import com.google.common.base.Optional;
import com.google.common.base.Preconditions;
-
import java.util.List;
-
import org.opendaylight.yangtools.yang.common.QName;
import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier;
import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier.AugmentationIdentifier;
-import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier.NodeIdentifier;
import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier.PathArgument;
-import org.opendaylight.yangtools.yang.data.api.schema.NormalizedNode;
import org.opendaylight.yangtools.yang.data.api.schema.tree.ConflictingModificationAppliedException;
import org.opendaylight.yangtools.yang.data.api.schema.tree.DataValidationFailedException;
-import org.opendaylight.yangtools.yang.data.api.schema.tree.IncorrectDataStructureException;
import org.opendaylight.yangtools.yang.data.api.schema.tree.ModificationType;
+import org.opendaylight.yangtools.yang.data.api.schema.tree.TreeType;
import org.opendaylight.yangtools.yang.data.api.schema.tree.spi.TreeNode;
-import org.opendaylight.yangtools.yang.data.api.schema.tree.spi.TreeNodeFactory;
import org.opendaylight.yangtools.yang.data.api.schema.tree.spi.Version;
import org.opendaylight.yangtools.yang.model.api.AugmentationSchema;
import org.opendaylight.yangtools.yang.model.api.AugmentationTarget;
-import org.opendaylight.yangtools.yang.model.api.ChoiceNode;
+import org.opendaylight.yangtools.yang.model.api.ChoiceSchemaNode;
import org.opendaylight.yangtools.yang.model.api.ContainerSchemaNode;
import org.opendaylight.yangtools.yang.model.api.DataNodeContainer;
import org.opendaylight.yangtools.yang.model.api.DataSchemaNode;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
-abstract class SchemaAwareApplyOperation implements ModificationApplyOperation {
+abstract class SchemaAwareApplyOperation extends ModificationApplyOperation {
private static final Logger LOG = LoggerFactory.getLogger(SchemaAwareApplyOperation.class);
- public static SchemaAwareApplyOperation from(final DataSchemaNode schemaNode) {
+ public static ModificationApplyOperation from(final DataSchemaNode schemaNode, final TreeType treeType) {
+ if (treeType == TreeType.CONFIGURATION) {
+ Preconditions.checkArgument(schemaNode.isConfiguration(), "Supplied %s does not belongs to configuration tree.", schemaNode.getPath());
+ }
if (schemaNode instanceof ContainerSchemaNode) {
- return new DataNodeContainerModificationStrategy.ContainerModificationStrategy((ContainerSchemaNode) schemaNode);
+ final ContainerSchemaNode containerSchema = (ContainerSchemaNode) schemaNode;
+ if (containerSchema.isPresenceContainer()) {
+ return new PresenceContainerModificationStrategy(containerSchema, treeType);
+ } else {
+ return new StructuralContainerModificationStrategy(containerSchema, treeType);
+ }
} else if (schemaNode instanceof ListSchemaNode) {
- return fromListSchemaNode((ListSchemaNode) schemaNode);
- } else if (schemaNode instanceof ChoiceNode) {
- return new NormalizedNodeContainerModificationStrategy.ChoiceModificationStrategy((ChoiceNode) schemaNode);
+ return fromListSchemaNode((ListSchemaNode) schemaNode, treeType);
+ } else if (schemaNode instanceof ChoiceSchemaNode) {
+ return new ChoiceModificationStrategy((ChoiceSchemaNode) schemaNode, treeType);
} else if (schemaNode instanceof LeafListSchemaNode) {
- return fromLeafListSchemaNode((LeafListSchemaNode) schemaNode);
+ return fromLeafListSchemaNode((LeafListSchemaNode) schemaNode, treeType);
} else if (schemaNode instanceof LeafSchemaNode) {
- return new ValueNodeModificationStrategy.LeafModificationStrategy((LeafSchemaNode) schemaNode);
+ return new LeafModificationStrategy((LeafSchemaNode) schemaNode, treeType);
}
throw new IllegalArgumentException("Not supported schema node type for " + schemaNode.getClass());
}
public static SchemaAwareApplyOperation from(final DataNodeContainer resolvedTree,
- final AugmentationTarget augSchemas, final AugmentationIdentifier identifier) {
- AugmentationSchema augSchema = null;
-
- allAugments:
- for (AugmentationSchema potential : augSchemas.getAvailableAugmentations()) {
- for (DataSchemaNode child : potential.getChildNodes()) {
- if (identifier.getPossibleChildNames().contains(child.getQName())) {
- augSchema = potential;
- break allAugments;
- }
+ final AugmentationTarget augSchemas, final AugmentationIdentifier identifier, final TreeType treeType) {
+ for (final AugmentationSchema potential : augSchemas.getAvailableAugmentations()) {
+ for (final DataSchemaNode child : potential.getChildNodes()) {
+ if (identifier.getPossibleChildNames().contains(child.getQName())) {
+ return new AugmentationModificationStrategy(potential, resolvedTree, treeType);
}
}
-
- if (augSchema != null) {
- return new DataNodeContainerModificationStrategy.AugmentationModificationStrategy(augSchema, resolvedTree);
}
+
return null;
}
return condition;
}
- private static SchemaAwareApplyOperation fromListSchemaNode(final ListSchemaNode schemaNode) {
- List<QName> keyDefinition = schemaNode.getKeyDefinition();
