Example 41 with NoSuchNodeTypeException
use of javax.jcr.nodetype.NoSuchNodeTypeException in project jackrabbit by apache.
the class NodeTypeRegistry method checkForCircularNodeAutoCreation.
static void checkForCircularNodeAutoCreation(EffectiveNodeType childNodeENT, Stack<Name> definingParentNTs, EffectiveNodeTypeCache anEntCache, Map<Name, QNodeTypeDefinition> ntDefCache) throws InvalidNodeTypeDefException {
// check for circularity through default node types of auto-created child nodes
// (node type 'a' defines auto-created child node with default node type 'a')
Name[] childNodeNTs = childNodeENT.getAllNodeTypes();
for (Name nt : childNodeNTs) {
int pos = definingParentNTs.lastIndexOf(nt);
if (pos >= 0) {
StringBuilder buf = new StringBuilder();
for (int j = 0; j < definingParentNTs.size(); j++) {
if (j == pos) {
buf.append("--> ");
}
buf.append("node type ");
buf.append(definingParentNTs.get(j));
buf.append(" defines auto-created child node with default ");
}
buf.append("--> ");
buf.append("node type ");
buf.append(nt);
throw new InvalidNodeTypeDefException("circular node auto-creation detected: " + buf.toString());
}
}
QNodeDefinition[] nodeDefs = childNodeENT.getAutoCreateNodeDefs();
for (QNodeDefinition nodeDef : nodeDefs) {
Name dnt = nodeDef.getDefaultPrimaryType();
Name definingNT = nodeDef.getDeclaringNodeType();
try {
if (dnt != null) {
// check recursively
definingParentNTs.push(definingNT);
checkForCircularNodeAutoCreation(getEffectiveNodeType(dnt, anEntCache, ntDefCache), definingParentNTs, anEntCache, ntDefCache);
definingParentNTs.pop();
}
} catch (NoSuchNodeTypeException nsnte) {
String msg = definingNT + " defines invalid default node type for child node " + nodeDef.getName();
log.debug(msg);
throw new InvalidNodeTypeDefException(msg, nsnte);
}
}
}
Also used :
QNodeDefinition(org.apache.jackrabbit.spi.QNodeDefinition)
QValueConstraint(org.apache.jackrabbit.spi.QValueConstraint)
Name(org.apache.jackrabbit.spi.Name)
NoSuchNodeTypeException(javax.jcr.nodetype.NoSuchNodeTypeException)
Example 42 with NoSuchNodeTypeException
use of javax.jcr.nodetype.NoSuchNodeTypeException in project jackrabbit by apache.
the class NodeTypeRegistry method unregisterNodeTypes.
/**
* Internal implementation of {@link #unregisterNodeTypes(Set)}
*
* @param ntNames a collection of <code>Name</code> objects denoting the
* node types to be unregistered
* @param external whether this invocation should be considered external
* @throws NoSuchNodeTypeException if any of the specified names does not
* denote a registered node type.
* @throws RepositoryException if another error occurs
*/
private void unregisterNodeTypes(Collection<Name> ntNames, boolean external) throws NoSuchNodeTypeException, RepositoryException {
synchronized (this) {
// do some preliminary checks
for (Name ntName : ntNames) {
if (!registeredNTDefs.containsKey(ntName)) {
throw new NoSuchNodeTypeException(ntName.toString());
}
if (builtInNTDefs.contains(ntName)) {
throw new RepositoryException(ntName.toString() + ": can't unregister built-in node type.");
}
// check for node types other than those to be unregistered
// that depend on the given node types
Set<Name> dependents = getDependentNodeTypes(ntName);
dependents.removeAll(ntNames);
if (dependents.size() > 0) {
StringBuilder msg = new StringBuilder();
msg.append(ntName).append(" can not be removed because the following node types depend on it: ");
for (Name dependent : dependents) {
msg.append(dependent);
msg.append(" ");
}
throw new RepositoryException(msg.toString());
}
}
// make sure node types are not currently in use
for (Name ntName : ntNames) {
checkForReferencesInContent(ntName);
}
// all preconditions are met, node types can now safely be unregistered
internalUnregister(ntNames);
// persist removal of node type definitions & notify listeners
for (Name ntName : ntNames) {
customNTDefs.remove(ntName);
}
notifyUnregistered(ntNames);
persistCustomNodeTypeDefs(customNTDefs);
}
// inform cluster if this is not an external invocation
if (!external && eventChannel != null) {
eventChannel.unregistered(ntNames);
}
}
Also used :
RepositoryException(javax.jcr.RepositoryException)
Name(org.apache.jackrabbit.spi.Name)
NoSuchNodeTypeException(javax.jcr.nodetype.NoSuchNodeTypeException)
Example 43 with NoSuchNodeTypeException
use of javax.jcr.nodetype.NoSuchNodeTypeException in project jackrabbit by apache.
the class NodeTypeRegistry method validateNodeTypeDef.
