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// Copyright (C) 2017 The Android Open Source Project
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package com.google.gerrit.server.update;
import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkState;
import static com.google.common.collect.ImmutableList.toImmutableList;
import static com.google.common.flogger.LazyArgs.lazy;
import static com.google.gerrit.common.UsedAt.Project.GOOGLE;
import static java.util.Comparator.comparing;
import static java.util.Objects.requireNonNull;
import static java.util.stream.Collectors.toMap;
import static java.util.stream.Collectors.toSet;
import com.google.auto.value.AutoValue;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.Throwables;
import com.google.common.collect.ArrayListMultimap;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableListMultimap;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.ImmutableMultimap;
import com.google.common.collect.ListMultimap;
import com.google.common.collect.MultimapBuilder;
import com.google.common.flogger.FluentLogger;
import com.google.common.util.concurrent.Futures;
import com.google.common.util.concurrent.ListenableFuture;
import com.google.errorprone.annotations.CanIgnoreReturnValue;
import com.google.gerrit.common.Nullable;
import com.google.gerrit.common.UsedAt;
import com.google.gerrit.entities.AttentionSetUpdate;
import com.google.gerrit.entities.BranchNameKey;
import com.google.gerrit.entities.Change;
import com.google.gerrit.entities.PatchSet;
import com.google.gerrit.entities.Project;
import com.google.gerrit.entities.ProjectChangeKey;
import com.google.gerrit.entities.RefNames;
import com.google.gerrit.extensions.api.changes.NotifyHandling;
import com.google.gerrit.extensions.config.FactoryModule;
import com.google.gerrit.extensions.restapi.RestApiException;
import com.google.gerrit.server.AccessPath;
import com.google.gerrit.server.CurrentUser;
import com.google.gerrit.server.GerritPersonIdent;
import com.google.gerrit.server.RefLogIdentityProvider;
import com.google.gerrit.server.account.AccountCache;
import com.google.gerrit.server.account.AccountState;
import com.google.gerrit.server.change.NotifyResolver;
import com.google.gerrit.server.config.GerritServerConfig;
import com.google.gerrit.server.extensions.events.AttentionSetObserver;
import com.google.gerrit.server.extensions.events.GitReferenceUpdated;
import com.google.gerrit.server.git.GitRepositoryManager;
import com.google.gerrit.server.git.validators.OnSubmitValidators;
import com.google.gerrit.server.index.change.ChangeIndexer;
import com.google.gerrit.server.logging.Metadata;
import com.google.gerrit.server.logging.RequestId;
import com.google.gerrit.server.logging.TraceContext;
import com.google.gerrit.server.notedb.ChangeNotes;
import com.google.gerrit.server.notedb.ChangeUpdate;
import com.google.gerrit.server.notedb.NoteDbUpdateManager;
import com.google.gerrit.server.query.change.ChangeData;
import com.google.inject.Inject;
import com.google.inject.Module;
import com.google.inject.assistedinject.Assisted;
import java.io.IOException;
import java.time.Instant;
import java.time.ZoneId;
import java.util.ArrayList;
import java.util.Collection;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Optional;
import java.util.TreeMap;
import org.eclipse.jgit.lib.BatchRefUpdate;
import org.eclipse.jgit.lib.Config;
import org.eclipse.jgit.lib.ObjectInserter;
import org.eclipse.jgit.lib.PersonIdent;
import org.eclipse.jgit.lib.Repository;
import org.eclipse.jgit.revwalk.RevWalk;
import org.eclipse.jgit.transport.PushCertificate;
import org.eclipse.jgit.transport.ReceiveCommand;
/**
* Helper for a set of change updates that should be applied to the NoteDb database.
*
* <p>An update operation can be divided into three phases:
*
* <ol>
* <li>Git reference updates
* <li>Review metadata updates
* <li>Post-update steps
* <li>
* </ol>
*
* A single conceptual operation, such as a REST API call or a merge operation, may make multiple
* changes at each step, which all need to be serialized relative to each other. Moreover, for
* consistency, the git ref updates must be visible to the review metadata updates, since for
* example the metadata might refer to newly-created patch set refs. In NoteDb, this is accomplished
* by combining these two phases into a single {@link BatchRefUpdate}.
*
* <p>Similarly, all post-update steps, such as sending email, must run only after all storage
* mutations have completed.
