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// Copyright (C) 2018 The Android Open Source Project
//
// 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.
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// package apex implements build rules for creating the APEX files which are container for
// lower-level system components. See https://source.android.com/devices/tech/ota/apex
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package apex
import (
"fmt"
"path/filepath"
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"regexp"
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"sort"
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"strings"
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"github.com/google/blueprint"
"github.com/google/blueprint/bootstrap"
"github.com/google/blueprint/proptools"
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"android/soong/android"
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"android/soong/bazel"
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"android/soong/bpf"
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"android/soong/cc"
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prebuilt_etc "android/soong/etc"
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"android/soong/filesystem"
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"android/soong/java"
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"android/soong/multitree"
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"android/soong/python"
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"android/soong/rust"
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"android/soong/sh"
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)
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func init ( ) {
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registerApexBuildComponents ( android . InitRegistrationContext )
}
func registerApexBuildComponents ( ctx android . RegistrationContext ) {
ctx . RegisterModuleType ( "apex" , BundleFactory )
ctx . RegisterModuleType ( "apex_test" , testApexBundleFactory )
ctx . RegisterModuleType ( "apex_vndk" , vndkApexBundleFactory )
ctx . RegisterModuleType ( "apex_defaults" , defaultsFactory )
ctx . RegisterModuleType ( "prebuilt_apex" , PrebuiltFactory )
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ctx . RegisterModuleType ( "override_apex" , OverrideApexFactory )
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ctx . RegisterModuleType ( "apex_set" , apexSetFactory )
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ctx . PreArchMutators ( registerPreArchMutators )
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ctx . PreDepsMutators ( RegisterPreDepsMutators )
ctx . PostDepsMutators ( RegisterPostDepsMutators )
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}
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func registerPreArchMutators ( ctx android . RegisterMutatorsContext ) {
ctx . TopDown ( "prebuilt_apex_module_creator" , prebuiltApexModuleCreatorMutator ) . Parallel ( )
}
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func RegisterPreDepsMutators ( ctx android . RegisterMutatorsContext ) {
ctx . TopDown ( "apex_vndk" , apexVndkMutator ) . Parallel ( )
ctx . BottomUp ( "apex_vndk_deps" , apexVndkDepsMutator ) . Parallel ( )
}
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func RegisterPostDepsMutators ( ctx android . RegisterMutatorsContext ) {
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ctx . TopDown ( "apex_info" , apexInfoMutator ) . Parallel ( )
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ctx . BottomUp ( "apex_unique" , apexUniqueVariationsMutator ) . Parallel ( )
ctx . BottomUp ( "apex_test_for_deps" , apexTestForDepsMutator ) . Parallel ( )
ctx . BottomUp ( "apex_test_for" , apexTestForMutator ) . Parallel ( )
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// Run mark_platform_availability before the apexMutator as the apexMutator needs to know whether
// it should create a platform variant.
ctx . BottomUp ( "mark_platform_availability" , markPlatformAvailability ) . Parallel ( )
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ctx . BottomUp ( "apex" , apexMutator ) . Parallel ( )
ctx . BottomUp ( "apex_directly_in_any" , apexDirectlyInAnyMutator ) . Parallel ( )
ctx . BottomUp ( "apex_flattened" , apexFlattenedMutator ) . Parallel ( )
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// Register after apex_info mutator so that it can use ApexVariationName
ctx . TopDown ( "apex_strict_updatability_lint" , apexStrictUpdatibilityLintMutator ) . Parallel ( )
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}
apex_available tracks static dependencies
This change fixes a bug that apex_available is not enforced for static
dependencies. For example, a module with 'apex_available:
["//apex_available:platform"]' was able to be statically linked to any
APEX. This was happening because the check was done on the modules that
are actually installed to an APEX. Static dependencies of the modules
were not counted as they are not installed to the APEX as files.
Fixing this bug by doing the check by traversing the tree in the method
checkApexAvailability.
This change includes a few number of related changes:
1) DepIsInSameApex implementation for cc.Module was changed as well.
Previuosly, it returned false only when the dependency is actually a
stub variant of a lib. Now, it returns false when the dependency has one
or more stub variants. To understand why, we need to recall that when
there is a dependency to a lib having stubs, we actually create two
dependencies: to the non-stub variant and to the stub variant during the
DepsMutator phase. And later in the build action generation phase, we
choose one of them depending on the context. Also recall that an APEX
variant is created only when DepIsInSameApex returns true. Given these,
with the previous implementatin of DepIsInSameApex, we did create apex
variants of the non-stub variant of the dependency, while not creating
the apex variant for the stub variant. This is not right; we needlessly
created the apex variant. The extra apex variant has caused no harm so
far, but since the apex_available check became more correct, it actually
breaks the build. To fix the issue, we stop creating the APEX variant
both for non-stub and stub variants.
2) platform variant is created regardless of the apex_available value.
This is required for the case when a library X that provides stub is in
an APEX A and is configured to be available only for A. In that case,
libs in other APEX can't use the stub library since the stub library is
mutated only for apex A. By creating the platform variant for the stub
library, it can be used from outside as the default dependency variation
is set to the platform variant when creating the APEX variations.
3) The ApexAvailableWhitelist is added with the dependencies that were
revealed with this change.
Exempt-From-Owner-Approval: cherry-pick from internal
Bug: 147671264
Test: m
Merged-In: Iaedc05494085ff4e8af227a6392bdd0c338b8e6e
(cherry picked from commit fa89944c79f19552e906b41fd03a4981903eee7e)
Change-Id: Iaedc05494085ff4e8af227a6392bdd0c338b8e6e
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type apexBundleProperties struct {
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// Json manifest file describing meta info of this APEX bundle. Refer to
// system/apex/proto/apex_manifest.proto for the schema. Default: "apex_manifest.json"
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Manifest * string ` android:"path" `
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// AndroidManifest.xml file used for the zip container of this APEX bundle. If unspecified,
// a default one is automatically generated.
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AndroidManifest * string ` android:"path" `
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// Canonical name of this APEX bundle. Used to determine the path to the activated APEX on
// device (/apex/<apex_name>). If unspecified, follows the name property.
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Apex_name * string
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// Determines the file contexts file for setting the security contexts to files in this APEX
// bundle. For platform APEXes, this should points to a file under /system/sepolicy Default:
// /system/sepolicy/apex/<module_name>_file_contexts.
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File_contexts * string ` android:"path" `
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// Path to the canned fs config file for customizing file's uid/gid/mod/capabilities. The
// format is /<path_or_glob> <uid> <gid> <mode> [capabilities=0x<cap>], where path_or_glob is a
// path or glob pattern for a file or set of files, uid/gid are numerial values of user ID
// and group ID, mode is octal value for the file mode, and cap is hexadecimal value for the
// capability. If this property is not set, or a file is missing in the file, default config
// is used.
Canned_fs_config * string ` android:"path" `
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ApexNativeDependencies
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Multilib apexMultilibProperties
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// List of sh binaries that are embedded inside this APEX bundle.
Sh_binaries [ ] string
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// List of platform_compat_config files that are embedded inside this APEX bundle.
Compat_configs [ ] string
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// List of filesystem images that are embedded inside this APEX bundle.
Filesystems [ ] string
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// The minimum SDK version that this APEX must support at minimum. This is usually set to
// the SDK version that the APEX was first introduced.
Min_sdk_version * string
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// Whether this APEX is considered updatable or not. When set to true, this will enforce
// additional rules for making sure that the APEX is truly updatable. To be updatable,
// min_sdk_version should be set as well. This will also disable the size optimizations like
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// symlinking to the system libs. Default is true.
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Updatable * bool
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// Marks that this APEX is designed to be updatable in the future, although it's not
// updatable yet. This is used to mimic some of the build behaviors that are applied only to
// updatable APEXes. Currently, this disables the size optimization, so that the size of
// APEX will not increase when the APEX is actually marked as truly updatable. Default is
// false.
Future_updatable * bool
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// Whether this APEX can use platform APIs or not. Can be set to true only when `updatable:
// false`. Default is false.
Platform_apis * bool
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// Whether this APEX is installable to one of the partitions like system, vendor, etc.
// Default: true.
Installable * bool
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// If set true, VNDK libs are considered as stable libs and are not included in this APEX.
// Should be only used in non-system apexes (e.g. vendor: true). Default is false.
Use_vndk_as_stable * bool
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// Whether this is multi-installed APEX should skip installing symbol files.
// Multi-installed APEXes share the same apex_name and are installed at the same time.
// Default is false.
//
// Should be set to true for all multi-installed APEXes except the singular
// default version within the multi-installed group.
// Only the default version can install symbol files in $(PRODUCT_OUT}/apex,
// or else conflicting build rules may be created.
Multi_install_skip_symbol_files * bool
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// The type of APEX to build. Controls what the APEX payload is. Either 'image', 'zip' or
// 'both'. When set to image, contents are stored in a filesystem image inside a zip
// container. When set to zip, contents are stored in a zip container directly. This type is
// mostly for host-side debugging. When set to both, the two types are both built. Default
// is 'image'.
Payload_type * string
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// The type of filesystem to use when the payload_type is 'image'. Either 'ext4', 'f2fs'
// or 'erofs'. Default 'ext4'.
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Payload_fs_type * string
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// For telling the APEX to ignore special handling for system libraries such as bionic.
// Default is false.
Ignore_system_library_special_case * bool
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// Whenever apex_payload.img of the APEX should include dm-verity hashtree.
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// Default value is true.
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Generate_hashtree * bool
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// Whenever apex_payload.img of the APEX should not be dm-verity signed. Should be only
// used in tests.
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Test_only_unsigned_payload * bool
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// Whenever apex should be compressed, regardless of product flag used. Should be only
// used in tests.
Test_only_force_compression * bool
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// Put extra tags (signer=<value>) to apexkeys.txt, so that release tools can sign this apex
// with the tool to sign payload contents.
Custom_sign_tool * string
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// Canonical name of this APEX bundle. Used to determine the path to the
// activated APEX on device (i.e. /apex/<apexVariationName>), and used for the
// apex mutator variations. For override_apex modules, this is the name of the
// overridden base module.
ApexVariationName string ` blueprint:"mutated" `
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IsCoverageVariant bool ` blueprint:"mutated" `
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// List of sanitizer names that this APEX is enabled for
SanitizerNames [ ] string ` blueprint:"mutated" `
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PreventInstall bool ` blueprint:"mutated" `
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HideFromMake bool ` blueprint:"mutated" `
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// Internal package method for this APEX. When payload_type is image, this can be either
// imageApex or flattenedApex depending on Config.FlattenApex(). When payload_type is zip,
// this becomes zipApex.
ApexType apexPackaging ` blueprint:"mutated" `
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}
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type ApexNativeDependencies struct {
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// List of native libraries that are embedded inside this APEX.
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Native_shared_libs [ ] string
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// List of JNI libraries that are embedded inside this APEX.
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Jni_libs [ ] string
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// List of rust dyn libraries
Rust_dyn_libs [ ] string
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// List of native executables that are embedded inside this APEX.
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Binaries [ ] string
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// List of native tests that are embedded inside this APEX.
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Tests [ ] string
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// List of filesystem images that are embedded inside this APEX bundle.
Filesystems [ ] string
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}
type apexMultilibProperties struct {
// Native dependencies whose compile_multilib is "first"
First ApexNativeDependencies
// Native dependencies whose compile_multilib is "both"
Both ApexNativeDependencies
// Native dependencies whose compile_multilib is "prefer32"
Prefer32 ApexNativeDependencies
// Native dependencies whose compile_multilib is "32"
Lib32 ApexNativeDependencies
// Native dependencies whose compile_multilib is "64"
Lib64 ApexNativeDependencies
}
type apexTargetBundleProperties struct {
Target struct {
// Multilib properties only for android.
Android struct {
Multilib apexMultilibProperties
}
// Multilib properties only for host.
Host struct {
Multilib apexMultilibProperties
}
// Multilib properties only for host linux_bionic.
Linux_bionic struct {
Multilib apexMultilibProperties
}
// Multilib properties only for host linux_glibc.
Linux_glibc struct {
Multilib apexMultilibProperties
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}
}
}
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type apexArchBundleProperties struct {
Arch struct {
Arm struct {
ApexNativeDependencies
}
Arm64 struct {
ApexNativeDependencies
}
X86 struct {
ApexNativeDependencies
}
X86_64 struct {
ApexNativeDependencies
}
}
}
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// These properties can be used in override_apex to override the corresponding properties in the
// base apex.
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type overridableProperties struct {
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// List of APKs that are embedded inside this APEX.
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Apps [ ] string
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// List of prebuilt files that are embedded inside this APEX bundle.
Prebuilts [ ] string
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// List of runtime resource overlays (RROs) that are embedded inside this APEX.
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Rros [ ] string
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// List of BPF programs inside this APEX bundle.
Bpfs [ ] string
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// List of bootclasspath fragments that are embedded inside this APEX bundle.
Bootclasspath_fragments [ ] string
// List of systemserverclasspath fragments that are embedded inside this APEX bundle.
Systemserverclasspath_fragments [ ] string
// List of java libraries that are embedded inside this APEX bundle.
Java_libs [ ] string
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// Names of modules to be overridden. Listed modules can only be other binaries (in Make or
// Soong). This does not completely prevent installation of the overridden binaries, but if
// both binaries would be installed by default (in PRODUCT_PACKAGES) the other binary will
// be removed from PRODUCT_PACKAGES.
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Overrides [ ] string
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// Logging parent value.
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Logging_parent string
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// Apex Container package name. Override value for attribute package:name in
// AndroidManifest.xml
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Package_name string
// A txt file containing list of files that are allowed to be included in this APEX.
Allowed_files * string ` android:"path" `
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// Name of the apex_key module that provides the private key to sign this APEX bundle.
Key * string
// Specifies the certificate and the private key to sign the zip container of this APEX. If
// this is "foo", foo.x509.pem and foo.pk8 under PRODUCT_DEFAULT_DEV_CERTIFICATE are used
// as the certificate and the private key, respectively. If this is ":module", then the
// certificate and the private key are provided from the android_app_certificate module
// named "module".
Certificate * string
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// Whether this APEX can be compressed or not. Setting this property to false means this
// APEX will never be compressed. When set to true, APEX will be compressed if other
// conditions, e.g., target device needs to support APEX compression, are also fulfilled.
// Default: false.
Compressible * bool
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}
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type apexBundle struct {
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// Inherited structs
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android . ModuleBase
android . DefaultableModuleBase
android . OverridableModuleBase
android . SdkBase
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android . BazelModuleBase
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multitree . ExportableModuleBase
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// Properties
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properties apexBundleProperties
targetProperties apexTargetBundleProperties
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archProperties apexArchBundleProperties
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overridableProperties overridableProperties
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vndkProperties apexVndkProperties // only for apex_vndk modules
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///////////////////////////////////////////////////////////////////////////////////////////
// Inputs
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// Keys for apex_paylaod.img
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publicKeyFile android . Path
privateKeyFile android . Path
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// Cert/priv-key for the zip container
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containerCertificateFile android . Path
containerPrivateKeyFile android . Path
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// Flags for special variants of APEX
testApex bool
vndkApex bool
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// Tells whether this variant of the APEX bundle is the primary one or not. Only the primary
// one gets installed to the device.
primaryApexType bool
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// Suffix of module name in Android.mk ".flattened", ".apex", ".zipapex", or ""
suffix string
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// File system type of apex_payload.img
payloadFsType fsType
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// Whether to create symlink to the system file instead of having a file inside the apex or
// not
linkToSystemLib bool
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// List of files to be included in this APEX. This is filled in the first part of
// GenerateAndroidBuildActions.
filesInfo [ ] apexFile
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// List of other module names that should be installed when this APEX gets installed.
requiredDeps [ ] string
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///////////////////////////////////////////////////////////////////////////////////////////
// Outputs (final and intermediates)
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// Processed apex manifest in JSONson format (for Q)
manifestJsonOut android . WritablePath
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// Processed apex manifest in PB format (for R+)
manifestPbOut android . WritablePath
// Processed file_contexts files
fileContexts android . WritablePath
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// Path to notice file in html.gz format.
htmlGzNotice android . WritablePath
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// The built APEX file. This is the main product.
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// Could be .apex or .capex
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outputFile android . WritablePath
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// The built uncompressed .apex file.
outputApexFile android . WritablePath
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// The built APEX file in app bundle format. This file is not directly installed to the
// device. For an APEX, multiple app bundles are created each of which is for a specific ABI
// like arm, arm64, x86, etc. Then they are processed again (outside of the Android build
// system) to be merged into a single app bundle file that Play accepts. See
// vendor/google/build/build_unbundled_mainline_module.sh for more detail.
bundleModuleFile android . WritablePath
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// Target directory to install this APEX. Usually out/target/product/<device>/<partition>/apex.
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installDir android . InstallPath
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// Path where this APEX was installed.
installedFile android . InstallPath
// Installed locations of symlinks for backward compatibility.
compatSymlinks android . InstallPaths
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// Text file having the list of individual files that are included in this APEX. Used for
// debugging purpose.
installedFilesFile android . WritablePath
// List of module names that this APEX is including (to be shown via *-deps-info target).
// Used for debugging purpose.
android . ApexBundleDepsInfo
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// Optional list of lint report zip files for apexes that contain java or app modules
lintReports android . Paths
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prebuiltFileToDelete string
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isCompressed bool
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// Path of API coverage generate file
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nativeApisUsedByModuleFile android . ModuleOutPath
nativeApisBackedByModuleFile android . ModuleOutPath
javaApisUsedByModuleFile android . ModuleOutPath
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// Collect the module directory for IDE info in java/jdeps.go.
modulePaths [ ] string
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}
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// apexFileClass represents a type of file that can be included in APEX.
