platform_build_soong/cmd/extract_apks/main.go

570 lines
16 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.
// Copies all the entries (APKs/APEXes) matching the target configuration from the given
// APK set into a zip file. Run it without arguments to see usage details.
package main
import (
"flag"
"fmt"
"io"
"log"
"math"
"os"
"regexp"
"sort"
"strings"
"github.com/golang/protobuf/proto"
"android/soong/cmd/extract_apks/bundle_proto"
"android/soong/third_party/zip"
)
type TargetConfig struct {
sdkVersion int32
screenDpi map[android_bundle_proto.ScreenDensity_DensityAlias]bool
// Map holding <ABI alias>:<its sequence number in the flag> info.
abis map[android_bundle_proto.Abi_AbiAlias]int
allowPrereleased bool
stem string
}
// An APK set is a zip archive. An entry 'toc.pb' describes its contents.
// It is a protobuf message BuildApkResult.
type Toc *android_bundle_proto.BuildApksResult
type ApkSet struct {
path string
reader *zip.ReadCloser
entries map[string]*zip.File
}
func newApkSet(path string) (*ApkSet, error) {
apkSet := &ApkSet{path: path, entries: make(map[string]*zip.File)}
var err error
if apkSet.reader, err = zip.OpenReader(apkSet.path); err != nil {
return nil, err
}
for _, f := range apkSet.reader.File {
apkSet.entries[f.Name] = f
}
return apkSet, nil
}
func (apkSet *ApkSet) getToc() (Toc, error) {
var err error
tocFile, ok := apkSet.entries["toc.pb"]
if !ok {
return nil, fmt.Errorf("%s: APK set should have toc.pb entry", apkSet.path)
}
rc, err := tocFile.Open()
if err != nil {
return nil, err
}
bytes := make([]byte, tocFile.FileHeader.UncompressedSize64)
if _, err := rc.Read(bytes); err != io.EOF {
return nil, err
}
rc.Close()
buildApksResult := new(android_bundle_proto.BuildApksResult)
if err = proto.Unmarshal(bytes, buildApksResult); err != nil {
return nil, err
}
return buildApksResult, nil
}
func (apkSet *ApkSet) close() {
apkSet.reader.Close()
}
// Matchers for selection criteria
type abiTargetingMatcher struct {
*android_bundle_proto.AbiTargeting
}
func (m abiTargetingMatcher) matches(config TargetConfig) bool {
if m.AbiTargeting == nil {
return true
}
if _, ok := config.abis[android_bundle_proto.Abi_UNSPECIFIED_CPU_ARCHITECTURE]; ok {
return true
}
// Find the one that appears first in the abis flags.
abiIdx := math.MaxInt32
for _, v := range m.GetValue() {
if i, ok := config.abis[v.Alias]; ok {
if i < abiIdx {
abiIdx = i
}
}
}
if abiIdx == math.MaxInt32 {
return false
}
// See if any alternatives appear before the above one.
for _, a := range m.GetAlternatives() {
if i, ok := config.abis[a.Alias]; ok {
if i < abiIdx {
// There is a better alternative. Skip this one.
return false
}
}
}
return true
}
type apkDescriptionMatcher struct {
*android_bundle_proto.ApkDescription
}
func (m apkDescriptionMatcher) matches(config TargetConfig) bool {
return m.ApkDescription == nil || (apkTargetingMatcher{m.Targeting}).matches(config)
}
type apkTargetingMatcher struct {
*android_bundle_proto.ApkTargeting
}
func (m apkTargetingMatcher) matches(config TargetConfig) bool {
return m.ApkTargeting == nil ||
(abiTargetingMatcher{m.AbiTargeting}.matches(config) &&
languageTargetingMatcher{m.LanguageTargeting}.matches(config) &&
screenDensityTargetingMatcher{m.ScreenDensityTargeting}.matches(config) &&
sdkVersionTargetingMatcher{m.SdkVersionTargeting}.matches(config) &&
multiAbiTargetingMatcher{m.MultiAbiTargeting}.matches(config))
}
type languageTargetingMatcher struct {
*android_bundle_proto.LanguageTargeting
}
func (m languageTargetingMatcher) matches(_ TargetConfig) bool {
if m.LanguageTargeting == nil {
return true
}
log.Fatal("language based entry selection is not implemented")
return false
}
type moduleMetadataMatcher struct {
*android_bundle_proto.ModuleMetadata
}
func (m moduleMetadataMatcher) matches(config TargetConfig) bool {
return m.ModuleMetadata == nil ||
(m.GetDeliveryType() == android_bundle_proto.DeliveryType_INSTALL_TIME &&
moduleTargetingMatcher{m.Targeting}.matches(config) &&
!m.IsInstant)
}
type moduleTargetingMatcher struct {
*android_bundle_proto.ModuleTargeting
}
func (m moduleTargetingMatcher) matches(config TargetConfig) bool {
return m.ModuleTargeting == nil ||
(sdkVersionTargetingMatcher{m.SdkVersionTargeting}.matches(config) &&
userCountriesTargetingMatcher{m.UserCountriesTargeting}.matches(config))
}
// A higher number means a higher priority.
