blob: f571157998ae3e43c2a4352e94226b0d7297c8d0 [file] [log] [blame]
// Copyright 2015 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 android
import (
"android/soong/bazel"
"crypto/md5"
"encoding/hex"
"encoding/json"
"fmt"
"net/url"
"path/filepath"
"reflect"
"sort"
"strings"
"github.com/google/blueprint"
"github.com/google/blueprint/proptools"
)
var (
DeviceSharedLibrary = "shared_library"
DeviceStaticLibrary = "static_library"
)
type Module interface {
blueprint.Module
// GenerateAndroidBuildActions is analogous to Blueprints' GenerateBuildActions,
// but GenerateAndroidBuildActions also has access to Android-specific information.
// For more information, see Module.GenerateBuildActions within Blueprint's module_ctx.go
GenerateAndroidBuildActions(ModuleContext)
// Add dependencies to the components of a module, i.e. modules that are created
// by the module and which are considered to be part of the creating module.
//
// This is called before prebuilts are renamed so as to allow a dependency to be
// added directly to a prebuilt child module instead of depending on a source module
// and relying on prebuilt processing to switch to the prebuilt module if preferred.
//
// A dependency on a prebuilt must include the "prebuilt_" prefix.
ComponentDepsMutator(ctx BottomUpMutatorContext)
DepsMutator(BottomUpMutatorContext)
base() *ModuleBase
Disable()
Enabled() bool
Target() Target
MultiTargets() []Target
// ImageVariation returns the image variation of this module.
//
// The returned structure has its Mutator field set to "image" and its Variation field set to the
// image variation, e.g. recovery, ramdisk, etc.. The Variation field is "" for host modules and
// device modules that have no image variation.
ImageVariation() blueprint.Variation
Owner() string
InstallInData() bool
InstallInTestcases() bool
InstallInSanitizerDir() bool
InstallInRamdisk() bool
InstallInVendorRamdisk() bool
InstallInDebugRamdisk() bool
InstallInRecovery() bool
InstallInRoot() bool
InstallInVendor() bool
InstallForceOS() (*OsType, *ArchType)
PartitionTag(DeviceConfig) string
HideFromMake()
IsHideFromMake() bool
IsSkipInstall() bool
MakeUninstallable()
ReplacedByPrebuilt()
IsReplacedByPrebuilt() bool
ExportedToMake() bool
InitRc() Paths
VintfFragments() Paths
EffectiveLicenseKinds() []string
EffectiveLicenseFiles() Paths
AddProperties(props ...interface{})
GetProperties() []interface{}
BuildParamsForTests() []BuildParams
RuleParamsForTests() map[blueprint.Rule]blueprint.RuleParams
VariablesForTests() map[string]string
// String returns a string that includes the module name and variants for printing during debugging.
String() string
// Get the qualified module id for this module.
qualifiedModuleId(ctx BaseModuleContext) qualifiedModuleName
// Get information about the properties that can contain visibility rules.
visibilityProperties() []visibilityProperty
RequiredModuleNames() []string
HostRequiredModuleNames() []string
TargetRequiredModuleNames() []string
FilesToInstall() InstallPaths
PackagingSpecs() []PackagingSpec
// TransitivePackagingSpecs returns the PackagingSpecs for this module and any transitive
// dependencies with dependency tags for which IsInstallDepNeeded() returns true.
TransitivePackagingSpecs() []PackagingSpec
}
// Qualified id for a module
type qualifiedModuleName struct {
// The package (i.e. directory) in which the module is defined, without trailing /
pkg string
// The name of the module, empty string if package.
name string
}
func (q qualifiedModuleName) String() string {
if q.name == "" {
return "//" + q.pkg
}
return "//" + q.pkg + ":" + q.name
}
func (q qualifiedModuleName) isRootPackage() bool {
return q.pkg == "" && q.name == ""
}
// Get the id for the package containing this module.
func (q qualifiedModuleName) getContainingPackageId() qualifiedModuleName {
pkg := q.pkg
if q.name == "" {
if pkg == "" {
panic(fmt.Errorf("Cannot get containing package id of root package"))
}
index := strings.LastIndex(pkg, "/")
if index == -1 {
pkg = ""
} else {
pkg = pkg[:index]
}
}
return newPackageId(pkg)
}
func newPackageId(pkg string) qualifiedModuleName {
// A qualified id for a package module has no name.
return qualifiedModuleName{pkg: pkg, name: ""}
}
type Dist struct {
// Copy the output of this module to the $DIST_DIR when `dist` is specified on the
// command line and any of these targets are also on the command line, or otherwise
// built
Targets []string `android:"arch_variant"`
// The name of the output artifact. This defaults to the basename of the output of
// the module.
Dest *string `android:"arch_variant"`
// The directory within the dist directory to store the artifact. Defaults to the
// top level directory ("").
Dir *string `android:"arch_variant"`
// A suffix to add to the artifact file name (before any extension).
Suffix *string `android:"arch_variant"`
// If true, then the artifact file will be appended with _<product name>. For
// example, if the product is coral and the module is an android_app module
// of name foo, then the artifact would be foo_coral.apk. If false, there is
// no change to the artifact file name.
Append_artifact_with_product *bool `android:"arch_variant"`
// A string tag to select the OutputFiles associated with the tag.
//
// If no tag is specified then it will select the default dist paths provided
// by the module type. If a tag of "" is specified then it will return the
// default output files provided by the modules, i.e. the result of calling
// OutputFiles("").
Tag *string `android:"arch_variant"`
}
// NamedPath associates a path with a name. e.g. a license text path with a package name
type NamedPath struct {
Path Path
Name string
}
// String returns an escaped string representing the `NamedPath`.
func (p NamedPath) String() string {
if len(p.Name) > 0 {
return p.Path.String() + ":" + url.QueryEscape(p.Name)
}
return p.Path.String()
}
// NamedPaths describes a list of paths each associated with a name.
type NamedPaths []NamedPath
// Strings returns a list of escaped strings representing each `NamedPath` in the list.
func (l NamedPaths) Strings() []string {
result := make([]string, 0, len(l))
for _, p := range l {
result = append(result, p.String())
}
return result
}
// SortedUniqueNamedPaths modifies `l` in place to return the sorted unique subset.
func SortedUniqueNamedPaths(l NamedPaths) NamedPaths {
if len(l) == 0 {
return l
}
sort.Slice(l, func(i, j int) bool {
return l[i].String() < l[j].String()
})
k := 0
for i := 1; i < len(l); i++ {
if l[i].String() == l[k].String() {
continue
}
k++
if k < i {
l[k] = l[i]
}
}
return l[:k+1]
}
// soongConfigTrace holds all references to VendorVars. Uses []string for blueprint:"mutated"
type soongConfigTrace struct {
Bools []string `json:",omitempty"`
Strings []string `json:",omitempty"`
IsSets []string `json:",omitempty"`
}
func (c *soongConfigTrace) isEmpty() bool {
return len(c.Bools) == 0 && len(c.Strings) == 0 && len(c.IsSets) == 0
}
// Returns hash of serialized trace records (empty string if there's no trace recorded)
func (c *soongConfigTrace) hash() string {
// Use MD5 for speed. We don't care collision or preimage attack
if c.isEmpty() {
return ""
}
j, err := json.Marshal(c)
if err != nil {
panic(fmt.Errorf("json marshal of %#v failed: %#v", *c, err))
}
hash := md5.Sum(j)
return hex.EncodeToString(hash[:])
}
type nameProperties struct {
// The name of the module. Must be unique across all modules.
Name *string
}
type commonProperties struct {
// emit build rules for this module
//
// Disabling a module should only be done for those modules that cannot be built
// in the current environment. Modules that can build in the current environment
// but are not usually required (e.g. superceded by a prebuilt) should not be
// disabled as that will prevent them from being built by the checkbuild target
// and so prevent early detection of changes that have broken those modules.
Enabled *bool `android:"arch_variant"`
// Controls the visibility of this module to other modules. Allowable values are one or more of
// these formats:
//
// ["//visibility:public"]: Anyone can use this module.
// ["//visibility:private"]: Only rules in the module's package (not its subpackages) can use
// this module.
// ["//visibility:override"]: Discards any rules inherited from defaults or a creating module.
// Can only be used at the beginning of a list of visibility rules.
// ["//some/package:__pkg__", "//other/package:__pkg__"]: Only modules in some/package and
// other/package (defined in some/package/*.bp and other/package/*.bp) have access to
// this module. Note that sub-packages do not have access to the rule; for example,
// //some/package/foo:bar or //other/package/testing:bla wouldn't have access. __pkg__
// is a special module and must be used verbatim. It represents all of the modules in the
// package.
// ["//project:__subpackages__", "//other:__subpackages__"]: Only modules in packages project
// or other or in one of their sub-packages have access to this module. For example,
// //project:rule, //project/library:lib or //other/testing/internal:munge are allowed
// to depend on this rule (but not //independent:evil)
// ["//project"]: This is shorthand for ["//project:__pkg__"]
// [":__subpackages__"]: This is shorthand for ["//project:__subpackages__"] where
// //project is the module's package. e.g. using [":__subpackages__"] in
// packages/apps/Settings/Android.bp is equivalent to
// //packages/apps/Settings:__subpackages__.
// ["//visibility:legacy_public"]: The default visibility, behaves as //visibility:public
// for now. It is an error if it is used in a module.
//
// If a module does not specify the `visibility` property then it uses the
// `default_visibility` property of the `package` module in the module's package.
//
// If the `default_visibility` property is not set for the module's package then
// it will use the `default_visibility` of its closest ancestor package for which
// a `default_visibility` property is specified.
//
// If no `default_visibility` property can be found then the module uses the
// global default of `//visibility:legacy_public`.
