// Copyright 2021 Google Inc. 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 cc import ( "fmt" "path/filepath" "strings" "sync" "android/soong/android" "android/soong/bazel" "android/soong/cc/config" "github.com/google/blueprint" "github.com/google/blueprint/proptools" ) const ( cSrcPartition = "c" asSrcPartition = "as" asmSrcPartition = "asm" lSrcPartition = "l" llSrcPartition = "ll" cppSrcPartition = "cpp" protoSrcPartition = "proto" aidlSrcPartition = "aidl" syspropSrcPartition = "sysprop" yaccSrcPartition = "yacc" stubsSuffix = "_stub_libs_current" ) // staticOrSharedAttributes are the Bazel-ified versions of StaticOrSharedProperties -- // properties which apply to either the shared or static version of a cc_library module. type staticOrSharedAttributes struct { Srcs bazel.LabelListAttribute Srcs_c bazel.LabelListAttribute Srcs_as bazel.LabelListAttribute Srcs_aidl bazel.LabelListAttribute Hdrs bazel.LabelListAttribute Copts bazel.StringListAttribute Deps bazel.LabelListAttribute Implementation_deps bazel.LabelListAttribute Dynamic_deps bazel.LabelListAttribute Implementation_dynamic_deps bazel.LabelListAttribute Whole_archive_deps bazel.LabelListAttribute Implementation_whole_archive_deps bazel.LabelListAttribute Runtime_deps bazel.LabelListAttribute System_dynamic_deps bazel.LabelListAttribute Enabled bazel.BoolAttribute Native_coverage *bool Apex_available []string Features bazel.StringListAttribute sdkAttributes tidyAttributes } type tidyAttributes struct { Tidy *string Tidy_flags []string Tidy_checks []string Tidy_checks_as_errors []string Tidy_disabled_srcs bazel.LabelListAttribute Tidy_timeout_srcs bazel.LabelListAttribute } func (m *Module) convertTidyAttributes(ctx android.BaseMutatorContext, moduleAttrs *tidyAttributes) { for _, f := range m.features { if tidy, ok := f.(*tidyFeature); ok { var tidyAttr *string if tidy.Properties.Tidy != nil { if *tidy.Properties.Tidy { tidyAttr = proptools.StringPtr("local") } else { tidyAttr = proptools.StringPtr("never") } } moduleAttrs.Tidy = tidyAttr moduleAttrs.Tidy_flags = tidy.Properties.Tidy_flags moduleAttrs.Tidy_checks = tidy.Properties.Tidy_checks moduleAttrs.Tidy_checks_as_errors = tidy.Properties.Tidy_checks_as_errors } } archVariantProps := m.GetArchVariantProperties(ctx, &BaseCompilerProperties{}) for axis, configToProps := range archVariantProps { for cfg, _props := range configToProps { if archProps, ok := _props.(*BaseCompilerProperties); ok { archDisabledSrcs := android.BazelLabelForModuleSrc(ctx, archProps.Tidy_disabled_srcs) moduleAttrs.Tidy_disabled_srcs.SetSelectValue(axis, cfg, archDisabledSrcs) archTimeoutSrcs := android.BazelLabelForModuleSrc(ctx, archProps.Tidy_timeout_srcs) moduleAttrs.Tidy_timeout_srcs.SetSelectValue(axis, cfg, archTimeoutSrcs) } } } } // groupSrcsByExtension partitions `srcs` into groups based on file extension. func groupSrcsByExtension(ctx android.BazelConversionPathContext, srcs bazel.LabelListAttribute) bazel.PartitionToLabelListAttribute { // Convert filegroup dependencies into extension-specific filegroups filtered in the filegroup.bzl // macro. addSuffixForFilegroup := func(suffix string) bazel.LabelMapper { return func(otherModuleCtx bazel.OtherModuleContext, label bazel.Label) (string, bool) { m, exists := otherModuleCtx.ModuleFromName(label.OriginalModuleName) labelStr := label.Label if !exists || !android.IsFilegroup(otherModuleCtx, m) { return labelStr, false } // If the filegroup is already converted to aidl_library or proto_library, // skip creating _c_srcs, _as_srcs, _cpp_srcs filegroups fg, _ := m.(android.FileGroupAsLibrary) if fg.ShouldConvertToAidlLibrary(ctx) || fg.ShouldConvertToProtoLibrary(ctx) { return labelStr, false } return labelStr + suffix, true } } // TODO(b/190006308): Handle language detection of sources in a Bazel rule. labels := bazel.LabelPartitions{ protoSrcPartition: android.ProtoSrcLabelPartition, cSrcPartition: bazel.LabelPartition{Extensions: []string{".c"}, LabelMapper: addSuffixForFilegroup("_c_srcs")}, asSrcPartition: bazel.LabelPartition{Extensions: []string{".s", ".S"}, LabelMapper: addSuffixForFilegroup("_as_srcs")}, asmSrcPartition: bazel.LabelPartition{Extensions: []string{".asm"}}, aidlSrcPartition: android.AidlSrcLabelPartition, // TODO(http://b/231968910): If there is ever a filegroup target that // contains .l or .ll files we will need to find a way to add a // LabelMapper for these that identifies these filegroups and // converts them appropriately lSrcPartition: bazel.LabelPartition{Extensions: []string{".l"}}, llSrcPartition: bazel.LabelPartition{Extensions: []string{".ll"}}, // C++ is the "catch-all" group, and comprises generated sources because we don't // know the language of these sources until the genrule is executed. cppSrcPartition: bazel.LabelPartition{Extensions: []string{".cpp", ".cc", ".cxx", ".mm"}, LabelMapper: addSuffixForFilegroup("_cpp_srcs"), Keep_remainder: true}, syspropSrcPartition: bazel.LabelPartition{Extensions: []string{".sysprop"}}, yaccSrcPartition: bazel.LabelPartition{Extensions: []string{".y", "yy"}}, } return bazel.PartitionLabelListAttribute(ctx, &srcs, labels) } // bp2BuildParseLibProps returns the attributes for a variant of a cc_library. func bp2BuildParseLibProps(ctx android.BazelConversionPathContext, module *Module, isStatic bool) staticOrSharedAttributes { lib, ok := module.compiler.(*libraryDecorator) if !ok { return staticOrSharedAttributes{} } return bp2buildParseStaticOrSharedProps(ctx, module, lib, isStatic) } // bp2buildParseSharedProps returns the attributes for the shared variant of a cc_library. func bp2BuildParseSharedProps(ctx android.BazelConversionPathContext, module *Module) staticOrSharedAttributes { return bp2BuildParseLibProps(ctx, module, false) } // bp2buildParseStaticProps returns the attributes for the static variant of a cc_library. func bp2BuildParseStaticProps(ctx android.BazelConversionPathContext, module *Module) staticOrSharedAttributes { return bp2BuildParseLibProps(ctx, module, true) } type depsPartition struct { export bazel.LabelList implementation bazel.LabelList } type bazelLabelForDepsFn func(android.BazelConversionPathContext, []string) bazel.LabelList func maybePartitionExportedAndImplementationsDeps(ctx android.BazelConversionPathContext, exportsDeps bool, allDeps, exportedDeps []string, fn bazelLabelForDepsFn) depsPartition { if !exportsDeps { return depsPartition{ implementation: fn(ctx, allDeps), } } implementation, export := android.FilterList(allDeps, exportedDeps) return depsPartition{ export: fn(ctx, export), implementation: fn(ctx, implementation), } } type bazelLabelForDepsExcludesFn func(android.BazelConversionPathContext, []string, []string) bazel.LabelList func maybePartitionExportedAndImplementationsDepsExcludes(ctx android.BazelConversionPathContext, exportsDeps bool, allDeps, excludes, exportedDeps []string, fn bazelLabelForDepsExcludesFn) depsPartition { if !exportsDeps { return depsPartition{ implementation: fn(ctx, allDeps, excludes), } } implementation, export := android.FilterList(allDeps, exportedDeps) return depsPartition{ export: fn(ctx, export, excludes), implementation: fn(ctx, implementation, excludes), } } func bp2BuildPropParseHelper(ctx android.ArchVariantContext, module *Module, propsType interface{}, parseFunc func(axis bazel.ConfigurationAxis, config string, props interface{})) { for axis, configToProps := range module.GetArchVariantProperties(ctx, propsType) { for cfg, props := range configToProps { parseFunc(axis, cfg, props) } } } // Parses properties common to static and shared libraries. Also used for prebuilt libraries. func bp2buildParseStaticOrSharedProps(ctx android.BazelConversionPathContext, module *Module, lib *libraryDecorator, isStatic bool) staticOrSharedAttributes { attrs := staticOrSharedAttributes{} setAttrs := func(axis bazel.ConfigurationAxis, config string, props StaticOrSharedProperties) { attrs.Copts.SetSelectValue(axis, config, parseCommandLineFlags(props.Cflags, filterOutStdFlag, filterOutHiddenVisibility)) attrs.Srcs.SetSelectValue(axis, config, android.BazelLabelForModuleSrc(ctx, props.Srcs)) attrs.System_dynamic_deps.SetSelectValue(axis, config, bazelLabelForSharedDeps(ctx, props.System_shared_libs)) staticDeps := maybePartitionExportedAndImplementationsDeps(ctx, true, props.Static_libs, props.Export_static_lib_headers, bazelLabelForStaticDeps) attrs.Deps.SetSelectValue(axis, config, staticDeps.export) attrs.Implementation_deps.SetSelectValue(axis, config, staticDeps.implementation) sharedDeps := maybePartitionExportedAndImplementationsDeps(ctx, true, props.Shared_libs, props.Export_shared_lib_headers, bazelLabelForSharedDeps) attrs.Dynamic_deps.SetSelectValue(axis, config, sharedDeps.export) attrs.Implementation_dynamic_deps.SetSelectValue(axis, config, sharedDeps.implementation) attrs.Whole_archive_deps.SetSelectValue(axis, config, bazelLabelForWholeDeps(ctx, props.Whole_static_libs)) attrs.Enabled.SetSelectValue(axis, config, props.Enabled) } // system_dynamic_deps distinguishes between nil/empty list behavior: // nil -> use default values // empty list -> no values specified attrs.System_dynamic_deps.ForceSpecifyEmptyList = true var apexAvailable []string if isStatic { apexAvailable = lib.StaticProperties.Static.Apex_available bp2BuildPropParseHelper(ctx, module, &StaticProperties{}, func(axis bazel.ConfigurationAxis, config string, props interface{}) { if staticOrSharedProps, ok := props.