private LicensesProvider initializeLicensesProvider() {
if (!ruleContext.getConfiguration().checkLicenses()) {
return LicensesProviderImpl.EMPTY;
}
NestedSetBuilder<TargetLicense> builder = NestedSetBuilder.linkOrder();
BuildConfiguration configuration = ruleContext.getConfiguration();
Rule rule = ruleContext.getRule();
License toolOutputLicense = rule.getToolOutputLicense(ruleContext.attributes());
if (configuration.isHostConfiguration() && toolOutputLicense != null) {
if (toolOutputLicense != License.NO_LICENSE) {
builder.add(new TargetLicense(rule.getLabel(), toolOutputLicense));
}
} else {
if (rule.getLicense() != License.NO_LICENSE) {
builder.add(new TargetLicense(rule.getLabel(), rule.getLicense()));
}
for (TransitiveInfoCollection dep : ruleContext.getConfiguredTargetMap().values()) {
LicensesProvider provider = dep.getProvider(LicensesProvider.class);
if (provider != null) {
builder.addTransitive(provider.getTransitiveLicenses());
}
}
}
return new LicensesProviderImpl(builder.build());
}
TestTargetExecutionSettings(
RuleContext ruleContext,
RunfilesSupport runfiles,
Artifact executable,
Artifact instrumentedFileManifest,
int shards) {
Preconditions.checkArgument(TargetUtils.isTestRule(ruleContext.getRule()));
Preconditions.checkArgument(shards >= 0);
BuildConfiguration config = ruleContext.getConfiguration();
List<String> targetArgs = runfiles.getArgs();
testArguments =
targetArgs.isEmpty()
? config.getTestArguments()
: ImmutableList.copyOf(Iterables.concat(targetArgs, config.getTestArguments()));
totalShards = shards;
runUnder = config.getRunUnder();
runUnderExecutable = getRunUnderExecutable(ruleContext);
this.testFilter = config.getTestFilter();
this.executable = executable;
this.runfilesManifest = runfiles.getRunfilesManifest();
this.runfilesInputManifest = runfiles.getRunfilesInputManifest();
this.instrumentedFileManifest = instrumentedFileManifest;
}
/**
* Returns the host configuration trimmed to the same fragments as the input configuration. If the
* input is null, returns the top-level host configuration.
*
* <p>For static configurations, this unconditionally returns the (sole) top-level configuration.
*
* <p>This may only be called after {@link #setTopLevelHostConfiguration} has set the correct host
* configuration at the top-level.
*/
public BuildConfiguration getHostConfiguration(BuildConfiguration config) {
if (config == null || !config.useDynamicConfigurations()) {
return topLevelHostConfiguration;
}
// TODO(bazel-team): have the fragment classes be those required by the consuming target's
// transitive closure. This isn't the same as the input configuration's fragment classes -
// the latter may be a proper subset of the former.
//
// ConfigurationFactory.getConfiguration provides the reason why: if a declared required
// fragment is evaluated and returns null, it never gets added to the configuration. So if we
// use the configuration's fragments as the source of truth, that excludes required fragments
// that never made it in.
//
// If we're just trimming an existing configuration, this is no big deal (if the original
// configuration doesn't need the fragment, the trimmed one doesn't either). But this method
// trims a host configuration to the same scope as a target configuration. Since their options
// are different, the host instance may actually be able to produce the fragment. So it's
// wrong and potentially dangerous to unilaterally exclude it.