//
// The `visibility` property has no effect on a defaults module although it does
// apply to any non-defaults module that uses it. To set the visibility of a
// defaults module, use the `defaults_visibility` property on the defaults module;
// not to be confused with the `default_visibility` property on the package module.
//
// See https://android.googlesource.com/platform/build/soong/+/master/README.md#visibility for
// more details.
Visibility []string
// Describes the licenses applicable to this module. Must reference license modules.
Licenses []string
// Flattened from direct license dependencies. Equal to Licenses unless particular module adds more.
Effective_licenses []string `blueprint:"mutated"`
// Override of module name when reporting licenses
Effective_package_name *string `blueprint:"mutated"`
// Notice files
Effective_license_text NamedPaths `blueprint:"mutated"`
// License names
Effective_license_kinds []string `blueprint:"mutated"`
// License conditions
Effective_license_conditions []string `blueprint:"mutated"`
// control whether this module compiles for 32-bit, 64-bit, or both. Possible values
// are "32" (compile for 32-bit only), "64" (compile for 64-bit only), "both" (compile for both
// architectures), or "first" (compile for 64-bit on a 64-bit platform, and 32-bit on a 32-bit
// platform).
Compile_multilib *string `android:"arch_variant"`
Target struct {
Host struct {
Compile_multilib *string
}
Android struct {
Compile_multilib *string
}
}
// If set to true then the archMutator will create variants for each arch specific target
// (e.g. 32/64) that the module is required to produce. If set to false then it will only
// create a variant for the architecture and will list the additional arch specific targets
// that the variant needs to produce in the CompileMultiTargets property.
UseTargetVariants bool `blueprint:"mutated"`
Default_multilib string `blueprint:"mutated"`
// whether this is a proprietary vendor module, and should be installed into /vendor
Proprietary *bool
// vendor who owns this module
Owner *string
// whether this module is specific to an SoC (System-On-a-Chip). When set to true,
// it is installed into /vendor (or /system/vendor if vendor partition does not exist).
// Use `soc_specific` instead for better meaning.
Vendor *bool
// whether this module is specific to an SoC (System-On-a-Chip). When set to true,
// it is installed into /vendor (or /system/vendor if vendor partition does not exist).
Soc_specific *bool
// whether this module is specific to a device, not only for SoC, but also for off-chip
// peripherals. When set to true, it is installed into /odm (or /vendor/odm if odm partition
// does not exist, or /system/vendor/odm if both odm and vendor partitions do not exist).
// This implies `soc_specific:true`.
Device_specific *bool
// whether this module is specific to a software configuration of a product (e.g. country,
// network operator, etc). When set to true, it is installed into /product (or
// /system/product if product partition does not exist).
Product_specific *bool
// whether this module extends system. When set to true, it is installed into /system_ext
// (or /system/system_ext if system_ext partition does not exist).
System_ext_specific *bool
// Whether this module is installed to recovery partition
Recovery *bool
// Whether this module is installed to ramdisk
Ramdisk *bool
// Whether this module is installed to vendor ramdisk
Vendor_ramdisk *bool
// Whether this module is installed to debug ramdisk
Debug_ramdisk *bool
// Whether this module is built for non-native architectures (also known as native bridge binary)
Native_bridge_supported *bool `android:"arch_variant"`
// init.rc files to be installed if this module is installed
Init_rc []string `android:"arch_variant,path"`
// VINTF manifest fragments to be installed if this module is installed
Vintf_fragments []string `android:"path"`
// names of other modules to install if this module is installed
Required []string `android:"arch_variant"`
// names of other modules to install on host if this module is installed
Host_required []string `android:"arch_variant"`
// names of other modules to install on target if this module is installed
Target_required []string `android:"arch_variant"`
// The OsType of artifacts that this module variant is responsible for creating.
//
// Set by osMutator
CompileOS OsType `blueprint:"mutated"`
// The Target of artifacts that this module variant is responsible for creating.
//
// Set by archMutator
CompileTarget Target `blueprint:"mutated"`
// The additional arch specific targets (e.g. 32/64 bit) that this module variant is
// responsible for creating.
//
// By default this is nil as, where necessary, separate variants are created for the
// different multilib types supported and that information is encapsulated in the
// CompileTarget so the module variant simply needs to create artifacts for that.
//
// However, if UseTargetVariants is set to false (e.g. by
// InitAndroidMultiTargetsArchModule) then no separate variants are created for the
// multilib targets. Instead a single variant is created for the architecture and
// this contains the multilib specific targets that this variant should create.
//
// Set by archMutator
CompileMultiTargets []Target `blueprint:"mutated"`
// True if the module variant's CompileTarget is the primary target
//
// Set by archMutator
CompilePrimary bool `blueprint:"mutated"`
// Set by InitAndroidModule
HostOrDeviceSupported HostOrDeviceSupported `blueprint:"mutated"`
ArchSpecific bool `blueprint:"mutated"`
// If set to true then a CommonOS variant will be created which will have dependencies
// on all its OsType specific variants. Used by sdk/module_exports to create a snapshot
// that covers all os and architecture variants.
//
// The OsType specific variants can be retrieved by calling
// GetOsSpecificVariantsOfCommonOSVariant
//
// Set at module initialization time by calling InitCommonOSAndroidMultiTargetsArchModule
CreateCommonOSVariant bool `blueprint:"mutated"`
// If set to true then this variant is the CommonOS variant that has dependencies on its
// OsType specific variants.
//
// Set by osMutator.
CommonOSVariant bool `blueprint:"mutated"`
// When HideFromMake is set to true, no entry for this variant will be emitted in the
// generated Android.mk file.
HideFromMake bool `blueprint:"mutated"`
// When SkipInstall is set to true, calls to ctx.InstallFile, ctx.InstallExecutable,
// ctx.InstallSymlink and ctx.InstallAbsoluteSymlink act like calls to ctx.PackageFile
// and don't create a rule to install the file.
SkipInstall bool `blueprint:"mutated"`
// UninstallableApexPlatformVariant is set by MakeUninstallable called by the apex
// mutator. MakeUninstallable also sets HideFromMake. UninstallableApexPlatformVariant
// is used to avoid adding install or packaging dependencies into libraries provided
// by apexes.
UninstallableApexPlatformVariant bool `blueprint:"mutated"`
// Whether the module has been replaced by a prebuilt
ReplacedByPrebuilt bool `blueprint:"mutated"`
// Disabled by mutators. If set to true, it overrides Enabled property.
ForcedDisabled bool `blueprint:"mutated"`
NamespaceExportedToMake bool `blueprint:"mutated"`
MissingDeps []string `blueprint:"mutated"`
CheckedMissingDeps bool `blueprint:"mutated"`
// Name and variant strings stored by mutators to enable Module.String()
DebugName string `blueprint:"mutated"`
DebugMutators []string `blueprint:"mutated"`
DebugVariations []string `blueprint:"mutated"`
// ImageVariation is set by ImageMutator to specify which image this variation is for,
// for example "" for core or "recovery" for recovery. It will often be set to one of the
// constants in image.go, but can also be set to a custom value by individual module types.
ImageVariation string `blueprint:"mutated"`
// SoongConfigTrace records accesses to VendorVars (soong_config). The trace will be hashed
// and used as a subdir of PathForModuleOut. Note that we mainly focus on incremental
// builds among similar products (e.g. aosp_cf_x86_64_phone and aosp_cf_x86_64_foldable),
// and there are variables other than soong_config, which isn't captured by soong config
// trace, but influence modules among products.
SoongConfigTrace soongConfigTrace `blueprint:"mutated"`
SoongConfigTraceHash string `blueprint:"mutated"`
}
type distProperties struct {
// configuration to distribute output files from this module to the distribution
// directory (default: $OUT/dist, configurable with $DIST_DIR)
Dist Dist `android:"arch_variant"`
// a list of configurations to distribute output files from this module to the
// distribution directory (default: $OUT/dist, configurable with $DIST_DIR)
Dists []Dist `android:"arch_variant"`
}
// CommonTestOptions represents the common `test_options` properties in
// Android.bp.
type CommonTestOptions struct {
// If the test is a hostside (no device required) unittest that shall be run
// during presubmit check.
Unit_test *bool
// Tags provide additional metadata to customize test execution by downstream
// test runners. The tags have no special meaning to Soong.
Tags []string
}
// SetAndroidMkEntries sets AndroidMkEntries according to the value of base
// `test_options`.
func (t *CommonTestOptions) SetAndroidMkEntries(entries *AndroidMkEntries) {
entries.SetBoolIfTrue("LOCAL_IS_UNIT_TEST", Bool(t.Unit_test))
if len(t.Tags) > 0 {
entries.AddStrings("LOCAL_TEST_OPTIONS_TAGS", t.Tags...)
}
}
// The key to use in TaggedDistFiles when a Dist structure does not specify a
// tag property. This intentionally does not use "" as the default because that
// would mean that an empty tag would have a different meaning when used in a dist
// structure that when used to reference a specific set of output paths using the
// :module{tag} syntax, which passes tag to the OutputFiles(tag) method.
const DefaultDistTag = "<default-dist-tag>"
// A map of OutputFile tag keys to Paths, for disting purposes.
type TaggedDistFiles map[string]Paths
// addPathsForTag adds a mapping from the tag to the paths. If the map is nil
// then it will create a map, update it and then return it. If a mapping already
// exists for the tag then the paths are appended to the end of the current list
// of paths, ignoring any duplicates.
func (t TaggedDistFiles) addPathsForTag(tag string, paths ...Path) TaggedDistFiles {
if t == nil {
t = make(TaggedDistFiles)
}
for _, distFile := range paths {
if distFile != nil && !t[tag].containsPath(distFile) {
t[tag] = append(t[tag], distFile)
}
}
return t
}
// merge merges the entries from the other TaggedDistFiles object into this one.
