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bazel / bazel / refs/heads/staging / . / src / main / java / com / google / devtools / build / lib / skyframe / SkyframeExecutor.java
blob: ec365660ce3ec85a5d4af5d685358c882b3b4131 [file] [log] [blame]
// Copyright 2014 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.lib.skyframe;
import static com.google.devtools.build.lib.concurrent.Uninterruptibles.callUninterruptibly;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.Function;
import com.google.common.base.Preconditions;
import com.google.common.base.Predicate;
import com.google.common.base.Predicates;
import com.google.common.base.Stopwatch;
import com.google.common.base.Supplier;
import com.google.common.base.Throwables;
import com.google.common.cache.Cache;
import com.google.common.cache.CacheBuilder;
import com.google.common.collect.ArrayListMultimap;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.ImmutableMultimap;
import com.google.common.collect.ImmutableSet;
import com.google.common.collect.Iterables;
import com.google.common.collect.Maps;
import com.google.common.collect.Multimap;
import com.google.common.collect.Range;
import com.google.common.eventbus.EventBus;
import com.google.devtools.build.lib.actions.ActionAnalysisMetadata;
import com.google.devtools.build.lib.actions.ActionCacheChecker;
import com.google.devtools.build.lib.actions.ActionExecutionContextFactory;
import com.google.devtools.build.lib.actions.ActionExecutionStatusReporter;
import com.google.devtools.build.lib.actions.ActionGraph;
import com.google.devtools.build.lib.actions.ActionInputFileCache;
import com.google.devtools.build.lib.actions.ActionInputPrefetcher;
import com.google.devtools.build.lib.actions.ActionLogBufferPathGenerator;
import com.google.devtools.build.lib.actions.ActionLookupValue;
import com.google.devtools.build.lib.actions.Artifact;
import com.google.devtools.build.lib.actions.ArtifactFactory;
import com.google.devtools.build.lib.actions.ArtifactOwner;
import com.google.devtools.build.lib.actions.EnvironmentalExecException;
import com.google.devtools.build.lib.actions.Executor;
import com.google.devtools.build.lib.actions.ResourceManager;
import com.google.devtools.build.lib.actions.Root;
import com.google.devtools.build.lib.analysis.AspectCollection;
import com.google.devtools.build.lib.analysis.BlazeDirectories;
import com.google.devtools.build.lib.analysis.ConfiguredAspect;
import com.google.devtools.build.lib.analysis.ConfiguredRuleClassProvider;
import com.google.devtools.build.lib.analysis.ConfiguredTarget;
import com.google.devtools.build.lib.analysis.Dependency;
import com.google.devtools.build.lib.analysis.ToolchainContext;
import com.google.devtools.build.lib.analysis.TopLevelArtifactContext;
import com.google.devtools.build.lib.analysis.WorkspaceStatusAction;
import com.google.devtools.build.lib.analysis.WorkspaceStatusAction.Factory;
import com.google.devtools.build.lib.analysis.buildinfo.BuildInfoFactory;
import com.google.devtools.build.lib.analysis.buildinfo.BuildInfoFactory.BuildInfoKey;
import com.google.devtools.build.lib.analysis.config.BuildConfiguration;
import com.google.devtools.build.lib.analysis.config.BuildConfigurationCollection;
import com.google.devtools.build.lib.analysis.config.BuildOptions;
import com.google.devtools.build.lib.analysis.config.ConfigurationFragmentFactory;
import com.google.devtools.build.lib.analysis.config.ConfigurationResolver;
import com.google.devtools.build.lib.analysis.config.HostTransition;
import com.google.devtools.build.lib.analysis.config.InvalidConfigurationException;
import com.google.devtools.build.lib.analysis.config.PatchTransition;
import com.google.devtools.build.lib.analysis.configuredtargets.MergedConfiguredTarget;
import com.google.devtools.build.lib.analysis.configuredtargets.MergedConfiguredTarget.DuplicateException;
import com.google.devtools.build.lib.cmdline.Label;
import com.google.devtools.build.lib.cmdline.LabelSyntaxException;
import com.google.devtools.build.lib.cmdline.PackageIdentifier;
import com.google.devtools.build.lib.cmdline.TargetParsingException;
import com.google.devtools.build.lib.concurrent.ThreadSafety;
import com.google.devtools.build.lib.concurrent.ThreadSafety.ThreadCompatible;
import com.google.devtools.build.lib.events.ErrorSensingEventHandler;
import com.google.devtools.build.lib.events.EventHandler;
import com.google.devtools.build.lib.events.ExtendedEventHandler;
import com.google.devtools.build.lib.events.Reporter;
import com.google.devtools.build.lib.packages.AspectDescriptor;
import com.google.devtools.build.lib.packages.AstAfterPreprocessing;
import com.google.devtools.build.lib.packages.Attribute;
import com.google.devtools.build.lib.packages.Attribute.ConfigurationTransition;
import com.google.devtools.build.lib.packages.BuildFileContainsErrorsException;
import com.google.devtools.build.lib.packages.NoSuchPackageException;
import com.google.devtools.build.lib.packages.NoSuchThingException;
import com.google.devtools.build.lib.packages.Package;
import com.google.devtools.build.lib.packages.Package.Builder;
import com.google.devtools.build.lib.packages.PackageFactory;
import com.google.devtools.build.lib.packages.RuleClassProvider;
import com.google.devtools.build.lib.packages.RuleVisibility;
import com.google.devtools.build.lib.packages.SkylarkSemanticsOptions;
import com.google.devtools.build.lib.pkgcache.LoadingCallback;
import com.google.devtools.build.lib.pkgcache.LoadingFailedException;
import com.google.devtools.build.lib.pkgcache.LoadingOptions;
import com.google.devtools.build.lib.pkgcache.LoadingPhaseCompleteEvent;
import com.google.devtools.build.lib.pkgcache.LoadingPhaseRunner;
import com.google.devtools.build.lib.pkgcache.LoadingResult;
import com.google.devtools.build.lib.pkgcache.PackageCacheOptions;
import com.google.devtools.build.lib.pkgcache.PackageManager;
import com.google.devtools.build.lib.pkgcache.PackageManager.PackageManagerStatistics;
import com.google.devtools.build.lib.pkgcache.PathPackageLocator;
import com.google.devtools.build.lib.pkgcache.TargetParsingPhaseTimeEvent;
import com.google.devtools.build.lib.pkgcache.TestFilter;
import com.google.devtools.build.lib.pkgcache.TransitivePackageLoader;
import com.google.devtools.build.lib.profiler.AutoProfiler;
import com.google.devtools.build.lib.skyframe.AspectValue.AspectValueKey;
import com.google.devtools.build.lib.skyframe.DirtinessCheckerUtils.FileDirtinessChecker;
import com.google.devtools.build.lib.skyframe.ExternalFilesHelper.ExternalFileAction;
import com.google.devtools.build.lib.skyframe.PackageFunction.ActionOnIOExceptionReadingBuildFile;
import com.google.devtools.build.lib.skyframe.PackageFunction.CacheEntryWithGlobDeps;
import com.google.devtools.build.lib.skyframe.PackageLookupFunction.CrossRepositoryLabelViolationStrategy;
import com.google.devtools.build.lib.skyframe.PackageLookupValue.BuildFileName;
import com.google.devtools.build.lib.skyframe.SkyframeActionExecutor.ActionCompletedReceiver;
import com.google.devtools.build.lib.skyframe.SkyframeActionExecutor.ProgressSupplier;
import com.google.devtools.build.lib.skyframe.TargetPatternValue.TargetPatternKey;
import com.google.devtools.build.lib.skyframe.ToolchainUtil.ToolchainContextException;
import com.google.devtools.build.lib.util.AbruptExitException;
import com.google.devtools.build.lib.util.ResourceUsage;
import com.google.devtools.build.lib.util.io.TimestampGranularityMonitor;
import com.google.devtools.build.lib.vfs.Dirent;
import com.google.devtools.build.lib.vfs.FileSystem;
import com.google.devtools.build.lib.vfs.ModifiedFileSet;
import com.google.devtools.build.lib.vfs.Path;
import com.google.devtools.build.lib.vfs.PathFragment;
import com.google.devtools.build.lib.vfs.RootedPath;
import com.google.devtools.build.lib.vfs.UnixGlob;
import com.google.devtools.build.skyframe.BuildDriver;
import com.google.devtools.build.skyframe.CycleInfo;
import com.google.devtools.build.skyframe.CyclesReporter;
import com.google.devtools.build.skyframe.Differencer;
import com.google.devtools.build.skyframe.Differencer.DiffWithDelta.Delta;
import com.google.devtools.build.skyframe.ErrorInfo;
import com.google.devtools.build.skyframe.EvaluationProgressReceiver;
import com.google.devtools.build.skyframe.EvaluationResult;
import com.google.devtools.build.skyframe.ImmutableDiff;
import com.google.devtools.build.skyframe.Injectable;
import com.google.devtools.build.skyframe.MemoizingEvaluator;
import com.google.devtools.build.skyframe.MemoizingEvaluator.EvaluatorSupplier;
import com.google.devtools.build.skyframe.SkyFunction;
import com.google.devtools.build.skyframe.SkyFunctionName;
import com.google.devtools.build.skyframe.SkyKey;
import com.google.devtools.build.skyframe.SkyValue;
import com.google.devtools.build.skyframe.WalkableGraph.WalkableGraphFactory;
import com.google.devtools.common.options.OptionsClassProvider;
import com.google.devtools.common.options.OptionsProvider;
import java.io.PrintStream;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;
import java.util.Set;
import java.util.UUID;
import java.util.concurrent.Callable;
import java.util.concurrent.Semaphore;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.concurrent.atomic.AtomicReference;
import java.util.logging.Logger;
import javax.annotation.Nullable;
/**
* A helper object to support Skyframe-driven execution.
*
* <p>This object is mostly used to inject external state, such as the executor engine or
* some additional artifacts (workspace status and build info artifacts) into SkyFunctions
* for use during the build.
*/
public abstract class SkyframeExecutor implements WalkableGraphFactory {
private final EvaluatorSupplier evaluatorSupplier;
protected MemoizingEvaluator memoizingEvaluator;
private final MemoizingEvaluator.EmittedEventState emittedEventState =
new MemoizingEvaluator.EmittedEventState();
private final PackageFactory pkgFactory;
private final WorkspaceStatusAction.Factory workspaceStatusActionFactory;
private final FileSystem fileSystem;
private final BlazeDirectories directories;
protected final ExternalFilesHelper externalFilesHelper;
@Nullable protected OutputService outputService;
// TODO(bazel-team): Figure out how to handle value builders that block internally. Blocking
// operations may need to be handled in another (bigger?) thread pool. Also, we should detect
// the number of cores and use that as the thread-pool size for CPU-bound operations.
// I just bumped this to 200 to get reasonable execution phase performance; that may cause
// significant overhead for CPU-bound processes (i.e. analysis). [skyframe-analysis]
@VisibleForTesting
public static final int DEFAULT_THREAD_COUNT =
// Reduce thread count while running tests of Bazel. Test cases are typically small, and large
// thread pools vying for a relatively small number of CPU cores may induce non-optimal
// performance.