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type apexFileClass int
const (
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app apexFileClass = iota
appSet
etc
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goBinary
javaSharedLib
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nativeExecutable
nativeSharedLib
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nativeTest
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pyBinary
shBinary
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)
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// apexFile represents a file in an APEX bundle. This is created during the first half of
// GenerateAndroidBuildActions by traversing the dependencies of the APEX. Then in the second half
// of the function, this is used to create commands that copies the files into a staging directory,
// where they are packaged into the APEX file. This struct is also used for creating Make modules
// for each of the files in case when the APEX is flattened.
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type apexFile struct {
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// buildFile is put in the installDir inside the APEX.
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builtFile android . Path
installDir string
customStem string
symlinks [ ] string // additional symlinks
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// Info for Android.mk Module name of `module` in AndroidMk. Note the generated AndroidMk
// module for apexFile is named something like <AndroidMk module name>.<apex name>[<apex
// suffix>]
androidMkModuleName string // becomes LOCAL_MODULE
class apexFileClass // becomes LOCAL_MODULE_CLASS
moduleDir string // becomes LOCAL_PATH
requiredModuleNames [ ] string // becomes LOCAL_REQUIRED_MODULES
targetRequiredModuleNames [ ] string // becomes LOCAL_TARGET_REQUIRED_MODULES
hostRequiredModuleNames [ ] string // becomes LOCAL_HOST_REQUIRED_MODULES
dataPaths [ ] android . DataPath // becomes LOCAL_TEST_DATA
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jacocoReportClassesFile android . Path // only for javalibs and apps
lintDepSets java . LintDepSets // only for javalibs and apps
certificate java . Certificate // only for apps
overriddenPackageName string // only for apps
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transitiveDep bool
isJniLib bool
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multilib string
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// TODO(jiyong): remove this
module android . Module
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}
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// TODO(jiyong): shorten the arglist using an option struct
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func newApexFile ( ctx android . BaseModuleContext , builtFile android . Path , androidMkModuleName string , installDir string , class apexFileClass , module android . Module ) apexFile {
ret := apexFile {
builtFile : builtFile ,
installDir : installDir ,
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androidMkModuleName : androidMkModuleName ,
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class : class ,
module : module ,
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}
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if module != nil {
ret . moduleDir = ctx . OtherModuleDir ( module )
ret . requiredModuleNames = module . RequiredModuleNames ( )
ret . targetRequiredModuleNames = module . TargetRequiredModuleNames ( )
ret . hostRequiredModuleNames = module . HostRequiredModuleNames ( )
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ret . multilib = module . Target ( ) . Arch . ArchType . Multilib
apex_available tracks static dependencies
This change fixes a bug that apex_available is not enforced for static
dependencies. For example, a module with 'apex_available:
["//apex_available:platform"]' was able to be statically linked to any
APEX. This was happening because the check was done on the modules that
are actually installed to an APEX. Static dependencies of the modules
were not counted as they are not installed to the APEX as files.
Fixing this bug by doing the check by traversing the tree in the method
checkApexAvailability.
This change includes a few number of related changes:
1) DepIsInSameApex implementation for cc.Module was changed as well.
Previuosly, it returned false only when the dependency is actually a
stub variant of a lib. Now, it returns false when the dependency has one
or more stub variants. To understand why, we need to recall that when
there is a dependency to a lib having stubs, we actually create two
dependencies: to the non-stub variant and to the stub variant during the
DepsMutator phase. And later in the build action generation phase, we
choose one of them depending on the context. Also recall that an APEX
variant is created only when DepIsInSameApex returns true. Given these,
with the previous implementatin of DepIsInSameApex, we did create apex
variants of the non-stub variant of the dependency, while not creating
the apex variant for the stub variant. This is not right; we needlessly
created the apex variant. The extra apex variant has caused no harm so
far, but since the apex_available check became more correct, it actually
breaks the build. To fix the issue, we stop creating the APEX variant
both for non-stub and stub variants.
2) platform variant is created regardless of the apex_available value.
This is required for the case when a library X that provides stub is in
an APEX A and is configured to be available only for A. In that case,
libs in other APEX can't use the stub library since the stub library is
mutated only for apex A. By creating the platform variant for the stub
library, it can be used from outside as the default dependency variation
is set to the platform variant when creating the APEX variations.
3) The ApexAvailableWhitelist is added with the dependencies that were
revealed with this change.
Exempt-From-Owner-Approval: cherry-pick from internal
Bug: 147671264
Test: m
Merged-In: Iaedc05494085ff4e8af227a6392bdd0c338b8e6e
(cherry picked from commit fa89944c79f19552e906b41fd03a4981903eee7e)
Change-Id: Iaedc05494085ff4e8af227a6392bdd0c338b8e6e
2020-01-30 18:49:53 +01:00
}
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return ret
}
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func ( af * apexFile ) ok ( ) bool {
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return af . builtFile != nil && af . builtFile . String ( ) != ""
}
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// apexRelativePath returns the relative path of the given path from the install directory of this
// apexFile.
// TODO(jiyong): rename this
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func ( af * apexFile ) apexRelativePath ( path string ) string {
return filepath . Join ( af . installDir , path )
}
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// path returns path of this apex file relative to the APEX root
func ( af * apexFile ) path ( ) string {
return af . apexRelativePath ( af . stem ( ) )
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}
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// stem returns the base filename of this apex file
func ( af * apexFile ) stem ( ) string {
if af . customStem != "" {
return af . customStem
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}
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return af . builtFile . Base ( )
}
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// symlinkPaths returns paths of the symlinks (if any) relative to the APEX root
func ( af * apexFile ) symlinkPaths ( ) [ ] string {
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var ret [ ] string
for _ , symlink := range af . symlinks {
ret = append ( ret , af . apexRelativePath ( symlink ) )
apex_available tracks static dependencies
This change fixes a bug that apex_available is not enforced for static
dependencies. For example, a module with 'apex_available:
["//apex_available:platform"]' was able to be statically linked to any
APEX. This was happening because the check was done on the modules that
are actually installed to an APEX. Static dependencies of the modules
were not counted as they are not installed to the APEX as files.
Fixing this bug by doing the check by traversing the tree in the method
checkApexAvailability.
This change includes a few number of related changes:
1) DepIsInSameApex implementation for cc.Module was changed as well.
Previuosly, it returned false only when the dependency is actually a
stub variant of a lib. Now, it returns false when the dependency has one
or more stub variants. To understand why, we need to recall that when
there is a dependency to a lib having stubs, we actually create two
dependencies: to the non-stub variant and to the stub variant during the
DepsMutator phase. And later in the build action generation phase, we
choose one of them depending on the context. Also recall that an APEX
variant is created only when DepIsInSameApex returns true. Given these,
with the previous implementatin of DepIsInSameApex, we did create apex
variants of the non-stub variant of the dependency, while not creating
the apex variant for the stub variant. This is not right; we needlessly
created the apex variant. The extra apex variant has caused no harm so
far, but since the apex_available check became more correct, it actually
breaks the build. To fix the issue, we stop creating the APEX variant
both for non-stub and stub variants.
2) platform variant is created regardless of the apex_available value.
This is required for the case when a library X that provides stub is in
an APEX A and is configured to be available only for A. In that case,
libs in other APEX can't use the stub library since the stub library is
mutated only for apex A. By creating the platform variant for the stub
library, it can be used from outside as the default dependency variation
is set to the platform variant when creating the APEX variations.
3) The ApexAvailableWhitelist is added with the dependencies that were
revealed with this change.
Exempt-From-Owner-Approval: cherry-pick from internal
Bug: 147671264
Test: m
Merged-In: Iaedc05494085ff4e8af227a6392bdd0c338b8e6e
(cherry picked from commit fa89944c79f19552e906b41fd03a4981903eee7e)
Change-Id: Iaedc05494085ff4e8af227a6392bdd0c338b8e6e
2020-01-30 18:49:53 +01:00
}
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return ret
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}
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// availableToPlatform tests whether this apexFile is from a module that can be installed to the
// platform.
func ( af * apexFile ) availableToPlatform ( ) bool {
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if af . module == nil {
return false
}
if am , ok := af . module . ( android . ApexModule ) ; ok {
return am . AvailableFor ( android . AvailableToPlatform )
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}
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return false
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
// Mutators
//
// Brief description about mutators for APEX. The following three mutators are the most important
// ones.
//
// 1) DepsMutator: from the properties like native_shared_libs, java_libs, etc., modules are added
// to the (direct) dependencies of this APEX bundle.
//
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// 2) apexInfoMutator: this is a post-deps mutator, so runs after DepsMutator. Its goal is to
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// collect modules that are direct and transitive dependencies of each APEX bundle. The collected
// modules are marked as being included in the APEX via BuildForApex().
//
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// 3) apexMutator: this is a post-deps mutator that runs after apexInfoMutator. For each module that
// are marked by the apexInfoMutator, apex variations are created using CreateApexVariations().
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type dependencyTag struct {
blueprint . BaseDependencyTag
name string
// Determines if the dependent will be part of the APEX payload. Can be false for the
// dependencies to the signing key module, etc.
payload bool
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// True if the dependent can only be a source module, false if a prebuilt module is a suitable
// replacement. This is needed because some prebuilt modules do not provide all the information
// needed by the apex.
sourceOnly bool
}
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func ( d * dependencyTag ) String ( ) string {
return fmt . Sprintf ( "apex.dependencyTag{%q}" , d . name )
}
func ( d * dependencyTag ) ReplaceSourceWithPrebuilt ( ) bool {
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return ! d . sourceOnly
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}
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var _ android . ReplaceSourceWithPrebuilt = & dependencyTag { }
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var (
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androidAppTag = & dependencyTag { name : "androidApp" , payload : true }
bpfTag = & dependencyTag { name : "bpf" , payload : true }
certificateTag = & dependencyTag { name : "certificate" }
executableTag = & dependencyTag { name : "executable" , payload : true }
fsTag = & dependencyTag { name : "filesystem" , payload : true }
bcpfTag = & dependencyTag { name : "bootclasspathFragment" , payload : true , sourceOnly : true }
sscpfTag = & dependencyTag { name : "systemserverclasspathFragment" , payload : true , sourceOnly : true }
compatConfigTag = & dependencyTag { name : "compatConfig" , payload : true , sourceOnly : true }
javaLibTag = & dependencyTag { name : "javaLib" , payload : true }
jniLibTag = & dependencyTag { name : "jniLib" , payload : true }
keyTag = & dependencyTag { name : "key" }
prebuiltTag = & dependencyTag { name : "prebuilt" , payload : true }
rroTag = & dependencyTag { name : "rro" , payload : true }
sharedLibTag = & dependencyTag { name : "sharedLib" , payload : true }
testForTag = & dependencyTag { name : "test for" }
testTag = & dependencyTag { name : "test" , payload : true }
shBinaryTag = & dependencyTag { name : "shBinary" , payload : true }
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)
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// TODO(jiyong): shorten this function signature
func addDependenciesForNativeModules ( ctx android . BottomUpMutatorContext , nativeModules ApexNativeDependencies , target android . Target , imageVariation string ) {
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binVariations := target . Variations ( )
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libVariations := append ( target . Variations ( ) , blueprint . Variation { Mutator : "link" , Variation : "shared" } )
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rustLibVariations := append ( target . Variations ( ) , blueprint . Variation { Mutator : "rust_libraries" , Variation : "dylib" } )
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if ctx . Device ( ) {
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binVariations = append ( binVariations , blueprint . Variation { Mutator : "image" , Variation : imageVariation } )
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libVariations = append ( libVariations , blueprint . Variation { Mutator : "image" , Variation : imageVariation } )
rustLibVariations = append ( rustLibVariations , blueprint . Variation { Mutator : "image" , Variation : imageVariation } )
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}
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// Use *FarVariation* to be able to depend on modules having conflicting variations with
// this module. This is required since arch variant of an APEX bundle is 'common' but it is
// 'arm' or 'arm64' for native shared libs.
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ctx . AddFarVariationDependencies ( binVariations , executableTag , nativeModules . Binaries ... )
ctx . AddFarVariationDependencies ( binVariations , testTag , nativeModules . Tests ... )
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ctx . AddFarVariationDependencies ( libVariations , jniLibTag , nativeModules . Jni_libs ... )
ctx . AddFarVariationDependencies ( libVariations , sharedLibTag , nativeModules . Native_shared_libs ... )
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ctx . AddFarVariationDependencies ( rustLibVariations , sharedLibTag , nativeModules . Rust_dyn_libs ... )
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ctx . AddFarVariationDependencies ( target . Variations ( ) , fsTag , nativeModules . Filesystems ... )
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}
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func ( a * apexBundle ) combineProperties ( ctx android . BottomUpMutatorContext ) {
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if ctx . Device ( ) {
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proptools . AppendProperties ( & a . properties . Multilib , & a . targetProperties . Target . Android . Multilib , nil )
} else {
proptools . AppendProperties ( & a . properties . Multilib , & a . targetProperties . Target . Host . Multilib , nil )
if ctx . Os ( ) . Bionic ( ) {
proptools . AppendProperties ( & a . properties . Multilib , & a . targetProperties . Target . Linux_bionic . Multilib , nil )
} else {
proptools . AppendProperties ( & a . properties . Multilib , & a . targetProperties . Target . Linux_glibc . Multilib , nil )
}
}
}
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// getImageVariation returns the image variant name for this apexBundle. In most cases, it's simply
// android.CoreVariation, but gets complicated for the vendor APEXes and the VNDK APEX.
func ( a * apexBundle ) getImageVariation ( ctx android . BottomUpMutatorContext ) string {
deviceConfig := ctx . DeviceConfig ( )
if a . vndkApex {
return cc . VendorVariationPrefix + a . vndkVersion ( deviceConfig )
}
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var prefix string
var vndkVersion string
if deviceConfig . VndkVersion ( ) != "" {
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if a . SocSpecific ( ) || a . DeviceSpecific ( ) {
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prefix = cc . VendorVariationPrefix
vndkVersion = deviceConfig . VndkVersion ( )
} else if a . ProductSpecific ( ) {
prefix = cc . ProductVariationPrefix
vndkVersion = deviceConfig . ProductVndkVersion ( )
}
}
if vndkVersion == "current" {
vndkVersion = deviceConfig . PlatformVndkVersion ( )
}
if vndkVersion != "" {
return prefix + vndkVersion
}
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return android . CoreVariation // The usual case
}
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func ( a * apexBundle ) DepsMutator ( ctx android . BottomUpMutatorContext ) {
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// apexBundle is a multi-arch targets module. Arch variant of apexBundle is set to 'common'.
// arch-specific targets are enabled by the compile_multilib setting of the apex bundle. For
// each target os/architectures, appropriate dependencies are selected by their
// target.<os>.multilib.<type> groups and are added as (direct) dependencies.
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targets := ctx . MultiTargets ( )
imageVariation := a . getImageVariation ( ctx )
a . combineProperties ( ctx )
has32BitTarget := false
for _ , target := range targets {
if target . Arch . ArchType . Multilib == "lib32" {
has32BitTarget = true
}
}
for i , target := range targets {
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// Don't include artifacts for the host cross targets because there is no way for us
// to run those artifacts natively on host
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if target . HostCross {
continue
}
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var depsList [ ] ApexNativeDependencies
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// Add native modules targeting both ABIs. When multilib.* is omitted for
// native_shared_libs/jni_libs/tests, it implies multilib.both
depsList = append ( depsList , a . properties . Multilib . Both )
depsList = append ( depsList , ApexNativeDependencies {
Native_shared_libs : a . properties . Native_shared_libs ,
Tests : a . properties . Tests ,
Jni_libs : a . properties . Jni_libs ,
Binaries : nil ,
} )
// Add native modules targeting the first ABI When multilib.* is omitted for
// binaries, it implies multilib.first
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isPrimaryAbi := i == 0
if isPrimaryAbi {
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depsList = append ( depsList , a . properties . Multilib . First )
depsList = append ( depsList , ApexNativeDependencies {
Native_shared_libs : nil ,
Tests : nil ,
Jni_libs : nil ,
Binaries : a . properties . Binaries ,
} )
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}
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// Add native modules targeting either 32-bit or 64-bit ABI
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switch target . Arch . ArchType . Multilib {
case "lib32" :
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depsList = append ( depsList , a . properties . Multilib . Lib32 )
depsList = append ( depsList , a . properties . Multilib . Prefer32 )
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case "lib64" :
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depsList = append ( depsList , a . properties . Multilib . Lib64 )
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if ! has32BitTarget {
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depsList = append ( depsList , a . properties . Multilib . Prefer32 )
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}
}
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// Add native modules targeting a specific arch variant
switch target . Arch . ArchType {
case android . Arm :
depsList = append ( depsList , a . archProperties . Arch . Arm . ApexNativeDependencies )
case android . Arm64 :
depsList = append ( depsList , a . archProperties . Arch . Arm64 . ApexNativeDependencies )
case android . X86 :
depsList = append ( depsList , a . archProperties . Arch . X86 . ApexNativeDependencies )
case android . X86_64 :
depsList = append ( depsList , a . archProperties . Arch . X86_64 . ApexNativeDependencies )
default :
panic ( fmt . Errorf ( "unsupported arch %v\n" , ctx . Arch ( ) . ArchType ) )
}
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for _ , d := range depsList {
addDependenciesForNativeModules ( ctx , d , target , imageVariation )
}
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ctx . AddFarVariationDependencies ( [ ] blueprint . Variation {
{ Mutator : "os" , Variation : target . OsVariation ( ) } ,
{ Mutator : "arch" , Variation : target . ArchVariation ( ) } ,
} , shBinaryTag , a . properties . Sh_binaries ... )
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}
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// Common-arch dependencies come next
commonVariation := ctx . Config ( ) . AndroidCommonTarget . Variations ( )
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ctx . AddFarVariationDependencies ( commonVariation , fsTag , a . properties . Filesystems ... )
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ctx . AddFarVariationDependencies ( commonVariation , compatConfigTag , a . properties . Compat_configs ... )
Introduce module type 'sdk'
This change introduces a new module type named 'sdk'. It is a logical
group of prebuilt modules that together provide a context (e.g. APIs)
in which Mainline modules (such as APEXes) are built.
