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review.shift-gmbh.com / SHIFTPHONES / android_build_soong / dc35e21124b684087aeb66fb74e9ca43f0e7c741 / . / android / module.go
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// 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 (
"fmt"
"path"
"path/filepath"
"strings"
"text/scanner"
"github.com/google/blueprint"
"github.com/google/blueprint/pathtools"
"github.com/google/blueprint/proptools"
)
var (
DeviceSharedLibrary = "shared_library"
DeviceStaticLibrary = "static_library"
DeviceExecutable = "executable"
HostSharedLibrary = "host_shared_library"
HostStaticLibrary = "host_static_library"
HostExecutable = "host_executable"
)
type BuildParams struct {
Rule blueprint.Rule
Deps blueprint.Deps
Depfile WritablePath
Description string
Output WritablePath
Outputs WritablePaths
ImplicitOutput WritablePath
ImplicitOutputs WritablePaths
Input Path
Inputs Paths
Implicit Path
Implicits Paths
OrderOnly Paths
Default bool
Args map[string]string
}
type ModuleBuildParams BuildParams
// BaseModuleContext is the same as blueprint.BaseModuleContext except that Config() returns
// a Config instead of an interface{}, and some methods have been wrapped to use an android.Module
// instead of a blueprint.Module, plus some extra methods that return Android-specific information
// about the current module.
type BaseModuleContext interface {
Module() Module
ModuleName() string
ModuleDir() string
ModuleType() string
Config() Config
OtherModuleName(m blueprint.Module) string
OtherModuleDir(m blueprint.Module) string
OtherModuleErrorf(m blueprint.Module, fmt string, args ...interface{})
OtherModuleDependencyTag(m blueprint.Module) blueprint.DependencyTag
OtherModuleExists(name string) bool
GetDirectDepsWithTag(tag blueprint.DependencyTag) []Module
GetDirectDepWithTag(name string, tag blueprint.DependencyTag) blueprint.Module
GetDirectDep(name string) (blueprint.Module, blueprint.DependencyTag)
VisitDirectDepsBlueprint(visit func(blueprint.Module))
VisitDirectDeps(visit func(Module))
VisitDirectDepsWithTag(tag blueprint.DependencyTag, visit func(Module))
VisitDirectDepsIf(pred func(Module) bool, visit func(Module))
// Deprecated: use WalkDeps instead to support multiple dependency tags on the same module
VisitDepsDepthFirst(visit func(Module))
// Deprecated: use WalkDeps instead to support multiple dependency tags on the same module
VisitDepsDepthFirstIf(pred func(Module) bool, visit func(Module))
WalkDeps(visit func(Module, Module) bool)
WalkDepsBlueprint(visit func(blueprint.Module, blueprint.Module) bool)
// GetWalkPath is supposed to be called in visit function passed in WalkDeps()
// and returns a top-down dependency path from a start module to current child module.
GetWalkPath() []Module
ContainsProperty(name string) bool
Errorf(pos scanner.Position, fmt string, args ...interface{})
ModuleErrorf(fmt string, args ...interface{})
PropertyErrorf(property, fmt string, args ...interface{})
Failed() bool
// GlobWithDeps returns a list of files that match the specified pattern but do not match any
// of the patterns in excludes. It also adds efficient dependencies to rerun the primary
// builder whenever a file matching the pattern as added or removed, without rerunning if a
// file that does not match the pattern is added to a searched directory.
GlobWithDeps(pattern string, excludes []string) ([]string, error)
Glob(globPattern string, excludes []string) Paths
GlobFiles(globPattern string, excludes []string) Paths
Fs() pathtools.FileSystem
AddNinjaFileDeps(deps ...string)
AddMissingDependencies(missingDeps []string)
Target() Target
TargetPrimary() bool
MultiTargets() []Target
Arch() Arch
Os() OsType
Host() bool
Device() bool
Darwin() bool
Fuchsia() bool
Windows() bool
Debug() bool
PrimaryArch() bool
Platform() bool
DeviceSpecific() bool
SocSpecific() bool
ProductSpecific() bool
ProductServicesSpecific() bool
AConfig() Config
DeviceConfig() DeviceConfig
}
// Deprecated: use BaseModuleContext instead
type BaseContext interface {
BaseModuleContext
}
type ModuleContext interface {
BaseModuleContext
// Deprecated: use ModuleContext.Build instead.
ModuleBuild(pctx PackageContext, params ModuleBuildParams)
ExpandSources(srcFiles, excludes []string) Paths
ExpandSource(srcFile, prop string) Path
ExpandOptionalSource(srcFile *string, prop string) OptionalPath
InstallExecutable(installPath OutputPath, name string, srcPath Path, deps ...Path) OutputPath
InstallFile(installPath OutputPath, name string, srcPath Path, deps ...Path) OutputPath
InstallSymlink(installPath OutputPath, name string, srcPath OutputPath) OutputPath
InstallAbsoluteSymlink(installPath OutputPath, name string, absPath string) OutputPath
CheckbuildFile(srcPath Path)
InstallInData() bool
InstallInSanitizerDir() bool
InstallInRecovery() bool
RequiredModuleNames() []string
HostRequiredModuleNames() []string
TargetRequiredModuleNames() []string
ModuleSubDir() string
Variable(pctx PackageContext, name, value string)
Rule(pctx PackageContext, name string, params blueprint.RuleParams, argNames ...string) blueprint.Rule
// Similar to blueprint.ModuleContext.Build, but takes Paths instead of []string,
// and performs more verification.