System.getenv("TEST_TMPDIR") == null ? 200 : 5;
// Cache of partially constructed Package instances, stored between reruns of the PackageFunction
// (because of missing dependencies, within the same evaluate() run) to avoid loading the same
// package twice (first time loading to find subincludes and declare value dependencies).
// TODO(bazel-team): remove this cache once we have skyframe-native package loading
// [skyframe-loading]
private final Cache<PackageIdentifier, CacheEntryWithGlobDeps<Package.Builder>>
packageFunctionCache = newPkgFunctionCache();
private final Cache<PackageIdentifier, CacheEntryWithGlobDeps<AstAfterPreprocessing>> astCache =
newAstCache();
private final AtomicInteger numPackagesLoaded = new AtomicInteger(0);
private final PackageProgressReceiver packageProgress = new PackageProgressReceiver();
protected SkyframeBuildView skyframeBuildView;
private ActionLogBufferPathGenerator actionLogBufferPathGenerator;
protected BuildDriver buildDriver;
// AtomicReferences are used here as mutable boxes shared with value builders.
private final AtomicBoolean showLoadingProgress = new AtomicBoolean();
protected final AtomicReference<UnixGlob.FilesystemCalls> syscalls =
new AtomicReference<>(UnixGlob.DEFAULT_SYSCALLS);
protected final AtomicReference<PathPackageLocator> pkgLocator =
new AtomicReference<>();
protected final AtomicReference<ImmutableSet<PackageIdentifier>> deletedPackages =
new AtomicReference<>(ImmutableSet.<PackageIdentifier>of());
private final AtomicReference<EventBus> eventBus = new AtomicReference<>();
protected final AtomicReference<TimestampGranularityMonitor> tsgm =
new AtomicReference<>();
protected final AtomicReference<Map<String, String>> clientEnv = new AtomicReference<>();
private final ImmutableMap<BuildInfoKey, BuildInfoFactory> buildInfoFactories;
// Under normal circumstances, the artifact factory persists for the life of a Blaze server, but
// since it is not yet created when we create the value builders, we have to use a supplier,
// initialized when the build view is created.
private final MutableSupplier<ArtifactFactory> artifactFactory = new MutableSupplier<>();
// Used to give to WriteBuildInfoAction via a supplier. Relying on BuildVariableValue.BUILD_ID
// would be preferable, but we have no way to have the Action depend on that value directly.
// Having the BuildInfoFunction own the supplier is currently not possible either, because then
// it would be invalidated on every build, since it would depend on the build id value.
private MutableSupplier<UUID> buildId = new MutableSupplier<>();
protected boolean active = true;
private final SkyframePackageManager packageManager;
private final ResourceManager resourceManager;
/** Used to lock evaluator on legacy calls to get existing values. */
private final Object valueLookupLock = new Object();
private final AtomicReference<ActionExecutionStatusReporter> statusReporterRef =
new AtomicReference<>();
private final SkyframeActionExecutor skyframeActionExecutor;
private CompletionReceiver actionExecutionFunction;
protected SkyframeProgressReceiver progressReceiver;
private final AtomicReference<CyclesReporter> cyclesReporter = new AtomicReference<>();
protected int modifiedFiles;
protected int outputDirtyFiles;
protected int modifiedFilesDuringPreviousBuild;
private final Predicate<PathFragment> allowedMissingInputs;
private final ExternalFileAction externalFileAction;
private final ImmutableMap<SkyFunctionName, SkyFunction> extraSkyFunctions;
protected SkyframeIncrementalBuildMonitor incrementalBuildMonitor =
new SkyframeIncrementalBuildMonitor();
protected final MutableSupplier<Boolean> removeActionsAfterEvaluation = new MutableSupplier<>();
private MutableSupplier<ImmutableList<ConfigurationFragmentFactory>> configurationFragments =
new MutableSupplier<>();
private final PathFragment blacklistedPackagePrefixesFile;
private final RuleClassProvider ruleClassProvider;
private final CrossRepositoryLabelViolationStrategy crossRepositoryLabelViolationStrategy;
private final List<BuildFileName> buildFilesByPriority;
private final ActionOnIOExceptionReadingBuildFile actionOnIOExceptionReadingBuildFile;
private PerBuildSyscallCache perBuildSyscallCache;
private int lastConcurrencyLevel = -1;
private static final Logger logger = Logger.getLogger(SkyframeExecutor.class.getName());
protected SkyframeExecutor(
EvaluatorSupplier evaluatorSupplier,
PackageFactory pkgFactory,
FileSystem fileSystem,
BlazeDirectories directories,
Factory workspaceStatusActionFactory,
ImmutableList<BuildInfoFactory> buildInfoFactories,
Predicate<PathFragment> allowedMissingInputs,
ImmutableMap<SkyFunctionName, SkyFunction> extraSkyFunctions,
ExternalFileAction externalFileAction,
PathFragment blacklistedPackagePrefixesFile,
CrossRepositoryLabelViolationStrategy crossRepositoryLabelViolationStrategy,
List<BuildFileName> buildFilesByPriority,
ActionOnIOExceptionReadingBuildFile actionOnIOExceptionReadingBuildFile) {
// Strictly speaking, these arguments are not required for initialization, but all current
// callsites have them at hand, so we might as well set them during construction.
this.evaluatorSupplier = evaluatorSupplier;
this.pkgFactory = pkgFactory;
this.pkgFactory.setSyscalls(syscalls);
this.workspaceStatusActionFactory = workspaceStatusActionFactory;
this.packageManager = new SkyframePackageManager(
new SkyframePackageLoader(), new SkyframeTransitivePackageLoader(),
syscalls, cyclesReporter, pkgLocator, numPackagesLoaded, this);
this.resourceManager = ResourceManager.instance();
this.skyframeActionExecutor = new SkyframeActionExecutor(eventBus, statusReporterRef);
this.fileSystem = fileSystem;
this.directories = Preconditions.checkNotNull(directories);
ImmutableMap.Builder<BuildInfoKey, BuildInfoFactory> factoryMapBuilder = ImmutableMap.builder();
for (BuildInfoFactory factory : buildInfoFactories) {
factoryMapBuilder.put(factory.getKey(), factory);
}
this.buildInfoFactories = factoryMapBuilder.build();
this.allowedMissingInputs = allowedMissingInputs;
this.extraSkyFunctions = extraSkyFunctions;
this.externalFileAction = externalFileAction;
this.blacklistedPackagePrefixesFile = blacklistedPackagePrefixesFile;
this.ruleClassProvider = pkgFactory.getRuleClassProvider();
this.skyframeBuildView = new SkyframeBuildView(
directories,
this,
(ConfiguredRuleClassProvider) ruleClassProvider);
this.artifactFactory.set(skyframeBuildView.getArtifactFactory());
this.externalFilesHelper = new ExternalFilesHelper(
pkgLocator, this.externalFileAction, directories);
this.crossRepositoryLabelViolationStrategy = crossRepositoryLabelViolationStrategy;
this.buildFilesByPriority = buildFilesByPriority;
this.actionOnIOExceptionReadingBuildFile = actionOnIOExceptionReadingBuildFile;
this.removeActionsAfterEvaluation.set(false);
}
private ImmutableMap<SkyFunctionName, SkyFunction> skyFunctions(
PackageFactory pkgFactory,
Predicate<PathFragment> allowedMissingInputs) {
ConfiguredRuleClassProvider ruleClassProvider =
(ConfiguredRuleClassProvider) pkgFactory.getRuleClassProvider();
// TODO(janakr): use this semaphore to bound memory usage for SkyFunctions besides
// ConfiguredTargetFunction that may have a large temporary memory blow-up.
Semaphore cpuBoundSemaphore = new Semaphore(ResourceUsage.getAvailableProcessors());
// We use an immutable map builder for the nice side effect that it throws if a duplicate key
// is inserted.