A prebuilt module (e.g. java_import) can join an sdk by adding it to the
sdk module as shown below:
sdk {
name: "mysdk#20",
java_libs: ["myjavalib_mysdk_20"],
}
java_import {
name: "myjavalib_mysdk_20",
srcs: ["myjavalib-v20.jar"],
sdk_member_name: "myjavalib",
}
sdk {
name: "mysdk#21",
java_libs: ["myjavalib_mysdk_21"],
}
java_import {
name: "myjavalib_mysdk_21",
srcs: ["myjavalib-v21.jar"],
sdk_member_name: "myjavalib",
}
java_library {
name: "myjavalib",
srcs: ["**/*/*.java"],
}
An APEX can specify the SDK(s) that it wants to build with via the new
'uses_sdks' property.
apex {
name: "myapex",
java_libs: ["libX", "libY"],
uses_sdks: ["mysdk#20"],
}
With this, libX, libY, and their transitive dependencies are all built
with the version 20 of myjavalib (the first java_import module) instead
of the other one (which is for version 21) and java_library having the
same name (which is for ToT).
Bug: 138182343
Test: m (sdk_test.go added)
Change-Id: I7e14c524a7d6a0d9f575fb20822080f39818c01e
2019-07-17 13:08:41 +02:00
}
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// DepsMutator for the overridden properties.
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func ( a * apexBundle ) OverridablePropertiesDepsMutator ( ctx android . BottomUpMutatorContext ) {
if a . overridableProperties . Allowed_files != nil {
android . ExtractSourceDeps ( ctx , a . overridableProperties . Allowed_files )
}
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commonVariation := ctx . Config ( ) . AndroidCommonTarget . Variations ( )
ctx . AddFarVariationDependencies ( commonVariation , androidAppTag , a . overridableProperties . Apps ... )
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ctx . AddFarVariationDependencies ( commonVariation , bpfTag , a . overridableProperties . Bpfs ... )
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ctx . AddFarVariationDependencies ( commonVariation , rroTag , a . overridableProperties . Rros ... )
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ctx . AddFarVariationDependencies ( commonVariation , bcpfTag , a . overridableProperties . Bootclasspath_fragments ... )
ctx . AddFarVariationDependencies ( commonVariation , sscpfTag , a . overridableProperties . Systemserverclasspath_fragments ... )
ctx . AddFarVariationDependencies ( commonVariation , javaLibTag , a . overridableProperties . Java_libs ... )
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if prebuilts := a . overridableProperties . Prebuilts ; len ( prebuilts ) > 0 {
// For prebuilt_etc, use the first variant (64 on 64/32bit device, 32 on 32bit device)
// regardless of the TARGET_PREFER_* setting. See b/144532908
arches := ctx . DeviceConfig ( ) . Arches ( )
if len ( arches ) != 0 {
archForPrebuiltEtc := arches [ 0 ]
for _ , arch := range arches {
// Prefer 64-bit arch if there is any
if arch . ArchType . Multilib == "lib64" {
archForPrebuiltEtc = arch
break
}
}
ctx . AddFarVariationDependencies ( [ ] blueprint . Variation {
{ Mutator : "os" , Variation : ctx . Os ( ) . String ( ) } ,
{ Mutator : "arch" , Variation : archForPrebuiltEtc . String ( ) } ,
} , prebuiltTag , prebuilts ... )
}
}
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// Dependencies for signing
if String ( a . overridableProperties . Key ) == "" {
ctx . PropertyErrorf ( "key" , "missing" )
return
}
ctx . AddDependency ( ctx . Module ( ) , keyTag , String ( a . overridableProperties . Key ) )
cert := android . SrcIsModule ( a . getCertString ( ctx ) )
if cert != "" {
ctx . AddDependency ( ctx . Module ( ) , certificateTag , cert )
// empty cert is not an error. Cert and private keys will be directly found under
// PRODUCT_DEFAULT_DEV_CERTIFICATE
}
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}
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type ApexBundleInfo struct {
Contents * android . ApexContents
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}
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var ApexBundleInfoProvider = blueprint . NewMutatorProvider ( ApexBundleInfo { } , "apex_info" )
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var _ ApexInfoMutator = ( * apexBundle ) ( nil )
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func ( a * apexBundle ) ApexVariationName ( ) string {
return a . properties . ApexVariationName
}
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// ApexInfoMutator is responsible for collecting modules that need to have apex variants. They are
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// identified by doing a graph walk starting from an apexBundle. Basically, all the (direct and
// indirect) dependencies are collected. But a few types of modules that shouldn't be included in
// the apexBundle (e.g. stub libraries) are not collected. Note that a single module can be depended
// on by multiple apexBundles. In that case, the module is collected for all of the apexBundles.
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//
// For each dependency between an apex and an ApexModule an ApexInfo object describing the apex
// is passed to that module's BuildForApex(ApexInfo) method which collates them all in a list.
// The apexMutator uses that list to create module variants for the apexes to which it belongs.
// The relationship between module variants and apexes is not one-to-one as variants will be
// shared between compatible apexes.
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func ( a * apexBundle ) ApexInfoMutator ( mctx android . TopDownMutatorContext ) {
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// The VNDK APEX is special. For the APEX, the membership is described in a very different
// way. There is no dependency from the VNDK APEX to the VNDK libraries. Instead, VNDK
// libraries are self-identified by their vndk.enabled properties. There is no need to run
// this mutator for the APEX as nothing will be collected. So, let's return fast.
if a . vndkApex {
apexDepsMutator is a top-down mutator
apex { name: ["myapex"], native_shared_libs: ["libX", "libY"] }
cc_library { name: "libX", shared_libs: ["libY"] }
cc_library { name: "libY", shared_libs: ["libZ"], stubs: {...} }
apexDepsMutator was a bottom up mutator and it uses WalkDeps to traverse
the dependency tree rooted at myapex in a depth-first order. While
traversing the tree, if calls BuildForApex for a module that will be
part of the APEX.
libY is visited twice. Once via libX and once via myapex. If the visit
from libX was before the visit from myapex (since this is a depth-first
traversing), BuildForApex is not called for libY and its dependency
libZ, because libY provides a stub. And then when libY is again visited
via myapex, BuildForApex is correctly called for the module, but not for
its dependencies libZ because the paths from libY to libZ was already
visited.
As a result, the apex variant of libY has a dependency to the non-apex
variant of libZ.
Fixing the problem by changing the mutator a top-down one.
Bug: 148645937
Test: m
Change-Id: Ib2cb28852087c63a568b3fd036504e9261cf0782
2020-02-11 23:53:12 +01:00
return
2018-10-10 07:01:00 +02:00
}
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// Special casing for APEXes on non-system (e.g., vendor, odm, etc.) partitions. They are
// provided with a property named use_vndk_as_stable, which when set to true doesn't collect
// VNDK libraries as transitive dependencies. This option is useful for reducing the size of
// the non-system APEXes because the VNDK libraries won't be included (and duped) in the
// APEX, but shared across APEXes via the VNDK APEX.
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useVndk := a . SocSpecific ( ) || a . DeviceSpecific ( ) || ( a . ProductSpecific ( ) && mctx . Config ( ) . EnforceProductPartitionInterface ( ) )
excludeVndkLibs := useVndk && proptools . Bool ( a . properties . Use_vndk_as_stable )
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if proptools . Bool ( a . properties . Use_vndk_as_stable ) {
if ! useVndk {
mctx . PropertyErrorf ( "use_vndk_as_stable" , "not supported for system/system_ext APEXes" )
}
mctx . VisitDirectDepsWithTag ( sharedLibTag , func ( dep android . Module ) {
if c , ok := dep . ( * cc . Module ) ; ok && c . IsVndk ( ) {
mctx . PropertyErrorf ( "use_vndk_as_stable" , "Trying to include a VNDK library(%s) while use_vndk_as_stable is true." , dep . Name ( ) )
}
} )
if mctx . Failed ( ) {
return
}
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}
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continueApexDepsWalk := func ( child , parent android . Module ) bool {
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am , ok := child . ( android . ApexModule )
if ! ok || ! am . CanHaveApexVariants ( ) {
return false
}
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depTag := mctx . OtherModuleDependencyTag ( child )
// Check to see if the tag always requires that the child module has an apex variant for every
// apex variant of the parent module. If it does not then it is still possible for something
// else, e.g. the DepIsInSameApex(...) method to decide that a variant is required.
if required , ok := depTag . ( android . AlwaysRequireApexVariantTag ) ; ok && required . AlwaysRequireApexVariant ( ) {
return true
}
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if ! android . IsDepInSameApex ( mctx , parent , child ) {
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return false
}
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if excludeVndkLibs {
if c , ok := child . ( * cc . Module ) ; ok && c . IsVndk ( ) {
return false
}
}
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// By default, all the transitive dependencies are collected, unless filtered out
// above.
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return true
}
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// Records whether a certain module is included in this apexBundle via direct dependency or
// inndirect dependency.
contents := make ( map [ string ] android . ApexMembership )
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mctx . WalkDeps ( func ( child , parent android . Module ) bool {
if ! continueApexDepsWalk ( child , parent ) {
return false
}
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// If the parent is apexBundle, this child is directly depended.
_ , directDep := parent . ( * apexBundle )
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depName := mctx . OtherModuleName ( child )
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contents [ depName ] = contents [ depName ] . Add ( directDep )
return true
} )
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// The membership information is saved for later access
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apexContents := android . NewApexContents ( contents )
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mctx . SetProvider ( ApexBundleInfoProvider , ApexBundleInfo {
Contents : apexContents ,
} )
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minSdkVersion := a . minSdkVersion ( mctx )
// When min_sdk_version is not set, the apex is built against FutureApiLevel.
if minSdkVersion . IsNone ( ) {
minSdkVersion = android . FutureApiLevel
}
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// This is the main part of this mutator. Mark the collected dependencies that they need to
// be built for this apexBundle.
Record the actual APEXes that a module is part of.
Consider this case:
apex {
name: "com.android.foo",
native_libs: ["foo"],
}
override_apex {
name: "com.mycompany.android.foo",
base: "com.android.foo",
}
cc_library {
name: "foo",
}
There are two APEXes defined: "com.android.foo" and
"com.mycompany.android.foo" which is a copy of "com.android.foo" with
some properties overridden (e.g. signing keys).
The module "foo" is mutated into two variants by the apex mutator: the
platform variant and the apex variant. The former has the variation name
"" and the later has "apex<min_api_ver>" which usually is "apex10000".
Internally, the apex variant has an alias "com.android.foo".
ApexInfo.InApexVariants() returns only "com.android.foo" when called for
the module "foo".
We can see that the information that "foo" is also part of
"com.mycompany.android.foo" is completely lost. This is causing problem
when we compare the apex membership by their "soong module name", not
the "apex name". In the example above, the two modules have different
soone module names, but have the same apex name: "com.android.foo".
To fix that, this CL introduces a new field `InApexes` to the `ApexInfo`
struct. It has the actual name of the APEXes that the module is part of.
With the example above, `InApexes` is ["com.android.foo",
"com.mycompany.android.foo"].
Bug: 180325915
Test: m nothing
Test: m nothing on non-AOSP targets with ag/13740887 applied.
Change-Id: I4e7a7ac5495d2e622ba92a4358ed967e066c6c2e
2021-05-12 10:13:56 +02:00
2021-06-24 15:37:13 +02:00
apexVariationName := proptools . StringDefault ( a . properties . Apex_name , mctx . ModuleName ( ) ) // could be com.android.foo
a . properties . ApexVariationName = apexVariationName
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apexInfo := android . ApexInfo {
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ApexVariationName : apexVariationName ,
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MinSdkVersion : minSdkVersion ,
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Updatable : a . Updatable ( ) ,
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UsePlatformApis : a . UsePlatformApis ( ) ,
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InApexVariants : [ ] string { apexVariationName } ,
InApexModules : [ ] string { a . Name ( ) } , // could be com.mycompany.android.foo
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ApexContents : [ ] * android . ApexContents { apexContents } ,
}
mctx . WalkDeps ( func ( child , parent android . Module ) bool {
if ! continueApexDepsWalk ( child , parent ) {
return false
}
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child . ( android . ApexModule ) . BuildForApex ( apexInfo ) // leave a mark!
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return true
apexDepsMutator is a top-down mutator
apex { name: ["myapex"], native_shared_libs: ["libX", "libY"] }
cc_library { name: "libX", shared_libs: ["libY"] }
cc_library { name: "libY", shared_libs: ["libZ"], stubs: {...} }
apexDepsMutator was a bottom up mutator and it uses WalkDeps to traverse
the dependency tree rooted at myapex in a depth-first order. While
traversing the tree, if calls BuildForApex for a module that will be
part of the APEX.
libY is visited twice. Once via libX and once via myapex. If the visit
from libX was before the visit from myapex (since this is a depth-first
traversing), BuildForApex is not called for libY and its dependency
libZ, because libY provides a stub. And then when libY is again visited
via myapex, BuildForApex is correctly called for the module, but not for
its dependencies libZ because the paths from libY to libZ was already
visited.
As a result, the apex variant of libY has a dependency to the non-apex
variant of libZ.
Fixing the problem by changing the mutator a top-down one.
Bug: 148645937
Test: m
Change-Id: Ib2cb28852087c63a568b3fd036504e9261cf0782
2020-02-11 23:53:12 +01:00
} )
2018-10-10 07:01:00 +02:00
}
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type ApexInfoMutator interface {
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// ApexVariationName returns the name of the APEX variation to use in the apex
// mutator etc. It is the same name as ApexInfo.ApexVariationName.
ApexVariationName ( ) string
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// ApexInfoMutator implementations must call BuildForApex(ApexInfo) on any modules that are
// depended upon by an apex and which require an apex specific variant.
ApexInfoMutator ( android . TopDownMutatorContext )
}
// apexInfoMutator delegates the work of identifying which modules need an ApexInfo and apex
// specific variant to modules that support the ApexInfoMutator.
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// It also propagates updatable=true to apps of updatable apexes
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func apexInfoMutator ( mctx android . TopDownMutatorContext ) {
if ! mctx . Module ( ) . Enabled ( ) {
return
}
if a , ok := mctx . Module ( ) . ( ApexInfoMutator ) ; ok {
a . ApexInfoMutator ( mctx )
}
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enforceAppUpdatability ( mctx )
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}
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// apexStrictUpdatibilityLintMutator propagates strict_updatability_linting to transitive deps of a mainline module
// This check is enforced for updatable modules
func apexStrictUpdatibilityLintMutator ( mctx android . TopDownMutatorContext ) {
if ! mctx . Module ( ) . Enabled ( ) {
return
}
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if apex , ok := mctx . Module ( ) . ( * apexBundle ) ; ok && apex . checkStrictUpdatabilityLinting ( ) {
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mctx . WalkDeps ( func ( child , parent android . Module ) bool {
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// b/208656169 Do not propagate strict updatability linting to libcore/
// These libs are available on the classpath during compilation
// These libs are transitive deps of the sdk. See java/sdk.go:decodeSdkDep
// Only skip libraries defined in libcore root, not subdirectories
if mctx . OtherModuleDir ( child ) == "libcore" {
// Do not traverse transitive deps of libcore/ libs
return false
}
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if android . InList ( child . Name ( ) , skipLintJavalibAllowlist ) {
return false
}
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if lintable , ok := child . ( java . LintDepSetsIntf ) ; ok {
lintable . SetStrictUpdatabilityLinting ( true )
}
// visit transitive deps
return true
} )
}
}
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// enforceAppUpdatability propagates updatable=true to apps of updatable apexes
func enforceAppUpdatability ( mctx android . TopDownMutatorContext ) {
if ! mctx . Module ( ) . Enabled ( ) {
return
}
if apex , ok := mctx . Module ( ) . ( * apexBundle ) ; ok && apex . Updatable ( ) {
// checking direct deps is sufficient since apex->apk is a direct edge, even when inherited via apex_defaults
mctx . VisitDirectDeps ( func ( module android . Module ) {
// ignore android_test_app
if app , ok := module . ( * java . AndroidApp ) ; ok {
app . SetUpdatable ( true )
}
} )
}
}
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// TODO: b/215736885 Whittle the denylist
// Transitive deps of certain mainline modules baseline NewApi errors
// Skip these mainline modules for now
var (
skipStrictUpdatabilityLintAllowlist = [ ] string {
"com.android.art" ,
"com.android.art.debug" ,
"com.android.conscrypt" ,
"com.android.media" ,
// test apexes
"test_com.android.art" ,
"test_com.android.conscrypt" ,
"test_com.android.media" ,
"test_jitzygote_com.android.art" ,
}
2022-03-24 21:19:35 +01:00
// TODO: b/215736885 Remove this list
skipLintJavalibAllowlist = [ ] string {
"conscrypt.module.platform.api.stubs" ,
"conscrypt.module.public.api.stubs" ,
"conscrypt.module.public.api.stubs.system" ,
"conscrypt.module.public.api.stubs.module_lib" ,
"framework-media.stubs" ,
"framework-media.stubs.system" ,
"framework-media.stubs.module_lib" ,
}
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)
func ( a * apexBundle ) checkStrictUpdatabilityLinting ( ) bool {
return a . Updatable ( ) && ! android . InList ( a . ApexVariationName ( ) , skipStrictUpdatabilityLintAllowlist )
}
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// apexUniqueVariationsMutator checks if any dependencies use unique apex variations. If so, use
// unique apex variations for this module. See android/apex.go for more about unique apex variant.
