// Copyright 2017 The Bazel Authors. All rights reserved. // // 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.devtools.build.skyframe; import com.google.common.base.Preconditions; import com.google.common.base.Throwables; import com.google.common.collect.ImmutableMap; import com.google.common.collect.ImmutableSet; import com.google.common.collect.Iterables; import com.google.common.collect.Sets; import com.google.devtools.build.lib.clock.BlazeClock; import com.google.devtools.build.lib.events.Event; import com.google.devtools.build.lib.events.ExtendedEventHandler; import com.google.devtools.build.lib.profiler.Profiler; import com.google.devtools.build.lib.profiler.ProfilerTask; import com.google.devtools.build.lib.util.GroupedList.GroupedListHelper; import com.google.devtools.build.skyframe.EvaluationProgressReceiver.EvaluationState; import com.google.devtools.build.skyframe.EvaluationProgressReceiver.NodeState; import com.google.devtools.build.skyframe.GraphInconsistencyReceiver.Inconsistency; import com.google.devtools.build.skyframe.MemoizingEvaluator.EmittedEventState; import com.google.devtools.build.skyframe.NodeEntry.DependencyState; import com.google.devtools.build.skyframe.NodeEntry.DirtyState; import com.google.devtools.build.skyframe.ParallelEvaluatorContext.EnqueueParentBehavior; import com.google.devtools.build.skyframe.QueryableGraph.Reason; import com.google.devtools.build.skyframe.SkyFunctionException.ReifiedSkyFunctionException; import java.time.Duration; import java.util.Collection; import java.util.HashSet; import java.util.Iterator; import java.util.Map; import java.util.Set; import java.util.concurrent.ForkJoinPool; import java.util.logging.Logger; import javax.annotation.Nullable; /** * Defines the evaluation action used in the multi-threaded Skyframe evaluation, and constructs the * {@link ParallelEvaluatorContext} that the actions rely on. * *

This does not implement other parts of Skyframe evaluation setup and post-processing, such as * translating a set of requested top-level nodes into actions, or constructing an evaluation * result. Derived classes should do this. */ public abstract class AbstractParallelEvaluator { private static final Logger logger = Logger.getLogger(AbstractParallelEvaluator.class.getName()); final ProcessableGraph graph; final ParallelEvaluatorContext evaluatorContext; protected final CycleDetector cycleDetector; AbstractParallelEvaluator( ProcessableGraph graph, Version graphVersion, ImmutableMap skyFunctions, final ExtendedEventHandler reporter, EmittedEventState emittedEventState, EventFilter storedEventFilter, ErrorInfoManager errorInfoManager, boolean keepGoing, int threadCount, DirtyTrackingProgressReceiver progressReceiver, GraphInconsistencyReceiver graphInconsistencyReceiver, CycleDetector cycleDetector) { this.graph = graph; this.cycleDetector = cycleDetector; evaluatorContext = new ParallelEvaluatorContext( graph, graphVersion, skyFunctions, reporter, emittedEventState, keepGoing, progressReceiver, storedEventFilter, errorInfoManager, Evaluate::new, graphInconsistencyReceiver, threadCount); } AbstractParallelEvaluator( ProcessableGraph graph, Version graphVersion, ImmutableMap skyFunctions, final ExtendedEventHandler reporter, EmittedEventState emittedEventState, EventFilter storedEventFilter, ErrorInfoManager errorInfoManager, boolean keepGoing, DirtyTrackingProgressReceiver progressReceiver, GraphInconsistencyReceiver graphInconsistencyReceiver, ForkJoinPool forkJoinPool, CycleDetector cycleDetector) { this.graph = graph; this.cycleDetector = cycleDetector; evaluatorContext = new ParallelEvaluatorContext( graph, graphVersion, skyFunctions, reporter, emittedEventState, keepGoing, progressReceiver, storedEventFilter, errorInfoManager, Evaluate::new, graphInconsistencyReceiver, Preconditions.checkNotNull(forkJoinPool)); } /** * If the entry is dirty and not already rebuilding, puts it in a state so that it can rebuild. */ static void maybeMarkRebuilding(NodeEntry entry) { if (entry.isDirty() && entry.getDirtyState() != DirtyState.REBUILDING) { entry.markRebuilding(); } } enum DirtyOutcome { ALREADY_PROCESSED, NEEDS_EVALUATION } /** An action that evaluates a value. */ private class Evaluate implements Runnable { /** The name of the value to be evaluated. */ private final SkyKey skyKey; private Evaluate(SkyKey skyKey) { this.skyKey = skyKey; } private void enqueueChild( SkyKey skyKey, NodeEntry entry, SkyKey child, NodeEntry childEntry, boolean depAlreadyExists) throws InterruptedException { Preconditions.checkState(!entry.isDone(), "%s %s", skyKey, entry); DependencyState dependencyState = depAlreadyExists ? childEntry.checkIfDoneForDirtyReverseDep(skyKey) : childEntry.addReverseDepAndCheckIfDone(skyKey); switch (dependencyState) { case DONE: if (entry.signalDep(childEntry.getVersion())) { // This can only happen if there are no more children to be added. evaluatorContext.getVisitor().enqueueEvaluation(skyKey); } break; case ALREADY_EVALUATING: break; case NEEDS_SCHEDULING: evaluatorContext.getVisitor().enqueueEvaluation(child); break; } } /** * Returns true if this depGroup consists of the error transience value and the error transience * value is newer than the entry, meaning that the entry must be re-evaluated. */ private boolean invalidatedByErrorTransience(Collection depGroup, NodeEntry entry) throws InterruptedException { return depGroup.size() == 1 && depGroup.contains(ErrorTransienceValue.KEY) && !graph.get( null, Reason.OTHER, ErrorTransienceValue.KEY).getVersion().atMost(entry.getVersion()); } private DirtyOutcome maybeHandleDirtyNode(NodeEntry state) throws InterruptedException { if (!state.isDirty()) { return DirtyOutcome.NEEDS_EVALUATION; } while (state.getDirtyState().equals(DirtyState.CHECK_DEPENDENCIES)) { // Evaluating a dirty node for the first time, and checking its children to see if any // of them have changed. Note that there must be dirty children for this to happen. // Check the children group by group -- we don't want to evaluate a value that is no // longer needed because an earlier dependency changed. For example, //foo:foo depends // on target //bar:bar and is built. Then foo/BUILD is modified to remove the dependence // on bar, and bar/BUILD is deleted. Reloading //bar:bar would incorrectly throw an // exception. To avoid this, we must reload foo/BUILD first, at which point we will // discover that it has changed, and re-evaluate target //foo:foo from scratch. // On the other hand, when an action requests all of its inputs, we can safely check all // of them in parallel on a subsequent build. So we allow checking an entire group in // parallel here, if the node builder requested a group last build. // Note: every dep returned here must either have this node re-registered for it (using // checkIfDoneForDirtyReverseDep) and be registered as a direct dep of this node, or have // its reverse dep on this node removed. Failing to do either one of these would result in // a graph inconsistency, where the child had a reverse dep on this node, but this node // had no kind of dependency on the child. Collection directDepsToCheck = state.getNextDirtyDirectDeps(); if (invalidatedByErrorTransience(directDepsToCheck, state)) { // If this dep is the ErrorTransienceValue and the ErrorTransienceValue has been // updated then we need to force a rebuild. We would like to just signal the entry as // usual, but we can't, because then the ErrorTransienceValue would remain as a dep, // which would be incorrect if, for instance, the value re-evaluated to a non-error. state.forceRebuild(); graph.get(skyKey, Reason.RDEP_REMOVAL, ErrorTransienceValue.KEY).removeReverseDep(skyKey); return DirtyOutcome.NEEDS_EVALUATION; } if (!evaluatorContext.keepGoing()) { // This check ensures that we maintain the invariant that if a node with an error is // reached during a no-keep-going build, none of its currently building parents // finishes building. If the child isn't done building yet, it will detect on its own // that it has an error (see the VERIFIED_CLEAN case below). On the other hand, if it // is done, then it is the parent's responsibility to notice that, which we do here. // We check the deps for errors so that we don't continue building this