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bazel / bazel / 525ba257a2a8174e598303a06714094a83ccdff7 / . / src / main / java / com / google / devtools / build / lib / rules / nativedeps / NativeDepsHelper.java
blob: 9d259cedbf22ae256da8c83fc84c56fc82272e45 [file] [log] [blame]
// Copyright 2015 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.rules.nativedeps;
import static com.google.devtools.build.lib.rules.cpp.CppRuleClasses.STATIC_LINKING_MODE;
import com.google.common.base.Preconditions;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableSet;
import com.google.common.collect.Iterables;
import com.google.common.collect.Sets;
import com.google.devtools.build.lib.actions.Artifact;
import com.google.devtools.build.lib.actions.ArtifactRoot;
import com.google.devtools.build.lib.analysis.AnalysisUtils;
import com.google.devtools.build.lib.analysis.RuleContext;
import com.google.devtools.build.lib.analysis.actions.ActionConstructionContext;
import com.google.devtools.build.lib.analysis.actions.SymlinkAction;
import com.google.devtools.build.lib.analysis.config.BuildConfiguration;
import com.google.devtools.build.lib.cmdline.RepositoryName;
import com.google.devtools.build.lib.collect.nestedset.NestedSet;
import com.google.devtools.build.lib.packages.RuleClass.ConfiguredTargetFactory.RuleErrorException;
import com.google.devtools.build.lib.packages.TargetUtils;
import com.google.devtools.build.lib.rules.cpp.CcCommon;
import com.google.devtools.build.lib.rules.cpp.CcCompilationOutputs;
import com.google.devtools.build.lib.rules.cpp.CcInfo;
import com.google.devtools.build.lib.rules.cpp.CcLinkingContext;
import com.google.devtools.build.lib.rules.cpp.CcLinkingContext.Linkstamp;
import com.google.devtools.build.lib.rules.cpp.CcLinkingHelper;
import com.google.devtools.build.lib.rules.cpp.CcToolchainFeatures.FeatureConfiguration;
import com.google.devtools.build.lib.rules.cpp.CcToolchainProvider;
import com.google.devtools.build.lib.rules.cpp.CppBuildInfo;
import com.google.devtools.build.lib.rules.cpp.CppConfiguration;
import com.google.devtools.build.lib.rules.cpp.CppHelper;
import com.google.devtools.build.lib.rules.cpp.CppLinkAction;
import com.google.devtools.build.lib.rules.cpp.CppRuleClasses;
import com.google.devtools.build.lib.rules.cpp.CppSemantics;
import com.google.devtools.build.lib.rules.cpp.FdoContext;
import com.google.devtools.build.lib.rules.cpp.LibraryToLink;
import com.google.devtools.build.lib.rules.cpp.Link;
import com.google.devtools.build.lib.rules.cpp.Link.LinkTargetType;
import com.google.devtools.build.lib.rules.cpp.Link.LinkingMode;
import com.google.devtools.build.lib.util.Fingerprint;
import com.google.devtools.build.lib.vfs.PathFragment;
import java.util.ArrayList;
import java.util.Collection;
import java.util.List;
import java.util.Set;
/**
* Helper class to create a dynamic library for rules which support integration with native code.
*
* <p>This library gets created by the build system by linking all C++ libraries in the transitive
* closure of the dependencies into a standalone dynamic library, with some exceptions. It usually
* does not include neverlink libraries or C++ binaries (or their transitive dependencies). Note
* that some rules are implicitly neverlink.
*/
public abstract class NativeDepsHelper {
/**
* An implementation of {@link
* com.google.devtools.build.lib.rules.cpp.CppLinkAction.LinkArtifactFactory} that can create
* artifacts anywhere.
*
* <p>Necessary because the actions of nativedeps libraries should be shareable, and thus cannot
* be under the package directory.
*/
private static final CppLinkAction.LinkArtifactFactory SHAREABLE_LINK_ARTIFACT_FACTORY =
new CppLinkAction.LinkArtifactFactory() {
@Override
public Artifact create(
ActionConstructionContext actionConstructionContext,
RepositoryName repositoryName,
BuildConfiguration configuration,
PathFragment rootRelativePath) {
return actionConstructionContext.getShareableArtifact(
rootRelativePath, configuration.getBinDirectory(repositoryName));
}
};
private NativeDepsHelper() {}
private static final String ANDROID_UNIQUE_DIR = "nativedeps";
/**
* Creates an Action to create a dynamic library for Android by linking all native code (C/C++)
* libraries in the transitive dependency closure of a rule.
*
* <p>We link the native deps in the equivalent of linkstatic=1, linkshared=1 mode.
*
* <p>linkstatic=1 means mostly-static mode, i.e. we select the ".a" (or ".pic.a") files, but we
* don't include "-static" in linkopts.
*
* <p>linkshared=1 means we prefer the ".pic.a" files to the ".a" files, and the LinkTargetType is
* set to DYNAMIC_LIBRARY which causes Link.java to include "-shared" in the linker options.