(*StaticProperties); ok { setAttrs(axis, config, staticOrSharedProps.Static) } }) } else { apexAvailable = lib.SharedProperties.Shared.Apex_available bp2BuildPropParseHelper(ctx, module, &SharedProperties{}, func(axis bazel.ConfigurationAxis, config string, props interface{}) { if staticOrSharedProps, ok := props.(*SharedProperties); ok { setAttrs(axis, config, staticOrSharedProps.Shared) } }) } partitionedSrcs := groupSrcsByExtension(ctx, attrs.Srcs) attrs.Srcs = partitionedSrcs[cppSrcPartition] attrs.Srcs_c = partitionedSrcs[cSrcPartition] attrs.Srcs_as = partitionedSrcs[asSrcPartition] attrs.Apex_available = android.ConvertApexAvailableToTagsWithoutTestApexes(ctx.(android.TopDownMutatorContext), apexAvailable) attrs.Features.Append(convertHiddenVisibilityToFeatureStaticOrShared(ctx, module, isStatic)) if !partitionedSrcs[protoSrcPartition].IsEmpty() { // TODO(b/208815215): determine whether this is used and add support if necessary ctx.ModuleErrorf("Migrating static/shared only proto srcs is not currently supported") } return attrs } // Convenience struct to hold all attributes parsed from prebuilt properties. type prebuiltAttributes struct { Src bazel.LabelAttribute Enabled bazel.BoolAttribute } func parseSrc(ctx android.BazelConversionPathContext, srcLabelAttribute *bazel.LabelAttribute, axis bazel.ConfigurationAxis, config string, srcs []string) { srcFileError := func() { ctx.ModuleErrorf("parseSrc: Expected at most one source file for %s %s\n", axis, config) } if len(srcs) > 1 { srcFileError() return } else if len(srcs) == 0 { return } if srcLabelAttribute.SelectValue(axis, config) != nil { srcFileError() return } srcLabelAttribute.SetSelectValue(axis, config, android.BazelLabelForModuleSrcSingle(ctx, srcs[0])) } // NOTE: Used outside of Soong repo project, in the clangprebuilts.go bootstrap_go_package func Bp2BuildParsePrebuiltLibraryProps(ctx android.BazelConversionPathContext, module *Module, isStatic bool) prebuiltAttributes { var srcLabelAttribute bazel.LabelAttribute bp2BuildPropParseHelper(ctx, module, &prebuiltLinkerProperties{}, func(axis bazel.ConfigurationAxis, config string, props interface{}) { if prebuiltLinkerProperties, ok := props.(*prebuiltLinkerProperties); ok { parseSrc(ctx, &srcLabelAttribute, axis, config, prebuiltLinkerProperties.Srcs) } }) var enabledLabelAttribute bazel.BoolAttribute parseAttrs := func(axis bazel.ConfigurationAxis, config string, props StaticOrSharedProperties) { if props.Enabled != nil { enabledLabelAttribute.SetSelectValue(axis, config, props.Enabled) } parseSrc(ctx, &srcLabelAttribute, axis, config, props.Srcs) } if isStatic { bp2BuildPropParseHelper(ctx, module, &StaticProperties{}, func(axis bazel.ConfigurationAxis, config string, props interface{}) { if staticProperties, ok := props.(*StaticProperties); ok { parseAttrs(axis, config, staticProperties.Static) } }) } else { bp2BuildPropParseHelper(ctx, module, &SharedProperties{}, func(axis bazel.ConfigurationAxis, config string, props interface{}) { if sharedProperties, ok := props.(*SharedProperties); ok { parseAttrs(axis, config, sharedProperties.Shared) } }) } return prebuiltAttributes{ Src: srcLabelAttribute, Enabled: enabledLabelAttribute, } } func bp2BuildParsePrebuiltBinaryProps(ctx android.BazelConversionPathContext, module *Module) prebuiltAttributes { var srcLabelAttribute bazel.LabelAttribute bp2BuildPropParseHelper(ctx, module, &prebuiltLinkerProperties{}, func(axis bazel.ConfigurationAxis, config string, props interface{}) { if props, ok := props.(*prebuiltLinkerProperties); ok { parseSrc(ctx, &srcLabelAttribute, axis, config, props.Srcs) } }) return prebuiltAttributes{ Src: srcLabelAttribute, } } func bp2BuildParsePrebuiltObjectProps(ctx android.BazelConversionPathContext, module *Module) prebuiltAttributes { var srcLabelAttribute bazel.LabelAttribute bp2BuildPropParseHelper(ctx, module, &prebuiltObjectProperties{}, func(axis bazel.ConfigurationAxis, config string, props interface{}) { if props, ok := props.(*prebuiltObjectProperties); ok { parseSrc(ctx, &srcLabelAttribute, axis, config, props.Srcs) } }) return prebuiltAttributes{ Src: srcLabelAttribute, } } type baseAttributes struct { compilerAttributes linkerAttributes // A combination of compilerAttributes.features and linkerAttributes.features, as well as sanitizer features features bazel.StringListAttribute protoDependency *bazel.LabelAttribute aidlDependency *bazel.LabelAttribute Native_coverage *bool } // Convenience struct to hold all attributes parsed from compiler properties. type compilerAttributes struct { // Options for all languages copts bazel.StringListAttribute // Assembly options and sources asFlags bazel.StringListAttribute asSrcs bazel.LabelListAttribute asmSrcs bazel.LabelListAttribute // C options and sources conlyFlags bazel.StringListAttribute cSrcs bazel.LabelListAttribute // C++ options and sources cppFlags bazel.StringListAttribute srcs bazel.LabelListAttribute // Lex sources and options lSrcs bazel.LabelListAttribute llSrcs bazel.LabelListAttribute lexopts bazel.StringListAttribute // Sysprop sources syspropSrcs bazel.LabelListAttribute // Yacc sources yaccSrc *bazel.LabelAttribute yaccFlags bazel.StringListAttribute yaccGenLocationHeader bazel.BoolAttribute yaccGenPositionHeader bazel.BoolAttribute hdrs bazel.LabelListAttribute rtti bazel.BoolAttribute // Not affected by arch variants stl *string cStd *string cppStd *string localIncludes bazel.StringListAttribute absoluteIncludes bazel.StringListAttribute includes BazelIncludes protoSrcs bazel.LabelListAttribute aidlSrcs bazel.LabelListAttribute stubsSymbolFile *string stubsVersions bazel.StringListAttribute features bazel.StringListAttribute suffix bazel.StringAttribute fdoProfile bazel.LabelAttribute } type filterOutFn func(string) bool // filterOutHiddenVisibility removes the flag specifying hidden visibility as // this flag is converted to a toolchain feature func filterOutHiddenVisibility(flag string) bool { return flag == config.VisibilityHiddenFlag } func filterOutStdFlag(flag string) bool { return strings.HasPrefix(flag, "-std=") } func filterOutClangUnknownCflags(flag string) bool { for _, f := range config.ClangUnknownCflags { if f == flag { return true } } return false } func parseCommandLineFlags(soongFlags []string, filterOut ...filterOutFn) []string { var result []string for _, flag := range soongFlags { skipFlag := false for _, filter := range filterOut { if filter != nil && filter(flag) { skipFlag = true } } if skipFlag { continue } // Soong's cflags can contain spaces, like `-include header.h`. For // Bazel's copts, split them up to be compatible with the // no_copts_tokenization feature. result = append(result, strings.Split(flag, " ")...) } return result } func (ca *compilerAttributes) bp2buildForAxisAndConfig(ctx android.BazelConversionPathContext, axis bazel.ConfigurationAxis, config string, props *BaseCompilerProperties) { // If there's arch specific srcs or exclude_srcs, generate a select entry for it. // TODO(b/186153868): do this for OS specific srcs and exclude_srcs too. if srcsList, ok := parseSrcs(ctx, props); ok { ca.srcs.SetSelectValue(axis, config, srcsList) } localIncludeDirs := props.Local_include_dirs if axis == bazel.NoConfigAxis { ca.cStd, ca.cppStd = bp2buildResolveCppStdValue(props.C_std, props.Cpp_std, props.Gnu_extensions) if includeBuildDirectory(props.Include_build_directory) { localIncludeDirs = append(localIncludeDirs, ".") } } ca.absoluteIncludes.SetSelectValue(axis, config, props.Include_dirs) ca.localIncludes.SetSelectValue(axis, config, localIncludeDirs) instructionSet := proptools.StringDefault(props.Instruction_set, "") if instructionSet == "arm" { ca.features.SetSelectValue(axis, config, []string{"arm_isa_arm"}) } else if instructionSet != "" && instructionSet != "thumb" { ctx.ModuleErrorf("Unknown value for instruction_set: %s", instructionSet) } // In Soong, cflags occur on the command line before -std= flag, resulting in the value being // overridden. In Bazel we always allow overriding, via flags; however, this can cause // incompatibilities, so we remove "-std=" flags from Cflag properties while leaving it in other // cases. ca.copts.SetSelectValue(axis, config, parseCommandLineFlags(props.Cflags, filterOutStdFlag, filterOutClangUnknownCflags, filterOutHiddenVisibility)) ca.asFlags.SetSelectValue(axis, config, parseCommandLineFlags(props.Asflags, nil)) ca.conlyFlags.SetSelectValue(axis, config, parseCommandLineFlags(props.Conlyflags, filterOutClangUnknownCflags)) ca.cppFlags.SetSelectValue(axis, config, parseCommandLineFlags(props.Cppflags, filterOutClangUnknownCflags)) ca.rtti.SetSelectValue(axis, config, props.Rtti) } func (ca *compilerAttributes) convertStlProps(ctx android.ArchVariantContext, module *Module) { bp2BuildPropParseHelper(ctx, module, &StlProperties{}, func(axis bazel.ConfigurationAxis, config string, props interface{}) { if stlProps, ok := props.