5d9e1a5ca9
Original change: https://android-review.googlesource.com/c/platform/build/soong/+/2533721 Change-Id: If0f2e68a29b73d95d945348199ee1ad6c8aec162 Signed-off-by: Automerger Merge Worker <android-build-automerger-merge-worker@system.gserviceaccount.com>
929 lines
37 KiB
Go
929 lines
37 KiB
Go
// Copyright 2018 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 android
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import (
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"fmt"
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"sort"
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"strconv"
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"strings"
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"sync"
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"github.com/google/blueprint"
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)
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var (
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// This is the sdk version when APEX was first introduced
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SdkVersion_Android10 = uncheckedFinalApiLevel(29)
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)
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// ApexInfo describes the metadata about one or more apexBundles that an apex variant of a module is
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// part of. When an apex variant is created, the variant is associated with one apexBundle. But
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// when multiple apex variants are merged for deduping (see mergeApexVariations), this holds the
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// information about the apexBundles that are merged together.
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// Accessible via `ctx.Provider(android.ApexInfoProvider).(android.ApexInfo)`
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type ApexInfo struct {
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// Name of the apex variation that this module (i.e. the apex variant of the module) is
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// mutated into, or "" for a platform (i.e. non-APEX) variant. Note that this name and the
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// Soong module name of the APEX can be different. That happens when there is
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// `override_apex` that overrides `apex`. In that case, both Soong modules have the same
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// apex variation name which usually is `com.android.foo`. This name is also the `name`
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// in the path `/apex/<name>` where this apex is activated on at runtime.
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//
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// Also note that a module can be included in multiple APEXes, in which case, the module is
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// mutated into one or more variants, each of which is for an APEX. The variants then can
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// later be deduped if they don't need to be compiled differently. This is an optimization
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// done in mergeApexVariations.
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ApexVariationName string
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// ApiLevel that this module has to support at minimum.
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MinSdkVersion ApiLevel
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// True if this module comes from an updatable apexBundle.
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Updatable bool
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// True if this module can use private platform APIs. Only non-updatable APEX can set this
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// to true.
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UsePlatformApis bool
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// List of Apex variant names that this module is associated with. This initially is the
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// same as the `ApexVariationName` field. Then when multiple apex variants are merged in
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// mergeApexVariations, ApexInfo struct of the merged variant holds the list of apexBundles
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// that are merged together.
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InApexVariants []string
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// List of APEX Soong module names that this module is part of. Note that the list includes
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// different variations of the same APEX. For example, if module `foo` is included in the
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// apex `com.android.foo`, and also if there is an override_apex module
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// `com.mycompany.android.foo` overriding `com.android.foo`, then this list contains both
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// `com.android.foo` and `com.mycompany.android.foo`. If the APEX Soong module is a
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// prebuilt, the name here doesn't have the `prebuilt_` prefix.
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InApexModules []string
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// Pointers to the ApexContents struct each of which is for apexBundle modules that this
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// module is part of. The ApexContents gives information about which modules the apexBundle
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// has and whether a module became part of the apexBundle via a direct dependency or not.
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ApexContents []*ApexContents
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// True if this is for a prebuilt_apex.
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//
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// If true then this will customize the apex processing to make it suitable for handling
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// prebuilt_apex, e.g. it will prevent ApexInfos from being merged together.
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//
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// See Prebuilt.ApexInfoMutator for more information.
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ForPrebuiltApex bool
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// Returns the name of the test apexes that this module is included in.
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TestApexes []string
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}
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var ApexInfoProvider = blueprint.NewMutatorProvider(ApexInfo{}, "apex")
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func (i ApexInfo) AddJSONData(d *map[string]interface{}) {
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(*d)["Apex"] = map[string]interface{}{
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"ApexVariationName": i.ApexVariationName,
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"MinSdkVersion": i.MinSdkVersion,
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"InApexModules": i.InApexModules,
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"InApexVariants": i.InApexVariants,
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"ForPrebuiltApex": i.ForPrebuiltApex,
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}
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}
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// mergedName gives the name of the alias variation that will be used when multiple apex variations
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// of a module can be deduped into one variation. For example, if libfoo is included in both apex.a
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// and apex.b, and if the two APEXes have the same min_sdk_version (say 29), then libfoo doesn't
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// have to be built twice, but only once. In that case, the two apex variations apex.a and apex.b
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// are configured to have the same alias variation named apex29. Whether platform APIs is allowed
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// or not also matters; if two APEXes don't have the same allowance, they get different names and
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// thus wouldn't be merged.
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func (i ApexInfo) mergedName(ctx PathContext) string {
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name := "apex" + strconv.Itoa(i.MinSdkVersion.FinalOrFutureInt())
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return name
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}
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// IsForPlatform tells whether this module is for the platform or not. If false is returned, it
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// means that this apex variant of the module is built for an APEX.
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func (i ApexInfo) IsForPlatform() bool {
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return i.ApexVariationName == ""
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}
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// InApexVariant tells whether this apex variant of the module is part of the given apexVariant or
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// not.
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func (i ApexInfo) InApexVariant(apexVariant string) bool {
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for _, a := range i.InApexVariants {
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if a == apexVariant {
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return true
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}
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}
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return false
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}
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func (i ApexInfo) InApexModule(apexModuleName string) bool {
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for _, a := range i.InApexModules {
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if a == apexModuleName {
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return true
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}
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}
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return false
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}
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// ApexTestForInfo stores the contents of APEXes for which this module is a test - although this
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// module is not part of the APEX - and thus has access to APEX internals.
