platform_build_soong/android/packaging.go
Jiyong Park e604378aed Add multilib.prefer32.deps to packaging base
The property is used to prefer the 32-bit variant of a dep over the
64-bit variant. If 64-bit variant is the only available one, it is
depended on.

This will be used to include 32-bit preferred modules like drmserver and
mediaserver in filesystem modules.

Bug: N/A
Test: go test ./... under soong/android

Change-Id: Ic7185eb2044c9987f8d1e9b6cf7f0dbd235cf04c
2024-05-20 16:47:44 +09:00

432 lines
14 KiB
Go

// Copyright 2020 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/filepath"
"strings"
"github.com/google/blueprint"
"github.com/google/blueprint/proptools"
)
// PackagingSpec abstracts a request to place a built artifact at a certain path in a package. A
// package can be the traditional <partition>.img, but isn't limited to those. Other examples could
// be a new filesystem image that is a subset of system.img (e.g. for an Android-like mini OS
// running on a VM), or a zip archive for some of the host tools.
type PackagingSpec struct {
// Path relative to the root of the package
relPathInPackage string
// The path to the built artifact
srcPath Path
// If this is not empty, then relPathInPackage should be a symlink to this target. (Then
// srcPath is of course ignored.)
symlinkTarget string
// Whether relPathInPackage should be marked as executable or not
executable bool
effectiveLicenseFiles *Paths
partition string
// Whether this packaging spec represents an installation of the srcPath (i.e. this struct
// is created via InstallFile or InstallSymlink) or a simple packaging (i.e. created via
// PackageFile).
skipInstall bool
// Paths of aconfig files for the built artifact
aconfigPaths *Paths
// ArchType of the module which produced this packaging spec
archType ArchType
}
func (p *PackagingSpec) Equals(other *PackagingSpec) bool {
if other == nil {
return false
}
if p.relPathInPackage != other.relPathInPackage {
return false
}
if p.srcPath != other.srcPath || p.symlinkTarget != other.symlinkTarget {
return false
}
if p.executable != other.executable {
return false
}
if p.partition != other.partition {
return false
}
return true
}
// Get file name of installed package
func (p *PackagingSpec) FileName() string {
if p.relPathInPackage != "" {
return filepath.Base(p.relPathInPackage)
}
return ""
}
// Path relative to the root of the package
func (p *PackagingSpec) RelPathInPackage() string {
return p.relPathInPackage
}
func (p *PackagingSpec) SetRelPathInPackage(relPathInPackage string) {
p.relPathInPackage = relPathInPackage
}
func (p *PackagingSpec) EffectiveLicenseFiles() Paths {
if p.effectiveLicenseFiles == nil {
return Paths{}
}
return *p.effectiveLicenseFiles
}
func (p *PackagingSpec) Partition() string {
return p.partition
}
func (p *PackagingSpec) SkipInstall() bool {
return p.skipInstall
}
// Paths of aconfig files for the built artifact
func (p *PackagingSpec) GetAconfigPaths() Paths {
return *p.aconfigPaths
}
type PackageModule interface {
Module
packagingBase() *PackagingBase
// AddDeps adds dependencies to the `deps` modules. This should be called in DepsMutator.
// When adding the dependencies, depTag is used as the tag. If `deps` modules are meant to
// be copied to a zip in CopyDepsToZip, `depTag` should implement PackagingItem marker interface.
AddDeps(ctx BottomUpMutatorContext, depTag blueprint.DependencyTag)
// GatherPackagingSpecs gathers PackagingSpecs of transitive dependencies.
GatherPackagingSpecs(ctx ModuleContext) map[string]PackagingSpec
GatherPackagingSpecsWithFilter(ctx ModuleContext, filter func(PackagingSpec) bool) map[string]PackagingSpec
// CopyDepsToZip zips the built artifacts of the dependencies into the given zip file and
// returns zip entries in it. This is expected to be called in GenerateAndroidBuildActions,
// followed by a build rule that unzips it and creates the final output (img, zip, tar.gz,
// etc.) from the extracted files
CopyDepsToZip(ctx ModuleContext, specs map[string]PackagingSpec, zipOut WritablePath) []string
}
// PackagingBase provides basic functionality for packaging dependencies. A module is expected to
// include this struct and call InitPackageModule.
type PackagingBase struct {
properties PackagingProperties
// Allows this module to skip missing dependencies. In most cases, this is not required, but
// for rare cases like when there's a dependency to a module which exists in certain repo
