bp2build: add configurable attribute (select) support.

This CL adds a basic framework to support configurable string_list
attributes, selecting on the Arch variant (x86, x86_64, arm, arm64).

It offers fine-grained controls to map individual configurable
properties (arch_variant) to configurable Bazel attributes, starting
with the string_list type for the copts property for cc_object.

This design is primarily motivated to have minimal boilerplate in
bp2build mutators, allowing anyone to opt-in configurable attributes,
and modify intermediate states before passing them on into the
CreateBazelTargetModule instantiator.

Fixes: 178130668

Test: go tests
Test: build/bazel/scripts/milestone-2/demo.sh

Change-Id: Id6f04d7c560312a93e193d7ca4e1b7ceb6062260
This commit is contained in:
Jingwen Chen 2021-02-24 07:20:12 -05:00
parent 8e79268947
commit 5d8644990b
8 changed files with 366 additions and 14 deletions

View file

@ -1615,3 +1615,97 @@ func decodeMultilibTargets(multilib string, targets []Target, prefer32 bool) ([]
return buildTargets, nil
}
// GetArchProperties returns a map of architectures to the values of the
// properties of the 'dst' struct that are specific to that architecture.
//
// For example, passing a struct { Foo bool, Bar string } will return an
// interface{} that can be type asserted back into the same struct, containing
// the arch specific property value specified by the module if defined.
func (m *ModuleBase) GetArchProperties(dst interface{}) map[ArchType]interface{} {
// Return value of the arch types to the prop values for that arch.
archToProp := map[ArchType]interface{}{}
// Nothing to do for non-arch-specific modules.
if !m.ArchSpecific() {
return archToProp
}
// archProperties has the type of [][]interface{}. Looks complicated, so let's
// explain this step by step.
//
// Loop over the outer index, which determines the property struct that
// contains a matching set of properties in dst that we're interested in.
// For example, BaseCompilerProperties or BaseLinkerProperties.
for i := range m.archProperties {
if m.archProperties[i] == nil {
// Skip over nil arch props
continue
}
// Non-nil arch prop, let's see if the props match up.
for _, arch := range ArchTypeList() {
// e.g X86, Arm
field := arch.Field
// If it's not nil, loop over the inner index, which determines the arch variant
// of the prop type. In an Android.bp file, this is like looping over:
//
// arch: { arm: { key: value, ... }, x86: { key: value, ... } }
for _, archProperties := range m.archProperties[i] {
archPropValues := reflect.ValueOf(archProperties).Elem()
// This is the archPropRoot struct. Traverse into the Arch nested struct.
src := archPropValues.FieldByName("Arch").Elem()
// Step into non-nil pointers to structs in the src value.
if src.Kind() == reflect.Ptr {
if src.IsNil() {
// Ignore nil pointers.
continue
}
src = src.Elem()
}
// Find the requested field (e.g. x86, x86_64) in the src struct.
src = src.FieldByName(field)
if !src.IsValid() {
continue
}
// We only care about structs. These are not the droids you are looking for.
if src.Kind() != reflect.Struct {
continue
}
// If the value of the field is a struct then step into the
// BlueprintEmbed field. The special "BlueprintEmbed" name is
// used by createArchPropTypeDesc to embed the arch properties
// in the parent struct, so the src arch prop should be in this
// field.
//
// See createArchPropTypeDesc for more details on how Arch-specific
// module properties are processed from the nested props and written
// into the module's archProperties.
src = src.FieldByName("BlueprintEmbed")
// Clone the destination prop, since we want a unique prop struct per arch.
dstClone := reflect.New(reflect.ValueOf(dst).Elem().Type()).Interface()
// Copy the located property struct into the cloned destination property struct.
err := proptools.ExtendMatchingProperties([]interface{}{dstClone}, src.Interface(), nil, proptools.OrderReplace)
if err != nil {
// This is fine, it just means the src struct doesn't match.
continue
}
// Found the prop for the arch, you have.
archToProp[arch] = dstClone
// Go to the next prop.
break
}
}
}
return archToProp
}

View file

@ -1123,7 +1123,14 @@ type ModuleBase struct {
variableProperties interface{}
hostAndDeviceProperties hostAndDeviceProperties
generalProperties []interface{}
// Arch specific versions of structs in generalProperties. The outer index
// has the same order as generalProperties as initialized in
// InitAndroidArchModule, and the inner index chooses the props specific to
// the architecture. The interface{} value is an archPropRoot that is
// filled with arch specific values by the arch mutator.
archProperties [][]interface{}
customizableProperties []interface{}
// Properties specific to the Blueprint to BUILD migration.