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type ApexTestForInfo struct {
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ApexContents []*ApexContents
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}
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var ApexTestForInfoProvider = blueprint.NewMutatorProvider(ApexTestForInfo{}, "apex_test_for")
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// DepIsInSameApex defines an interface that should be used to determine whether a given dependency
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// should be considered as part of the same APEX as the current module or not. Note: this was
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// extracted from ApexModule to make it easier to define custom subsets of the ApexModule interface
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// and improve code navigation within the IDE.
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type DepIsInSameApex interface {
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// DepIsInSameApex tests if the other module 'dep' is considered as part of the same APEX as
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// this module. For example, a static lib dependency usually returns true here, while a
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// shared lib dependency to a stub library returns false.
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//
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// This method must not be called directly without first ignoring dependencies whose tags
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// implement ExcludeFromApexContentsTag. Calls from within the func passed to WalkPayloadDeps()
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// are fine as WalkPayloadDeps() will ignore those dependencies automatically. Otherwise, use
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// IsDepInSameApex instead.
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DepIsInSameApex(ctx BaseModuleContext, dep Module) bool
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}
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func IsDepInSameApex(ctx BaseModuleContext, module, dep Module) bool {
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depTag := ctx.OtherModuleDependencyTag(dep)
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if _, ok := depTag.(ExcludeFromApexContentsTag); ok {
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// The tag defines a dependency that never requires the child module to be part of the same
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// apex as the parent.
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return false
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}
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return module.(DepIsInSameApex).DepIsInSameApex(ctx, dep)
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}
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// ApexModule is the interface that a module type is expected to implement if the module has to be
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// built differently depending on whether the module is destined for an APEX or not (i.e., installed
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// to one of the regular partitions).
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//
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// Native shared libraries are one such module type; when it is built for an APEX, it should depend
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// only on stable interfaces such as NDK, stable AIDL, or C APIs from other APEXes.
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//
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// A module implementing this interface will be mutated into multiple variations by apex.apexMutator
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// if it is directly or indirectly included in one or more APEXes. Specifically, if a module is
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// included in apex.foo and apex.bar then three apex variants are created: platform, apex.foo and
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// apex.bar. The platform variant is for the regular partitions (e.g., /system or /vendor, etc.)
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// while the other two are for the APEXs, respectively. The latter two variations can be merged (see
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// mergedName) when the two APEXes have the same min_sdk_version requirement.
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type ApexModule interface {
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Module
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DepIsInSameApex
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apexModuleBase() *ApexModuleBase
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// Marks that this module should be built for the specified APEX. Call this BEFORE
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// apex.apexMutator is run.
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BuildForApex(apex ApexInfo)
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// Returns true if this module is present in any APEX either directly or indirectly. Call
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// this after apex.apexMutator is run.
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InAnyApex() bool
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// Returns true if this module is directly in any APEX. Call this AFTER apex.apexMutator is
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// run.
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DirectlyInAnyApex() bool
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// NotInPlatform tells whether or not this module is included in an APEX and therefore
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// shouldn't be exposed to the platform (i.e. outside of the APEX) directly. A module is
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// considered to be included in an APEX either when there actually is an APEX that
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// explicitly has the module as its dependency or the module is not available to the
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// platform, which indicates that the module belongs to at least one or more other APEXes.
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NotInPlatform() bool
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// Tests if this module could have APEX variants. Even when a module type implements
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// ApexModule interface, APEX variants are created only for the module instances that return
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// true here. This is useful for not creating APEX variants for certain types of shared
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// libraries such as NDK stubs.
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CanHaveApexVariants() bool
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// Tests if this module can be installed to APEX as a file. For example, this would return
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// true for shared libs while return false for static libs because static libs are not
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// installable module (but it can still be mutated for APEX)
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IsInstallableToApex() bool
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// Tests if this module is available for the specified APEX or ":platform". This is from the
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// apex_available property of the module.
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AvailableFor(what string) bool
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// AlwaysRequiresPlatformApexVariant allows the implementing module to determine whether an
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// APEX mutator should always be created for it.
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//
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// Returns false by default.
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AlwaysRequiresPlatformApexVariant() bool
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// Returns true if this module is not available to platform (i.e. apex_available property
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// doesn't have "//apex_available:platform"), or shouldn't be available to platform, which
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// is the case when this module depends on other module that isn't available to platform.
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NotAvailableForPlatform() bool
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// Marks that this module is not available to platform. Set by the
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// check-platform-availability mutator in the apex package.
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SetNotAvailableForPlatform()
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// Returns the list of APEXes that this module is a test for. The module has access to the
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// private part of the listed APEXes even when it is not included in the APEXes. This by
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// default returns nil. A module type should override the default implementation. For
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// example, cc_test module type returns the value of test_for here.
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TestFor() []string
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// Returns nil (success) if this module should support the given sdk version. Returns an
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// error if not. No default implementation is provided for this method. A module type
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// implementing this interface should provide an implementation. A module supports an sdk
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// version when the module's min_sdk_version is equal to or less than the given sdk version.