ImmutableMap.Builder<SkyFunctionName, SkyFunction> map = ImmutableMap.builder();
map.put(SkyFunctions.PRECOMPUTED, new PrecomputedFunction());
map.put(SkyFunctions.CLIENT_ENVIRONMENT_VARIABLE, new ClientEnvironmentFunction(clientEnv));
map.put(SkyFunctions.ACTION_ENVIRONMENT_VARIABLE, new ActionEnvironmentFunction());
map.put(SkyFunctions.FILE_STATE, new FileStateFunction(tsgm, externalFilesHelper));
map.put(SkyFunctions.DIRECTORY_LISTING_STATE,
new DirectoryListingStateFunction(externalFilesHelper));
map.put(SkyFunctions.FILE_SYMLINK_CYCLE_UNIQUENESS,
new FileSymlinkCycleUniquenessFunction());
map.put(SkyFunctions.FILE_SYMLINK_INFINITE_EXPANSION_UNIQUENESS,
new FileSymlinkInfiniteExpansionUniquenessFunction());
map.put(SkyFunctions.FILE, new FileFunction(pkgLocator));
map.put(SkyFunctions.DIRECTORY_LISTING, new DirectoryListingFunction());
map.put(
SkyFunctions.PACKAGE_LOOKUP,
new PackageLookupFunction(
deletedPackages, crossRepositoryLabelViolationStrategy, buildFilesByPriority));
map.put(SkyFunctions.CONTAINING_PACKAGE_LOOKUP, new ContainingPackageLookupFunction());
map.put(SkyFunctions.AST_FILE_LOOKUP, new ASTFileLookupFunction(ruleClassProvider));
map.put(
SkyFunctions.SKYLARK_IMPORTS_LOOKUP,
newSkylarkImportLookupFunction(ruleClassProvider, pkgFactory));
map.put(SkyFunctions.GLOB, newGlobFunction());
map.put(SkyFunctions.TARGET_PATTERN, new TargetPatternFunction());
map.put(SkyFunctions.PREPARE_DEPS_OF_PATTERNS, new PrepareDepsOfPatternsFunction());
map.put(SkyFunctions.PREPARE_DEPS_OF_PATTERN, new PrepareDepsOfPatternFunction(pkgLocator));
map.put(
SkyFunctions.PREPARE_DEPS_OF_TARGETS_UNDER_DIRECTORY,
new PrepareDepsOfTargetsUnderDirectoryFunction(directories));
map.put(SkyFunctions.COLLECT_TARGETS_IN_PACKAGE, new CollectTargetsInPackageFunction());
map.put(
SkyFunctions.COLLECT_PACKAGES_UNDER_DIRECTORY,
new CollectPackagesUnderDirectoryFunction(directories));
map.put(SkyFunctions.BLACKLISTED_PACKAGE_PREFIXES, new BlacklistedPackagePrefixesFunction());
map.put(SkyFunctions.TESTS_IN_SUITE, new TestsInSuiteFunction());
map.put(SkyFunctions.TEST_SUITE_EXPANSION, new TestSuiteExpansionFunction());
map.put(SkyFunctions.TARGET_PATTERN_PHASE, new TargetPatternPhaseFunction());
map.put(SkyFunctions.RECURSIVE_PKG, new RecursivePkgFunction(directories));
map.put(
SkyFunctions.PACKAGE,
newPackageFunction(
pkgFactory,
packageManager,
showLoadingProgress,
packageFunctionCache,
astCache,
numPackagesLoaded,
ruleClassProvider,
packageProgress));
map.put(SkyFunctions.PACKAGE_ERROR, new PackageErrorFunction());
map.put(SkyFunctions.TARGET_MARKER, new TargetMarkerFunction());
map.put(SkyFunctions.TRANSITIVE_TARGET, new TransitiveTargetFunction(ruleClassProvider));
map.put(Label.TRANSITIVE_TRAVERSAL, new TransitiveTraversalFunction());
map.put(
SkyFunctions.CONFIGURED_TARGET,
new ConfiguredTargetFunction(
new BuildViewProvider(),
ruleClassProvider,
cpuBoundSemaphore,
removeActionsAfterEvaluation));
map.put(
SkyFunctions.ASPECT,
new AspectFunction(
new BuildViewProvider(), ruleClassProvider, removeActionsAfterEvaluation));
map.put(SkyFunctions.LOAD_SKYLARK_ASPECT, new ToplevelSkylarkAspectFunction());
map.put(SkyFunctions.POST_CONFIGURED_TARGET,
new PostConfiguredTargetFunction(new BuildViewProvider(), ruleClassProvider));
map.put(SkyFunctions.BUILD_CONFIGURATION,
new BuildConfigurationFunction(directories, ruleClassProvider));
map.put(
SkyFunctions.CONFIGURATION_FRAGMENT,
new ConfigurationFragmentFunction(configurationFragments, ruleClassProvider, directories));
map.put(SkyFunctions.WORKSPACE_NAME, new WorkspaceNameFunction());
map.put(SkyFunctions.WORKSPACE_AST, new WorkspaceASTFunction(ruleClassProvider));
map.put(
SkyFunctions.WORKSPACE_FILE,
new WorkspaceFileFunction(ruleClassProvider, pkgFactory, directories));
map.put(SkyFunctions.EXTERNAL_PACKAGE, new ExternalPackageFunction());
map.put(SkyFunctions.TARGET_COMPLETION, CompletionFunction.targetCompletionFunction(eventBus));
map.put(SkyFunctions.ASPECT_COMPLETION, CompletionFunction.aspectCompletionFunction(eventBus));
map.put(SkyFunctions.TEST_COMPLETION, new TestCompletionFunction());
map.put(SkyFunctions.ARTIFACT, new ArtifactFunction(allowedMissingInputs));
map.put(
SkyFunctions.BUILD_INFO_COLLECTION,
new BuildInfoCollectionFunction(
artifactFactory, buildInfoFactories, removeActionsAfterEvaluation));
map.put(
SkyFunctions.BUILD_INFO,
new WorkspaceStatusFunction(removeActionsAfterEvaluation, this::makeWorkspaceStatusAction));
map.put(SkyFunctions.COVERAGE_REPORT, new CoverageReportFunction(removeActionsAfterEvaluation));
ActionExecutionFunction actionExecutionFunction =
new ActionExecutionFunction(skyframeActionExecutor, tsgm);
map.put(SkyFunctions.ACTION_EXECUTION, actionExecutionFunction);
this.actionExecutionFunction = actionExecutionFunction;
map.put(SkyFunctions.RECURSIVE_FILESYSTEM_TRAVERSAL,
new RecursiveFilesystemTraversalFunction());
map.put(SkyFunctions.FILESET_ENTRY, new FilesetEntryFunction());
map.put(
SkyFunctions.ACTION_TEMPLATE_EXPANSION,
new ActionTemplateExpansionFunction(removeActionsAfterEvaluation));
map.put(SkyFunctions.LOCAL_REPOSITORY_LOOKUP, new LocalRepositoryLookupFunction());
map.put(SkyFunctions.REGISTERED_TOOLCHAINS, new RegisteredToolchainsFunction());
map.put(SkyFunctions.TOOLCHAIN_RESOLUTION, new ToolchainResolutionFunction());
map.putAll(extraSkyFunctions);
return map.build();
}
protected SkyFunction newGlobFunction() {
return new GlobFunction(/*alwaysUseDirListing=*/false);
}
protected PackageFunction newPackageFunction(
PackageFactory pkgFactory,
PackageManager packageManager,
AtomicBoolean showLoadingProgress,
Cache<PackageIdentifier, CacheEntryWithGlobDeps<Builder>> packageFunctionCache,
Cache<PackageIdentifier, CacheEntryWithGlobDeps<AstAfterPreprocessing>> astCache,
AtomicInteger numPackagesLoaded,
RuleClassProvider ruleClassProvider,
PackageProgressReceiver packageProgress) {
return new PackageFunction(
pkgFactory,
packageManager,
showLoadingProgress,
packageFunctionCache,
astCache,
numPackagesLoaded,
null,
packageProgress,
actionOnIOExceptionReadingBuildFile);
}
protected SkyFunction newSkylarkImportLookupFunction(
RuleClassProvider ruleClassProvider, PackageFactory pkgFactory) {
return new SkylarkImportLookupFunction(ruleClassProvider, this.pkgFactory);
}
protected PerBuildSyscallCache newPerBuildSyscallCache(int concurrencyLevel) {
return PerBuildSyscallCache.newBuilder().setConcurrencyLevel(concurrencyLevel).build();
}
/**
* Gets a (possibly cached) syscalls cache, re-initialized each build.
*
* <p>We cache the syscalls cache if possible because construction of the cache is surprisingly
* expensive, and is on the critical path of null builds.
*/
protected final PerBuildSyscallCache getPerBuildSyscallCache(int concurrencyLevel) {
if (perBuildSyscallCache != null && lastConcurrencyLevel == concurrencyLevel) {
perBuildSyscallCache.clear();
return perBuildSyscallCache;
}
lastConcurrencyLevel = concurrencyLevel;
perBuildSyscallCache = newPerBuildSyscallCache(concurrencyLevel);
return perBuildSyscallCache;
}
@ThreadCompatible
public void setActive(boolean active) {
this.active = active;
}
protected void checkActive() {
Preconditions.checkState(active);
}
public void configureActionExecutor(
ActionInputFileCache fileCache, ActionInputPrefetcher actionInputPrefetcher) {
this.skyframeActionExecutor.configure(fileCache, actionInputPrefetcher);
}
public void dump(boolean summarize, PrintStream out) {
memoizingEvaluator.dump(summarize, out);
}
public abstract void dumpPackages(PrintStream out);
public void setOutputService(OutputService outputService) {
this.outputService = outputService;
}
/** Inform this SkyframeExecutor that a new command is starting. */
public void noteCommandStart() {}
/**
* Notify listeners about changed files, and release any associated memory afterwards.
*/
public void drainChangedFiles() {
incrementalBuildMonitor.alertListeners(getEventBus());
incrementalBuildMonitor = null;
}
@VisibleForTesting
public BuildDriver getDriverForTesting() {
return buildDriver;
}
/**
* This method exists only to allow a module to make a top-level Skyframe call during the
* transition to making it fully Skyframe-compatible. Do not add additional callers!
*/
public SkyValue evaluateSkyKeyForExecutionSetup(
final ExtendedEventHandler eventHandler, final SkyKey key)
throws EnvironmentalExecException, InterruptedException {
synchronized (valueLookupLock) {
// We evaluate in keepGoing mode because in the case that the graph does not store its
// edges, nokeepGoing builds are not allowed, whereas keepGoing builds are always
// permitted.
EvaluationResult<SkyValue> result =
buildDriver.evaluate(
ImmutableList.of(key), true, ResourceUsage.getAvailableProcessors(), eventHandler);
if (!result.hasError()) {
return Preconditions.checkNotNull(result.get(key), "%s %s", result, key);
}
ErrorInfo errorInfo = Preconditions.checkNotNull(result.getError(key), "%s %s", key, result);
Throwables.propagateIfPossible(errorInfo.getException(), EnvironmentalExecException.class);
if (errorInfo.getException() != null) {
throw new IllegalStateException(errorInfo.getException());
}
throw new IllegalStateException(errorInfo.toString());
}
}
@VisibleForTesting
public PathFragment getBlacklistedPackagePrefixesFile() {
return blacklistedPackagePrefixesFile;
}
class BuildViewProvider {
/**
* Returns the current {@link SkyframeBuildView} instance.
*/
SkyframeBuildView getSkyframeBuildView() {
return skyframeBuildView;
}
}
/**
* Must be called before the {@link SkyframeExecutor} can be used (should only be called in
* factory methods and as an implementation detail of {@link #resetEvaluator}).
*/
protected void init() {
progressReceiver = newSkyframeProgressReceiver();
ImmutableMap<SkyFunctionName, SkyFunction> skyFunctions =
skyFunctions(pkgFactory, allowedMissingInputs);
memoizingEvaluator =
evaluatorSupplier.create(
skyFunctions,
evaluatorDiffer(),
progressReceiver,
emittedEventState,
hasIncrementalState());
buildDriver = getBuildDriver();
}
protected SkyframeProgressReceiver newSkyframeProgressReceiver() {
return new SkyframeProgressReceiver();
}
/** Reinitializes the Skyframe evaluator, dropping all previously computed values. */
public void resetEvaluator() {
init();
emittedEventState.clear();
skyframeBuildView.clearLegacyData();
}
protected abstract Differencer evaluatorDiffer();
protected abstract BuildDriver getBuildDriver();
/** Clear any configured target data stored outside Skyframe. */
public void handleConfiguredTargetChange() {
skyframeBuildView.clearInvalidatedConfiguredTargets();
skyframeBuildView.clearLegacyData();
}
/** Used with dump --rules. */
public static class RuleStat {
private final String key;
private final String name;
private final boolean isRule;
private long count;
private long actionCount;
public RuleStat(String key, String name, boolean isRule) {
this.key = key;
this.name = name;
this.isRule = isRule;
}
public void addRule(long actionCount) {
this.count++;
this.actionCount += actionCount;
}
/** Returns a key that uniquely identifies this rule or aspect. */
public String getKey() {
return key;
}
/** Returns a name for the rule or aspect. */
public String getName() {
return name;
}
/** Returns whether this is a rule or an aspect. */
public boolean isRule() {
return isRule;
}
/** Returns the instance count of this rule or aspect class. */
public long getCount() {
return count;
}
/** Returns the total action count of all instance of this rule or aspect class. */
public long getActionCount() {
return actionCount;
}
}
/** Computes statistics on heap-resident rules and aspects. */
public abstract List<RuleStat> getRuleStats();
/**
* Removes ConfigurationFragmentValues from the cache.
*/
@VisibleForTesting
public void invalidateConfigurationCollection() {
invalidate(SkyFunctionName.functionIsIn(ImmutableSet.of(SkyFunctions.CONFIGURATION_FRAGMENT)));
}
/**
* Decides if graph edges should be stored for this build. If not, notes that the next evaluation
* on the graph should reset it first. Necessary conditions to not store graph edges are:
*
* <ol>
* <li>batch (since incremental builds are not possible);
* <li>keep-going (since otherwise bubbling errors up may require edges of done nodes);
* <li>discard_analysis_cache (since otherwise user isn't concerned about saving memory this
* way).