Build(pctx PackageContext, params BuildParams)
PrimaryModule() Module
FinalModule() Module
VisitAllModuleVariants(visit func(Module))
GetMissingDependencies() []string
Namespace() blueprint.Namespace
}
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)
DepsMutator(BottomUpMutatorContext)
base() *ModuleBase
Enabled() bool
Target() Target
InstallInData() bool
InstallInSanitizerDir() bool
InstallInRecovery() bool
SkipInstall()
ExportedToMake() bool
NoticeFile() OptionalPath
AddProperties(props ...interface{})
GetProperties() []interface{}
BuildParamsForTests() []BuildParams
RuleParamsForTests() map[blueprint.Rule]blueprint.RuleParams
VariablesForTests() map[string]string
}
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
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.
// ["//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.
// See https://android.googlesource.com/platform/build/soong/+/master/README.md#visibility for
// more details.
Visibility []string
// 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
}
}
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 provides services owned by the OS provider to the core platform. When set
// to true, it is installed into /product_services (or /system/product_services if
// product_services partition does not exist).
Product_services_specific *bool
// Whether this module is installed to recovery partition
Recovery *bool
// Whether this module is built for non-native architecures (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:"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"`
// relative path to a file to include in the list of notices for the device
Notice *string `android:"path"`
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"`
} `android:"arch_variant"`
// Set by TargetMutator
CompileTarget Target `blueprint:"mutated"`
CompileMultiTargets []Target `blueprint:"mutated"`
CompilePrimary bool `blueprint:"mutated"`
// Set by InitAndroidModule
HostOrDeviceSupported HostOrDeviceSupported `blueprint:"mutated"`
ArchSpecific bool `blueprint:"mutated"`
SkipInstall bool `blueprint:"mutated"`
NamespaceExportedToMake bool `blueprint:"mutated"`
MissingDeps []string `blueprint:"mutated"`
}
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"
MultilibDefault Multilib = ""
)
type HostOrDeviceSupported int
const (
_ HostOrDeviceSupported = iota
// Host and HostCross are built by default. Device is not supported.
HostSupported
// Host is built by default. HostCross and Device are not supported.
HostSupportedNoCross
// Device is built by default. Host and HostCross are not supported.
DeviceSupported
// Device is built by default. Host and HostCross are supported.
HostAndDeviceSupported
// Host, HostCross, and Device are built by default.
HostAndDeviceDefault
// 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
)
type moduleKind int
const (
platformModule moduleKind = iota
deviceSpecificModule
socSpecificModule
productSpecificModule
productServicesSpecificModule
)
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 productServicesSpecificModule:
return "productservices-specific"
default:
panic(fmt.Errorf("unknown module kind %d", k))
}
}
func InitAndroidModule(m Module) {
base := m.base()
base.module = m
m.AddProperties(
&base.nameProperties,
&base.commonProperties,
&base.variableProperties)
base.generalProperties = m.GetProperties()
base.customizableProperties = m.GetProperties()
}
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
switch hod {
case HostAndDeviceSupported, HostAndDeviceDefault:
m.AddProperties(&base.hostAndDeviceProperties)
}
InitArchModule(m)
}
func InitAndroidMultiTargetsArchModule(m Module, hod HostOrDeviceSupported, defaultMultilib Multilib) {
InitAndroidArchModule(m, hod, defaultMultilib)
m.base().commonProperties.UseTargetVariants = false
}
// 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
variableProperties variableProperties
hostAndDeviceProperties hostAndDeviceProperties
generalProperties []interface{}
archProperties [][]interface{}
customizableProperties []interface{}
noAddressSanitizer bool
installFiles Paths
checkbuildFiles Paths
noticeFile OptionalPath
// 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
prefer32 func(ctx BaseModuleContext, base *ModuleBase, class OsClass) bool
}
func (m *ModuleBase) DepsMutator(BottomUpMutatorContext) {}
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 {
return m.buildParams
}
func (m *ModuleBase) RuleParamsForTests() map[blueprint.Rule]blueprint.RuleParams {
return m.ruleParams
}
func (m *ModuleBase) VariablesForTests() map[string]string {
return m.variables
}
func (m *ModuleBase) Prefer32(prefer32 func(ctx BaseModuleContext, base *ModuleBase, class OsClass) bool) {
m.prefer32 = prefer32
}
// 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)
}
// 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) SetTarget(target Target, multiTargets []Target, primary bool) {
