package com.fasterxml.jackson.databind.deser;
import java.util.HashMap;
import java.util.concurrent.ConcurrentHashMap;
import com.fasterxml.jackson.annotation.JsonFormat;
import com.fasterxml.jackson.databind.*;
import com.fasterxml.jackson.databind.deser.std.StdDelegatingDeserializer;
import com.fasterxml.jackson.databind.introspect.Annotated;
import com.fasterxml.jackson.databind.type.*;
import com.fasterxml.jackson.databind.util.ClassUtil;
import com.fasterxml.jackson.databind.util.Converter;
/**
* Class that defines caching layer between callers (like
* {@link ObjectMapper},
* {@link com.fasterxml.jackson.databind.DeserializationContext})
* and classes that construct deserializers
* ({@link com.fasterxml.jackson.databind.deser.DeserializerFactory}).
*/
public final class DeserializerCache
implements java.io.Serializable // since 2.1 -- needs to be careful tho
{
private static final long serialVersionUID = 1L;
/*
/**********************************************************
/* Caching
/**********************************************************
*/
/**
* We will also cache some dynamically constructed deserializers;
* specifically, ones that are expensive to construct.
* This currently means bean and Enum deserializers; starting with
* 2.5, container deserializers will also be cached.
*<p>
* Given that we don't expect much concurrency for additions
* (should very quickly converge to zero after startup), let's
* define a relatively low concurrency setting.
*/
final protected ConcurrentHashMap<JavaType, JsonDeserializer<Object>> _cachedDeserializers
= new ConcurrentHashMap<JavaType, JsonDeserializer<Object>>(64, 0.75f, 4);
/**
* During deserializer construction process we may need to keep track of partially
* completed deserializers, to resolve cyclic dependencies. This is the
* map used for storing deserializers before they are fully complete.
*/
final protected HashMap<JavaType, JsonDeserializer<Object>> _incompleteDeserializers
= new HashMap<JavaType, JsonDeserializer<Object>>(8);
/*
/**********************************************************
/* Life-cycle
/**********************************************************
*/
public DeserializerCache() { }
/*
/**********************************************************
/* JDK serialization handling
/**********************************************************
*/
Object writeReplace() {
// instead of making this transient, just clear it:
_incompleteDeserializers.clear();
// TODO: clear out "cheap" cached deserializers?
return this;
}
/*
/**********************************************************
/* Access to caching aspects
/**********************************************************
*/
/**
* Method that can be used to determine how many deserializers this
* provider is caching currently
* (if it does caching: default implementation does)
* Exact count depends on what kind of deserializers get cached;
* default implementation caches only dynamically constructed deserializers,
* but not eagerly constructed standard deserializers (which is different
* from how serializer provider works).
*<p>
* The main use case for this method is to allow conditional flushing of
* deserializer cache, if certain number of entries is reached.
*/
public int cachedDeserializersCount() {
return _cachedDeserializers.size();
}
/**
* Method that will drop all dynamically constructed deserializers (ones that
* are counted as result value for {@link #cachedDeserializersCount}).
* This can be used to remove memory usage (in case some deserializers are
* only used once or so), or to force re-construction of deserializers after
* configuration changes for mapper than owns the provider.
*/
public void flushCachedDeserializers() {
_cachedDeserializers.clear();
}
/*
/**********************************************************
/* General deserializer locating method
/**********************************************************
*/
/**
* Method called to get hold of a deserializer for a value of given type;
* or if no such deserializer can be found, a default handler (which
* may do a best-effort generic serialization or just simply
* throw an exception when invoked).
*<p>
* Note: this method is only called for value types; not for keys.
* Key deserializers can be accessed using {@link #findKeyDeserializer}.
*<p>
* Note also that deserializer returned is guaranteed to be resolved
* (if it is of type {@link ResolvableDeserializer}), but
* not contextualized (wrt {@link ContextualDeserializer}): caller
* has to handle latter if necessary.