// This order must be kept identical to bundletool's.
var multiAbiPriorities = map[android_bundle_proto.Abi_AbiAlias]int{
android_bundle_proto.Abi_ARMEABI: 1,
android_bundle_proto.Abi_ARMEABI_V7A: 2,
android_bundle_proto.Abi_ARM64_V8A: 3,
android_bundle_proto.Abi_X86: 4,
android_bundle_proto.Abi_X86_64: 5,
android_bundle_proto.Abi_MIPS: 6,
android_bundle_proto.Abi_MIPS64: 7,
}
type multiAbiTargetingMatcher struct {
*android_bundle_proto.MultiAbiTargeting
}
func (t multiAbiTargetingMatcher) matches(config TargetConfig) bool {
if t.MultiAbiTargeting == nil {
return true
}
if _, ok := config.abis[android_bundle_proto.Abi_UNSPECIFIED_CPU_ARCHITECTURE]; ok {
return true
}
// Find the one with the highest priority.
highestPriority := 0
for _, v := range t.GetValue() {
for _, a := range v.GetAbi() {
if _, ok := config.abis[a.Alias]; ok {
if highestPriority < multiAbiPriorities[a.Alias] {
highestPriority = multiAbiPriorities[a.Alias]
}
}
}
}
if highestPriority == 0 {
return false
}
// See if there are any matching alternatives with a higher priority.
for _, v := range t.GetAlternatives() {
for _, a := range v.GetAbi() {
if _, ok := config.abis[a.Alias]; ok {
if highestPriority < multiAbiPriorities[a.Alias] {
// There's a better one. Skip this one.
return false
}
}
}
}
return true
}
type screenDensityTargetingMatcher struct {
*android_bundle_proto.ScreenDensityTargeting
}
func (m screenDensityTargetingMatcher) matches(config TargetConfig) bool {
if m.ScreenDensityTargeting == nil {
return true
}
if _, ok := config.screenDpi[android_bundle_proto.ScreenDensity_DENSITY_UNSPECIFIED]; ok {
return true
}
for _, v := range m.GetValue() {
switch x := v.GetDensityOneof().(type) {
case *android_bundle_proto.ScreenDensity_DensityAlias_:
if _, ok := config.screenDpi[x.DensityAlias]; ok {
return true
}
default:
log.Fatal("For screen density, only DPI name based entry selection (e.g. HDPI, XHDPI) is implemented")
}
}
return false
}
type sdkVersionTargetingMatcher struct {
*android_bundle_proto.SdkVersionTargeting
}
func (m sdkVersionTargetingMatcher) matches(config TargetConfig) bool {
const preReleaseVersion = 10000
if m.SdkVersionTargeting == nil {
return true
}
if len(m.Value) > 1 {
log.Fatal(fmt.Sprintf("sdk_version_targeting should not have multiple values:%#v", m.Value))
}
// Inspect only sdkVersionTargeting.Value.