// If the TaggedDistFiles is nil then it will create a new instance, merge the
// other into it, and then return it.
func (t TaggedDistFiles) merge(other TaggedDistFiles) TaggedDistFiles {
for tag, paths := range other {
t = t.addPathsForTag(tag, paths...)
}
return t
}
func MakeDefaultDistFiles(paths ...Path) TaggedDistFiles {
for _, p := range paths {
if p == nil {
panic("The path to a dist file cannot be nil.")
}
}
// The default OutputFile tag is the empty "" string.
return TaggedDistFiles{DefaultDistTag: paths}
}
type hostAndDeviceProperties struct {
// If set to true, build a variant of the module for the host. Defaults to false.
Host_supported *bool
// If set to true, build a variant of the module for the device. Defaults to true.
Device_supported *bool
}
type Multilib string
const (
MultilibBoth Multilib = "both"
MultilibFirst Multilib = "first"
MultilibCommon Multilib = "common"
MultilibCommonFirst Multilib = "common_first"
)
type HostOrDeviceSupported int
const (
hostSupported = 1 << iota
hostCrossSupported
deviceSupported
hostDefault
deviceDefault
// Host and HostCross are built by default. Device is not supported.
HostSupported = hostSupported | hostCrossSupported | hostDefault
// Host is built by default. HostCross and Device are not supported.
HostSupportedNoCross = hostSupported | hostDefault
// Device is built by default. Host and HostCross are not supported.
DeviceSupported = deviceSupported | deviceDefault
// By default, _only_ device variant is built. Device variant can be disabled with `device_supported: false`
// Host and HostCross are disabled by default and can be enabled with `host_supported: true`
HostAndDeviceSupported = hostSupported | hostCrossSupported | deviceSupported | deviceDefault
// Host, HostCross, and Device are built by default.
// Building Device can be disabled with `device_supported: false`
// Building Host and HostCross can be disabled with `host_supported: false`
HostAndDeviceDefault = hostSupported | hostCrossSupported | hostDefault |
deviceSupported | deviceDefault
// Nothing is supported. This is not exposed to the user, but used to mark a
// host only module as unsupported when the module type is not supported on
// the host OS. E.g. benchmarks are supported on Linux but not Darwin.
NeitherHostNorDeviceSupported = 0
)
type moduleKind int
const (
platformModule moduleKind = iota
deviceSpecificModule
socSpecificModule
productSpecificModule
systemExtSpecificModule
)
func (k moduleKind) String() string {
switch k {
case platformModule:
return "platform"
case deviceSpecificModule:
return "device-specific"
case socSpecificModule:
return "soc-specific"
case productSpecificModule:
return "product-specific"
case systemExtSpecificModule:
return "systemext-specific"
default:
panic(fmt.Errorf("unknown module kind %d", k))
}
}
func initAndroidModuleBase(m Module) {
m.base().module = m
}
// InitAndroidModule initializes the Module as an Android module that is not architecture-specific.
// It adds the common properties, for example "name" and "enabled".
func InitAndroidModule(m Module) {
initAndroidModuleBase(m)
base := m.base()
m.AddProperties(
&base.nameProperties,
&base.commonProperties,
&base.distProperties)
initProductVariableModule(m)
// The default_visibility property needs to be checked and parsed by the visibility module during
// its checking and parsing phases so make it the primary visibility property.
setPrimaryVisibilityProperty(m, "visibility", &base.commonProperties.Visibility)
// The default_applicable_licenses property needs to be checked and parsed by the licenses module during
// its checking and parsing phases so make it the primary licenses property.
setPrimaryLicensesProperty(m, "licenses", &base.commonProperties.Licenses)
}
// InitAndroidArchModule initializes the Module as an Android module that is architecture-specific.
// It adds the common properties, for example "name" and "enabled", as well as runtime generated
// property structs for architecture-specific versions of generic properties tagged with
// `android:"arch_variant"`.
//
// InitAndroidModule should not be called if InitAndroidArchModule was called.
func InitAndroidArchModule(m Module, hod HostOrDeviceSupported, defaultMultilib Multilib) {
InitAndroidModule(m)
base := m.base()
base.commonProperties.HostOrDeviceSupported = hod
base.commonProperties.Default_multilib = string(defaultMultilib)
base.commonProperties.ArchSpecific = true
base.commonProperties.UseTargetVariants = true
if hod&hostSupported != 0 && hod&deviceSupported != 0 {
m.AddProperties(&base.hostAndDeviceProperties)
}
initArchModule(m)
}
// InitAndroidMultiTargetsArchModule initializes the Module as an Android module that is
// architecture-specific, but will only have a single variant per OS that handles all the
// architectures simultaneously. The list of Targets that it must handle will be available from
// ModuleContext.MultiTargets. It adds the common properties, for example "name" and "enabled", as
// well as runtime generated property structs for architecture-specific versions of generic
// properties tagged with `android:"arch_variant"`.
//
// InitAndroidModule or InitAndroidArchModule should not be called if
// InitAndroidMultiTargetsArchModule was called.
func InitAndroidMultiTargetsArchModule(m Module, hod HostOrDeviceSupported, defaultMultilib Multilib) {
InitAndroidArchModule(m, hod, defaultMultilib)
m.base().commonProperties.UseTargetVariants = false
}
// InitCommonOSAndroidMultiTargetsArchModule initializes the Module as an Android module that is
// architecture-specific, but will only have a single variant per OS that handles all the
// architectures simultaneously, and will also have an additional CommonOS variant that has
// dependencies on all the OS-specific variants. The list of Targets that it must handle will be
// available from ModuleContext.MultiTargets. It adds the common properties, for example "name" and
// "enabled", as well as runtime generated property structs for architecture-specific versions of
// generic properties tagged with `android:"arch_variant"`.
//
// InitAndroidModule, InitAndroidArchModule or InitAndroidMultiTargetsArchModule should not be
// called if InitCommonOSAndroidMultiTargetsArchModule was called.
func InitCommonOSAndroidMultiTargetsArchModule(m Module, hod HostOrDeviceSupported, defaultMultilib Multilib) {
InitAndroidArchModule(m, hod, defaultMultilib)
m.base().commonProperties.UseTargetVariants = false
m.base().commonProperties.CreateCommonOSVariant = true
}
// A ModuleBase object contains the properties that are common to all Android
// modules. It should be included as an anonymous field in every module
// struct definition. InitAndroidModule should then be called from the module's
// factory function, and the return values from InitAndroidModule should be
// returned from the factory function.
//
// The ModuleBase type is responsible for implementing the GenerateBuildActions
// method to support the blueprint.Module interface. This method will then call
// the module's GenerateAndroidBuildActions method once for each build variant
// that is to be built. GenerateAndroidBuildActions is passed a ModuleContext
// rather than the usual blueprint.ModuleContext.
// ModuleContext exposes extra functionality specific to the Android build
// system including details about the particular build variant that is to be
// generated.
//
// For example:
//
// import (
// "android/soong/android"
// )
//
// type myModule struct {
// android.ModuleBase
// properties struct {
// MyProperty string
// }
// }
//
// func NewMyModule() android.Module {
// m := &myModule{}
// m.AddProperties(&m.properties)
// android.InitAndroidModule(m)
// return m
// }
//
// func (m *myModule) GenerateAndroidBuildActions(ctx android.ModuleContext) {
// // Get the CPU architecture for the current build variant.
// variantArch := ctx.Arch()
//
// // ...
// }
type ModuleBase struct {
// Putting the curiously recurring thing pointing to the thing that contains
// the thing pattern to good use.
// TODO: remove this
module Module
nameProperties nameProperties
commonProperties commonProperties
distProperties distProperties
variableProperties interface{}
hostAndDeviceProperties hostAndDeviceProperties
// Arch specific versions of structs in GetProperties() prior to
// initialization in InitAndroidArchModule, lets call it `generalProperties`.
// The outer index has the same order as generalProperties 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{}
// Properties specific to the Blueprint to BUILD migration.
bazelTargetModuleProperties bazel.BazelTargetModuleProperties
// Information about all the properties on the module that contains visibility rules that need
// checking.
visibilityPropertyInfo []visibilityProperty
// The primary visibility property, may be nil, that controls access to the module.
primaryVisibilityProperty visibilityProperty
// The primary licenses property, may be nil, records license metadata for the module.
primaryLicensesProperty applicableLicensesProperty
noAddressSanitizer bool
installFiles InstallPaths
installFilesDepSet *DepSet[InstallPath]
checkbuildFiles Paths
packagingSpecs []PackagingSpec
packagingSpecsDepSet *DepSet[PackagingSpec]
// katiInstalls tracks the install rules that were created by Soong but are being exported
// to Make to convert to ninja rules so that Make can add additional dependencies.
katiInstalls katiInstalls
katiSymlinks katiInstalls
testData []DataPath
// The files to copy to the dist as explicitly specified in the .bp file.
distFiles TaggedDistFiles
// Used by buildTargetSingleton to create checkbuild and per-directory build targets
// Only set on the final variant of each module
installTarget WritablePath
checkbuildTarget WritablePath
blueprintDir string
hooks hooks
registerProps []interface{}
// For tests
buildParams []BuildParams
ruleParams map[blueprint.Rule]blueprint.RuleParams
variables map[string]string
initRcPaths Paths
vintfFragmentsPaths Paths
// set of dependency module:location mappings used to populate the license metadata for
// apex containers.
licenseInstallMap []string
// The path to the generated license metadata file for the module.
licenseMetadataFile WritablePath
}
func (m *ModuleBase) AddJSONData(d *map[string]interface{}) {
(*d)["Android"] = map[string]interface{}{
// Properties set in Blueprint or in blueprint of a defaults modules
"SetProperties": m.propertiesWithValues(),
}
}
type propInfo struct {
Name string
Type string
Value string
Values []string
}
func (m *ModuleBase) propertiesWithValues() []propInfo {
var info []propInfo
props := m.GetProperties()
var propsWithValues func(name string, v reflect.Value)
propsWithValues = func(name string, v reflect.Value) {
kind := v.Kind()
switch kind {
case reflect.Ptr, reflect.Interface:
if v.IsNil() {
return
}
propsWithValues(name, v.Elem())
case reflect.Struct:
if v.IsZero() {
return
}
for i := 0; i < v.NumField(); i++ {
namePrefix := name
sTyp := v.Type().Field(i)
if proptools.ShouldSkipProperty(sTyp) {
continue
}
if name != "" && !strings.HasSuffix(namePrefix, ".") {
namePrefix += "."