m.commonProperties.CompileTarget = target
m.commonProperties.CompileMultiTargets = multiTargets
m.commonProperties.CompilePrimary = primary
}
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 || m.Os().Class == HostCross
}
func (m *ModuleBase) Arch() Arch {
return m.Target().Arch
}
func (m *ModuleBase) ArchSpecific() bool {
return m.commonProperties.ArchSpecific
}
func (m *ModuleBase) OsClassSupported() []OsClass {
switch m.commonProperties.HostOrDeviceSupported {
case HostSupported:
return []OsClass{Host, HostCross}
case HostSupportedNoCross:
return []OsClass{Host}
case DeviceSupported:
return []OsClass{Device}
case HostAndDeviceSupported, HostAndDeviceDefault:
var supported []OsClass
if Bool(m.hostAndDeviceProperties.Host_supported) ||
(m.commonProperties.HostOrDeviceSupported == HostAndDeviceDefault &&
m.hostAndDeviceProperties.Host_supported == nil) {
supported = append(supported, Host, HostCross)
}
if m.hostAndDeviceProperties.Device_supported == nil ||
*m.hostAndDeviceProperties.Device_supported {
supported = append(supported, Device)
}
return supported
default:
return nil
}
}
func (m *ModuleBase) DeviceSupported() bool {
return m.commonProperties.HostOrDeviceSupported == DeviceSupported ||
m.commonProperties.HostOrDeviceSupported == HostAndDeviceSupported &&
(m.hostAndDeviceProperties.Device_supported == nil ||
*m.hostAndDeviceProperties.Device_supported)
}
func (m *ModuleBase) Platform() bool {
return !m.DeviceSpecific() && !m.SocSpecific() && !m.ProductSpecific() && !m.ProductServicesSpecific()
}
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) ProductServicesSpecific() bool {
return Bool(m.commonProperties.Product_services_specific)
}
func (m *ModuleBase) Enabled() bool {
if m.commonProperties.Enabled == nil {
return !m.Os().DefaultDisabled
}
return *m.commonProperties.Enabled
}
func (m *ModuleBase) SkipInstall() {
m.commonProperties.SkipInstall = true
}
func (m *ModuleBase) ExportedToMake() bool {
return m.commonProperties.NamespaceExportedToMake
}
func (m *ModuleBase) computeInstallDeps(
ctx blueprint.ModuleContext) Paths {
result := Paths{}
// TODO(ccross): we need to use WalkDeps and have some way to know which dependencies require installation
ctx.VisitDepsDepthFirstIf(isFileInstaller,
func(m blueprint.Module) {
fileInstaller := m.(fileInstaller)
files := fileInstaller.filesToInstall()
result = append(result, files...)
})
return result
}
func (m *ModuleBase) filesToInstall() Paths {
return m.installFiles
}
func (m *ModuleBase) NoAddressSanitizer() bool {
return m.noAddressSanitizer
}
func (m *ModuleBase) InstallInData() bool {
return false
}
func (m *ModuleBase) InstallInSanitizerDir() bool {
return false
}
func (m *ModuleBase) InstallInRecovery() bool {
return Bool(m.commonProperties.Recovery)
}
func (m *ModuleBase) Owner() string {
return String(m.commonProperties.Owner)
}
func (m *ModuleBase) NoticeFile() OptionalPath {
return m.noticeFile
}
func (m *ModuleBase) generateModuleTarget(ctx ModuleContext) {
allInstalledFiles := Paths{}
allCheckbuildFiles := Paths{}
ctx.VisitAllModuleVariants(func(module Module) {
a := module.base()
allInstalledFiles = append(allInstalledFiles, a.installFiles...)
allCheckbuildFiles = append(allCheckbuildFiles, a.checkbuildFiles...)
})
var deps Paths
namespacePrefix := ctx.Namespace().(*Namespace).id
if namespacePrefix != "" {
namespacePrefix = namespacePrefix + "-"
}
if len(allInstalledFiles) > 0 {
name := PathForPhony(ctx, namespacePrefix+ctx.ModuleName()+"-install")
ctx.Build(pctx, BuildParams{
Rule: blueprint.Phony,
Output: name,
Implicits: allInstalledFiles,
Default: !ctx.Config().EmbeddedInMake(),
})
deps = append(deps, name)
m.installTarget = name
}
if len(allCheckbuildFiles) > 0 {
name := PathForPhony(ctx, namespacePrefix+ctx.ModuleName()+"-checkbuild")
ctx.Build(pctx, BuildParams{
Rule: blueprint.Phony,
Output: name,
Implicits: allCheckbuildFiles,
})
deps = append(deps, name)
m.checkbuildTarget = name
}
if len(deps) > 0 {
suffix := ""
if ctx.Config().EmbeddedInMake() {
suffix = "-soong"
}
name := PathForPhony(ctx, namespacePrefix+ctx.ModuleName()+suffix)
ctx.Build(pctx, BuildParams{
Rule: blueprint.Phony,
Outputs: []WritablePath{name},
Implicits: deps,
})
m.blueprintDir = ctx.ModuleDir()
}
}
func determineModuleKind(m *ModuleBase, ctx blueprint.BaseModuleContext) 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 productServicesSpecific = Bool(m.commonProperties.Product_services_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 && productServicesSpecific {
ctx.PropertyErrorf("product_specific", "a module cannot be specific to product and product_services at the same time.")
ctx.PropertyErrorf("product_services_specific", msg)
}
if (socSpecific || deviceSpecific) && (productSpecific || productServicesSpecific) {
if productSpecific {
ctx.PropertyErrorf("product_specific", "a module cannot be specific to SoC or device and product at the same time.")
