use of com.facebook.buck.rules.keys.SupportsDependencyFileRuleKey in project buck by facebook.
the class CachingBuildEngine method processBuildRule.
private ListenableFuture<BuildResult> processBuildRule(BuildRule rule, BuildEngineBuildContext buildContext, ExecutionContext executionContext, ConcurrentLinkedQueue<ListenableFuture<Void>> asyncCallbacks) {
final RuleKeyFactories keyFactories = ruleKeyFactories.apply(rule.getProjectFilesystem());
final OnDiskBuildInfo onDiskBuildInfo = buildContext.createOnDiskBuildInfoFor(rule.getBuildTarget(), rule.getProjectFilesystem());
final BuildInfoRecorder buildInfoRecorder = buildContext.createBuildInfoRecorder(rule.getBuildTarget(), rule.getProjectFilesystem()).addBuildMetadata(BuildInfo.MetadataKey.RULE_KEY, keyFactories.getDefaultRuleKeyFactory().build(rule).toString());
final BuildableContext buildableContext = new DefaultBuildableContext(buildInfoRecorder);
final AtomicReference<Long> outputSize = Atomics.newReference();
ListenableFuture<BuildResult> buildResult = processBuildRule(rule, buildContext, executionContext, onDiskBuildInfo, buildInfoRecorder, buildableContext, asyncCallbacks);
// materialized locally by chaining up to our result future.
if (buildMode == BuildMode.DEEP || buildMode == BuildMode.POPULATE_FROM_REMOTE_CACHE) {
buildResult = MoreFutures.chainExceptions(getDepResults(rule, buildContext, executionContext, asyncCallbacks), buildResult);
}
// Setup a callback to handle either the cached or built locally cases.
AsyncFunction<BuildResult, BuildResult> callback = input -> {
if (input.getStatus() != BuildRuleStatus.SUCCESS) {
return Futures.immediateFuture(input);
}
BuildRuleSuccessType success = Preconditions.checkNotNull(input.getSuccess());
if (success != BuildRuleSuccessType.BUILT_LOCALLY) {
for (String str : onDiskBuildInfo.getValuesOrThrow(BuildInfo.MetadataKey.RECORDED_PATHS)) {
buildInfoRecorder.recordArtifact(Paths.get(str));
}
}
outputSize.set(buildInfoRecorder.getOutputSize());
if (success.outputsHaveChanged()) {
if (rule instanceof HasPostBuildSteps) {
executePostBuildSteps(rule, ((HasPostBuildSteps) rule).getPostBuildSteps(buildContext.getBuildContext()), executionContext);
}
for (Path path : buildInfoRecorder.getRecordedPaths()) {
fileHashCache.invalidate(rule.getProjectFilesystem().resolve(path));
}
}
if (useDependencyFileRuleKey(rule) && success == BuildRuleSuccessType.BUILT_LOCALLY) {
ImmutableList<SourcePath> inputs = ((SupportsDependencyFileRuleKey) rule).getInputsAfterBuildingLocally(buildContext.getBuildContext());
ImmutableList<String> inputStrings = inputs.stream().map(inputString -> DependencyFileEntry.fromSourcePath(inputString, pathResolver)).map(MoreFunctions.toJsonFunction(objectMapper)).collect(MoreCollectors.toImmutableList());
buildInfoRecorder.addMetadata(BuildInfo.MetadataKey.DEP_FILE, inputStrings);
Optional<RuleKeyAndInputs> depFileRuleKeyAndInputs = calculateDepFileRuleKey(rule, buildContext, Optional.of(inputStrings), false);
if (depFileRuleKeyAndInputs.isPresent()) {
RuleKey depFileRuleKey = depFileRuleKeyAndInputs.get().getRuleKey();
buildInfoRecorder.addBuildMetadata(BuildInfo.MetadataKey.DEP_FILE_RULE_KEY, depFileRuleKey.toString());
if (useManifestCaching(rule)) {
Optional<RuleKeyAndInputs> manifestKey = calculateManifestKey(rule, buildContext.getEventBus());
if (manifestKey.isPresent()) {
buildInfoRecorder.addBuildMetadata(BuildInfo.MetadataKey.MANIFEST_KEY, manifestKey.get().getRuleKey().toString());
updateAndStoreManifest(rule, depFileRuleKeyAndInputs.get().getRuleKey(), depFileRuleKeyAndInputs.get().getInputs(), manifestKey.get(), buildContext.getArtifactCache());
}
}
}
}
if (success == BuildRuleSuccessType.BUILT_LOCALLY && shouldUploadToCache(rule, Preconditions.checkNotNull(outputSize.get()))) {