node if it has // a child error. Map entriesToCheck = graph.getBatch(skyKey, Reason.OTHER, directDepsToCheck); for (Map.Entry entry : entriesToCheck.entrySet()) { if (entry.getValue().isDone() && entry.getValue().getErrorInfo() != null) { // If any child has an error, we arbitrarily add a dep on the first one (needed // for error bubbling) and throw an exception coming from it. SkyKey errorKey = entry.getKey(); NodeEntry errorEntry = entry.getValue(); state.addTemporaryDirectDeps(GroupedListHelper.create(errorKey)); errorEntry.checkIfDoneForDirtyReverseDep(skyKey); // Perform the necessary bookkeeping for any deps that are not being used. for (Map.Entry depEntry : entriesToCheck.entrySet()) { if (!depEntry.getKey().equals(errorKey)) { depEntry.getValue().removeReverseDep(skyKey); } } if (!evaluatorContext.getVisitor().preventNewEvaluations()) { // An error was already thrown in the evaluator. Don't do anything here. return DirtyOutcome.ALREADY_PROCESSED; } throw SchedulerException.ofError( errorEntry.getErrorInfo(), entry.getKey(), ImmutableSet.of(skyKey)); } } } // It is safe to add these deps back to the node -- even if one of them has changed, the // contract of pruning is that the node will request these deps again when it rebuilds. // We must add these deps before enqueuing them, so that the node knows that it depends // on them. If one of these deps is the error transience node, the check we did above // in #invalidatedByErrorTransience means that the error transience node is not newer // than this node, so we are going to mark it clean (since the error transience node is // always the last dep). state.addTemporaryDirectDepsGroupToDirtyEntry(directDepsToCheck); DepsReport depsReport = graph.analyzeDepsDoneness(skyKey, directDepsToCheck); Collection unknownStatusDeps = depsReport.hasInformation() ? depsReport : directDepsToCheck; boolean needsScheduling = false; for (int i = 0; i < directDepsToCheck.size() - unknownStatusDeps.size(); i++) { // Since all of these nodes were done at an earlier version than this one, we may safely // signal with the minimal version, since they cannot trigger a re-evaluation. needsScheduling = state.signalDep(MinimalVersion.INSTANCE); } if (needsScheduling) { Preconditions.checkState( unknownStatusDeps.isEmpty(), "Ready without all deps checked? %s %s %s", skyKey, state, unknownStatusDeps); continue; } handleKnownChildrenForDirtyNode(unknownStatusDeps, state); return DirtyOutcome.ALREADY_PROCESSED; } switch (state.getDirtyState()) { case VERIFIED_CLEAN: // No child has a changed value. This node can be marked done and its parents signaled // without any re-evaluation. Set reverseDeps = state.markClean(); // Tell the receiver that the value was not actually changed this run. evaluatorContext .getProgressReceiver() .evaluated(skyKey, new EvaluationSuccessStateSupplier(state), EvaluationState.CLEAN); if (!evaluatorContext.keepGoing() && state.getErrorInfo() != null) { if (!evaluatorContext.getVisitor().preventNewEvaluations()) { return DirtyOutcome.ALREADY_PROCESSED; } throw SchedulerException.ofError(state.getErrorInfo(), skyKey, reverseDeps); } evaluatorContext.signalValuesAndEnqueueIfReady( skyKey, reverseDeps, state.getVersion(), EnqueueParentBehavior.ENQUEUE); return DirtyOutcome.ALREADY_PROCESSED; case NEEDS_REBUILDING: maybeMarkRebuilding(state); // Fall through to REBUILDING case. case REBUILDING: return DirtyOutcome.NEEDS_EVALUATION; default: throw new IllegalStateException("key: " + skyKey + ", entry: " + state); } } private void handleKnownChildrenForDirtyNode(Collection knownChildren, NodeEntry state) throws InterruptedException { Map oldChildren = graph.getBatch(skyKey, Reason.ENQUEUING_CHILD, knownChildren); if (oldChildren.size() != knownChildren.size()) { GraphInconsistencyReceiver inconsistencyReceiver = evaluatorContext.getGraphInconsistencyReceiver(); Set missingChildren = Sets.difference(ImmutableSet.copyOf(knownChildren), oldChildren.keySet()); for (SkyKey missingChild : missingChildren) { inconsistencyReceiver.noteInconsistencyAndMaybeThrow( skyKey, missingChild, Inconsistency.CHILD_MISSING_FOR_DIRTY_NODE); } Map