*
* @param ctxt Deserialization context
* @param propertyType Declared type of the value to deserializer (obtained using
* 'setter' method signature and/or type annotations
*
* @throws JsonMappingException if there are fatal problems with
* accessing suitable deserializer; including that of not
* finding any serializer
*/
public JsonDeserializer<Object> findValueDeserializer(DeserializationContext ctxt,
DeserializerFactory factory, JavaType propertyType)
throws JsonMappingException
{
JsonDeserializer<Object> deser = _findCachedDeserializer(propertyType);
if (deser == null) {
// If not, need to request factory to construct (or recycle)
deser = _createAndCacheValueDeserializer(ctxt, factory, propertyType);
if (deser == null) {
/* Should we let caller handle it? Let's have a helper method
* decide it; can throw an exception, or return a valid
* deserializer
*/
deser = _handleUnknownValueDeserializer(ctxt, propertyType);
}
}
return deser;
}
/**
* Method called to get hold of a deserializer to use for deserializing
* keys for {@link java.util.Map}.
*
* @throws JsonMappingException if there are fatal problems with
* accessing suitable key deserializer; including that of not
* finding any serializer
*/
public KeyDeserializer findKeyDeserializer(DeserializationContext ctxt,
DeserializerFactory factory, JavaType type)
throws JsonMappingException
{
KeyDeserializer kd = factory.createKeyDeserializer(ctxt, type);
if (kd == null) { // if none found, need to use a placeholder that'll fail
return _handleUnknownKeyDeserializer(ctxt, type);
}
// First: need to resolve?
if (kd instanceof ResolvableDeserializer) {
((ResolvableDeserializer) kd).resolve(ctxt);
}
return kd;
}
/**
* Method called to find out whether provider would be able to find
* a deserializer for given type, using a root reference (i.e. not
* through fields or membership in an array or collection)
*/
public boolean hasValueDeserializerFor(DeserializationContext ctxt,
DeserializerFactory factory, JavaType type)
throws JsonMappingException
{
/* Note: mostly copied from findValueDeserializer, except for
* handling of unknown types
*/
JsonDeserializer<Object> deser = _findCachedDeserializer(type);
if (deser == null) {
deser = _createAndCacheValueDeserializer(ctxt, factory, type);
}
return (deser != null);
}
/*
/**********************************************************
/* Helper methods that handle cache lookups
/**********************************************************
*/
protected JsonDeserializer<Object> _findCachedDeserializer(JavaType type)
{
if (type == null) {
throw new IllegalArgumentException("Null JavaType passed");
}
if (_hasCustomValueHandler(type)) {
return null;
}
return _cachedDeserializers.get(type);
}
/**
* Method that will try to create a deserializer for given type,
* and resolve and cache it if necessary
*
* @param ctxt Currently active deserialization context
* @param type Type of property to deserialize
*/
protected JsonDeserializer<Object> _createAndCacheValueDeserializer(DeserializationContext ctxt,
DeserializerFactory factory, JavaType type)
throws JsonMappingException
{
/* Only one thread to construct deserializers at any given point in time;
* limitations necessary to ensure that only completely initialized ones
* are visible and used.
*/
synchronized (_incompleteDeserializers) {
// Ok, then: could it be that due to a race condition, deserializer can now be found?
JsonDeserializer<Object> deser = _findCachedDeserializer(type);
if (deser != null) {
return deser;
}
int count = _incompleteDeserializers.size();
// Or perhaps being resolved right now?
if (count > 0) {
deser = _incompleteDeserializers.get(type);
if (deser != null) {
return deser;
}
}
// Nope: need to create and possibly cache
try {
return _createAndCache2(ctxt, factory, type);
} finally {
// also: any deserializers that have been created are complete by now
if (count == 0 && _incompleteDeserializers.size() > 0) {
_incompleteDeserializers.clear();
}
}
}
}
/**
* Method that handles actual construction (via factory) and caching (both
* intermediate and eventual)
*/
protected JsonDeserializer<Object> _createAndCache2(DeserializationContext ctxt,
DeserializerFactory factory, JavaType type)
throws JsonMappingException
{
JsonDeserializer<Object> deser;
try {
deser = _createDeserializer(ctxt, factory, type);
} catch (IllegalArgumentException iae) {
// We better only expose checked exceptions, since those
// are what caller is expected to handle
throw JsonMappingException.from(ctxt, iae.getMessage(), iae);
}
if (deser == null) {
return null;
}
/* cache resulting deserializer? always true for "plain" BeanDeserializer
* (but can be re-defined for sub-classes by using @JsonCachable!)
