2 * Copyright (c) 2014 Cisco Systems, Inc. and others. All rights reserved.
4 * This program and the accompanying materials are made available under the
5 * terms of the Eclipse Public License v1.0 which accompanies this distribution,
6 * and is available at http://www.eclipse.org/legal/epl-v10.html
8 package org.opendaylight.mdsal.dom.store.inmemory;
10 import org.opendaylight.mdsal.dom.store.inmemory.tree.ListenerTree;
12 import org.opendaylight.mdsal.dom.store.inmemory.DOMImmutableDataChangeEvent.Builder;
13 import org.opendaylight.mdsal.dom.store.inmemory.DOMImmutableDataChangeEvent.SimpleEventFactory;
14 import org.opendaylight.mdsal.dom.spi.RegistrationTreeSnapshot;
15 import org.opendaylight.mdsal.common.api.AsyncDataBroker.DataChangeScope;
16 import com.google.common.annotations.Beta;
17 import com.google.common.base.Optional;
18 import com.google.common.base.Preconditions;
19 import com.google.common.collect.ArrayListMultimap;
20 import com.google.common.collect.Multimap;
21 import java.util.Collection;
22 import java.util.Map.Entry;
23 import org.opendaylight.yangtools.util.concurrent.NotificationManager;
24 import org.opendaylight.yangtools.yang.data.api.YangInstanceIdentifier.PathArgument;
25 import org.opendaylight.yangtools.yang.data.api.schema.NormalizedNode;
26 import org.opendaylight.yangtools.yang.data.api.schema.NormalizedNodeContainer;
27 import org.opendaylight.yangtools.yang.data.api.schema.tree.DataTreeCandidate;
28 import org.opendaylight.yangtools.yang.data.api.schema.tree.DataTreeCandidateNode;
29 import org.opendaylight.yangtools.yang.data.api.schema.tree.ModificationType;
30 import org.slf4j.Logger;
31 import org.slf4j.LoggerFactory;
34 * Resolve Data Change Events based on modifications and listeners
36 * Computes data change events for all affected registered listeners in data
40 public final class ResolveDataChangeEventsTask {
41 private static final Logger LOG = LoggerFactory.getLogger(ResolveDataChangeEventsTask.class);
43 private final DataTreeCandidate candidate;
44 private final ListenerTree listenerRoot;
46 private Multimap<DataChangeListenerRegistration<?>, DOMImmutableDataChangeEvent> collectedEvents;
48 private ResolveDataChangeEventsTask(final DataTreeCandidate candidate, final ListenerTree listenerTree) {
49 this.candidate = Preconditions.checkNotNull(candidate);
50 this.listenerRoot = Preconditions.checkNotNull(listenerTree);
54 * Resolves and submits notification tasks to the specified manager.
56 public synchronized void resolve(final NotificationManager<DataChangeListenerRegistration<?>, DOMImmutableDataChangeEvent> manager) {
57 try (final RegistrationTreeSnapshot<DataChangeListenerRegistration<?>> w = listenerRoot.takeSnapshot()) {
58 // Defensive: reset internal state
59 collectedEvents = ArrayListMultimap.create();
61 // Run through the tree
62 final ResolveDataChangeState s = ResolveDataChangeState.initial(candidate.getRootPath(), w.getRootNode());
63 resolveAnyChangeEvent(s, candidate.getRootNode());
66 * Convert to tasks, but be mindful of multiple values -- those indicate multiple
67 * wildcard matches, which need to be merged.