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ShouldSupportSdkVersion(ctx BaseModuleContext, sdkVersion ApiLevel) error
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// Returns true if this module needs a unique variation per apex, effectively disabling the
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// deduping. This is turned on when, for example if use_apex_name_macro is set so that each
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// apex variant should be built with different macro definitions.
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UniqueApexVariations() bool
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}
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// Properties that are common to all module types implementing ApexModule interface.
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type ApexProperties struct {
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// Availability of this module in APEXes. Only the listed APEXes can contain this module. If
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// the module has stubs then other APEXes and the platform may access it through them
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// (subject to visibility).
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//
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// "//apex_available:anyapex" is a pseudo APEX name that matches to any APEX.
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// "//apex_available:platform" refers to non-APEX partitions like "system.img".
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// "com.android.gki.*" matches any APEX module name with the prefix "com.android.gki.".
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// Default is ["//apex_available:platform"].
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Apex_available []string
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// See ApexModule.InAnyApex()
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InAnyApex bool `blueprint:"mutated"`
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// See ApexModule.DirectlyInAnyApex()
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DirectlyInAnyApex bool `blueprint:"mutated"`
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// AnyVariantDirectlyInAnyApex is true in the primary variant of a module if _any_ variant
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// of the module is directly in any apex. This includes host, arch, asan, etc. variants. It
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// is unused in any variant that is not the primary variant. Ideally this wouldn't be used,
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// as it incorrectly mixes arch variants if only one arch is in an apex, but a few places
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// depend on it, for example when an ASAN variant is created before the apexMutator. Call
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// this after apex.apexMutator is run.
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AnyVariantDirectlyInAnyApex bool `blueprint:"mutated"`
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// See ApexModule.NotAvailableForPlatform()
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NotAvailableForPlatform bool `blueprint:"mutated"`
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// See ApexModule.UniqueApexVariants()
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UniqueApexVariationsForDeps bool `blueprint:"mutated"`
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// The test apexes that includes this apex variant
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TestApexes []string `blueprint:"mutated"`
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}
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// Marker interface that identifies dependencies that are excluded from APEX contents.
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//
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// Unless the tag also implements the AlwaysRequireApexVariantTag this will prevent an apex variant
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// from being created for the module.
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//
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// At the moment the sdk.sdkRequirementsMutator relies on the fact that the existing tags which
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// implement this interface do not define dependencies onto members of an sdk_snapshot. If that
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// changes then sdk.sdkRequirementsMutator will need fixing.
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type ExcludeFromApexContentsTag interface {
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blueprint.DependencyTag
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// Method that differentiates this interface from others.
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ExcludeFromApexContents()
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}
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// Marker interface that identifies dependencies that always requires an APEX variant to be created.
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//
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// It is possible for a dependency to require an apex variant but exclude the module from the APEX
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// contents. See sdk.sdkMemberDependencyTag.
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type AlwaysRequireApexVariantTag interface {
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blueprint.DependencyTag
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// Return true if this tag requires that the target dependency has an apex variant.
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AlwaysRequireApexVariant() bool
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}
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// Marker interface that identifies dependencies that should inherit the DirectlyInAnyApex state
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// from the parent to the child. For example, stubs libraries are marked as DirectlyInAnyApex if
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// their implementation is in an apex.
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type CopyDirectlyInAnyApexTag interface {
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blueprint.DependencyTag
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// Method that differentiates this interface from others.
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CopyDirectlyInAnyApex()
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}
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// Interface that identifies dependencies to skip Apex dependency check
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type SkipApexAllowedDependenciesCheck interface {
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// Returns true to skip the Apex dependency check, which limits the allowed dependency in build.
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SkipApexAllowedDependenciesCheck() bool
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}
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// ApexModuleBase provides the default implementation for the ApexModule interface. APEX-aware
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// modules are expected to include this struct and call InitApexModule().
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type ApexModuleBase struct {
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ApexProperties ApexProperties
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canHaveApexVariants bool
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apexInfos []ApexInfo
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apexInfosLock sync.Mutex // protects apexInfos during parallel apexInfoMutator
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}
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// Initializes ApexModuleBase struct. Not calling this (even when inheriting from ApexModuleBase)
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// prevents the module from being mutated for apexBundle.
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func InitApexModule(m ApexModule) {
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base := m.apexModuleBase()
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base.canHaveApexVariants = true
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m.AddProperties(&base.ApexProperties)
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}
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// Implements ApexModule
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func (m *ApexModuleBase) apexModuleBase() *ApexModuleBase {
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return m
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}
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var (
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availableToPlatformList = []string{AvailableToPlatform}
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)
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// Implements ApexModule
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func (m *ApexModuleBase) ApexAvailable() []string {
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aa := m.ApexProperties.Apex_available
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if len(aa) > 0 {
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return aa
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}
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// Default is availability to platform
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return CopyOf(availableToPlatformList)
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}
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// Implements ApexModule
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func (m *ApexModuleBase) BuildForApex(apex ApexInfo) {
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m.apexInfosLock.Lock()
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defer m.apexInfosLock.Unlock()
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for i, v := range m.apexInfos {
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if v.ApexVariationName == apex.ApexVariationName {
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if len(apex.InApexModules) != 1 {
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panic(fmt.Errorf("Newly created apexInfo must be for a single APEX"))
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}
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// Even when the ApexVariantNames are the same, the given ApexInfo might
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// actually be for different APEX. This can happen when an APEX is
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// overridden via override_apex. For example, there can be two apexes
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// `com.android.foo` (from the `apex` module type) and
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// `com.mycompany.android.foo` (from the `override_apex` module type), both
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// of which has the same ApexVariantName `com.android.foo`. Add the apex
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// name to the list so that it's not lost.