+ private static SchemaAwareApplyOperation fromListSchemaNode(final ListSchemaNode schemaNode, final TreeType treeType) {
+ final List<QName> keyDefinition = schemaNode.getKeyDefinition();
+ final SchemaAwareApplyOperation op;
if (keyDefinition == null || keyDefinition.isEmpty()) {
- return new UnkeyedListModificationStrategy(schemaNode);
- }
- if (schemaNode.isUserOrdered()) {
- return new NormalizedNodeContainerModificationStrategy.OrderedMapModificationStrategy(schemaNode);
+ op = new UnkeyedListModificationStrategy(schemaNode, treeType);
+ } else if (schemaNode.isUserOrdered()) {
+ op = new OrderedMapModificationStrategy(schemaNode, treeType);
+ } else {
+ op = new UnorderedMapModificationStrategy(schemaNode, treeType);
}
-
- return new NormalizedNodeContainerModificationStrategy.UnorderedMapModificationStrategy(schemaNode);
+ return MinMaxElementsValidation.from(op, schemaNode);
}
- private static SchemaAwareApplyOperation fromLeafListSchemaNode(final LeafListSchemaNode schemaNode) {
+ private static SchemaAwareApplyOperation fromLeafListSchemaNode(final LeafListSchemaNode schemaNode, final TreeType treeType) {
+ final SchemaAwareApplyOperation op;
if(schemaNode.isUserOrdered()) {
- return new NormalizedNodeContainerModificationStrategy.OrderedLeafSetModificationStrategy(schemaNode);
+ op = new OrderedLeafSetModificationStrategy(schemaNode, treeType);
} else {
- return new NormalizedNodeContainerModificationStrategy.UnorderedLeafSetModificationStrategy(schemaNode);
+ op = new UnorderedLeafSetModificationStrategy(schemaNode, treeType);
}
+ return MinMaxElementsValidation.from(op, schemaNode);
}
- private static final void checkNotConflicting(final YangInstanceIdentifier path, final TreeNode original, final TreeNode current) throws ConflictingModificationAppliedException {
+ protected static final void checkNotConflicting(final YangInstanceIdentifier path, final TreeNode original, final TreeNode current) throws ConflictingModificationAppliedException {
checkConflicting(path, original.getVersion().equals(current.getVersion()),
"Node was replaced by other transaction.");
checkConflicting(path, original.getSubtreeVersion().equals(current.getSubtreeVersion()),
}
protected final ModificationApplyOperation resolveChildOperation(final PathArgument child) {
- Optional<ModificationApplyOperation> potential = getChild(child);
+ final Optional<ModificationApplyOperation> potential = getChild(child);
Preconditions.checkArgument(potential.isPresent(), "Operation for child %s is not defined.", child);
return potential.get();
}
@Override
- public void verifyStructure(final ModifiedNode modification) throws IllegalArgumentException {
- if (modification.getType() == ModificationType.WRITE) {
- verifyWrittenStructure(modification.getWrittenValue());
- }
- }
-
- @Override
- public final void checkApplicable(final YangInstanceIdentifier path,final NodeModification modification, final Optional<TreeNode> current) throws DataValidationFailedException {
- switch (modification.getType()) {
+ final void checkApplicable(final YangInstanceIdentifier path,final NodeModification modification, final Optional<TreeNode> current, final Version version) throws DataValidationFailedException {
+ switch (modification.getOperation()) {
case DELETE:
checkDeleteApplicable(modification, current);
- case SUBTREE_MODIFIED:
- checkSubtreeModificationApplicable(path, modification, current);
- return;
+ break;
+ case TOUCH:
+ checkTouchApplicable(path, modification, current, version);
+ break;
case WRITE:
- checkWriteApplicable(path, modification, current);
- return;
+ checkWriteApplicable(path, modification, current, version);
+ break;
case MERGE:
- checkMergeApplicable(path, modification, current);
- return;
- case UNMODIFIED:
- return;
+ checkMergeApplicable(path, modification, current, version);
+ break;
+ case NONE:
+ break;
default:
- throw new UnsupportedOperationException("Suplied modification type "+ modification.getType()+ "is not supported.");
+ throw new UnsupportedOperationException("Suplied modification type "+ modification.getOperation()+ " is not supported.");
}
-
}
- protected void checkMergeApplicable(final YangInstanceIdentifier path, final NodeModification modification, final Optional<TreeNode> current) throws DataValidationFailedException {
- Optional<TreeNode> original = modification.getOriginal();
+ protected void checkMergeApplicable(final YangInstanceIdentifier path, final NodeModification modification,
+ final Optional<TreeNode> current, final Version version) throws DataValidationFailedException {
+ final Optional<TreeNode> original = modification.getOriginal();
if (original.isPresent() && current.isPresent()) {
/*
* We need to do conflict detection only and only if the value of leaf changed
}
}
- protected void checkWriteApplicable(final YangInstanceIdentifier path, final NodeModification modification, final Optional<TreeNode> current) throws DataValidationFailedException {
- Optional<TreeNode> original = modification.getOriginal();
+ /**
+ * Checks if write operation can be applied to current TreeNode.
