*/
package org.opendaylight.yangtools.yang.data.impl.schema.tree;
-import com.google.common.base.Optional;
-import com.google.common.base.Preconditions;
-import org.opendaylight.yangtools.yang.data.api.InstanceIdentifier;
-import org.opendaylight.yangtools.yang.data.api.InstanceIdentifier.PathArgument;
+import java.util.Map.Entry;
+
+import javax.annotation.concurrent.GuardedBy;
+
+import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier;
+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.NormalizedNodeContainer;
import org.opendaylight.yangtools.yang.data.api.schema.tree.DataTreeModification;
import org.opendaylight.yangtools.yang.data.api.schema.tree.ModificationType;
import org.opendaylight.yangtools.yang.data.api.schema.tree.spi.TreeNode;
+import org.opendaylight.yangtools.yang.data.api.schema.tree.spi.Version;
import org.opendaylight.yangtools.yang.data.impl.schema.NormalizedNodeUtils;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
-import javax.annotation.concurrent.GuardedBy;
-import java.util.Map.Entry;
+import com.google.common.base.Optional;
+import com.google.common.base.Preconditions;
final class InMemoryDataTreeModification implements DataTreeModification {
private static final Logger LOG = LoggerFactory.getLogger(InMemoryDataTreeModification.class);
- private final ModificationApplyOperation strategyTree;
+ private final RootModificationApplyOperation strategyTree;
private final InMemoryDataTreeSnapshot snapshot;
private final ModifiedNode rootNode;
+ private final Version version;
@GuardedBy("this")
private boolean sealed = false;
- InMemoryDataTreeModification(final InMemoryDataTreeSnapshot snapshot, final ModificationApplyOperation resolver) {
+ InMemoryDataTreeModification(final InMemoryDataTreeSnapshot snapshot, final RootModificationApplyOperation resolver) {
this.snapshot = Preconditions.checkNotNull(snapshot);
- this.strategyTree = Preconditions.checkNotNull(resolver);
- this.rootNode = ModifiedNode.createUnmodified(snapshot.getRootNode());
+ this.strategyTree = Preconditions.checkNotNull(resolver).snapshot();
+ this.rootNode = ModifiedNode.createUnmodified(snapshot.getRootNode(), false);
+ /*
+ * We could allocate version beforehand, since Version contract
+ * states two allocated version must be allways different.
+ *
+ * Preallocating version simplifies scenarios such as
+ * chaining of modifications, since version for particular
+ * node in modification and in data tree (if successfully
+ * commited) will be same and will not change.
+ *
+ */
+ this.version = snapshot.getRootNode().getSubtreeVersion().next();
}
ModifiedNode getRootModification() {
}
@Override
- public synchronized void write(final InstanceIdentifier path, final NormalizedNode<?, ?> value) {
+ public synchronized void write(final YangInstanceIdentifier path, final NormalizedNode<?, ?> value) {
checkSealed();
resolveModificationFor(path).write(value);
}
@Override
- public synchronized void merge(final InstanceIdentifier path, final NormalizedNode<?, ?> data) {
+ public synchronized void merge(final YangInstanceIdentifier path, final NormalizedNode<?, ?> data) {
checkSealed();
mergeImpl(resolveModificationFor(path),data);
}
}
@Override
- public synchronized void delete(final InstanceIdentifier path) {
+ public synchronized void delete(final YangInstanceIdentifier path) {
checkSealed();
resolveModificationFor(path).delete();
}
@Override
- public synchronized Optional<NormalizedNode<?, ?>> readNode(final InstanceIdentifier path) {
+ public synchronized Optional<NormalizedNode<?, ?>> readNode(final YangInstanceIdentifier path) {
/*
* Walk the tree from the top, looking for the first node between root and
* the requested path which has been modified. If no such node exists,
* we use the node itself.
*/
- final Entry<InstanceIdentifier, ModifiedNode> entry = TreeNodeUtils.findClosestsOrFirstMatch(rootNode, path, ModifiedNode.IS_TERMINAL_PREDICATE);
- final InstanceIdentifier key = entry.getKey();
+ final Entry<YangInstanceIdentifier, ModifiedNode> entry = TreeNodeUtils.findClosestsOrFirstMatch(rootNode, path, ModifiedNode.IS_TERMINAL_PREDICATE);
+ final YangInstanceIdentifier key = entry.getKey();
final ModifiedNode mod = entry.getValue();
final Optional<TreeNode> result = resolveSnapshot(key, mod);
}
}
- private Optional<TreeNode> resolveSnapshot(final InstanceIdentifier path,
+ private Optional<TreeNode> resolveSnapshot(final YangInstanceIdentifier path,
final ModifiedNode modification) {
final Optional<Optional<TreeNode>> potentialSnapshot = modification.getSnapshotCache();
if(potentialSnapshot.isPresent()) {
try {
return resolveModificationStrategy(path).apply(modification, modification.getOriginal(),
- snapshot.getRootNode().getSubtreeVersion().next());
+ version);
} catch (Exception e) {
LOG.error("Could not create snapshot for {}:{}", path,modification,e);
throw e;
}
}
- private ModificationApplyOperation resolveModificationStrategy(final InstanceIdentifier path) {
+ private ModificationApplyOperation resolveModificationStrategy(final YangInstanceIdentifier path) {
LOG.trace("Resolving modification apply strategy for {}", path);
- return TreeNodeUtils.findNodeChecked(strategyTree, path);
+ if(rootNode.getType() == ModificationType.UNMODIFIED) {
+ strategyTree.upgradeIfPossible();
+ }
+
+ return TreeNodeUtils.<ModificationApplyOperation>findNodeChecked(strategyTree, path);
}
- private OperationWithModification resolveModificationFor(final InstanceIdentifier path) {
+ private OperationWithModification resolveModificationFor(final YangInstanceIdentifier path) {
ModifiedNode modification = rootNode;
// We ensure strategy is present.
ModificationApplyOperation operation = resolveModificationStrategy(path);
- for (PathArgument pathArg : path.getPath()) {
- modification = modification.modifyChild(pathArg);
+ boolean isOrdered = true;
+ if (operation instanceof SchemaAwareApplyOperation) {
+ isOrdered = ((SchemaAwareApplyOperation) operation).isOrdered();
+ }
+
+ for (PathArgument pathArg : path.getPathArguments()) {
+ modification = modification.modifyChild(pathArg, isOrdered);
}
return OperationWithModification.from(operation, modification);
}
}
/*
- * FIXME: Add advanced transaction chaining for modification of not rebased
- * modification.
- *
- * Current computation of tempRoot may yeld incorrect subtree versions
- * if there are multiple concurrent transactions, which may break
- * versioning preconditions for modification of previously occured write,
- * directly nested under parent node, since node version is derived from
- * subtree version.
- *
- * For deeper nodes subtree version is derived from their respective metadata
- * nodes, so this incorrect root subtree version is not affecting us.
+ * We will use preallocated version, this means returned snapshot will
+ * have same version each time this method is called.
*/
TreeNode originalSnapshotRoot = snapshot.getRootNode();
- Optional<TreeNode> tempRoot = strategyTree.apply(rootNode, Optional.of(originalSnapshotRoot), originalSnapshotRoot.getSubtreeVersion().next());
+ Optional<TreeNode> tempRoot = strategyTree.apply(rootNode, Optional.of(originalSnapshotRoot), version);
InMemoryDataTreeSnapshot tempTree = new InMemoryDataTreeSnapshot(snapshot.getSchemaContext(), tempRoot.get(), strategyTree);
return tempTree.newModification();
}
+
+ Version getVersion() {
+ return version;
+ }
}