View file

@ -14,6 +14,8 @@
package bazel
import "fmt"
type bazelModuleProperties struct {
// The label of the Bazel target replacing this Soong module.
Label string
@ -63,3 +65,72 @@ func (ll *LabelList) Append(other LabelList) {
ll.Excludes = append(other.Excludes, other.Excludes...)
}
}
// StringListAttribute corresponds to the string_list Bazel attribute type with
// support for additional metadata, like configurations.
type StringListAttribute struct {
// The base value of the string list attribute.
Value []string
// Optional additive set of list values to the base value.
ArchValues stringListArchValues
}
// Arch-specific string_list typed Bazel attribute values. This should correspond
// to the types of architectures supported for compilation in arch.go.
type stringListArchValues struct {
X86 []string
X86_64 []string
Arm []string
Arm64 []string
Default []string
// TODO(b/181299724): this is currently missing the "common" arch, which
// doesn't have an equivalent platform() definition yet.
}
// HasArchSpecificValues returns true if the attribute contains
// architecture-specific string_list values.
func (attrs *StringListAttribute) HasArchSpecificValues() bool {
for _, arch := range []string{"x86", "x86_64", "arm", "arm64", "default"} {
if len(attrs.GetValueForArch(arch)) > 0 {
return true
}
}
return false
}
// GetValueForArch returns the string_list attribute value for an architecture.
func (attrs *StringListAttribute) GetValueForArch(arch string) []string {
switch arch {
case "x86":
return attrs.ArchValues.X86
case "x86_64":
return attrs.ArchValues.X86_64
case "arm":
return attrs.ArchValues.Arm
case "arm64":
return attrs.ArchValues.Arm64
case "default":
return attrs.ArchValues.Default
default:
panic(fmt.Errorf("Unknown arch: %s", arch))
}
}
// SetValueForArch sets the string_list attribute value for an architecture.
func (attrs *StringListAttribute) SetValueForArch(arch string, value []string) {
switch arch {
case "x86":
attrs.ArchValues.X86 = value
case "x86_64":
attrs.ArchValues.X86_64 = value
case "arm":
attrs.ArchValues.Arm = value
case "arm64":
attrs.ArchValues.Arm64 = value
case "default":
attrs.ArchValues.Default = value
default:
panic(fmt.Errorf("Unknown arch: %s", arch))
}
}

View file

@ -10,6 +10,7 @@ bootstrap_go_package {
"bp2build.go",
"build_conversion.go",
"bzl_conversion.go",
"configurability.go",
"conversion.go",
"metrics.go",
],

View file

@ -354,11 +354,42 @@ func prettyPrint(propertyValue reflect.Value, indent int) (string, error) {
ret += makeIndent(indent)
ret += "]"
case reflect.Struct:
// Special cases where the bp2build sends additional information to the codegenerator
// by wrapping the attributes in a custom struct type.
if labels, ok := propertyValue.Interface().(bazel.LabelList); ok {
// TODO(b/165114590): convert glob syntax
return prettyPrint(reflect.ValueOf(labels.Includes), indent)
} else if label, ok := propertyValue.Interface().(bazel.Label); ok {
return fmt.Sprintf("%q", label.Label), nil
} else if stringList, ok := propertyValue.Interface().(bazel.StringListAttribute); ok {
// A Bazel string_list attribute that may contain a select statement.
ret, err := prettyPrint(reflect.ValueOf(stringList.Value), indent)
if err != nil {
return ret, err
}
if !stringList.HasArchSpecificValues() {
// Select statement not needed.
return ret, nil
}
ret += " + " + "select({\n"
for _, arch := range android.ArchTypeList() {
value := stringList.GetValueForArch(arch.Name)
if len(value) > 0 {
ret += makeIndent(indent + 1)
list, _ := prettyPrint(reflect.ValueOf(value), indent+1)
ret += fmt.Sprintf("\"%s\": %s,\n", platformArchMap[arch], list)
}
}
ret += makeIndent(indent + 1)
list, _ := prettyPrint(reflect.ValueOf(stringList.GetValueForArch("default")), indent+1)
ret += fmt.Sprintf("\"%s\": %s,\n", "//conditions:default", list)
ret += makeIndent(indent)
ret += "})"
return ret, err
}
ret = "{\n"