(*StlProperties); ok { if stlProps.Stl == nil { return } if ca.stl == nil { stl := deduplicateStlInput(*stlProps.Stl) ca.stl = &stl } else if ca.stl != stlProps.Stl { ctx.ModuleErrorf("Unsupported conversion: module with different stl for different variants: %s and %s", *ca.stl, stlProps.Stl) } } }) } func (ca *compilerAttributes) convertProductVariables(ctx android.BazelConversionPathContext, productVariableProps android.ProductConfigProperties) { productVarPropNameToAttribute := map[string]*bazel.StringListAttribute{ "Cflags": &ca.copts, "Asflags": &ca.asFlags, "Cppflags": &ca.cppFlags, } for propName, attr := range productVarPropNameToAttribute { if productConfigProps, exists := productVariableProps[propName]; exists { for productConfigProp, prop := range productConfigProps { flags, ok := prop.([]string) if !ok { ctx.ModuleErrorf("Could not convert product variable %s property", proptools.PropertyNameForField(propName)) } newFlags, _ := bazel.TryVariableSubstitutions(flags, productConfigProp.Name()) attr.SetSelectValue(productConfigProp.ConfigurationAxis(), productConfigProp.SelectKey(), newFlags) } } } } func (ca *compilerAttributes) finalize(ctx android.BazelConversionPathContext, implementationHdrs bazel.LabelListAttribute) { ca.srcs.ResolveExcludes() partitionedSrcs := groupSrcsByExtension(ctx, ca.srcs) ca.protoSrcs = partitionedSrcs[protoSrcPartition] ca.aidlSrcs = partitionedSrcs[aidlSrcPartition] for p, lla := range partitionedSrcs { // if there are no sources, there is no need for headers if lla.IsEmpty() { continue } lla.Append(implementationHdrs) partitionedSrcs[p] = lla } ca.srcs = partitionedSrcs[cppSrcPartition] ca.cSrcs = partitionedSrcs[cSrcPartition] ca.asSrcs = partitionedSrcs[asSrcPartition] ca.asmSrcs = partitionedSrcs[asmSrcPartition] ca.lSrcs = partitionedSrcs[lSrcPartition] ca.llSrcs = partitionedSrcs[llSrcPartition] if yacc := partitionedSrcs[yaccSrcPartition]; !yacc.IsEmpty() { if len(yacc.Value.Includes) > 1 { ctx.PropertyErrorf("srcs", "Found multiple yacc (.y/.yy) files in library") } ca.yaccSrc = bazel.MakeLabelAttribute(yacc.Value.Includes[0].Label) } ca.syspropSrcs = partitionedSrcs[syspropSrcPartition] ca.absoluteIncludes.DeduplicateAxesFromBase() ca.localIncludes.DeduplicateAxesFromBase() } // Parse srcs from an arch or OS's props value. func parseSrcs(ctx android.BazelConversionPathContext, props *BaseCompilerProperties) (bazel.LabelList, bool) { anySrcs := false // Add srcs-like dependencies such as generated files. // First create a LabelList containing these dependencies, then merge the values with srcs. generatedSrcsLabelList := android.BazelLabelForModuleDepsExcludes(ctx, props.Generated_sources, props.Exclude_generated_sources) if len(props.Generated_sources) > 0 || len(props.Exclude_generated_sources) > 0 { anySrcs = true } allSrcsLabelList := android.BazelLabelForModuleSrcExcludes(ctx, props.Srcs, props.Exclude_srcs) if len(props.Srcs) > 0 || len(props.Exclude_srcs) > 0 { anySrcs = true } return bazel.AppendBazelLabelLists(allSrcsLabelList, generatedSrcsLabelList), anySrcs } func bp2buildStdVal(std *string, prefix string, useGnu bool) *string { defaultVal := prefix + "_std_default" // If c{,pp}std properties are not specified, don't generate them in the BUILD file. // Defaults are handled by the toolchain definition. // However, if gnu_extensions is false, then the default gnu-to-c version must be specified. stdVal := proptools.StringDefault(std, defaultVal) if stdVal == "experimental" || stdVal == defaultVal { if stdVal == "experimental" { stdVal = prefix + "_std_experimental" } if !useGnu { stdVal += "_no_gnu" } } else if !useGnu { stdVal = gnuToCReplacer.Replace(stdVal) } if stdVal == defaultVal { return nil } return &stdVal } func bp2buildResolveCppStdValue(c_std *string, cpp_std *string, gnu_extensions *bool) (*string, *string) { useGnu := useGnuExtensions(gnu_extensions) return bp2buildStdVal(c_std, "c", useGnu), bp2buildStdVal(cpp_std, "cpp", useGnu) } // packageFromLabel extracts package from a fully-qualified or relative Label and whether the label // is fully-qualified. // e.g. fully-qualified "//a/b:foo" -> "a/b", true, relative: ":bar" -> ".", false func packageFromLabel(label string) (string, bool) { split := strings.Split(label, ":") if len(split) != 2 { return "", false } if split[0] == "" { return ".", false } // remove leading "//" return split[0][2:], true } // includesFromLabelList extracts relative/absolute includes from a bazel.LabelList> func includesFromLabelList(labelList bazel.LabelList) (relative, absolute []string) { for _, hdr := range labelList.Includes { if pkg, hasPkg := packageFromLabel(hdr.Label); hasPkg { absolute = append(absolute, pkg) } else if pkg != "" { relative = append(relative, pkg) } } return relative, absolute } type YasmAttributes struct { Srcs bazel.LabelListAttribute Flags bazel.StringListAttribute Include_dirs bazel.StringListAttribute } func bp2BuildYasm(ctx android.Bp2buildMutatorContext, m *Module, ca compilerAttributes) *bazel.LabelAttribute { if ca.asmSrcs.IsEmpty() { return nil } // Yasm needs the include directories from both local_includes and // export_include_dirs. We don't care about actually exporting them from the // yasm rule though, because they will also be present on the cc_ rule that // wraps this yasm rule. includes := ca.localIncludes.Clone() bp2BuildPropParseHelper(ctx, m, &FlagExporterProperties{}, func(axis bazel.ConfigurationAxis, config string, props interface{}) { if flagExporterProperties, ok := props.(*FlagExporterProperties); ok { if len(flagExporterProperties.Export_include_dirs) > 0 { x := bazel.StringListAttribute{} x.SetSelectValue(axis, config, flagExporterProperties.Export_include_dirs) includes.Append(x) } } }) ctx.CreateBazelTargetModule( bazel.BazelTargetModuleProperties{ Rule_class: "yasm", Bzl_load_location: "//build/bazel/rules/cc:yasm.bzl", }, android.CommonAttributes{Name: m.Name() + "_yasm"}, &YasmAttributes{ Srcs: ca.asmSrcs, Flags: ca.asFlags, Include_dirs: *includes, }) // We only want to add a dependency on the _yasm target if there are asm // sources in the current configuration. If there are unconfigured asm // sources, always add the dependency. Otherwise, add the dependency only // on the configuration axes and values that had asm sources. if len(ca.asmSrcs.Value.Includes) > 0 { return bazel.MakeLabelAttribute(":" + m.Name() + "_yasm") } ret := &bazel.LabelAttribute{} for _, axis := range ca.asmSrcs.SortedConfigurationAxes() { for cfg := range ca.asmSrcs.ConfigurableValues[axis] { ret.SetSelectValue(axis, cfg, bazel.Label{Label: ":" + m.Name() + "_yasm"}) } } return ret } // bp2BuildParseBaseProps returns all compiler, linker, library attributes of a cc module.. func bp2BuildParseBaseProps(ctx android.Bp2buildMutatorContext, module *Module) baseAttributes { archVariantCompilerProps := module.GetArchVariantProperties(ctx, &BaseCompilerProperties{}) archVariantLinkerProps := module.GetArchVariantProperties(ctx, &BaseLinkerProperties{}) archVariantLibraryProperties := module.GetArchVariantProperties(ctx, &LibraryProperties{}) var implementationHdrs bazel.LabelListAttribute axisToConfigs := map[bazel.ConfigurationAxis]map[string]bool{} allAxesAndConfigs := func(cp android.ConfigurationAxisToArchVariantProperties) { for axis, configMap := range cp { if _, ok := axisToConfigs[axis]; !ok { axisToConfigs[axis] = map[string]bool{} } for cfg := range configMap { axisToConfigs[axis][cfg] = true } } } allAxesAndConfigs(archVariantCompilerProps) allAxesAndConfigs(archVariantLinkerProps) allAxesAndConfigs(archVariantLibraryProperties) compilerAttrs := compilerAttributes{} linkerAttrs := linkerAttributes{} var aidlLibs bazel.LabelList // Iterate through these axes in a deterministic order. This is required // because processing certain dependencies may result in concatenating // elements along other axes. (For example, processing NoConfig may result // in elements being added to InApex). This is thus the only way to ensure // that the order of entries in each list is in a predictable order. for _, axis := range bazel.SortedConfigurationAxes(axisToConfigs) { configs := axisToConfigs[axis] for cfg := range configs { var allHdrs []string if baseCompilerProps, ok := archVariantCompilerProps[axis][cfg].