ImmutableSortedMap.Builder<String, String> outputHashes = ImmutableSortedMap.naturalOrder();
for (Path path : buildInfoRecorder.getOutputPaths()) {
outputHashes.put(path.toString(), fileHashCache.get(rule.getProjectFilesystem().resolve(path)).toString());
}
buildInfoRecorder.addBuildMetadata(BuildInfo.MetadataKey.RECORDED_PATH_HASHES, outputHashes.build());
}
if (success != BuildRuleSuccessType.BUILT_LOCALLY && success.outputsHaveChanged()) {
Optional<ImmutableMap<String, String>> hashes = onDiskBuildInfo.getBuildMap(BuildInfo.MetadataKey.RECORDED_PATH_HASHES);
if (hashes.isPresent() && verifyRecordedPathHashes(rule.getBuildTarget(), rule.getProjectFilesystem(), hashes.get())) {
for (Map.Entry<String, String> ent : hashes.get().entrySet()) {
Path path = rule.getProjectFilesystem().getPath(ent.getKey());
HashCode hashCode = HashCode.fromString(ent.getValue());
fileHashCache.set(rule.getProjectFilesystem().resolve(path), hashCode);
}
}
}
buildInfoRecorder.addBuildMetadata(BuildInfo.MetadataKey.TARGET, rule.getBuildTarget().toString());
buildInfoRecorder.addMetadata(BuildInfo.MetadataKey.RECORDED_PATHS, buildInfoRecorder.getRecordedPaths().stream().map(Object::toString).collect(MoreCollectors.toImmutableList()));
if (success.shouldWriteRecordedMetadataToDiskAfterBuilding()) {
try {
boolean clearExistingMetadata = success.shouldClearAndOverwriteMetadataOnDisk();
buildInfoRecorder.writeMetadataToDisk(clearExistingMetadata);
} catch (IOException e) {
throw new IOException(String.format("Failed to write metadata to disk for %s.", rule), e);
}
}
try {
if (rule instanceof InitializableFromDisk) {
doInitializeFromDisk((InitializableFromDisk<?>) rule, onDiskBuildInfo);
}
} catch (IOException e) {
throw new IOException(String.format("Error initializing %s from disk.", rule), e);
}
return Futures.immediateFuture(input);
};
buildResult = Futures.transformAsync(buildResult, ruleAsyncFunction(rule, buildContext.getEventBus(), callback), serviceByAdjustingDefaultWeightsTo(RULE_KEY_COMPUTATION_RESOURCE_AMOUNTS));
// Handle either build success or failure.
final SettableFuture<BuildResult> result = SettableFuture.create();
asyncCallbacks.add(MoreFutures.addListenableCallback(buildResult, new FutureCallback<BuildResult>() {
// TODO(bolinfest): Delete all files produced by the rule, as they are not guaranteed
// to be valid at this point?
private void cleanupAfterError() {
try {
onDiskBuildInfo.deleteExistingMetadata();
} catch (Throwable t) {
buildContext.getEventBus().post(ThrowableConsoleEvent.create(t, "Error when deleting metadata for %s.", rule));
}
}
private void uploadToCache(BuildRuleSuccessType success) {
// Collect up all the rule keys we have index the artifact in the cache with.
Set<RuleKey> ruleKeys = Sets.newHashSet();
// If the rule key has changed (and is not already in the cache), we need to push
// the artifact to cache using the new key.
ruleKeys.add(keyFactories.getDefaultRuleKeyFactory().build(rule));
// using the new key.
if (SupportsInputBasedRuleKey.isSupported(rule)) {
Optional<RuleKey> calculatedRuleKey = calculateInputBasedRuleKey(rule, buildContext.getEventBus());
Optional<RuleKey> onDiskRuleKey = onDiskBuildInfo.getRuleKey(BuildInfo.MetadataKey.INPUT_BASED_RULE_KEY);
Optional<RuleKey> metaDataRuleKey = buildInfoRecorder.getBuildMetadataFor(BuildInfo.MetadataKey.INPUT_BASED_RULE_KEY).map(RuleKey::new);
Preconditions.checkState(calculatedRuleKey.equals(onDiskRuleKey), "%s (%s): %s: invalid on-disk input-based rule key: %s != %s", rule.getBuildTarget(), rule.getType(), success, calculatedRuleKey, onDiskRuleKey);
Preconditions.checkState(calculatedRuleKey.equals(metaDataRuleKey), "%s: %s: invalid meta-data input-based rule key: %s != %s", rule.getBuildTarget(), success, calculatedRuleKey, metaDataRuleKey);
ruleKeys.addAll(OptionalCompat.asSet(calculatedRuleKey));
}
// using the new key.