recreatedEntries = graph.createIfAbsentBatch(skyKey, Reason.ENQUEUING_CHILD, missingChildren); for (Map.Entry recreatedEntry : recreatedEntries.entrySet()) { enqueueChild( skyKey, state, recreatedEntry.getKey(), recreatedEntry.getValue(), /*depAlreadyExists=*/ false); } } for (Map.Entry e : oldChildren.entrySet()) { SkyKey directDep = e.getKey(); NodeEntry directDepEntry = e.getValue(); // TODO(bazel-team): If this signals the current node and makes it ready, consider // evaluating it in this thread instead of scheduling a new evaluation. enqueueChild(skyKey, state, directDep, directDepEntry, /*depAlreadyExists=*/ true); } } @Override public void run() { try { NodeEntry state = Preconditions.checkNotNull(graph.get(null, Reason.EVALUATION, skyKey), skyKey); Preconditions.checkState(state.isReady(), "%s %s", skyKey, state); try { evaluatorContext.getProgressReceiver().stateStarting(skyKey, NodeState.CHECK_DIRTY); if (maybeHandleDirtyNode(state) == DirtyOutcome.ALREADY_PROCESSED) { return; } } finally { evaluatorContext.getProgressReceiver().stateEnding(skyKey, NodeState.CHECK_DIRTY, -1); } Set oldDeps = state.getAllRemainingDirtyDirectDeps(); SkyFunctionEnvironment env; try { evaluatorContext.getProgressReceiver().stateStarting(skyKey, NodeState.INITIALIZING_ENVIRONMENT); env = new SkyFunctionEnvironment(skyKey, state.getTemporaryDirectDeps(), oldDeps, evaluatorContext); } finally { evaluatorContext.getProgressReceiver().stateEnding(skyKey, NodeState.INITIALIZING_ENVIRONMENT, -1); } SkyFunctionName functionName = skyKey.functionName(); SkyFunction factory = Preconditions.checkNotNull( evaluatorContext.getSkyFunctions().get(functionName), "Unable to find SkyFunction '%s' for node with key %s, %s", functionName, skyKey, state); SkyValue value = null; long startTime = BlazeClock.instance().nanoTime(); try { try { evaluatorContext.getProgressReceiver().stateStarting(skyKey, NodeState.COMPUTE); value = factory.compute(skyKey, env); } finally { long elapsedTimeNanos = BlazeClock.instance().nanoTime() - startTime; if (elapsedTimeNanos > 0) { evaluatorContext.getProgressReceiver().stateEnding(skyKey, NodeState.COMPUTE, elapsedTimeNanos); Profiler.instance() .logSimpleTaskDuration( startTime, Duration.ofNanos(elapsedTimeNanos), ProfilerTask.SKYFUNCTION, skyKey.functionName().getName()); } } } catch (final SkyFunctionException builderException) { ReifiedSkyFunctionException reifiedBuilderException = new ReifiedSkyFunctionException(builderException, skyKey); // In keep-going mode, we do not let SkyFunctions throw errors with missing deps -- we // will restart them when their deps are done, so we can have a definitive error and // definitive graph structure, thus avoiding non-determinism. It's completely reasonable // for SkyFunctions to throw eagerly because they do not know if they are in keep-going // mode. // Propagated transitive errors are treated the same as missing deps. if ((!evaluatorContext.keepGoing() || !env.valuesMissing()) && reifiedBuilderException.getRootCauseSkyKey().equals(skyKey)) { boolean shouldFailFast = !evaluatorContext.keepGoing() || builderException.isCatastrophic(); if (shouldFailFast) { // After we commit this error to the graph but before the doMutatingEvaluation call // completes with the error there is a race-like opportunity for the error to be used, // either by an in-flight computation or by a future computation. if (!evaluatorContext.getVisitor().preventNewEvaluations()) { // This is not the first error encountered, so we ignore it so that we can terminate // with the first error. return; } else { logger.warning( "Aborting evaluation due to " + builderException + " while evaluating " + skyKey); } } Map newlyRequestedDeps = evaluatorContext.getBatchValues( skyKey, Reason.DONE_CHECKING, env.getNewlyRequestedDeps()); boolean isTransitivelyTransient = reifiedBuilderException.isTransient(); for (NodeEntry depEntry : Iterables.concat(env.getDirectDepsValues(), newlyRequestedDeps.values())) { if (!isDoneForBuild(depEntry)) { continue; } ErrorInfo depError = depEntry.getErrorInfo(); if (depError != null) { isTransitivelyTransient |= depError.isTransitivelyTransient(); } } ErrorInfo errorInfo = evaluatorContext.getErrorInfoManager().fromException( skyKey, reifiedBuilderException, isTransitivelyTransient); registerNewlyDiscoveredDepsForDoneEntry( skyKey, state, oldDeps, env, evaluatorContext.keepGoing()); env.setError(state, errorInfo); Set rdepsToBubbleUpTo = env.commit( state, shouldFailFast ? EnqueueParentBehavior.SIGNAL : EnqueueParentBehavior.ENQUEUE); if (!shouldFailFast) { return; } throw SchedulerException.ofError(errorInfo, skyKey, rdepsToBubbleUpTo); } } catch (RuntimeException re) { // Programmer error (most likely NPE or a failed precondition in a SkyFunction). Output // some context together with the exception. String msg = prepareCrashMessage(skyKey, state.getInProgressReverseDeps()); RuntimeException ex = new RuntimeException(msg, re); evaluatorContext.getVisitor().noteCrash(ex); throw ex; } finally { env.doneBuilding(); } if (maybeEraseNodeToRestartFromScratch(skyKey, state, value)) { evaluatorContext.getVisitor().enqueueEvaluation(skyKey); return; } // Helper objects for all the newly requested deps that weren't known to the environment, // and may contain duplicate elements. GroupedListHelper newDirectDeps = env.getNewlyRequestedDeps(); if (value != null) { Preconditions.checkState( !env.valuesMissing(), "Evaluation of %s returned non-null value but requested dependencies that weren't " + "computed yet (one of %s), NodeEntry: %s", skyKey, newDirectDeps, state); try { evaluatorContext.getProgressReceiver().stateStarting(skyKey, NodeState.COMMIT); env.setValue(value); registerNewlyDiscoveredDepsForDoneEntry( skyKey, state, oldDeps, env, evaluatorContext.keepGoing()); env.commit(state, EnqueueParentBehavior.ENQUEUE); } finally { evaluatorContext.getProgressReceiver().stateEnding(skyKey, NodeState.COMMIT, -1); } return; } if (env.getDepErrorKey() != null) { Preconditions.checkState( !evaluatorContext.keepGoing(), "%s %s %s", skyKey, state, env.getDepErrorKey()); // We encountered a child error in noKeepGoing mode, so we want to fail fast. But we first // need to add the edge between the current node and the child error it requested so that // error bubbling can occur. Note that this edge will subsequently be removed during graph // cleaning (since the current node will never be committed to the graph). SkyKey childErrorKey = env.getDepErrorKey(); NodeEntry childErrorEntry = Preconditions.checkNotNull( graph.get(skyKey, Reason.OTHER, childErrorKey), "skyKey: %s, state: %s childErrorKey: %s", skyKey, state, childErrorKey); if (newDirectDeps.contains(childErrorKey)) { // Add this dep if it was just requested. In certain rare race conditions (see // MemoizingEvaluatorTest.cachedErrorCausesRestart) this dep may have already been // requested. state.addTemporaryDirectDeps(GroupedListHelper.create(childErrorKey)); DependencyState childErrorState; if (oldDeps.contains(childErrorKey)) { childErrorState = childErrorEntry.checkIfDoneForDirtyReverseDep(skyKey); } else { childErrorState = childErrorEntry.addReverseDepAndCheckIfDone(skyKey); } Preconditions.checkState( childErrorState == DependencyState.DONE, "skyKey: %s, state: %s childErrorKey: %s", skyKey, state, childErrorKey, childErrorEntry); } ErrorInfo childErrorInfo = Preconditions.checkNotNull(childErrorEntry.getErrorInfo()); evaluatorContext.getVisitor().preventNewEvaluations(); throw SchedulerException.ofError(childErrorInfo, childErrorKey, ImmutableSet.of(skyKey)); } // TODO(bazel-team): This code is not safe to interrupt, because we would lose the state in // newDirectDeps. // TODO(bazel-team): An ill-behaved SkyFunction can throw us into an infinite loop where we // add more dependencies on every run. [skyframe-core] // Add all the newly requested dependencies to the temporary direct deps. Note that // newDirectDeps does not contain any elements in common with the already existing temporary // direct deps. uniqueNewDeps will be the set of unique keys contained in newDirectDeps. Set uniqueNewDeps = state.addTemporaryDirectDeps(newDirectDeps); // If there were no newly requested dependencies, at least one of them was in error