(*BaseCompilerProperties); ok { allHdrs = baseCompilerProps.Generated_headers if baseCompilerProps.Lex != nil { compilerAttrs.lexopts.SetSelectValue(axis, cfg, baseCompilerProps.Lex.Flags) } if baseCompilerProps.Yacc != nil { compilerAttrs.yaccFlags.SetSelectValue(axis, cfg, baseCompilerProps.Yacc.Flags) compilerAttrs.yaccGenLocationHeader.SetSelectValue(axis, cfg, baseCompilerProps.Yacc.Gen_location_hh) compilerAttrs.yaccGenPositionHeader.SetSelectValue(axis, cfg, baseCompilerProps.Yacc.Gen_position_hh) } (&compilerAttrs).bp2buildForAxisAndConfig(ctx, axis, cfg, baseCompilerProps) aidlLibs.Append(android.BazelLabelForModuleDeps(ctx, baseCompilerProps.Aidl.Libs)) } var exportHdrs []string if baseLinkerProps, ok := archVariantLinkerProps[axis][cfg].(*BaseLinkerProperties); ok { exportHdrs = baseLinkerProps.Export_generated_headers (&linkerAttrs).bp2buildForAxisAndConfig(ctx, module, axis, cfg, baseLinkerProps) } headers := maybePartitionExportedAndImplementationsDeps(ctx, !module.Binary(), allHdrs, exportHdrs, android.BazelLabelForModuleDeps) implementationHdrs.SetSelectValue(axis, cfg, headers.implementation) compilerAttrs.hdrs.SetSelectValue(axis, cfg, headers.export) exportIncludes, exportAbsoluteIncludes := includesFromLabelList(headers.export) compilerAttrs.includes.Includes.SetSelectValue(axis, cfg, exportIncludes) compilerAttrs.includes.AbsoluteIncludes.SetSelectValue(axis, cfg, exportAbsoluteIncludes) includes, absoluteIncludes := includesFromLabelList(headers.implementation) currAbsoluteIncludes := compilerAttrs.absoluteIncludes.SelectValue(axis, cfg) currAbsoluteIncludes = android.FirstUniqueStrings(append(currAbsoluteIncludes, absoluteIncludes...)) compilerAttrs.absoluteIncludes.SetSelectValue(axis, cfg, currAbsoluteIncludes) currIncludes := compilerAttrs.localIncludes.SelectValue(axis, cfg) currIncludes = android.FirstUniqueStrings(append(currIncludes, includes...)) compilerAttrs.localIncludes.SetSelectValue(axis, cfg, currIncludes) if libraryProps, ok := archVariantLibraryProperties[axis][cfg].(*LibraryProperties); ok { if axis == bazel.NoConfigAxis { if libraryProps.Stubs.Symbol_file != nil { compilerAttrs.stubsSymbolFile = libraryProps.Stubs.Symbol_file versions := android.CopyOf(libraryProps.Stubs.Versions) normalizeVersions(ctx, versions) versions = addCurrentVersionIfNotPresent(versions) compilerAttrs.stubsVersions.SetSelectValue(axis, cfg, versions) } } if suffix := libraryProps.Suffix; suffix != nil { compilerAttrs.suffix.SetSelectValue(axis, cfg, suffix) } } } } compilerAttrs.convertStlProps(ctx, module) (&linkerAttrs).convertStripProps(ctx, module) var nativeCoverage *bool if module.coverage != nil && module.coverage.Properties.Native_coverage != nil && !Bool(module.coverage.Properties.Native_coverage) { nativeCoverage = BoolPtr(false) } productVariableProps := android.ProductVariableProperties(ctx, ctx.Module()) (&compilerAttrs).convertProductVariables(ctx, productVariableProps) (&linkerAttrs).convertProductVariables(ctx, productVariableProps) (&compilerAttrs).finalize(ctx, implementationHdrs) (&linkerAttrs).finalize(ctx) (&compilerAttrs.srcs).Add(bp2BuildYasm(ctx, module, compilerAttrs)) protoDep := bp2buildProto(ctx, module, compilerAttrs.protoSrcs) // bp2buildProto will only set wholeStaticLib or implementationWholeStaticLib, but we don't know // which. This will add the newly generated proto library to the appropriate attribute and nothing // to the other (&linkerAttrs).wholeArchiveDeps.Add(protoDep.wholeStaticLib) (&linkerAttrs).implementationWholeArchiveDeps.Add(protoDep.implementationWholeStaticLib) aidlDep := bp2buildCcAidlLibrary( ctx, module, compilerAttrs.aidlSrcs, bazel.LabelListAttribute{ Value: aidlLibs, }, linkerAttrs, compilerAttrs, ) if aidlDep != nil { if lib, ok := module.linker.(*libraryDecorator); ok { if proptools.Bool(lib.Properties.Aidl.Export_aidl_headers) { (&linkerAttrs).wholeArchiveDeps.Add(aidlDep) } else { (&linkerAttrs).implementationWholeArchiveDeps.Add(aidlDep) } } } // Create a cc_yacc_static_library if srcs contains .y/.yy files // This internal target will produce an .a file that will be statically linked to the parent library if yaccDep := bp2buildCcYaccLibrary(ctx, compilerAttrs, linkerAttrs); yaccDep != nil { (&linkerAttrs).implementationWholeArchiveDeps.Add(yaccDep) } convertedLSrcs := bp2BuildLex(ctx, module.Name(), compilerAttrs) (&compilerAttrs).srcs.Add(&convertedLSrcs.srcName) (&compilerAttrs).cSrcs.Add(&convertedLSrcs.cSrcName) if module.afdo != nil && module.afdo.Properties.Afdo { fdoProfileDep := bp2buildFdoProfile(ctx, module) if fdoProfileDep != nil { (&compilerAttrs).fdoProfile.SetValue(*fdoProfileDep) } } if !compilerAttrs.syspropSrcs.IsEmpty() { (&linkerAttrs).wholeArchiveDeps.Add(bp2buildCcSysprop(ctx, module.Name(), module.Properties.Min_sdk_version, compilerAttrs.syspropSrcs)) } linkerAttrs.wholeArchiveDeps.Prepend = true linkerAttrs.deps.Prepend = true compilerAttrs.localIncludes.Prepend = true compilerAttrs.absoluteIncludes.Prepend = true compilerAttrs.hdrs.Prepend = true features := compilerAttrs.features.Clone().Append(linkerAttrs.features).Append(bp2buildSanitizerFeatures(ctx, module)) features = features.Append(bp2buildLtoFeatures(ctx, module)) features = features.Append(convertHiddenVisibilityToFeatureBase(ctx, module)) features.DeduplicateAxesFromBase() addMuslSystemDynamicDeps(ctx, linkerAttrs) return baseAttributes{ compilerAttrs, linkerAttrs, *features, protoDep.protoDep, aidlDep, nativeCoverage, } } type ccYaccLibraryAttributes struct { Src bazel.LabelAttribute Flags bazel.StringListAttribute Gen_location_hh bazel.BoolAttribute Gen_position_hh bazel.BoolAttribute Local_includes bazel.StringListAttribute Implementation_deps bazel.LabelListAttribute Implementation_dynamic_deps bazel.LabelListAttribute } func bp2buildCcYaccLibrary(ctx android.Bp2buildMutatorContext, ca compilerAttributes, la linkerAttributes) *bazel.LabelAttribute { if ca.yaccSrc == nil { return nil } yaccLibraryLabel := ctx.Module().Name() + "_yacc" ctx.CreateBazelTargetModule( bazel.BazelTargetModuleProperties{ Rule_class: "cc_yacc_static_library", Bzl_load_location: "//build/bazel/rules/cc:cc_yacc_library.bzl", }, android.CommonAttributes{ Name: yaccLibraryLabel, }, &ccYaccLibraryAttributes{ Src: *ca.yaccSrc, Flags: ca.yaccFlags, Gen_location_hh: ca.yaccGenLocationHeader, Gen_position_hh: ca.yaccGenPositionHeader, Local_includes: ca.localIncludes, Implementation_deps: la.implementationDeps, Implementation_dynamic_deps: la.implementationDynamicDeps, }, ) yaccLibrary := &bazel.LabelAttribute{ Value: &bazel.Label{ Label: ":" + yaccLibraryLabel, }, } return yaccLibrary } // As a workaround for b/261657184, we are manually adding the default value // of system_dynamic_deps for the linux_musl os. // TODO: Solve this properly func addMuslSystemDynamicDeps(ctx android.Bp2buildMutatorContext, attrs linkerAttributes) { systemDynamicDeps := attrs.systemDynamicDeps.SelectValue(bazel.OsConfigurationAxis, "linux_musl") if attrs.systemDynamicDeps.HasAxisSpecificValues(bazel.OsConfigurationAxis) && systemDynamicDeps.IsNil() { attrs.systemDynamicDeps.SetSelectValue(bazel.OsConfigurationAxis, "linux_musl", android.BazelLabelForModuleDeps(ctx, config.MuslDefaultSharedLibraries)) } } type fdoProfileAttributes struct { Absolute_path_profile string } func bp2buildFdoProfile( ctx android.Bp2buildMutatorContext, m *Module, ) *bazel.Label { for _, project := range globalAfdoProfileProjects { // Ensure handcrafted BUILD file exists in the project BUILDPath := android.ExistentPathForSource(ctx, project, "BUILD") if BUILDPath.Valid() { // We handcraft a BUILD file with fdo_profile targets that use the existing profiles in the project // This implementation is assuming that every afdo profile in globalAfdoProfileProjects already has // an associated fdo_profile target declared in the same package. // TODO(b/260714900): Handle arch-specific afdo profiles (e.g. `-arm<64>.afdo`) path := android.ExistentPathForSource(ctx, project, m.Name()+".afdo") if path.Valid() { // FIXME: Some profiles only exist internally and are not released to AOSP. // When generated BUILD files are checked in, we'll run into merge conflict. // The cc_library_shared target in AOSP won't have reference to an fdo_profile target because // the profile doesn't exist. Internally, the same cc_library_shared target will // have reference to the fdo_profile. // For more context, see b/258682955#comment2 fdoProfileLabel := "//" + strings.TrimSuffix(project, "/") + ":" + m.Name() return &bazel.Label{ Label: fdoProfileLabel, } } } } return nil } func bp2buildCcAidlLibrary( ctx android.Bp2buildMutatorContext, m *Module, aidlSrcs bazel.LabelListAttribute, aidlLibs bazel.LabelListAttribute, linkerAttrs linkerAttributes, compilerAttrs compilerAttributes, ) *bazel.LabelAttribute { var aidlLibsFromSrcs, aidlFiles bazel.LabelListAttribute apexAvailableTags := android.ApexAvailableTagsWithoutTestApexes(ctx.