}
if !proptools.IsEmbedded(sTyp) {
namePrefix += sTyp.Name
}
sVal := v.Field(i)
propsWithValues(namePrefix, sVal)
}
case reflect.Array, reflect.Slice:
if v.IsNil() {
return
}
elKind := v.Type().Elem().Kind()
info = append(info, propInfo{Name: name, Type: elKind.String() + " " + kind.String(), Values: sliceReflectionValue(v)})
default:
info = append(info, propInfo{Name: name, Type: kind.String(), Value: reflectionValue(v)})
}
}
for _, p := range props {
propsWithValues("", reflect.ValueOf(p).Elem())
}
sort.Slice(info, func(i, j int) bool {
return info[i].Name < info[j].Name
})
return info
}
func reflectionValue(value reflect.Value) string {
switch value.Kind() {
case reflect.Bool:
return fmt.Sprintf("%t", value.Bool())
case reflect.Int64:
return fmt.Sprintf("%d", value.Int())
case reflect.String:
return fmt.Sprintf("%s", value.String())
case reflect.Struct:
if value.IsZero() {
return "{}"
}
length := value.NumField()
vals := make([]string, length, length)
for i := 0; i < length; i++ {
sTyp := value.Type().Field(i)
if proptools.ShouldSkipProperty(sTyp) {
continue
}
name := sTyp.Name
vals[i] = fmt.Sprintf("%s: %s", name, reflectionValue(value.Field(i)))
}
return fmt.Sprintf("%s{%s}", value.Type(), strings.Join(vals, ", "))
case reflect.Array, reflect.Slice:
vals := sliceReflectionValue(value)
return fmt.Sprintf("[%s]", strings.Join(vals, ", "))
}
return ""
}
func sliceReflectionValue(value reflect.Value) []string {
length := value.Len()
vals := make([]string, length, length)
for i := 0; i < length; i++ {
vals[i] = reflectionValue(value.Index(i))
}
return vals
}
func (m *ModuleBase) ComponentDepsMutator(BottomUpMutatorContext) {}
func (m *ModuleBase) DepsMutator(BottomUpMutatorContext) {}
// AddProperties "registers" the provided props
// each value in props MUST be a pointer to a struct
func (m *ModuleBase) AddProperties(props ...interface{}) {
m.registerProps = append(m.registerProps, props...)
}
func (m *ModuleBase) GetProperties() []interface{} {
return m.registerProps
}
func (m *ModuleBase) BuildParamsForTests() []BuildParams {
// Expand the references to module variables like $flags[0-9]*,
// so we do not need to change many existing unit tests.
// This looks like undoing the shareFlags optimization in cc's
// transformSourceToObj, and should only affects unit tests.
vars := m.VariablesForTests()
buildParams := append([]BuildParams(nil), m.buildParams...)
for i := range buildParams {
newArgs := make(map[string]string)
for k, v := range buildParams[i].Args {
newArgs[k] = v
// Replaces both ${flags1} and $flags1 syntax.
if strings.HasPrefix(v, "${") && strings.HasSuffix(v, "}") {
if value, found := vars[v[2:len(v)-1]]; found {
newArgs[k] = value
}
} else if strings.HasPrefix(v, "$") {
if value, found := vars[v[1:]]; found {
newArgs[k] = value
}
}
}
buildParams[i].Args = newArgs
}
return buildParams
}
func (m *ModuleBase) RuleParamsForTests() map[blueprint.Rule]blueprint.RuleParams {
return m.ruleParams
}
func (m *ModuleBase) VariablesForTests() map[string]string {
return m.variables
}
// Name returns the name of the module. It may be overridden by individual module types, for
// example prebuilts will prepend prebuilt_ to the name.
func (m *ModuleBase) Name() string {
return String(m.nameProperties.Name)
}
// String returns a string that includes the module name and variants for printing during debugging.
func (m *ModuleBase) String() string {
sb := strings.Builder{}
sb.WriteString(m.commonProperties.DebugName)
sb.WriteString("{")
for i := range m.commonProperties.DebugMutators {
if i != 0 {
sb.WriteString(",")
}
sb.WriteString(m.commonProperties.DebugMutators[i])
sb.WriteString(":")
sb.WriteString(m.commonProperties.DebugVariations[i])
}
sb.WriteString("}")
return sb.String()
}
// BaseModuleName returns the name of the module as specified in the blueprints file.
func (m *ModuleBase) BaseModuleName() string {
return String(m.nameProperties.Name)
}
func (m *ModuleBase) base() *ModuleBase {
return m
}
func (m *ModuleBase) qualifiedModuleId(ctx BaseModuleContext) qualifiedModuleName {
return qualifiedModuleName{pkg: ctx.ModuleDir(), name: ctx.ModuleName()}
}
func (m *ModuleBase) visibilityProperties() []visibilityProperty {
return m.visibilityPropertyInfo
}
func (m *ModuleBase) Dists() []Dist {
if len(m.distProperties.Dist.Targets) > 0 {
// Make a copy of the underlying Dists slice to protect against
// backing array modifications with repeated calls to this method.
distsCopy := append([]Dist(nil), m.distProperties.Dists...)
return append(distsCopy, m.distProperties.Dist)
} else {
return m.distProperties.Dists
}
}
func (m *ModuleBase) GenerateTaggedDistFiles(ctx BaseModuleContext) TaggedDistFiles {
var distFiles TaggedDistFiles
for _, dist := range m.Dists() {
// If no tag is specified then it means to use the default dist paths so use
// the special tag name which represents that.
tag := proptools.StringDefault(dist.Tag, DefaultDistTag)
if outputFileProducer, ok := m.module.(OutputFileProducer); ok {
// Call the OutputFiles(tag) method to get the paths associated with the tag.
distFilesForTag, err := outputFileProducer.OutputFiles(tag)
// If the tag was not supported and is not DefaultDistTag then it is an error.
// Failing to find paths for DefaultDistTag is not an error. It just means
// that the module type requires the legacy behavior.
if err != nil && tag != DefaultDistTag {
ctx.PropertyErrorf("dist.tag", "%s", err.Error())
}
distFiles = distFiles.addPathsForTag(tag, distFilesForTag...)
} else if tag != DefaultDistTag {
// If the tag was specified then it is an error if the module does not
// implement OutputFileProducer because there is no other way of accessing
// the paths for the specified tag.
ctx.PropertyErrorf("dist.tag",
"tag %s not supported because the module does not implement OutputFileProducer", tag)
}
}
return distFiles
}
func (m *ModuleBase) Target() Target {
return m.commonProperties.CompileTarget
}
func (m *ModuleBase) TargetPrimary() bool {
return m.commonProperties.CompilePrimary
}
func (m *ModuleBase) MultiTargets() []Target {
return m.commonProperties.CompileMultiTargets
}
func (m *ModuleBase) Os() OsType {
return m.Target().Os
}
func (m *ModuleBase) Host() bool {
return m.Os().Class == Host
}
func (m *ModuleBase) Device() bool {
return m.Os().Class == Device
}
func (m *ModuleBase) Arch() Arch {
return m.Target().Arch
}
func (m *ModuleBase) ArchSpecific() bool {
return m.commonProperties.ArchSpecific
}
// True if the current variant is a CommonOS variant, false otherwise.
func (m *ModuleBase) IsCommonOSVariant() bool {
return m.commonProperties.CommonOSVariant
}
// supportsTarget returns true if the given Target is supported by the current module.
func (m *ModuleBase) supportsTarget(target Target) bool {
switch target.Os.Class {
case Host:
if target.HostCross {
return m.HostCrossSupported()
} else {
return m.HostSupported()
}
case Device:
return m.DeviceSupported()
default:
return false
}
}
// DeviceSupported returns true if the current module is supported and enabled for device targets,
// i.e. the factory method set the HostOrDeviceSupported value to include device support and
// the device support is enabled by default or enabled by the device_supported property.
func (m *ModuleBase) DeviceSupported() bool {
hod := m.commonProperties.HostOrDeviceSupported
// deviceEnabled is true if the device_supported property is true or the HostOrDeviceSupported
// value has the deviceDefault bit set.
deviceEnabled := proptools.BoolDefault(m.hostAndDeviceProperties.Device_supported, hod&deviceDefault != 0)
return hod&deviceSupported != 0 && deviceEnabled
}
// HostSupported returns true if the current module is supported and enabled for host targets,
// i.e. the factory method set the HostOrDeviceSupported value to include host support and
// the host support is enabled by default or enabled by the host_supported property.
func (m *ModuleBase) HostSupported() bool {
hod := m.commonProperties.HostOrDeviceSupported
// hostEnabled is true if the host_supported property is true or the HostOrDeviceSupported
// value has the hostDefault bit set.