// TODO(jiyong): move this to android/apex.go?
Reland: Deduplicate APEX variants that would build identically
APEX variants that share the same SDK version and updatability
almost always use identical command line arguments to build but
with different intermediates directories. This causes unnecessary
build time and disk space for duplicated work.
Deduplicate APEX variants that would build identically. Create
aliases from the per-APEX variations to the new shared variations
so that the APEX modules can continue to depend on them via the
APEX name as the variation.
This has one significant change in behavior. Before this change,
if an APEX had two libraries in its direct dependencies and one
of those libraries depended on the other, and the second library
had stubs, then the first library would depend on the implementation
of the second library and not the stubs. After this change, if
the first library is also present in a second APEX but the second
library is not, then the common variant shared between the two
APEXes would use the stubs, not the implementation.
In a correctly configured set of build rules this change will
be irrelevant, because if the compilation worked for the second
APEX using stubs then it will work for the common variant using
stubs. However, if an incorrect change to the build rules is
made this could lead to confusing errors, as a previously-working
common variant could suddenly stop building when a module is added
to a new APEX without its dependencies that require implementation
APIs to compile.
This change reduces the number of modules in an AOSP arm64-userdebug
build by 3% (52242 to 50586), reduces the number of variants of the
libcutils module from 74 to 53, and reduces the number of variants
of the massive libart[d] modules from 44 to 32.
This relands I0529837476a253c32b3dfb98dcccf107427c742c with a fix
to always mark permissions XML files of java_sdk_library modules as
unique per apex since they contain the APEX filename, and a fix
to UpdateUniqueApexVariationsForDeps to check ApexInfo.InApexes
instead of DepIsInSameApex to check if two modules are in the same
apex to account for a module that depends on another in a way that
doesn't normally include the dependency in the APEX (e.g. a libs
property), but the dependency is directly included in the APEX.
Bug: 164216768
Test: go test ./build/soong/apex/...
Change-Id: I2ae170601f764e5b88d0be2e0e6adc84e3a4d9cc
2020-08-11 21:17:01 +02:00
func apexUniqueVariationsMutator ( mctx android . BottomUpMutatorContext ) {
if ! mctx . Module ( ) . Enabled ( ) {
return
}
if am , ok := mctx . Module ( ) . ( android . ApexModule ) ; ok {
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android . UpdateUniqueApexVariationsForDeps ( mctx , am )
}
}
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// apexTestForDepsMutator checks if this module is a test for an apex. If so, add a dependency on
// the apex in order to retrieve its contents later.
// TODO(jiyong): move this to android/apex.go?
2020-09-16 03:30:11 +02:00
func apexTestForDepsMutator ( mctx android . BottomUpMutatorContext ) {
if ! mctx . Module ( ) . Enabled ( ) {
return
}
if am , ok := mctx . Module ( ) . ( android . ApexModule ) ; ok {
if testFor := am . TestFor ( ) ; len ( testFor ) > 0 {
mctx . AddFarVariationDependencies ( [ ] blueprint . Variation {
{ Mutator : "os" , Variation : am . Target ( ) . OsVariation ( ) } ,
{ "arch" , "common" } ,
} , testForTag , testFor ... )
}
}
}
2020-11-19 15:00:52 +01:00
// TODO(jiyong): move this to android/apex.go?
2020-09-16 03:30:11 +02:00
func apexTestForMutator ( mctx android . BottomUpMutatorContext ) {
if ! mctx . Module ( ) . Enabled ( ) {
return
}
if _ , ok := mctx . Module ( ) . ( android . ApexModule ) ; ok {
var contents [ ] * android . ApexContents
for _ , testFor := range mctx . GetDirectDepsWithTag ( testForTag ) {
abInfo := mctx . OtherModuleProvider ( testFor , ApexBundleInfoProvider ) . ( ApexBundleInfo )
contents = append ( contents , abInfo . Contents )
}
mctx . SetProvider ( android . ApexTestForInfoProvider , android . ApexTestForInfo {
ApexContents : contents ,
} )
Reland: Deduplicate APEX variants that would build identically
APEX variants that share the same SDK version and updatability
almost always use identical command line arguments to build but
with different intermediates directories. This causes unnecessary
build time and disk space for duplicated work.
Deduplicate APEX variants that would build identically. Create
aliases from the per-APEX variations to the new shared variations
so that the APEX modules can continue to depend on them via the
APEX name as the variation.
This has one significant change in behavior. Before this change,
if an APEX had two libraries in its direct dependencies and one
of those libraries depended on the other, and the second library
had stubs, then the first library would depend on the implementation
of the second library and not the stubs. After this change, if
the first library is also present in a second APEX but the second
library is not, then the common variant shared between the two
APEXes would use the stubs, not the implementation.
In a correctly configured set of build rules this change will
be irrelevant, because if the compilation worked for the second
APEX using stubs then it will work for the common variant using
stubs. However, if an incorrect change to the build rules is
made this could lead to confusing errors, as a previously-working
common variant could suddenly stop building when a module is added
to a new APEX without its dependencies that require implementation
APIs to compile.
This change reduces the number of modules in an AOSP arm64-userdebug
build by 3% (52242 to 50586), reduces the number of variants of the
libcutils module from 74 to 53, and reduces the number of variants
of the massive libart[d] modules from 44 to 32.
This relands I0529837476a253c32b3dfb98dcccf107427c742c with a fix
to always mark permissions XML files of java_sdk_library modules as
unique per apex since they contain the APEX filename, and a fix
to UpdateUniqueApexVariationsForDeps to check ApexInfo.InApexes
instead of DepIsInSameApex to check if two modules are in the same
apex to account for a module that depends on another in a way that
doesn't normally include the dependency in the APEX (e.g. a libs
property), but the dependency is directly included in the APEX.
Bug: 164216768
Test: go test ./build/soong/apex/...
Change-Id: I2ae170601f764e5b88d0be2e0e6adc84e3a4d9cc
2020-08-11 21:17:01 +02:00
}
}
2020-11-19 15:00:52 +01:00
// markPlatformAvailability marks whether or not a module can be available to platform. A module
// cannot be available to platform if 1) it is explicitly marked as not available (i.e.
// "//apex_available:platform" is absent) or 2) it depends on another module that isn't (or can't
// be) available to platform
// TODO(jiyong): move this to android/apex.go?
mark platform un-availability
A module is marked unavailable for platform when 1) it does not have
"//apex_available:platform" in its apex_available property, or 2)
it depends on another module that is unavailable for platform.
In that case, LOCAL_NOT_AVAILABLE_FOR_PLATFORM is set to true for the
module in the Make world. Later, that flag is used to ensure that there
is no module with the flag is installed to the device.
The reason why this isn't entirely done in Soong is because Soong
doesn't know if a module will be installed to the device or not. To
explain this, let's have an example.
cc_test { name: "mytest", static_libs: ["libfoo"]}
cc_library_static { name: "libfoo", static_libs: ["libbar"]}
cc_library { name: "libbar", apex_available: ["com.android.xxx"]}
Here, libbar is not available for platform, but is used by libfoo which
is available for platform (apex_available defaults to
"//apex_available:platform"). libfoo is again depended on by mytest
which again is available for platform. The use of libbar should be
allowed in the context of test; we don't want to make libbar available
to platform just for the dependency from test because it will allow
non-test uses of the library as well.
Soong by itself can't tell whether libfoo and libbar are used only in the
context of a test. There could be another module depending them, e.g.,
cc_library_shared { name: "mylib", static_libs: ["libfoo"] }
can exist and it might be installed to the device, in which case
we really should trigger an error.
Since Make has the knowledge of what's installed and what's not,
the check should be done there.
Bug: 153073816
Test: m
Test: remove "//apex_available:platform" from libmdnssd (it is currently
installed to /system/lib), and check that `m system_image` fails
Change-Id: Ia304cc5f41f173229e8a154e90cea4dce46dcebe
2020-04-07 09:37:39 +02:00
func markPlatformAvailability ( mctx android . BottomUpMutatorContext ) {
// Host and recovery are not considered as platform
if mctx . Host ( ) || mctx . Module ( ) . InstallInRecovery ( ) {
return
}
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am , ok := mctx . Module ( ) . ( android . ApexModule )
if ! ok {
return
}
mark platform un-availability
A module is marked unavailable for platform when 1) it does not have
"//apex_available:platform" in its apex_available property, or 2)
it depends on another module that is unavailable for platform.
In that case, LOCAL_NOT_AVAILABLE_FOR_PLATFORM is set to true for the
module in the Make world. Later, that flag is used to ensure that there
is no module with the flag is installed to the device.
The reason why this isn't entirely done in Soong is because Soong
doesn't know if a module will be installed to the device or not. To
explain this, let's have an example.
cc_test { name: "mytest", static_libs: ["libfoo"]}
cc_library_static { name: "libfoo", static_libs: ["libbar"]}
cc_library { name: "libbar", apex_available: ["com.android.xxx"]}
Here, libbar is not available for platform, but is used by libfoo which
is available for platform (apex_available defaults to
"//apex_available:platform"). libfoo is again depended on by mytest
which again is available for platform. The use of libbar should be
allowed in the context of test; we don't want to make libbar available
to platform just for the dependency from test because it will allow
non-test uses of the library as well.
Soong by itself can't tell whether libfoo and libbar are used only in the
context of a test. There could be another module depending them, e.g.,
cc_library_shared { name: "mylib", static_libs: ["libfoo"] }
can exist and it might be installed to the device, in which case
we really should trigger an error.
Since Make has the knowledge of what's installed and what's not,
the check should be done there.
Bug: 153073816
Test: m
Test: remove "//apex_available:platform" from libmdnssd (it is currently
installed to /system/lib), and check that `m system_image` fails
Change-Id: Ia304cc5f41f173229e8a154e90cea4dce46dcebe
2020-04-07 09:37:39 +02:00
2020-11-19 15:00:52 +01:00
availableToPlatform := am . AvailableFor ( android . AvailableToPlatform )
mark platform un-availability
A module is marked unavailable for platform when 1) it does not have
"//apex_available:platform" in its apex_available property, or 2)
it depends on another module that is unavailable for platform.
In that case, LOCAL_NOT_AVAILABLE_FOR_PLATFORM is set to true for the
module in the Make world. Later, that flag is used to ensure that there
is no module with the flag is installed to the device.
The reason why this isn't entirely done in Soong is because Soong
doesn't know if a module will be installed to the device or not. To
explain this, let's have an example.
cc_test { name: "mytest", static_libs: ["libfoo"]}
cc_library_static { name: "libfoo", static_libs: ["libbar"]}
cc_library { name: "libbar", apex_available: ["com.android.xxx"]}
Here, libbar is not available for platform, but is used by libfoo which
is available for platform (apex_available defaults to
"//apex_available:platform"). libfoo is again depended on by mytest
which again is available for platform. The use of libbar should be
allowed in the context of test; we don't want to make libbar available
to platform just for the dependency from test because it will allow
non-test uses of the library as well.
Soong by itself can't tell whether libfoo and libbar are used only in the
context of a test. There could be another module depending them, e.g.,
cc_library_shared { name: "mylib", static_libs: ["libfoo"] }
can exist and it might be installed to the device, in which case
we really should trigger an error.
Since Make has the knowledge of what's installed and what's not,
the check should be done there.
Bug: 153073816
Test: m
Test: remove "//apex_available:platform" from libmdnssd (it is currently
installed to /system/lib), and check that `m system_image` fails
Change-Id: Ia304cc5f41f173229e8a154e90cea4dce46dcebe
2020-04-07 09:37:39 +02:00
2020-11-19 15:00:52 +01:00
// If any of the dep is not available to platform, this module is also considered as being
// not available to platform even if it has "//apex_available:platform"
mctx . VisitDirectDeps ( func ( child android . Module ) {
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if ! android . IsDepInSameApex ( mctx , am , child ) {
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// if the dependency crosses apex boundary, don't consider it
return
mark platform un-availability
A module is marked unavailable for platform when 1) it does not have
"//apex_available:platform" in its apex_available property, or 2)
it depends on another module that is unavailable for platform.
In that case, LOCAL_NOT_AVAILABLE_FOR_PLATFORM is set to true for the
module in the Make world. Later, that flag is used to ensure that there
is no module with the flag is installed to the device.
The reason why this isn't entirely done in Soong is because Soong
doesn't know if a module will be installed to the device or not. To
explain this, let's have an example.
cc_test { name: "mytest", static_libs: ["libfoo"]}
cc_library_static { name: "libfoo", static_libs: ["libbar"]}
cc_library { name: "libbar", apex_available: ["com.android.xxx"]}
Here, libbar is not available for platform, but is used by libfoo which
is available for platform (apex_available defaults to
"//apex_available:platform"). libfoo is again depended on by mytest
which again is available for platform. The use of libbar should be
allowed in the context of test; we don't want to make libbar available
to platform just for the dependency from test because it will allow
non-test uses of the library as well.
Soong by itself can't tell whether libfoo and libbar are used only in the
context of a test. There could be another module depending them, e.g.,
cc_library_shared { name: "mylib", static_libs: ["libfoo"] }
can exist and it might be installed to the device, in which case
we really should trigger an error.
Since Make has the knowledge of what's installed and what's not,
the check should be done there.
Bug: 153073816
Test: m
Test: remove "//apex_available:platform" from libmdnssd (it is currently
installed to /system/lib), and check that `m system_image` fails
Change-Id: Ia304cc5f41f173229e8a154e90cea4dce46dcebe
2020-04-07 09:37:39 +02:00
}
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if dep , ok := child . ( android . ApexModule ) ; ok && dep . NotAvailableForPlatform ( ) {
availableToPlatform = false
// TODO(b/154889534) trigger an error when 'am' has
// "//apex_available:platform"
mark platform un-availability
A module is marked unavailable for platform when 1) it does not have
"//apex_available:platform" in its apex_available property, or 2)
it depends on another module that is unavailable for platform.
In that case, LOCAL_NOT_AVAILABLE_FOR_PLATFORM is set to true for the
module in the Make world. Later, that flag is used to ensure that there
is no module with the flag is installed to the device.
The reason why this isn't entirely done in Soong is because Soong
doesn't know if a module will be installed to the device or not. To
explain this, let's have an example.
cc_test { name: "mytest", static_libs: ["libfoo"]}
cc_library_static { name: "libfoo", static_libs: ["libbar"]}
cc_library { name: "libbar", apex_available: ["com.android.xxx"]}
Here, libbar is not available for platform, but is used by libfoo which
is available for platform (apex_available defaults to
"//apex_available:platform"). libfoo is again depended on by mytest
which again is available for platform. The use of libbar should be
allowed in the context of test; we don't want to make libbar available
to platform just for the dependency from test because it will allow
non-test uses of the library as well.
Soong by itself can't tell whether libfoo and libbar are used only in the
context of a test. There could be another module depending them, e.g.,
cc_library_shared { name: "mylib", static_libs: ["libfoo"] }
can exist and it might be installed to the device, in which case
we really should trigger an error.
Since Make has the knowledge of what's installed and what's not,
the check should be done there.
Bug: 153073816
Test: m
Test: remove "//apex_available:platform" from libmdnssd (it is currently
installed to /system/lib), and check that `m system_image` fails
Change-Id: Ia304cc5f41f173229e8a154e90cea4dce46dcebe
2020-04-07 09:37:39 +02:00
}
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} )
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// Exception 1: check to see if the module always requires it.
if am . AlwaysRequiresPlatformApexVariant ( ) {
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availableToPlatform = true
mark platform un-availability
A module is marked unavailable for platform when 1) it does not have
"//apex_available:platform" in its apex_available property, or 2)
it depends on another module that is unavailable for platform.
In that case, LOCAL_NOT_AVAILABLE_FOR_PLATFORM is set to true for the
module in the Make world. Later, that flag is used to ensure that there
is no module with the flag is installed to the device.
The reason why this isn't entirely done in Soong is because Soong
doesn't know if a module will be installed to the device or not. To
explain this, let's have an example.
cc_test { name: "mytest", static_libs: ["libfoo"]}
cc_library_static { name: "libfoo", static_libs: ["libbar"]}
cc_library { name: "libbar", apex_available: ["com.android.xxx"]}
Here, libbar is not available for platform, but is used by libfoo which
is available for platform (apex_available defaults to
"//apex_available:platform"). libfoo is again depended on by mytest
which again is available for platform. The use of libbar should be
allowed in the context of test; we don't want to make libbar available
to platform just for the dependency from test because it will allow
non-test uses of the library as well.
Soong by itself can't tell whether libfoo and libbar are used only in the
context of a test. There could be another module depending them, e.g.,
cc_library_shared { name: "mylib", static_libs: ["libfoo"] }
can exist and it might be installed to the device, in which case
we really should trigger an error.