*
* <p>It is possible that this function may have no work to do if there are no native libraries in
* the transitive closure, or if the only native libraries in the transitive closure are already
* shared libraries. In this case, this function returns {@code null}.
*
* @param ruleContext the rule context to determine the native deps library
* @param ccInfo the {@link CcInfo} for the rule, collected with linkstatic = 1 and linkshared = 1
* @param cppSemantics to use for linkstamp compiles
* @return the native deps library, or null if there was no code which needed to be linked in the
* transitive closure.
*/
public static Artifact linkAndroidNativeDepsIfPresent(
final RuleContext ruleContext,
CcInfo ccInfo,
final BuildConfiguration configuration,
CcToolchainProvider toolchain,
CppSemantics cppSemantics)
throws InterruptedException, RuleErrorException {
if (!containsCodeToLink(ccInfo.getCcLinkingContext().getLibraries())) {
return null;
}
PathFragment labelName = PathFragment.create(ruleContext.getLabel().getName());
Artifact nativeDeps = ruleContext.getUniqueDirectoryArtifact(ANDROID_UNIQUE_DIR,
labelName.replaceName("lib" + labelName.getBaseName() + ".so"),
configuration.getBinDirectory(ruleContext.getRule().getRepository()));
return createNativeDepsAction(
ruleContext,
ccInfo,
/* extraLinkOpts= */ ImmutableList.of(),
configuration,
toolchain,
nativeDeps,
configuration.getBinDirectory(ruleContext.getRule().getRepository()),
cppSemantics)
.getLibrary();
}
/** Determines if there is any code to be linked in the input iterable. */
private static boolean containsCodeToLink(NestedSet<LibraryToLink> libraries) {
for (LibraryToLink library : libraries.toList()) {
if (containsCodeToLink(library)) {
return true;
}
}
return false;
}
/** Determines if the input library is or contains an archive which must be linked. */
private static boolean containsCodeToLink(LibraryToLink library) {
if (library.getStaticLibrary() == null && library.getPicStaticLibrary() == null) {
// this is a shared library so we're going to have to copy it
return false;
}
Iterable<Artifact> objectFiles;
if (library.getObjectFiles() != null) {
objectFiles = library.getObjectFiles();
} else if (library.getPicObjectFiles() != null) {
objectFiles = library.getPicObjectFiles();
} else {
// this is an opaque library so we're going to have to link it
return true;
}
for (Artifact object : objectFiles) {
if (!Link.SHARED_LIBRARY_FILETYPES.matches(object.getFilename())) {
// this library was built with a non-shared-library object so we should link it
return true;
}
}
// there weren't any artifacts besides shared libraries compiled in the library
return false;
}
public static NativeDepsRunfiles createNativeDepsAction(
final RuleContext ruleContext,
CcInfo ccInfo,
Collection<String> extraLinkOpts,
BuildConfiguration configuration,
CcToolchainProvider toolchain,
Artifact nativeDeps,
ArtifactRoot bindirIfShared,
CppSemantics cppSemantics)
throws InterruptedException, RuleErrorException {
CcLinkingContext ccLinkingContext = ccInfo.getCcLinkingContext();
Preconditions.checkState(
ruleContext.isLegalFragment(CppConfiguration.class),
"%s does not have access to CppConfiguration",
ruleContext.getRule().getRuleClass());
List<String> linkopts = new ArrayList<>(extraLinkOpts);
linkopts.addAll(ccLinkingContext.getFlattenedUserLinkFlags());
CppHelper.checkLinkstampsUnique(ruleContext, ccLinkingContext.getLinkstamps().toList());
ImmutableSet<Linkstamp> linkstamps = ccLinkingContext.getLinkstamps().toSet();
List<Artifact> buildInfoArtifacts =
linkstamps.isEmpty()
? ImmutableList.<Artifact>of()
: ruleContext
.getAnalysisEnvironment()
.getBuildInfo(
AnalysisUtils.isStampingEnabled(ruleContext, configuration),
CppBuildInfo.KEY,
configuration);
boolean shareNativeDeps = configuration.getFragment(CppConfiguration.class).shareNativeDeps();
Artifact sharedLibrary;
if (shareNativeDeps) {
PathFragment sharedPath =
getSharedNativeDepsPath(
ccLinkingContext.getStaticModeParamsForDynamicLibraryLibraries(),
linkopts,
linkstamps.stream()
.map(CcLinkingContext.Linkstamp::getArtifact)
.collect(ImmutableList.toImmutableList()),
buildInfoArtifacts,
ruleContext.getFeatures());
sharedLibrary = ruleContext.getShareableArtifact(
sharedPath.replaceName(sharedPath.getBaseName() + ".so"),
configuration.getBinDirectory(ruleContext.getRule().getRepository()));
} else {
sharedLibrary = nativeDeps;
}
FdoContext fdoContext = toolchain.getFdoContext();