Set<Class<? extends BuildConfiguration.Fragment>> fragmentClasses = config.fragmentClasses();
BuildConfiguration hostConfig = hostConfigurationCache.get(fragmentClasses);
if (hostConfig != null) {
return hostConfig;
}
BuildConfiguration trimmedConfig =
topLevelHostConfiguration.clone(fragmentClasses, ruleClassProvider);
hostConfigurationCache.put(fragmentClasses, trimmedConfig);
return trimmedConfig;
}
@Nullable
private static CppConfiguration getCppConfiguration(ConfiguredTarget base) {
BuildConfiguration configuration = base.getConfiguration();
if (configuration != null) {
return configuration.getFragment(CppConfiguration.class);
}
return null;
}
private Artifact scopedArtifact(PathFragment scopeRelative, boolean inGenfiles) {
Root root =
inGenfiles
? buildConfiguration.getGenfilesDirectory(ruleContext.getRule().getRepository())
: buildConfiguration.getBinDirectory(ruleContext.getRule().getRepository());
// The path of this artifact will be RULE_PACKAGE/SCOPERELATIVE
return ruleContext.getPackageRelativeArtifact(scopeRelative, root);
}
private static Artifact derivedArtifact(
ConfiguredTarget base, RuleContext ruleContext, String suffix) {
BuildConfiguration configuration = ruleContext.getConfiguration();
assert configuration != null;
Root genfilesDirectory = configuration.getGenfilesDirectory();
PathFragment derivedFilePath = getOutputFilePath(base, ruleContext, suffix);
return ruleContext
.getAnalysisEnvironment()
.getDerivedArtifact(derivedFilePath, genfilesDirectory);
}
/**
* Takes a set of configured targets, and checks if the distribution methods declared for the
* targets are compatible with the constraints imposed by their prerequisites' licenses.
*
* @param configuredTargets the targets to check
* @param keepGoing if false, and a licensing error is encountered, both generates an error
* message on the reporter, <em>and</em> throws an exception. If true, then just generates a
* message on the reporter.
* @throws ViewCreationFailedException if the license checking failed (and not --keep_going)
*/
private void validateLicensingForTargets(
Iterable<ConfiguredTarget> configuredTargets, boolean keepGoing)
throws ViewCreationFailedException {
for (ConfiguredTarget configuredTarget : configuredTargets) {
final Target target = configuredTarget.getTarget();
if (TargetUtils.isTestRule(target)) {
continue; // Tests are exempt from license checking
}
final Set<DistributionType> distribs = target.getDistributions();
BuildConfiguration config = configuredTarget.getConfiguration();
boolean staticallyLinked = (config != null) && config.performsStaticLink();
staticallyLinked |=
(config != null)
&& (target instanceof Rule)
&& ((Rule) target).getRuleClassObject().hasAttr("linkopts", Type.STRING_LIST)
&& ConfiguredAttributeMapper.of((RuleConfiguredTarget) configuredTarget)
.get("linkopts", Type.STRING_LIST)
.contains("-static");
LicensesProvider provider = configuredTarget.getProvider(LicensesProvider.class);
if (provider != null) {
NestedSet<TargetLicense> licenses = provider.getTransitiveLicenses();
for (TargetLicense targetLicense : licenses) {
if (!targetLicense
.getLicense()
.checkCompatibility(
distribs, target, targetLicense.getLabel(), getReporter(), staticallyLinked)) {
if (!keepGoing) {
throw new ViewCreationFailedException("Build aborted due to licensing error");
}
}
}
} else if (configuredTarget.getTarget() instanceof InputFile) {
// Input file targets do not provide licenses because they do not
// depend on the rule where their license is taken from. This is usually
// not a problem, because the transitive collection of licenses always
// hits the rule they come from, except when the input file is a
// top-level target. Thus, we need to handle that case specially here.
//
// See FileTarget#getLicense for more information about the handling of
// license issues with File targets.
License license = configuredTarget.getTarget().getLicense();
if (!license.checkCompatibility(
distribs, target, configuredTarget.getLabel(), getReporter(), staticallyLinked)) {
if (!keepGoing) {
throw new ViewCreationFailedException("Build aborted due to licensing error");
}
}
}
}
}
/**
* Returns the host configuration trimmed to the same fragments as the input configuration. If the
* input is null, returns the top-level host configuration.
*
* <p>For static configurations, this unconditionally returns the (sole) top-level configuration.
*
* <p>This may only be called after {@link #setTopLevelHostConfiguration} has set the correct host
* configuration at the top-level.