hostEnabled := proptools.BoolDefault(m.hostAndDeviceProperties.Host_supported, hod&hostDefault != 0)
return hod&hostSupported != 0 && hostEnabled
}
// HostCrossSupported returns true if the current module is supported and enabled for host cross
// targets, i.e. the factory method set the HostOrDeviceSupported value to include host cross
// support and the host cross support is enabled by default or enabled by the
// host_supported property.
func (m *ModuleBase) HostCrossSupported() bool {
hod := m.commonProperties.HostOrDeviceSupported
// hostEnabled is true if the host_supported property is true or the HostOrDeviceSupported
// value has the hostDefault bit set.
hostEnabled := proptools.BoolDefault(m.hostAndDeviceProperties.Host_supported, hod&hostDefault != 0)
return hod&hostCrossSupported != 0 && hostEnabled
}
func (m *ModuleBase) Platform() bool {
return !m.DeviceSpecific() && !m.SocSpecific() && !m.ProductSpecific() && !m.SystemExtSpecific()
}
func (m *ModuleBase) DeviceSpecific() bool {
return Bool(m.commonProperties.Device_specific)
}
func (m *ModuleBase) SocSpecific() bool {
return Bool(m.commonProperties.Vendor) || Bool(m.commonProperties.Proprietary) || Bool(m.commonProperties.Soc_specific)
}
func (m *ModuleBase) ProductSpecific() bool {
return Bool(m.commonProperties.Product_specific)
}
func (m *ModuleBase) SystemExtSpecific() bool {
return Bool(m.commonProperties.System_ext_specific)
}
// RequiresStableAPIs returns true if the module will be installed to a partition that may
// be updated separately from the system image.
func (m *ModuleBase) RequiresStableAPIs(ctx BaseModuleContext) bool {
return m.SocSpecific() || m.DeviceSpecific() ||
(m.ProductSpecific() && ctx.Config().EnforceProductPartitionInterface())
}
func (m *ModuleBase) PartitionTag(config DeviceConfig) string {
partition := "system"
if m.SocSpecific() {
// A SoC-specific module could be on the vendor partition at
// "vendor" or the system partition at "system/vendor".
if config.VendorPath() == "vendor" {
partition = "vendor"
}
} else if m.DeviceSpecific() {
// A device-specific module could be on the odm partition at
// "odm", the vendor partition at "vendor/odm", or the system
// partition at "system/vendor/odm".
if config.OdmPath() == "odm" {
partition = "odm"
} else if strings.HasPrefix(config.OdmPath(), "vendor/") {
partition = "vendor"
}
} else if m.ProductSpecific() {
// A product-specific module could be on the product partition
// at "product" or the system partition at "system/product".
if config.ProductPath() == "product" {
partition = "product"
}
} else if m.SystemExtSpecific() {
// A system_ext-specific module could be on the system_ext
// partition at "system_ext" or the system partition at
// "system/system_ext".
if config.SystemExtPath() == "system_ext" {
partition = "system_ext"
}
}
return partition
}
func (m *ModuleBase) Enabled() bool {
if m.commonProperties.ForcedDisabled {
return false
}
if m.commonProperties.Enabled == nil {
return !m.Os().DefaultDisabled
}
return *m.commonProperties.Enabled
}
func (m *ModuleBase) Disable() {
m.commonProperties.ForcedDisabled = true
}
// HideFromMake marks this variant so that it is not emitted in the generated Android.mk file.
func (m *ModuleBase) HideFromMake() {
m.commonProperties.HideFromMake = true
}
// IsHideFromMake returns true if HideFromMake was previously called.
func (m *ModuleBase) IsHideFromMake() bool {
return m.commonProperties.HideFromMake == true
}
// SkipInstall marks this variant to not create install rules when ctx.Install* are called.
func (m *ModuleBase) SkipInstall() {
m.commonProperties.SkipInstall = true
}
// IsSkipInstall returns true if this variant is marked to not create install
// rules when ctx.Install* are called.
func (m *ModuleBase) IsSkipInstall() bool {
return m.commonProperties.SkipInstall
}
// Similar to HideFromMake, but if the AndroidMk entry would set
// LOCAL_UNINSTALLABLE_MODULE then this variant may still output that entry
// rather than leaving it out altogether. That happens in cases where it would
// have other side effects, in particular when it adds a NOTICE file target,
// which other install targets might depend on.
func (m *ModuleBase) MakeUninstallable() {
m.commonProperties.UninstallableApexPlatformVariant = true
m.HideFromMake()
}
func (m *ModuleBase) ReplacedByPrebuilt() {
m.commonProperties.ReplacedByPrebuilt = true
m.HideFromMake()
}
func (m *ModuleBase) IsReplacedByPrebuilt() bool {
return m.commonProperties.ReplacedByPrebuilt
}
func (m *ModuleBase) ExportedToMake() bool {
return m.commonProperties.NamespaceExportedToMake
}
func (m *ModuleBase) EffectiveLicenseKinds() []string {
return m.commonProperties.Effective_license_kinds
}
func (m *ModuleBase) EffectiveLicenseFiles() Paths {
result := make(Paths, 0, len(m.commonProperties.Effective_license_text))
for _, p := range m.commonProperties.Effective_license_text {
result = append(result, p.Path)
}
return result
}
// computeInstallDeps finds the installed paths of all dependencies that have a dependency
// tag that is annotated as needing installation via the isInstallDepNeeded method.
func (m *ModuleBase) computeInstallDeps(ctx ModuleContext) ([]*DepSet[InstallPath], []*DepSet[PackagingSpec]) {
var installDeps []*DepSet[InstallPath]
var packagingSpecs []*DepSet[PackagingSpec]
ctx.VisitDirectDeps(func(dep Module) {
if isInstallDepNeeded(dep, ctx.OtherModuleDependencyTag(dep)) {
// Installation is still handled by Make, so anything hidden from Make is not
// installable.
if !dep.IsHideFromMake() && !dep.IsSkipInstall() {
installDeps = append(installDeps, dep.base().installFilesDepSet)
}
// Add packaging deps even when the dependency is not installed so that uninstallable
// modules can still be packaged. Often the package will be installed instead.
packagingSpecs = append(packagingSpecs, dep.base().packagingSpecsDepSet)
}
})
return installDeps, packagingSpecs
}
// isInstallDepNeeded returns true if installing the output files of the current module
// should also install the output files of the given dependency and dependency tag.
func isInstallDepNeeded(dep Module, tag blueprint.DependencyTag) bool {
// Don't add a dependency from the platform to a library provided by an apex.
if dep.base().commonProperties.UninstallableApexPlatformVariant {
return false
}
// Only install modules if the dependency tag is an InstallDepNeeded tag.
return IsInstallDepNeededTag(tag)
}
func (m *ModuleBase) FilesToInstall() InstallPaths {
return m.installFiles
}
func (m *ModuleBase) PackagingSpecs() []PackagingSpec {
return m.packagingSpecs
}
func (m *ModuleBase) TransitivePackagingSpecs() []PackagingSpec {
return m.packagingSpecsDepSet.ToList()
}
func (m *ModuleBase) NoAddressSanitizer() bool {
return m.noAddressSanitizer
}
func (m *ModuleBase) InstallInData() bool {
return false
}
func (m *ModuleBase) InstallInTestcases() bool {
return false
}
func (m *ModuleBase) InstallInSanitizerDir() bool {
return false
}
func (m *ModuleBase) InstallInRamdisk() bool {
return Bool(m.commonProperties.Ramdisk)
}
func (m *ModuleBase) InstallInVendorRamdisk() bool {
return Bool(m.commonProperties.Vendor_ramdisk)
}
func (m *ModuleBase) InstallInDebugRamdisk() bool {
return Bool(m.commonProperties.Debug_ramdisk)
}
func (m *ModuleBase) InstallInRecovery() bool {
return Bool(m.commonProperties.Recovery)
}
func (m *ModuleBase) InstallInVendor() bool {
return Bool(m.commonProperties.Vendor) || Bool(m.commonProperties.Soc_specific) || Bool(m.commonProperties.Proprietary)
}
func (m *ModuleBase) InstallInRoot() bool {
return false
}
func (m *ModuleBase) InstallForceOS() (*OsType, *ArchType) {
return nil, nil
}
func (m *ModuleBase) Owner() string {
return String(m.commonProperties.Owner)
}
func (m *ModuleBase) setImageVariation(variant string) {
m.commonProperties.ImageVariation = variant
}
func (m *ModuleBase) ImageVariation() blueprint.Variation {
return blueprint.Variation{
Mutator: "image",
Variation: m.base().commonProperties.ImageVariation,
}
}
func (m *ModuleBase) getVariationByMutatorName(mutator string) string {
for i, v := range m.commonProperties.DebugMutators {
if v == mutator {
return m.commonProperties.DebugVariations[i]
}
}
return ""
}
func (m *ModuleBase) InRamdisk() bool {
return m.base().commonProperties.ImageVariation == RamdiskVariation
}
func (m *ModuleBase) InVendorRamdisk() bool {
return m.base().commonProperties.ImageVariation == VendorRamdiskVariation
}
func (m *ModuleBase) InDebugRamdisk() bool {
return m.base().commonProperties.ImageVariation == DebugRamdiskVariation
}
func (m *ModuleBase) InRecovery() bool {
return m.base().commonProperties.ImageVariation == RecoveryVariation
}
func (m *ModuleBase) RequiredModuleNames() []string {
return m.base().commonProperties.Required
}
func (m *ModuleBase) HostRequiredModuleNames() []string {
return m.base().commonProperties.Host_required
}
func (m *ModuleBase) TargetRequiredModuleNames() []string {
return m.base().commonProperties.Target_required
}
func (m *ModuleBase) InitRc() Paths {
return append(Paths{}, m.initRcPaths...)