69 for (Entry<DataChangeListenerRegistration<?>, Collection<DOMImmutableDataChangeEvent>> e : collectedEvents.asMap().entrySet()) {
70 final Collection<DOMImmutableDataChangeEvent> col = e.getValue();
71 final DOMImmutableDataChangeEvent event;
73 if (col.size() != 1) {
74 final Builder b = DOMImmutableDataChangeEvent.builder(DataChangeScope.BASE);
75 for (DOMImmutableDataChangeEvent i : col) {
80 LOG.trace("Merged events {} into event {}", col, event);
82 event = col.iterator().next();
85 manager.submitNotification(e.getKey(), event);
91 * Resolves data change event for supplied node
94 * Path to current node in tree
96 * Collection of Listener registration nodes interested in
99 * Modification of current node
101 * - Original (before) state of current node
103 * - After state of current node
104 * @return True if the subtree changed, false otherwise
106 private boolean resolveAnyChangeEvent(final ResolveDataChangeState state, final DataTreeCandidateNode node) {
107 final Optional<NormalizedNode<?, ?>> maybeBefore = node.getDataBefore();
108 final Optional<NormalizedNode<?, ?>> maybeAfter = node.getDataAfter();
109 final ModificationType type = node.getModificationType();
111 if (type != ModificationType.UNMODIFIED && !maybeAfter.isPresent() && !maybeBefore.isPresent()) {
112 LOG.debug("Modification at {} has type {}, but no before- and after-data. Assuming unchanged.",
113 state.getPath(), type);
117 // no before and after state is present
120 case SUBTREE_MODIFIED:
121 return resolveSubtreeChangeEvent(state, node);
124 Preconditions.checkArgument(maybeAfter.isPresent(),
125 "Modification at {} has type {} but no after-data", state.getPath(), type);
126 if (!maybeBefore.isPresent()) {
127 @SuppressWarnings({ "unchecked", "rawtypes" })
128 final NormalizedNode<PathArgument, ?> afterNode = (NormalizedNode)maybeAfter.get();
129 resolveSameEventRecursivelly(state, afterNode, DOMImmutableDataChangeEvent.getCreateEventFactory());
133 return resolveReplacedEvent(state, maybeBefore.get(), maybeAfter.get());
135 Preconditions.checkArgument(maybeBefore.isPresent(),
136 "Modification at {} has type {} but no before-data", state.getPath(), type);
138 @SuppressWarnings({ "unchecked", "rawtypes" })
139 final NormalizedNode<PathArgument, ?> beforeNode = (NormalizedNode)maybeBefore.get();
140 resolveSameEventRecursivelly(state, beforeNode, DOMImmutableDataChangeEvent.getRemoveEventFactory());
146 throw new IllegalStateException(String.format("Unhandled node state %s at %s", type, state.getPath()));
149 private boolean resolveReplacedEvent(final ResolveDataChangeState state,
150 final NormalizedNode<?, ?> beforeData, final NormalizedNode<?, ?> afterData) {
152 if (beforeData instanceof NormalizedNodeContainer<?, ?, ?>) {
154 * Node is a container (contains a child) and we have interested
155 * listeners registered for it, that means we need to do
156 * resolution of changes on children level and can not
157 * shortcut resolution.
159 LOG.trace("Resolving subtree replace event for {} before {}, after {}", state.getPath(), beforeData, afterData);
160 @SuppressWarnings("unchecked")
161 NormalizedNodeContainer<?, PathArgument, NormalizedNode<PathArgument, ?>> beforeCont = (NormalizedNodeContainer<?, PathArgument, NormalizedNode<PathArgument, ?>>) beforeData;
162 @SuppressWarnings("unchecked")
163 NormalizedNodeContainer<?, PathArgument, NormalizedNode<PathArgument, ?>> afterCont = (NormalizedNodeContainer<?, PathArgument, NormalizedNode<PathArgument, ?>>) afterData;
164 return resolveNodeContainerReplaced(state, beforeCont, afterCont);
167 // Node is a Leaf type (does not contain child nodes)
168 // so normal equals method is sufficient for determining change.
169 if (beforeData.equals(afterData)) {
170 LOG.trace("Skipping equal leaf {}", state.getPath());
174 LOG.trace("Resolving leaf replace event for {} , before {}, after {}", state.getPath(), beforeData, afterData);
175 DOMImmutableDataChangeEvent event = DOMImmutableDataChangeEvent.builder(DataChangeScope.BASE).addUpdated(state.getPath(), beforeData, afterData).build();
176 state.addEvent(event);
177 state.collectEvents(beforeData, afterData, collectedEvents);
181 private boolean resolveNodeContainerReplaced(final ResolveDataChangeState state,
182 final NormalizedNodeContainer<?, PathArgument, NormalizedNode<PathArgument, ?>> beforeCont,
183 final NormalizedNodeContainer<?, PathArgument, NormalizedNode<PathArgument, ?>> afterCont) {
184 if (!state.needsProcessing()) {
185 LOG.trace("Not processing replaced container {}", state.getPath());
189 // We look at all children from before and compare it with after state.