Since Make has the knowledge of what's installed and what's not,
the check should be done there.
Bug: 153073816
Test: m
Test: remove "//apex_available:platform" from libmdnssd (it is currently
installed to /system/lib), and check that `m system_image` fails
Change-Id: Ia304cc5f41f173229e8a154e90cea4dce46dcebe
2020-04-07 09:37:39 +02:00
}
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// Exception 2: bootstrap bionic libraries are also always available to platform
if cc . InstallToBootstrap ( mctx . ModuleName ( ) , mctx . Config ( ) ) {
availableToPlatform = true
2020-03-31 16:23:40 +02:00
}
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if ! availableToPlatform {
am . SetNotAvailableForPlatform ( )
}
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}
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// apexMutator visits each module and creates apex variations if the module was marked in the
2020-12-08 11:34:30 +01:00
// previous run of apexInfoMutator.
2018-10-10 07:01:00 +02:00
func apexMutator ( mctx android . BottomUpMutatorContext ) {
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if ! mctx . Module ( ) . Enabled ( ) {
return
}
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// This is the usual path.
2018-10-10 07:01:00 +02:00
if am , ok := mctx . Module ( ) . ( android . ApexModule ) ; ok && am . CanHaveApexVariants ( ) {
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android . CreateApexVariations ( mctx , am )
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return
}
// apexBundle itself is mutated so that it and its dependencies have the same apex variant.
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if ai , ok := mctx . Module ( ) . ( ApexInfoMutator ) ; ok && apexModuleTypeRequiresVariant ( ai ) {
apexBundleName := ai . ApexVariationName ( )
2018-10-10 07:01:00 +02:00
mctx . CreateVariations ( apexBundleName )
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if strings . HasPrefix ( apexBundleName , "com.android.art" ) {
// Create an alias from the platform variant. This is done to make
// test_for dependencies work for modules that are split by the APEX
// mutator, since test_for dependencies always go to the platform variant.
// This doesn't happen for normal APEXes that are disjunct, so only do
// this for the overlapping ART APEXes.
// TODO(b/183882457): Remove this if the test_for functionality is
// refactored to depend on the proper APEX variants instead of platform.
mctx . CreateAliasVariation ( "" , apexBundleName )
}
2019-11-15 10:40:32 +01:00
} else if o , ok := mctx . Module ( ) . ( * OverrideApex ) ; ok {
apexBundleName := o . GetOverriddenModuleName ( )
if apexBundleName == "" {
mctx . ModuleErrorf ( "base property is not set" )
return
}
mctx . CreateVariations ( apexBundleName )
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if strings . HasPrefix ( apexBundleName , "com.android.art" ) {
// TODO(b/183882457): See note for CreateAliasVariation above.
mctx . CreateAliasVariation ( "" , apexBundleName )
}
2018-10-10 07:01:00 +02:00
}
}
2019-09-06 10:37:42 +02:00
2021-06-15 20:09:41 +02:00
// apexModuleTypeRequiresVariant determines whether the module supplied requires an apex specific
// variant.
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func apexModuleTypeRequiresVariant ( module ApexInfoMutator ) bool {
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if a , ok := module . ( * apexBundle ) ; ok {
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// TODO(jiyong): document the reason why the VNDK APEX is an exception here.
2021-06-15 20:09:41 +02:00
return ! a . vndkApex
}
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return true
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}
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// See android.UpdateDirectlyInAnyApex
// TODO(jiyong): move this to android/apex.go?
2020-09-16 03:30:11 +02:00
func apexDirectlyInAnyMutator ( mctx android . BottomUpMutatorContext ) {
if ! mctx . Module ( ) . Enabled ( ) {
return
}
if am , ok := mctx . Module ( ) . ( android . ApexModule ) ; ok {
android . UpdateDirectlyInAnyApex ( mctx , am )
}
}
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// apexPackaging represents a specific packaging method for an APEX.
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type apexPackaging int
const (
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// imageApex is a packaging method where contents are included in a filesystem image which
// is then included in a zip container. This is the most typical way of packaging.
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imageApex apexPackaging = iota
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// zipApex is a packaging method where contents are directly included in the zip container.
// This is used for host-side testing - because the contents are easily accessible by
// unzipping the container.
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zipApex
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// flattendApex is a packaging method where contents are not included in the APEX file, but
// installed to /apex/<apexname> directory on the device. This packaging method is used for
// old devices where the filesystem-based APEX file can't be supported.
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flattenedApex
)
const (
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// File extensions of an APEX for different packaging methods
2021-09-08 18:48:28 +02:00
imageApexSuffix = ".apex"
imageCapexSuffix = ".capex"
zipApexSuffix = ".zipapex"
flattenedSuffix = ".flattened"
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// variant names each of which is for a packaging method
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imageApexType = "image"
zipApexType = "zip"
flattenedApexType = "flattened"
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ext4FsType = "ext4"
f2fsFsType = "f2fs"
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erofsFsType = "erofs"
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)
// The suffix for the output "file", not the module
func ( a apexPackaging ) suffix ( ) string {
switch a {
case imageApex :
return imageApexSuffix
case zipApex :
return zipApexSuffix
default :
panic ( fmt . Errorf ( "unknown APEX type %d" , a ) )
}
}
func ( a apexPackaging ) name ( ) string {
switch a {
case imageApex :
return imageApexType
case zipApex :
return zipApexType
default :
panic ( fmt . Errorf ( "unknown APEX type %d" , a ) )
}
}
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// apexFlattenedMutator creates one or more variations each of which is for a packaging method.
// TODO(jiyong): give a better name to this mutator
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func apexFlattenedMutator ( mctx android . BottomUpMutatorContext ) {
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if ! mctx . Module ( ) . Enabled ( ) {
return
}
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if ab , ok := mctx . Module ( ) . ( * apexBundle ) ; ok {
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var variants [ ] string
switch proptools . StringDefault ( ab . properties . Payload_type , "image" ) {
case "image" :
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// This is the normal case. Note that both image and flattend APEXes are
// created. The image type is installed to the system partition, while the
// flattened APEX is (optionally) installed to the system_ext partition.
// This is mostly for GSI which has to support wide range of devices. If GSI
// is installed on a newer (APEX-capable) device, the image APEX in the
// system will be used. However, if the same GSI is installed on an old
// device which can't support image APEX, the flattened APEX in the
// system_ext partion (which still is part of GSI) is used instead.
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variants = append ( variants , imageApexType , flattenedApexType )
case "zip" :
variants = append ( variants , zipApexType )
case "both" :
variants = append ( variants , imageApexType , zipApexType , flattenedApexType )
default :
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mctx . PropertyErrorf ( "payload_type" , "%q is not one of \"image\", \"zip\", or \"both\"." , * ab . properties . Payload_type )
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return
}
modules := mctx . CreateLocalVariations ( variants ... )
for i , v := range variants {
switch v {
case imageApexType :
modules [ i ] . ( * apexBundle ) . properties . ApexType = imageApex
case zipApexType :
modules [ i ] . ( * apexBundle ) . properties . ApexType = zipApex
case flattenedApexType :
modules [ i ] . ( * apexBundle ) . properties . ApexType = flattenedApex
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// See the comment above for why system_ext.
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if ! mctx . Config ( ) . FlattenApex ( ) && ab . Platform ( ) {
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modules [ i ] . ( * apexBundle ) . MakeAsSystemExt ( )
}
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}
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}
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} else if _ , ok := mctx . Module ( ) . ( * OverrideApex ) ; ok {
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// payload_type is forcibly overridden to "image"
// TODO(jiyong): is this the right decision?
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mctx . CreateVariations ( imageApexType , flattenedApexType )
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}
}
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var _ android . DepIsInSameApex = ( * apexBundle ) ( nil )
2019-08-23 04:17:39 +02:00
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// Implements android.DepInInSameApex
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func ( a * apexBundle ) DepIsInSameApex ( ctx android . BaseModuleContext , dep android . Module ) bool {
// direct deps of an APEX bundle are all part of the APEX bundle
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// TODO(jiyong): shouldn't we look into the payload field of the dependencyTag?
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return true
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}
2019-08-23 04:17:39 +02:00
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var _ android . OutputFileProducer = ( * apexBundle ) ( nil )
2019-01-30 03:07:33 +01:00
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// Implements android.OutputFileProducer
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func ( a * apexBundle ) OutputFiles ( tag string ) ( android . Paths , error ) {
switch tag {
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case "" , android . DefaultDistTag :
// This is the default dist path.
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return android . Paths { a . outputFile } , nil
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case imageApexSuffix :
// uncompressed one
if a . outputApexFile != nil {
return android . Paths { a . outputApexFile } , nil
}
fallthrough
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default :
return nil , fmt . Errorf ( "unsupported module reference tag %q" , tag )
}
}
2019-01-30 03:07:33 +01:00
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var _ multitree . Exportable = ( * apexBundle ) ( nil )
func ( a * apexBundle ) Exportable ( ) bool {
if a . properties . ApexType == flattenedApex {
return false
}
return true
}
func ( a * apexBundle ) TaggedOutputs ( ) map [ string ] android . Paths {
ret := make ( map [ string ] android . Paths )
ret [ "apex" ] = android . Paths { a . outputFile }
return ret
}
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var _ cc . Coverage = ( * apexBundle ) ( nil )
// Implements cc.Coverage
func ( a * apexBundle ) IsNativeCoverageNeeded ( ctx android . BaseModuleContext ) bool {
return ctx . Device ( ) && ctx . DeviceConfig ( ) . NativeCoverageEnabled ( )
}
// Implements cc.Coverage
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func ( a * apexBundle ) SetPreventInstall ( ) {
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a . properties . PreventInstall = true
}
// Implements cc.Coverage
func ( a * apexBundle ) HideFromMake ( ) {
a . properties . HideFromMake = true
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// This HideFromMake is shadowing the ModuleBase one, call through to it for now.
// TODO(ccross): untangle these
a . ModuleBase . HideFromMake ( )
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}
// Implements cc.Coverage
func ( a * apexBundle ) MarkAsCoverageVariant ( coverage bool ) {
a . properties . IsCoverageVariant = coverage
}
// Implements cc.Coverage
func ( a * apexBundle ) EnableCoverageIfNeeded ( ) { }
var _ android . ApexBundleDepsInfoIntf = ( * apexBundle ) ( nil )
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// Implements android.ApexBundleDepsInfoIntf
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func ( a * apexBundle ) Updatable ( ) bool {
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return proptools . BoolDefault ( a . properties . Updatable , true )
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}
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func ( a * apexBundle ) FutureUpdatable ( ) bool {
return proptools . BoolDefault ( a . properties . Future_updatable , false )
}
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func ( a * apexBundle ) UsePlatformApis ( ) bool {
return proptools . BoolDefault ( a . properties . Platform_apis , false )
}
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// getCertString returns the name of the cert that should be used to sign this APEX. This is
// basically from the "certificate" property, but could be overridden by the device config.
func ( a * apexBundle ) getCertString ( ctx android . BaseModuleContext ) string {
moduleName := ctx . ModuleName ( )
// VNDK APEXes share the same certificate. To avoid adding a new VNDK version to the
// OVERRIDE_* list, we check with the pseudo module name to see if its certificate is
// overridden.
if a . vndkApex {
moduleName = vndkApexName
}
certificate , overridden := ctx . DeviceConfig ( ) . OverrideCertificateFor ( moduleName )
if overridden {
return ":" + certificate
}
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return String ( a . overridableProperties . Certificate )
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}
// See the installable property
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func ( a * apexBundle ) installable ( ) bool {
return ! a . properties . PreventInstall && ( a . properties . Installable == nil || proptools . Bool ( a . properties . Installable ) )
}
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// See the generate_hashtree property
func ( a * apexBundle ) shouldGenerateHashtree ( ) bool {
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return proptools . BoolDefault ( a . properties . Generate_hashtree , true )
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}
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// See the test_only_unsigned_payload property
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func ( a * apexBundle ) testOnlyShouldSkipPayloadSign ( ) bool {
return proptools . Bool ( a . properties . Test_only_unsigned_payload )
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}
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// See the test_only_force_compression property
func ( a * apexBundle ) testOnlyShouldForceCompression ( ) bool {
return proptools . Bool ( a . properties . Test_only_force_compression )
}
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// These functions are interfacing with cc/sanitizer.go. The entire APEX (along with all of its
// members) can be sanitized, either forcibly, or by the global configuration. For some of the
// sanitizers, extra dependencies can be forcibly added as well.
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func ( a * apexBundle ) EnableSanitizer ( sanitizerName string ) {
if ! android . InList ( sanitizerName , a . properties . SanitizerNames ) {
a . properties . SanitizerNames = append ( a . properties . SanitizerNames , sanitizerName )
}
}
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func ( a * apexBundle ) IsSanitizerEnabled ( ctx android . BaseModuleContext , sanitizerName string ) bool {
if android . InList ( sanitizerName , a . properties . SanitizerNames ) {
return true
}
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// Then follow the global setting
globalSanitizerNames := [ ] string { }
if a . Host ( ) {
globalSanitizerNames = ctx . Config ( ) . SanitizeHost ( )
} else {
arches := ctx . Config ( ) . SanitizeDeviceArch ( )
if len ( arches ) == 0 || android . InList ( a . Arch ( ) . ArchType . Name , arches ) {
globalSanitizerNames = ctx . Config ( ) . SanitizeDevice ( )
}
}
return android . InList ( sanitizerName , globalSanitizerNames )
}
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func ( a * apexBundle ) AddSanitizerDependencies ( ctx android . BottomUpMutatorContext , sanitizerName string ) {
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// TODO(jiyong): move this info (the sanitizer name, the lib name, etc.) to cc/sanitize.go
// Keep only the mechanism here.
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if ctx . Device ( ) && sanitizerName == "hwaddress" && strings . HasPrefix ( a . Name ( ) , "com.android.runtime" ) {
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imageVariation := a . getImageVariation ( ctx )
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for _ , target := range ctx . MultiTargets ( ) {
if target . Arch . ArchType . Multilib == "lib64" {
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addDependenciesForNativeModules ( ctx , ApexNativeDependencies {
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Native_shared_libs : [ ] string { "libclang_rt.hwasan" } ,
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Tests : nil ,
Jni_libs : nil ,
Binaries : nil ,
} , target , imageVariation )
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break
}
}
}
}
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// apexFileFor<Type> functions below create an apexFile struct for a given Soong module. The
// returned apexFile saves information about the Soong module that will be used for creating the
// build rules.
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func apexFileForNativeLibrary ( ctx android . BaseModuleContext , ccMod * cc . Module , handleSpecialLibs bool ) apexFile {
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// Decide the APEX-local directory by the multilib of the library In the future, we may
// query this to the module.
// TODO(jiyong): use the new PackagingSpec
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var dirInApex string
switch ccMod . Arch ( ) . ArchType . Multilib {
case "lib32" :
dirInApex = "lib"
case "lib64" :
dirInApex = "lib64"
}
if ccMod . Target ( ) . NativeBridge == android . NativeBridgeEnabled {
dirInApex = filepath . Join ( dirInApex , ccMod . Target ( ) . NativeBridgeRelativePath )
}
dirInApex = filepath . Join ( dirInApex , ccMod . RelativeInstallPath ( ) )
if handleSpecialLibs && cc . InstallToBootstrap ( ccMod . BaseModuleName ( ) , ctx . Config ( ) ) {
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// Special case for Bionic libs and other libs installed with them. This is to
// prevent those libs from being included in the search path
// /apex/com.android.runtime/${LIB}. This exclusion is required because those libs
// in the Runtime APEX are available via the legacy paths in /system/lib/. By the
// init process, the libs in the APEX are bind-mounted to the legacy paths and thus
// will be loaded into the default linker namespace (aka "platform" namespace). If
// the libs are directly in /apex/com.android.runtime/${LIB} then the same libs will
// be loaded again into the runtime linker namespace, which will result in double
// loading of them, which isn't supported.