}
func (m *ModuleBase) VintfFragments() Paths {
return append(Paths{}, m.vintfFragmentsPaths...)
}
func (m *ModuleBase) CompileMultilib() *string {
return m.base().commonProperties.Compile_multilib
}
// SetLicenseInstallMap stores the set of dependency module:location mappings for files in an
// apex container for use when generation the license metadata file.
func (m *ModuleBase) SetLicenseInstallMap(installMap []string) {
m.licenseInstallMap = append(m.licenseInstallMap, installMap...)
}
func (m *ModuleBase) generateModuleTarget(ctx ModuleContext) {
var allInstalledFiles InstallPaths
var allCheckbuildFiles Paths
ctx.VisitAllModuleVariants(func(module Module) {
a := module.base()
allInstalledFiles = append(allInstalledFiles, a.installFiles...)
// A module's -checkbuild phony targets should
// not be created if the module is not exported to make.
// Those could depend on the build target and fail to compile
// for the current build target.
if !ctx.Config().KatiEnabled() || !shouldSkipAndroidMkProcessing(a) {
allCheckbuildFiles = append(allCheckbuildFiles, a.checkbuildFiles...)
}
})
var deps Paths
namespacePrefix := ctx.Namespace().id
if namespacePrefix != "" {
namespacePrefix = namespacePrefix + "-"
}
if len(allInstalledFiles) > 0 {
name := namespacePrefix + ctx.ModuleName() + "-install"
ctx.Phony(name, allInstalledFiles.Paths()...)
m.installTarget = PathForPhony(ctx, name)
deps = append(deps, m.installTarget)
}
if len(allCheckbuildFiles) > 0 {
name := namespacePrefix + ctx.ModuleName() + "-checkbuild"
ctx.Phony(name, allCheckbuildFiles...)
m.checkbuildTarget = PathForPhony(ctx, name)
deps = append(deps, m.checkbuildTarget)
}
if len(deps) > 0 {
suffix := ""
if ctx.Config().KatiEnabled() {
suffix = "-soong"
}
ctx.Phony(namespacePrefix+ctx.ModuleName()+suffix, deps...)
m.blueprintDir = ctx.ModuleDir()
}
}
func determineModuleKind(m *ModuleBase, ctx blueprint.EarlyModuleContext) moduleKind {
var socSpecific = Bool(m.commonProperties.Vendor) || Bool(m.commonProperties.Proprietary) || Bool(m.commonProperties.Soc_specific)
var deviceSpecific = Bool(m.commonProperties.Device_specific)
var productSpecific = Bool(m.commonProperties.Product_specific)
var systemExtSpecific = Bool(m.commonProperties.System_ext_specific)
msg := "conflicting value set here"
if socSpecific && deviceSpecific {
ctx.PropertyErrorf("device_specific", "a module cannot be specific to SoC and device at the same time.")
if Bool(m.commonProperties.Vendor) {
ctx.PropertyErrorf("vendor", msg)
}
if Bool(m.commonProperties.Proprietary) {
ctx.PropertyErrorf("proprietary", msg)
}
if Bool(m.commonProperties.Soc_specific) {
ctx.PropertyErrorf("soc_specific", msg)
}
}
if productSpecific && systemExtSpecific {
ctx.PropertyErrorf("product_specific", "a module cannot be specific to product and system_ext at the same time.")
ctx.PropertyErrorf("system_ext_specific", msg)
}
if (socSpecific || deviceSpecific) && (productSpecific || systemExtSpecific) {
if productSpecific {
ctx.PropertyErrorf("product_specific", "a module cannot be specific to SoC or device and product at the same time.")
} else {
ctx.PropertyErrorf("system_ext_specific", "a module cannot be specific to SoC or device and system_ext at the same time.")
}
if deviceSpecific {
ctx.PropertyErrorf("device_specific", msg)
} else {
if Bool(m.commonProperties.Vendor) {
ctx.PropertyErrorf("vendor", msg)
}
if Bool(m.commonProperties.Proprietary) {
ctx.PropertyErrorf("proprietary", msg)
}
if Bool(m.commonProperties.Soc_specific) {
ctx.PropertyErrorf("soc_specific", msg)
}
}
}
if productSpecific {
return productSpecificModule
} else if systemExtSpecific {
return systemExtSpecificModule
} else if deviceSpecific {
return deviceSpecificModule
} else if socSpecific {
return socSpecificModule
} else {
return platformModule
}
}
func (m *ModuleBase) earlyModuleContextFactory(ctx blueprint.EarlyModuleContext) earlyModuleContext {
return earlyModuleContext{
EarlyModuleContext: ctx,
kind: determineModuleKind(m, ctx),
config: ctx.Config().(Config),
}
}
func (m *ModuleBase) baseModuleContextFactory(ctx blueprint.BaseModuleContext) baseModuleContext {
return baseModuleContext{
bp: ctx,
earlyModuleContext: m.earlyModuleContextFactory(ctx),
os: m.commonProperties.CompileOS,
target: m.commonProperties.CompileTarget,
targetPrimary: m.commonProperties.CompilePrimary,
multiTargets: m.commonProperties.CompileMultiTargets,
}
}
func (m *ModuleBase) GenerateBuildActions(blueprintCtx blueprint.ModuleContext) {
ctx := &moduleContext{
module: m.module,
bp: blueprintCtx,
baseModuleContext: m.baseModuleContextFactory(blueprintCtx),
variables: make(map[string]string),
}
m.licenseMetadataFile = PathForModuleOut(ctx, "meta_lic")
dependencyInstallFiles, dependencyPackagingSpecs := m.computeInstallDeps(ctx)
// set m.installFilesDepSet to only the transitive dependencies to be used as the dependencies
// of installed files of this module. It will be replaced by a depset including the installed
// files of this module at the end for use by modules that depend on this one.
m.installFilesDepSet = NewDepSet[InstallPath](TOPOLOGICAL, nil, dependencyInstallFiles)
// Temporarily continue to call blueprintCtx.GetMissingDependencies() to maintain the previous behavior of never
// reporting missing dependency errors in Blueprint when AllowMissingDependencies == true.
// TODO: This will be removed once defaults modules handle missing dependency errors
blueprintCtx.GetMissingDependencies()
// For the final GenerateAndroidBuildActions pass, require that all visited dependencies Soong modules and
// are enabled. Unless the module is a CommonOS variant which may have dependencies on disabled variants
// (because the dependencies are added before the modules are disabled). The
// GetOsSpecificVariantsOfCommonOSVariant(...) method will ensure that the disabled variants are
// ignored.
ctx.baseModuleContext.strictVisitDeps = !m.IsCommonOSVariant()
if ctx.config.captureBuild {
ctx.ruleParams = make(map[blueprint.Rule]blueprint.RuleParams)
}
desc := "//" + ctx.ModuleDir() + ":" + ctx.ModuleName() + " "
var suffix []string
if ctx.Os().Class != Device && ctx.Os().Class != Generic {
suffix = append(suffix, ctx.Os().String())
}
if !ctx.PrimaryArch() {
suffix = append(suffix, ctx.Arch().ArchType.String())
}
if apexInfo := ctx.Provider(ApexInfoProvider).(ApexInfo); !apexInfo.IsForPlatform() {
suffix = append(suffix, apexInfo.ApexVariationName)
}
ctx.Variable(pctx, "moduleDesc", desc)
s := ""
if len(suffix) > 0 {
s = " [" + strings.Join(suffix, " ") + "]"
}
ctx.Variable(pctx, "moduleDescSuffix", s)
// Some common property checks for properties that will be used later in androidmk.go
checkDistProperties(ctx, "dist", &m.distProperties.Dist)
for i := range m.distProperties.Dists {
checkDistProperties(ctx, fmt.Sprintf("dists[%d]", i), &m.distProperties.Dists[i])
}
if m.Enabled() {
// ensure all direct android.Module deps are enabled
ctx.VisitDirectDepsBlueprint(func(bm blueprint.Module) {
if m, ok := bm.(Module); ok {
ctx.validateAndroidModule(bm, ctx.OtherModuleDependencyTag(m), ctx.baseModuleContext.strictVisitDeps)
}
})
licensesPropertyFlattener(ctx)
if ctx.Failed() {
return
}
m.module.GenerateAndroidBuildActions(ctx)
if ctx.Failed() {
return
}
m.initRcPaths = PathsForModuleSrc(ctx, m.commonProperties.Init_rc)
rcDir := PathForModuleInstall(ctx, "etc", "init")
for _, src := range m.initRcPaths {
ctx.PackageFile(rcDir, filepath.Base(src.String()), src)
}
m.vintfFragmentsPaths = PathsForModuleSrc(ctx, m.commonProperties.Vintf_fragments)
vintfDir := PathForModuleInstall(ctx, "etc", "vintf", "manifest")
for _, src := range m.vintfFragmentsPaths {
ctx.PackageFile(vintfDir, filepath.Base(src.String()), src)
}
// Create the set of tagged dist files after calling GenerateAndroidBuildActions
// as GenerateTaggedDistFiles() calls OutputFiles(tag) and so relies on the
// output paths being set which must be done before or during
// GenerateAndroidBuildActions.
m.distFiles = m.GenerateTaggedDistFiles(ctx)
if ctx.Failed() {
return
}
m.installFiles = append(m.installFiles, ctx.installFiles...)
m.checkbuildFiles = append(m.checkbuildFiles, ctx.checkbuildFiles...)
m.packagingSpecs = append(m.packagingSpecs, ctx.packagingSpecs...)
m.katiInstalls = append(m.katiInstalls, ctx.katiInstalls...)
m.katiSymlinks = append(m.katiSymlinks, ctx.katiSymlinks...)
m.testData = append(m.testData, ctx.testData...)