/**
* Validates the specified <code>NodeTypeDef</code> within the context of
* the two other given collections and returns an <code>EffectiveNodeType</code>.
*
* @param ntd node type definition
* @param entCache effective node type cache
* @param ntdCache cache of 'known' node type definitions, used to resolve dependencies
* @param nsReg namespace registry used for validatingatch names
* @param lenient flag governing whether validation can be lenient or has to be strict
* @return an effective node type representation of the specified <code>QNodeTypeDefinition</code>
* @throws InvalidNodeTypeDefException if the node type is not valid
* @throws RepositoryException if another error occurs
*/
private static EffectiveNodeType validateNodeTypeDef(QNodeTypeDefinition ntd, EffectiveNodeTypeCache entCache, Map<Name, QNodeTypeDefinition> ntdCache, NamespaceRegistry nsReg, boolean lenient) throws InvalidNodeTypeDefException, RepositoryException {
/**
* the effective (i.e. merged and resolved) node type resulting from
* the specified node type definition;
* the effective node type will finally be created after the definition
* has been verified and checked for conflicts etc.; in some cases it
* will be created already at an earlier stage during the validation
* of child node definitions
*/
EffectiveNodeType ent = null;
Name name = ntd.getName();
if (name == null) {
String msg = "no name specified";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg);
}
checkNamespace(name, nsReg);
// validate supertypes
Name[] supertypes = ntd.getSupertypes();
if (supertypes.length > 0) {
for (Name supertype : supertypes) {
checkNamespace(supertype, nsReg);
/**
* simple check for infinite recursion
* (won't trap recursion on a deeper inheritance level)
*/
if (name.equals(supertype)) {
String msg = "[" + name + "] invalid supertype: " + supertype + " (infinite recursion))";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg);
}
if (!ntdCache.containsKey(supertype)) {
String msg = "[" + name + "] invalid supertype: " + supertype;
log.debug(msg);
throw new InvalidNodeTypeDefException(msg);
}
}
/**
* check for circularity in inheritance chain
* ('a' extends 'b' extends 'a')
*/
Stack<Name> inheritanceChain = new Stack<Name>();
inheritanceChain.push(name);
checkForCircularInheritance(supertypes, inheritanceChain, ntdCache);
}
/**
* build effective (i.e. merged and resolved) node type from supertypes
* and check for conflicts
*/
if (supertypes.length > 0) {
try {
EffectiveNodeType est = getEffectiveNodeType(supertypes, entCache, ntdCache);
// a supertypes's primaryItem -> illegal (JCR-1947)
if (ntd.getPrimaryItemName() != null && est.getPrimaryItemName() != null) {
String msg = "[" + name + "] primaryItemName is already specified by a supertype and must therefore not be overridden.";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg);
}
} catch (NodeTypeConflictException ntce) {
String msg = "[" + name + "] failed to validate supertypes";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg, ntce);
} catch (NoSuchNodeTypeException nsnte) {
String msg = "[" + name + "] failed to validate supertypes";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg, nsnte);
}
}
checkNamespace(ntd.getPrimaryItemName(), nsReg);
// validate property definitions
QPropertyDefinition[] pda = ntd.getPropertyDefs();
for (QPropertyDefinition pd : pda) {
/**
* sanity check:
* make sure declaring node type matches name of node type definition
*/
if (!name.equals(pd.getDeclaringNodeType())) {
String msg = "[" + name + "#" + pd.getName() + "] invalid declaring node type specified";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg);
}
checkNamespace(pd.getName(), nsReg);
// check that auto-created properties specify a name
if (pd.definesResidual() && pd.isAutoCreated()) {
String msg = "[" + name + "#" + pd.getName() + "] auto-created properties must specify a name";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg);
}
// check that auto-created properties specify a type
if (pd.getRequiredType() == PropertyType.UNDEFINED && pd.isAutoCreated()) {
String msg = "[" + name + "#" + pd.getName() + "] auto-created properties must specify a type";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg);
}
/**
* check default values:
* make sure type of value is consistent with required property type