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if !InList(apex.InApexModules[0], v.InApexModules) {
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m.apexInfos[i].InApexModules = append(m.apexInfos[i].InApexModules, apex.InApexModules[0])
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}
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return
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}
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}
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m.apexInfos = append(m.apexInfos, apex)
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}
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// Implements ApexModule
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func (m *ApexModuleBase) InAnyApex() bool {
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return m.ApexProperties.InAnyApex
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}
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// Implements ApexModule
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func (m *ApexModuleBase) DirectlyInAnyApex() bool {
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return m.ApexProperties.DirectlyInAnyApex
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}
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// Implements ApexModule
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func (m *ApexModuleBase) NotInPlatform() bool {
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return m.ApexProperties.AnyVariantDirectlyInAnyApex || !m.AvailableFor(AvailableToPlatform)
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}
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// Implements ApexModule
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func (m *ApexModuleBase) CanHaveApexVariants() bool {
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return m.canHaveApexVariants
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}
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// Implements ApexModule
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func (m *ApexModuleBase) IsInstallableToApex() bool {
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// If needed, this will bel overridden by concrete types inheriting
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// ApexModuleBase
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return false
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}
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// Implements ApexModule
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func (m *ApexModuleBase) TestFor() []string {
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// If needed, this will be overridden by concrete types inheriting
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// ApexModuleBase
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return nil
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}
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// Returns the test apexes that this module is included in.
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func (m *ApexModuleBase) TestApexes() []string {
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return m.ApexProperties.TestApexes
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}
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// Implements ApexModule
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func (m *ApexModuleBase) UniqueApexVariations() bool {
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// If needed, this will bel overridden by concrete types inheriting
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|
// ApexModuleBase
|
|
return false
|
|
}
|
|
|
|
// Implements ApexModule
|
|
func (m *ApexModuleBase) DepIsInSameApex(ctx BaseModuleContext, dep Module) bool {
|
|
// By default, if there is a dependency from A to B, we try to include both in the same
|
|
// APEX, unless B is explicitly from outside of the APEX (i.e. a stubs lib). Thus, returning
|
|
// true. This is overridden by some module types like apex.ApexBundle, cc.Module,
|
|
// java.Module, etc.
|
|
return true
|
|
}
|
|
|
|
const (
|
|
AvailableToPlatform = "//apex_available:platform"
|
|
AvailableToAnyApex = "//apex_available:anyapex"
|
|
AvailableToGkiApex = "com.android.gki.*"
|
|
)
|
|
|
|
// CheckAvailableForApex provides the default algorithm for checking the apex availability. When the
|
|
// availability is empty, it defaults to ["//apex_available:platform"] which means "available to the
|
|
// platform but not available to any APEX". When the list is not empty, `what` is matched against
|
|
// the list. If there is any matching element in the list, thus function returns true. The special
|
|
// availability "//apex_available:anyapex" matches with anything except for
|
|
// "//apex_available:platform".
|
|
func CheckAvailableForApex(what string, apex_available []string) bool {
|
|
if len(apex_available) == 0 {
|
|
return what == AvailableToPlatform
|
|
}
|
|
return InList(what, apex_available) ||
|
|
(what != AvailableToPlatform && InList(AvailableToAnyApex, apex_available)) ||
|
|
(strings.HasPrefix(what, "com.android.gki.") && InList(AvailableToGkiApex, apex_available)) ||
|
|
(what == "com.google.mainline.primary.libs") || // TODO b/248601389
|
|
(what == "com.google.mainline.go.primary.libs") // TODO b/248601389
|
|
}
|
|
|
|
// Implements ApexModule
|
|
func (m *ApexModuleBase) AvailableFor(what string) bool {
|
|
return CheckAvailableForApex(what, m.ApexProperties.Apex_available)
|
|
}
|
|
|
|
// Implements ApexModule
|
|
func (m *ApexModuleBase) AlwaysRequiresPlatformApexVariant() bool {
|
|
return false
|
|
}
|
|
|
|
// Implements ApexModule
|
|
func (m *ApexModuleBase) NotAvailableForPlatform() bool {
|
|
return m.ApexProperties.NotAvailableForPlatform
|
|
}
|
|
|
|
// Implements ApexModule
|
|
func (m *ApexModuleBase) SetNotAvailableForPlatform() {
|
|
m.ApexProperties.NotAvailableForPlatform = true
|
|
}
|
|
|
|
// This function makes sure that the apex_available property is valid
|
|
func (m *ApexModuleBase) checkApexAvailableProperty(mctx BaseModuleContext) {
|
|
for _, n := range m.ApexProperties.Apex_available {
|
|
if n == AvailableToPlatform || n == AvailableToAnyApex || n == AvailableToGkiApex {
|
|
continue
|
|
}
|
|
if !mctx.OtherModuleExists(n) && !mctx.Config().AllowMissingDependencies() {
|
|
mctx.PropertyErrorf("apex_available", "%q is not a valid module name", n)
|
|
}
|
|
}
|
|
}
|
|
|
|
// AvailableToSameApexes returns true if the two modules are apex_available to
|
|
// exactly the same set of APEXes (and platform), i.e. if their apex_available
|
|
// properties have the same elements.