} else if ctx.Config().AllowMissingDependencies() {
// If the module is not enabled it will not create any build rules, nothing will call
// ctx.GetMissingDependencies(), and blueprint will consider the missing dependencies to be unhandled
// and report them as an error even when AllowMissingDependencies = true. Call
// ctx.GetMissingDependencies() here to tell blueprint not to handle them.
ctx.GetMissingDependencies()
}
if m == ctx.FinalModule().(Module).base() {
m.generateModuleTarget(ctx)
if ctx.Failed() {
return
}
}
m.installFilesDepSet = NewDepSet[InstallPath](TOPOLOGICAL, m.installFiles, dependencyInstallFiles)
m.packagingSpecsDepSet = NewDepSet[PackagingSpec](TOPOLOGICAL, m.packagingSpecs, dependencyPackagingSpecs)
buildLicenseMetadata(ctx, m.licenseMetadataFile)
m.buildParams = ctx.buildParams
m.ruleParams = ctx.ruleParams
m.variables = ctx.variables
}
// Check the supplied dist structure to make sure that it is valid.
//
// property - the base property, e.g. dist or dists[1], which is combined with the
// name of the nested property to produce the full property, e.g. dist.dest or
// dists[1].dir.
func checkDistProperties(ctx *moduleContext, property string, dist *Dist) {
if dist.Dest != nil {
_, err := validateSafePath(*dist.Dest)
if err != nil {
ctx.PropertyErrorf(property+".dest", "%s", err.Error())
}
}
if dist.Dir != nil {
_, err := validateSafePath(*dist.Dir)
if err != nil {
ctx.PropertyErrorf(property+".dir", "%s", err.Error())
}
}
if dist.Suffix != nil {
if strings.Contains(*dist.Suffix, "/") {
ctx.PropertyErrorf(property+".suffix", "Suffix may not contain a '/' character.")
}
}
}
// katiInstall stores a request from Soong to Make to create an install rule.
type katiInstall struct {
from Path
to InstallPath
implicitDeps Paths
orderOnlyDeps Paths
executable bool
extraFiles *extraFilesZip
absFrom string
}
type extraFilesZip struct {
zip Path
dir InstallPath
}
type katiInstalls []katiInstall
// BuiltInstalled returns the katiInstalls in the form used by $(call copy-many-files) in Make, a
// space separated list of from:to tuples.
func (installs katiInstalls) BuiltInstalled() string {
sb := strings.Builder{}
for i, install := range installs {
if i != 0 {
sb.WriteRune(' ')
}
sb.WriteString(install.from.String())
sb.WriteRune(':')
sb.WriteString(install.to.String())
}
return sb.String()
}
// InstallPaths returns the install path of each entry.
func (installs katiInstalls) InstallPaths() InstallPaths {
paths := make(InstallPaths, 0, len(installs))
for _, install := range installs {
paths = append(paths, install.to)
}
return paths
}
// Makes this module a platform module, i.e. not specific to soc, device,
// product, or system_ext.
func (m *ModuleBase) MakeAsPlatform() {
m.commonProperties.Vendor = boolPtr(false)
m.commonProperties.Proprietary = boolPtr(false)
m.commonProperties.Soc_specific = boolPtr(false)
m.commonProperties.Product_specific = boolPtr(false)
m.commonProperties.System_ext_specific = boolPtr(false)
}
func (m *ModuleBase) MakeAsSystemExt() {
m.commonProperties.Vendor = boolPtr(false)
m.commonProperties.Proprietary = boolPtr(false)
m.commonProperties.Soc_specific = boolPtr(false)
m.commonProperties.Product_specific = boolPtr(false)
m.commonProperties.System_ext_specific = boolPtr(true)
}
// IsNativeBridgeSupported returns true if "native_bridge_supported" is explicitly set as "true"
func (m *ModuleBase) IsNativeBridgeSupported() bool {
return proptools.Bool(m.commonProperties.Native_bridge_supported)
}
// ModuleNameWithPossibleOverride returns the name of the OverrideModule that overrides the current
// variant of this OverridableModule, or ctx.ModuleName() if this module is not an OverridableModule
// or if this variant is not overridden.
func ModuleNameWithPossibleOverride(ctx BaseModuleContext) string {
if overridable, ok := ctx.Module().(OverridableModule); ok {
if o := overridable.GetOverriddenBy(); o != "" {
return o
}
}
return ctx.ModuleName()
}
// SrcIsModule decodes module references in the format ":unqualified-name" or "//namespace:name"
// into the module name, or empty string if the input was not a module reference.
func SrcIsModule(s string) (module string) {
if len(s) > 1 {
if s[0] == ':' {
module = s[1:]
if !isUnqualifiedModuleName(module) {
// The module name should be unqualified but is not so do not treat it as a module.
module = ""
}
} else if s[0] == '/' && s[1] == '/' {
module = s
}
}
return module
}
// SrcIsModuleWithTag decodes module references in the format ":unqualified-name{.tag}" or
// "//namespace:name{.tag}" into the module name and tag, ":unqualified-name" or "//namespace:name"
// into the module name and an empty string for the tag, or empty strings if the input was not a
// module reference.
func SrcIsModuleWithTag(s string) (module, tag string) {
if len(s) > 1 {
if s[0] == ':' {
module = s[1:]
} else if s[0] == '/' && s[1] == '/' {
module = s
}
if module != "" {
if tagStart := strings.IndexByte(module, '{'); tagStart > 0 {
if module[len(module)-1] == '}' {
tag = module[tagStart+1 : len(module)-1]
module = module[:tagStart]
}
}
if s[0] == ':' && !isUnqualifiedModuleName(module) {
// The module name should be unqualified but is not so do not treat it as a module.
module = ""
tag = ""
}
}
}
return module, tag
}
// isUnqualifiedModuleName makes sure that the supplied module is an unqualified module name, i.e.
// does not contain any /.
func isUnqualifiedModuleName(module string) bool {
return strings.IndexByte(module, '/') == -1
}
// sourceOrOutputDependencyTag is the dependency tag added automatically by pathDepsMutator for any
// module reference in a property annotated with `android:"path"` or passed to ExtractSourceDeps
// or ExtractSourcesDeps.
//
// If uniquely identifies the dependency that was added as it contains both the module name used to
// add the dependency as well as the tag. That makes it very simple to find the matching dependency
// in GetModuleFromPathDep as all it needs to do is find the dependency whose tag matches the tag
// used to add it. It does not need to check that the module name as returned by one of
// Module.Name(), BaseModuleContext.OtherModuleName() or ModuleBase.BaseModuleName() matches the
// name supplied in the tag. That means it does not need to handle differences in module names
// caused by prebuilt_ prefix, or fully qualified module names.
type sourceOrOutputDependencyTag struct {
blueprint.BaseDependencyTag
// The name of the module.
moduleName string
// The tag that will be passed to the module's OutputFileProducer.OutputFiles(tag) method.
tag string
}
func sourceOrOutputDepTag(moduleName, tag string) blueprint.DependencyTag {
return sourceOrOutputDependencyTag{moduleName: moduleName, tag: tag}
}
// IsSourceDepTagWithOutputTag returns true if the supplied blueprint.DependencyTag is one that was
// used to add dependencies by either ExtractSourceDeps, ExtractSourcesDeps or automatically for
// properties tagged with `android:"path"` AND it was added using a module reference of
// :moduleName{outputTag}.
func IsSourceDepTagWithOutputTag(depTag blueprint.DependencyTag, outputTag string) bool {
t, ok := depTag.(sourceOrOutputDependencyTag)
return ok && t.tag == outputTag
}
// Adds necessary dependencies to satisfy filegroup or generated sources modules listed in srcFiles
// using ":module" syntax, if any.
//
// Deprecated: tag the property with `android:"path"` instead.
func ExtractSourcesDeps(ctx BottomUpMutatorContext, srcFiles []string) {
set := make(map[string]bool)
for _, s := range srcFiles {
if m, t := SrcIsModuleWithTag(s); m != "" {
if _, found := set[s]; found {
ctx.ModuleErrorf("found source dependency duplicate: %q!", s)
} else {
set[s] = true
ctx.AddDependency(ctx.Module(), sourceOrOutputDepTag(m, t), m)
}
}
}
}
// Adds necessary dependencies to satisfy filegroup or generated sources modules specified in s
// using ":module" syntax, if any.
//
// Deprecated: tag the property with `android:"path"` instead.
func ExtractSourceDeps(ctx BottomUpMutatorContext, s *string) {
if s != nil {
if m, t := SrcIsModuleWithTag(*s); m != "" {
ctx.AddDependency(ctx.Module(), sourceOrOutputDepTag(m, t), m)
}
}
}
// A module that implements SourceFileProducer can be referenced from any property that is tagged with `android:"path"`
// using the ":module" syntax and provides a list of paths to be used as if they were listed in the property.
type SourceFileProducer interface {
Srcs() Paths
}
// A module that implements OutputFileProducer can be referenced from any property that is tagged with `android:"path"`
// using the ":module" syntax or ":module{.tag}" syntax and provides a list of output files to be used as if they were
// listed in the property.
type OutputFileProducer interface {
OutputFiles(tag string) (Paths, error)
}
// OutputFilesForModule returns the paths from an OutputFileProducer with the given tag. On error, including if the
// module produced zero paths, it reports errors to the ctx and returns nil.
func OutputFilesForModule(ctx PathContext, module blueprint.Module, tag string) Paths {
paths, err := outputFilesForModule(ctx, module, tag)
if err != nil {
reportPathError(ctx, err)
return nil
}
return paths
}
// OutputFileForModule returns the path from an OutputFileProducer with the given tag. On error, including if the
// module produced zero or multiple paths, it reports errors to the ctx and returns nil.
func OutputFileForModule(ctx PathContext, module blueprint.Module, tag string) Path {
paths, err := outputFilesForModule(ctx, module, tag)
if err != nil {
reportPathError(ctx, err)
return nil
}
if len(paths) == 0 {
type addMissingDependenciesIntf interface {
AddMissingDependencies([]string)
OtherModuleName(blueprint.Module) string
}
if mctx, ok := ctx.(addMissingDependenciesIntf); ok && ctx.Config().AllowMissingDependencies() {
mctx.AddMissingDependencies([]string{mctx.OtherModuleName(module)})
} else {
ReportPathErrorf(ctx, "failed to get output files from module %q", pathContextName(ctx, module))
}
// Return a fake output file to avoid nil dereferences of Path objects later.