(android.TopDownMutatorContext), ctx.Module()) if !aidlSrcs.IsEmpty() { aidlLibsFromSrcs, aidlFiles = aidlSrcs.Partition(func(src bazel.Label) bool { if fg, ok := android.ToFileGroupAsLibrary(ctx, src.OriginalModuleName); ok && fg.ShouldConvertToAidlLibrary(ctx) { return true } return false }) if !aidlFiles.IsEmpty() { aidlLibName := m.Name() + "_aidl_library" ctx.CreateBazelTargetModule( bazel.BazelTargetModuleProperties{ Rule_class: "aidl_library", Bzl_load_location: "//build/bazel/rules/aidl:aidl_library.bzl", }, android.CommonAttributes{ Name: aidlLibName, Tags: apexAvailableTags, }, &aidlLibraryAttributes{ Srcs: aidlFiles, }, ) aidlLibsFromSrcs.Add(&bazel.LabelAttribute{Value: &bazel.Label{Label: ":" + aidlLibName}}) } } allAidlLibs := aidlLibs.Clone() allAidlLibs.Append(aidlLibsFromSrcs) if !allAidlLibs.IsEmpty() { ccAidlLibrarylabel := m.Name() + "_cc_aidl_library" // Since parent cc_library already has these dependencies, we can add them as implementation // deps so that they don't re-export implementationDeps := linkerAttrs.deps.Clone() implementationDeps.Append(linkerAttrs.implementationDeps) implementationDynamicDeps := linkerAttrs.dynamicDeps.Clone() implementationDynamicDeps.Append(linkerAttrs.implementationDynamicDeps) sdkAttrs := bp2BuildParseSdkAttributes(m) exportedIncludes := bp2BuildParseExportedIncludes(ctx, m, &compilerAttrs.includes) includeAttrs := includesAttributes{ Export_includes: exportedIncludes.Includes, Export_absolute_includes: exportedIncludes.AbsoluteIncludes, Export_system_includes: exportedIncludes.SystemIncludes, Local_includes: compilerAttrs.localIncludes, Absolute_includes: compilerAttrs.absoluteIncludes, } ctx.CreateBazelTargetModule( bazel.BazelTargetModuleProperties{ Rule_class: "cc_aidl_library", Bzl_load_location: "//build/bazel/rules/cc:cc_aidl_library.bzl", }, android.CommonAttributes{Name: ccAidlLibrarylabel}, &ccAidlLibraryAttributes{ Deps: *allAidlLibs, Implementation_deps: *implementationDeps, Implementation_dynamic_deps: *implementationDynamicDeps, Tags: apexAvailableTags, sdkAttributes: sdkAttrs, includesAttributes: includeAttrs, }, ) label := &bazel.LabelAttribute{ Value: &bazel.Label{ Label: ":" + ccAidlLibrarylabel, }, } return label } return nil } func bp2BuildParseSdkAttributes(module *Module) sdkAttributes { return sdkAttributes{ Sdk_version: module.Properties.Sdk_version, Min_sdk_version: module.Properties.Min_sdk_version, } } type sdkAttributes struct { Sdk_version *string Min_sdk_version *string } // Convenience struct to hold all attributes parsed from linker properties. type linkerAttributes struct { deps bazel.LabelListAttribute implementationDeps bazel.LabelListAttribute dynamicDeps bazel.LabelListAttribute implementationDynamicDeps bazel.LabelListAttribute runtimeDeps bazel.LabelListAttribute wholeArchiveDeps bazel.LabelListAttribute implementationWholeArchiveDeps bazel.LabelListAttribute systemDynamicDeps bazel.LabelListAttribute usedSystemDynamicDepAsDynamicDep map[string]bool useVersionLib bazel.BoolAttribute linkopts bazel.StringListAttribute additionalLinkerInputs bazel.LabelListAttribute stripKeepSymbols bazel.BoolAttribute stripKeepSymbolsAndDebugFrame bazel.BoolAttribute stripKeepSymbolsList bazel.StringListAttribute stripAll bazel.BoolAttribute stripNone bazel.BoolAttribute features bazel.StringListAttribute } var ( soongSystemSharedLibs = []string{"libc", "libm", "libdl"} versionLib = "libbuildversion" ) // resolveTargetApex re-adds the shared and static libs in target.apex.exclude_shared|static_libs props to non-apex variant // since all libs are already excluded by default func (la *linkerAttributes) resolveTargetApexProp(ctx android.BazelConversionPathContext, props *BaseLinkerProperties) { excludeSharedLibs := bazelLabelForSharedDeps(ctx, props.Target.Apex.Exclude_shared_libs) sharedExcludes := bazel.LabelList{Excludes: excludeSharedLibs.Includes} sharedExcludesLabelList := bazel.LabelListAttribute{} sharedExcludesLabelList.SetSelectValue(bazel.InApexAxis, bazel.InApex, sharedExcludes) la.dynamicDeps.Append(sharedExcludesLabelList) la.implementationDynamicDeps.Append(sharedExcludesLabelList) excludeStaticLibs := bazelLabelForStaticDeps(ctx, props.Target.Apex.Exclude_static_libs) staticExcludes := bazel.LabelList{Excludes: excludeStaticLibs.Includes} staticExcludesLabelList := bazel.LabelListAttribute{} staticExcludesLabelList.SetSelectValue(bazel.InApexAxis, bazel.InApex, staticExcludes) la.deps.Append(staticExcludesLabelList) la.implementationDeps.Append(staticExcludesLabelList) } func (la *linkerAttributes) bp2buildForAxisAndConfig(ctx android.BazelConversionPathContext, module *Module, axis bazel.ConfigurationAxis, config string, props *BaseLinkerProperties) { isBinary := module.Binary() // Use a single variable to capture usage of nocrt in arch variants, so there's only 1 error message for this module var axisFeatures []string wholeStaticLibs := android.FirstUniqueStrings(props.Whole_static_libs) staticLibs := android.FirstUniqueStrings(android.RemoveListFromList(props.Static_libs, wholeStaticLibs)) if axis == bazel.NoConfigAxis { la.useVersionLib.SetSelectValue(axis, config, props.Use_version_lib) if proptools.Bool(props.Use_version_lib) { versionLibAlreadyInDeps := android.InList(versionLib, wholeStaticLibs) // remove from static libs so there is no duplicate dependency _, staticLibs = android.RemoveFromList(versionLib, staticLibs) // only add the dep if it is not in progress if !versionLibAlreadyInDeps { wholeStaticLibs = append(wholeStaticLibs, versionLib) } } } // Excludes to parallel Soong: // https://cs.android.com/android/platform/superproject/+/master:build/soong/cc/linker.go;l=247-249;drc=088b53577dde6e40085ffd737a1ae96ad82fc4b0 la.wholeArchiveDeps.SetSelectValue(axis, config, bazelLabelForWholeDepsExcludes(ctx, wholeStaticLibs, props.Exclude_static_libs)) staticDeps := maybePartitionExportedAndImplementationsDepsExcludes( ctx, !isBinary, staticLibs, props.Exclude_static_libs, props.Export_static_lib_headers, bazelLabelForStaticDepsExcludes, ) headerLibs := android.FirstUniqueStrings(props.Header_libs) hDeps := maybePartitionExportedAndImplementationsDeps(ctx, !isBinary, headerLibs, props.Export_header_lib_headers, bazelLabelForHeaderDeps) (&hDeps.export).Append(staticDeps.export) la.deps.SetSelectValue(axis, config, hDeps.export) (&hDeps.implementation).Append(staticDeps.implementation) la.implementationDeps.SetSelectValue(axis, config, hDeps.implementation) systemSharedLibs := props.System_shared_libs // systemSharedLibs distinguishes between nil/empty list behavior: // nil -> use default values // empty list -> no values specified if len(systemSharedLibs) > 0 { systemSharedLibs = android.FirstUniqueStrings(systemSharedLibs) } la.systemDynamicDeps.SetSelectValue(axis, config, bazelLabelForSharedDeps(ctx, systemSharedLibs)) sharedLibs := android.FirstUniqueStrings(props.Shared_libs) excludeSharedLibs := props.Exclude_shared_libs usedSystem := android.FilterListPred(sharedLibs, func(s string) bool { return android.InList(s, soongSystemSharedLibs) && !android.InList(s, excludeSharedLibs) }) for _, el := range usedSystem { if la.usedSystemDynamicDepAsDynamicDep == nil { la.usedSystemDynamicDepAsDynamicDep = map[string]bool{} } la.usedSystemDynamicDepAsDynamicDep[el] = true } sharedDeps := maybePartitionExportedAndImplementationsDepsExcludes( ctx, !isBinary, sharedLibs, props.Exclude_shared_libs, props.Export_shared_lib_headers, bazelLabelForSharedDepsExcludes, ) la.dynamicDeps.SetSelectValue(axis, config, sharedDeps.export) la.implementationDynamicDeps.SetSelectValue(axis, config, sharedDeps.implementation) la.resolveTargetApexProp(ctx, props) if axis == bazel.NoConfigAxis || (axis == bazel.OsConfigurationAxis && config == bazel.OsAndroid) { // If a dependency in la.implementationDynamicDeps or la.dynamicDeps has stubs, its // stub variant should be used when the dependency is linked in a APEX. The // dependencies in