or there // is a bug in the SkyFunction implementation. The environment has collected its errors, so // we just order it to be built. if (uniqueNewDeps.isEmpty()) { // TODO(bazel-team): This means a bug in the SkyFunction. What to do? Preconditions.checkState( !env.getChildErrorInfos().isEmpty(), "Evaluation of SkyKey failed and no dependencies were requested: %s %s", skyKey, state); Preconditions.checkState( evaluatorContext.keepGoing(), "nokeep_going evaluation should have failed on first child error: %s %s %s", skyKey, state, env.getChildErrorInfos()); // If the child error was catastrophic, committing this parent to the graph is not // necessary, but since we don't do error bubbling in catastrophes, it doesn't violate any // invariants either. env.commit(state, EnqueueParentBehavior.ENQUEUE); return; } // We want to split apart the dependencies that existed for this node the last time we did // an evaluation and those that were introduced in this evaluation. To be clear, the prefix // "newDeps" refers to newly discovered this time around after a SkyFunction#compute call // and not to be confused with the oldDeps variable which refers to the last evaluation, // (ie) a prior call to ParallelEvaluator#eval). Set newDepsThatWerentInTheLastEvaluation = Sets.difference(uniqueNewDeps, oldDeps); Set newDepsThatWereInTheLastEvaluation = Sets.difference(uniqueNewDeps, newDepsThatWerentInTheLastEvaluation); InterruptibleSupplier> newDepsThatWerentInTheLastEvaluationNodes = graph.createIfAbsentBatchAsync( skyKey, Reason.RDEP_ADDITION, newDepsThatWerentInTheLastEvaluation); handleKnownChildrenForDirtyNode(newDepsThatWereInTheLastEvaluation, state); for (Map.Entry e : newDepsThatWerentInTheLastEvaluationNodes.get().entrySet()) { SkyKey newDirectDep = e.getKey(); NodeEntry newDirectDepEntry = e.getValue(); enqueueChild(skyKey, state, newDirectDep, newDirectDepEntry, /*depAlreadyExists=*/ false); } // It is critical that there is no code below this point in the try block. } catch (InterruptedException ie) { // InterruptedException cannot be thrown by Runnable.run, so we must wrap it. // Interrupts can be caught by both the Evaluator and the AbstractQueueVisitor. // The former will unwrap the IE and propagate it as is; the latter will throw a new IE. throw SchedulerException.ofInterruption(ie, skyKey); } } private String prepareCrashMessage(SkyKey skyKey, Iterable reverseDeps) { StringBuilder reverseDepDump = new StringBuilder(); for (SkyKey key : reverseDeps) { if (reverseDepDump.length() > MAX_REVERSEDEP_DUMP_LENGTH) { reverseDepDump.append(", ..."); break; } if (reverseDepDump.length() > 0) { reverseDepDump.append(", "); } reverseDepDump.append("'"); reverseDepDump.append(key.toString()); reverseDepDump.append("'"); } return String.format( "Unrecoverable error while evaluating node '%s' (requested by nodes %s)", skyKey, reverseDepDump); } private static final int MAX_REVERSEDEP_DUMP_LENGTH = 1000; } private boolean maybeEraseNodeToRestartFromScratch( SkyKey key, NodeEntry entry, SkyValue returnedValue) { if (!SkyFunction.SENTINEL_FOR_RESTART_FROM_SCRATCH.equals(returnedValue)) { return false; } evaluatorContext .getGraphInconsistencyReceiver() .noteInconsistencyAndMaybeThrow(key, /*otherKey=*/ null, Inconsistency.RESET_REQUESTED); entry.resetForRestartFromScratch(); // TODO(mschaller): rdeps of children have to be handled here. If the graph does not keep edges, // nothing has to be done, since there are no reverse deps to keep consistent. If the graph // keeps edges, it's a harder problem. The reverse deps could just be removed, but in the case // that this node is dirty, the deps shouldn't be removed, they should just be transformed back // to "known reverse deps" from "reverse deps declared during this evaluation" (the inverse of // NodeEntry#checkIfDoneForDirtyReverseDep). Such a method doesn't currently exist, but could. return true; } void propagateEvaluatorContextCrashIfAny() { if (!evaluatorContext.getVisitor().getCrashes().isEmpty()) { evaluatorContext .getReporter() .handle(Event.error("Crashes detected: " + evaluatorContext.getVisitor().getCrashes())); throw