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dirInApex = filepath . Join ( dirInApex , "bionic" )
}
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fileToCopy := ccMod . OutputFile ( ) . Path ( )
androidMkModuleName := ccMod . BaseModuleName ( ) + ccMod . Properties . SubName
return newApexFile ( ctx , fileToCopy , androidMkModuleName , dirInApex , nativeSharedLib , ccMod )
}
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func apexFileForExecutable ( ctx android . BaseModuleContext , cc * cc . Module ) apexFile {
dirInApex := "bin"
if cc . Target ( ) . NativeBridge == android . NativeBridgeEnabled {
dirInApex = filepath . Join ( dirInApex , cc . Target ( ) . NativeBridgeRelativePath )
}
dirInApex = filepath . Join ( dirInApex , cc . RelativeInstallPath ( ) )
fileToCopy := cc . OutputFile ( ) . Path ( )
androidMkModuleName := cc . BaseModuleName ( ) + cc . Properties . SubName
af := newApexFile ( ctx , fileToCopy , androidMkModuleName , dirInApex , nativeExecutable , cc )
af . symlinks = cc . Symlinks ( )
af . dataPaths = cc . DataPaths ( )
return af
}
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func apexFileForRustExecutable ( ctx android . BaseModuleContext , rustm * rust . Module ) apexFile {
dirInApex := "bin"
if rustm . Target ( ) . NativeBridge == android . NativeBridgeEnabled {
dirInApex = filepath . Join ( dirInApex , rustm . Target ( ) . NativeBridgeRelativePath )
}
fileToCopy := rustm . OutputFile ( ) . Path ( )
androidMkModuleName := rustm . BaseModuleName ( ) + rustm . Properties . SubName
af := newApexFile ( ctx , fileToCopy , androidMkModuleName , dirInApex , nativeExecutable , rustm )
return af
}
func apexFileForRustLibrary ( ctx android . BaseModuleContext , rustm * rust . Module ) apexFile {
// Decide the APEX-local directory by the multilib of the library
// In the future, we may query this to the module.
var dirInApex string
switch rustm . Arch ( ) . ArchType . Multilib {
case "lib32" :
dirInApex = "lib"
case "lib64" :
dirInApex = "lib64"
}
if rustm . Target ( ) . NativeBridge == android . NativeBridgeEnabled {
dirInApex = filepath . Join ( dirInApex , rustm . Target ( ) . NativeBridgeRelativePath )
}
fileToCopy := rustm . OutputFile ( ) . Path ( )
androidMkModuleName := rustm . BaseModuleName ( ) + rustm . Properties . SubName
return newApexFile ( ctx , fileToCopy , androidMkModuleName , dirInApex , nativeSharedLib , rustm )
}
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func apexFileForPyBinary ( ctx android . BaseModuleContext , py * python . Module ) apexFile {
dirInApex := "bin"
fileToCopy := py . HostToolPath ( ) . Path ( )
return newApexFile ( ctx , fileToCopy , py . BaseModuleName ( ) , dirInApex , pyBinary , py )
}
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func apexFileForGoBinary ( ctx android . BaseModuleContext , depName string , gb bootstrap . GoBinaryTool ) apexFile {
dirInApex := "bin"
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fileToCopy := android . PathForGoBinary ( ctx , gb )
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// NB: Since go binaries are static we don't need the module for anything here, which is
// good since the go tool is a blueprint.Module not an android.Module like we would
// normally use.
return newApexFile ( ctx , fileToCopy , depName , dirInApex , goBinary , nil )
}
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func apexFileForShBinary ( ctx android . BaseModuleContext , sh * sh . ShBinary ) apexFile {
dirInApex := filepath . Join ( "bin" , sh . SubDir ( ) )
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if sh . Target ( ) . NativeBridge == android . NativeBridgeEnabled {
dirInApex = filepath . Join ( dirInApex , sh . Target ( ) . NativeBridgeRelativePath )
}
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fileToCopy := sh . OutputFile ( )
af := newApexFile ( ctx , fileToCopy , sh . BaseModuleName ( ) , dirInApex , shBinary , sh )
af . symlinks = sh . Symlinks ( )
return af
}
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func apexFileForPrebuiltEtc ( ctx android . BaseModuleContext , prebuilt prebuilt_etc . PrebuiltEtcModule , depName string ) apexFile {
dirInApex := filepath . Join ( prebuilt . BaseDir ( ) , prebuilt . SubDir ( ) )
fileToCopy := prebuilt . OutputFile ( )
return newApexFile ( ctx , fileToCopy , depName , dirInApex , etc , prebuilt )
}
func apexFileForCompatConfig ( ctx android . BaseModuleContext , config java . PlatformCompatConfigIntf , depName string ) apexFile {
dirInApex := filepath . Join ( "etc" , config . SubDir ( ) )
fileToCopy := config . CompatConfig ( )
return newApexFile ( ctx , fileToCopy , depName , dirInApex , etc , config )
}
// javaModule is an interface to handle all Java modules (java_library, dex_import, etc) in the same
// way.
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type javaModule interface {
android . Module
BaseModuleName ( ) string
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DexJarBuildPath ( ) java . OptionalDexJarPath
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JacocoReportClassesFile ( ) android . Path
LintDepSets ( ) java . LintDepSets
Stem ( ) string
}
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var _ javaModule = ( * java . Library ) ( nil )
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var _ javaModule = ( * java . Import ) ( nil )
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var _ javaModule = ( * java . SdkLibrary ) ( nil )
var _ javaModule = ( * java . DexImport ) ( nil )
var _ javaModule = ( * java . SdkLibraryImport ) ( nil )
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// apexFileForJavaModule creates an apexFile for a java module's dex implementation jar.
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func apexFileForJavaModule ( ctx android . BaseModuleContext , module javaModule ) apexFile {
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return apexFileForJavaModuleWithFile ( ctx , module , module . DexJarBuildPath ( ) . PathOrNil ( ) )
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}
// apexFileForJavaModuleWithFile creates an apexFile for a java module with the supplied file.
func apexFileForJavaModuleWithFile ( ctx android . BaseModuleContext , module javaModule , dexImplementationJar android . Path ) apexFile {
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dirInApex := "javalib"
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af := newApexFile ( ctx , dexImplementationJar , module . BaseModuleName ( ) , dirInApex , javaSharedLib , module )
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af . jacocoReportClassesFile = module . JacocoReportClassesFile ( )
af . lintDepSets = module . LintDepSets ( )
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af . customStem = module . Stem ( ) + ".jar"
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if dexpreopter , ok := module . ( java . DexpreopterInterface ) ; ok {
for _ , install := range dexpreopter . DexpreoptBuiltInstalledForApex ( ) {
af . requiredModuleNames = append ( af . requiredModuleNames , install . FullModuleName ( ) )
}
}
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return af
}
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// androidApp is an interface to handle all app modules (android_app, android_app_import, etc.) in
// the same way.
type androidApp interface {
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android . Module
Privileged ( ) bool
InstallApkName ( ) string
OutputFile ( ) android . Path
JacocoReportClassesFile ( ) android . Path
Certificate ( ) java . Certificate
BaseModuleName ( ) string
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LintDepSets ( ) java . LintDepSets
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}
var _ androidApp = ( * java . AndroidApp ) ( nil )
var _ androidApp = ( * java . AndroidAppImport ) ( nil )
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func sanitizedBuildIdForPath ( ctx android . BaseModuleContext ) string {
buildId := ctx . Config ( ) . BuildId ( )
// The build ID is used as a suffix for a filename, so ensure that
// the set of characters being used are sanitized.
// - any word character: [a-zA-Z0-9_]
// - dots: .
// - dashes: -
validRegex := regexp . MustCompile ( ` ^[\w\.\-\_]+$ ` )
if ! validRegex . MatchString ( buildId ) {
ctx . ModuleErrorf ( "Unable to use build id %s as filename suffix, valid characters are [a-z A-Z 0-9 _ . -]." , buildId )
}
return buildId
}
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func apexFileForAndroidApp ( ctx android . BaseModuleContext , aapp androidApp ) apexFile {
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appDir := "app"
if aapp . Privileged ( ) {
appDir = "priv-app"
}
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// TODO(b/224589412, b/226559955): Ensure that the subdirname is suffixed
// so that PackageManager correctly invalidates the existing installed apk
// in favour of the new APK-in-APEX. See bugs for more information.
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dirInApex := filepath . Join ( appDir , aapp . InstallApkName ( ) + "@" + sanitizedBuildIdForPath ( ctx ) )
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fileToCopy := aapp . OutputFile ( )
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af := newApexFile ( ctx , fileToCopy , aapp . BaseModuleName ( ) , dirInApex , app , aapp )
af . jacocoReportClassesFile = aapp . JacocoReportClassesFile ( )
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af . lintDepSets = aapp . LintDepSets ( )
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af . certificate = aapp . Certificate ( )
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if app , ok := aapp . ( interface {
OverriddenManifestPackageName ( ) string
} ) ; ok {
af . overriddenPackageName = app . OverriddenManifestPackageName ( )
}
return af
}
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func apexFileForRuntimeResourceOverlay ( ctx android . BaseModuleContext , rro java . RuntimeResourceOverlayModule ) apexFile {
rroDir := "overlay"
dirInApex := filepath . Join ( rroDir , rro . Theme ( ) )
fileToCopy := rro . OutputFile ( )
af := newApexFile ( ctx , fileToCopy , rro . Name ( ) , dirInApex , app , rro )
af . certificate = rro . Certificate ( )
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if a , ok := rro . ( interface {
OverriddenManifestPackageName ( ) string
} ) ; ok {
af . overriddenPackageName = a . OverriddenManifestPackageName ( )
}
return af
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}
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func apexFileForBpfProgram ( ctx android . BaseModuleContext , builtFile android . Path , apex_sub_dir string , bpfProgram bpf . BpfModule ) apexFile {
dirInApex := filepath . Join ( "etc" , "bpf" , apex_sub_dir )
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return newApexFile ( ctx , builtFile , builtFile . Base ( ) , dirInApex , etc , bpfProgram )
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}
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func apexFileForFilesystem ( ctx android . BaseModuleContext , buildFile android . Path , fs filesystem . Filesystem ) apexFile {
dirInApex := filepath . Join ( "etc" , "fs" )
return newApexFile ( ctx , buildFile , buildFile . Base ( ) , dirInApex , etc , fs )
}
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// WalkPayloadDeps visits dependencies that contributes to the payload of this APEX. For each of the
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// visited module, the `do` callback is executed. Returning true in the callback continues the visit
// to the child modules. Returning false makes the visit to continue in the sibling or the parent
// modules. This is used in check* functions below.
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func ( a * apexBundle ) WalkPayloadDeps ( ctx android . ModuleContext , do android . PayloadDepsCallback ) {
ctx . WalkDeps ( func ( child , parent android . Module ) bool {
am , ok := child . ( android . ApexModule )
if ! ok || ! am . CanHaveApexVariants ( ) {
return false
binaries and native_shared_libraires are multilib-aware props
The properties 'binaries' and 'native_shared_libraries' can be
multilib-aware, i.e, can be under multilib.type where type can be either
first, both, lib32, lib64, or prefer32.
Native modules listed in multilib.first are installed only for the first
ABI of the device. Similarily, multilib.both are for both of the ABIs,
while multilib.lib32 and multilib.lib64 are 32 and 64-bit ABI only,
respectively. multilib.prefer32 is for 32-bit only when 32-bit ABI is
available.
Another change is that the binaries property, when not within multilib,
targets only the first ABI.
Test: m apex.test on ...
1) aosp_arm64 without TARGET_PREFER_32_BIT_EXECUTABLES=true
2) aosp_arm64 with TARGET_PREFER_32_BIT_EXECUTABLES=true
3) aosp_arm
in all cases, vold, surfaceflinger and drmserver are all intalled under
./bin directory of the APEX. And native libraries are installed under
both ./lib and ./lib64 directories in the case of 1) and 2).
Change-Id: Idd7f8526a61bceca89d43c0c69ccedb471b67d31
2018-10-24 14:09:55 +02:00
}
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// Filter-out unwanted depedendencies
depTag := ctx . OtherModuleDependencyTag ( child )
if _ , ok := depTag . ( android . ExcludeFromApexContentsTag ) ; ok {
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return false
binaries and native_shared_libraires are multilib-aware props
The properties 'binaries' and 'native_shared_libraries' can be
multilib-aware, i.e, can be under multilib.type where type can be either
first, both, lib32, lib64, or prefer32.
Native modules listed in multilib.first are installed only for the first
ABI of the device. Similarily, multilib.both are for both of the ABIs,
while multilib.lib32 and multilib.lib64 are 32 and 64-bit ABI only,
respectively. multilib.prefer32 is for 32-bit only when 32-bit ABI is
available.
Another change is that the binaries property, when not within multilib,
targets only the first ABI.
Test: m apex.test on ...
1) aosp_arm64 without TARGET_PREFER_32_BIT_EXECUTABLES=true
2) aosp_arm64 with TARGET_PREFER_32_BIT_EXECUTABLES=true
3) aosp_arm
in all cases, vold, surfaceflinger and drmserver are all intalled under
./bin directory of the APEX. And native libraries are installed under
both ./lib and ./lib64 directories in the case of 1) and 2).
Change-Id: Idd7f8526a61bceca89d43c0c69ccedb471b67d31
2018-10-24 14:09:55 +02:00
}
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if dt , ok := depTag . ( * dependencyTag ) ; ok && ! dt . payload {
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return false
}
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ai := ctx . OtherModuleProvider ( child , android . ApexInfoProvider ) . ( android . ApexInfo )
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externalDep := ! android . InList ( ctx . ModuleName ( ) , ai . InApexVariants )
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// Visit actually
return do ( ctx , parent , am , externalDep )
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} )
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}
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// filesystem type of the apex_payload.img inside the APEX. Currently, ext4 and f2fs are supported.
type fsType int
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const (
ext4 fsType = iota
f2fs
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erofs
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)
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func ( f fsType ) string ( ) string {
switch f {
case ext4 :
return ext4FsType
case f2fs :
return f2fsFsType
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case erofs :
return erofsFsType
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default :
panic ( fmt . Errorf ( "unknown APEX payload type %d" , f ) )
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}
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}
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// Creates build rules for an APEX. It consists of the following major steps:
//
// 1) do some validity checks such as apex_available, min_sdk_version, etc.
// 2) traverse the dependency tree to collect apexFile structs from them.
// 3) some fields in apexBundle struct are configured
// 4) generate the build rules to create the APEX. This is mostly done in builder.go.
func ( a * apexBundle ) GenerateAndroidBuildActions ( ctx android . ModuleContext ) {
////////////////////////////////////////////////////////////////////////////////////////////
// 1) do some validity checks such as apex_available, min_sdk_version, etc.
a . checkApexAvailability ( ctx )
a . checkUpdatable ( ctx )
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a . CheckMinSdkVersion ( ctx )
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a . checkStaticLinkingToStubLibraries ( ctx )
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a . checkStaticExecutables ( ctx )
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if len ( a . properties . Tests ) > 0 && ! a . testApex {
ctx . PropertyErrorf ( "tests" , "property allowed only in apex_test module type" )
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return
}
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////////////////////////////////////////////////////////////////////////////////////////////
// 2) traverse the dependency tree to collect apexFile structs from them.
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// all the files that will be included in this APEX
var filesInfo [ ] apexFile
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// native lib dependencies
var provideNativeLibs [ ] string
var requireNativeLibs [ ] string
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handleSpecialLibs := ! android . Bool ( a . properties . Ignore_system_library_special_case )
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// Collect the module directory for IDE info in java/jdeps.go.
a . modulePaths = append ( a . modulePaths , ctx . ModuleDir ( ) )
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// TODO(jiyong): do this using WalkPayloadDeps
// TODO(jiyong): make this clean!!!
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ctx . WalkDepsBlueprint ( func ( child , parent blueprint . Module ) bool {
depTag := ctx . OtherModuleDependencyTag ( child )
if _ , ok := depTag . ( android . ExcludeFromApexContentsTag ) ; ok {
return false
}
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if mod , ok := child . ( android . Module ) ; ok && ! mod . Enabled ( ) {
return false
}
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depName := ctx . OtherModuleName ( child )
if _ , isDirectDep := parent . ( * apexBundle ) ; isDirectDep {
switch depTag {
case sharedLibTag , jniLibTag :
isJniLib := depTag == jniLibTag
if c , ok := child . ( * cc . Module ) ; ok {
fi := apexFileForNativeLibrary ( ctx , c , handleSpecialLibs )
fi . isJniLib = isJniLib
filesInfo = append ( filesInfo , fi )
// Collect the list of stub-providing libs except:
// - VNDK libs are only for vendors
// - bootstrap bionic libs are treated as provided by system
if c . HasStubsVariants ( ) && ! a . vndkApex && ! cc . InstallToBootstrap ( c . BaseModuleName ( ) , ctx . Config ( ) ) {
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provideNativeLibs = append ( provideNativeLibs , fi . stem ( ) )
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}
return true // track transitive dependencies
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} else if r , ok := child . ( * rust . Module ) ; ok {
fi := apexFileForRustLibrary ( ctx , r )
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fi . isJniLib = isJniLib
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filesInfo = append ( filesInfo , fi )
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return true // track transitive dependencies
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} else {
propertyName := "native_shared_libs"
if isJniLib {
propertyName = "jni_libs"
}
ctx . PropertyErrorf ( propertyName , "%q is not a cc_library or cc_library_shared module" , depName )
}
case executableTag :
if cc , ok := child . ( * cc . Module ) ; ok {
filesInfo = append ( filesInfo , apexFileForExecutable ( ctx , cc ) )
return true // track transitive dependencies
} else if py , ok := child . ( * python . Module ) ; ok && py . HostToolPath ( ) . Valid ( ) {
filesInfo = append ( filesInfo , apexFileForPyBinary ( ctx , py ) )
} else if gb , ok := child . ( bootstrap . GoBinaryTool ) ; ok && a . Host ( ) {
filesInfo = append ( filesInfo , apexFileForGoBinary ( ctx , depName , gb ) )
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} else if rust , ok := child . ( * rust . Module ) ; ok {
filesInfo = append ( filesInfo , apexFileForRustExecutable ( ctx , rust ) )
return true // track transitive dependencies
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} else {
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ctx . PropertyErrorf ( "binaries" , "%q is neither cc_binary, rust_binary, (embedded) py_binary, (host) blueprint_go_binary, nor (host) bootstrap_go_binary" , depName )
}
case shBinaryTag :
if sh , ok := child . ( * sh . ShBinary ) ; ok {
filesInfo = append ( filesInfo , apexFileForShBinary ( ctx , sh ) )
} else {
ctx . PropertyErrorf ( "sh_binaries" , "%q is not a sh_binary module" , depName )
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}
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case bcpfTag :
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{
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bcpfModule , ok := child . ( * java . BootclasspathFragmentModule )
if ! ok {
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ctx . PropertyErrorf ( "bootclasspath_fragments" , "%q is not a bootclasspath_fragment module" , depName )
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return false
}
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filesToAdd := apexBootclasspathFragmentFiles ( ctx , child )
filesInfo = append ( filesInfo , filesToAdd ... )
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for _ , makeModuleName := range bcpfModule . BootImageDeviceInstallMakeModules ( ) {
a . requiredDeps = append ( a . requiredDeps , makeModuleName )
}
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return true
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}
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case sscpfTag :
{
if _ , ok := child . ( * java . SystemServerClasspathModule ) ; ! ok {
ctx . PropertyErrorf ( "systemserverclasspath_fragments" , "%q is not a systemserverclasspath_fragment module" , depName )
return false
}
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if af := apexClasspathFragmentProtoFile ( ctx , child ) ; af != nil {
filesInfo = append ( filesInfo , * af )
}
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return true
}
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case javaLibTag :
switch child . ( type ) {
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case * java . Library , * java . SdkLibrary , * java . DexImport , * java . SdkLibraryImport , * java . Import :
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af := apexFileForJavaModule ( ctx , child . ( javaModule ) )
if ! af . ok ( ) {
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ctx . PropertyErrorf ( "java_libs" , "%q is not configured to be compiled into dex" , depName )
return false
}
filesInfo = append ( filesInfo , af )
return true // track transitive dependencies
default :
ctx . PropertyErrorf ( "java_libs" , "%q of type %q is not supported" , depName , ctx . OtherModuleType ( child ) )
}
case androidAppTag :
if ap , ok := child . ( * java . AndroidApp ) ; ok {
filesInfo = append ( filesInfo , apexFileForAndroidApp ( ctx , ap ) )
return true // track transitive dependencies
} else if ap , ok := child . ( * java . AndroidAppImport ) ; ok {
filesInfo = append ( filesInfo , apexFileForAndroidApp ( ctx , ap ) )
} else if ap , ok := child . ( * java . AndroidTestHelperApp ) ; ok {
filesInfo = append ( filesInfo , apexFileForAndroidApp ( ctx , ap ) )
} else if ap , ok := child . ( * java . AndroidAppSet ) ; ok {
appDir := "app"
if ap . Privileged ( ) {
appDir = "priv-app"
}
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// TODO(b/224589412, b/226559955): Ensure that the dirname is
// suffixed so that PackageManager correctly invalidates the
// existing installed apk in favour of the new APK-in-APEX.