190 boolean childChanged = false;
191 for (NormalizedNode<PathArgument, ?> beforeChild : beforeCont.getValue()) {
192 final PathArgument childId = beforeChild.getIdentifier();
194 if (resolveNodeContainerChildUpdated(state.child(childId), beforeChild, afterCont.getChild(childId))) {
199 for (NormalizedNode<PathArgument, ?> afterChild : afterCont.getValue()) {
200 final PathArgument childId = afterChild.getIdentifier();
203 * We have already iterated of the before-children, so have already
204 * emitted modify/delete events. This means the child has been
207 if (!beforeCont.getChild(childId).isPresent()) {
208 resolveSameEventRecursivelly(state.child(childId), afterChild, DOMImmutableDataChangeEvent.getCreateEventFactory());
214 DOMImmutableDataChangeEvent event = DOMImmutableDataChangeEvent.builder(DataChangeScope.BASE)
215 .addUpdated(state.getPath(), beforeCont, afterCont).build();
216 state.addEvent(event);
219 state.collectEvents(beforeCont, afterCont, collectedEvents);
223 private boolean resolveNodeContainerChildUpdated(final ResolveDataChangeState state,
224 final NormalizedNode<PathArgument, ?> before, final Optional<NormalizedNode<PathArgument, ?>> after) {
225 if (after.isPresent()) {
226 // REPLACE or SUBTREE Modified
227 return resolveReplacedEvent(state, before, after.get());
230 // AFTER state is not present - child was deleted.
231 resolveSameEventRecursivelly(state, before, DOMImmutableDataChangeEvent.getRemoveEventFactory());
235 private void resolveSameEventRecursivelly(final ResolveDataChangeState state,
236 final NormalizedNode<PathArgument, ?> node, final SimpleEventFactory eventFactory) {
237 if (!state.needsProcessing()) {
238 LOG.trace("Skipping child {}", state.getPath());
242 // We have listeners for this node or it's children, so we will try
243 // to do additional processing
244 if (node instanceof NormalizedNodeContainer<?, ?, ?>) {
245 LOG.trace("Resolving subtree recursive event for {}, type {}", state.getPath(), eventFactory);
247 // Node has children, so we will try to resolve it's children
249 @SuppressWarnings("unchecked")
250 NormalizedNodeContainer<?, PathArgument, NormalizedNode<PathArgument, ?>> container = (NormalizedNodeContainer<?, PathArgument, NormalizedNode<PathArgument, ?>>) node;
251 for (NormalizedNode<PathArgument, ?> child : container.getValue()) {
252 final PathArgument childId = child.getIdentifier();
254 LOG.trace("Resolving event for child {}", childId);
255 resolveSameEventRecursivelly(state.child(childId), child, eventFactory);
259 final DOMImmutableDataChangeEvent event = eventFactory.create(state.getPath(), node);
260 LOG.trace("Adding event {} at path {}", event, state.getPath());
261 state.addEvent(event);
262 state.collectEvents(event.getOriginalSubtree(), event.getUpdatedSubtree(), collectedEvents);
265 private boolean resolveSubtreeChangeEvent(final ResolveDataChangeState state, final DataTreeCandidateNode modification) {
266 final Optional<NormalizedNode<?, ?>> maybeBefore = modification.getDataBefore();
267 final Optional<NormalizedNode<?, ?>> maybeAfter = modification.getDataAfter();
269 Preconditions.checkArgument(maybeBefore.isPresent(), "Subtree change with before-data not present at path %s", state.getPath());
270 Preconditions.checkArgument(maybeAfter.isPresent(), "Subtree change with after-data not present at path %s", state.getPath());
272 if (!state.needsProcessing()) {
273 LOG.trace("Not processing modified subtree {}", state.getPath());
277 DataChangeScope scope = null;
278 for (DataTreeCandidateNode childMod : modification.getChildNodes()) {
279 final ResolveDataChangeState childState = state.child(childMod.getIdentifier());
281 switch (childMod.getModificationType()) {
285 if (resolveAnyChangeEvent(childState, childMod)) {
286 scope = DataChangeScope.ONE;
289 case SUBTREE_MODIFIED:
290 if (resolveSubtreeChangeEvent(childState, childMod) && scope == null) {
291 scope = DataChangeScope.SUBTREE;
300 final NormalizedNode<?, ?> before = maybeBefore.get();
301 final NormalizedNode<?, ?> after = maybeAfter.get();
304 DOMImmutableDataChangeEvent one = DOMImmutableDataChangeEvent.builder(scope).addUpdated(state.getPath(), before, after).build();
308 state.collectEvents(before, after, collectedEvents);
309 return scope != null;
312 public static ResolveDataChangeEventsTask create(final DataTreeCandidate candidate, final ListenerTree listenerTree) {
313 return new ResolveDataChangeEventsTask(candidate, listenerTree);