*/
public BuildConfiguration getHostConfiguration(BuildConfiguration config) {
if (config == null || !config.useDynamicConfigurations()) {
return topLevelHostConfiguration;
}
Set<Class<? extends BuildConfiguration.Fragment>> fragmentClasses = config.fragmentClasses();
BuildConfiguration hostConfig = hostConfigurationCache.get(fragmentClasses);
if (hostConfig != null) {
return hostConfig;
}
BuildConfiguration trimmedConfig =
topLevelHostConfiguration.clone(fragmentClasses, ruleClassProvider);
hostConfigurationCache.put(fragmentClasses, trimmedConfig);
return trimmedConfig;
}
public CppCompileActionBuilder setDotdFile(PathFragment outputName, String extension) {
if (CppFileTypes.mustProduceDotdFile(outputName.toString())) {
if (configuration.getFragment(CppConfiguration.class).getInmemoryDotdFiles()) {
// Just set the path, no artifact is constructed
PathFragment file = FileSystemUtils.replaceExtension(outputName, extension);
Root root = configuration.getBinDirectory();
dotdFile = new DotdFile(root.getExecPath().getRelative(file));
} else {
dotdFile = new DotdFile(ruleContext.getRelatedArtifact(outputName, extension));
}
} else {
dotdFile = null;
}
return this;
}
/** Returns true iff code coverage is enabled for the given target. */
private boolean isCodeCoverageEnabled() {
if (configuration.isCodeCoverageEnabled()) {
// If rule is matched by the instrumentation filter, enable instrumentation
if (InstrumentedFilesCollector.shouldIncludeLocalSources(ruleContext)) {
return true;
}
// At this point the rule itself is not matched by the instrumentation filter. However, we
// might still want to instrument C++ rules if one of the targets listed in "deps" is
// instrumented and, therefore, can supply header files that we would want to collect code
// coverage for. For example, think about cc_test rule that tests functionality defined in a
// header file that is supplied by the cc_library.
//
// Note that we only check direct prerequisites and not the transitive closure. This is done
// for two reasons:
// a) It is a good practice to declare libraries which you directly rely on. Including headers
// from a library hidden deep inside the transitive closure makes build dependencies less
// readable and can lead to unexpected breakage.
// b) Traversing the transitive closure for each C++ compile action would require more complex
// implementation (with caching results of this method) to avoid O(N^2) slowdown.
if (ruleContext.getRule().isAttrDefined("deps", BuildType.LABEL_LIST)) {
for (TransitiveInfoCollection dep : ruleContext.getPrerequisites("deps", Mode.TARGET)) {
if (dep.getProvider(CppCompilationContext.class) != null
&& InstrumentedFilesCollector.shouldIncludeLocalSources(configuration, dep)) {
return true;
}
}
}
}
return false;
}
/**
* Sets the host configuration consisting of all fragments that will be used by the top level
* targets' transitive closures.
*
* <p>This is used to power {@link #getHostConfiguration} during analysis, which computes
* fragment-trimmed host configurations from the top-level one.
*/
private void setTopLevelHostConfiguration(BuildConfiguration topLevelHostConfiguration) {
if (topLevelHostConfiguration.equals(this.topLevelHostConfiguration)) {
return;
}
hostConfigurationCache.clear();
this.topLevelHostConfiguration = topLevelHostConfiguration;
}
@Override
public Label getDefault(Rule rule, BuildConfiguration configuration) {
// If --proguard_top is not specified, null is returned. AndroidSdk will take care of
// using
// android_sdk.proguard then.
return configuration.getFragment(AndroidConfiguration.class).getProguardLabel();
}
/**
* Scans {@code action_listeners} associated with this build to see if any {@code extra_actions}
* should be added to this configured target. If any action_listeners are present, a partial visit
* of the artifact/action graph is performed (for as long as actions found are owned by this
* {@link ConfiguredTarget}). Any actions that match the {@code action_listener} get an {@code
* extra_action} associated. The output artifacts of the extra_action are reported to the {@link
* AnalysisEnvironment} for bookkeeping.