*/
public class BatchUpdate implements AutoCloseable {
private static final FluentLogger logger = FluentLogger.forEnclosingClass();
public static Module module() {
return new FactoryModule() {
@Override
public void configure() {
factory(BatchUpdate.Factory.class);
}
};
}
public interface Factory {
BatchUpdate create(Project.NameKey project, CurrentUser user, Instant when);
}
class ContextImpl implements Context {
private final CurrentUser contextUser;
ContextImpl(@Nullable CurrentUser contextUser) {
this.contextUser = contextUser != null ? contextUser : user;
}
@Override
public RepoView getRepoView() throws IOException {
return BatchUpdate.this.getRepoView();
}
@Override
public RevWalk getRevWalk() throws IOException {
return getRepoView().getRevWalk();
}
@Override
public Project.NameKey getProject() {
return project;
}
@Override
public Instant getWhen() {
return when;
}
@Override
public ZoneId getZoneId() {
return zoneId;
}
@Override
public CurrentUser getUser() {
return contextUser;
}
@Override
public NotifyResolver.Result getNotify(Change.Id changeId) {
NotifyHandling notifyHandling = perChangeNotifyHandling.get(changeId);
return notifyHandling != null ? notify.withHandling(notifyHandling) : notify;
}
}
private class RepoContextImpl extends ContextImpl implements RepoContext {
RepoContextImpl(@Nullable CurrentUser contextUser) {
super(contextUser);
}
@Override
public ObjectInserter getInserter() throws IOException {
return getRepoView().getInserterWrapper();
}
@Override
public void addRefUpdate(ReceiveCommand cmd) throws IOException {
getRepoView().getCommands().add(cmd);
}
}
private class ChangeContextImpl extends ContextImpl implements ChangeContext {
private final ChangeNotes notes;
/**
* Updates where the caller allowed us to combine potentially multiple adjustments into a single
* commit in NoteDb by re-using the same ChangeUpdate instance. Will still be one commit per
* patch set.
*/
private final Map<PatchSet.Id, ChangeUpdate> defaultUpdates;
/**
* Updates where the caller instructed us to create one NoteDb commit per update. Keyed by
* PatchSet.Id only for convenience.
*/
private final ListMultimap<PatchSet.Id, ChangeUpdate> distinctUpdates;
private boolean deleted;
ChangeContextImpl(@Nullable CurrentUser contextUser, ChangeNotes notes) {
super(contextUser);
this.notes = requireNonNull(notes);
defaultUpdates = new TreeMap<>(comparing(PatchSet.Id::get));
distinctUpdates = ArrayListMultimap.create();
}
@Override
public ChangeUpdate getUpdate(PatchSet.Id psId) {
ChangeUpdate u = defaultUpdates.get(psId);
if (u == null) {
u = getNewChangeUpdate(psId);
defaultUpdates.put(psId, u);
}
return u;
}
@Override
public ChangeUpdate getDistinctUpdate(PatchSet.Id psId) {
ChangeUpdate u = getNewChangeUpdate(psId);
distinctUpdates.put(psId, u);
return u;
}
private ChangeUpdate getNewChangeUpdate(PatchSet.Id psId) {
ChangeUpdate u = changeUpdateFactory.create(notes, getUser(), getWhen());
if (newChanges.containsKey(notes.getChangeId())) {
u.setAllowWriteToNewRef(true);
}
u.setPatchSetId(psId);
return u;
}
@Override
public ChangeNotes getNotes() {
return notes;
}
@Override
public void deleteChange() {
deleted = true;
}
}
private class PostUpdateContextImpl extends ContextImpl implements PostUpdateContext {
private final Map<Change.Id, ChangeData> changeDatas;
PostUpdateContextImpl(
@Nullable CurrentUser contextUser, Map<Change.Id, ChangeData> changeDatas) {
super(contextUser);
this.changeDatas = changeDatas;
}
@Override
public ChangeData getChangeData(Project.NameKey projectName, Change.Id changeId) {
return changeDatas.computeIfAbsent(
changeId, id -> changeDataFactory.create(projectName, changeId));
}
@Override
public ChangeData getChangeData(Change change) {
return changeDatas.computeIfAbsent(change.getId(), id -> changeDataFactory.create(change));
}
}
/** Per-change result status from {@link #executeChangeOps}. */
private enum ChangeResult {