} else {
ctx.PropertyErrorf("product_services_specific", "a module cannot be specific to SoC or device and product_services 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 productServicesSpecific {
return productServicesSpecificModule
} else if deviceSpecific {
return deviceSpecificModule
} else if socSpecific {
return socSpecificModule
} else {
return platformModule
}
}
func (m *ModuleBase) baseModuleContextFactory(ctx blueprint.BaseModuleContext) baseModuleContext {
return baseModuleContext{
BaseModuleContext: ctx,
target: m.commonProperties.CompileTarget,
targetPrimary: m.commonProperties.CompilePrimary,
multiTargets: m.commonProperties.CompileMultiTargets,
kind: determineModuleKind(m, ctx),
config: ctx.Config().(Config),
}
}
func (m *ModuleBase) GenerateBuildActions(blueprintCtx blueprint.ModuleContext) {
ctx := &moduleContext{
module: m.module,
bp: blueprintCtx,
baseModuleContext: m.baseModuleContextFactory(blueprintCtx),
installDeps: m.computeInstallDeps(blueprintCtx),
installFiles: m.installFiles,
variables: make(map[string]string),
}
// 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.
ctx.baseModuleContext.strictVisitDeps = true
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())
}
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
if m.commonProperties.Dist.Dest != nil {
_, err := validateSafePath(*m.commonProperties.Dist.Dest)
if err != nil {
ctx.PropertyErrorf("dist.dest", "%s", err.Error())
}
}
if m.commonProperties.Dist.Dir != nil {
_, err := validateSafePath(*m.commonProperties.Dist.Dir)
if err != nil {
ctx.PropertyErrorf("dist.dir", "%s", err.Error())
}
}
if m.commonProperties.Dist.Suffix != nil {
if strings.Contains(*m.commonProperties.Dist.Suffix, "/") {
ctx.PropertyErrorf("dist.suffix", "Suffix may not contain a '/' character.")
}
}
if m.Enabled() {
m.module.GenerateAndroidBuildActions(ctx)
if ctx.Failed() {
return
}
m.installFiles = append(m.installFiles, ctx.installFiles...)
m.checkbuildFiles = append(m.checkbuildFiles, ctx.checkbuildFiles...)
notice := proptools.StringDefault(m.commonProperties.Notice, "NOTICE")
if module := SrcIsModule(notice); module != "" {
m.noticeFile = ctx.ExpandOptionalSource(&notice, "notice")
} else {
noticePath := filepath.Join(ctx.ModuleDir(), notice)
m.noticeFile = ExistentPathForSource(ctx, noticePath)
}
} 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.buildParams = ctx.buildParams
m.ruleParams = ctx.ruleParams
m.variables = ctx.variables
}
type baseModuleContext struct {
blueprint.BaseModuleContext
target Target
multiTargets []Target
targetPrimary bool
debug bool
kind moduleKind
config Config
walkPath []Module
strictVisitDeps bool // If true, enforce that all dependencies are enabled
}
type moduleContext struct {
bp blueprint.ModuleContext
baseModuleContext
installDeps Paths
installFiles Paths
checkbuildFiles Paths
module Module
// For tests
buildParams []BuildParams
ruleParams map[blueprint.Rule]blueprint.RuleParams
variables map[string]string
}
func (m *moduleContext) ninjaError(params BuildParams, err error) (PackageContext, BuildParams) {
return pctx, BuildParams{
Rule: ErrorRule,
Description: params.Description,
Output: params.Output,
Outputs: params.Outputs,
Args: map[string]string{
"error": err.Error(),
},
}
}
func (m *moduleContext) ModuleBuild(pctx PackageContext, params ModuleBuildParams) {
m.Build(pctx, BuildParams(params))
}
func convertBuildParams(params BuildParams) blueprint.BuildParams {
bparams := blueprint.BuildParams{
Rule: params.Rule,
Description: params.Description,
Deps: params.Deps,
Outputs: params.Outputs.Strings(),
ImplicitOutputs: params.ImplicitOutputs.Strings(),
Inputs: params.Inputs.Strings(),
Implicits: params.Implicits.Strings(),
OrderOnly: params.OrderOnly.Strings(),
Args: params.Args,
Optional: !params.Default,
}
if params.Depfile != nil {
bparams.Depfile = params.Depfile.String()
}
if params.Output != nil {
bparams.Outputs = append(bparams.Outputs, params.Output.String())
}
if params.ImplicitOutput != nil {
bparams.ImplicitOutputs = append(bparams.ImplicitOutputs, params.ImplicitOutput.String())
}
if params.Input != nil {
bparams.Inputs = append(bparams.Inputs, params.Input.String())
}
if params.Implicit != nil {
bparams.Implicits = append(bparams.Implicits, params.Implicit.String())
}
bparams.Outputs = proptools.NinjaEscapeList(bparams.Outputs)
bparams.ImplicitOutputs = proptools.NinjaEscapeList(bparams.ImplicitOutputs)
bparams.Inputs = proptools.NinjaEscapeList(bparams.Inputs)
bparams.Implicits = proptools.NinjaEscapeList(bparams.Implicits)
bparams.OrderOnly = proptools.NinjaEscapeList(bparams.OrderOnly)
bparams.Depfile = proptools.NinjaEscapeList([]string{bparams.Depfile})[0]
return bparams
}
func (m *moduleContext) Variable(pctx PackageContext, name, value string) {
if m.config.captureBuild {
m.variables[name] = value
}
m.bp.Variable(pctx.PackageContext, name, value)
}
func (m *moduleContext) Rule(pctx PackageContext, name string, params blueprint.RuleParams,
argNames ...string) blueprint.Rule {
rule := m.bp.Rule(pctx.PackageContext, name, params, argNames...)