*/
QValue[] defVals = pd.getDefaultValues();
if (defVals != null && defVals.length != 0) {
int reqType = pd.getRequiredType();
for (QValue defVal : defVals) {
if (reqType == PropertyType.UNDEFINED) {
reqType = defVal.getType();
} else {
if (defVal.getType() != reqType) {
String msg = "[" + name + "#" + pd.getName() + "] type of default value(s) is not consistent with required property type";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg);
}
}
}
} else {
// no default values specified
if (!lenient) {
// auto-created properties must have a default value
if (pd.isAutoCreated()) {
String msg = "[" + name + "#" + pd.getName() + "] auto-created property must have a default value";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg);
}
}
}
// check that default values satisfy value constraints
QValueConstraint[] constraints = pd.getValueConstraints();
if (constraints != null && constraints.length > 0) {
if (defVals != null && defVals.length > 0) {
// check value constraints on every value
for (QValue defVal : defVals) {
// constraints are OR-ed together
boolean satisfied = false;
ConstraintViolationException cve = null;
for (QValueConstraint constraint : constraints) {
try {
constraint.check(defVal);
// at least one constraint is satisfied
satisfied = true;
break;
} catch (ConstraintViolationException e) {
cve = e;
}
}
if (!satisfied) {
// report last exception we encountered
String msg = "[" + name + "#" + pd.getName() + "] default value does not satisfy value constraint";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg, cve);
}
}
}
/**
* ReferenceConstraint:
* the specified node type must be registered, with one notable
* exception: the node type just being registered
*/
if (pd.getRequiredType() == PropertyType.REFERENCE || pd.getRequiredType() == PropertyType.WEAKREFERENCE) {
for (QValueConstraint constraint : constraints) {
Name ntName = NameFactoryImpl.getInstance().create(constraint.getString());
if (!name.equals(ntName) && !ntdCache.containsKey(ntName)) {
String msg = "[" + name + "#" + pd.getName() + "] invalid " + (pd.getRequiredType() == PropertyType.REFERENCE ? "REFERENCE" : "WEAKREFERENCE") + " value constraint '" + ntName + "' (unknown node type)";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg);
}
}
}
}
}
// validate child-node definitions
QNodeDefinition[] cnda = ntd.getChildNodeDefs();
for (QNodeDefinition cnd : cnda) {
/**
* sanity check:
* make sure declaring node type matches name of node type definition
*/
if (!name.equals(cnd.getDeclaringNodeType())) {
String msg = "[" + name + "#" + cnd.getName() + "] invalid declaring node type specified";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg);
}
checkNamespace(cnd.getName(), nsReg);
// check that auto-created child-nodes specify a name
if (cnd.definesResidual() && cnd.isAutoCreated()) {
String msg = "[" + name + "#" + cnd.getName() + "] auto-created child-nodes must specify a name";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg);
}
// check that auto-created child-nodes specify a default primary type
if (cnd.getDefaultPrimaryType() == null && cnd.isAutoCreated()) {
String msg = "[" + name + "#" + cnd.getName() + "] auto-created child-nodes must specify a default primary type";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg);
}
// check default primary type
Name dpt = cnd.getDefaultPrimaryType();
checkNamespace(dpt, nsReg);
boolean referenceToSelf = false;
EffectiveNodeType defaultENT = null;
if (dpt != null) {
// check if this node type specifies itself as default primary type
if (name.equals(dpt)) {
referenceToSelf = true;
}
/**
* the default primary type must be registered, with one notable
* exception: the node type just being registered
*/
if (!name.equals(dpt) && !ntdCache.containsKey(dpt)) {
String msg = "[" + name + "#" + cnd.getName() + "] invalid default primary type '" + dpt + "'";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg);
}
/**
* build effective (i.e. merged and resolved) node type from
* default primary type and check for conflicts
*/
try {
if (!referenceToSelf) {
defaultENT = getEffectiveNodeType(dpt, entCache, ntdCache);
} else {
/**
* the default primary type is identical with the node
* type just being registered; we have to instantiate it
* 'manually'
*/
ent = EffectiveNodeType.create(ntd, entCache, ntdCache);