|
|
func AvailableToSameApexes(mod1, mod2 ApexModule) bool {
|
|
mod1ApexAvail := SortedUniqueStrings(mod1.apexModuleBase().ApexProperties.Apex_available)
|
|
mod2ApexAvail := SortedUniqueStrings(mod2.apexModuleBase().ApexProperties.Apex_available)
|
|
if len(mod1ApexAvail) != len(mod2ApexAvail) {
|
|
return false
|
|
}
|
|
for i, v := range mod1ApexAvail {
|
|
if v != mod2ApexAvail[i] {
|
|
return false
|
|
}
|
|
}
|
|
return true
|
|
}
|
|
|
|
type byApexName []ApexInfo
|
|
|
|
func (a byApexName) Len() int { return len(a) }
|
|
func (a byApexName) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
|
|
func (a byApexName) Less(i, j int) bool { return a[i].ApexVariationName < a[j].ApexVariationName }
|
|
|
|
// mergeApexVariations deduplicates apex variations that would build identically into a common
|
|
// variation. It returns the reduced list of variations and a list of aliases from the original
|
|
// variation names to the new variation names.
|
|
func mergeApexVariations(ctx PathContext, apexInfos []ApexInfo) (merged []ApexInfo, aliases [][2]string) {
|
|
sort.Sort(byApexName(apexInfos))
|
|
seen := make(map[string]int)
|
|
for _, apexInfo := range apexInfos {
|
|
// If this is for a prebuilt apex then use the actual name of the apex variation to prevent this
|
|
// from being merged with other ApexInfo. See Prebuilt.ApexInfoMutator for more information.
|
|
if apexInfo.ForPrebuiltApex {
|
|
merged = append(merged, apexInfo)
|
|
continue
|
|
}
|
|
|
|
// Merge the ApexInfo together. If a compatible ApexInfo exists then merge the information from
|
|
// this one into it, otherwise create a new merged ApexInfo from this one and save it away so
|
|
// other ApexInfo instances can be merged into it.
|
|
variantName := apexInfo.ApexVariationName
|
|
mergedName := apexInfo.mergedName(ctx)
|
|
if index, exists := seen[mergedName]; exists {
|
|
// Variants having the same mergedName are deduped
|
|
merged[index].InApexVariants = append(merged[index].InApexVariants, variantName)
|
|
merged[index].InApexModules = append(merged[index].InApexModules, apexInfo.InApexModules...)
|
|
merged[index].ApexContents = append(merged[index].ApexContents, apexInfo.ApexContents...)
|
|
merged[index].Updatable = merged[index].Updatable || apexInfo.Updatable
|
|
// Platform APIs is allowed for this module only when all APEXes containing
|
|
// the module are with `use_platform_apis: true`.
|
|
merged[index].UsePlatformApis = merged[index].UsePlatformApis && apexInfo.UsePlatformApis
|
|
merged[index].TestApexes = append(merged[index].TestApexes, apexInfo.TestApexes...)
|
|
} else {
|
|
seen[mergedName] = len(merged)
|
|
apexInfo.ApexVariationName = mergedName
|
|
apexInfo.InApexVariants = CopyOf(apexInfo.InApexVariants)
|
|
apexInfo.InApexModules = CopyOf(apexInfo.InApexModules)
|
|
apexInfo.ApexContents = append([]*ApexContents(nil), apexInfo.ApexContents...)
|
|
apexInfo.TestApexes = CopyOf(apexInfo.TestApexes)
|
|
merged = append(merged, apexInfo)
|
|
}
|
|
aliases = append(aliases, [2]string{variantName, mergedName})
|
|
}
|
|
return merged, aliases
|
|
}
|
|
|
|
// CreateApexVariations mutates a given module into multiple apex variants each of which is for an
|
|
// apexBundle (and/or the platform) where the module is part of.
|
|
func CreateApexVariations(mctx BottomUpMutatorContext, module ApexModule) []Module {
|
|
base := module.apexModuleBase()
|
|
|
|
// Shortcut
|
|
if len(base.apexInfos) == 0 {
|
|
return nil
|
|
}
|
|
|
|
// Do some validity checks.
|
|
// TODO(jiyong): is this the right place?
|
|
base.checkApexAvailableProperty(mctx)
|
|
|
|
var apexInfos []ApexInfo
|
|
var aliases [][2]string
|
|
if !mctx.Module().(ApexModule).UniqueApexVariations() && !base.ApexProperties.UniqueApexVariationsForDeps {
|
|
apexInfos, aliases = mergeApexVariations(mctx, base.apexInfos)
|
|
} else {
|
|
apexInfos = base.apexInfos
|
|
}
|
|
// base.apexInfos is only needed to propagate the list of apexes from apexInfoMutator to
|
|
// apexMutator. It is no longer accurate after mergeApexVariations, and won't be copied to
|
|
// all but the first created variant. Clear it so it doesn't accidentally get used later.