// checkouts, this is needed.
IgnoreMissingDependencies bool
// If this is set to true by a module type inheriting PackagingBase, the deps property
// collects the first target only even with compile_multilib: true.
DepsCollectFirstTargetOnly bool
}
type depsProperty struct {
// Modules to include in this package
Deps proptools.Configurable[[]string] `android:"arch_variant"`
}
type packagingMultilibProperties struct {
First depsProperty `android:"arch_variant"`
Common depsProperty `android:"arch_variant"`
Lib32 depsProperty `android:"arch_variant"`
Lib64 depsProperty `android:"arch_variant"`
Both depsProperty `android:"arch_variant"`
Prefer32 depsProperty `android:"arch_variant"`
}
type packagingArchProperties struct {
Arm64 depsProperty
Arm depsProperty
X86_64 depsProperty
X86 depsProperty
}
type PackagingProperties struct {
Deps proptools.Configurable[[]string] `android:"arch_variant"`
Multilib packagingMultilibProperties `android:"arch_variant"`
Arch packagingArchProperties
}
func InitPackageModule(p PackageModule) {
base := p.packagingBase()
p.AddProperties(&base.properties)
}
func (p *PackagingBase) packagingBase() *PackagingBase {
return p
}
// From deps and multilib.*.deps, select the dependencies that are for the given arch deps is for
// the current archicture when this module is not configured for multi target. When configured for
// multi target, deps is selected for each of the targets and is NOT selected for the current
// architecture which would be Common.
func (p *PackagingBase) getDepsForArch(ctx BaseModuleContext, arch ArchType) []string {
get := func(prop proptools.Configurable[[]string]) []string {
return prop.GetOrDefault(ctx, nil)
}
var ret []string
if arch == ctx.Target().Arch.ArchType && len(ctx.MultiTargets()) == 0 {
ret = append(ret, get(p.properties.Deps)...)
} else if arch.Multilib == "lib32" {
ret = append(ret, get(p.properties.Multilib.Lib32.Deps)...)
// multilib.prefer32.deps are added for lib32 only when they support 32-bit arch
for _, dep := range get(p.properties.Multilib.Prefer32.Deps) {
if checkIfOtherModuleSupportsLib32(ctx, dep) {
ret = append(ret, dep)
}
}
} else if arch.Multilib == "lib64" {
ret = append(ret, get(p.properties.Multilib.Lib64.Deps)...)
// multilib.prefer32.deps are added for lib64 only when they don't support 32-bit arch
for _, dep := range get(p.properties.Multilib.Prefer32.Deps) {
if !checkIfOtherModuleSupportsLib32(ctx, dep) {
ret = append(ret, dep)
}
}
} else if arch == Common {
ret = append(ret, get(p.properties.Multilib.Common.Deps)...)
}
if p.DepsCollectFirstTargetOnly {
if len(get(p.properties.Multilib.First.Deps)) > 0 {
ctx.PropertyErrorf("multilib.first.deps", "not supported. use \"deps\" instead")
}
for i, t := range ctx.MultiTargets() {
if t.Arch.ArchType == arch {
ret = append(ret, get(p.properties.Multilib.Both.Deps)...)
if i == 0 {
ret = append(ret, get(p.properties.Deps)...)
}
}
}
} else {
if len(get(p.properties.Multilib.Both.Deps)) > 0 {
ctx.PropertyErrorf("multilib.both.deps", "not supported. use \"deps\" instead")
}
for i, t := range ctx.MultiTargets() {
if t.Arch.ArchType == arch {
ret = append(ret, get(p.properties.Deps)...)
if i == 0 {
ret = append(ret, get(p.properties.Multilib.First.Deps)...)
}
}
}
}
if ctx.Arch().ArchType == Common {
switch arch {
case Arm64:
ret = append(ret, get(p.properties.Arch.Arm64.Deps)...)
case Arm:
ret = append(ret, get(p.properties.Arch.Arm.Deps)...)
case X86_64:
ret = append(ret, get(p.properties.Arch.X86_64.Deps)...)
case X86:
ret = append(ret, get(p.properties.Arch.X86.Deps)...)
}
}
return FirstUniqueStrings(ret)
}
func getSupportedTargets(ctx BaseModuleContext) []Target {
var ret []Target
// The current and the common OS targets are always supported
ret = append(ret, ctx.Target())
if ctx.Arch().ArchType != Common {
ret = append(ret, Target{Os: ctx.Os(), Arch: Arch{ArchType: Common}})
}
// If this module is configured for multi targets, those should be supported as well
ret = append(ret, ctx.MultiTargets()...)
return ret
}
// getLib32Target returns the 32-bit target from the list of targets this module supports. If this
// module doesn't support 32-bit target, nil is returned.
func getLib32Target(ctx BaseModuleContext) *Target {
for _, t := range getSupportedTargets(ctx) {
if t.Arch.ArchType.Multilib == "lib32" {
return &t
}
}
return nil
}
// checkIfOtherModuleSUpportsLib32 returns true if 32-bit variant of dep exists.