*/
private ExtraActionArtifactsProvider initializeExtraActions() {
BuildConfiguration configuration = ruleContext.getConfiguration();
if (configuration.isHostConfiguration()) {
return ExtraActionArtifactsProvider.EMPTY;
}
ImmutableList<Artifact> extraActionArtifacts = ImmutableList.of();
NestedSetBuilder<ExtraArtifactSet> builder = NestedSetBuilder.stableOrder();
List<Label> actionListenerLabels = configuration.getActionListeners();
if (!actionListenerLabels.isEmpty()
&& ruleContext.getRule().getAttributeDefinition(":action_listener") != null) {
ExtraActionsVisitor visitor =
new ExtraActionsVisitor(ruleContext, computeMnemonicsToExtraActionMap());
// The action list is modified within the body of the loop by the addExtraAction() call,
// thus the copy
for (Action action :
ImmutableList.copyOf(ruleContext.getAnalysisEnvironment().getRegisteredActions())) {
if (!actionsWithoutExtraAction.contains(action)) {
visitor.addExtraAction(action);
}
}
extraActionArtifacts = visitor.getAndResetExtraArtifacts();
if (!extraActionArtifacts.isEmpty()) {
builder.add(ExtraArtifactSet.of(ruleContext.getLabel(), extraActionArtifacts));
}
}
// Add extra action artifacts from dependencies
for (TransitiveInfoCollection dep : ruleContext.getConfiguredTargetMap().values()) {
ExtraActionArtifactsProvider provider = dep.getProvider(ExtraActionArtifactsProvider.class);
if (provider != null) {
builder.addTransitive(provider.getTransitiveExtraActionArtifacts());
}
}
if (mandatoryStampFiles != null && !mandatoryStampFiles.isEmpty()) {
builder.add(ExtraArtifactSet.of(ruleContext.getLabel(), mandatoryStampFiles));
}
if (extraActionArtifacts.isEmpty() && builder.isEmpty()) {
return ExtraActionArtifactsProvider.EMPTY;
}
return new ExtraActionArtifactsProvider(extraActionArtifacts, builder.build());
}
/**
* Returns a derived artifact in the bin directory obtained by appending some extension to the
* main label name; the result artifact is placed in a unique "entitlements" directory. For
* example, if this artifact is for a target Foo with extension ".extension", the result artifact
* will be located at {target_base_path}/entitlements/Foo.extension.
*/
public Artifact appendExtensionForEntitlementArtifact(String extension) {
PathFragment entitlementsDirectory = ruleContext.getUniqueDirectory("entitlements");
Artifact artifact =
ruleContext.getDerivedArtifact(
entitlementsDirectory.replaceName(
addOutputPrefix(entitlementsDirectory.getBaseName(), extension)),
buildConfiguration.getBinDirectory(ruleContext.getRule().getRepository()));
return artifact;
}
/**
* Checks that if this is an environment-restricted build, all top-level targets support the
* expected environments.
*
* @param topLevelTargets the build's top-level targets
* @throws ViewCreationFailedException if constraint enforcement is on, the build declares
* environment-restricted top level configurations, and any top-level target doesn't support
* the expected environments
*/
private void checkTargetEnvironmentRestrictions(
Iterable<ConfiguredTarget> topLevelTargets, PackageManager packageManager)
throws ViewCreationFailedException {
for (ConfiguredTarget topLevelTarget : topLevelTargets) {
BuildConfiguration config = topLevelTarget.getConfiguration();
if (config == null) {
// TODO(bazel-team): support file targets (they should apply package-default constraints).
continue;
} else if (!config.enforceConstraints() || config.getTargetEnvironments().isEmpty()) {
continue;
}
// Parse and collect this configuration's environments.
EnvironmentCollection.Builder builder = new EnvironmentCollection.Builder();
for (Label envLabel : config.getTargetEnvironments()) {
try {
Target env = packageManager.getLoadedTarget(envLabel);
builder.put(ConstraintSemantics.getEnvironmentGroup(env), envLabel);
} catch (NoSuchPackageException
| NoSuchTargetException
| ConstraintSemantics.EnvironmentLookupException e) {
throw new ViewCreationFailedException("invalid target environment", e);
}
}
EnvironmentCollection expectedEnvironments = builder.build();
// Now check the target against those environments.
SupportedEnvironmentsProvider provider =
Verify.verifyNotNull(topLevelTarget.getProvider(SupportedEnvironmentsProvider.class));
Collection<Label> missingEnvironments =
ConstraintSemantics.getUnsupportedEnvironments(
provider.getEnvironments(), expectedEnvironments);
if (!missingEnvironments.isEmpty()) {
throw new ViewCreationFailedException(
String.format(
"This is a restricted-environment build. %s does not support"
+ " required environment%s %s",
topLevelTarget.getLabel(),
missingEnvironments.size() == 1 ? "" : "s",
Joiner.on(", ").join(missingEnvironments)));
}
}
}
/**
* Adds the given targets as dependencies - this can include explicit dependencies on other rules
* (like from a "deps" attribute) and also implicit dependencies on runtime libraries.