/** Change was not modified by any of the batch update ops. */
SKIPPED,
/** Change was inserted or updated. */
UPSERTED,
/** Change was deleted. */
DELETED
}
private final BatchUpdates batchUpdates;
private final GitRepositoryManager repoManager;
private final AccountCache accountCache;
private final ChangeData.Factory changeDataFactory;
private final ChangeNotes.Factory changeNotesFactory;
private final ChangeUpdate.Factory changeUpdateFactory;
private final NoteDbUpdateManager.Factory updateManagerFactory;
private final ChangeIndexer indexer;
private final GitReferenceUpdated gitRefUpdated;
private final RefLogIdentityProvider refLogIdentityProvider;
private final Project.NameKey project;
private final CurrentUser user;
private final Instant when;
private final ZoneId zoneId;
private final ListMultimap<Change.Id, OpData<BatchUpdateOp>> ops =
MultimapBuilder.linkedHashKeys().arrayListValues().build();
private final Map<Change.Id, Change> newChanges = new HashMap<>();
private final List<OpData<RepoOnlyOp>> repoOnlyOps = new ArrayList<>();
private final Map<Change.Id, NotifyHandling> perChangeNotifyHandling = new HashMap<>();
private final Config gerritConfig;
private RepoView repoView;
private ImmutableMultimap<Project.NameKey, BatchRefUpdate> batchRefUpdate;
private ImmutableListMultimap<ProjectChangeKey, AttentionSetUpdate> attentionSetUpdates;
private boolean executed;
private OnSubmitValidators onSubmitValidators;
private PushCertificate pushCert;
private String refLogMessage;
private NotifyResolver.Result notify = NotifyResolver.Result.all();
// Batch operations doesn't need observer
private AttentionSetObserver attentionSetObserver;
@Inject
BatchUpdate(
BatchUpdates batchUpdates,
GitRepositoryManager repoManager,
@GerritPersonIdent PersonIdent serverIdent,
AccountCache accountCache,
ChangeData.Factory changeDataFactory,
ChangeNotes.Factory changeNotesFactory,
ChangeUpdate.Factory changeUpdateFactory,
NoteDbUpdateManager.Factory updateManagerFactory,
ChangeIndexer indexer,
GitReferenceUpdated gitRefUpdated,
RefLogIdentityProvider refLogIdentityProvider,
AttentionSetObserver attentionSetObserver,
@GerritServerConfig Config gerritConfig,
@Assisted Project.NameKey project,
@Assisted CurrentUser user,
@Assisted Instant when) {
this.gerritConfig = gerritConfig;
this.batchUpdates = batchUpdates;
this.repoManager = repoManager;
this.accountCache = accountCache;
this.changeDataFactory = changeDataFactory;
this.changeNotesFactory = changeNotesFactory;
this.changeUpdateFactory = changeUpdateFactory;
this.updateManagerFactory = updateManagerFactory;
this.indexer = indexer;
this.gitRefUpdated = gitRefUpdated;
this.refLogIdentityProvider = refLogIdentityProvider;
this.attentionSetObserver = attentionSetObserver;
this.project = project;
this.user = user;
this.when = when;
zoneId = serverIdent.getZoneId();
}
@Override
public void close() {
if (repoView != null) {
repoView.close();
}
}
@CanIgnoreReturnValue
public BatchUpdates.Result execute(BatchUpdateListener listener)
throws UpdateException, RestApiException {
return batchUpdates.execute(ImmutableList.of(this), ImmutableList.of(listener), false);
}
@CanIgnoreReturnValue
public BatchUpdates.Result execute() throws UpdateException, RestApiException {
return batchUpdates.execute(ImmutableList.of(this), ImmutableList.of(), false);
}
public boolean isExecuted() {
return executed;
}
@CanIgnoreReturnValue
public BatchUpdate setRepository(Repository repo, RevWalk revWalk, ObjectInserter inserter) {
checkState(this.repoView == null, "repo already set");
repoView = new RepoView(repo, revWalk, inserter);
return this;
}
@CanIgnoreReturnValue
public BatchUpdate setPushCertificate(@Nullable PushCertificate pushCert) {
this.pushCert = pushCert;
return this;
}
@CanIgnoreReturnValue
public BatchUpdate setRefLogMessage(@Nullable String refLogMessage) {
this.refLogMessage = refLogMessage;
return this;
}
/**
* Set the default notification settings for all changes in the batch.