func checkIfOtherModuleSupportsLib32(ctx BaseModuleContext, dep string) bool {
t := getLib32Target(ctx)
if t == nil {
// This packaging module doesn't support 32bit. No point of checking if dep supports 32-bit
// or not.
return false
}
return ctx.OtherModuleFarDependencyVariantExists(t.Variations(), dep)
}
// PackagingItem is a marker interface for dependency tags.
// Direct dependencies with a tag implementing PackagingItem are packaged in CopyDepsToZip().
type PackagingItem interface {
// IsPackagingItem returns true if the dep is to be packaged
IsPackagingItem() bool
}
// DepTag provides default implementation of PackagingItem interface.
// PackagingBase-derived modules can define their own dependency tag by embedding this, which
// can be passed to AddDeps() or AddDependencies().
type PackagingItemAlwaysDepTag struct {
}
// IsPackagingItem returns true if the dep is to be packaged
func (PackagingItemAlwaysDepTag) IsPackagingItem() bool {
return true
}
// See PackageModule.AddDeps
func (p *PackagingBase) AddDeps(ctx BottomUpMutatorContext, depTag blueprint.DependencyTag) {
for _, t := range getSupportedTargets(ctx) {
for _, dep := range p.getDepsForArch(ctx, t.Arch.ArchType) {
if p.IgnoreMissingDependencies && !ctx.OtherModuleExists(dep) {
continue
}
ctx.AddFarVariationDependencies(t.Variations(), depTag, dep)
}
}
}
func (p *PackagingBase) GatherPackagingSpecsWithFilter(ctx ModuleContext, filter func(PackagingSpec) bool) map[string]PackagingSpec {
m := make(map[string]PackagingSpec)
var arches []ArchType
for _, target := range getSupportedTargets(ctx) {
arches = append(arches, target.Arch.ArchType)
}
// filter out packaging specs for unsupported architecture
filterArch := func(ps PackagingSpec) bool {
for _, arch := range arches {
if arch == ps.archType {
return true
}
}
return false
}
ctx.VisitDirectDeps(func(child Module) {
if pi, ok := ctx.OtherModuleDependencyTag(child).(PackagingItem); !ok || !pi.IsPackagingItem() {
return
}
for _, ps := range child.TransitivePackagingSpecs() {
if !filterArch(ps) {
continue
}
if filter != nil {
if !filter(ps) {
continue
}
}
dstPath := ps.relPathInPackage
if existingPs, ok := m[dstPath]; ok {
if !existingPs.Equals(&ps) {
ctx.ModuleErrorf("packaging conflict at %v:\n%v\n%v", dstPath, existingPs, ps)
}
continue
}
m[dstPath] = ps
}
})
return m
}
// See PackageModule.GatherPackagingSpecs
func (p *PackagingBase) GatherPackagingSpecs(ctx ModuleContext) map[string]PackagingSpec {
return p.GatherPackagingSpecsWithFilter(ctx, nil)
}
// CopySpecsToDir is a helper that will add commands to the rule builder to copy the PackagingSpec
// entries into the specified directory.
func (p *PackagingBase) CopySpecsToDir(ctx ModuleContext, builder *RuleBuilder, specs map[string]PackagingSpec, dir WritablePath) (entries []string) {
if len(specs) == 0 {
return entries
}
seenDir := make(map[string]bool)
preparerPath := PathForModuleOut(ctx, "preparer.sh")
cmd := builder.Command().Tool(preparerPath)
var sb strings.Builder
sb.WriteString("set -e\n")
for _, k := range SortedKeys(specs) {
ps := specs[k]
destPath := filepath.Join(dir.String(), ps.relPathInPackage)
destDir := filepath.Dir(destPath)
entries = append(entries, ps.relPathInPackage)
if _, ok := seenDir[destDir]; !ok {
seenDir[destDir] = true
sb.WriteString(fmt.Sprintf("mkdir -p %s\n", destDir))
}
if ps.symlinkTarget == "" {
cmd.Implicit(ps.srcPath)
sb.WriteString(fmt.Sprintf("cp %s %s\n", ps.srcPath, destPath))
} else {
sb.WriteString(fmt.Sprintf("ln -sf %s %s\n", ps.symlinkTarget, destPath))
}
if ps.executable {
sb.WriteString(fmt.Sprintf("chmod a+x %s\n", destPath))
}
}
WriteExecutableFileRuleVerbatim(ctx, preparerPath, sb.String())
return entries
}
// See PackageModule.CopyDepsToZip
func (p *PackagingBase) CopyDepsToZip(ctx ModuleContext, specs map[string]PackagingSpec, zipOut WritablePath) (entries []string) {
builder := NewRuleBuilder(pctx, ctx)
dir := PathForModuleOut(ctx, ".zip")
builder.Command().Text("rm").Flag("-rf").Text(dir.String())
builder.Command().Text("mkdir").Flag("-p").Text(dir.String())
entries = p.CopySpecsToDir(ctx, builder, specs, dir)
builder.Command().
BuiltTool("soong_zip").
FlagWithOutput("-o ", zipOut).
FlagWithArg("-C ", dir.String()).
Flag("-L 0"). // no compression because this will be unzipped soon
FlagWithArg("-D ", dir.String())
builder.Command().Text("rm").Flag("-rf").Text(dir.String())
builder.Build("zip_deps", fmt.Sprintf("Zipping deps for %s", ctx.ModuleName()))
return entries
}