// This should never get used for an actual build as the error or missing
// dependency has already been reported.
p, err := pathForSource(ctx, filepath.Join("missing_output_file", pathContextName(ctx, module)))
if err != nil {
reportPathError(ctx, err)
return nil
}
return p
}
if len(paths) > 1 {
ReportPathErrorf(ctx, "got multiple output files from module %q, expected exactly one",
pathContextName(ctx, module))
}
return paths[0]
}
func outputFilesForModule(ctx PathContext, module blueprint.Module, tag string) (Paths, error) {
if outputFileProducer, ok := module.(OutputFileProducer); ok {
paths, err := outputFileProducer.OutputFiles(tag)
if err != nil {
return nil, fmt.Errorf("failed to get output file from module %q: %s",
pathContextName(ctx, module), err.Error())
}
return paths, nil
} else if sourceFileProducer, ok := module.(SourceFileProducer); ok {
if tag != "" {
return nil, fmt.Errorf("module %q is a SourceFileProducer, not an OutputFileProducer, and so does not support tag %q", pathContextName(ctx, module), tag)
}
paths := sourceFileProducer.Srcs()
return paths, nil
} else {
return nil, fmt.Errorf("module %q is not an OutputFileProducer", pathContextName(ctx, module))
}
}
// Modules can implement HostToolProvider and return a valid OptionalPath from HostToolPath() to
// specify that they can be used as a tool by a genrule module.
type HostToolProvider interface {
Module
// HostToolPath returns the path to the host tool for the module if it is one, or an invalid
// OptionalPath.
HostToolPath() OptionalPath
}
func init() {
RegisterParallelSingletonType("buildtarget", BuildTargetSingleton)
RegisterParallelSingletonType("soongconfigtrace", soongConfigTraceSingletonFunc)
FinalDepsMutators(registerSoongConfigTraceMutator)
}
func BuildTargetSingleton() Singleton {
return &buildTargetSingleton{}
}
func parentDir(dir string) string {
dir, _ = filepath.Split(dir)
return filepath.Clean(dir)
}
type buildTargetSingleton struct{}
func AddAncestors(ctx SingletonContext, dirMap map[string]Paths, mmName func(string) string) ([]string, []string) {
// Ensure ancestor directories are in dirMap
// Make directories build their direct subdirectories
// Returns a slice of all directories and a slice of top-level directories.
dirs := SortedKeys(dirMap)
for _, dir := range dirs {
dir := parentDir(dir)
for dir != "." && dir != "/" {
if _, exists := dirMap[dir]; exists {
break
}
dirMap[dir] = nil
dir = parentDir(dir)
}
}
dirs = SortedKeys(dirMap)
var topDirs []string
for _, dir := range dirs {
p := parentDir(dir)
if p != "." && p != "/" {
dirMap[p] = append(dirMap[p], PathForPhony(ctx, mmName(dir)))
} else if dir != "." && dir != "/" && dir != "" {
topDirs = append(topDirs, dir)
}
}
return SortedKeys(dirMap), topDirs
}
func (c *buildTargetSingleton) GenerateBuildActions(ctx SingletonContext) {
var checkbuildDeps Paths
mmTarget := func(dir string) string {
return "MODULES-IN-" + strings.Replace(filepath.Clean(dir), "/", "-", -1)
}
modulesInDir := make(map[string]Paths)
ctx.VisitAllModules(func(module Module) {
blueprintDir := module.base().blueprintDir
installTarget := module.base().installTarget
checkbuildTarget := module.base().checkbuildTarget
if checkbuildTarget != nil {
checkbuildDeps = append(checkbuildDeps, checkbuildTarget)
modulesInDir[blueprintDir] = append(modulesInDir[blueprintDir], checkbuildTarget)
}
if installTarget != nil {
modulesInDir[blueprintDir] = append(modulesInDir[blueprintDir], installTarget)
}
})
suffix := ""
if ctx.Config().KatiEnabled() {
suffix = "-soong"
}
// Create a top-level checkbuild target that depends on all modules
ctx.Phony("checkbuild"+suffix, checkbuildDeps...)
// Make will generate the MODULES-IN-* targets
if ctx.Config().KatiEnabled() {
return
}
dirs, _ := AddAncestors(ctx, modulesInDir, mmTarget)
// Create a MODULES-IN-<directory> target that depends on all modules in a directory, and
// depends on the MODULES-IN-* targets of all of its subdirectories that contain Android.bp
// files.
for _, dir := range dirs {
ctx.Phony(mmTarget(dir), modulesInDir[dir]...)
}
// Create (host|host-cross|target)-<OS> phony rules to build a reduced checkbuild.
type osAndCross struct {
os OsType
hostCross bool
}
osDeps := map[osAndCross]Paths{}
ctx.VisitAllModules(func(module Module) {
if module.Enabled() {
key := osAndCross{os: module.Target().Os, hostCross: module.Target().HostCross}
osDeps[key] = append(osDeps[key], module.base().checkbuildFiles...)
}
})
osClass := make(map[string]Paths)
for key, deps := range osDeps {
var className string
switch key.os.Class {
case Host:
if key.hostCross {
className = "host-cross"
} else {
className = "host"
}
case Device:
className = "target"
default:
continue
}
name := className + "-" + key.os.Name
osClass[className] = append(osClass[className], PathForPhony(ctx, name))
ctx.Phony(name, deps...)
}
// Wrap those into host|host-cross|target phony rules
for _, class := range SortedKeys(osClass) {
ctx.Phony(class, osClass[class]...)
}
}
// Collect information for opening IDE project files in java/jdeps.go.
type IDEInfo interface {
IDEInfo(ideInfo *IdeInfo)
BaseModuleName() string
}
// Extract the base module name from the Import name.
// Often the Import name has a prefix "prebuilt_".
// Remove the prefix explicitly if needed
// until we find a better solution to get the Import name.
type IDECustomizedModuleName interface {
IDECustomizedModuleName() string
}
type IdeInfo struct {
Deps []string `json:"dependencies,omitempty"`
Srcs []string `json:"srcs,omitempty"`
Aidl_include_dirs []string `json:"aidl_include_dirs,omitempty"`
Jarjar_rules []string `json:"jarjar_rules,omitempty"`
Jars []string `json:"jars,omitempty"`
Classes []string `json:"class,omitempty"`
Installed_paths []string `json:"installed,omitempty"`
SrcJars []string `json:"srcjars,omitempty"`
Paths []string `json:"path,omitempty"`
Static_libs []string `json:"static_libs,omitempty"`
Libs []string `json:"libs,omitempty"`
}
func CheckBlueprintSyntax(ctx BaseModuleContext, filename string, contents string) []error {
bpctx := ctx.blueprintBaseModuleContext()
return blueprint.CheckBlueprintSyntax(bpctx.ModuleFactories(), filename, contents)
}
func registerSoongConfigTraceMutator(ctx RegisterMutatorsContext) {
ctx.BottomUp("soongconfigtrace", soongConfigTraceMutator).Parallel()
}
// soongConfigTraceMutator accumulates recorded soong_config trace from children. Also it normalizes
// SoongConfigTrace to make it consistent.
func soongConfigTraceMutator(ctx BottomUpMutatorContext) {
trace := &ctx.Module().base().commonProperties.SoongConfigTrace
ctx.VisitDirectDeps(func(m Module) {
childTrace := &m.base().commonProperties.SoongConfigTrace
trace.Bools = append(trace.Bools, childTrace.Bools...)
trace.Strings = append(trace.Strings, childTrace.Strings...)
trace.IsSets = append(trace.IsSets, childTrace.IsSets...)
})
trace.Bools = SortedUniqueStrings(trace.Bools)
trace.Strings = SortedUniqueStrings(trace.Strings)
trace.IsSets = SortedUniqueStrings(trace.IsSets)
ctx.Module().base().commonProperties.SoongConfigTraceHash = trace.hash()
}
// soongConfigTraceSingleton writes a map from each module's config hash value to trace data.
func soongConfigTraceSingletonFunc() Singleton {
return &soongConfigTraceSingleton{}
}
type soongConfigTraceSingleton struct {
}
func (s *soongConfigTraceSingleton) GenerateBuildActions(ctx SingletonContext) {
outFile := PathForOutput(ctx, "soong_config_trace.json")
traces := make(map[string]*soongConfigTrace)
ctx.VisitAllModules(func(module Module) {
trace := &module.base().commonProperties.SoongConfigTrace
if !trace.isEmpty() {
hash := module.base().commonProperties.SoongConfigTraceHash
traces[hash] = trace
}
})
j, err := json.Marshal(traces)
if err != nil {
ctx.Errorf("json marshal to %q failed: %#v", outFile, err)
return
}
WriteFileRule(ctx, outFile, string(j))
ctx.Phony("soong_config_trace", outFile)
}