*
* @param notify notification settings.
* @return this.
*/
@CanIgnoreReturnValue
public BatchUpdate setNotify(NotifyResolver.Result notify) {
this.notify = requireNonNull(notify);
return this;
}
/**
* Override the {@link NotifyHandling} on a per-change basis.
*
* <p>Only the handling enum can be overridden; all changes share the same value for {@link
* com.google.gerrit.server.change.NotifyResolver.Result#accounts()}.
*
* @param changeId change ID.
* @param notifyHandling notify handling.
* @return this.
*/
@CanIgnoreReturnValue
public BatchUpdate setNotifyHandling(Change.Id changeId, NotifyHandling notifyHandling) {
this.perChangeNotifyHandling.put(changeId, requireNonNull(notifyHandling));
return this;
}
/**
* Add a validation step for intended ref operations, which will be performed at the end of {@link
* RepoOnlyOp#updateRepo(RepoContext)} step.
*/
@CanIgnoreReturnValue
public BatchUpdate setOnSubmitValidators(OnSubmitValidators onSubmitValidators) {
this.onSubmitValidators = onSubmitValidators;
return this;
}
public Project.NameKey getProject() {
return project;
}
private void initRepository() throws IOException {
if (repoView == null) {
repoView = new RepoView(repoManager, project);
}
}
private RepoView getRepoView() throws IOException {
initRepository();
return repoView;
}
private Optional<AccountState> getAccount() {
return user.isIdentifiedUser()
? Optional.of(user.asIdentifiedUser().state())
: Optional.empty();
}
public Map<String, ReceiveCommand> getRefUpdates() {
return repoView != null ? repoView.getCommands().getCommands() : ImmutableMap.of();
}
/**
* Return the references successfully updated by this BatchUpdate with their command. In dryrun,
* we assume all updates were successful.
*/
public Map<BranchNameKey, ReceiveCommand> getSuccessfullyUpdatedBranches(boolean dryrun) {
return getRefUpdates().entrySet().stream()
.filter(entry -> dryrun || entry.getValue().getResult() == ReceiveCommand.Result.OK)
.collect(
toMap(entry -> BranchNameKey.create(project, entry.getKey()), Map.Entry::getValue));
}
/**
* Adds a {@link BatchUpdate} for a change.
*
* <p>The op is executed by the user for which the {@link BatchUpdate} has been created.
*/
@CanIgnoreReturnValue
public BatchUpdate addOp(Change.Id id, BatchUpdateOp op) {
checkArgument(!(op instanceof InsertChangeOp), "use insertChange");
requireNonNull(op);
ops.put(id, OpData.create(op, user));
return this;
}
/** Adds a {@link BatchUpdate} for a change that should be executed by the given context user. */
@CanIgnoreReturnValue
public BatchUpdate addOp(Change.Id id, CurrentUser contextUser, BatchUpdateOp op) {
checkArgument(!(op instanceof InsertChangeOp), "use insertChange");
requireNonNull(op);
ops.put(id, OpData.create(op, contextUser));
return this;
}
/**
* Adds a {@link RepoOnlyOp}.
*
* <p>The op is executed by the user for which the {@link BatchUpdate} has been created.
*/
@CanIgnoreReturnValue
public BatchUpdate addRepoOnlyOp(RepoOnlyOp op) {
checkArgument(!(op instanceof BatchUpdateOp), "use addOp()");
repoOnlyOps.add(OpData.create(op, user));
return this;
}
/** Adds a {@link RepoOnlyOp} that should be executed by the given context user. */
@CanIgnoreReturnValue
public BatchUpdate addRepoOnlyOp(CurrentUser contextUser, RepoOnlyOp op) {
checkArgument(!(op instanceof BatchUpdateOp), "use addOp()");
repoOnlyOps.add(OpData.create(op, contextUser));
return this;
}
@CanIgnoreReturnValue
public BatchUpdate insertChange(InsertChangeOp op) throws IOException {
Context ctx = new ContextImpl(user);
Change c = op.createChange(ctx);
checkArgument(
!newChanges.containsKey(c.getId()), "only one op allowed to create change %s", c.getId());
newChanges.put(c.getId(), c);
ops.get(c.getId()).add(0, OpData.create(op, user));
return this;
}
void executeUpdateRepo() throws UpdateException, RestApiException {
try {
logDebug("Executing updateRepo on %d ops", ops.size());
for (Map.Entry<Change.Id, OpData<BatchUpdateOp>> e : ops.entries()) {
BatchUpdateOp op = e.getValue().op();
RepoContextImpl ctx = new RepoContextImpl(e.getValue().user());
try (TraceContext.TraceTimer ignored =
TraceContext.newTimer(
op.getClass().getSimpleName() + "#updateRepo",
Metadata.builder().projectName(project.get()).changeId(e.getKey().get()).build())) {
op.updateRepo(ctx);
}
}
logDebug("Executing updateRepo on %d RepoOnlyOps", repoOnlyOps.size());
for (OpData<RepoOnlyOp> opData : repoOnlyOps) {
RepoContextImpl ctx = new RepoContextImpl(opData.user());
opData.op().updateRepo(ctx);
}
if (onSubmitValidators != null && !getRefUpdates().isEmpty()) {
// Validation of refs has to take place here and not at the beginning of executeRefUpdates.