+ * The operation checks if original tree node to which the modification is going to be applied exists and if
+ * current node in TreeNode structure exists.
+ *
+ * @param path Path from current node in TreeNode
+ * @param modification modification to apply
+ * @param current current node in TreeNode for modification to apply
+ * @throws DataValidationFailedException
+ */
+ protected void checkWriteApplicable(final YangInstanceIdentifier path, final NodeModification modification,
+ final Optional<TreeNode> current, final Version version) throws DataValidationFailedException {
+ final Optional<TreeNode> original = modification.getOriginal();
if (original.isPresent() && current.isPresent()) {
checkNotConflicting(path, original.get(), current.get());
} else if(original.isPresent()) {
throw new ConflictingModificationAppliedException(path,"Node was deleted by other transaction.");
+ } else if (current.isPresent()) {
+ throw new ConflictingModificationAppliedException(path, "Node was created by other transaction.");
}
}
- private void checkDeleteApplicable(final NodeModification modification, final Optional<TreeNode> current) {
+ private static void checkDeleteApplicable(final NodeModification modification, final Optional<TreeNode> current) {
// Delete is always applicable, we do not expose it to subclasses
- if (current.isPresent()) {
+ if (!current.isPresent()) {
LOG.trace("Delete operation turned to no-op on missing node {}", modification);
}
}
@Override
- public final Optional<TreeNode> apply(final ModifiedNode modification,
- final Optional<TreeNode> currentMeta, final Version version) {
+ protected ChildTrackingPolicy getChildPolicy() {
+ return ChildTrackingPolicy.UNORDERED;
+ }
- switch (modification.getType()) {
+ @Override
+ final Optional<TreeNode> apply(final ModifiedNode modification, final Optional<TreeNode> currentMeta, final Version version) {
+ switch (modification.getOperation()) {
case DELETE:
- return modification.storeSnapshot(Optional.<TreeNode> absent());
- case SUBTREE_MODIFIED:
- Preconditions.checkArgument(currentMeta.isPresent(), "Metadata not available for modification",
+ // Deletion of a non-existing node is a no-op, report it as such
+ modification.resolveModificationType(currentMeta.isPresent() ? ModificationType.DELETE : ModificationType.UNMODIFIED);
+ return modification.setSnapshot(Optional.<TreeNode> absent());
+ case TOUCH:
+ Preconditions.checkArgument(currentMeta.isPresent(), "Metadata not available for modification %s",
modification);
- return modification.storeSnapshot(Optional.of(applySubtreeChange(modification, currentMeta.get(),
+ return modification.setSnapshot(Optional.of(applyTouch(modification, currentMeta.get(),
version)));
case MERGE:
- if(currentMeta.isPresent()) {
- return modification.storeSnapshot(Optional.of(applyMerge(modification,currentMeta.get(), version)));
+ final TreeNode result;
+
+ // This is a slight optimization: a merge on a non-existing node equals to a write
+ if (currentMeta.isPresent()) {
+ result = applyMerge(modification, currentMeta.get(), version);
+ } else {
+ modification.resolveModificationType(ModificationType.WRITE);
+ result = applyWrite(modification, currentMeta, version);
}
- // intentional fall-through: if the node does not exist a merge is same as a write
+
+ return modification.setSnapshot(Optional.of(result));
case WRITE:
- return modification.storeSnapshot(Optional.of(applyWrite(modification, currentMeta, version)));
- case UNMODIFIED:
+ modification.resolveModificationType(ModificationType.WRITE);
+ return modification.setSnapshot(Optional.of(applyWrite(modification, currentMeta, version)));
+ case NONE:
+ modification.resolveModificationType(ModificationType.UNMODIFIED);
return currentMeta;
default:
throw new IllegalArgumentException("Provided modification type is not supported.");
}
}
- protected abstract TreeNode applyMerge(ModifiedNode modification,
- TreeNode currentMeta, Version version);
+ /**
+ * Apply a merge operation. Since the result of merge differs based on the data type
+ * being modified, implementations of this method are responsible for calling
+ * {@link ModifiedNode#resolveModificationType(ModificationType)} as appropriate.