if m.config.captureBuild {
m.ruleParams[rule] = params
}
return rule
}
func (m *moduleContext) Build(pctx PackageContext, params BuildParams) {
if params.Description != "" {
params.Description = "${moduleDesc}" + params.Description + "${moduleDescSuffix}"
}
if missingDeps := m.GetMissingDependencies(); len(missingDeps) > 0 {
pctx, params = m.ninjaError(params, fmt.Errorf("module %s missing dependencies: %s\n",
m.ModuleName(), strings.Join(missingDeps, ", ")))
}
if m.config.captureBuild {
m.buildParams = append(m.buildParams, params)
}
m.bp.Build(pctx.PackageContext, convertBuildParams(params))
}
func (b *baseModuleContext) Module() Module {
module, _ := b.BaseModuleContext.Module().(Module)
return module
}
func (b *baseModuleContext) Config() Config {
return b.BaseModuleContext.Config().(Config)
}
func (m *moduleContext) GetMissingDependencies() []string {
var missingDeps []string
missingDeps = append(missingDeps, m.Module().base().commonProperties.MissingDeps...)
missingDeps = append(missingDeps, m.bp.GetMissingDependencies()...)
missingDeps = FirstUniqueStrings(missingDeps)
return missingDeps
}
func (b *baseModuleContext) AddMissingDependencies(deps []string) {
if deps != nil {
missingDeps := &b.Module().base().commonProperties.MissingDeps
*missingDeps = append(*missingDeps, deps...)
*missingDeps = FirstUniqueStrings(*missingDeps)
}
}
func (b *baseModuleContext) validateAndroidModule(module blueprint.Module, strict bool) Module {
aModule, _ := module.(Module)
if !strict {
return aModule
}
if aModule == nil {
b.ModuleErrorf("module %q not an android module", b.OtherModuleName(module))
return nil
}
if !aModule.Enabled() {
if b.Config().AllowMissingDependencies() {
b.AddMissingDependencies([]string{b.OtherModuleName(aModule)})
} else {
b.ModuleErrorf("depends on disabled module %q", b.OtherModuleName(aModule))
}
return nil
}
return aModule
}
func (b *baseModuleContext) getDirectDepInternal(name string, tag blueprint.DependencyTag) (blueprint.Module, blueprint.DependencyTag) {
type dep struct {
mod blueprint.Module
tag blueprint.DependencyTag
}
var deps []dep
b.VisitDirectDepsBlueprint(func(module blueprint.Module) {
if aModule, _ := module.(Module); aModule != nil && aModule.base().BaseModuleName() == name {
returnedTag := b.BaseModuleContext.OtherModuleDependencyTag(aModule)
if tag == nil || returnedTag == tag {
deps = append(deps, dep{aModule, returnedTag})
}
}
})
if len(deps) == 1 {
return deps[0].mod, deps[0].tag
} else if len(deps) >= 2 {
panic(fmt.Errorf("Multiple dependencies having same BaseModuleName() %q found from %q",
name, b.ModuleName()))
} else {
return nil, nil
}
}
func (b *baseModuleContext) GetDirectDepsWithTag(tag blueprint.DependencyTag) []Module {
var deps []Module
b.VisitDirectDepsBlueprint(func(module blueprint.Module) {
if aModule, _ := module.(Module); aModule != nil {
if b.BaseModuleContext.OtherModuleDependencyTag(aModule) == tag {
deps = append(deps, aModule)
}
}
})
return deps
}
func (m *moduleContext) GetDirectDepWithTag(name string, tag blueprint.DependencyTag) blueprint.Module {
module, _ := m.getDirectDepInternal(name, tag)
return module
}
func (b *baseModuleContext) GetDirectDep(name string) (blueprint.Module, blueprint.DependencyTag) {
return b.getDirectDepInternal(name, nil)
}
func (b *baseModuleContext) VisitDirectDepsBlueprint(visit func(blueprint.Module)) {
b.BaseModuleContext.VisitDirectDeps(visit)
}
func (b *baseModuleContext) VisitDirectDeps(visit func(Module)) {
b.BaseModuleContext.VisitDirectDeps(func(module blueprint.Module) {
if aModule := b.validateAndroidModule(module, b.strictVisitDeps); aModule != nil {
visit(aModule)
}
})
}
func (b *baseModuleContext) VisitDirectDepsWithTag(tag blueprint.DependencyTag, visit func(Module)) {
b.BaseModuleContext.VisitDirectDeps(func(module blueprint.Module) {
if aModule := b.validateAndroidModule(module, b.strictVisitDeps); aModule != nil {
if b.BaseModuleContext.OtherModuleDependencyTag(aModule) == tag {
visit(aModule)
}
}