// Even though one of the SdkVersionTargeting.Alternatives values may be
// better matching, we will select all of them
return m.Value[0].Min == nil ||
m.Value[0].Min.Value <= config.sdkVersion ||
(config.allowPrereleased && m.Value[0].Min.Value == preReleaseVersion)
}
type textureCompressionFormatTargetingMatcher struct {
*android_bundle_proto.TextureCompressionFormatTargeting
}
func (m textureCompressionFormatTargetingMatcher) matches(_ TargetConfig) bool {
if m.TextureCompressionFormatTargeting == nil {
return true
}
log.Fatal("texture based entry selection is not implemented")
return false
}
type userCountriesTargetingMatcher struct {
*android_bundle_proto.UserCountriesTargeting
}
func (m userCountriesTargetingMatcher) matches(_ TargetConfig) bool {
if m.UserCountriesTargeting == nil {
return true
}
log.Fatal("country based entry selection is not implemented")
return false
}
type variantTargetingMatcher struct {
*android_bundle_proto.VariantTargeting
}
func (m variantTargetingMatcher) matches(config TargetConfig) bool {
if m.VariantTargeting == nil {
return true
}
return sdkVersionTargetingMatcher{m.SdkVersionTargeting}.matches(config) &&
abiTargetingMatcher{m.AbiTargeting}.matches(config) &&
multiAbiTargetingMatcher{m.MultiAbiTargeting}.matches(config) &&
screenDensityTargetingMatcher{m.ScreenDensityTargeting}.matches(config) &&
textureCompressionFormatTargetingMatcher{m.TextureCompressionFormatTargeting}.matches(config)
}
type SelectionResult struct {
moduleName string
entries []string
}
// Return all entries matching target configuration
func selectApks(toc Toc, targetConfig TargetConfig) SelectionResult {
var result SelectionResult
for _, variant := range (*toc).GetVariant() {
if !(variantTargetingMatcher{variant.GetTargeting()}.matches(targetConfig)) {
continue
}
for _, as := range variant.GetApkSet() {
if !(moduleMetadataMatcher{as.ModuleMetadata}.matches(targetConfig)) {
continue
}
for _, apkdesc := range as.GetApkDescription() {
if (apkDescriptionMatcher{apkdesc}).matches(targetConfig) {
result.entries = append(result.entries, apkdesc.GetPath())
// TODO(asmundak): As it turns out, moduleName which we get from
// the ModuleMetadata matches the module names of the generated
// entry paths just by coincidence, only for the split APKs. We
// need to discuss this with bundletool folks.
result.moduleName = as.GetModuleMetadata().GetName()
}
}
// we allow only a single module, so bail out here if we found one
if result.moduleName != "" {
return result
}
}
}
return result
}
type Zip2ZipWriter interface {
CopyFrom(file *zip.File, name string) error
}
// Writes out selected entries, renaming them as needed
func (apkSet *ApkSet) writeApks(selected SelectionResult, config TargetConfig,
writer Zip2ZipWriter, partition string) ([]string, error) {
// Renaming rules:
// splits/MODULE-master.apk to STEM.apk
// else
// splits/MODULE-*.apk to STEM>-$1.apk
// TODO(asmundak):
// add more rules, for .apex files
renameRules := []struct {
rex *regexp.Regexp
repl string
}{
{
regexp.MustCompile(`^.*/` + selected.moduleName + `-master\.apk$`),
config.stem + `.apk`,
},
{
regexp.MustCompile(`^.*/` + selected.moduleName + `(-.*\.apk)$`),
config.stem + `$1`,
},
{
regexp.MustCompile(`^universal\.apk$`),
config.stem + ".apk",
},
}
renamer := func(path string) (string, bool) {
for _, rr := range renameRules {
if rr.rex.MatchString(path) {
return rr.rex.ReplaceAllString(path, rr.repl), true
}
}
return "", false
}
entryOrigin := make(map[string]string) // output entry to input entry
var apkcerts []string
for _, apk := range selected.entries {
apkFile, ok := apkSet.entries[apk]
if !ok {
return nil, fmt.Errorf("TOC refers to an entry %s which does not exist", apk)
}
inName := apkFile.Name
outName, ok := renamer(inName)
if !ok {
log.Fatalf("selected an entry with unexpected name %s", inName)
}
if origin, ok := entryOrigin[inName]; ok {
log.Fatalf("selected entries %s and %s will have the same output name %s",
origin, inName, outName)
}
entryOrigin[outName] = inName
if err := writer.CopyFrom(apkFile, outName); err != nil {
return nil, err
}
if partition != "" {
apkcerts = append(apkcerts, fmt.Sprintf(
`name="%s" certificate="PRESIGNED" private_key="" partition="%s"`, outName, partition))
}
}
sort.Strings(apkcerts)
return apkcerts, nil
}
func (apkSet *ApkSet) extractAndCopySingle(selected SelectionResult, outFile *os.File) error {
if len(selected.entries) != 1 {
return fmt.Errorf("Too many matching entries for extract-single:\n%v", selected.entries)
}
apk, ok := apkSet.entries[selected.entries[0]]
if !ok {
return fmt.Errorf("Couldn't find apk path %s", selected.entries[0])
}
inputReader, _ := apk.Open()
_, err := io.Copy(outFile, inputReader)
return err
}
// Arguments parsing
var (
outputFile = flag.String("o", "", "output file containing extracted entries")
targetConfig = TargetConfig{
screenDpi: map[android_bundle_proto.ScreenDensity_DensityAlias]bool{},
abis: map[android_bundle_proto.Abi_AbiAlias]int{},
}
extractSingle = flag.Bool("extract-single", false,
"extract a single target and output it uncompressed. only available for standalone apks and apexes.")
apkcertsOutput = flag.String("apkcerts", "",
"optional apkcerts.txt output file containing signing info of all outputted apks")
partition = flag.String("partition", "", "partition string. required when -apkcerts is used.")