+ *
+ * @param modification Modified node
+ * @param currentMeta Store Metadata Node on which NodeModification should be applied
+ * @param version New subtree version of parent node
+ * @return A sealed TreeNode representing applied operation.
+ */
+ protected abstract TreeNode applyMerge(ModifiedNode modification, TreeNode currentMeta, Version version);
- protected abstract TreeNode applyWrite(ModifiedNode modification,
- Optional<TreeNode> currentMeta, Version version);
+ protected abstract TreeNode applyWrite(ModifiedNode modification, Optional<TreeNode> currentMeta, Version version);
- protected abstract TreeNode applySubtreeChange(ModifiedNode modification,
- TreeNode currentMeta, Version version);
+ /**
+ * Apply a nested operation. Since there may not actually be a nested operation
+ * to be applied, implementations of this method are responsible for calling
+ * {@link ModifiedNode#resolveModificationType(ModificationType)} as appropriate.
+ *
+ * @param modification Modified node
+ * @param currentMeta Store Metadata Node on which NodeModification should be applied
+ * @param version New subtree version of parent node
+ * @return A sealed TreeNode representing applied operation.
+ */
+ protected abstract TreeNode applyTouch(ModifiedNode modification, TreeNode currentMeta, Version version);
/**
*
* @throws ConflictingModificationAppliedException If subtree was changed in conflicting way
* @throws IncorrectDataStructureException If subtree modification is not applicable (e.g. leaf node).
*/
- protected abstract void checkSubtreeModificationApplicable(YangInstanceIdentifier path, final NodeModification modification,
- final Optional<TreeNode> current) throws DataValidationFailedException;
-
- protected abstract void verifyWrittenStructure(NormalizedNode<?, ?> writtenValue);
-
- public static class UnkeyedListModificationStrategy extends SchemaAwareApplyOperation {
-
- private final Optional<ModificationApplyOperation> entryStrategy;
-
- protected UnkeyedListModificationStrategy(final ListSchemaNode schema) {
- entryStrategy = Optional.<ModificationApplyOperation> of(new DataNodeContainerModificationStrategy.UnkeyedListItemModificationStrategy(schema));
- }
+ protected abstract void checkTouchApplicable(YangInstanceIdentifier path, NodeModification modification,
+ Optional<TreeNode> current, Version version) throws DataValidationFailedException;
- @Override
- protected TreeNode applyMerge(final ModifiedNode modification, final TreeNode currentMeta,
- final Version version) {
- return applyWrite(modification, Optional.of(currentMeta), version);
- }
-
- @Override
- protected TreeNode applySubtreeChange(final ModifiedNode modification,
- final TreeNode currentMeta, final Version version) {
- throw new UnsupportedOperationException("UnkeyedList does not support subtree change.");
- }
-
- @Override
- protected TreeNode applyWrite(final ModifiedNode modification,
- final Optional<TreeNode> currentMeta, final Version version) {
- /*
- * FIXME: BUG-1258: This is inefficient: it needlessly creates index nodes for the entire subtree.
- * We can determine the depth into which metadata need to be created from the modification
- * -- if it does not have children, no need to bother with metadata.
- */
- return TreeNodeFactory.createTreeNode(modification.getWrittenValue(), version);
- }
-
- @Override
- public Optional<ModificationApplyOperation> getChild(final PathArgument child) {
- if (child instanceof NodeIdentifier) {
- return entryStrategy;
- }
- return Optional.absent();
- }
-
- @Override
- protected void verifyWrittenStructure(final NormalizedNode<?, ?> writtenValue) {
-
- }
-
- @Override
- protected void checkSubtreeModificationApplicable(final YangInstanceIdentifier path, final NodeModification modification,
- final Optional<TreeNode> current) throws IncorrectDataStructureException {
- throw new IncorrectDataStructureException(path, "Subtree modification is not allowed.");
- }
+ /**
+ * Checks if supplied schema node belong to specified Data Tree type. All nodes belong to the operational tree,
+ * nodes in configuration tree are marked as such.
+ *
+ * @param treeType Tree Type
+ * @param node Schema node
+ * @return
+ */
+ static boolean belongsToTree(final TreeType treeType, final DataSchemaNode node) {
+ return treeType == TreeType.OPERATIONAL || node.isConfiguration();
}
}