|
|
base.apexInfos = nil
|
|
sort.Sort(byApexName(apexInfos))
|
|
|
|
var inApex ApexMembership
|
|
for _, a := range apexInfos {
|
|
for _, apexContents := range a.ApexContents {
|
|
inApex = inApex.merge(apexContents.contents[mctx.ModuleName()])
|
|
}
|
|
}
|
|
base.ApexProperties.InAnyApex = true
|
|
base.ApexProperties.DirectlyInAnyApex = inApex == directlyInApex
|
|
|
|
defaultVariation := ""
|
|
mctx.SetDefaultDependencyVariation(&defaultVariation)
|
|
|
|
variations := []string{defaultVariation}
|
|
testApexes := []string{}
|
|
for _, a := range apexInfos {
|
|
variations = append(variations, a.ApexVariationName)
|
|
testApexes = append(testApexes, a.TestApexes...)
|
|
}
|
|
modules := mctx.CreateVariations(variations...)
|
|
for i, mod := range modules {
|
|
platformVariation := i == 0
|
|
if platformVariation && !mctx.Host() && !mod.(ApexModule).AvailableFor(AvailableToPlatform) {
|
|
// Do not install the module for platform, but still allow it to output
|
|
// uninstallable AndroidMk entries in certain cases when they have side
|
|
// effects. TODO(jiyong): move this routine to somewhere else
|
|
mod.MakeUninstallable()
|
|
}
|
|
if !platformVariation {
|
|
mctx.SetVariationProvider(mod, ApexInfoProvider, apexInfos[i-1])
|
|
}
|
|
// Set the value of TestApexes in every single apex variant.
|
|
// This allows each apex variant to be aware of the test apexes in the user provided apex_available.
|
|
mod.(ApexModule).apexModuleBase().ApexProperties.TestApexes = testApexes
|
|
}
|
|
|
|
for _, alias := range aliases {
|
|
mctx.CreateAliasVariation(alias[0], alias[1])
|
|
}
|
|
|
|
return modules
|
|
}
|
|
|
|
// UpdateUniqueApexVariationsForDeps sets UniqueApexVariationsForDeps if any dependencies that are
|
|
// in the same APEX have unique APEX variations so that the module can link against the right
|
|
// variant.
|
|
func UpdateUniqueApexVariationsForDeps(mctx BottomUpMutatorContext, am ApexModule) {
|
|
// anyInSameApex returns true if the two ApexInfo lists contain any values in an
|
|
// InApexVariants list in common. It is used instead of DepIsInSameApex because it needs to
|
|
// determine if the dep is in the same APEX due to being directly included, not only if it
|
|
// is included _because_ it is a dependency.
|
|
anyInSameApex := func(a, b []ApexInfo) bool {
|
|
collectApexes := func(infos []ApexInfo) []string {
|
|
var ret []string
|
|
for _, info := range infos {
|
|
ret = append(ret, info.InApexVariants...)
|
|
}
|
|
return ret
|
|
}
|
|
|
|
aApexes := collectApexes(a)
|
|
bApexes := collectApexes(b)
|
|
sort.Strings(bApexes)
|
|
for _, aApex := range aApexes {
|
|
index := sort.SearchStrings(bApexes, aApex)
|
|
if index < len(bApexes) && bApexes[index] == aApex {
|
|
return true
|
|
}
|
|
}
|
|
return false
|
|
}
|
|
|
|
// If any of the dependencies requires unique apex variations, so does this module.
|
|
mctx.VisitDirectDeps(func(dep Module) {
|
|
if depApexModule, ok := dep.(ApexModule); ok {
|
|
if anyInSameApex(depApexModule.apexModuleBase().apexInfos, am.apexModuleBase().apexInfos) &&
|
|
(depApexModule.UniqueApexVariations() ||
|
|
depApexModule.apexModuleBase().ApexProperties.UniqueApexVariationsForDeps) {
|
|
am.apexModuleBase().ApexProperties.UniqueApexVariationsForDeps = true
|
|
}
|
|
}
|
|
})
|
|
}
|
|
|
|
// UpdateDirectlyInAnyApex uses the final module to store if any variant of this module is directly
|
|
// in any APEX, and then copies the final value to all the modules. It also copies the
|
|
// DirectlyInAnyApex value to any direct dependencies with a CopyDirectlyInAnyApexTag dependency
|
|
// tag.
|
|
func UpdateDirectlyInAnyApex(mctx BottomUpMutatorContext, am ApexModule) {
|
|
base := am.apexModuleBase()
|
|
// Copy DirectlyInAnyApex and InAnyApex from any direct dependencies with a
|
|
// CopyDirectlyInAnyApexTag dependency tag.
|
|
mctx.VisitDirectDeps(func(dep Module) {
|
|
if _, ok := mctx.OtherModuleDependencyTag(dep).(CopyDirectlyInAnyApexTag); ok {
|
|
depBase := dep.(ApexModule).apexModuleBase()
|
|
depBase.ApexProperties.DirectlyInAnyApex = base.ApexProperties.DirectlyInAnyApex
|
|
depBase.ApexProperties.InAnyApex = base.ApexProperties.InAnyApex
|
|
}
|
|
})
|
|
|
|
if base.ApexProperties.DirectlyInAnyApex {
|
|
// Variants of a module are always visited sequentially in order, so it is safe to
|
|
// write to another variant of this module. For a BottomUpMutator the
|
|
// PrimaryModule() is visited first and FinalModule() is visited last.