)
// Parse abi values
type abiFlagValue struct {
targetConfig *TargetConfig
}
func (a abiFlagValue) String() string {
return "all"
}
func (a abiFlagValue) Set(abiList string) error {
for i, abi := range strings.Split(abiList, ",") {
v, ok := android_bundle_proto.Abi_AbiAlias_value[abi]
if !ok {
return fmt.Errorf("bad ABI value: %q", abi)
}
targetConfig.abis[android_bundle_proto.Abi_AbiAlias(v)] = i
}
return nil
}
// Parse screen density values
type screenDensityFlagValue struct {
targetConfig *TargetConfig
}
func (s screenDensityFlagValue) String() string {
return "none"
}
func (s screenDensityFlagValue) Set(densityList string) error {
if densityList == "none" {
return nil
}
if densityList == "all" {
targetConfig.screenDpi[android_bundle_proto.ScreenDensity_DENSITY_UNSPECIFIED] = true
return nil
}
for _, density := range strings.Split(densityList, ",") {
v, found := android_bundle_proto.ScreenDensity_DensityAlias_value[density]
if !found {
return fmt.Errorf("bad screen density value: %q", density)
}
targetConfig.screenDpi[android_bundle_proto.ScreenDensity_DensityAlias(v)] = true
}
return nil
}
func processArgs() {
flag.Usage = func() {
fmt.Fprintln(os.Stderr, `usage: extract_apks -o <output-file> -sdk-version value -abis value `+
`-screen-densities value {-stem value | -extract-single} [-allow-prereleased] `+
`[-apkcerts <apkcerts output file> -partition <partition>] <APK set>`)
flag.PrintDefaults()
os.Exit(2)
}
version := flag.Uint("sdk-version", 0, "SDK version")
flag.Var(abiFlagValue{&targetConfig}, "abis",
"comma-separated ABIs list of ARMEABI ARMEABI_V7A ARM64_V8A X86 X86_64 MIPS MIPS64")
flag.Var(screenDensityFlagValue{&targetConfig}, "screen-densities",
"'all' or comma-separated list of screen density names (NODPI LDPI MDPI TVDPI HDPI XHDPI XXHDPI XXXHDPI)")
flag.BoolVar(&targetConfig.allowPrereleased, "allow-prereleased", false,
"allow prereleased")
flag.StringVar(&targetConfig.stem, "stem", "", "output entries base name in the output zip file")
flag.Parse()
if (*outputFile == "") || len(flag.Args()) != 1 || *version == 0 ||
(targetConfig.stem == "" && !*extractSingle) || (*apkcertsOutput != "" && *partition == "") {
flag.Usage()
}
targetConfig.sdkVersion = int32(*version)
}
func main() {
processArgs()
var toc Toc
apkSet, err := newApkSet(flag.Arg(0))
if err == nil {
defer apkSet.close()
toc, err = apkSet.getToc()
}
if err != nil {
log.Fatal(err)
}
sel := selectApks(toc, targetConfig)
if len(sel.entries) == 0 {
log.Fatalf("there are no entries for the target configuration: %#v", targetConfig)
}
outFile, err := os.Create(*outputFile)
if err != nil {
log.Fatal(err)
}
defer outFile.Close()
if *extractSingle {
err = apkSet.extractAndCopySingle(sel, outFile)
} else {
writer := zip.NewWriter(outFile)
defer func() {
if err := writer.Close(); err != nil {
log.Fatal(err)
}
}()
apkcerts, err := apkSet.writeApks(sel, targetConfig, writer, *partition)
if err == nil && *apkcertsOutput != "" {
apkcertsFile, err := os.Create(*apkcertsOutput)
if err != nil {
log.Fatal(err)
}
defer apkcertsFile.Close()
for _, a := range apkcerts {
_, err = apkcertsFile.WriteString(a + "\n")
if err != nil {
log.Fatal(err)
}
}
}
}
if err != nil {
log.Fatal(err)
}
}