// See bugs for more information.
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appDirName := filepath . Join ( appDir , ap . BaseModuleName ( ) + "@" + sanitizedBuildIdForPath ( ctx ) )
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af := newApexFile ( ctx , ap . OutputFile ( ) , ap . BaseModuleName ( ) , appDirName , appSet , ap )
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af . certificate = java . PresignedCertificate
filesInfo = append ( filesInfo , af )
} else {
ctx . PropertyErrorf ( "apps" , "%q is not an android_app module" , depName )
}
case rroTag :
if rro , ok := child . ( java . RuntimeResourceOverlayModule ) ; ok {
filesInfo = append ( filesInfo , apexFileForRuntimeResourceOverlay ( ctx , rro ) )
} else {
ctx . PropertyErrorf ( "rros" , "%q is not an runtime_resource_overlay module" , depName )
}
case bpfTag :
if bpfProgram , ok := child . ( bpf . BpfModule ) ; ok {
filesToCopy , _ := bpfProgram . OutputFiles ( "" )
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apex_sub_dir := bpfProgram . SubDir ( )
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for _ , bpfFile := range filesToCopy {
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filesInfo = append ( filesInfo , apexFileForBpfProgram ( ctx , bpfFile , apex_sub_dir , bpfProgram ) )
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}
} else {
ctx . PropertyErrorf ( "bpfs" , "%q is not a bpf module" , depName )
}
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case fsTag :
if fs , ok := child . ( filesystem . Filesystem ) ; ok {
filesInfo = append ( filesInfo , apexFileForFilesystem ( ctx , fs . OutputPath ( ) , fs ) )
} else {
ctx . PropertyErrorf ( "filesystems" , "%q is not a filesystem module" , depName )
}
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case prebuiltTag :
if prebuilt , ok := child . ( prebuilt_etc . PrebuiltEtcModule ) ; ok {
filesInfo = append ( filesInfo , apexFileForPrebuiltEtc ( ctx , prebuilt , depName ) )
} else {
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ctx . PropertyErrorf ( "prebuilts" , "%q is not a prebuilt_etc module" , depName )
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}
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case compatConfigTag :
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if compatConfig , ok := child . ( java . PlatformCompatConfigIntf ) ; ok {
filesInfo = append ( filesInfo , apexFileForCompatConfig ( ctx , compatConfig , depName ) )
} else {
ctx . PropertyErrorf ( "compat_configs" , "%q is not a platform_compat_config module" , depName )
}
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case testTag :
if ccTest , ok := child . ( * cc . Module ) ; ok {
if ccTest . IsTestPerSrcAllTestsVariation ( ) {
// Multiple-output test module (where `test_per_src: true`).
//
// `ccTest` is the "" ("all tests") variation of a `test_per_src` module.
// We do not add this variation to `filesInfo`, as it has no output;
// however, we do add the other variations of this module as indirect
// dependencies (see below).
} else {
// Single-output test module (where `test_per_src: false`).
af := apexFileForExecutable ( ctx , ccTest )
af . class = nativeTest
filesInfo = append ( filesInfo , af )
}
return true // track transitive dependencies
} else {
ctx . PropertyErrorf ( "tests" , "%q is not a cc module" , depName )
}
case keyTag :
if key , ok := child . ( * apexKey ) ; ok {
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a . privateKeyFile = key . privateKeyFile
a . publicKeyFile = key . publicKeyFile
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} else {
ctx . PropertyErrorf ( "key" , "%q is not an apex_key module" , depName )
}
return false
case certificateTag :
if dep , ok := child . ( * java . AndroidAppCertificate ) ; ok {
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a . containerCertificateFile = dep . Certificate . Pem
a . containerPrivateKeyFile = dep . Certificate . Key
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} else {
ctx . ModuleErrorf ( "certificate dependency %q must be an android_app_certificate module" , depName )
}
case android . PrebuiltDepTag :
// If the prebuilt is force disabled, remember to delete the prebuilt file
// that might have been installed in the previous builds
if prebuilt , ok := child . ( prebuilt ) ; ok && prebuilt . isForceDisabled ( ) {
a . prebuiltFileToDelete = prebuilt . InstallFilename ( )
}
}
} else if ! a . vndkApex {
// indirect dependencies
if am , ok := child . ( android . ApexModule ) ; ok {
// We cannot use a switch statement on `depTag` here as the checked
// tags used below are private (e.g. `cc.sharedDepTag`).
if cc . IsSharedDepTag ( depTag ) || cc . IsRuntimeDepTag ( depTag ) {
if cc , ok := child . ( * cc . Module ) ; ok {
if cc . UseVndk ( ) && proptools . Bool ( a . properties . Use_vndk_as_stable ) && cc . IsVndk ( ) {
requireNativeLibs = append ( requireNativeLibs , ":vndk" )
return false
}
af := apexFileForNativeLibrary ( ctx , cc , handleSpecialLibs )
af . transitiveDep = true
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// Always track transitive dependencies for host.
if a . Host ( ) {
filesInfo = append ( filesInfo , af )
return true
}
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abInfo := ctx . Provider ( ApexBundleInfoProvider ) . ( ApexBundleInfo )
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if ! abInfo . Contents . DirectlyInApex ( depName ) && ( cc . IsStubs ( ) || cc . HasStubsVariants ( ) ) {
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// If the dependency is a stubs lib, don't include it in this APEX,
// but make sure that the lib is installed on the device.
// In case no APEX is having the lib, the lib is installed to the system
// partition.
//
// Always include if we are a host-apex however since those won't have any
// system libraries.
if ! am . DirectlyInAnyApex ( ) {
// we need a module name for Make
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name := cc . ImplementationModuleNameForMake ( ctx ) + cc . Properties . SubName
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if ! android . InList ( name , a . requiredDeps ) {
a . requiredDeps = append ( a . requiredDeps , name )
}
}
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requireNativeLibs = append ( requireNativeLibs , af . stem ( ) )
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// Don't track further
return false
}
2020-12-03 09:28:25 +01:00
// If the dep is not considered to be in the same
// apex, don't add it to filesInfo so that it is not
// included in this APEX.
// TODO(jiyong): move this to at the top of the
// else-if clause for the indirect dependencies.
// Currently, that's impossible because we would
// like to record requiredNativeLibs even when
2020-12-16 02:01:59 +01:00
// DepIsInSameAPex is false. We also shouldn't do
// this for host.
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//
// TODO(jiyong): explain why the same module is passed in twice.
// Switching the first am to parent breaks lots of tests.
if ! android . IsDepInSameApex ( ctx , am , am ) {
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return false
}
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filesInfo = append ( filesInfo , af )
return true // track transitive dependencies
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} else if rm , ok := child . ( * rust . Module ) ; ok {
af := apexFileForRustLibrary ( ctx , rm )
af . transitiveDep = true
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filesInfo = append ( filesInfo , af )
return true // track transitive dependencies
}
} else if cc . IsTestPerSrcDepTag ( depTag ) {
if cc , ok := child . ( * cc . Module ) ; ok {
af := apexFileForExecutable ( ctx , cc )
// Handle modules created as `test_per_src` variations of a single test module:
// use the name of the generated test binary (`fileToCopy`) instead of the name
// of the original test module (`depName`, shared by all `test_per_src`
// variations of that module).
af . androidMkModuleName = filepath . Base ( af . builtFile . String ( ) )
// these are not considered transitive dep
af . transitiveDep = false
filesInfo = append ( filesInfo , af )
return true // track transitive dependencies
}
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} else if cc . IsHeaderDepTag ( depTag ) {
// nothing
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} else if java . IsJniDepTag ( depTag ) {
// Because APK-in-APEX embeds jni_libs transitively, we don't need to track transitive deps
return false
} else if java . IsXmlPermissionsFileDepTag ( depTag ) {
if prebuilt , ok := child . ( prebuilt_etc . PrebuiltEtcModule ) ; ok {
filesInfo = append ( filesInfo , apexFileForPrebuiltEtc ( ctx , prebuilt , depName ) )
}
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} else if rust . IsDylibDepTag ( depTag ) {
if rustm , ok := child . ( * rust . Module ) ; ok && rustm . IsInstallableToApex ( ) {
af := apexFileForRustLibrary ( ctx , rustm )
af . transitiveDep = true
filesInfo = append ( filesInfo , af )
return true // track transitive dependencies
}
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} else if rust . IsRlibDepTag ( depTag ) {
// Rlib is statically linked, but it might have shared lib
// dependencies. Track them.
return true
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} else if java . IsBootclasspathFragmentContentDepTag ( depTag ) {
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// Add the contents of the bootclasspath fragment to the apex.
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switch child . ( type ) {
case * java . Library , * java . SdkLibrary :
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javaModule := child . ( javaModule )
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af := apexFileForBootclasspathFragmentContentModule ( ctx , parent , javaModule )
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if ! af . ok ( ) {
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ctx . PropertyErrorf ( "bootclasspath_fragments" , "bootclasspath_fragment content %q is not configured to be compiled into dex" , depName )
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return false
}
filesInfo = append ( filesInfo , af )
return true // track transitive dependencies
default :
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ctx . PropertyErrorf ( "bootclasspath_fragments" , "bootclasspath_fragment content %q of type %q is not supported" , depName , ctx . OtherModuleType ( child ) )
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}
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} else if java . IsSystemServerClasspathFragmentContentDepTag ( depTag ) {
// Add the contents of the systemserverclasspath fragment to the apex.
switch child . ( type ) {
case * java . Library , * java . SdkLibrary :
af := apexFileForJavaModule ( ctx , child . ( javaModule ) )
filesInfo = append ( filesInfo , af )
return true // track transitive dependencies
default :
ctx . PropertyErrorf ( "systemserverclasspath_fragments" , "systemserverclasspath_fragment content %q of type %q is not supported" , depName , ctx . OtherModuleType ( child ) )
}
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} else if _ , ok := depTag . ( android . CopyDirectlyInAnyApexTag ) ; ok {
// nothing
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} else if depTag == android . DarwinUniversalVariantTag {
// nothing
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} else if am . CanHaveApexVariants ( ) && am . IsInstallableToApex ( ) {
ctx . ModuleErrorf ( "unexpected tag %s for indirect dependency %q" , android . PrettyPrintTag ( depTag ) , depName )
}
}
}
return false
} )
2020-12-21 18:11:10 +01:00
if a . privateKeyFile == nil {
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ctx . PropertyErrorf ( "key" , "private_key for %q could not be found" , String ( a . overridableProperties . Key ) )
2020-11-19 15:00:52 +01:00
return
}
2019-11-19 18:26:02 +01:00
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// Remove duplicates in filesInfo
2020-11-19 06:37:47 +01:00
removeDup := func ( filesInfo [ ] apexFile ) [ ] apexFile {
encountered := make ( map [ string ] apexFile )
for _ , f := range filesInfo {
dest := filepath . Join ( f . installDir , f . builtFile . Base ( ) )
if e , ok := encountered [ dest ] ; ! ok {
encountered [ dest ] = f
} else {
// If a module is directly included and also transitively depended on
// consider it as directly included.
e . transitiveDep = e . transitiveDep && f . transitiveDep
encountered [ dest ] = e
}
}
var result [ ] apexFile
for _ , v := range encountered {
result = append ( result , v )
}
return result
}
filesInfo = removeDup ( filesInfo )
2019-10-22 06:58:29 +02:00
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// Sort to have consistent build rules
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sort . Slice ( filesInfo , func ( i , j int ) bool {
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// Sort by destination path so as to ensure consistent ordering even if the source of the files
// changes.
return filesInfo [ i ] . path ( ) < filesInfo [ j ] . path ( )
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} )
2020-01-14 06:39:19 +01:00
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////////////////////////////////////////////////////////////////////////////////////////////
// 3) some fields in apexBundle struct are configured
2020-11-19 06:37:47 +01:00
a . installDir = android . PathForModuleInstall ( ctx , "apex" )
a . filesInfo = filesInfo
2020-01-14 01:22:18 +01:00
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// Set suffix and primaryApexType depending on the ApexType
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buildFlattenedAsDefault := ctx . Config ( ) . FlattenApex ( )
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switch a . properties . ApexType {
case imageApex :
if buildFlattenedAsDefault {
a . suffix = imageApexSuffix
} else {
a . suffix = ""
a . primaryApexType = true
if ctx . Config ( ) . InstallExtraFlattenedApexes ( ) {
a . requiredDeps = append ( a . requiredDeps , a . Name ( ) + flattenedSuffix )
}
}
case zipApex :
if proptools . String ( a . properties . Payload_type ) == "zip" {
a . suffix = ""
a . primaryApexType = true
} else {
a . suffix = zipApexSuffix
}
case flattenedApex :
if buildFlattenedAsDefault {
a . suffix = ""
a . primaryApexType = true
} else {
a . suffix = flattenedSuffix
}
}
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switch proptools . StringDefault ( a . properties . Payload_fs_type , ext4FsType ) {
case ext4FsType :
a . payloadFsType = ext4
case f2fsFsType :
a . payloadFsType = f2fs
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case erofsFsType :
a . payloadFsType = erofs
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default :
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ctx . PropertyErrorf ( "payload_fs_type" , "%q is not a valid filesystem for apex [ext4, f2fs, erofs]" , * a . properties . Payload_fs_type )
2020-11-19 06:37:47 +01:00
}
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// Optimization. If we are building bundled APEX, for the files that are gathered due to the
// transitive dependencies, don't place them inside the APEX, but place a symlink pointing
// the same library in the system partition, thus effectively sharing the same libraries
// across the APEX boundary. For unbundled APEX, all the gathered files are actually placed
// in the APEX.
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a . linkToSystemLib = ! ctx . Config ( ) . UnbundledBuild ( ) && a . installable ( )
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// APEXes targeting other than system/system_ext partitions use vendor/product variants.
// So we can't link them to /system/lib libs which are core variants.
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if a . SocSpecific ( ) || a . DeviceSpecific ( ) || ( a . ProductSpecific ( ) && ctx . Config ( ) . EnforceProductPartitionInterface ( ) ) {
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a . linkToSystemLib = false
}
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forced := ctx . Config ( ) . ForceApexSymlinkOptimization ( )
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updatable := a . Updatable ( ) || a . FutureUpdatable ( )
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// We don't need the optimization for updatable APEXes, as it might give false signal
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// to the system health when the APEXes are still bundled (b/149805758).
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if ! forced && updatable && a . properties . ApexType == imageApex {
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a . linkToSystemLib = false
}
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// We also don't want the optimization for host APEXes, because it doesn't make sense.
if ctx . Host ( ) {
a . linkToSystemLib = false
}
2018-10-10 07:01:00 +02:00
2021-11-04 20:01:18 +01:00
if a . properties . ApexType != zipApex {
a . compatSymlinks = makeCompatSymlinks ( a . BaseModuleName ( ) , ctx , a . primaryApexType )
}
2020-08-22 01:15:23 +02:00
2020-11-19 15:00:52 +01:00
////////////////////////////////////////////////////////////////////////////////////////////
// 4) generate the build rules to create the APEX. This is done in builder.go.
a . buildManifest ( ctx , provideNativeLibs , requireNativeLibs )
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if a . properties . ApexType == flattenedApex {
a . buildFlattenedApex ( ctx )
} else {
a . buildUnflattenedApex ( ctx )
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}
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a . buildApexDependencyInfo ( ctx )
a . buildLintReports ( ctx )
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// Append meta-files to the filesInfo list so that they are reflected in Android.mk as well.
if a . installable ( ) {
// For flattened APEX, make sure that APEX manifest and apex_pubkey are also copied
// along with other ordinary files. (Note that this is done by apexer for
// non-flattened APEXes)
a . filesInfo = append ( a . filesInfo , newApexFile ( ctx , a . manifestPbOut , "apex_manifest.pb" , "." , etc , nil ) )
// Place the public key as apex_pubkey. This is also done by apexer for
// non-flattened APEXes case.