})
}
func (b *baseModuleContext) VisitDirectDepsIf(pred func(Module) bool, visit func(Module)) {
b.BaseModuleContext.VisitDirectDepsIf(
// pred
func(module blueprint.Module) bool {
if aModule := b.validateAndroidModule(module, b.strictVisitDeps); aModule != nil {
return pred(aModule)
} else {
return false
}
},
// visit
func(module blueprint.Module) {
visit(module.(Module))
})
}
func (b *baseModuleContext) VisitDepsDepthFirst(visit func(Module)) {
b.BaseModuleContext.VisitDepsDepthFirst(func(module blueprint.Module) {
if aModule := b.validateAndroidModule(module, b.strictVisitDeps); aModule != nil {
visit(aModule)
}
})
}
func (b *baseModuleContext) VisitDepsDepthFirstIf(pred func(Module) bool, visit func(Module)) {
b.BaseModuleContext.VisitDepsDepthFirstIf(
// pred
func(module blueprint.Module) bool {
if aModule := b.validateAndroidModule(module, b.strictVisitDeps); aModule != nil {
return pred(aModule)
} else {
return false
}
},
// visit
func(module blueprint.Module) {
visit(module.(Module))
})
}
func (b *baseModuleContext) WalkDepsBlueprint(visit func(blueprint.Module, blueprint.Module) bool) {
b.BaseModuleContext.WalkDeps(visit)
}
func (b *baseModuleContext) WalkDeps(visit func(Module, Module) bool) {
b.walkPath = []Module{b.Module()}
b.BaseModuleContext.WalkDeps(func(child, parent blueprint.Module) bool {
childAndroidModule, _ := child.(Module)
parentAndroidModule, _ := parent.(Module)
if childAndroidModule != nil && parentAndroidModule != nil {
// record walkPath before visit
for b.walkPath[len(b.walkPath)-1] != parentAndroidModule {
b.walkPath = b.walkPath[0 : len(b.walkPath)-1]
}
b.walkPath = append(b.walkPath, childAndroidModule)
return visit(childAndroidModule, parentAndroidModule)
} else {
return false
}
})
}
func (b *baseModuleContext) GetWalkPath() []Module {
return b.walkPath
}
func (m *moduleContext) VisitAllModuleVariants(visit func(Module)) {
m.bp.VisitAllModuleVariants(func(module blueprint.Module) {
visit(module.(Module))
})
}
func (m *moduleContext) PrimaryModule() Module {
return m.bp.PrimaryModule().(Module)
}
func (m *moduleContext) FinalModule() Module {
return m.bp.FinalModule().(Module)
}
func (m *moduleContext) ModuleSubDir() string {
return m.bp.ModuleSubDir()
}
func (b *baseModuleContext) Target() Target {
return b.target
}
func (b *baseModuleContext) TargetPrimary() bool {
return b.targetPrimary
}
func (b *baseModuleContext) MultiTargets() []Target {
return b.multiTargets
}
func (b *baseModuleContext) Arch() Arch {
return b.target.Arch
}
func (b *baseModuleContext) Os() OsType {
return b.target.Os
}
func (b *baseModuleContext) Host() bool {
return b.target.Os.Class == Host || b.target.Os.Class == HostCross
}
func (b *baseModuleContext) Device() bool {
return b.target.Os.Class == Device
}
func (b *baseModuleContext) Darwin() bool {
return b.target.Os == Darwin
}
func (b *baseModuleContext) Fuchsia() bool {
return b.target.Os == Fuchsia
}
func (b *baseModuleContext) Windows() bool {
return b.target.Os == Windows
}
func (b *baseModuleContext) Debug() bool {
return b.debug
}
func (b *baseModuleContext) PrimaryArch() bool {
if len(b.config.Targets[b.target.Os]) <= 1 {
return true
}
return b.target.Arch.ArchType == b.config.Targets[b.target.Os][0].Arch.ArchType
}
func (b *baseModuleContext) AConfig() Config {
return b.config
}
func (b *baseModuleContext) DeviceConfig() DeviceConfig {
return DeviceConfig{b.config.deviceConfig}
}
func (b *baseModuleContext) Platform() bool {
return b.kind == platformModule
}
func (b *baseModuleContext) DeviceSpecific() bool {
return b.kind == deviceSpecificModule
}
func (b *baseModuleContext) SocSpecific() bool {
return b.kind == socSpecificModule
}
func (b *baseModuleContext) ProductSpecific() bool {
return b.kind == productSpecificModule
}
func (b *baseModuleContext) ProductServicesSpecific() bool {
return b.kind == productServicesSpecificModule
}
// Makes this module a platform module, i.e. not specific to soc, device,
// product, or product_services.