*/
// 27-Mar-2015, tatu: As per [databind#735], avoid caching types with custom value desers
boolean addToCache = !_hasCustomValueHandler(type) && deser.isCachable();
/* we will temporarily hold on to all created deserializers (to
* handle cyclic references, and possibly reuse non-cached
* deserializers (list, map))
*/
/* 07-Jun-2010, tatu: Danger: [JACKSON-296] was caused by accidental
* resolution of a reference -- couple of ways to prevent this;
* either not add Lists or Maps, or clear references eagerly.
* Let's actually do both; since both seem reasonable.
*/
/* Need to resolve? Mostly done for bean deserializers; required for
* resolving cyclic references.
*/
if (deser instanceof ResolvableDeserializer) {
_incompleteDeserializers.put(type, deser);
((ResolvableDeserializer)deser).resolve(ctxt);
_incompleteDeserializers.remove(type);
}
if (addToCache) {
_cachedDeserializers.put(type, deser);
}
return deser;
}
/*
/**********************************************************
/* Helper methods for actual construction of deserializers
/**********************************************************
*/
/**
* Method that does the heavy lifting of checking for per-type annotations,
* find out full type, and figure out which actual factory method
* to call.
*/
@SuppressWarnings("unchecked")
protected JsonDeserializer<Object> _createDeserializer(DeserializationContext ctxt,
DeserializerFactory factory, JavaType type)
throws JsonMappingException
{
final DeserializationConfig config = ctxt.getConfig();
// First things first: do we need to use abstract type mapping?
if (type.isAbstract() || type.isMapLikeType() || type.isCollectionLikeType()) {
type = factory.mapAbstractType(config, type);
}
BeanDescription beanDesc = config.introspect(type);
// Then: does type define explicit deserializer to use, with annotation(s)?
JsonDeserializer<Object> deser = findDeserializerFromAnnotation(ctxt,
beanDesc.getClassInfo());
if (deser != null) {
return deser;
}
// If not, may have further type-modification annotations to check:
JavaType newType = modifyTypeByAnnotation(ctxt, beanDesc.getClassInfo(), type);
if (newType != type) {
type = newType;
beanDesc = config.introspect(newType);
}
// We may also have a Builder type to consider...
Class<?> builder = beanDesc.findPOJOBuilder();
if (builder != null) {
return (JsonDeserializer<Object>) factory.createBuilderBasedDeserializer(
ctxt, type, beanDesc, builder);
}
// Or perhaps a Converter?
Converter<Object,Object> conv = beanDesc.findDeserializationConverter();
if (conv == null) { // nope, just construct in normal way
return (JsonDeserializer<Object>) _createDeserializer2(ctxt, factory, type, beanDesc);
}
// otherwise need to do bit of introspection
JavaType delegateType = conv.getInputType(ctxt.getTypeFactory());
// One more twist, as per [databind#288]; probably need to get new BeanDesc
if (!delegateType.hasRawClass(type.getRawClass())) {
beanDesc = config.introspect(delegateType);
}
return new StdDelegatingDeserializer<Object>(conv, delegateType,
_createDeserializer2(ctxt, factory, delegateType, beanDesc));
}
protected JsonDeserializer<?> _createDeserializer2(DeserializationContext ctxt,
DeserializerFactory factory, JavaType type, BeanDescription beanDesc)
throws JsonMappingException
{
final DeserializationConfig config = ctxt.getConfig();
// If not, let's see which factory method to use:
if (type.isEnumType()) {
return factory.createEnumDeserializer(ctxt, type, beanDesc);
}
if (type.isContainerType()) {
if (type.isArrayType()) {
return factory.createArrayDeserializer(ctxt, (ArrayType) type, beanDesc);
}
if (type.isMapLikeType()) {
// 11-Mar-2017, tatu: As per [databind#1554], also need to block
// handling as Map if overriden with "as POJO" option.