*/
public CcLibraryHelper addDeps(Iterable<? extends TransitiveInfoCollection> deps) {
for (TransitiveInfoCollection dep : deps) {
Preconditions.checkArgument(
dep.getConfiguration() == null
|| configuration.equalsOrIsSupersetOf(dep.getConfiguration()),
"dep " + dep.getLabel() + " has a different config than " + ruleContext.getLabel());
this.deps.add(dep);
}
return this;
}
@Override
public List<Label> resolve(
Rule rule, AttributeMap attributes, BuildConfiguration configuration) {
// action_listeners are special rules; they tell the build system to add extra_actions to
// existing rules. As such they need an edge to every ConfiguredTarget with the limitation
// that they only run on the target configuration and should not operate on
// action_listeners
// and extra_actions themselves (to avoid cycles).
return configuration.getActionListeners();
}
@Override
public boolean equals(Object other) {
if (!(other instanceof Dependency)) {
return false;
}
Dependency otherDep = (Dependency) other;
return label.equals(otherDep.label)
&& (configuration == otherDep.configuration
|| (configuration != null && configuration.equals(otherDep.configuration)))
&& aspects.equals(otherDep.aspects);
}
public void assertConfigurationsHaveUniqueOutputDirectories(
BuildConfigurationCollection configCollection) throws Exception {
Collection<BuildConfiguration> allConfigs = configCollection.getAllConfigurations();
Map<Root, BuildConfiguration> outputPaths = new HashMap<>();
for (BuildConfiguration config : allConfigs) {
if (config.isActionsEnabled()) {
BuildConfiguration otherConfig = outputPaths.get(config.getOutputDirectory());
if (otherConfig != null) {
throw new IllegalStateException(
"The output path '"
+ config.getOutputDirectory()
+ "' is the same for configurations '"
+ config
+ "' and '"
+ otherConfig
+ "'");
} else {
outputPaths.put(config.getOutputDirectory(), config);
}
}
}
}
/** Returns null if any build-info values are not ready. */
@Nullable
CachingAnalysisEnvironment createAnalysisEnvironment(
ArtifactOwner owner,
boolean isSystemEnv,
EventHandler eventHandler,
Environment env,
BuildConfiguration config) {
if (config != null && !getWorkspaceStatusValues(env, config)) {
return null;
}
boolean extendedSanityChecks = config != null && config.extendedSanityChecks();
boolean allowRegisteringActions = config == null || config.isActionsEnabled();
return new CachingAnalysisEnvironment(
artifactFactory,
owner,
isSystemEnv,
extendedSanityChecks,
eventHandler,
env,
allowRegisteringActions,
binTools);
}
/**
* Checks that the implicit labels are reachable from the loaded labels. The loaded labels are
* those returned from {@link BuildOptions#getAllLabels()}, and the implicit ones are those that
* need to be available for late-bound attributes.
*/
private void sanityCheckImplicitLabels(
Collection<Label> reachableLabels, BuildConfiguration config)
throws InvalidConfigurationException {
for (Map.Entry<String, Label> entry : config.getImplicitLabels().entries()) {
if (!reachableLabels.contains(entry.getValue())) {
throw new InvalidConfigurationException(
"The required "
+ entry.getKey()
+ " target is not transitively reachable from a command-line option: '"
+ entry.getValue()
+ "'");
}
}
}
/**
* Returns a raw link command for the given link invocation, including both command and arguments
* (argv). After any further usage-specific processing, this can be passed to {@link
* #finalizeWithLinkstampCommands} to give the final command line.
*
* @return raw link command line.