View file

@ -99,15 +99,6 @@ func TestCcObjectBp2Build(t *testing.T) {
cc_defaults {
name: "foo_defaults",
defaults: ["foo_bar_defaults"],
// TODO(b/178130668): handle configurable attributes that depend on the platform
arch: {
x86: {
cflags: ["-fPIC"],
},
x86_64: {
cflags: ["-fPIC"],
},
},
}
cc_defaults {
@ -233,3 +224,137 @@ cc_object {
}
}
}
func TestCcObjectConfigurableAttributesBp2Build(t *testing.T) {
testCases := []struct {
description string
moduleTypeUnderTest string
moduleTypeUnderTestFactory android.ModuleFactory
moduleTypeUnderTestBp2BuildMutator func(android.TopDownMutatorContext)
blueprint string
expectedBazelTargets []string
filesystem map[string]string
}{
{
description: "cc_object setting cflags for one arch",
moduleTypeUnderTest: "cc_object",
moduleTypeUnderTestFactory: cc.ObjectFactory,
moduleTypeUnderTestBp2BuildMutator: cc.ObjectBp2Build,
blueprint: `cc_object {
name: "foo",
arch: {
x86: {
cflags: ["-fPIC"],
},
},
bazel_module: { bp2build_available: true },
}
`,
expectedBazelTargets: []string{
`cc_object(
name = "foo",
copts = [
"-fno-addrsig",
] + select({
"@bazel_tools//platforms:x86_32": [
"-fPIC",
],
"//conditions:default": [
],
}),
)`,
},
},
{
description: "cc_object setting cflags for 4 architectures",
moduleTypeUnderTest: "cc_object",
moduleTypeUnderTestFactory: cc.ObjectFactory,
moduleTypeUnderTestBp2BuildMutator: cc.ObjectBp2Build,
blueprint: `cc_object {
name: "foo",
arch: {
x86: {
cflags: ["-fPIC"],
},
x86_64: {
cflags: ["-fPIC"],
},
arm: {
cflags: ["-Wall"],
},
arm64: {
cflags: ["-Wall"],
},
},
bazel_module: { bp2build_available: true },
}
`,
expectedBazelTargets: []string{
`cc_object(
name = "foo",
copts = [
"-fno-addrsig",
] + select({
"@bazel_tools//platforms:arm": [
"-Wall",
],
"@bazel_tools//platforms:aarch64": [
"-Wall",
],
"@bazel_tools//platforms:x86_32": [
"-fPIC",
],
"@bazel_tools//platforms:x86_64": [
"-fPIC",
],
"//conditions:default": [
],
}),
)`,
},
},
}
dir := "."
for _, testCase := range testCases {
filesystem := make(map[string][]byte)
toParse := []string{
"Android.bp",
}
config := android.TestConfig(buildDir, nil, testCase.blueprint, filesystem)
ctx := android.NewTestContext(config)
// Always register cc_defaults module factory
ctx.RegisterModuleType("cc_defaults", func() android.Module { return cc.DefaultsFactory() })
ctx.RegisterModuleType(testCase.moduleTypeUnderTest, testCase.moduleTypeUnderTestFactory)
ctx.RegisterBp2BuildMutator(testCase.moduleTypeUnderTest, testCase.moduleTypeUnderTestBp2BuildMutator)
ctx.RegisterForBazelConversion()
_, errs := ctx.ParseFileList(dir, toParse)
if Errored(t, testCase.description, errs) {
continue
}
_, errs = ctx.ResolveDependencies(config)
if Errored(t, testCase.description, errs) {
continue
}
codegenCtx := NewCodegenContext(config, *ctx.Context, Bp2Build)
bazelTargets := generateBazelTargetsForDir(codegenCtx, dir)
if actualCount, expectedCount := len(bazelTargets), len(testCase.expectedBazelTargets); actualCount != expectedCount {
fmt.Println(bazelTargets)
t.Errorf("%s: Expected %d bazel target, got %d", testCase.description, expectedCount, actualCount)
} else {
for i, target := range bazelTargets {
if w, g := testCase.expectedBazelTargets[i], target.content; w != g {
t.Errorf(
"%s: Expected generated Bazel target to be '%s', got '%s'",
testCase.description,
w,
g,
)
}
}
}
}
}

View file

@ -0,0 +1,15 @@
package bp2build
import "android/soong/android"
// Configurability support for bp2build.
var (
// A map of architectures to the Bazel label of the constraint_value.
platformArchMap = map[android.ArchType]string{
android.Arm: "@bazel_tools//platforms:arm",
android.Arm64: "@bazel_tools//platforms:aarch64",
android.X86: "@bazel_tools//platforms:x86_32",
android.X86_64: "@bazel_tools//platforms:x86_64",
}
)

View file

@ -93,7 +93,7 @@ func ObjectFactory() android.Module {
type bazelObjectAttributes struct {
Srcs bazel.LabelList
Deps bazel.LabelList
Copts []string
Copts bazel.StringListAttribute
Local_include_dirs []string
}
@ -133,13 +133,14 @@ func ObjectBp2Build(ctx android.TopDownMutatorContext) {
ctx.ModuleErrorf("compiler must not be nil for a cc_object module")
}
var copts []string
// Set arch-specific configurable attributes
var copts bazel.StringListAttribute
var srcs []string
var excludeSrcs []string
var localIncludeDirs []string
for _, props := range m.compiler.compilerProps() {
if baseCompilerProps, ok := props.(*BaseCompilerProperties); ok {
copts = baseCompilerProps.Cflags
copts.Value = baseCompilerProps.Cflags
srcs = baseCompilerProps.Srcs
excludeSrcs = baseCompilerProps.Exclude_srcs
localIncludeDirs = baseCompilerProps.Local_include_dirs
@ -154,6 +155,13 @@ func ObjectBp2Build(ctx android.TopDownMutatorContext) {
}
}
for arch, p := range m.GetArchProperties(&BaseCompilerProperties{}) {
if cProps, ok := p.(*BaseCompilerProperties); ok {
copts.SetValueForArch(arch.Name, cProps.Cflags)
}
}
copts.SetValueForArch("default", []string{})
attrs := &bazelObjectAttributes{
Srcs: android.BazelLabelForModuleSrcExcludes(ctx, srcs, excludeSrcs),
Deps: deps,