* </ol>
*/
public void decideKeepIncrementalState(
boolean batch, OptionsProvider viewOptions, EventHandler eventHandler) {
// Assume incrementality.
}
public boolean hasIncrementalState() {
return true;
}
@Nullable
protected Path getForcedSingleSourceRootIfNoExecrootSymlinkCreation() {
return null;
}
@VisibleForTesting
protected abstract Injectable injectable();
/**
* Saves memory by clearing analysis objects from Skyframe. If using legacy execution, actually
* deletes the relevant values. If using Skyframe execution, clears their data without deleting
* them (they will be deleted on the next build).
*/
public abstract void clearAnalysisCache(
Collection<ConfiguredTarget> topLevelTargets, Collection<AspectValue> topLevelAspects);
/**
* Injects the contents of the computed tools/defaults package.
*/
@VisibleForTesting
public void setupDefaultPackage(String defaultsPackageContents) {
PrecomputedValue.DEFAULTS_PACKAGE_CONTENTS.set(injectable(), defaultsPackageContents);
}
public void maybeInvalidateWorkspaceStatusValue(String workspaceName)
throws InterruptedException {
WorkspaceStatusAction newWorkspaceStatusAction = makeWorkspaceStatusAction(workspaceName);
WorkspaceStatusAction oldWorkspaceStatusAction = getLastWorkspaceStatusAction();
if (oldWorkspaceStatusAction != null
&& !newWorkspaceStatusAction.equals(oldWorkspaceStatusAction)) {
// TODO(janakr): don't invalidate here, just use different keys for different configs. Can't
// be done right now because of lack of configuration trimming and fact that everything
// depends on workspace status action.
invalidate(WorkspaceStatusValue.SKY_KEY::equals);
}
}
private WorkspaceStatusAction makeWorkspaceStatusAction(String workspaceName) {
return workspaceStatusActionFactory.createWorkspaceStatusAction(
artifactFactory.get(), WorkspaceStatusValue.ARTIFACT_OWNER, buildId, workspaceName);
}
@VisibleForTesting
@Nullable
public WorkspaceStatusAction getLastWorkspaceStatusAction() throws InterruptedException {
WorkspaceStatusValue workspaceStatusValue =
(WorkspaceStatusValue) memoizingEvaluator.getExistingValue(WorkspaceStatusValue.SKY_KEY);
return workspaceStatusValue == null
? null
: (WorkspaceStatusAction) workspaceStatusValue.getAction(0);
}
public void injectCoverageReportData(ImmutableList<ActionAnalysisMetadata> actions) {
PrecomputedValue.COVERAGE_REPORT_KEY.set(injectable(), actions);
}
private void setDefaultVisibility(RuleVisibility defaultVisibility) {
PrecomputedValue.DEFAULT_VISIBILITY.set(injectable(), defaultVisibility);
}
private void setSkylarkSemantics(SkylarkSemanticsOptions skylarkSemanticsOptions) {
PrecomputedValue.SKYLARK_SEMANTICS.set(
injectable(), skylarkSemanticsOptions.toSkylarkSemantics());
}
public void injectExtraPrecomputedValues(
List<PrecomputedValue.Injected> extraPrecomputedValues) {
for (PrecomputedValue.Injected injected : extraPrecomputedValues) {
injected.inject(injectable());
}
}
protected Cache<PackageIdentifier, CacheEntryWithGlobDeps<Package.Builder>>
newPkgFunctionCache() {
return CacheBuilder.newBuilder().build();
}
protected Cache<PackageIdentifier, CacheEntryWithGlobDeps<AstAfterPreprocessing>> newAstCache() {
return CacheBuilder.newBuilder().build();
}
public ImmutableMap<BuildInfoKey, BuildInfoFactory> getBuildInfoFactories() {
return buildInfoFactories;
}
private void setShowLoadingProgress(boolean showLoadingProgressValue) {
showLoadingProgress.set(showLoadingProgressValue);
}
@VisibleForTesting
public void setCommandId(UUID commandId) {
PrecomputedValue.BUILD_ID.set(injectable(), commandId);
buildId.set(commandId);
}
/** Returns the build-info.txt and build-changelist.txt artifacts. */
public Collection<Artifact> getWorkspaceStatusArtifacts(ExtendedEventHandler eventHandler)
throws InterruptedException {
// Should already be present, unless the user didn't request any targets for analysis.
EvaluationResult<WorkspaceStatusValue> result = buildDriver.evaluate(
ImmutableList.of(WorkspaceStatusValue.SKY_KEY), /*keepGoing=*/true, /*numThreads=*/1,
eventHandler);
WorkspaceStatusValue value =
Preconditions.checkNotNull(result.get(WorkspaceStatusValue.SKY_KEY));
return ImmutableList.of(value.getStableArtifact(), value.getVolatileArtifact());
}
public Map<PathFragment, Root> getArtifactRootsForFiles(
final ExtendedEventHandler eventHandler, Iterable<PathFragment> execPaths)
throws InterruptedException {
return getArtifactRoots(eventHandler, execPaths, true);
}
public Map<PathFragment, Root> getArtifactRoots(
final ExtendedEventHandler eventHandler, Iterable<PathFragment> execPaths)
throws InterruptedException {
return getArtifactRoots(eventHandler, execPaths, false);
}
private Map<PathFragment, Root> getArtifactRoots(
final ExtendedEventHandler eventHandler, Iterable<PathFragment> execPaths, boolean forFiles)
throws InterruptedException {
final Map<PathFragment, SkyKey> packageKeys = new HashMap<>();
for (PathFragment execPath : execPaths) {
try {
PackageIdentifier pkgIdentifier =
PackageIdentifier.discoverFromExecPath(execPath, forFiles);
packageKeys.put(execPath, ContainingPackageLookupValue.key(pkgIdentifier));
} catch (LabelSyntaxException e) {
continue;
}
}
EvaluationResult<ContainingPackageLookupValue> result;
synchronized (valueLookupLock) {
result =
buildDriver.evaluate(
packageKeys.values(), /*keepGoing=*/ true, /*numThreads=*/ 1, eventHandler);
}
if (result.hasError()) {
return new HashMap<>();
}
Map<PathFragment, Root> roots = new HashMap<>();
for (PathFragment execPath : execPaths) {
ContainingPackageLookupValue value = result.get(packageKeys.get(execPath));
if (value.hasContainingPackage()) {
roots.put(execPath,
Root.computeSourceRoot(
value.getContainingPackageRoot(),
value.getContainingPackageName().getRepository()));
} else {
roots.put(execPath, null);
}
}
return roots;
}
@VisibleForTesting
public ToolchainContext getToolchainContextForTesting(
Set<Label> requiredToolchains, BuildConfiguration config, ExtendedEventHandler eventHandler)
throws ToolchainContextException, InterruptedException {
SkyFunctionEnvironmentForTesting env =
new SkyFunctionEnvironmentForTesting(buildDriver, eventHandler, this);
return ToolchainUtil.createToolchainContext(env, "", requiredToolchains, config);
}
/**
* Informs user about number of modified files (source and output files).
*/
// Note, that number of modified files in some cases can be bigger than actual number of
// modified files for targets in current request. Skyframe may check for modification all files
// from previous requests.
protected void informAboutNumberOfModifiedFiles() {
logger.info(String.format("Found %d modified files from last build", modifiedFiles));
}
public EventBus getEventBus() {
return eventBus.get();
}
public ActionExecutionContextFactory getActionExecutionContextFactory() {
return skyframeActionExecutor;
}
@VisibleForTesting
ImmutableList<Path> getPathEntries() {
return pkgLocator.get().getPathEntries();
}
protected abstract void invalidate(Predicate<SkyKey> pred);
private static boolean compatibleFileTypes(Dirent.Type oldType, FileStateValue.Type newType) {
return (oldType.equals(Dirent.Type.FILE) && newType.equals(FileStateValue.Type.REGULAR_FILE))
|| (oldType.equals(Dirent.Type.UNKNOWN)
&& newType.equals(FileStateValue.Type.SPECIAL_FILE))
|| (oldType.equals(Dirent.Type.DIRECTORY) && newType.equals(FileStateValue.Type.DIRECTORY))
|| (oldType.equals(Dirent.Type.SYMLINK) && newType.equals(FileStateValue.Type.SYMLINK));
}
protected Differencer.Diff getDiff(TimestampGranularityMonitor tsgm,
Iterable<PathFragment> modifiedSourceFiles, final Path pathEntry)
throws InterruptedException {
if (Iterables.isEmpty(modifiedSourceFiles)) {
return new ImmutableDiff(ImmutableList.<SkyKey>of(), ImmutableMap.<SkyKey, SkyValue>of());
}
// TODO(bazel-team): change ModifiedFileSet to work with RootedPaths instead of PathFragments.
Iterable<SkyKey> dirtyFileStateSkyKeys = Iterables.transform(modifiedSourceFiles,
new Function<PathFragment, SkyKey>() {
@Override
public SkyKey apply(PathFragment pathFragment) {
Preconditions.checkState(!pathFragment.isAbsolute(),
"found absolute PathFragment: %s", pathFragment);
return FileStateValue.key(RootedPath.toRootedPath(pathEntry, pathFragment));
}
});
// We only need to invalidate directory values when a file has been created or deleted or
// changes type, not when it has merely been modified. Unfortunately we do not have that
// information here, so we compute it ourselves.