defaultENT = ent;
}
if (cnd.isAutoCreated()) {
/**
* check for circularity through default primary types
* of auto-created child nodes (node type 'a' defines
* auto-created child node with default primary type 'a')
*/
Stack<Name> definingNTs = new Stack<Name>();
definingNTs.push(name);
checkForCircularNodeAutoCreation(defaultENT, definingNTs, entCache, ntdCache);
}
} catch (NodeTypeConflictException ntce) {
String msg = "[" + name + "#" + cnd.getName() + "] failed to validate default primary type";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg, ntce);
} catch (NoSuchNodeTypeException nsnte) {
String msg = "[" + name + "#" + cnd.getName() + "] failed to validate default primary type";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg, nsnte);
}
}
// check required primary types
Name[] reqTypes = cnd.getRequiredPrimaryTypes();
if (reqTypes != null && reqTypes.length > 0) {
for (Name rpt : reqTypes) {
// skip nt:base required types
if (NameConstants.NT_BASE.equals(rpt)) {
continue;
}
checkNamespace(rpt, nsReg);
referenceToSelf = false;
/**
* check if this node type specifies itself as required
* primary type
*/
if (name.equals(rpt)) {
referenceToSelf = true;
}
/**
* the required primary type must be registered, with one
* notable exception: the node type just being registered
*/
if (!name.equals(rpt) && !ntdCache.containsKey(rpt)) {
String msg = "[" + name + "#" + cnd.getName() + "] invalid required primary type: " + rpt;
log.debug(msg);
throw new InvalidNodeTypeDefException(msg);
}
/**
* check if default primary type satisfies the required
* primary type constraint
*/
if (defaultENT != null && !defaultENT.includesNodeType(rpt)) {
String msg = "[" + name + "#" + cnd.getName() + "] default primary type does not satisfy required primary type constraint " + rpt;
log.debug(msg);
throw new InvalidNodeTypeDefException(msg);
}
/**
* build effective (i.e. merged and resolved) node type from
* required primary type constraint and check for conflicts
*/
try {
if (!referenceToSelf) {
getEffectiveNodeType(rpt, entCache, ntdCache);
} else {
/**
* the required primary type is identical with the
* node type just being registered; we have to
* instantiate it 'manually'
*/
if (ent == null) {
ent = EffectiveNodeType.create(ntd, entCache, ntdCache);
}
}
} catch (NodeTypeConflictException ntce) {
String msg = "[" + name + "#" + cnd.getName() + "] failed to validate required primary type constraint";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg, ntce);
} catch (NoSuchNodeTypeException nsnte) {
String msg = "[" + name + "#" + cnd.getName() + "] failed to validate required primary type constraint";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg, nsnte);
}
}
}
}
/**
* now build effective (i.e. merged and resolved) node type from
* this node type definition; this will potentially detect more
* conflicts or problems
*/
if (ent == null) {
try {
ent = EffectiveNodeType.create(ntd, entCache, ntdCache);
} catch (NodeTypeConflictException ntce) {
String msg = "[" + name + "] failed to resolve node type definition";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg, ntce);
} catch (NoSuchNodeTypeException nsnte) {
String msg = "[" + name + "] failed to resolve node type definition";
log.debug(msg);
throw new InvalidNodeTypeDefException(msg, nsnte);
}
}
return ent;
}
Also used :
QValue(org.apache.jackrabbit.spi.QValue)
QValueConstraint(org.apache.jackrabbit.spi.QValueConstraint)
QNodeDefinition(org.apache.jackrabbit.spi.QNodeDefinition)
QValueConstraint(org.apache.jackrabbit.spi.QValueConstraint)
Name(org.apache.jackrabbit.spi.Name)
Stack(java.util.Stack)
NoSuchNodeTypeException(javax.jcr.nodetype.NoSuchNodeTypeException)
QPropertyDefinition(org.apache.jackrabbit.spi.QPropertyDefinition)
ConstraintViolationException(javax.jcr.nodetype.ConstraintViolationException)
Example 44 with NoSuchNodeTypeException
use of javax.jcr.nodetype.NoSuchNodeTypeException in project jackrabbit by apache.
the class NodeTypeRegistry method getEffectiveNodeType.
/**
* @param ntName node type name
* @param entCache cache of already-built effective node types
* @param ntdCache cache of node type definitions
* @return the effective node type
* @throws NoSuchNodeTypeException if a node type reference (e.g. a supertype)
* could not be resolved.