if (useManifestCaching(rule)) {
Optional<RuleKey> onDiskRuleKey = onDiskBuildInfo.getRuleKey(BuildInfo.MetadataKey.DEP_FILE_RULE_KEY);
Optional<RuleKey> metaDataRuleKey = buildInfoRecorder.getBuildMetadataFor(BuildInfo.MetadataKey.DEP_FILE_RULE_KEY).map(RuleKey::new);
Preconditions.checkState(onDiskRuleKey.equals(metaDataRuleKey), "%s: %s: inconsistent meta-data and on-disk dep-file rule key: %s != %s", rule.getBuildTarget(), success, onDiskRuleKey, metaDataRuleKey);
ruleKeys.addAll(OptionalCompat.asSet(onDiskRuleKey));
}
// Do the actual upload.
try {
// Verify that the recorded path hashes are accurate.
Optional<String> recordedPathHashes = buildInfoRecorder.getBuildMetadataFor(BuildInfo.MetadataKey.RECORDED_PATH_HASHES);
if (recordedPathHashes.isPresent() && !verifyRecordedPathHashes(rule.getBuildTarget(), rule.getProjectFilesystem(), recordedPathHashes.get())) {
return;
}
// Push to cache.
buildInfoRecorder.performUploadToArtifactCache(ImmutableSet.copyOf(ruleKeys), buildContext.getArtifactCache(), buildContext.getEventBus());
} catch (Throwable t) {
buildContext.getEventBus().post(ThrowableConsoleEvent.create(t, "Error uploading to cache for %s.", rule));
}
}
private void handleResult(BuildResult input) {
Optional<Long> outputSize = Optional.empty();
Optional<HashCode> outputHash = Optional.empty();
Optional<BuildRuleSuccessType> successType = Optional.empty();
BuildRuleEvent.Resumed resumedEvent = BuildRuleEvent.resumed(rule, buildRuleDurationTracker, keyFactories.getDefaultRuleKeyFactory());
buildContext.getEventBus().logVerboseAndPost(LOG, resumedEvent);
if (input.getStatus() == BuildRuleStatus.FAIL) {
// Make this failure visible for other rules, so that they can stop early.
firstFailure = input.getFailure();
// If we failed, cleanup the state of this rule.
cleanupAfterError();
}
// Unblock dependents.
result.set(input);
if (input.getStatus() == BuildRuleStatus.SUCCESS) {
BuildRuleSuccessType success = Preconditions.checkNotNull(input.getSuccess());
successType = Optional.of(success);
// Try get the output size.
try {
outputSize = Optional.of(buildInfoRecorder.getOutputSize());
} catch (IOException e) {
buildContext.getEventBus().post(ThrowableConsoleEvent.create(e, "Error getting output size for %s.", rule));
}
// If this rule is cacheable, upload it to the cache.
if (success.shouldUploadResultingArtifact() && outputSize.isPresent() && shouldUploadToCache(rule, outputSize.get())) {
uploadToCache(success);
}
// Calculate the hash of outputs that were built locally and are cacheable.
if (success == BuildRuleSuccessType.BUILT_LOCALLY && shouldUploadToCache(rule, outputSize.get())) {
try {
outputHash = Optional.of(buildInfoRecorder.getOutputHash(fileHashCache));
} catch (IOException e) {
buildContext.getEventBus().post(ThrowableConsoleEvent.create(e, "Error getting output hash for %s.", rule));
}
}
}
// Log the result to the event bus.
BuildRuleEvent.Finished finished = BuildRuleEvent.finished(resumedEvent, BuildRuleKeys.builder().setRuleKey(keyFactories.getDefaultRuleKeyFactory().build(rule)).setInputRuleKey(onDiskBuildInfo.getRuleKey(BuildInfo.MetadataKey.INPUT_BASED_RULE_KEY)).setDepFileRuleKey(onDiskBuildInfo.getRuleKey(BuildInfo.MetadataKey.DEP_FILE_RULE_KEY)).setManifestRuleKey(onDiskBuildInfo.getRuleKey(BuildInfo.MetadataKey.MANIFEST_KEY)).build(), input.getStatus(), input.getCacheResult(), successType, outputHash, outputSize);
buildContext.getEventBus().logVerboseAndPost(LOG, finished);
}
@Override
public void onSuccess(BuildResult input) {
handleResult(input);
}
@Override
public void onFailure(@Nonnull Throwable thrown) {
thrown = maybeAttachBuildRuleNameToException(thrown, rule);
handleResult(BuildResult.failure(rule, thrown));
// Reset interrupted flag once failure has been recorded.
if (thrown instanceof InterruptedException) {
Thread.currentThread().interrupt();
}
}
}));
return result;
}
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