*/
public List<String> getRawLinkArgv() {
List<String> argv = new ArrayList<>();
switch (linkTargetType) {
case EXECUTABLE:
argv.add(cppConfiguration.getCppExecutable().getPathString());
argv.addAll(featureConfiguration.getCommandLine(actionName, variables));
argv.addAll(noWholeArchiveFlags);
addToolchainFlags(argv);
break;
case DYNAMIC_LIBRARY:
if (interfaceOutput != null) {
argv.add(configuration.getShExecutable().getPathString());
argv.add("-c");
argv.add(
"build_iface_so=\"$0\"; impl=\"$1\"; iface=\"$2\"; cmd=\"$3\"; shift 3; "
+ "\"$cmd\" \"$@\" && \"$build_iface_so\" \"$impl\" \"$iface\"");
argv.add(interfaceSoBuilder.getExecPathString());
argv.add(output.getExecPathString());
argv.add(interfaceOutput.getExecPathString());
}
argv.add(cppConfiguration.getCppExecutable().getPathString());
argv.addAll(featureConfiguration.getCommandLine(actionName, variables));
argv.addAll(noWholeArchiveFlags);
addToolchainFlags(argv);
break;
case STATIC_LIBRARY:
case PIC_STATIC_LIBRARY:
case ALWAYS_LINK_STATIC_LIBRARY:
case ALWAYS_LINK_PIC_STATIC_LIBRARY:
// The static library link command follows this template:
// ar <cmd> <output_archive> <input_files...>
argv.add(cppConfiguration.getArExecutable().getPathString());
argv.addAll(
cppConfiguration.getArFlags(cppConfiguration.archiveType() == Link.ArchiveType.THIN));
argv.add(output.getExecPathString());
argv.addAll(featureConfiguration.getCommandLine(actionName, variables));
argv.addAll(noWholeArchiveFlags);
break;
default:
throw new IllegalArgumentException();
}
return argv;
}
private void visitRule(
Rule rule,
AspectDefinition aspect,
AspectParameters aspectParameters,
ListMultimap<Attribute, LabelAndConfiguration> labelMap,
ListMultimap<Attribute, Dependency> outgoingEdges) {
Preconditions.checkNotNull(labelMap);
for (Map.Entry<Attribute, Collection<LabelAndConfiguration>> entry :
labelMap.asMap().entrySet()) {
Attribute attribute = entry.getKey();
for (LabelAndConfiguration dep : entry.getValue()) {
Label label = dep.getLabel();
BuildConfiguration config = dep.getConfiguration();
Target toTarget;
try {
toTarget = getTarget(label);
} catch (NoSuchThingException e) {
throw new IllegalStateException(
"not found: " + label + " from " + rule + " in " + attribute.getName());
}
if (toTarget == null) {
continue;
}
BuildConfiguration.TransitionApplier transitionApplier = config.getTransitionApplier();
if (config.useDynamicConfigurations()
&& config.isHostConfiguration()
&& !BuildConfiguration.usesNullConfiguration(toTarget)) {
// This condition is needed because resolveLateBoundAttributes may switch config to
// the host configuration, which is the only case DependencyResolver applies a
// configuration transition outside of this method. We need to reflect that
// transition in the results of this method, but config.evaluateTransition is hard-set
// to return a NONE transition when the input is a host config. Since the outside
// caller originally passed the *original* value of config (before the possible
// switch), it can mistakenly interpret the result as a NONE transition from the
// original value of config. This condition fixes that. Another fix would be to have
// config.evaluateTransition return a HOST transition when the input config is a host,
// but since this blemish is specific to DependencyResolver it seems best to keep the
// fix here.
// TODO(bazel-team): eliminate this special case by passing transitionApplier to
// resolveLateBoundAttributes, so that method uses the same interface for transitions.
transitionApplier.applyTransition(Attribute.ConfigurationTransition.HOST);
} else {
config.evaluateTransition(rule, attribute, toTarget, transitionApplier);
}
for (Dependency dependency :
transitionApplier.getDependencies(
label, requiredAspects(aspect, aspectParameters, attribute, toTarget, rule))) {
outgoingEdges.put(entry.getKey(), dependency);
}
}
}
}
/**
* Creates a builder for an owner that is not required to be rule.
*
* <p>If errors are found when creating the {@code CppCompileAction}, builders constructed this
* way will throw a runtime exception.