NoConfigAxis and OsConfigurationAxis/OsAndroid are grouped by // having stubs or not, so Bazel select() statement can be used to choose // source/stub variants of them. apexAvailable := module.ApexAvailable() setStubsForDynamicDeps(ctx, axis, config, apexAvailable, sharedDeps.export, &la.dynamicDeps, 0, false) setStubsForDynamicDeps(ctx, axis, config, apexAvailable, sharedDeps.implementation, &la.implementationDynamicDeps, 1, false) if len(systemSharedLibs) > 0 { setStubsForDynamicDeps(ctx, axis, config, apexAvailable, bazelLabelForSharedDeps(ctx, systemSharedLibs), &la.systemDynamicDeps, 2, true) } } if !BoolDefault(props.Pack_relocations, packRelocationsDefault) { axisFeatures = append(axisFeatures, "disable_pack_relocations") } if Bool(props.Allow_undefined_symbols) { axisFeatures = append(axisFeatures, "-no_undefined_symbols") } var linkerFlags []string if len(props.Ldflags) > 0 { linkerFlags = append(linkerFlags, proptools.NinjaEscapeList(props.Ldflags)...) // binaries remove static flag if -shared is in the linker flags if isBinary && android.InList("-shared", linkerFlags) { axisFeatures = append(axisFeatures, "-static_flag") } } if !props.libCrt() { axisFeatures = append(axisFeatures, "-use_libcrt") } if !props.crt() { axisFeatures = append(axisFeatures, "-link_crt") } // This must happen before the addition of flags for Version Script and // Dynamic List, as these flags must be split on spaces and those must not linkerFlags = parseCommandLineFlags(linkerFlags, filterOutClangUnknownCflags) additionalLinkerInputs := bazel.LabelList{} if props.Version_script != nil { label := android.BazelLabelForModuleSrcSingle(ctx, *props.Version_script) additionalLinkerInputs.Add(&label) linkerFlags = append(linkerFlags, fmt.Sprintf("-Wl,--version-script,$(location %s)", label.Label)) } if props.Dynamic_list != nil { label := android.BazelLabelForModuleSrcSingle(ctx, *props.Dynamic_list) additionalLinkerInputs.Add(&label) linkerFlags = append(linkerFlags, fmt.Sprintf("-Wl,--dynamic-list,$(location %s)", label.Label)) } la.additionalLinkerInputs.SetSelectValue(axis, config, additionalLinkerInputs) if axis == bazel.OsConfigurationAxis && (config == bazel.OsDarwin || config == bazel.OsLinux || config == bazel.OsWindows) { linkerFlags = append(linkerFlags, props.Host_ldlibs...) } la.linkopts.SetSelectValue(axis, config, linkerFlags) if axisFeatures != nil { la.features.SetSelectValue(axis, config, axisFeatures) } runtimeDeps := android.BazelLabelForModuleDepsExcludes(ctx, props.Runtime_libs, props.Exclude_runtime_libs) if !runtimeDeps.IsEmpty() { la.runtimeDeps.SetSelectValue(axis, config, runtimeDeps) } } var ( apiSurfaceModuleLibCurrentPackage = "@api_surfaces//" + android.ModuleLibApi.String() + "/current:" ) func availableToSameApexes(a, b []string) bool { if len(a) == 0 && len(b) == 0 { return true } differ, _, _ := android.ListSetDifference(a, b) return !differ } var ( apiDomainConfigSettingKey = android.NewOnceKey("apiDomainConfigSettingKey") apiDomainConfigSettingLock sync.Mutex ) func getApiDomainConfigSettingMap(config android.Config) *map[string]bool { return config.Once(apiDomainConfigSettingKey, func() interface{} { return &map[string]bool{} }).(*map[string]bool) } var ( testApexNameToApiDomain = map[string]string{ "test_broken_com.android.art": "com.android.art", } ) // GetApiDomain returns the canonical name of the apex. This is synonymous to the apex_name definition. // https://cs.android.com/android/_/android/platform/build/soong/+/e3f0281b8897da1fe23b2f4f3a05f1dc87bcc902:apex/prebuilt.go;l=81-83;drc=2dc7244af985a6ad701b22f1271e606cabba527f;bpv=1;bpt=0 // For test apexes, it uses a naming convention heuristic to determine the api domain. // TODO (b/281548611): Move this build/soong/android func GetApiDomain(apexName string) string { if apiDomain, exists := testApexNameToApiDomain[apexName]; exists { return apiDomain } // Remove `test_` prefix return strings.TrimPrefix(apexName, "test_") } // Create a config setting for this apex in build/bazel/rules/apex // The use case for this is stub/impl selection in cc libraries // Long term, these config_setting(s) should be colocated with the respective apex definitions. // Note that this is an anti-pattern: The config_setting should be created from the apex definition // and not from a cc_library. // This anti-pattern is needed today since not all apexes have been allowlisted. func createInApexConfigSetting(ctx android.TopDownMutatorContext, apexName string) { if apexName == android.AvailableToPlatform || apexName == android.AvailableToAnyApex { // These correspond to android-non_apex and android-in_apex return } apiDomainConfigSettingLock.Lock() defer apiDomainConfigSettingLock.Unlock() // Return if a config_setting has already been created apiDomain := GetApiDomain(apexName) acsm := getApiDomainConfigSettingMap(ctx.Config()) if _, exists := (*acsm)[apiDomain]; exists { return } (*acsm)[apiDomain] = true csa := bazel.ConfigSettingAttributes{ Flag_values: bazel.StringMapAttribute{ "//build/bazel/rules/apex:api_domain": apiDomain, }, // Constraint this to android Constraint_values: bazel.MakeLabelListAttribute( bazel.MakeLabelList( []bazel.Label{ bazel.Label{Label: "//build/bazel/platforms/os:android"}, }, ), ), } ca := android.CommonAttributes{ Name: apiDomain, } ctx.CreateBazelConfigSetting( csa, ca, "build/bazel/rules/apex", ) } func inApexConfigSetting(apexAvailable string) string { if apexAvailable == android.AvailableToPlatform { return bazel.AndroidPlatform } if apexAvailable == android.AvailableToAnyApex { return bazel.AndroidAndInApex } apiDomain := GetApiDomain(apexAvailable) return "//build/bazel/rules/apex:" + apiDomain } // Inputs to stub vs impl selection. type stubSelectionInfo struct { // Label of the implementation library (e.g. //bionic/libc:libc) impl bazel.Label // Axis containing the implementation library axis bazel.ConfigurationAxis // Axis key containing the implementation library config string // API domain of the apex // For test apexes (test_com.android.foo), this will be the source apex (com.android.foo) apiDomain string // List of dep labels dynamicDeps *bazel.LabelListAttribute // Boolean value for determining if the dep is in the same api domain // If false, the label will be rewritten to to the stub label sameApiDomain bool } func useStubOrImplInApexWithName(ssi stubSelectionInfo) { lib := ssi.impl if !ssi.sameApiDomain { lib = bazel.Label{ Label: apiSurfaceModuleLibCurrentPackage + strings.TrimPrefix(lib.OriginalModuleName, ":"), } } // Create a select statement specific to this apex inApexSelectValue := ssi.dynamicDeps.SelectValue(bazel.OsAndInApexAxis, inApexConfigSetting(ssi.apiDomain)) (&inApexSelectValue).Append(bazel.MakeLabelList([]bazel.Label{lib})) ssi.dynamicDeps.SetSelectValue(bazel.OsAndInApexAxis, inApexConfigSetting(ssi.apiDomain), bazel.FirstUniqueBazelLabelList(inApexSelectValue)) // Delete the library from the common config for this apex implDynamicDeps := ssi.dynamicDeps.SelectValue(ssi.axis, ssi.config) implDynamicDeps = bazel.SubtractBazelLabelList(implDynamicDeps, bazel.MakeLabelList([]bazel.Label{ssi.impl})) ssi.dynamicDeps.SetSelectValue(ssi.axis, ssi.config, implDynamicDeps) if ssi.axis == bazel.NoConfigAxis { // Set defaults. Defaults (i.e. host) should use impl and not stubs. defaultSelectValue := ssi.dynamicDeps.SelectValue(bazel.OsAndInApexAxis, bazel.ConditionsDefaultConfigKey) (&defaultSelectValue).Append(bazel.MakeLabelList([]bazel.Label{ssi.impl})) ssi.dynamicDeps.SetSelectValue(bazel.OsAndInApexAxis, bazel.ConditionsDefaultConfigKey, bazel.FirstUniqueBazelLabelList(defaultSelectValue)) } } func setStubsForDynamicDeps(ctx android.BazelConversionPathContext, axis bazel.ConfigurationAxis, config string, apexAvailable []string, dynamicLibs bazel.LabelList, dynamicDeps *bazel.LabelListAttribute, ind int, buildNonApexWithStubs bool) { // Create a config_setting for each apex_available. // This will be used to select impl of a dep if dep is available to the same apex. for _, aa := range apexAvailable { createInApexConfigSetting(ctx.(android.TopDownMutatorContext), aa) } apiDomainForSelects := []string{} for _, apex := range apexAvailable { apiDomainForSelects = append(apiDomainForSelects, GetApiDomain(apex)) } // Always emit a select statement for the platform variant. // This ensures that b build //foo --config=android works // Soong always creates a platform variant even when the library might not be available to platform. if !android.InList(android.AvailableToPlatform, apiDomainForSelects) { apiDomainForSelects = append(apiDomainForSelects, android.AvailableToPlatform) } apiDomainForSelects = android.SortedUniqueStrings(apiDomainForSelects) // Create a select for each apex this library could be included in. for _, l := range dynamicLibs.Includes { dep, _ := ctx.ModuleFromName(l.OriginalModuleName) if c, ok := dep.