// TODO(bazel-team): Fancy filesystems could provide it with a hypothetically modified
// DiffAwareness interface.
logger.info(
"About to recompute filesystem nodes corresponding to files that are known to have "
+ "changed");
FilesystemValueChecker fsvc = new FilesystemValueChecker(tsgm, null);
Map<SkyKey, SkyValue> valuesMap = memoizingEvaluator.getValues();
Differencer.DiffWithDelta diff =
fsvc.getNewAndOldValues(valuesMap, dirtyFileStateSkyKeys, new FileDirtinessChecker());
Set<SkyKey> valuesToInvalidate = new HashSet<>();
Map<SkyKey, SkyValue> valuesToInject = new HashMap<>();
for (Map.Entry<SkyKey, Delta> entry : diff.changedKeysWithNewAndOldValues().entrySet()) {
SkyKey key = entry.getKey();
Preconditions.checkState(key.functionName().equals(SkyFunctions.FILE_STATE), key);
RootedPath rootedPath = (RootedPath) key.argument();
Delta delta = entry.getValue();
FileStateValue oldValue = (FileStateValue) delta.getOldValue();
FileStateValue newValue = (FileStateValue) delta.getNewValue();
if (newValue != null) {
valuesToInject.put(key, newValue);
} else {
valuesToInvalidate.add(key);
}
SkyKey dirListingStateKey = parentDirectoryListingStateKey(rootedPath);
// Invalidate the directory listing for the path's parent directory if the change was
// relevant (e.g. path turned from a symlink into a directory) OR if we don't have enough
// information to determine it was irrelevant.
boolean changedType = false;
if (newValue == null) {
changedType = true;
} else if (oldValue != null) {
changedType = !oldValue.getType().equals(newValue.getType());
} else {
DirectoryListingStateValue oldDirListingStateValue =
(DirectoryListingStateValue) valuesMap.get(dirListingStateKey);
if (oldDirListingStateValue != null) {
String baseName = rootedPath.getRelativePath().getBaseName();
Dirent oldDirent = oldDirListingStateValue.getDirents().maybeGetDirent(baseName);
changedType = (oldDirent == null)
|| !compatibleFileTypes(oldDirent.getType(), newValue.getType());
} else {
changedType = true;
}
}
if (changedType) {
valuesToInvalidate.add(dirListingStateKey);
}
}
for (SkyKey key : diff.changedKeysWithoutNewValues()) {
Preconditions.checkState(key.functionName().equals(SkyFunctions.FILE_STATE), key);
RootedPath rootedPath = (RootedPath) key.argument();
valuesToInvalidate.add(parentDirectoryListingStateKey(rootedPath));
}
return new ImmutableDiff(valuesToInvalidate, valuesToInject);
}
private static SkyKey parentDirectoryListingStateKey(RootedPath rootedPath) {
RootedPath parentDirRootedPath = RootedPath.toRootedPath(
rootedPath.getRoot(), rootedPath.getRelativePath().getParentDirectory());
return DirectoryListingStateValue.key(parentDirRootedPath);
}
/**
* Sets the packages that should be treated as deleted and ignored.
*/
@VisibleForTesting // productionVisibility = Visibility.PRIVATE
public abstract void setDeletedPackages(Iterable<PackageIdentifier> pkgs);
@VisibleForTesting
public final void setBlacklistedPackagePrefixesFile(PathFragment blacklistedPkgFile) {
PrecomputedValue.BLACKLISTED_PACKAGE_PREFIXES_FILE.set(injectable(), blacklistedPkgFile);
}
/**
* Prepares the evaluator for loading.
*
* <p>MUST be run before every incremental build.
*/
@VisibleForTesting // productionVisibility = Visibility.PRIVATE
public void preparePackageLoading(
PathPackageLocator pkgLocator,
PackageCacheOptions packageCacheOptions,
SkylarkSemanticsOptions skylarkSemanticsOptions,
String defaultsPackageContents,
UUID commandId,
Map<String, String> clientEnv,
Map<String, String> actionEnv,
TimestampGranularityMonitor tsgm) {
Preconditions.checkNotNull(pkgLocator);
Preconditions.checkNotNull(tsgm);
setActive(true);
this.tsgm.set(tsgm);
setCommandId(commandId);
PrecomputedValue.ACTION_ENV.set(injectable(), actionEnv);
this.clientEnv.set(clientEnv);
setBlacklistedPackagePrefixesFile(getBlacklistedPackagePrefixesFile());
setShowLoadingProgress(packageCacheOptions.showLoadingProgress);
setDefaultVisibility(packageCacheOptions.defaultVisibility);
setSkylarkSemantics(skylarkSemanticsOptions);
setupDefaultPackage(defaultsPackageContents);
setPackageLocator(pkgLocator);
syscalls.set(getPerBuildSyscallCache(packageCacheOptions.globbingThreads));
this.pkgFactory.setGlobbingThreads(packageCacheOptions.globbingThreads);
this.pkgFactory.setMaxDirectoriesToEagerlyVisitInGlobbing(
packageCacheOptions.maxDirectoriesToEagerlyVisitInGlobbing);
emittedEventState.clear();
// If the PackageFunction was interrupted, there may be stale entries here.
packageFunctionCache.invalidateAll();
astCache.invalidateAll();
numPackagesLoaded.set(0);
packageProgress.reset();
// Reset the stateful SkyframeCycleReporter, which contains cycles from last run.
cyclesReporter.set(createCyclesReporter());
}
@SuppressWarnings("unchecked")
private void setPackageLocator(PathPackageLocator pkgLocator) {
PathPackageLocator oldLocator = this.pkgLocator.getAndSet(pkgLocator);
PrecomputedValue.PATH_PACKAGE_LOCATOR.set(injectable(), pkgLocator);
if (!pkgLocator.equals(oldLocator)) {
// The package path is read not only by SkyFunctions but also by some other code paths.
// We need to take additional steps to keep the corresponding data structures in sync.
// (Some of the additional steps are carried out by ConfiguredTargetValueInvalidationListener,
// and some by BuildView#buildHasIncompatiblePackageRoots and #updateSkyframe.)
onNewPackageLocator(oldLocator, pkgLocator);
}
}
protected abstract void onNewPackageLocator(PathPackageLocator oldLocator,
PathPackageLocator pkgLocator);
public SkyframeBuildView getSkyframeBuildView() {
return skyframeBuildView;
}
/**
* Sets the eventBus to use for posting events.
*/
public void setEventBus(EventBus eventBus) {
this.eventBus.set(eventBus);
}
public void setClientEnv(Map<String, String> clientEnv) {
this.skyframeActionExecutor.setClientEnv(clientEnv);
}
/**
* Sets the path for action log buffers.
*/
public void setActionOutputRoot(Path actionOutputRoot) {
Preconditions.checkNotNull(actionOutputRoot);
this.actionLogBufferPathGenerator = new ActionLogBufferPathGenerator(actionOutputRoot);
this.skyframeActionExecutor.setActionLogBufferPathGenerator(actionLogBufferPathGenerator);
}
/**
* Sets the factories for all configuration fragments known to the build.
*/
public void setConfigurationFragmentFactories(
List<ConfigurationFragmentFactory> configurationFragmentFactories) {
this.configurationFragments.set(ImmutableList.copyOf(configurationFragmentFactories));
}
/**
* Asks the Skyframe evaluator to build the value for BuildConfigurationCollection and returns the
* result.
*/
public BuildConfigurationCollection createConfigurations(
ExtendedEventHandler eventHandler,
List<ConfigurationFragmentFactory> configurationFragmentFactories,
BuildOptions buildOptions,
Set<String> multiCpu,
boolean keepGoing)
throws InvalidConfigurationException, InterruptedException {
setConfigurationFragmentFactories(configurationFragmentFactories);
List<BuildConfiguration> topLevelTargetConfigs =
getConfigurations(eventHandler, getTopLevelBuildOptions(buildOptions, multiCpu), keepGoing);
// The host configuration inherits the data, not target options. This is so host tools don't
// apply LIPO.
BuildConfiguration firstTargetConfig = topLevelTargetConfigs.get(0);
Attribute.Transition dataTransition =
((ConfiguredRuleClassProvider) ruleClassProvider)
.getDynamicTransitionMapper()
.map(Attribute.ConfigurationTransition.DATA);
BuildOptions dataOptions = dataTransition != Attribute.ConfigurationTransition.NONE
? ((PatchTransition) dataTransition).apply(firstTargetConfig.getOptions())
: firstTargetConfig.getOptions();
BuildOptions hostOptions =
dataOptions.get(BuildConfiguration.Options.class).useDistinctHostConfiguration
? HostTransition.INSTANCE.apply(dataOptions)
: dataOptions;
BuildConfiguration hostConfig = getConfiguration(eventHandler, hostOptions, keepGoing);
// TODO(gregce): cache invalid option errors in BuildConfigurationFunction, then use a dedicated
// accessor (i.e. not the event handler) to trigger the exception below.
ErrorSensingEventHandler nosyEventHandler = new ErrorSensingEventHandler(eventHandler);
topLevelTargetConfigs.forEach(config -> config.reportInvalidOptions(nosyEventHandler));
if (nosyEventHandler.hasErrors()) {
throw new InvalidConfigurationException("Build options are invalid");
}
return new BuildConfigurationCollection(topLevelTargetConfigs, hostConfig);
}
/**
* Returns the {@link BuildOptions} to apply to the top-level build configurations. This can be
* plural because of {@code multiCpu}.
*/
private static List<BuildOptions> getTopLevelBuildOptions(BuildOptions buildOptions,
Set<String> multiCpu) {
if (multiCpu.isEmpty()) {
return ImmutableList.of(buildOptions);
}
ImmutableList.Builder<BuildOptions> multiCpuOptions = ImmutableList.builder();
for (String cpu : multiCpu) {
BuildOptions clonedOptions = buildOptions.clone();
clonedOptions.get(BuildConfiguration.Options.class).cpu = cpu;
multiCpuOptions.add(clonedOptions);
}
return multiCpuOptions.build();
}
private Iterable<ActionLookupValue> getActionLookupValues() {
// This filter keeps subclasses of ActionLookupValue.
return Iterables.filter(memoizingEvaluator.getDoneValues().values(), ActionLookupValue.class);
}
@SuppressWarnings({"unchecked", "rawtypes"})
Map<SkyKey, ActionLookupValue> getActionLookupValueMap() {
return (Map) Maps.filterValues(memoizingEvaluator.getDoneValues(),
Predicates.instanceOf(ActionLookupValue.class));
}
/**
* Checks the actions in Skyframe for conflicts between their output artifacts. Delegates to
* {@link SkyframeActionExecutor#findAndStoreArtifactConflicts} to do the work, since any
* conflicts found will only be reported during execution.
*/
protected ImmutableMap<ActionAnalysisMetadata, SkyframeActionExecutor.ConflictException>
findArtifactConflicts() throws InterruptedException {
if (skyframeBuildView.isSomeConfiguredTargetEvaluated()
|| skyframeBuildView.isSomeConfiguredTargetInvalidated()) {
// This operation is somewhat expensive, so we only do it if the graph might have changed in
// some way -- either we analyzed a new target or we invalidated an old one.
try (AutoProfiler p = AutoProfiler.logged("discovering artifact conflicts", logger)) {
skyframeActionExecutor.findAndStoreArtifactConflicts(getActionLookupValues());
skyframeBuildView.resetEvaluatedConfiguredTargetFlag();
// The invalidated configured targets flag will be reset later in the evaluate() call.
}
}
return skyframeActionExecutor.badActions();
}
/**
* Asks the Skyframe evaluator to build the given artifacts and targets, and to test the
* given test targets.