*/
static EffectiveNodeType getEffectiveNodeType(Name ntName, EffectiveNodeTypeCache entCache, Map<Name, QNodeTypeDefinition> ntdCache) throws NoSuchNodeTypeException {
// 1. check if effective node type has already been built
EffectiveNodeTypeCache.Key key = entCache.getKey(new Name[] { ntName });
EffectiveNodeType ent = entCache.get(key);
if (ent != null) {
return ent;
}
// 2. make sure we've got the definition of the specified node type
QNodeTypeDefinition ntd = ntdCache.get(ntName);
if (ntd == null) {
throw new NoSuchNodeTypeException(ntName.toString());
}
// 3. build effective node type
synchronized (entCache) {
try {
ent = EffectiveNodeType.create(ntd, entCache, ntdCache);
// store new effective node type
entCache.put(ent);
return ent;
} catch (NodeTypeConflictException ntce) {
// should never get here as all known node types should be valid!
String msg = "internal error: encountered invalid registered node type " + ntName;
log.debug(msg);
throw new NoSuchNodeTypeException(msg, ntce);
}
}
}
Also used :
QNodeTypeDefinition(org.apache.jackrabbit.spi.QNodeTypeDefinition)
NoSuchNodeTypeException(javax.jcr.nodetype.NoSuchNodeTypeException)
Example 45 with NoSuchNodeTypeException
use of javax.jcr.nodetype.NoSuchNodeTypeException in project jackrabbit by apache.
the class EventState method getNodeTypes.
/**
* Returns the <code>Set</code> of {@link javax.jcr.nodetype.NodeType}s
* assigned to the parent node associated with this event. This
* <code>Set</code> includes the primary type as well as all the mixin types
* assigned to the parent node.
*
* @return <code>Set</code> of {@link javax.jcr.nodetype.NodeType}s.
*/
public Set<NodeType> getNodeTypes(NodeTypeManagerImpl ntMgr) {
if (allTypes == null) {
Set<NodeType> tmp = new HashSet<NodeType>();
try {
tmp.add(ntMgr.getNodeType(nodeType));
} catch (NoSuchNodeTypeException e) {
log.warn("Unknown node type: " + nodeType);
}
Iterator<Name> it = mixins.iterator();
while (it.hasNext()) {
Name mixinName = it.next();
try {
tmp.add(ntMgr.getNodeType(mixinName));
} catch (NoSuchNodeTypeException e) {
log.warn("Unknown node type: " + mixinName);
}
}
allTypes = Collections.unmodifiableSet(tmp);
}
return allTypes;
}
Also used :
NodeType(javax.jcr.nodetype.NodeType)
HashSet(java.util.HashSet)
NoSuchNodeTypeException(javax.jcr.nodetype.NoSuchNodeTypeException)
Name(org.apache.jackrabbit.spi.Name)
Aggregations
NoSuchNodeTypeException (javax.jcr.nodetype.NoSuchNodeTypeException)47
Name (org.apache.jackrabbit.spi.Name)16
NodeType (javax.jcr.nodetype.NodeType)15
RepositoryException (javax.jcr.RepositoryException)11
Node (javax.jcr.Node)10
QNodeTypeDefinition (org.apache.jackrabbit.spi.QNodeTypeDefinition)9
NodeTypeManager (javax.jcr.nodetype.NodeTypeManager)8
Session (javax.jcr.Session)7
ConstraintViolationException (javax.jcr.nodetype.ConstraintViolationException)7
NotExecutableException (org.apache.jackrabbit.test.NotExecutableException)7
HashSet (java.util.HashSet)5
Tree (org.apache.jackrabbit.oak.api.Tree)4
QNodeDefinition (org.apache.jackrabbit.spi.QNodeDefinition)4
QValueConstraint (org.apache.jackrabbit.spi.QValueConstraint)4
MetadataRepositoryException (com.thinkbiganalytics.metadata.modeshape.MetadataRepositoryException)3
QPropertyDefinition (org.apache.jackrabbit.spi.QPropertyDefinition)3
ValueConstraint (org.apache.jackrabbit.spi.commons.nodetype.constraint.ValueConstraint)3
InputStreamReader (java.io.InputStreamReader)2
Reader (java.io.Reader)2
Stack (java.util.Stack)2
