7d292228c1
How it works: 1. build/make/core/Makefile generates a txt file with the kernel version, which is taken from an explicit BOARD_KERNEL_VERSION value, or extracted from the kernel image on the source tree, or extracted from the kernel image extracted from the prebuilt boot.img. The file is saved at $ANDROID_PRODUCT_OUT/obj/PACKAGING/check_vintf_all_intermediates/kernel_version.txt. 2. If PRODUCT_ENABLE_UFFD_GC is "default", meaning the GC type needs to be determined by the kernel version, build/make/core/Makefile copies kernel_version.txt to out/soong/dexpreopt/kernel_version_for_uffd_gc.txt. 3. build/soong/dexpreopt/config.go writes the the UFFD GC flag to out/soong/dexpreopt/uffd_gc_flag.txt. The flag is determined by an explicit PRODUCT_ENABLE_UFFD_GC value or by contruct_uffd_gc_flag.py, which reads kernel_version_for_uffd_gc.txt and determines the flag accordingly. 4. dex2oat takes the UFFD GC flag from uffd_gc_flag.txt. 5. post_process_props.py mangles ro.dalvik.vm.enable_uffd_gc based on the same logic. Bug: 321751629 Bug: 319554951 Bug: 318763448 Bug: 319648491 Test: m --no-skip-soong-tests nothing Test: atest uffd_gc_utils_test Test: Build with `OVERRIDE_ENABLE_UFFD_GC=default m` for device with no UFFD support - 1. Check the existence of `-Xgc:CMC` in out/soong/dexpreopt_arm64/dex_bootjars/android/system/framework/arm64/boot.invocation (dex2oat invocation for a boot image) 2. Check the existence of `-Xgc:CMC` in out/soong/.intermediates/packages/apps/Settings/Settings/android_common/dexpreopt/Settings/oat/arm64/package.invocation (dex2oat invocation for an app defined in .bp) 3. Check the existence of `-Xgc:CMC` in $ANDROID_PRODUCT_OUT/obj/APPS/Dialer_intermediates/oat/arm64/package.invocation (dex2oat invocation for an app defined in .mk) 4. Check the value of ro.dalvik.vm.enable_uffd_gc in $ANDROID_PRODUCT_OUT/product/etc/build.prop Test: Build with `OVERRIDE_ENABLE_UFFD_GC=default m` for device with UFFD support, and do the steps above. Test: Build with `OVERRIDE_ENABLE_UFFD_GC=true m`, and do the steps above. Test: Build with `OVERRIDE_ENABLE_UFFD_GC=false m`, and do the steps above. Change-Id: I035ad32233e49e2a30ce11f6c7c318a648511ef8
236 lines
9.1 KiB
Go
236 lines
9.1 KiB
Go
// Copyright 2019 Google Inc. All rights reserved.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package java
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import (
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"path/filepath"
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"strings"
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"android/soong/android"
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"android/soong/dexpreopt"
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)
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// dexpreoptTargets returns the list of targets that are relevant to dexpreopting, which excludes architectures
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// supported through native bridge.
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func dexpreoptTargets(ctx android.PathContext) []android.Target {
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var targets []android.Target
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for _, target := range ctx.Config().Targets[android.Android] {
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if target.NativeBridge == android.NativeBridgeDisabled {
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targets = append(targets, target)
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}
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}
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// We may also need the images on host in order to run host-based tests.
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for _, target := range ctx.Config().Targets[ctx.Config().BuildOS] {
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targets = append(targets, target)
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}
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return targets
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}
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var (
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bootImageConfigKey = android.NewOnceKey("bootImageConfig")
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bootImageConfigRawKey = android.NewOnceKey("bootImageConfigRaw")
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frameworkBootImageName = "boot"
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mainlineBootImageName = "mainline"
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bootImageStem = "boot"
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ProfileInstallPathInApex = "etc/boot-image.prof"
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)
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// getImageNames returns an ordered list of image names. The order doesn't matter but needs to be
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// deterministic. The names listed here must match the map keys returned by genBootImageConfigs.
