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platform_build_soong/cc/bp2build.go
Liz Kammer 48cdbeba29 Handle stubs within an apex with apex_available 
Note this doesn't entirely match Soong's logic but is an improvement to
allow linking against implementation when two cc modules are
apex_available to the same module.

It is not possible to recreate the logic for "directly in" without
significant changes to bp2build as we do not add dependencies nor run
apex mutators. Rather than trying to replicate this, we would be better
off refactoring Soong to no longer support the "directly in apex" logic
and require users to correctly specify apex_available.

Bug: 272378496
Test: go test conversion tests
Change-Id: I17ac426f9b4bdad0c2ab661484e5d994f63568ce
2023-03-27 13:05:37 +00:00

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// 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"
"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"
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
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"}},
}
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))
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.ConvertApexAvailableToTags(apexAvailable)
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
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
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", "-arm_isa_thumb"})
} else if instructionSet != "" && instructionSet != "thumb" {
ctx.ModuleErrorf("Unknown value for instruction_set: %s", instructionSet)
}
// In Soong, cflags occur on the command line before -std=<val> 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))
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]
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{}
// 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)
}
(&compilerAttrs).bp2buildForAxisAndConfig(ctx, axis, cfg, baseCompilerProps)
}
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 {
compilerAttrs.stubsSymbolFile = libraryProps.Stubs.Symbol_file
compilerAttrs.stubsVersions.SetSelectValue(axis, cfg, libraryProps.Stubs.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, linkerAttrs)
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)
}
}
}
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.DeduplicateAxesFromBase()
addMuslSystemDynamicDeps(ctx, linkerAttrs)
return baseAttributes{
compilerAttrs,
linkerAttrs,
*features,
protoDep.protoDep,
aidlDep,
nativeCoverage,
}
}
// 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. `<module-name>-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,
aidlLabelList bazel.LabelListAttribute,
linkerAttrs linkerAttributes,
) *bazel.LabelAttribute {
if !aidlLabelList.IsEmpty() {
aidlLibs, aidlSrcs := aidlLabelList.Partition(func(src bazel.Label) bool {
if fg, ok := android.ToFileGroupAsLibrary(ctx, src.OriginalModuleName); ok &&
fg.ShouldConvertToAidlLibrary(ctx) {
return true
}
return false
})
apexAvailableTags := android.ApexAvailableTags(ctx.Module())
sdkAttrs := bp2BuildParseSdkAttributes(m)
if !aidlSrcs.IsEmpty() {
aidlLibName := m.Name() + "_aidl_library"
ctx.CreateBazelTargetModule(
bazel.BazelTargetModuleProperties{
Rule_class: "aidl_library",
Bzl_load_location: "//build/bazel/rules/aidl:library.bzl",
},
android.CommonAttributes{Name: aidlLibName},
&aidlLibraryAttributes{
Srcs: aidlSrcs,
Tags: apexAvailableTags,
},
)
aidlLibs.Add(&bazel.LabelAttribute{Value: &bazel.Label{Label: ":" + aidlLibName}})
}
if !aidlLibs.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)
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: aidlLibs,
Implementation_deps: *implementationDeps,
Implementation_dynamic_deps: *implementationDynamicDeps,
Tags: apexAvailableTags,
sdkAttributes: sdkAttrs,
},
)
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 {
if isBinary {
wholeStaticLibs = append(wholeStaticLibs, versionLib)
} else {
la.implementationWholeArchiveDeps.SetSelectValue(axis, config, bazelLabelForWholeDepsExcludes(ctx, []string{versionLib}, props.Exclude_static_libs))
}
}
}
}
// 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)
setStubsForDynamicDeps(ctx, axis, config, apexAvailable, sharedDeps.implementation, &la.implementationDynamicDeps, 1)
}
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)
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
}
func setStubsForDynamicDeps(ctx android.BazelConversionPathContext, axis bazel.ConfigurationAxis,
config string, apexAvailable []string, dynamicLibs bazel.LabelList, dynamicDeps *bazel.LabelListAttribute, ind int) {
depsWithStubs := []bazel.Label{}
for _, l := range dynamicLibs.Includes {
dep, _ := ctx.ModuleFromName(l.OriginalModuleName)
if d, ok := dep.(*Module); ok && d.HasStubsVariants() {
depApexAvailable := d.ApexAvailable()
if !availableToSameApexes(apexAvailable, depApexAvailable) {
depsWithStubs = append(depsWithStubs, l)
}
}
}
if len(depsWithStubs) > 0 {
implDynamicDeps := bazel.SubtractBazelLabelList(dynamicLibs, bazel.MakeLabelList(depsWithStubs))
dynamicDeps.SetSelectValue(axis, config, implDynamicDeps)
stubLibLabels := []bazel.Label{}
for _, l := range depsWithStubs {
stubLabelInApiSurfaces := bazel.Label{
Label: apiSurfaceModuleLibCurrentPackage + strings.TrimPrefix(l.OriginalModuleName, ":"),
}
stubLibLabels = append(stubLibLabels, stubLabelInApiSurfaces)
}
inApexSelectValue := dynamicDeps.SelectValue(bazel.OsAndInApexAxis, bazel.AndroidAndInApex)
nonApexSelectValue := dynamicDeps.SelectValue(bazel.OsAndInApexAxis, bazel.AndroidAndNonApex)
defaultSelectValue := dynamicDeps.SelectValue(bazel.OsAndInApexAxis, bazel.ConditionsDefaultConfigKey)
if axis == bazel.NoConfigAxis {
(&inApexSelectValue).Append(bazel.MakeLabelList(stubLibLabels))
(&nonApexSelectValue).Append(bazel.MakeLabelList(depsWithStubs))
(&defaultSelectValue).Append(bazel.MakeLabelList(depsWithStubs))
dynamicDeps.SetSelectValue(bazel.OsAndInApexAxis, bazel.AndroidAndInApex, bazel.FirstUniqueBazelLabelList(inApexSelectValue))
dynamicDeps.SetSelectValue(bazel.OsAndInApexAxis, bazel.AndroidAndNonApex, bazel.FirstUniqueBazelLabelList(nonApexSelectValue))
dynamicDeps.SetSelectValue(bazel.OsAndInApexAxis, bazel.ConditionsDefaultConfigKey, bazel.FirstUniqueBazelLabelList(defaultSelectValue))
} else if config == bazel.OsAndroid {
(&inApexSelectValue).Append(bazel.MakeLabelList(stubLibLabels))
(&nonApexSelectValue).Append(bazel.MakeLabelList(depsWithStubs))
dynamicDeps.SetSelectValue(bazel.OsAndInApexAxis, bazel.AndroidAndInApex, bazel.FirstUniqueBazelLabelList(inApexSelectValue))
dynamicDeps.SetSelectValue(bazel.OsAndInApexAxis, bazel.AndroidAndNonApex, bazel.FirstUniqueBazelLabelList(nonApexSelectValue))
}
}
}
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.ProductConfigProperty]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)
la.implementationDynamicDeps.Exclude(bazel.OsAndInApexAxis, bazel.AndroidAndNonApex, 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)
}
la.implementationDynamicDeps.Exclude(bazel.OsAndInApexAxis, bazel.AndroidAndInApex, 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, &LTOProperties{}, 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, &LTOProperties{})
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
}
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