*/
@VisibleForTesting
public CppCompileActionBuilder(
ActionOwner owner,
AnalysisEnvironment analysisEnvironment,
Artifact sourceFile,
Label sourceLabel,
BuildConfiguration configuration) {
this.owner = owner;
this.actionContext = CppCompileActionContext.class;
this.cppConfiguration = configuration.getFragment(CppConfiguration.class);
this.analysisEnvironment = analysisEnvironment;
this.sourceFile = sourceFile;
this.sourceLabel = sourceLabel;
this.configuration = configuration;
this.mandatoryInputsBuilder = NestedSetBuilder.stableOrder();
this.pluginInputsBuilder = NestedSetBuilder.stableOrder();
this.lipoScannableMap = ImmutableMap.of();
}
@Override
public List<Label> getDefault(Rule rule, BuildConfiguration configuration) {
return ImmutableList.copyOf(configuration.getPlugins());
}
@Override
public Label getDefault(Rule rule, BuildConfiguration configuration) {
return configuration.getFragment(JavaConfiguration.class).getProguardBinary();
}
@Override
public List<Label> getDefault(Rule rule, BuildConfiguration configuration) {
return ImmutableList.copyOf(
configuration.getFragment(JavaConfiguration.class).getExtraProguardSpecs());
}
@Override
public Label resolve(Rule rule, AttributeMap attributes, BuildConfiguration configuration) {
return configuration.getFragment(AndroidConfiguration.class).getSdk();
}
@Override
public Label getDefault(Rule rule, BuildConfiguration configuration) {
return configuration.getFragment(JavaConfiguration.class).getToolchainLabel();
}
private void resolveLateBoundAttributes(
Rule rule,
BuildConfiguration configuration,
BuildConfiguration hostConfiguration,
AttributeMap attributeMap,
Iterable<Attribute> attributes,
ImmutableSortedKeyListMultimap.Builder<Attribute, LabelAndConfiguration> builder)
throws EvalException, InterruptedException {
for (Attribute attribute : attributes) {
if (!attribute.isLateBound() || !attribute.getCondition().apply(attributeMap)) {
continue;
}
List<BuildConfiguration> actualConfigurations = ImmutableList.of(configuration);
if (attribute.getConfigurationTransition() instanceof SplitTransition<?>) {
Preconditions.checkState(attribute.getConfigurator() == null);
// TODO(bazel-team): This ends up applying the split transition twice, both here and in the
// visitRule method below - this is not currently a problem, because the configuration graph
// never contains nested split transitions, so the second application is idempotent.
actualConfigurations =
configuration.getSplitConfigurations(
(SplitTransition<?>) attribute.getConfigurationTransition());
}
for (BuildConfiguration actualConfig : actualConfigurations) {
@SuppressWarnings("unchecked")
LateBoundDefault<BuildConfiguration> lateBoundDefault =
(LateBoundDefault<BuildConfiguration>) attribute.getLateBoundDefault();
if (lateBoundDefault.useHostConfiguration()) {
actualConfig = hostConfiguration;
}
// TODO(bazel-team): This might be too expensive - can we cache this somehow?
if (!lateBoundDefault.getRequiredConfigurationFragments().isEmpty()) {
if (!actualConfig.hasAllFragments(lateBoundDefault.getRequiredConfigurationFragments())) {
continue;
}
}
// TODO(bazel-team): We should check if the implementation tries to access an undeclared
// fragment.
Object actualValue = lateBoundDefault.getDefault(rule, actualConfig);
if (EvalUtils.isNullOrNone(actualValue)) {
continue;
}
try {
if (attribute.getType() == BuildType.LABEL) {
Label label = BuildType.LABEL.cast(actualValue);
builder.put(attribute, LabelAndConfiguration.of(label, actualConfig));
} else if (attribute.getType() == BuildType.LABEL_LIST) {
for (Label label : BuildType.LABEL_LIST.cast(actualValue)) {
builder.put(attribute, LabelAndConfiguration.of(label, actualConfig));
}
} else {
throw new IllegalStateException(
String.format(
"Late bound attribute '%s' is not a label or a label list",
attribute.getName()));
}
} catch (ClassCastException e) {
throw new EvalException(
rule.getLocation(),
String.format(
"When computing the default value of %s, expected '%s', got '%s'",
attribute.getName(),
attribute.getType(),
EvalUtils.getDataTypeName(actualValue, true)));
}
}
}
}