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func getImageNames() []string {
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return []string{"art", "boot", "mainline"}
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}
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func genBootImageConfigRaw(ctx android.PathContext) map[string]*bootImageConfig {
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return ctx.Config().Once(bootImageConfigRawKey, func() interface{} {
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global := dexpreopt.GetGlobalConfig(ctx)
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artBootImageName := "art" // Keep this local to avoid accidental references.
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frameworkModules := global.BootJars // This includes `global.ArtApexJars`.
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mainlineBcpModules := global.ApexBootJars
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frameworkSubdir := "system/framework"
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profileImports := []string{"com.android.art"}
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// ART boot image for testing only. Do not rely on it to make any build-time decision.
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artCfg := bootImageConfig{
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name: artBootImageName,
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enabledIfExists: "art-bootclasspath-fragment",
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stem: bootImageStem,
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installDir: "apex/art_boot_images/javalib",
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modules: global.TestOnlyArtBootImageJars,
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preloadedClassesFile: "art/build/boot/preloaded-classes",
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compilerFilter: "speed-profile",
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singleImage: false,
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profileImports: profileImports,
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}
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// Framework config for the boot image extension.
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// It includes framework libraries and depends on the ART config.
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frameworkCfg := bootImageConfig{
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name: frameworkBootImageName,
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enabledIfExists: "platform-bootclasspath",
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stem: bootImageStem,
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installDir: frameworkSubdir,
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modules: frameworkModules,
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preloadedClassesFile: "frameworks/base/config/preloaded-classes",
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compilerFilter: "speed-profile",
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singleImage: false,
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profileImports: profileImports,
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}
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mainlineCfg := bootImageConfig{
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extends: &frameworkCfg,
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name: mainlineBootImageName,
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enabledIfExists: "platform-bootclasspath",
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stem: bootImageStem,
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installDir: frameworkSubdir,
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modules: mainlineBcpModules,
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compilerFilter: "verify",
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singleImage: true,
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}
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return map[string]*bootImageConfig{
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artBootImageName: &artCfg,
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frameworkBootImageName: &frameworkCfg,
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mainlineBootImageName: &mainlineCfg,
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}
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}).(map[string]*bootImageConfig)
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}
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// Construct the global boot image configs.
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func genBootImageConfigs(ctx android.PathContext) map[string]*bootImageConfig {
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return ctx.Config().Once(bootImageConfigKey, func() interface{} {
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targets := dexpreoptTargets(ctx)
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deviceDir := android.PathForOutput(ctx, dexpreopt.GetDexpreoptDirName(ctx))
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configs := genBootImageConfigRaw(ctx)
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for _, c := range configs {
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c.dir = deviceDir.Join(ctx, "dex_"+c.name+"jars")
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c.symbolsDir = deviceDir.Join(ctx, "dex_"+c.name+"jars_unstripped")
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// expands to <stem>.art for primary image and <stem>-<1st module>.art for extension
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imageName := c.firstModuleNameOrStem(ctx) + ".art"
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// The path to bootclasspath dex files needs to be known at module
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// GenerateAndroidBuildAction time, before the bootclasspath modules have been compiled.
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// Set up known paths for them, the singleton rules will copy them there.
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// TODO(b/143682396): use module dependencies instead
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inputDir := deviceDir.Join(ctx, "dex_"+c.name+"jars_input")
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c.dexPaths = c.modules.BuildPaths(ctx, inputDir)
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c.dexPathsByModule = c.modules.BuildPathsByModule(ctx, inputDir)
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c.dexPathsDeps = c.dexPaths
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// Create target-specific variants.