// Ideally we'd determine it bit later on (to allow custom handler checks)
// but that won't work for other reasons. So do it here.
// (read: rewrite for 3.0)
JsonFormat.Value format = beanDesc.findExpectedFormat(null);
if ((format == null) || format.getShape() != JsonFormat.Shape.OBJECT) {
MapLikeType mlt = (MapLikeType) type;
if (mlt.isTrueMapType()) {
return factory.createMapDeserializer(ctxt,(MapType) mlt, beanDesc);
}
return factory.createMapLikeDeserializer(ctxt, mlt, beanDesc);
}
}
if (type.isCollectionLikeType()) {
/* 03-Aug-2012, tatu: As per [databind#40], one exception is if shape
* is to be Shape.OBJECT. Ideally we'd determine it bit later on
* (to allow custom handler checks), but that won't work for other
* reasons. So do it here.
*/
JsonFormat.Value format = beanDesc.findExpectedFormat(null);
if ((format == null) || format.getShape() != JsonFormat.Shape.OBJECT) {
CollectionLikeType clt = (CollectionLikeType) type;
if (clt.isTrueCollectionType()) {
return factory.createCollectionDeserializer(ctxt, (CollectionType) clt, beanDesc);
}
return factory.createCollectionLikeDeserializer(ctxt, clt, beanDesc);
}
}
}
if (type.isReferenceType()) {
return factory.createReferenceDeserializer(ctxt, (ReferenceType) type, beanDesc);
}
if (JsonNode.class.isAssignableFrom(type.getRawClass())) {
return factory.createTreeDeserializer(config, type, beanDesc);
}
return factory.createBeanDeserializer(ctxt, type, beanDesc);
}
/**
* Helper method called to check if a class or method
* has annotation that tells which class to use for deserialization.
* Returns null if no such annotation found.
*/
protected JsonDeserializer<Object> findDeserializerFromAnnotation(DeserializationContext ctxt,
Annotated ann)
throws JsonMappingException
{
Object deserDef = ctxt.getAnnotationIntrospector().findDeserializer(ann);
if (deserDef == null) {
return null;
}
JsonDeserializer<Object> deser = ctxt.deserializerInstance(ann, deserDef);
// One more thing however: may need to also apply a converter:
return findConvertingDeserializer(ctxt, ann, deser);
}
/**
* Helper method that will check whether given annotated entity (usually class,
* but may also be a property accessor) indicates that a {@link Converter} is to
* be used; and if so, to construct and return suitable serializer for it.
* If not, will simply return given serializer as is.
*/
protected JsonDeserializer<Object> findConvertingDeserializer(DeserializationContext ctxt,
Annotated a, JsonDeserializer<Object> deser)
throws JsonMappingException
{
Converter<Object,Object> conv = findConverter(ctxt, a);
if (conv == null) {
return deser;
}
JavaType delegateType = conv.getInputType(ctxt.getTypeFactory());
return (JsonDeserializer<Object>) new StdDelegatingDeserializer<Object>(conv, delegateType, deser);
}
protected Converter<Object,Object> findConverter(DeserializationContext ctxt,
Annotated a)
throws JsonMappingException
{
Object convDef = ctxt.getAnnotationIntrospector().findDeserializationConverter(a);
if (convDef == null) {
return null;
}
return ctxt.converterInstance(a, convDef);
}
/**
* Method called to see if given method has annotations that indicate
* a more specific type than what the argument specifies.
* If annotations are present, they must specify compatible Class;
* instance of which can be assigned using the method. This means
* that the Class has to be raw class of type, or its sub-class
* (or, implementing class if original Class instance is an interface).