// Otherwise, failing validation in a second BatchUpdate object will happen *after* the
// first update's executeRefUpdates has finished, hence after first repo's refs have been
// updated, which is too late.
onSubmitValidators.validate(
project, getRepoView().getRevWalk().getObjectReader(), repoView.getCommands());
}
} catch (Exception e) {
Throwables.throwIfInstanceOf(e, RestApiException.class);
throw new UpdateException(e);
}
}
// For upstream implementation, AccessPath.WEB_BROWSER is never set, so the method will always
// return false.
@UsedAt(GOOGLE)
private boolean indexAsync() {
return user.getAccessPath().equals(AccessPath.WEB_BROWSER)
&& gerritConfig.getBoolean("index", "indexChangesAsync", false);
}
void fireRefChangeEvents() {
batchRefUpdate.forEach(
(projectName, bru) -> gitRefUpdated.fire(projectName, bru, getAccount().orElse(null)));
}
private void fireAttentionSetUpdateEvents(Map<Change.Id, ChangeData> changeDatas) {
for (ProjectChangeKey key : attentionSetUpdates.keySet()) {
ChangeData change =
changeDatas.computeIfAbsent(
key.changeId(), id -> changeDataFactory.create(key.projectName(), key.changeId()));
for (AttentionSetUpdate update : attentionSetUpdates.get(key)) {
attentionSetObserver.fire(
change, accountCache.getEvenIfMissing(update.account()), update, when);
}
}
}
class ChangesHandle implements AutoCloseable {
private final NoteDbUpdateManager manager;
private final boolean dryrun;
private final Map<Change.Id, ChangeResult> results;
private final boolean indexAsync;
ChangesHandle(NoteDbUpdateManager manager, boolean dryrun, boolean indexAsync) {
this.manager = manager;
this.dryrun = dryrun;
results = new HashMap<>();
this.indexAsync = indexAsync;
}
@Override
public void close() {
manager.close();
}
void setResult(Change.Id id, ChangeResult result) {
ChangeResult old = results.putIfAbsent(id, result);
checkArgument(old == null, "result for change %s already set: %s", id, old);
}
void execute() throws IOException {
BatchUpdate.this.batchRefUpdate = manager.execute(dryrun);
BatchUpdate.this.executed = manager.isExecuted();
BatchUpdate.this.attentionSetUpdates = manager.attentionSetUpdates();
}
boolean requiresReindex() {
// We do not need to reindex changes if there are no ref updates, or if updated refs
// are all draft comment refs (since draft fields are not stored in the change index).