Preconditions.checkNotNull( Iterables.getFirst(evaluatorContext.getVisitor().getCrashes(), null)); } } void propagateInterruption(SchedulerException e) throws InterruptedException { boolean mustThrowInterrupt = Thread.interrupted(); Throwables.propagateIfPossible(e.getCause(), InterruptedException.class); if (mustThrowInterrupt) { // As per the contract of AbstractQueueVisitor#work, if an unchecked exception is thrown and // the build is interrupted, the thrown exception is what will be rethrown. Since the user // presumably wanted to interrupt the build, we ignore the thrown SchedulerException (which // doesn't indicate a programming bug) and throw an InterruptedException. throw new InterruptedException(); } } /** * Add any additional deps that were registered during the run of a builder that finished by * creating a node or throwing an error. Builders may throw errors even if all their deps were not * provided -- we trust that a SkyFunction might know it should throw an error even if not all of * its requested deps are done. However, that means we're assuming the SkyFunction would throw * that same error if all of its requested deps were done. Unfortunately, there is no way to * enforce that condition. * * @throws InterruptedException */ private void registerNewlyDiscoveredDepsForDoneEntry( SkyKey skyKey, NodeEntry entry, Set oldDeps, SkyFunctionEnvironment env, boolean keepGoing) throws InterruptedException { // We don't expect any unfinished deps in a keep-going build. if (!keepGoing) { Map newlyRequestedDepMap = graph.getBatch(skyKey, Reason.DONE_CHECKING, env.getNewlyRequestedDeps()); Iterator it = env.getNewlyRequestedDeps().iterator(); if (!it.hasNext()) { return; } Set unfinishedDeps = new HashSet<>(); while (it.hasNext()) { SkyKey dep = it.next(); if (!isDoneForBuild(newlyRequestedDepMap.get(dep))) { unfinishedDeps.add(dep); } } env.getNewlyRequestedDeps().remove(unfinishedDeps); } Set uniqueNewDeps = entry.addTemporaryDirectDeps(env.getNewlyRequestedDeps()); Set newlyAddedNewDeps = Sets.difference(uniqueNewDeps, oldDeps); Set previouslyRegisteredNewDeps = Sets.difference(uniqueNewDeps, newlyAddedNewDeps); InterruptibleSupplier> newlyAddedNewDepNodes = graph.getBatchAsync(skyKey, Reason.RDEP_ADDITION, newlyAddedNewDeps); for (Map.Entry newDep : graph.getBatch(skyKey, Reason.SIGNAL_DEP, previouslyRegisteredNewDeps).entrySet()) { // Note that this depEntry can't be null. In a keep-going build, we expect all deps to be // done. In a non-keep-going build, If env.newlyRequestedDeps contained a key with a // null entry, then it would have been added to unfinishedDeps and then removed from // env.newlyRequestedDeps just above this loop. NodeEntry depEntry = newDep.getValue(); DependencyState triState = depEntry.checkIfDoneForDirtyReverseDep(skyKey); Preconditions.checkState( DependencyState.DONE == triState, "new dep %s was not already done for %s. NodeEntry: %s. DepNodeEntry: %s", newDep, skyKey, entry, depEntry); entry.signalDep(); } for (SkyKey newDep : newlyAddedNewDeps) { // Note that this depEntry can't be null. In a keep-going build, we expect all deps to be // done. In a non-keep-going build, If env.newlyRequestedDeps contained a key with a // null entry, then it would have been added to unfinishedDeps and then removed from // env.newlyRequestedDeps just above this loop. NodeEntry depEntry = Preconditions.checkNotNull(newlyAddedNewDepNodes.get().get(newDep), newDep); DependencyState triState = depEntry.addReverseDepAndCheckIfDone(skyKey); Preconditions.checkState( DependencyState.DONE == triState, "new dep %s was not already done for %s. NodeEntry: %s. DepNodeEntry: %s", newDep, skyKey, entry, depEntry); entry.signalDep(); } Preconditions.checkState( entry.isReady(), "%s %s %s", skyKey, entry, env.getNewlyRequestedDeps()); } /** * Return true if the entry does not need to be re-evaluated this build. The entry will need to be * re-evaluated if it is not done, but also if it was not completely evaluated last build and this * build is keepGoing. */ static boolean isDoneForBuild(@Nullable NodeEntry entry) { return entry != null && entry.isDone(); } }