*/
public EvaluationResult<?> buildArtifacts(
Reporter reporter,
Executor executor,
Set<Artifact> artifactsToBuild,
Collection<ConfiguredTarget> targetsToBuild,
Collection<AspectValue> aspects,
Collection<ConfiguredTarget> targetsToTest,
boolean exclusiveTesting,
boolean keepGoing,
boolean explain,
boolean finalizeActionsToOutputService,
int numJobs,
ActionCacheChecker actionCacheChecker,
@Nullable EvaluationProgressReceiver executionProgressReceiver,
TopLevelArtifactContext topLevelArtifactContext)
throws InterruptedException {
checkActive();
Preconditions.checkState(actionLogBufferPathGenerator != null);
skyframeActionExecutor.prepareForExecution(
reporter, executor, keepGoing, explain, actionCacheChecker,
finalizeActionsToOutputService ? outputService : null);
resourceManager.resetResourceUsage();
try {
progressReceiver.executionProgressReceiver = executionProgressReceiver;
Iterable<SkyKey> artifactKeys = ArtifactSkyKey.mandatoryKeys(artifactsToBuild);
Iterable<SkyKey> targetKeys =
TargetCompletionValue.keys(targetsToBuild, topLevelArtifactContext);
Iterable<SkyKey> aspectKeys = AspectCompletionValue.keys(aspects, topLevelArtifactContext);
Iterable<SkyKey> testKeys =
TestCompletionValue.keys(targetsToTest, topLevelArtifactContext, exclusiveTesting);
return buildDriver.evaluate(
Iterables.concat(artifactKeys, targetKeys, aspectKeys, testKeys),
keepGoing,
numJobs,
reporter);
} finally {
progressReceiver.executionProgressReceiver = null;
// Also releases thread locks.
resourceManager.resetResourceUsage();
skyframeActionExecutor.executionOver();
actionExecutionFunction.complete();
}
}
@VisibleForTesting
public void prepareBuildingForTestingOnly(Reporter reporter, Executor executor, boolean keepGoing,
boolean explain, ActionCacheChecker checker) {
skyframeActionExecutor.prepareForExecution(reporter, executor, keepGoing, explain, checker,
outputService);
}
EvaluationResult<TargetPatternValue> targetPatterns(
Iterable<TargetPatternKey> patternSkyKeys,
int numThreads,
boolean keepGoing,
ExtendedEventHandler eventHandler)
throws InterruptedException {
checkActive();
return buildDriver.evaluate(patternSkyKeys, keepGoing, numThreads, eventHandler);
}
/**
* Returns the {@link ConfiguredTarget}s corresponding to the given keys.
*
* <p>For use for legacy support and tests calling through {@code BuildView} only.
*
* <p>If a requested configured target is in error, the corresponding value is omitted from the
* returned list.
*/
@ThreadSafety.ThreadSafe
// TODO(bazel-team): rename this and below methods to something that discourages general use
public ImmutableList<ConfiguredTarget> getConfiguredTargets(
ExtendedEventHandler eventHandler,
BuildConfiguration originalConfig,
Iterable<Dependency> keys) {
return getConfiguredTargetMap(
eventHandler, originalConfig, keys).values().asList();
}
/**
* Returns a map from {@link Dependency} inputs to the {@link ConfiguredTarget}s corresponding to
* those dependencies.
*
* <p>For use for legacy support and tests calling through {@code BuildView} only.
*
* <p>If a requested configured target is in error, the corresponding value is omitted from the
* returned list.
*/
@ThreadSafety.ThreadSafe
public ImmutableMultimap<Dependency, ConfiguredTarget> getConfiguredTargetMap(
ExtendedEventHandler eventHandler,
BuildConfiguration originalConfig,
Iterable<Dependency> keys) {
checkActive();
Multimap<Dependency, BuildConfiguration> configs;
if (originalConfig != null) {
configs = getConfigurations(eventHandler, originalConfig.getOptions(), keys);
} else {
configs = ArrayListMultimap.<Dependency, BuildConfiguration>create();
for (Dependency key : keys) {
configs.put(key, null);
}
}
final List<SkyKey> skyKeys = new ArrayList<>();
for (Dependency key : keys) {
if (!configs.containsKey(key)) {
// If we couldn't compute a configuration for this target, the target was in error (e.g.
// it couldn't be loaded). Exclude it from the results.
continue;
}
for (BuildConfiguration depConfig : configs.get(key)) {
skyKeys.add(ConfiguredTargetValue.key(key.getLabel(), depConfig));
for (AspectDescriptor aspectDescriptor : key.getAspects().getAllAspects()) {
skyKeys.add(ActionLookupValue.key(AspectValue.createAspectKey(key.getLabel(), depConfig,
aspectDescriptor, depConfig)));
}
}
}
EvaluationResult<SkyValue> result = evaluateSkyKeys(eventHandler, skyKeys);
for (Map.Entry<SkyKey, ErrorInfo> entry : result.errorMap().entrySet()) {
reportCycles(eventHandler, entry.getValue().getCycleInfo(), entry.getKey());
}
ImmutableMultimap.Builder<Dependency, ConfiguredTarget> cts =
ImmutableMultimap.<Dependency, ConfiguredTarget>builder();
DependentNodeLoop:
for (Dependency key : keys) {
if (!configs.containsKey(key)) {
// If we couldn't compute a configuration for this target, the target was in error (e.g.
// it couldn't be loaded). Exclude it from the results.
continue;
}
for (BuildConfiguration depConfig : configs.get(key)) {
SkyKey configuredTargetKey = ConfiguredTargetValue.key(
key.getLabel(), depConfig);
if (result.get(configuredTargetKey) == null) {
continue;
}
ConfiguredTarget configuredTarget =
((ConfiguredTargetValue) result.get(configuredTargetKey)).getConfiguredTarget();
List<ConfiguredAspect> configuredAspects = new ArrayList<>();
for (AspectDescriptor aspectDescriptor : key.getAspects().getAllAspects()) {
SkyKey aspectKey = ActionLookupValue.key(AspectValue.createAspectKey(key.getLabel(),
depConfig, aspectDescriptor, depConfig));
if (result.get(aspectKey) == null) {
continue DependentNodeLoop;
}
configuredAspects.add(((AspectValue) result.get(aspectKey)).getConfiguredAspect());
}
try {
cts.put(key, MergedConfiguredTarget.of(configuredTarget, configuredAspects));
} catch (DuplicateException e) {
throw new IllegalStateException(
String.format("Error creating %s", configuredTarget.getTarget().getLabel()),
e);
}
}
}
return cts.build();
}
/**
* Returns the configuration corresponding to the given set of build options.
*
* @throws InvalidConfigurationException if the build options produces an invalid configuration
*/
public BuildConfiguration getConfiguration(ExtendedEventHandler eventHandler,
BuildOptions options, boolean keepGoing) throws InvalidConfigurationException {
return Iterables.getOnlyElement(
getConfigurations(eventHandler, ImmutableList.of(options), keepGoing));
}
/**
* Returns the configurations corresponding to the given sets of build options. Output order is
* the same as input order.
*
* @throws InvalidConfigurationException if any build options produces an invalid configuration
*/
public List<BuildConfiguration> getConfigurations(ExtendedEventHandler eventHandler,
List<BuildOptions> optionsList, boolean keepGoing) throws InvalidConfigurationException {
Preconditions.checkArgument(!Iterables.isEmpty(optionsList));
// Prepare the Skyframe inputs.
// TODO(gregce): support trimmed configs.
Set<Class<? extends BuildConfiguration.Fragment>> allFragments =
configurationFragments.get()
.stream()
.map(factory -> factory.creates())
.collect(ImmutableSet.toImmutableSet());
final ImmutableList<SkyKey> configSkyKeys =
optionsList
.stream()
.map(elem -> BuildConfigurationValue.key(allFragments, elem))
.collect(ImmutableList.toImmutableList());
// Skyframe-evaluate the configurations and throw errors if any.
EvaluationResult<SkyValue> evalResult =
evaluateSkyKeys(eventHandler, configSkyKeys, keepGoing);
if (evalResult.hasError()) {
Map.Entry<SkyKey, ErrorInfo> firstError = Iterables.get(evalResult.errorMap().entrySet(), 0);
ErrorInfo error = firstError.getValue();
Throwable e = error.getException();
// Wrap loading failed exceptions
if (e instanceof NoSuchThingException) {
e = new InvalidConfigurationException(e);
} else if (e == null && !Iterables.isEmpty(error.getCycleInfo())) {
getCyclesReporter().reportCycles(error.getCycleInfo(), firstError.getKey(), eventHandler);
e = new InvalidConfigurationException(
"cannot load build configuration because of this cycle");
}
if (e != null) {
Throwables.throwIfInstanceOf(e, InvalidConfigurationException.class);
}
throw new IllegalStateException(
"Unknown error during configuration creation evaluation", e);
}
// Prepare and return the results.
return configSkyKeys
.stream()
.map(key -> ((BuildConfigurationValue) evalResult.get(key)).getConfiguration())
.collect(ImmutableList.toImmutableList());
}
/**
* Retrieves the configurations needed for the given deps. If {@link
* BuildConfiguration.Options#trimConfigurations()} is true, trims their fragments to only those
* needed by their transitive closures. Else unconditionally includes all fragments.
*
* <p>Skips targets with loading phase errors.
*/
public Multimap<Dependency, BuildConfiguration> getConfigurations(
ExtendedEventHandler eventHandler, BuildOptions fromOptions, Iterable<Dependency> keys) {
Multimap<Dependency, BuildConfiguration> builder =
ArrayListMultimap.<Dependency, BuildConfiguration>create();
Set<Dependency> depsToEvaluate = new HashSet<>();
Set<Class<? extends BuildConfiguration.Fragment>> allFragments = null;
if (useUntrimmedConfigs(fromOptions)) {
allFragments = ((ConfiguredRuleClassProvider) ruleClassProvider).getAllFragments();
}
// Get the fragments needed for dynamic configuration nodes.
final List<SkyKey> transitiveFragmentSkyKeys = new ArrayList<>();
Map<Label, Set<Class<? extends BuildConfiguration.Fragment>>> fragmentsMap = new HashMap<>();
Set<Label> labelsWithErrors = new HashSet<>();
for (Dependency key : keys) {
if (key.hasExplicitConfiguration()) {
builder.put(key, key.getConfiguration());
} else if (useUntrimmedConfigs(fromOptions)) {
fragmentsMap.put(key.getLabel(), allFragments);
} else {
depsToEvaluate.add(key);
transitiveFragmentSkyKeys.add(TransitiveTargetKey.of(key.getLabel()));
}
}
EvaluationResult<SkyValue> fragmentsResult = evaluateSkyKeys(
eventHandler, transitiveFragmentSkyKeys, /*keepGoing=*/true);
for (Map.Entry<SkyKey, ErrorInfo> entry : fragmentsResult.errorMap().entrySet()) {
reportCycles(eventHandler, entry.getValue().getCycleInfo(), entry.getKey());
}
for (Dependency key : keys) {
if (!depsToEvaluate.contains(key)) {
// No fragments to compute here.