(*Module); !ok || !c.HasStubsVariants() { continue } // TODO (b/280339069): Decrease the verbosity of the generated BUILD files for _, apiDomain := range apiDomainForSelects { var sameApiDomain bool if apiDomain == android.AvailableToPlatform { // Platform variants in Soong use equality of apex_available for stub/impl selection. // https://cs.android.com/android/_/android/platform/build/soong/+/316b0158fe57ee7764235923e7c6f3d530da39c6:cc/cc.go;l=3393-3404;drc=176271a426496fa2688efe2b40d5c74340c63375;bpv=1;bpt=0 // One of the factors behind this design choice is cc_test // Tests only have a platform variant, and using equality of apex_available ensures // that tests of an apex library gets its implementation and not stubs. // TODO (b/280343104): Discuss if we can drop this special handling for platform variants. sameApiDomain = availableToSameApexes(apexAvailable, dep.(*Module).ApexAvailable()) if linkable, ok := ctx.Module().(LinkableInterface); ok && linkable.Bootstrap() { sameApiDomain = true } } else { sameApiDomain = android.InList(apiDomain, dep.(*Module).ApexAvailable()) } ssi := stubSelectionInfo{ impl: l, axis: axis, config: config, apiDomain: apiDomain, dynamicDeps: dynamicDeps, sameApiDomain: sameApiDomain, } useStubOrImplInApexWithName(ssi) } } } func (la *linkerAttributes) convertStripProps(ctx android.BazelConversionPathContext, module *Module) { bp2BuildPropParseHelper(ctx, module, &StripProperties{}, func(axis bazel.ConfigurationAxis, config string, props interface{}) { if stripProperties, ok := props.(*StripProperties); ok { la.stripKeepSymbols.SetSelectValue(axis, config, stripProperties.Strip.Keep_symbols) la.stripKeepSymbolsList.SetSelectValue(axis, config, stripProperties.Strip.Keep_symbols_list) la.stripKeepSymbolsAndDebugFrame.SetSelectValue(axis, config, stripProperties.Strip.Keep_symbols_and_debug_frame) la.stripAll.SetSelectValue(axis, config, stripProperties.Strip.All) la.stripNone.SetSelectValue(axis, config, stripProperties.Strip.None) } }) } func (la *linkerAttributes) convertProductVariables(ctx android.BazelConversionPathContext, productVariableProps android.ProductConfigProperties) { type productVarDep struct { // the name of the corresponding excludes field, if one exists excludesField string // reference to the bazel attribute that should be set for the given product variable config attribute *bazel.LabelListAttribute depResolutionFunc func(ctx android.BazelConversionPathContext, modules, excludes []string) bazel.LabelList } // an intermediate attribute that holds Header_libs info, and will be appended to // implementationDeps at the end, to solve the confliction that both header_libs // and static_libs use implementationDeps. var headerDeps bazel.LabelListAttribute productVarToDepFields := map[string]productVarDep{ // product variables do not support exclude_shared_libs "Shared_libs": {attribute: &la.implementationDynamicDeps, depResolutionFunc: bazelLabelForSharedDepsExcludes}, "Static_libs": {"Exclude_static_libs", &la.implementationDeps, bazelLabelForStaticDepsExcludes}, "Whole_static_libs": {"Exclude_static_libs", &la.wholeArchiveDeps, bazelLabelForWholeDepsExcludes}, "Header_libs": {attribute: &headerDeps, depResolutionFunc: bazelLabelForHeaderDepsExcludes}, } for name, dep := range productVarToDepFields { props, exists := productVariableProps[name] excludeProps, excludesExists := productVariableProps[dep.excludesField] // if neither an include nor excludes property exists, then skip it if !exists && !excludesExists { continue } // Collect all the configurations that an include or exclude property exists for. // We want to iterate all configurations rather than either the include or exclude because, for a // particular configuration, we may have either only an include or an exclude to handle. productConfigProps := make(map[android.ProductConfigOrSoongConfigProperty]bool, len(props)+len(excludeProps)) for p := range props { productConfigProps[p] = true } for p := range excludeProps { productConfigProps[p] = true } for productConfigProp := range productConfigProps { prop, includesExists := props[productConfigProp] excludesProp, excludesExists := excludeProps[productConfigProp] var includes, excludes []string var ok bool // if there was no includes/excludes property, casting fails and that's expected if includes, ok = prop.([]string); includesExists && !ok { ctx.ModuleErrorf("Could not convert product variable %s property", name) } if excludes, ok = excludesProp.([]string); excludesExists && !ok { ctx.ModuleErrorf("Could not convert product variable %s property", dep.excludesField) } dep.attribute.EmitEmptyList = productConfigProp.AlwaysEmit() dep.attribute.SetSelectValue( productConfigProp.ConfigurationAxis(), productConfigProp.SelectKey(), dep.depResolutionFunc(ctx, android.FirstUniqueStrings(includes), excludes), ) } } la.implementationDeps.Append(headerDeps) } func (la *linkerAttributes) finalize(ctx android.BazelConversionPathContext) { // if system dynamic deps have the default value, any use of a system dynamic library used will // result in duplicate library errors for bionic OSes. Here, we explicitly exclude those libraries // from bionic OSes and the no config case as these libraries only build for bionic OSes. if la.systemDynamicDeps.IsNil() && len(la.usedSystemDynamicDepAsDynamicDep) > 0 { toRemove := bazelLabelForSharedDeps(ctx, android.SortedKeys(la.usedSystemDynamicDepAsDynamicDep)) la.dynamicDeps.Exclude(bazel.NoConfigAxis, "", toRemove) la.dynamicDeps.Exclude(bazel.OsConfigurationAxis, "android", toRemove) la.dynamicDeps.Exclude(bazel.OsConfigurationAxis, "linux_bionic", toRemove) la.implementationDynamicDeps.Exclude(bazel.NoConfigAxis, "", toRemove) la.implementationDynamicDeps.Exclude(bazel.OsConfigurationAxis, "android", toRemove) la.implementationDynamicDeps.Exclude(bazel.OsConfigurationAxis, "linux_bionic", toRemove) la.implementationDynamicDeps.Exclude(bazel.OsAndInApexAxis, bazel.ConditionsDefaultConfigKey, toRemove) stubsToRemove := make([]bazel.Label, 0, len(la.usedSystemDynamicDepAsDynamicDep)) for _, lib := range toRemove.Includes { stubLabelInApiSurfaces := bazel.Label{ Label: apiSurfaceModuleLibCurrentPackage + lib.OriginalModuleName, } stubsToRemove = append(stubsToRemove, stubLabelInApiSurfaces) } // system libraries (e.g. libc, libm, libdl) belong the com.android.runtime api domain // dedupe the stubs of these libraries from the other api domains (platform, other_apexes...) for _, aa := range ctx.Module().(*Module).ApexAvailable() { la.implementationDynamicDeps.Exclude(bazel.OsAndInApexAxis, inApexConfigSetting(aa), bazel.MakeLabelList(stubsToRemove)) } la.implementationDynamicDeps.Exclude(bazel.OsAndInApexAxis, bazel.AndroidPlatform, bazel.MakeLabelList(stubsToRemove)) } la.deps.ResolveExcludes() la.implementationDeps.ResolveExcludes() la.dynamicDeps.ResolveExcludes() la.implementationDynamicDeps.ResolveExcludes() la.wholeArchiveDeps.ResolveExcludes() la.systemDynamicDeps.ForceSpecifyEmptyList = true } // Relativize a list of root-relative paths with respect to the module's // directory. // // include_dirs Soong prop are root-relative (b/183742505), but // local_include_dirs, export_include_dirs and export_system_include_dirs are // module dir relative. This function makes a list of paths entirely module dir // relative. // // For the `include` attribute, Bazel wants the paths to be relative to the // module. func bp2BuildMakePathsRelativeToModule(ctx android.BazelConversionPathContext, paths []string) []string { var relativePaths []string for _, path := range paths { // Semantics of filepath.Rel: join(ModuleDir, rel(ModuleDir, path)) == path relativePath, err := filepath.Rel(ctx.ModuleDir(), path) if err != nil { panic(err) } relativePaths = append(relativePaths, relativePath) } return relativePaths } // BazelIncludes contains information about -I and -isystem paths from a module converted to Bazel // attributes. type BazelIncludes struct { AbsoluteIncludes bazel.StringListAttribute Includes bazel.StringListAttribute SystemIncludes bazel.StringListAttribute } func bp2BuildParseExportedIncludes(ctx android.BazelConversionPathContext, module *Module, includes *BazelIncludes) BazelIncludes { var exported BazelIncludes if includes != nil { exported = *includes } else { exported = BazelIncludes{} } // cc library Export_include_dirs and Export_system_include_dirs are marked // "variant_prepend" in struct tag, set their prepend property to true to make // sure bp2build generates correct result. exported.Includes.Prepend = true exported.SystemIncludes.Prepend = true bp2BuildPropParseHelper(ctx, module, &FlagExporterProperties{}, func(axis bazel.ConfigurationAxis, config string, props interface{}) { if flagExporterProperties, ok := props.