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.Product_services_specific = boolPtr(false)
}
func (m *ModuleBase) EnableNativeBridgeSupportByDefault() {
m.commonProperties.Native_bridge_supported = boolPtr(true)
}
func (m *moduleContext) InstallInData() bool {
return m.module.InstallInData()
}
func (m *moduleContext) InstallInSanitizerDir() bool {
return m.module.InstallInSanitizerDir()
}
func (m *moduleContext) InstallInRecovery() bool {
return m.module.InstallInRecovery()
}
func (m *moduleContext) skipInstall(fullInstallPath OutputPath) bool {
if m.module.base().commonProperties.SkipInstall {
return true
}
// We'll need a solution for choosing which of modules with the same name in different
// namespaces to install. For now, reuse the list of namespaces exported to Make as the
// list of namespaces to install in a Soong-only build.
if !m.module.base().commonProperties.NamespaceExportedToMake {
return true
}
if m.Device() {
if m.Config().SkipDeviceInstall() {
return true
}
if m.Config().SkipMegaDeviceInstall(fullInstallPath.String()) {
return true
}
}
return false
}
func (m *moduleContext) InstallFile(installPath OutputPath, name string, srcPath Path,
deps ...Path) OutputPath {
return m.installFile(installPath, name, srcPath, Cp, deps)
}
func (m *moduleContext) InstallExecutable(installPath OutputPath, name string, srcPath Path,
deps ...Path) OutputPath {
return m.installFile(installPath, name, srcPath, CpExecutable, deps)
}
func (m *moduleContext) installFile(installPath OutputPath, name string, srcPath Path,
rule blueprint.Rule, deps []Path) OutputPath {
fullInstallPath := installPath.Join(m, name)
m.module.base().hooks.runInstallHooks(m, fullInstallPath, false)
if !m.skipInstall(fullInstallPath) {
deps = append(deps, m.installDeps...)
var implicitDeps, orderOnlyDeps Paths
if m.Host() {
// Installed host modules might be used during the build, depend directly on their
// dependencies so their timestamp is updated whenever their dependency is updated
implicitDeps = deps
} else {
orderOnlyDeps = deps
}
m.Build(pctx, BuildParams{
Rule: rule,
Description: "install " + fullInstallPath.Base(),
Output: fullInstallPath,
Input: srcPath,
Implicits: implicitDeps,
OrderOnly: orderOnlyDeps,
Default: !m.Config().EmbeddedInMake(),
})
m.installFiles = append(m.installFiles, fullInstallPath)
}
m.checkbuildFiles = append(m.checkbuildFiles, srcPath)
return fullInstallPath
}
func (m *moduleContext) InstallSymlink(installPath OutputPath, name string, srcPath OutputPath) OutputPath {
fullInstallPath := installPath.Join(m, name)
m.module.base().hooks.runInstallHooks(m, fullInstallPath, true)
if !m.skipInstall(fullInstallPath) {
relPath, err := filepath.Rel(path.Dir(fullInstallPath.String()), srcPath.String())
if err != nil {
panic(fmt.Sprintf("Unable to generate symlink between %q and %q: %s", fullInstallPath.Base(), srcPath.Base(), err))
}
m.Build(pctx, BuildParams{
Rule: Symlink,
Description: "install symlink " + fullInstallPath.Base(),
Output: fullInstallPath,
OrderOnly: Paths{srcPath},
Default: !m.Config().EmbeddedInMake(),
Args: map[string]string{
"fromPath": relPath,
},
})
m.installFiles = append(m.installFiles, fullInstallPath)
m.checkbuildFiles = append(m.checkbuildFiles, srcPath)
}
return fullInstallPath
}
// installPath/name -> absPath where absPath might be a path that is available only at runtime
// (e.g. /apex/...)
func (m *moduleContext) InstallAbsoluteSymlink(installPath OutputPath, name string, absPath string) OutputPath {
fullInstallPath := installPath.Join(m, name)
m.module.base().hooks.runInstallHooks(m, fullInstallPath, true)
if !m.skipInstall(fullInstallPath) {
m.Build(pctx, BuildParams{
Rule: Symlink,
Description: "install symlink " + fullInstallPath.Base() + " -> " + absPath,
Output: fullInstallPath,
Default: !m.Config().EmbeddedInMake(),
Args: map[string]string{
"fromPath": absPath,
},
})
m.installFiles = append(m.installFiles, fullInstallPath)
}
return fullInstallPath
}
func (m *moduleContext) CheckbuildFile(srcPath Path) {
m.checkbuildFiles = append(m.checkbuildFiles, srcPath)
}
type fileInstaller interface {
filesToInstall() Paths
}
func isFileInstaller(m blueprint.Module) bool {
_, ok := m.(fileInstaller)
return ok
}
func isAndroidModule(m blueprint.Module) bool {
_, ok := m.(Module)
return ok
}
func findStringInSlice(str string, slice []string) int {
for i, s := range slice {
if s == str {
return i
}
}
return -1
}
// SrcIsModule decodes module references in the format ":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 && s[0] == ':' {
return s[1:]
}
return ""
}
// SrcIsModule decodes module references in the format ":name{.tag}" into the module name and tag, ":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 && s[0] == ':' {
module = s[1:]
if tagStart := strings.IndexByte(module, '{'); tagStart > 0 {
if module[len(module)-1] == '}' {
tag = module[tagStart+1 : len(module)-1]
module = module[:tagStart]
return module, tag
}
}
return module, ""
}
return "", ""
}
type sourceOrOutputDependencyTag struct {
blueprint.BaseDependencyTag
tag string
}
func sourceOrOutputDepTag(tag string) blueprint.DependencyTag {
return sourceOrOutputDependencyTag{tag: tag}
}
var SourceDepTag = sourceOrOutputDepTag("")
// 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(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(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 otuput files to be used as if they were
// listed in the property.
type OutputFileProducer interface {
OutputFiles(tag string) (Paths, error)
}
type HostToolProvider interface {
HostToolPath() OptionalPath
}
// Returns a list of paths expanded from globs and modules referenced using ":module" syntax. The property must
// be tagged with `android:"path" to support automatic source module dependency resolution.