*
* @param a Method or field that the type is associated with
* @param type Type derived from the setter argument
*
* @return Original type if no annotations are present; or a more
* specific type derived from it if type annotation(s) was found
*
* @throws JsonMappingException if invalid annotation is found
*/
private JavaType modifyTypeByAnnotation(DeserializationContext ctxt,
Annotated a, JavaType type)
throws JsonMappingException
{
AnnotationIntrospector intr = ctxt.getAnnotationIntrospector();
if (intr == null) {
return type;
}
// First things first: find explicitly annotated deserializer(s)
// then key/value handlers (annotated deserializers)?
if (type.isMapLikeType()) {
JavaType keyType = type.getKeyType();
// 21-Mar-2011, tatu: ... and associated deserializer too (unless already assigned)
// (not 100% why or how, but this does seem to get called more than once, which
// is not good: for now, let's just avoid errors)
if (keyType != null && keyType.getValueHandler() == null) {
Object kdDef = intr.findKeyDeserializer(a);
if (kdDef != null) {
KeyDeserializer kd = ctxt.keyDeserializerInstance(a, kdDef);
if (kd != null) {
type = ((MapLikeType) type).withKeyValueHandler(kd);
keyType = type.getKeyType(); // just in case it's used below
}
}
}
}
JavaType contentType = type.getContentType();
if (contentType != null) {
if (contentType.getValueHandler() == null) { // as with above, avoid resetting (which would trigger exception)
Object cdDef = intr.findContentDeserializer(a);
if (cdDef != null) {
JsonDeserializer<?> cd = null;
if (cdDef instanceof JsonDeserializer<?>) {
cdDef = (JsonDeserializer<?>) cdDef;
} else {
Class<?> cdClass = _verifyAsClass(cdDef, "findContentDeserializer", JsonDeserializer.None.class);
if (cdClass != null) {
cd = ctxt.deserializerInstance(a, cdClass);
}
}
if (cd != null) {
type = type.withContentValueHandler(cd);
}
}
}
}
// And after handlers, possible type refinements
// (note: could possibly avoid this if explicit deserializer was invoked?)
type = intr.refineDeserializationType(ctxt.getConfig(), a, type);
return type;
}
/*
/**********************************************************
/* Helper methods, other
/**********************************************************
*/
/**
* Helper method used to prevent both caching and cache lookups for structured
* types that have custom value handlers
*
* @since 2.4.6
*/
private boolean _hasCustomValueHandler(JavaType t) {
if (t.isContainerType()) {
JavaType ct = t.getContentType();
if (ct != null) {
return (ct.getValueHandler() != null) || (ct.getTypeHandler() != null);
}
}
return false;
}
private Class<?> _verifyAsClass(Object src, String methodName, Class<?> noneClass)
{
if (src == null) {
return null;
}
if (!(src instanceof Class)) {
throw new IllegalStateException("AnnotationIntrospector."+methodName+"() returned value of type "+src.getClass().getName()+": expected type JsonSerializer or Class<JsonSerializer> instead");
}
Class<?> cls = (Class<?>) src;
if (cls == noneClass || ClassUtil.isBogusClass(cls)) {
return null;
}
return cls;
}
/*
/**********************************************************
/* Overridable error reporting methods
/**********************************************************
*/
protected JsonDeserializer<Object> _handleUnknownValueDeserializer(DeserializationContext ctxt, JavaType type)
throws JsonMappingException
{
// Let's try to figure out the reason, to give better error messages
Class<?> rawClass = type.getRawClass();
if (!ClassUtil.isConcrete(rawClass)) {
return ctxt.reportBadDefinition(type, "Can not find a Value deserializer for abstract type "+type);
}
return ctxt.reportBadDefinition(type, "Can not find a Value deserializer for type "+type);
}
protected KeyDeserializer _handleUnknownKeyDeserializer(DeserializationContext ctxt, JavaType type)
throws JsonMappingException
{
return ctxt.reportBadDefinition(type, "Can not find a (Map) Key deserializer for type "+type);
}
}