|
|
mctx.FinalModule().(ApexModule).apexModuleBase().ApexProperties.AnyVariantDirectlyInAnyApex = true
|
|
}
|
|
|
|
// If this is the FinalModule (last visited module) copy
|
|
// AnyVariantDirectlyInAnyApex to all the other variants
|
|
if am == mctx.FinalModule().(ApexModule) {
|
|
mctx.VisitAllModuleVariants(func(variant Module) {
|
|
variant.(ApexModule).apexModuleBase().ApexProperties.AnyVariantDirectlyInAnyApex =
|
|
base.ApexProperties.AnyVariantDirectlyInAnyApex
|
|
})
|
|
}
|
|
}
|
|
|
|
// ApexMembership tells how a module became part of an APEX.
|
|
type ApexMembership int
|
|
|
|
const (
|
|
notInApex ApexMembership = 0
|
|
indirectlyInApex = iota
|
|
directlyInApex
|
|
)
|
|
|
|
// ApexContents gives an information about member modules of an apexBundle. Each apexBundle has an
|
|
// apexContents, and modules in that apex have a provider containing the apexContents of each
|
|
// apexBundle they are part of.
|
|
type ApexContents struct {
|
|
// map from a module name to its membership in this apexBundle
|
|
contents map[string]ApexMembership
|
|
}
|
|
|
|
// NewApexContents creates and initializes an ApexContents that is suitable
|
|
// for use with an apex module.
|
|
// - contents is a map from a module name to information about its membership within
|
|
// the apex.
|
|
func NewApexContents(contents map[string]ApexMembership) *ApexContents {
|
|
return &ApexContents{
|
|
contents: contents,
|
|
}
|
|
}
|
|
|
|
// Updates an existing membership by adding a new direct (or indirect) membership
|
|
func (i ApexMembership) Add(direct bool) ApexMembership {
|
|
if direct || i == directlyInApex {
|
|
return directlyInApex
|
|
}
|
|
return indirectlyInApex
|
|
}
|
|
|
|
// Merges two membership into one. Merging is needed because a module can be a part of an apexBundle
|
|
// in many different paths. For example, it could be dependend on by the apexBundle directly, but at
|
|
// the same time, there might be an indirect dependency to the module. In that case, the more
|
|
// specific dependency (the direct one) is chosen.
|
|
func (i ApexMembership) merge(other ApexMembership) ApexMembership {
|
|
if other == directlyInApex || i == directlyInApex {
|
|
return directlyInApex
|
|
}
|
|
|
|
if other == indirectlyInApex || i == indirectlyInApex {
|
|
return indirectlyInApex
|
|
}
|
|
return notInApex
|
|
}
|
|
|
|
// Tests whether a module named moduleName is directly included in the apexBundle where this
|
|
// ApexContents is tagged.
|
|
func (ac *ApexContents) DirectlyInApex(moduleName string) bool {
|
|
return ac.contents[moduleName] == directlyInApex
|
|
}
|
|
|
|
// Tests whether a module named moduleName is included in the apexBundle where this ApexContent is
|
|
// tagged.
|
|
func (ac *ApexContents) InApex(moduleName string) bool {
|
|
return ac.contents[moduleName] != notInApex
|
|
}
|
|
|
|
// Tests whether a module named moduleName is directly depended on by all APEXes in an ApexInfo.
|
|
func DirectlyInAllApexes(apexInfo ApexInfo, moduleName string) bool {
|
|
for _, contents := range apexInfo.ApexContents {
|
|
if !contents.DirectlyInApex(moduleName) {
|
|
return false
|
|
}
|
|
}
|
|
return true
|
|
}
|
|
|
|
////////////////////////////////////////////////////////////////////////////////////////////////////
|
|
//Below are routines for extra safety checks.
|
|
//
|
|
// BuildDepsInfoLists is to flatten the dependency graph for an apexBundle into a text file
|
|
// (actually two in slightly different formats). The files are mostly for debugging, for example to
|
|
// see why a certain module is included in an APEX via which dependency path.
|
|
//
|
|
// CheckMinSdkVersion is to make sure that all modules in an apexBundle satisfy the min_sdk_version
|
|
// requirement of the apexBundle.
|
|
|
|
// A dependency info for a single ApexModule, either direct or transitive.
|
|
type ApexModuleDepInfo struct {
|
|
// Name of the dependency
|
|
To string
|
|
// List of dependencies To belongs to. Includes APEX itself, if a direct dependency.
|
|
From []string
|
|
// Whether the dependency belongs to the final compiled APEX.
|
|
IsExternal bool
|
|
// min_sdk_version of the ApexModule
|
|
MinSdkVersion string
|
|
}
|
|
|
|
// A map of a dependency name to its ApexModuleDepInfo
|
|
type DepNameToDepInfoMap map[string]ApexModuleDepInfo
|
|
|
|
type ApexBundleDepsInfo struct {
|
|
flatListPath OutputPath
|
|
fullListPath OutputPath
|
|
}
|
|
|
|
type ApexBundleDepsInfoIntf interface {
|
|
Updatable() bool
|
|
FlatListPath() Path
|
|
FullListPath() Path
|
|
}
|
|
|
|
func (d *ApexBundleDepsInfo) FlatListPath() Path {
|
|
return d.flatListPath
|
|
}
|
|
|
|
func (d *ApexBundleDepsInfo) FullListPath() Path {
|
|
return d.fullListPath
|
|
}
|
|
|
|
// Generate two module out files:
|
|
// 1. FullList with transitive deps and their parents in the dep graph
|
|
// 2. FlatList with a flat list of transitive deps
|
|
// In both cases transitive deps of external deps are not included. Neither are deps that are only
|
|
// available to APEXes; they are developed with updatability in mind and don't need manual approval.