ImmutableMultimap<Project.NameKey, BatchRefUpdate> bru = BatchUpdate.this.batchRefUpdate;
return !(bru.isEmpty()
|| bru.values().stream()
.allMatch(
batchRefUpdate ->
batchRefUpdate.getCommands().isEmpty()
|| batchRefUpdate.getCommands().stream()
.allMatch(cmd -> RefNames.isRefsDraftsComments(cmd.getRefName()))));
}
ImmutableList<ListenableFuture<ChangeData>> startIndexFutures() {
if (dryrun) {
return ImmutableList.of();
}
logDebug("Reindexing %d changes", results.size());
ImmutableList.Builder<ListenableFuture<ChangeData>> indexFutures =
ImmutableList.builderWithExpectedSize(results.size());
for (Map.Entry<Change.Id, ChangeResult> e : results.entrySet()) {
Change.Id id = e.getKey();
switch (e.getValue()) {
case UPSERTED:
indexFutures.add(indexer.indexAsync(project, id));
break;
case DELETED:
indexFutures.add(indexer.deleteAsync(project, id));
break;
case SKIPPED:
break;
default:
throw new IllegalStateException("unexpected result: " + e.getValue());
}
}
if (indexAsync) {
logger.atFine().log(
"Asynchronously reindexing changes, %s in project %s", results.keySet(), project.get());
// We want to index asynchronously. However, the callers will await all
// index futures. This allows us to - even in synchronous case -
// parallelize indexing changes.
// Returning immediate futures for newly-created change data objects
// while letting the actual futures go will make actual indexing
// asynchronous.
// Only return results for the change modifications (ChangeResult.DELETE and
// ChangeResult.SKIPPED are filtered out). For sync path, they are filtered out later on.
return results.entrySet().stream()
.filter(e -> e.getValue().equals(ChangeResult.UPSERTED))
.map(Map.Entry::getKey)
.map(cId -> Futures.immediateFuture(changeDataFactory.create(project, cId)))
.collect(toImmutableList());
}
return indexFutures.build();
}
}
ChangesHandle executeChangeOps(
ImmutableList<BatchUpdateListener> batchUpdateListeners, boolean dryrun) throws Exception {
logDebug("Executing change ops");
initRepository();
Repository repo = repoView.getRepository();
checkState(
repo.getRefDatabase().performsAtomicTransactions(),
"cannot use NoteDb with a repository that does not support atomic batch ref updates: %s",
repo);
ChangesHandle handle =
new ChangesHandle(
updateManagerFactory
.create(project, user)
.setBatchUpdateListeners(batchUpdateListeners)
.setChangeRepo(
repo, repoView.getRevWalk(), repoView.getInserter(), repoView.getCommands()),
dryrun,
indexAsync());
getRefLogIdent().ifPresent(handle.manager::setRefLogIdent);
handle.manager.setRefLogMessage(refLogMessage);
handle.manager.setPushCertificate(pushCert);
for (Map.Entry<Change.Id, Collection<OpData<BatchUpdateOp>>> e : ops.asMap().entrySet()) {
Change.Id id = e.getKey();
boolean dirty = false;
boolean deleted = false;
List<ChangeUpdate> changeUpdates = new ArrayList<>();
ChangeContextImpl ctx = null;
logDebug(
"Applying %d ops for change %s: %s",
e.getValue().size(),
id,
lazy(() -> e.getValue().stream().map(op -> op.getClass().getName()).collect(toSet())));
for (OpData<BatchUpdateOp> opData : e.getValue()) {
if (ctx == null) {
ctx = newChangeContext(opData.user(), id);
} else if (!ctx.getUser().equals(opData.user())) {
ctx.defaultUpdates.values().forEach(changeUpdates::add);
ctx.distinctUpdates.values().forEach(changeUpdates::add);
ctx = newChangeContext(opData.user(), id);
}
Class<? extends BatchUpdateOp> opClass = opData.op().getClass();
try (TraceContext.TraceTimer ignored =
TraceContext.newTimer(
(opClass.isAnonymousClass() ? opClass.getName() : opClass.getSimpleName())
+ "#updateChange",
Metadata.builder().projectName(project.get()).changeId(id.get()).build())) {
dirty |= opData.op().updateChange(ctx);
deleted |= ctx.deleted;
}
}
if (ctx != null) {
ctx.defaultUpdates.values().forEach(changeUpdates::add);
ctx.distinctUpdates.values().forEach(changeUpdates::add);
}
if (!dirty) {
logDebug("No ops reported dirty, short-circuiting");
handle.setResult(id, ChangeResult.SKIPPED);
continue;
}
changeUpdates.forEach(handle.manager::add);
if (deleted) {
logDebug("Change %s was deleted", id);
handle.manager.deleteChange(id);
handle.setResult(id, ChangeResult.DELETED);
} else {
handle.setResult(id, ChangeResult.UPSERTED);
}
}
return handle;
}
/**
* Creates the ref log identity that should be used for the ref updates that are done by this
* {@code BatchUpdate}.