(*FlagExporterProperties); ok { if len(flagExporterProperties.Export_include_dirs) > 0 { exported.Includes.SetSelectValue(axis, config, android.FirstUniqueStrings(append(exported.Includes.SelectValue(axis, config), flagExporterProperties.Export_include_dirs...))) } if len(flagExporterProperties.Export_system_include_dirs) > 0 { exported.SystemIncludes.SetSelectValue(axis, config, android.FirstUniqueStrings(append(exported.SystemIncludes.SelectValue(axis, config), flagExporterProperties.Export_system_include_dirs...))) } } }) exported.AbsoluteIncludes.DeduplicateAxesFromBase() exported.Includes.DeduplicateAxesFromBase() exported.SystemIncludes.DeduplicateAxesFromBase() return exported } func BazelLabelNameForStaticModule(baseLabel string) string { return baseLabel + "_bp2build_cc_library_static" } func bazelLabelForStaticModule(ctx android.BazelConversionPathContext, m blueprint.Module) string { label := android.BazelModuleLabel(ctx, m) if ccModule, ok := m.(*Module); ok && ccModule.typ() == fullLibrary { return BazelLabelNameForStaticModule(label) } return label } func bazelLabelForSharedModule(ctx android.BazelConversionPathContext, m blueprint.Module) string { // cc_library, at it's root name, propagates the shared library, which depends on the static // library. return android.BazelModuleLabel(ctx, m) } func bazelLabelForStaticWholeModuleDeps(ctx android.BazelConversionPathContext, m blueprint.Module) string { label := bazelLabelForStaticModule(ctx, m) if aModule, ok := m.(android.Module); ok { if android.IsModulePrebuilt(aModule) { label += "_alwayslink" } } return label } func bazelLabelForWholeDeps(ctx android.BazelConversionPathContext, modules []string) bazel.LabelList { return android.BazelLabelForModuleDepsWithFn(ctx, modules, bazelLabelForStaticWholeModuleDeps) } func bazelLabelForWholeDepsExcludes(ctx android.BazelConversionPathContext, modules, excludes []string) bazel.LabelList { return android.BazelLabelForModuleDepsExcludesWithFn(ctx, modules, excludes, bazelLabelForStaticWholeModuleDeps) } func bazelLabelForStaticDepsExcludes(ctx android.BazelConversionPathContext, modules, excludes []string) bazel.LabelList { return android.BazelLabelForModuleDepsExcludesWithFn(ctx, modules, excludes, bazelLabelForStaticModule) } func bazelLabelForStaticDeps(ctx android.BazelConversionPathContext, modules []string) bazel.LabelList { return android.BazelLabelForModuleDepsWithFn(ctx, modules, bazelLabelForStaticModule) } func bazelLabelForSharedDeps(ctx android.BazelConversionPathContext, modules []string) bazel.LabelList { return android.BazelLabelForModuleDepsWithFn(ctx, modules, bazelLabelForSharedModule) } func bazelLabelForHeaderDeps(ctx android.BazelConversionPathContext, modules []string) bazel.LabelList { // This is not elegant, but bp2build's shared library targets only propagate // their header information as part of the normal C++ provider. return bazelLabelForSharedDeps(ctx, modules) } func bazelLabelForHeaderDepsExcludes(ctx android.BazelConversionPathContext, modules, excludes []string) bazel.LabelList { // This is only used when product_variable header_libs is processed, to follow // the pattern of depResolutionFunc return android.BazelLabelForModuleDepsExcludesWithFn(ctx, modules, excludes, bazelLabelForSharedModule) } func bazelLabelForSharedDepsExcludes(ctx android.BazelConversionPathContext, modules, excludes []string) bazel.LabelList { return android.BazelLabelForModuleDepsExcludesWithFn(ctx, modules, excludes, bazelLabelForSharedModule) } type binaryLinkerAttrs struct { Linkshared *bool Suffix bazel.StringAttribute } func bp2buildBinaryLinkerProps(ctx android.BazelConversionPathContext, m *Module) binaryLinkerAttrs { attrs := binaryLinkerAttrs{} bp2BuildPropParseHelper(ctx, m, &BinaryLinkerProperties{}, func(axis bazel.ConfigurationAxis, config string, props interface{}) { linkerProps := props.(*BinaryLinkerProperties) staticExecutable := linkerProps.Static_executable if axis == bazel.NoConfigAxis { if linkBinaryShared := !proptools.Bool(staticExecutable); !linkBinaryShared { attrs.Linkshared = &linkBinaryShared } } else if staticExecutable != nil { // TODO(b/202876379): Static_executable is arch-variant; however, linkshared is a // nonconfigurable attribute. Only 4 AOSP modules use this feature, defer handling ctx.ModuleErrorf("bp2build cannot migrate a module with arch/target-specific static_executable values") } if suffix := linkerProps.Suffix; suffix != nil { attrs.Suffix.SetSelectValue(axis, config, suffix) } }) return attrs } func bp2buildSanitizerFeatures(ctx android.BazelConversionPathContext, m *Module) bazel.StringListAttribute { sanitizerFeatures := bazel.StringListAttribute{} bp2BuildPropParseHelper(ctx, m, &SanitizeProperties{}, func(axis bazel.ConfigurationAxis, config string, props interface{}) { var features []string if sanitizerProps, ok := props.(*SanitizeProperties); ok { if sanitizerProps.Sanitize.Integer_overflow != nil && *sanitizerProps.Sanitize.Integer_overflow { features = append(features, "ubsan_integer_overflow") } for _, sanitizer := range sanitizerProps.Sanitize.Misc_undefined { features = append(features, "ubsan_"+sanitizer) } sanitizerFeatures.SetSelectValue(axis, config, features) } }) return sanitizerFeatures } func bp2buildLtoFeatures(ctx android.BazelConversionPathContext, m *Module) bazel.StringListAttribute { lto_feature_name := "android_thin_lto" ltoBoolFeatures := bazel.BoolAttribute{} bp2BuildPropParseHelper(ctx, m, <OProperties{}, func(axis bazel.ConfigurationAxis, config string, props interface{}) { if ltoProps, ok := props.(*LTOProperties); ok { thinProp := ltoProps.Lto.Thin != nil && *ltoProps.Lto.Thin thinPropSetToFalse := ltoProps.Lto.Thin != nil && !*ltoProps.Lto.Thin neverProp := ltoProps.Lto.Never != nil && *ltoProps.Lto.Never if thinProp { ltoBoolFeatures.SetSelectValue(axis, config, BoolPtr(true)) return } if neverProp || thinPropSetToFalse { if thinProp { ctx.ModuleErrorf("lto.thin and lto.never are mutually exclusive but were specified together") } else { ltoBoolFeatures.SetSelectValue(axis, config, BoolPtr(false)) } return } } ltoBoolFeatures.SetSelectValue(axis, config, nil) }) props := m.GetArchVariantProperties(ctx, <OProperties{}) ltoStringFeatures, err := ltoBoolFeatures.ToStringListAttribute(func(boolPtr *bool, axis bazel.ConfigurationAxis, config string) []string { if boolPtr == nil { return []string{} } if !*boolPtr { return []string{"-" + lto_feature_name} } features := []string{lto_feature_name} if ltoProps, ok := props[axis][config].(*LTOProperties); ok { if ltoProps.Whole_program_vtables != nil && *ltoProps.Whole_program_vtables { features = append(features, "android_thin_lto_whole_program_vtables") } } return features }) if err != nil { ctx.ModuleErrorf("Error processing LTO attributes: %s", err) } return ltoStringFeatures } func convertHiddenVisibilityToFeatureBase(ctx android.BazelConversionPathContext, m *Module) bazel.StringListAttribute { visibilityHiddenFeature := bazel.StringListAttribute{} bp2BuildPropParseHelper(ctx, m, &BaseCompilerProperties{}, func(axis bazel.ConfigurationAxis, configString string, props interface{}) { if baseCompilerProps, ok := props.(*BaseCompilerProperties); ok { convertHiddenVisibilityToFeatureHelper(&visibilityHiddenFeature, axis, configString, baseCompilerProps.Cflags) } }) return visibilityHiddenFeature } func convertHiddenVisibilityToFeatureStaticOrShared(ctx android.BazelConversionPathContext, m *Module, isStatic bool) bazel.StringListAttribute { visibilityHiddenFeature := bazel.StringListAttribute{} if isStatic { bp2BuildPropParseHelper(ctx, m, &StaticProperties{}, func(axis bazel.ConfigurationAxis, configString string, props interface{}) { if staticProps, ok := props.(*StaticProperties); ok { convertHiddenVisibilityToFeatureHelper(&visibilityHiddenFeature, axis, configString, staticProps.Static.Cflags) } }) } else { bp2BuildPropParseHelper(ctx, m, &SharedProperties{}, func(axis bazel.ConfigurationAxis, configString string, props interface{}) { if sharedProps, ok := props.(*SharedProperties); ok { convertHiddenVisibilityToFeatureHelper(&visibilityHiddenFeature, axis, configString, sharedProps.Shared.Cflags) } }) } return visibilityHiddenFeature } func convertHiddenVisibilityToFeatureHelper(feature *bazel.StringListAttribute, axis bazel.ConfigurationAxis, configString string, cflags []string) { if inList(config.VisibilityHiddenFlag, cflags) { feature.SetSelectValue(axis, configString, []string{"visibility_hidden"}) } }