only after the administration have been done, so it will not be visible to
// parser (which first try to read with no lock)
for (Mapper mapper : mappersToPut) {
putMapper(mapper);
}
}
}