ImmutableSet.Builder<String> requestedFeatures =
ImmutableSet.<String>builder().addAll(ruleContext.getFeatures()).add(STATIC_LINKING_MODE);
if (!ruleContext.getDisabledFeatures().contains(CppRuleClasses.LEGACY_WHOLE_ARCHIVE)) {
requestedFeatures.add(CppRuleClasses.LEGACY_WHOLE_ARCHIVE);
}
FeatureConfiguration featureConfiguration =
CcCommon.configureFeaturesOrReportRuleError(
ruleContext,
/* requestedFeatures= */ requestedFeatures.build(),
/* unsupportedFeatures= */ ruleContext.getDisabledFeatures(),
toolchain);
new CcLinkingHelper(
ruleContext,
ruleContext.getLabel(),
ruleContext,
ruleContext,
cppSemantics,
featureConfiguration,
toolchain,
fdoContext,
configuration,
ruleContext.getFragment(CppConfiguration.class),
ruleContext.getSymbolGenerator(),
TargetUtils.getExecutionInfo(
ruleContext.getRule(), ruleContext.isAllowTagsPropagation()))
.setGrepIncludes(CppHelper.getGrepIncludes(ruleContext))
.setIsStampingEnabled(AnalysisUtils.isStampingEnabled(ruleContext))
.setTestOrTestOnlyTarget(ruleContext.isTestTarget() || ruleContext.isTestOnlyTarget())
.setLinkerOutputArtifact(sharedLibrary)
.setLinkingMode(LinkingMode.STATIC)
.addLinkopts(extraLinkOpts)
.setNativeDeps(true)
.setNeverLink(true)
.setShouldCreateStaticLibraries(false)
.addCcLinkingContexts(ImmutableList.of(ccLinkingContext))
.setLinkArtifactFactory(SHAREABLE_LINK_ARTIFACT_FACTORY)
.setDynamicLinkType(LinkTargetType.DYNAMIC_LIBRARY)
.link(CcCompilationOutputs.EMPTY);
if (shareNativeDeps) {
ruleContext.registerAction(
SymlinkAction.toArtifact(ruleContext.getActionOwner(), sharedLibrary, nativeDeps, null));
return new NativeDepsRunfiles(nativeDeps);
}
return new NativeDepsRunfiles(sharedLibrary);
}
/**
* Returns the path of the shared native library. The name must be generated based on the
* rule-specific inputs to the link actions. At this point this includes order-sensitive list of
* linker inputs and options collected from the transitive closure and linkstamp-related artifacts
* that are compiled during linking. All those inputs can be affected by modifying target
* attributes (srcs/deps/stamp/etc). However, target build configuration can be ignored since it
* will either change output directory (in case of different configuration instances) or will not
* affect anything (if two targets use same configuration). Final goal is for all native libraries
* that use identical linker command to use same output name.
*
* <p>TODO(bazel-team): (2010) Currently process of identifying parameters that can affect native
* library name is manual and should be kept in sync with the code in the
* CppLinkAction.Builder/CppLinkAction/Link classes which are responsible for generating linker
* command line. Ideally we should reuse generated command line for both purposes - selecting a
* name of the native library and using it as link action payload. For now, correctness of the
* method below is only ensured by validations in the CppLinkAction.Builder.build() method.
*/
private static PathFragment getSharedNativeDepsPath(
Iterable<Artifact> linkerInputs,
Collection<String> linkopts,
Iterable<Artifact> linkstamps,
Iterable<Artifact> buildInfoArtifacts,
Collection<String> features) {
Fingerprint fp = new Fingerprint();
int linkerInputsSize = 0;
for (Artifact input : linkerInputs) {
fp.addString(input.getExecPathString());
linkerInputsSize++;
}
fp.addStrings(linkopts);
int linkstampsSize = 0;
for (Artifact input : linkstamps) {
fp.addString(input.getExecPathString());
linkstampsSize++;
}
// TODO(b/120206809): remove debugging info here (and in this whole filename construction).
String linkstampsString = Integer.toString(linkstampsSize);
if (linkstampsSize > 1) {
Set<Artifact> identitySet = Sets.newIdentityHashSet();
Iterables.addAll(identitySet, linkstamps);
if (identitySet.size() < linkstampsSize) {
linkstampsString += "_" + identitySet.size();
}
ImmutableSet<Artifact> uniqueLinkStamps = ImmutableSet.copyOf(linkstamps);
if (uniqueLinkStamps.size() < linkstampsSize) {
linkstampsString += "__" + uniqueLinkStamps.size();
}
}
int buildInfoSize = 0;
for (Artifact input : buildInfoArtifacts) {
fp.addString(input.getExecPathString());
buildInfoSize++;
}
for (String feature : features) {
fp.addString(feature);
}
return PathFragment.create(
"_nativedeps/"
+ linkerInputsSize
+ "_"
+ linkopts.size()
+ "_"
+ linkstampsString
+ "_"
+ buildInfoSize
+ "_"
+ features.size()
+ "_"
+ fp.hexDigestAndReset());
}
}