} else if (fragmentsResult.getError(TransitiveTargetKey.of(key.getLabel())) != null) {
labelsWithErrors.add(key.getLabel());
} else {
TransitiveTargetValue ttv =
(TransitiveTargetValue) fragmentsResult.get(TransitiveTargetKey.of(key.getLabel()));
fragmentsMap.put(key.getLabel(), ttv.getTransitiveConfigFragments().toSet());
}
}
// Now get the configurations.
final List<SkyKey> configSkyKeys = new ArrayList<>();
for (Dependency key : keys) {
if (labelsWithErrors.contains(key.getLabel()) || key.hasExplicitConfiguration()) {
continue;
}
Set<Class<? extends BuildConfiguration.Fragment>> depFragments =
fragmentsMap.get(key.getLabel());
if (depFragments != null) {
for (BuildOptions toOptions : ConfigurationResolver.applyTransition(
fromOptions, key.getTransition(), depFragments, ruleClassProvider, true)) {
configSkyKeys.add(BuildConfigurationValue.key(depFragments, toOptions));
}
}
}
EvaluationResult<SkyValue> configsResult =
evaluateSkyKeys(eventHandler, configSkyKeys, /*keepGoing=*/true);
for (Dependency key : keys) {
if (labelsWithErrors.contains(key.getLabel()) || key.hasExplicitConfiguration()) {
continue;
}
Set<Class<? extends BuildConfiguration.Fragment>> depFragments =
fragmentsMap.get(key.getLabel());
if (depFragments != null) {
for (BuildOptions toOptions : ConfigurationResolver.applyTransition(
fromOptions, key.getTransition(), depFragments, ruleClassProvider, true)) {
SkyKey configKey = BuildConfigurationValue.key(depFragments, toOptions);
BuildConfigurationValue configValue =
((BuildConfigurationValue) configsResult.get(configKey));
// configValue will be null here if there was an exception thrown during configuration
// creation. This will be reported elsewhere.
if (configValue != null) {
builder.put(key, configValue.getConfiguration());
}
}
}
}
return builder;
}
/**
* Returns whether configurations should trim their fragments to only those needed by
* targets and their transitive dependencies.
*/
private static boolean useUntrimmedConfigs(BuildOptions options) {
return options.get(BuildConfiguration.Options.class).configsMode
== BuildConfiguration.Options.ConfigsMode.NOTRIM;
}
/**
* Evaluates the given sky keys, blocks, and returns their evaluation results. Fails fast on the
* first evaluation error.
*/
private EvaluationResult<SkyValue> evaluateSkyKeys(
final ExtendedEventHandler eventHandler, final Iterable<SkyKey> skyKeys) {
return evaluateSkyKeys(eventHandler, skyKeys, false);
}
/**
* Evaluates the given sky keys, blocks, and returns their evaluation results. Enables/disables
* "keep going" on evaluation errors as specified.
*/
EvaluationResult<SkyValue> evaluateSkyKeys(
final ExtendedEventHandler eventHandler,
final Iterable<SkyKey> skyKeys,
final boolean keepGoing) {
EvaluationResult<SkyValue> result;
try {
result = callUninterruptibly(new Callable<EvaluationResult<SkyValue>>() {
@Override
public EvaluationResult<SkyValue> call() throws Exception {
synchronized (valueLookupLock) {
try {
skyframeBuildView.enableAnalysis(true);
return buildDriver.evaluate(skyKeys, keepGoing, DEFAULT_THREAD_COUNT, eventHandler);
} finally {
skyframeBuildView.enableAnalysis(false);
}
}
}
});
} catch (Exception e) {
throw new IllegalStateException(e); // Should never happen.
}
return result;
}
/**
* Returns a dynamic configuration constructed from the given configuration fragments and build
* options.
*/
@VisibleForTesting
public BuildConfiguration getConfigurationForTesting(
ExtendedEventHandler eventHandler,
Set<Class<? extends BuildConfiguration.Fragment>> fragments,
BuildOptions options)
throws InterruptedException {
SkyKey key = BuildConfigurationValue.key(fragments, options);
BuildConfigurationValue result = (BuildConfigurationValue) buildDriver
.evaluate(ImmutableList.of(key), false, DEFAULT_THREAD_COUNT, eventHandler).get(key);
return result.getConfiguration();
}
/**
* Returns a particular configured target.
*/
@VisibleForTesting
@Nullable
public ConfiguredTarget getConfiguredTargetForTesting(
ExtendedEventHandler eventHandler, Label label, BuildConfiguration configuration) {
return getConfiguredTargetForTesting(
eventHandler, label, configuration, ConfigurationTransition.NONE);
}
/**
* Returns a particular configured target after applying the given transition.
*/
@VisibleForTesting
@Nullable
public ConfiguredTarget getConfiguredTargetForTesting(
ExtendedEventHandler eventHandler,
Label label,
BuildConfiguration configuration,
Attribute.Transition transition) {
return Iterables.getFirst(
getConfiguredTargets(
eventHandler,
configuration,
ImmutableList.of(configuration == null
? Dependency.withNullConfiguration(label)
: Dependency.withTransitionAndAspects(label, transition, AspectCollection.EMPTY))),
null);
}
/**
* Invalidates Skyframe values corresponding to the given set of modified files under the given
* path entry.
*
* <p>May throw an {@link InterruptedException}, which means that no values have been invalidated.
*/
@VisibleForTesting
public abstract void invalidateFilesUnderPathForTesting(
ExtendedEventHandler eventHandler, ModifiedFileSet modifiedFileSet, Path pathEntry)
throws InterruptedException;
/**
* Invalidates SkyFrame values that may have failed for transient reasons.
*/
public abstract void invalidateTransientErrors();
/** Configures a given set of configured targets. */
EvaluationResult<ActionLookupValue> configureTargets(
ExtendedEventHandler eventHandler,
List<ConfiguredTargetKey> values,
List<AspectValueKey> aspectKeys,
boolean keepGoing,
int numThreads)
throws InterruptedException {
checkActive();
List<SkyKey> keys = new ArrayList<>(ConfiguredTargetValue.keys(values));
for (AspectValueKey aspectKey : aspectKeys) {
keys.add(aspectKey.getSkyKey());
}
EvaluationResult<ActionLookupValue> result =
buildDriver.evaluate(keys, keepGoing, numThreads, eventHandler);
// Get rid of any memory retained by the cache -- all loading is done.
perBuildSyscallCache.clear();
return result;
}
/**
* Post-process the targets. Values in the EvaluationResult are known to be transitively
* error-free from action conflicts.
*/
public EvaluationResult<PostConfiguredTargetValue> postConfigureTargets(
ExtendedEventHandler eventHandler,
List<ConfiguredTargetKey> values,
boolean keepGoing,
ImmutableMap<ActionAnalysisMetadata, SkyframeActionExecutor.ConflictException> badActions)
throws InterruptedException {
checkActive();
PrecomputedValue.BAD_ACTIONS.set(injectable(), badActions);
// Make sure to not run too many analysis threads. This can cause memory thrashing.
EvaluationResult<PostConfiguredTargetValue> result =
buildDriver.evaluate(PostConfiguredTargetValue.keys(values), keepGoing,
ResourceUsage.getAvailableProcessors(), eventHandler);
// Remove all post-configured target values immediately for memory efficiency. We are OK with
// this mini-phase being non-incremental as the failure mode of action conflict is rare.
memoizingEvaluator.delete(SkyFunctionName.functionIs(SkyFunctions.POST_CONFIGURED_TARGET));
return result;
}
/**
* Returns a Skyframe-based {@link SkyframeTransitivePackageLoader} implementation.
*/
@VisibleForTesting
public TransitivePackageLoader pkgLoader() {
checkActive();
return new SkyframeLabelVisitor(new SkyframeTransitivePackageLoader(), cyclesReporter);
}
class SkyframeTransitivePackageLoader {
/** Loads the specified {@link TransitiveTargetValue}s. */
EvaluationResult<TransitiveTargetValue> loadTransitiveTargets(
ExtendedEventHandler eventHandler,
Iterable<Label> labelsToVisit,
boolean keepGoing,
int parallelThreads)
throws InterruptedException {
List<SkyKey> valueNames = new ArrayList<>();
for (Label label : labelsToVisit) {
valueNames.add(TransitiveTargetKey.of(label));
}
return buildDriver.evaluate(valueNames, keepGoing, parallelThreads, eventHandler);
}
}
/**
* For internal use in queries: performs a graph update to make sure the transitive closure of the
* specified {@code universeKey} is present in the graph, and returns the {@link
* EvaluationResult}.
*
* <p>The graph update is unconditionally done in keep-going mode, so that the query is guaranteed
* a complete graph to work on.
*/
@Override
public EvaluationResult<SkyValue> prepareAndGet(
Set<SkyKey> roots, int numThreads, ExtendedEventHandler eventHandler)
throws InterruptedException {
EvaluationResult<SkyValue> evaluationResult =
buildDriver.evaluate(roots, true, numThreads, eventHandler);
return evaluationResult;
}
@Override
public boolean isUpToDate(Set<SkyKey> roots) {
return buildDriver.alreadyEvaluated(roots);
}
/**
* Get metadata related to the prepareAndGet() lookup. Resulting data is specific to the
* underlying evaluation implementation.
*/
public String prepareAndGetMetadata(Collection<String> patterns, String offset,
OptionsClassProvider options) throws AbruptExitException, InterruptedException {
return buildDriver.meta(ImmutableList.of(getUniverseKey(patterns, offset)), options);
}
@Override
public SkyKey getUniverseKey(Collection<String> patterns, String offset) {
return computeUniverseKey(ImmutableList.copyOf(patterns), offset);
}
/** Computes the {@link SkyKey} that defines this universe. */
public static SkyKey computeUniverseKey(Collection<String> patterns, String offset) {
return PrepareDepsOfPatternsValue.key(ImmutableList.copyOf(patterns), offset);
}
/** Returns the generating action of a given artifact ({@code null} if it's a source artifact). */
private ActionAnalysisMetadata getGeneratingAction(
ExtendedEventHandler eventHandler, Artifact artifact) throws InterruptedException {
if (artifact.isSourceArtifact()) {
return null;
}
ArtifactOwner artifactOwner = artifact.getArtifactOwner();
Preconditions.checkState(artifactOwner instanceof ActionLookupValue.ActionLookupKey,
"%s %s", artifact, artifactOwner);
SkyKey actionLookupKey =
ActionLookupValue.key((ActionLookupValue.ActionLookupKey) artifactOwner);
synchronized (valueLookupLock) {
// Note that this will crash (attempting to run a configured target value builder after
// analysis) after a failed --nokeep_going analysis in which the configured target that
// failed was a (transitive) dependency of the configured target that should generate
// this action. We don't expect callers to query generating actions in such cases.
EvaluationResult<ActionLookupValue> result = buildDriver.evaluate(
ImmutableList.of(actionLookupKey), false, ResourceUsage.getAvailableProcessors(),
eventHandler);
return result.hasError()
? null
: result.get(actionLookupKey).getGeneratingActionDangerousReadJavadoc(artifact);
}
}
/**
* Returns an action graph.
*
* <p>For legacy compatibility only.
*/
public ActionGraph getActionGraph(final ExtendedEventHandler eventHandler) {
return new ActionGraph() {
@Override
public ActionAnalysisMetadata getGeneratingAction(final Artifact artifact) {
try {
return callUninterruptibly(new Callable<ActionAnalysisMetadata>() {
@Override
public ActionAnalysisMetadata call() throws InterruptedException {
return SkyframeExecutor.this.getGeneratingAction(eventHandler, artifact);
}
});
} catch (Exception e) {
throw new IllegalStateException("Error getting generating action: "
+ artifact.prettyPrint(), e);
}
}
};
}
public PackageManager getPackageManager() {
return packageManager;
}
class SkyframePackageLoader {
/**
* Looks up a particular package (mostly used after the loading phase, so packages should
* already be present, but occasionally used pre-loading phase). Use should be discouraged,
* since this cannot be used inside a Skyframe evaluation, and concurrent calls are
* synchronized.