*
* <p>The ref log identity is created for the users for which operations should be executed. If
* all operations are executed by the same user the ref log identity is created for that user. If
* operations are executed for multiple users a shared reflog identity is created.
*/
@VisibleForTesting
Optional<PersonIdent> getRefLogIdent() {
if (ops.isEmpty()) {
return Optional.empty();
}
// If all updates are done by identified users, create a shared ref log identity.
if (ops.values().stream()
.map(OpData::user)
.allMatch(currentUser -> currentUser.isIdentifiedUser())) {
return Optional.of(
refLogIdentityProvider.newRefLogIdent(
ops.values().stream()
.map(OpData::user)
.map(CurrentUser::asIdentifiedUser)
.collect(toImmutableList()),
when,
zoneId));
}
// Fail if some but not all updates are done by identified users. At the moment we do not
// support batching updates of identified users and non-identified users (e.g. updates done on
// behalf of the server).
checkState(
ops.values().stream()
.map(OpData::user)
.noneMatch(currentUser -> currentUser.isIdentifiedUser()),
"batching updates of identified users and non-identified users is not supported");
// As fallback the server identity will be used as the ref log identity.
return Optional.empty();
}
private ChangeContextImpl newChangeContext(@Nullable CurrentUser contextUser, Change.Id id) {
logDebug("Opening change %s for update", id);
Change c = newChanges.get(id);
boolean isNew = c != null;
if (!isNew) {
// Pass a synthetic change into ChangeNotes.Factory, which will take care of checking for
// existence and populating columns from the parsed notes state.
// TODO(dborowitz): This dance made more sense when using Reviewdb; consider a nicer way.
c = ChangeNotes.Factory.newChange(project, id);
} else {
logDebug("Change %s is new", id);
}
ChangeNotes notes = changeNotesFactory.createForBatchUpdate(c, !isNew);
return new ChangeContextImpl(contextUser, notes);
}
void executePostOps(Map<Change.Id, ChangeData> changeDatas) throws Exception {
for (OpData<BatchUpdateOp> opData : ops.values()) {
PostUpdateContextImpl ctx = new PostUpdateContextImpl(opData.user(), changeDatas);
try (TraceContext.TraceTimer ignored =
TraceContext.newTimer(
opData.getClass().getSimpleName() + "#postUpdate", Metadata.empty())) {
opData.op().postUpdate(ctx);
}
}
for (OpData<RepoOnlyOp> opData : repoOnlyOps) {
PostUpdateContextImpl ctx = new PostUpdateContextImpl(opData.user(), changeDatas);
try (TraceContext.TraceTimer ignored =
TraceContext.newTimer(
opData.getClass().getSimpleName() + "#postUpdate", Metadata.empty())) {
opData.op().postUpdate(ctx);
}
}
try (TraceContext.TraceTimer ignored =
TraceContext.newTimer("fireAttentionSetUpdates#postUpdate", Metadata.empty())) {
fireAttentionSetUpdateEvents(changeDatas);
}
}
private static void logDebug(String msg) {
// Only log if there is a requestId assigned, since those are the
// expensive/complicated requests like MergeOp. Doing it every time would be
// noisy.
if (RequestId.isSet()) {
logger.atFine().log("%s", msg);
}
}
private static void logDebug(String msg, @Nullable Object arg) {
// Only log if there is a requestId assigned, since those are the
// expensive/complicated requests like MergeOp. Doing it every time would be
// noisy.
if (RequestId.isSet()) {
logger.atFine().log(msg, arg);
}
}
private static void logDebug(
String msg, @Nullable Object arg1, @Nullable Object arg2, @Nullable Object arg3) {
// Only log if there is a requestId assigned, since those are the
// expensive/complicated requests like MergeOp. Doing it every time would be
// noisy.
if (RequestId.isSet()) {
logger.atFine().log(msg, arg1, arg2, arg3);
}
}
/** Data needed to execute a {@link RepoOnlyOp} or a {@link BatchUpdateOp}. */
@AutoValue
abstract static class OpData<T extends RepoOnlyOp> {
/** Op that should be executed. */
abstract T op();
/** User that should be used to execute the {@link #op}. */
abstract CurrentUser user();
static <T extends RepoOnlyOp> OpData<T> create(T op, CurrentUser user) {
return new AutoValue_BatchUpdate_OpData<>(op, user);
}
}
}