|
|
func (d *ApexBundleDepsInfo) BuildDepsInfoLists(ctx ModuleContext, minSdkVersion string, depInfos DepNameToDepInfoMap) {
|
|
var fullContent strings.Builder
|
|
var flatContent strings.Builder
|
|
|
|
fmt.Fprintf(&fullContent, "%s(minSdkVersion:%s):\n", ctx.ModuleName(), minSdkVersion)
|
|
for _, key := range FirstUniqueStrings(SortedKeys(depInfos)) {
|
|
info := depInfos[key]
|
|
toName := fmt.Sprintf("%s(minSdkVersion:%s)", info.To, info.MinSdkVersion)
|
|
if info.IsExternal {
|
|
toName = toName + " (external)"
|
|
}
|
|
fmt.Fprintf(&fullContent, " %s <- %s\n", toName, strings.Join(SortedUniqueStrings(info.From), ", "))
|
|
fmt.Fprintf(&flatContent, "%s\n", toName)
|
|
}
|
|
|
|
d.fullListPath = PathForModuleOut(ctx, "depsinfo", "fulllist.txt").OutputPath
|
|
WriteFileRule(ctx, d.fullListPath, fullContent.String())
|
|
|
|
d.flatListPath = PathForModuleOut(ctx, "depsinfo", "flatlist.txt").OutputPath
|
|
WriteFileRule(ctx, d.flatListPath, flatContent.String())
|
|
|
|
ctx.Phony(fmt.Sprintf("%s-depsinfo", ctx.ModuleName()), d.fullListPath, d.flatListPath)
|
|
}
|
|
|
|
// Function called while walking an APEX's payload dependencies.
|
|
//
|
|
// Return true if the `to` module should be visited, false otherwise.
|
|
type PayloadDepsCallback func(ctx ModuleContext, from blueprint.Module, to ApexModule, externalDep bool) bool
|
|
type WalkPayloadDepsFunc func(ctx ModuleContext, do PayloadDepsCallback)
|
|
|
|
// ModuleWithMinSdkVersionCheck represents a module that implements min_sdk_version checks
|
|
type ModuleWithMinSdkVersionCheck interface {
|
|
Module
|
|
MinSdkVersion(ctx EarlyModuleContext) ApiLevel
|
|
CheckMinSdkVersion(ctx ModuleContext)
|
|
}
|
|
|
|
// CheckMinSdkVersion checks if every dependency of an updatable module sets min_sdk_version
|
|
// accordingly
|
|
func CheckMinSdkVersion(ctx ModuleContext, minSdkVersion ApiLevel, walk WalkPayloadDepsFunc) {
|
|
// do not enforce min_sdk_version for host
|
|
if ctx.Host() {
|
|
return
|
|
}
|
|
|
|
// do not enforce for coverage build
|
|
if ctx.Config().IsEnvTrue("EMMA_INSTRUMENT") || ctx.DeviceConfig().NativeCoverageEnabled() || ctx.DeviceConfig().ClangCoverageEnabled() {
|
|
return
|
|
}
|
|
|
|
// do not enforce deps.min_sdk_version if APEX/APK doesn't set min_sdk_version
|
|
if minSdkVersion.IsNone() {
|
|
return
|
|
}
|
|
|
|
walk(ctx, func(ctx ModuleContext, from blueprint.Module, to ApexModule, externalDep bool) bool {
|
|
if externalDep {
|
|
// external deps are outside the payload boundary, which is "stable"
|
|
// interface. We don't have to check min_sdk_version for external
|
|
// dependencies.
|
|
return false
|
|
}
|
|
if am, ok := from.(DepIsInSameApex); ok && !am.DepIsInSameApex(ctx, to) {
|
|
return false
|
|
}
|
|
if m, ok := to.(ModuleWithMinSdkVersionCheck); ok {
|
|
// This dependency performs its own min_sdk_version check, just make sure it sets min_sdk_version
|
|
// to trigger the check.
|
|
if !m.MinSdkVersion(ctx).Specified() {
|
|
ctx.OtherModuleErrorf(m, "must set min_sdk_version")
|
|
}
|
|
return false
|
|
}
|
|
if err := to.ShouldSupportSdkVersion(ctx, minSdkVersion); err != nil {
|
|
toName := ctx.OtherModuleName(to)
|
|
ctx.OtherModuleErrorf(to, "should support min_sdk_version(%v) for %q: %v."+
|
|
"\n\nDependency path: %s\n\n"+
|
|
"Consider adding 'min_sdk_version: %q' to %q",
|
|
minSdkVersion, ctx.ModuleName(), err.Error(),
|
|
ctx.GetPathString(false),
|
|
minSdkVersion, toName)
|
|
return false
|
|
}
|
|
return true
|
|
})
|
|
}
|