*
* <p>Note that this method needs to be synchronized since InMemoryMemoizingEvaluator.evaluate()
* method does not support concurrent calls.
*/
Package getPackage(ExtendedEventHandler eventHandler, PackageIdentifier pkgName)
throws InterruptedException, NoSuchPackageException {
synchronized (valueLookupLock) {
SkyKey key = PackageValue.key(pkgName);
// Any call to this method post-loading phase should either be error-free or be in a
// keep_going build, since otherwise the build would have failed during loading. Thus
// we set keepGoing=true unconditionally.
EvaluationResult<PackageValue> result =
buildDriver.evaluate(ImmutableList.of(key), /*keepGoing=*/true,
DEFAULT_THREAD_COUNT, eventHandler);
ErrorInfo error = result.getError(key);
if (error != null) {
if (!Iterables.isEmpty(error.getCycleInfo())) {
reportCycles(eventHandler, result.getError().getCycleInfo(), key);
// This can only happen if a package is freshly loaded outside of the target parsing
// or loading phase
throw new BuildFileContainsErrorsException(
pkgName, "Cycle encountered while loading package " + pkgName);
}
Throwable e = error.getException();
// PackageFunction should be catching, swallowing, and rethrowing all transitive
// errors as NoSuchPackageExceptions or constructing packages with errors, since we're in
// keep_going mode.
Throwables.propagateIfInstanceOf(e, NoSuchPackageException.class);
throw new IllegalStateException("Unexpected Exception type from PackageValue for '"
+ pkgName + "'' with root causes: " + Iterables.toString(error.getRootCauses()), e);
}
return result.get(key).getPackage();
}
}
/**
* Returns whether the given package should be consider deleted and thus should be ignored.
*/
public boolean isPackageDeleted(PackageIdentifier packageName) {
Preconditions.checkState(!packageName.getRepository().isDefault(),
"package must be absolute: %s", packageName);
return deletedPackages.get().contains(packageName);
}
}
@VisibleForTesting
public MemoizingEvaluator getEvaluatorForTesting() {
return memoizingEvaluator;
}
@VisibleForTesting
public FileSystem getFileSystemForTesting() {
return fileSystem;
}
@VisibleForTesting
public RuleClassProvider getRuleClassProviderForTesting() {
return ruleClassProvider;
}
@VisibleForTesting
public Package.Builder.Helper getPackageBuilderHelperForTesting() {
return pkgFactory.getPackageBuilderHelperForTesting();
}
public void sync(
ExtendedEventHandler eventHandler,
PackageCacheOptions packageCacheOptions,
SkylarkSemanticsOptions skylarkSemanticsOptions,
Path outputBase,
Path workingDirectory,
String defaultsPackageContents,
UUID commandId,
Map<String, String> clientEnv,
TimestampGranularityMonitor tsgm,
OptionsClassProvider options)
throws InterruptedException, AbruptExitException {
// ImmutableMap does not support null values, so use a LinkedHashMap instead.
LinkedHashMap<String, String> actionEnvironment = new LinkedHashMap<>();
BuildConfiguration.Options opt = options.getOptions(BuildConfiguration.Options.class);
if (opt != null) {
for (Entry<String, String> v : opt.actionEnvironment) {
actionEnvironment.put(v.getKey(), v.getValue());
}
}
preparePackageLoading(
createPackageLocator(
eventHandler,
packageCacheOptions.packagePath,
outputBase,
directories.getWorkspace(),
workingDirectory),
packageCacheOptions,
skylarkSemanticsOptions,
defaultsPackageContents,
commandId,
clientEnv,
Collections.unmodifiableMap(actionEnvironment),
tsgm);
setDeletedPackages(packageCacheOptions.getDeletedPackages());
incrementalBuildMonitor = new SkyframeIncrementalBuildMonitor();
invalidateTransientErrors();
}
protected PathPackageLocator createPackageLocator(
ExtendedEventHandler eventHandler,
List<String> packagePaths,
Path outputBase,
Path workspace,
Path workingDirectory)
throws AbruptExitException {
return PathPackageLocator.create(
outputBase, packagePaths, eventHandler, workspace, workingDirectory);
}
private CyclesReporter createCyclesReporter() {
return new CyclesReporter(
new TransitiveTargetCycleReporter(packageManager),
new ActionArtifactCycleReporter(packageManager),
// TODO(ulfjack): The SkylarkModuleCycleReporter swallows previously reported cycles
// unconditionally! Is that intentional?
new ConfiguredTargetCycleReporter(packageManager),
new SkylarkModuleCycleReporter());
}
CyclesReporter getCyclesReporter() {
return cyclesReporter.get();
}
/** Convenience method with same semantics as {@link CyclesReporter#reportCycles}. */
public void reportCycles(
ExtendedEventHandler eventHandler, Iterable<CycleInfo> cycles, SkyKey topLevelKey) {
getCyclesReporter().reportCycles(cycles, topLevelKey, eventHandler);
}
public void setActionExecutionProgressReportingObjects(@Nullable ProgressSupplier supplier,
@Nullable ActionCompletedReceiver completionReceiver,
@Nullable ActionExecutionStatusReporter statusReporter) {
skyframeActionExecutor.setActionExecutionProgressReportingObjects(supplier, completionReceiver);
this.statusReporterRef.set(statusReporter);
}
public abstract void detectModifiedOutputFiles(
ModifiedFileSet modifiedOutputFiles, @Nullable Range<Long> lastExecutionTimeRange)
throws AbruptExitException, InterruptedException;
/**
* Mark dirty values for deletion if they've been dirty for longer than N versions.
*
* <p>Specifying a value N means, if the current version is V and a value was dirtied (and
* has remained so) in version U, and U + N &lt;= V, then the value will be marked for deletion
* and purged in version V+1.
*/
public abstract void deleteOldNodes(long versionWindowForDirtyGc);
public LoadingPhaseRunner getLoadingPhaseRunner(Set<String> ruleClassNames, boolean useNewImpl) {
if (!useNewImpl) {
return new LegacyLoadingPhaseRunner(packageManager, ruleClassNames);
} else {
return new SkyframeLoadingPhaseRunner(ruleClassNames);
}
}
/**
* Skyframe-based implementation of {@link LoadingPhaseRunner} based on {@link
* TargetPatternPhaseFunction}.
*/
final class SkyframeLoadingPhaseRunner extends LoadingPhaseRunner {
private final Set<String> ruleClassNames;
public SkyframeLoadingPhaseRunner(Set<String> ruleClassNames) {
this.ruleClassNames = ruleClassNames;
}
@Override
public LoadingResult execute(
ExtendedEventHandler eventHandler,
List<String> targetPatterns,
PathFragment relativeWorkingDirectory,
LoadingOptions options,
boolean keepGoing,
boolean determineTests,
@Nullable LoadingCallback callback)
throws TargetParsingException, LoadingFailedException, InterruptedException {
Stopwatch timer = Stopwatch.createStarted();
SkyKey key = TargetPatternPhaseValue.key(ImmutableList.copyOf(targetPatterns),
relativeWorkingDirectory.getPathString(), options.compileOneDependency,
options.buildTestsOnly, determineTests,
ImmutableList.copyOf(options.buildTagFilterList),
options.buildManualTests,
TestFilter.forOptions(options, eventHandler, ruleClassNames));
EvaluationResult<TargetPatternPhaseValue> evalResult;
eventHandler.post(new LoadingPhaseStartedEvent(packageProgress));
evalResult =
buildDriver.evaluate(ImmutableList.of(key), keepGoing, /*numThreads=*/ 10, eventHandler);
if (evalResult.hasError()) {
ErrorInfo errorInfo = evalResult.getError(key);
if (!Iterables.isEmpty(errorInfo.getCycleInfo())) {
String errorMessage = "cycles detected during target parsing";
getCyclesReporter().reportCycles(errorInfo.getCycleInfo(), key, eventHandler);
throw new TargetParsingException(errorMessage);
}
if (errorInfo.getException() != null) {
Exception e = errorInfo.getException();
Throwables.propagateIfInstanceOf(e, TargetParsingException.class);
if (!keepGoing) {
// This is the same code as in SkyframeTargetPatternEvaluator; we allow any exception
// and turn it into a TargetParsingException here.
throw new TargetParsingException(e.getMessage());
}
throw new IllegalStateException("Unexpected Exception type from TargetPatternPhaseValue "
+ "for '" + targetPatterns + "'' with root causes: "
+ Iterables.toString(errorInfo.getRootCauses()), e);
}
}
long timeMillis = timer.stop().elapsed(TimeUnit.MILLISECONDS);
TargetPatternPhaseValue patternParsingValue = evalResult.get(key);
eventHandler.post(new TargetParsingPhaseTimeEvent(timeMillis));
if (callback != null) {
callback.notifyTargets(patternParsingValue.getTargets());
}
eventHandler.post(new LoadingPhaseCompleteEvent(
patternParsingValue.getTargets(), patternParsingValue.getTestSuiteTargets(),
PackageManagerStatistics.ZERO, /*timeInMs=*/0));
return patternParsingValue.toLoadingResult();
}
}
/**
* A progress received to track analysis invalidation and update progress messages.
*/
protected class SkyframeProgressReceiver
extends EvaluationProgressReceiver.NullEvaluationProgressReceiver {
/**
* This flag is needed in order to avoid invalidating legacy data when we clear the
* analysis cache because of --discard_analysis_cache flag. For that case we want to keep
* the legacy data but get rid of the Skyframe data.
*/
protected boolean ignoreInvalidations = false;
/** This receiver is only needed for execution, so it is null otherwise. */
@Nullable EvaluationProgressReceiver executionProgressReceiver = null;
/** This receiver is only needed for loading, so it is null otherwise. */
@Override
public void invalidated(SkyKey skyKey, InvalidationState state) {
if (ignoreInvalidations) {
return;
}
skyframeBuildView.getProgressReceiver().invalidated(skyKey, state);
}
@Override
public void enqueueing(SkyKey skyKey) {
if (ignoreInvalidations) {
return;
}
skyframeBuildView.getProgressReceiver().enqueueing(skyKey);
if (executionProgressReceiver != null) {
executionProgressReceiver.enqueueing(skyKey);
}
}
@Override
public void evaluated(SkyKey skyKey, Supplier<SkyValue> valueSupplier, EvaluationState state) {
if (ignoreInvalidations) {
return;
}
skyframeBuildView.getProgressReceiver().evaluated(skyKey, valueSupplier, state);
if (executionProgressReceiver != null) {
executionProgressReceiver.evaluated(skyKey, valueSupplier, state);
}
}
}
public int getOutputDirtyFilesAndClear() {
int result = outputDirtyFiles;
outputDirtyFiles = 0;
return result;
}
public int getModifiedFilesDuringPreviousBuildAndClear() {
int result = modifiedFilesDuringPreviousBuild;
modifiedFilesDuringPreviousBuild = 0;
return result;
}
}