//
// Deprecated: use PathsForModuleSrc or PathsForModuleSrcExcludes instead.
func (m *moduleContext) ExpandSources(srcFiles, excludes []string) Paths {
return PathsForModuleSrcExcludes(m, srcFiles, excludes)
}
// Returns a single path expanded from globs and modules referenced using ":module" syntax. The property must
// be tagged with `android:"path" to support automatic source module dependency resolution.
//
// Deprecated: use PathForModuleSrc instead.
func (m *moduleContext) ExpandSource(srcFile, prop string) Path {
return PathForModuleSrc(m, srcFile)
}
// Returns an optional single path expanded from globs and modules referenced using ":module" syntax if
// the srcFile is non-nil. The property must be tagged with `android:"path" to support automatic source module
// dependency resolution.
func (m *moduleContext) ExpandOptionalSource(srcFile *string, prop string) OptionalPath {
if srcFile != nil {
return OptionalPathForPath(PathForModuleSrc(m, *srcFile))
}
return OptionalPath{}
}
func (m *moduleContext) RequiredModuleNames() []string {
return m.module.base().commonProperties.Required
}
func (m *moduleContext) HostRequiredModuleNames() []string {
return m.module.base().commonProperties.Host_required
}
func (m *moduleContext) TargetRequiredModuleNames() []string {
return m.module.base().commonProperties.Target_required
}
func (b *baseModuleContext) Glob(globPattern string, excludes []string) Paths {
ret, err := b.GlobWithDeps(globPattern, excludes)
if err != nil {
b.ModuleErrorf("glob: %s", err.Error())
}
return pathsForModuleSrcFromFullPath(b, ret, true)
}
func (b *baseModuleContext) GlobFiles(globPattern string, excludes []string) Paths {
ret, err := b.GlobWithDeps(globPattern, excludes)
if err != nil {
b.ModuleErrorf("glob: %s", err.Error())
}
return pathsForModuleSrcFromFullPath(b, ret, false)
}
func init() {
RegisterSingletonType("buildtarget", BuildTargetSingleton)
}
func BuildTargetSingleton() Singleton {
return &buildTargetSingleton{}
}
func parentDir(dir string) string {
dir, _ = filepath.Split(dir)
return filepath.Clean(dir)
}
type buildTargetSingleton struct{}
func (c *buildTargetSingleton) GenerateBuildActions(ctx SingletonContext) {
var checkbuildDeps Paths
mmTarget := func(dir string) WritablePath {
return PathForPhony(ctx,
"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().EmbeddedInMake() {
suffix = "-soong"
}
// Create a top-level checkbuild target that depends on all modules
ctx.Build(pctx, BuildParams{
Rule: blueprint.Phony,
Output: PathForPhony(ctx, "checkbuild"+suffix),
Implicits: checkbuildDeps,
})
// Make will generate the MODULES-IN-* targets
if ctx.Config().EmbeddedInMake() {
return
}
// Ensure ancestor directories are in modulesInDir
dirs := SortedStringKeys(modulesInDir)
for _, dir := range dirs {
dir := parentDir(dir)
for dir != "." && dir != "/" {
if _, exists := modulesInDir[dir]; exists {
break
}
modulesInDir[dir] = nil
dir = parentDir(dir)
}
}
// Make directories build their direct subdirectories
for _, dir := range dirs {
p := parentDir(dir)
if p != "." && p != "/" {
modulesInDir[p] = append(modulesInDir[p], mmTarget(dir))
}
}
// 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.Build(pctx, BuildParams{
Rule: blueprint.Phony,
Output: mmTarget(dir),
Implicits: modulesInDir[dir],
// HACK: checkbuild should be an optional build, but force it
// enabled for now in standalone builds
Default: !ctx.Config().EmbeddedInMake(),
})
}
// Create (host|host-cross|target)-<OS> phony rules to build a reduced checkbuild.
osDeps := map[OsType]Paths{}
ctx.VisitAllModules(func(module Module) {
if module.Enabled() {
os := module.Target().Os
osDeps[os] = append(osDeps[os], module.base().checkbuildFiles...)
}
})
osClass := make(map[string]Paths)
for os, deps := range osDeps {
var className string
switch os.Class {
case Host:
className = "host"
case HostCross:
className = "host-cross"
case Device:
className = "target"
default:
continue
}
name := PathForPhony(ctx, className+"-"+os.Name)
osClass[className] = append(osClass[className], name)
ctx.Build(pctx, BuildParams{
Rule: blueprint.Phony,
Output: name,
Implicits: deps,
})
}
// Wrap those into host|host-cross|target phony rules
for _, class := range SortedStringKeys(osClass) {
ctx.Build(pctx, BuildParams{
Rule: blueprint.Phony,
Output: PathForPhony(ctx, class),
Implicits: 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"`
}