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for _, target := range targets {
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arch := target.Arch.ArchType
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imageDir := c.dir.Join(ctx, target.Os.String(), c.installDir, arch.String())
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variant := &bootImageVariant{
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bootImageConfig: c,
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target: target,
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imagePathOnHost: imageDir.Join(ctx, imageName),
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imagePathOnDevice: filepath.Join("/", c.installDir, arch.String(), imageName),
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imagesDeps: c.moduleFiles(ctx, imageDir, ".art", ".oat", ".vdex"),
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dexLocations: c.modules.DevicePaths(ctx.Config(), target.Os),
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}
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variant.dexLocationsDeps = variant.dexLocations
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c.variants = append(c.variants, variant)
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}
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c.zip = c.dir.Join(ctx, c.name+".zip")
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}
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visited := make(map[string]bool)
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for _, c := range configs {
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calculateDepsRecursive(c, targets, visited)
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}
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return configs
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}).(map[string]*bootImageConfig)
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}
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// calculateDepsRecursive calculates the dependencies of the given boot image config and all its
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// ancestors, if they are not visited.
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// The boot images are supposed to form a tree, where the root is the primary boot image. We do not
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// expect loops (e.g., A extends B, B extends C, C extends A), and we let them crash soong with a
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// stack overflow.
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// Note that a boot image config only has a pointer to the parent, not to children. Therefore, we
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// first go up through the parent chain, and then go back down to visit every code along the path.
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// `visited` is a map where a key is a boot image name and the value indicates whether the boot
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// image config is visited. The boot image names are guaranteed to be unique because they come from
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// `genBootImageConfigRaw` above, which also returns a map and would fail in the first place if the
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// names were not unique.
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func calculateDepsRecursive(c *bootImageConfig, targets []android.Target, visited map[string]bool) {
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if c.extends == nil || visited[c.name] {
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return
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}
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if c.extends.extends != nil {
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calculateDepsRecursive(c.extends, targets, visited)
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}
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visited[c.name] = true
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c.dexPathsDeps = android.Concat(c.extends.dexPathsDeps, c.dexPathsDeps)
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for i := range targets {
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c.variants[i].baseImages = android.Concat(c.extends.variants[i].baseImages, android.OutputPaths{c.extends.variants[i].imagePathOnHost})
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c.variants[i].baseImagesDeps = android.Concat(c.extends.variants[i].baseImagesDeps, c.extends.variants[i].imagesDeps.Paths())
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c.variants[i].dexLocationsDeps = android.Concat(c.extends.variants[i].dexLocationsDeps, c.variants[i].dexLocationsDeps)
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}
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}
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func defaultBootImageConfig(ctx android.PathContext) *bootImageConfig {
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return genBootImageConfigs(ctx)[frameworkBootImageName]
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}
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func mainlineBootImageConfig(ctx android.PathContext) *bootImageConfig {
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return genBootImageConfigs(ctx)[mainlineBootImageName]
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}
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// isProfileProviderApex returns true if this apex provides a boot image profile.
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func isProfileProviderApex(ctx android.PathContext, apexName string) bool {
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for _, config := range genBootImageConfigs(ctx) {
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for _, profileImport := range config.profileImports {
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if profileImport == apexName {
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return true
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}
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}
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}
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return false
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}
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// Returns a list of paths and a list of locations for the boot jars used in dexpreopt (to be
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// passed in -Xbootclasspath and -Xbootclasspath-locations arguments for dex2oat).
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func bcpForDexpreopt(ctx android.PathContext, withUpdatable bool) (android.WritablePaths, []string) {
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bootImage := defaultBootImageConfig(ctx)
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if withUpdatable {
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bootImage = mainlineBootImageConfig(ctx)
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}
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dexPaths := bootImage.dexPathsDeps
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// The dex locations for all Android variants are identical.
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dexLocations := bootImage.getAnyAndroidVariant().dexLocationsDeps
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return dexPaths, dexLocations
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}
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var defaultBootclasspathKey = android.NewOnceKey("defaultBootclasspath")
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func init() {
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android.RegisterMakeVarsProvider(pctx, dexpreoptConfigMakevars)
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}
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func dexpreoptConfigMakevars(ctx android.MakeVarsContext) {
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ctx.Strict("DEXPREOPT_BOOT_JARS_MODULES", strings.Join(defaultBootImageConfig(ctx).modules.CopyOfApexJarPairs(), ":"))
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}
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