// TODO(jiyong): Why do we need this CP rule?
copiedPubkey := android . PathForModuleOut ( ctx , "apex_pubkey" )
ctx . Build ( pctx , android . BuildParams {
Rule : android . Cp ,
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Input : a . publicKeyFile ,
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Output : copiedPubkey ,
} )
a . filesInfo = append ( a . filesInfo , newApexFile ( ctx , copiedPubkey , "apex_pubkey" , "." , etc , nil ) )
}
binaries and native_shared_libraires are multilib-aware props
The properties 'binaries' and 'native_shared_libraries' can be
multilib-aware, i.e, can be under multilib.type where type can be either
first, both, lib32, lib64, or prefer32.
Native modules listed in multilib.first are installed only for the first
ABI of the device. Similarily, multilib.both are for both of the ABIs,
while multilib.lib32 and multilib.lib64 are 32 and 64-bit ABI only,
respectively. multilib.prefer32 is for 32-bit only when 32-bit ABI is
available.
Another change is that the binaries property, when not within multilib,
targets only the first ABI.
Test: m apex.test on ...
1) aosp_arm64 without TARGET_PREFER_32_BIT_EXECUTABLES=true
2) aosp_arm64 with TARGET_PREFER_32_BIT_EXECUTABLES=true
3) aosp_arm
in all cases, vold, surfaceflinger and drmserver are all intalled under
./bin directory of the APEX. And native libraries are installed under
both ./lib and ./lib64 directories in the case of 1) and 2).
Change-Id: Idd7f8526a61bceca89d43c0c69ccedb471b67d31
2018-10-24 14:09:55 +02:00
}
2021-04-26 00:14:55 +02:00
// apexBootclasspathFragmentFiles returns the list of apexFile structures defining the files that
// the bootclasspath_fragment contributes to the apex.
func apexBootclasspathFragmentFiles ( ctx android . ModuleContext , module blueprint . Module ) [ ] apexFile {
bootclasspathFragmentInfo := ctx . OtherModuleProvider ( module , java . BootclasspathFragmentApexContentInfoProvider ) . ( java . BootclasspathFragmentApexContentInfo )
var filesToAdd [ ] apexFile
// Add the boot image files, e.g. .art, .oat and .vdex files.
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if bootclasspathFragmentInfo . ShouldInstallBootImageInApex ( ) {
for arch , files := range bootclasspathFragmentInfo . AndroidBootImageFilesByArchType ( ) {
dirInApex := filepath . Join ( "javalib" , arch . String ( ) )
for _ , f := range files {
androidMkModuleName := "javalib_" + arch . String ( ) + "_" + filepath . Base ( f . String ( ) )
// TODO(b/177892522) - consider passing in the bootclasspath fragment module here instead of nil
af := newApexFile ( ctx , f , androidMkModuleName , dirInApex , etc , nil )
filesToAdd = append ( filesToAdd , af )
}
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}
}
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// Add classpaths.proto config.
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if af := apexClasspathFragmentProtoFile ( ctx , module ) ; af != nil {
filesToAdd = append ( filesToAdd , * af )
}
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2021-11-26 19:09:27 +01:00
if pathInApex := bootclasspathFragmentInfo . ProfileInstallPathInApex ( ) ; pathInApex != "" {
pathOnHost := bootclasspathFragmentInfo . ProfilePathOnHost ( )
tempPath := android . PathForModuleOut ( ctx , "boot_image_profile" , pathInApex )
if pathOnHost != nil {
// We need to copy the profile to a temporary path with the right filename because the apexer
// will take the filename as is.
ctx . Build ( pctx , android . BuildParams {
Rule : android . Cp ,
Input : pathOnHost ,
Output : tempPath ,
} )
} else {
// At this point, the boot image profile cannot be generated. It is probably because the boot
// image profile source file does not exist on the branch, or it is not available for the
// current build target.
// However, we cannot enforce the boot image profile to be generated because some build
// targets (such as module SDK) do not need it. It is only needed when the APEX is being
// built. Therefore, we create an error rule so that an error will occur at the ninja phase
// only if the APEX is being built.
ctx . Build ( pctx , android . BuildParams {
Rule : android . ErrorRule ,
Output : tempPath ,
Args : map [ string ] string {
"error" : "Boot image profile cannot be generated" ,
} ,
} )
}
androidMkModuleName := filepath . Base ( pathInApex )
af := newApexFile ( ctx , tempPath , androidMkModuleName , filepath . Dir ( pathInApex ) , etc , nil )
filesToAdd = append ( filesToAdd , af )
}
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return filesToAdd
}
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// apexClasspathFragmentProtoFile returns *apexFile structure defining the classpath.proto config that
// the module contributes to the apex; or nil if the proto config was not generated.
func apexClasspathFragmentProtoFile ( ctx android . ModuleContext , module blueprint . Module ) * apexFile {
info := ctx . OtherModuleProvider ( module , java . ClasspathFragmentProtoContentInfoProvider ) . ( java . ClasspathFragmentProtoContentInfo )
if ! info . ClasspathFragmentProtoGenerated {
return nil
}
classpathProtoOutput := info . ClasspathFragmentProtoOutput
af := newApexFile ( ctx , classpathProtoOutput , classpathProtoOutput . Base ( ) , info . ClasspathFragmentProtoInstallDir . Rel ( ) , etc , nil )
return & af
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}
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// apexFileForBootclasspathFragmentContentModule creates an apexFile for a bootclasspath_fragment
// content module, i.e. a library that is part of the bootclasspath.
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func apexFileForBootclasspathFragmentContentModule ( ctx android . ModuleContext , fragmentModule blueprint . Module , javaModule javaModule ) apexFile {
bootclasspathFragmentInfo := ctx . OtherModuleProvider ( fragmentModule , java . BootclasspathFragmentApexContentInfoProvider ) . ( java . BootclasspathFragmentApexContentInfo )
// Get the dexBootJar from the bootclasspath_fragment as that is responsible for performing the
// hidden API encpding.
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dexBootJar , err := bootclasspathFragmentInfo . DexBootJarPathForContentModule ( javaModule )
if err != nil {
ctx . ModuleErrorf ( "%s" , err )
}
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// Create an apexFile as for a normal java module but with the dex boot jar provided by the
// bootclasspath_fragment.
af := apexFileForJavaModuleWithFile ( ctx , javaModule , dexBootJar )
return af
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}
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///////////////////////////////////////////////////////////////////////////////////////////////////
// Factory functions
//
2019-06-26 13:48:34 +02:00
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func newApexBundle ( ) * apexBundle {
module := & apexBundle { }
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module . AddProperties ( & module . properties )
module . AddProperties ( & module . targetProperties )
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module . AddProperties ( & module . archProperties )
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module . AddProperties ( & module . overridableProperties )
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android . InitAndroidMultiTargetsArchModule ( module , android . HostAndDeviceSupported , android . MultilibCommon )
android . InitDefaultableModule ( module )
android . InitSdkAwareModule ( module )
android . InitOverridableModule ( module , & module . overridableProperties . Overrides )
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android . InitBazelModule ( module )
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multitree . InitExportableModule ( module )
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return module
}
binaries and native_shared_libraires are multilib-aware props
The properties 'binaries' and 'native_shared_libraries' can be
multilib-aware, i.e, can be under multilib.type where type can be either
first, both, lib32, lib64, or prefer32.
Native modules listed in multilib.first are installed only for the first
ABI of the device. Similarily, multilib.both are for both of the ABIs,
while multilib.lib32 and multilib.lib64 are 32 and 64-bit ABI only,
respectively. multilib.prefer32 is for 32-bit only when 32-bit ABI is
available.
Another change is that the binaries property, when not within multilib,
targets only the first ABI.
Test: m apex.test on ...
1) aosp_arm64 without TARGET_PREFER_32_BIT_EXECUTABLES=true
2) aosp_arm64 with TARGET_PREFER_32_BIT_EXECUTABLES=true
3) aosp_arm
in all cases, vold, surfaceflinger and drmserver are all intalled under
./bin directory of the APEX. And native libraries are installed under
both ./lib and ./lib64 directories in the case of 1) and 2).
Change-Id: Idd7f8526a61bceca89d43c0c69ccedb471b67d31
2018-10-24 14:09:55 +02:00
2021-10-18 18:49:39 +02:00
func ApexBundleFactory ( testApex bool ) android . Module {
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bundle := newApexBundle ( )
bundle . testApex = testApex
return bundle
}
binaries and native_shared_libraires are multilib-aware props
The properties 'binaries' and 'native_shared_libraries' can be
multilib-aware, i.e, can be under multilib.type where type can be either
first, both, lib32, lib64, or prefer32.
Native modules listed in multilib.first are installed only for the first
ABI of the device. Similarily, multilib.both are for both of the ABIs,
while multilib.lib32 and multilib.lib64 are 32 and 64-bit ABI only,
respectively. multilib.prefer32 is for 32-bit only when 32-bit ABI is
available.
Another change is that the binaries property, when not within multilib,
targets only the first ABI.
Test: m apex.test on ...
1) aosp_arm64 without TARGET_PREFER_32_BIT_EXECUTABLES=true
2) aosp_arm64 with TARGET_PREFER_32_BIT_EXECUTABLES=true
3) aosp_arm
in all cases, vold, surfaceflinger and drmserver are all intalled under
./bin directory of the APEX. And native libraries are installed under
both ./lib and ./lib64 directories in the case of 1) and 2).
Change-Id: Idd7f8526a61bceca89d43c0c69ccedb471b67d31
2018-10-24 14:09:55 +02:00
2020-11-19 06:37:47 +01:00
// apex_test is an APEX for testing. The difference from the ordinary apex module type is that
// certain compatibility checks such as apex_available are not done for apex_test.
func testApexBundleFactory ( ) android . Module {
bundle := newApexBundle ( )
bundle . testApex = true
return bundle
}
binaries and native_shared_libraires are multilib-aware props
The properties 'binaries' and 'native_shared_libraries' can be
multilib-aware, i.e, can be under multilib.type where type can be either
first, both, lib32, lib64, or prefer32.
Native modules listed in multilib.first are installed only for the first
ABI of the device. Similarily, multilib.both are for both of the ABIs,
while multilib.lib32 and multilib.lib64 are 32 and 64-bit ABI only,
respectively. multilib.prefer32 is for 32-bit only when 32-bit ABI is
available.
Another change is that the binaries property, when not within multilib,
targets only the first ABI.
Test: m apex.test on ...
1) aosp_arm64 without TARGET_PREFER_32_BIT_EXECUTABLES=true
2) aosp_arm64 with TARGET_PREFER_32_BIT_EXECUTABLES=true
3) aosp_arm
in all cases, vold, surfaceflinger and drmserver are all intalled under
./bin directory of the APEX. And native libraries are installed under
both ./lib and ./lib64 directories in the case of 1) and 2).
Change-Id: Idd7f8526a61bceca89d43c0c69ccedb471b67d31
2018-10-24 14:09:55 +02:00
2020-11-19 06:37:47 +01:00
// apex packages other modules into an APEX file which is a packaging format for system-level
// components like binaries, shared libraries, etc.
func BundleFactory ( ) android . Module {
return newApexBundle ( )
}
binaries and native_shared_libraires are multilib-aware props
The properties 'binaries' and 'native_shared_libraries' can be
multilib-aware, i.e, can be under multilib.type where type can be either
first, both, lib32, lib64, or prefer32.
Native modules listed in multilib.first are installed only for the first
ABI of the device. Similarily, multilib.both are for both of the ABIs,
while multilib.lib32 and multilib.lib64 are 32 and 64-bit ABI only,
respectively. multilib.prefer32 is for 32-bit only when 32-bit ABI is
available.
Another change is that the binaries property, when not within multilib,
targets only the first ABI.
Test: m apex.test on ...
1) aosp_arm64 without TARGET_PREFER_32_BIT_EXECUTABLES=true
2) aosp_arm64 with TARGET_PREFER_32_BIT_EXECUTABLES=true
3) aosp_arm
in all cases, vold, surfaceflinger and drmserver are all intalled under
./bin directory of the APEX. And native libraries are installed under
both ./lib and ./lib64 directories in the case of 1) and 2).
Change-Id: Idd7f8526a61bceca89d43c0c69ccedb471b67d31
2018-10-24 14:09:55 +02:00
2020-11-19 06:37:47 +01:00
type Defaults struct {
android . ModuleBase
android . DefaultsModuleBase
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}
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// apex_defaults provides defaultable properties to other apex modules.
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func defaultsFactory ( ) android . Module {
return DefaultsFactory ( )
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}
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func DefaultsFactory ( props ... interface { } ) android . Module {
module := & Defaults { }
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module . AddProperties ( props ... )
module . AddProperties (
& apexBundleProperties { } ,
& apexTargetBundleProperties { } ,
& overridableProperties { } ,
)
2018-11-27 13:27:08 +01:00
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android . InitDefaultsModule ( module )
return module
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}
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type OverrideApex struct {
android . ModuleBase
android . OverrideModuleBase
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android . BazelModuleBase
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}
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func ( o * OverrideApex ) GenerateAndroidBuildActions ( ctx android . ModuleContext ) {
// All the overrides happen in the base module.
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}
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// override_apex is used to create an apex module based on another apex module by overriding some of
// its properties.
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func OverrideApexFactory ( ) android . Module {
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m := & OverrideApex { }
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m . AddProperties ( & overridableProperties { } )
2018-12-19 09:12:36 +01:00
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android . InitAndroidMultiTargetsArchModule ( m , android . DeviceSupported , android . MultilibCommon )
android . InitOverrideModule ( m )
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android . InitBazelModule ( m )
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return m
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}
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func ( o * OverrideApex ) ConvertWithBp2build ( ctx android . TopDownMutatorContext ) {
if ctx . ModuleType ( ) != "override_apex" {
return
}
baseApexModuleName := o . OverrideModuleBase . GetOverriddenModuleName ( )
baseModule , baseApexExists := ctx . ModuleFromName ( baseApexModuleName )
if ! baseApexExists {
panic ( fmt . Errorf ( "Base apex module doesn't exist: %s" , baseApexModuleName ) )
}
a , baseModuleIsApex := baseModule . ( * apexBundle )
if ! baseModuleIsApex {
panic ( fmt . Errorf ( "Base module is not apex module: %s" , baseApexModuleName ) )
}
attrs , props := convertWithBp2build ( a , ctx )
for _ , p := range o . GetProperties ( ) {
overridableProperties , ok := p . ( * overridableProperties )
if ! ok {
continue
}
2022-05-21 07:08:11 +02:00
// Manifest is either empty or a file in the directory of base APEX and is not overridable.
// After it is converted in convertWithBp2build(baseApex, ctx),
// the attrs.Manifest.Value.Label is the file path relative to the directory
// of base apex. So the following code converts it to a label that looks like
// <package of base apex>:<path of manifest file> if base apex and override
// apex are not in the same package.
baseApexPackage := ctx . OtherModuleDir ( a )
overrideApexPackage := ctx . ModuleDir ( )
if baseApexPackage != overrideApexPackage {
attrs . Manifest . Value . Label = "//" + baseApexPackage + ":" + attrs . Manifest . Value . Label
}
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// Key
if overridableProperties . Key != nil {
attrs . Key = bazel . LabelAttribute { }
attrs . Key . SetValue ( android . BazelLabelForModuleDepSingle ( ctx , * overridableProperties . Key ) )
}
// Certificate
if overridableProperties . Certificate != nil {
attrs . Certificate = bazel . LabelAttribute { }
attrs . Certificate . SetValue ( android . BazelLabelForModuleDepSingle ( ctx , * overridableProperties . Certificate ) )
}
// Prebuilts
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if overridableProperties . Prebuilts != nil {
prebuiltsLabelList := android . BazelLabelForModuleDeps ( ctx , overridableProperties . Prebuilts )
attrs . Prebuilts = bazel . MakeLabelListAttribute ( prebuiltsLabelList )
}
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// Compressible
if overridableProperties . Compressible != nil {
attrs . Compressible = bazel . BoolAttribute { Value : overridableProperties . Compressible }
}
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// Package name
//
// e.g. com.android.adbd's package name is com.android.adbd, but
// com.google.android.adbd overrides the package name to com.google.android.adbd
//
// TODO: this can be overridden from the product configuration, see
// getOverrideManifestPackageName and
// PRODUCT_MANIFEST_PACKAGE_NAME_OVERRIDES.
//
// Instead of generating the BUILD files differently based on the product config
// at the point of conversion, this should be handled by the BUILD file loading
// from the soong_injection's product_vars, so product config is decoupled from bp2build.
if overridableProperties . Package_name != "" {
attrs . Package_name = & overridableProperties . Package_name
}
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// Logging parent
if overridableProperties . Logging_parent != "" {
attrs . Logging_parent = & overridableProperties . Logging_parent
}
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}
ctx . CreateBazelTargetModule ( props , android . CommonAttributes { Name : o . Name ( ) } , & attrs )
}
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///////////////////////////////////////////////////////////////////////////////////////////////////
// Vality check routines
//
// These are called in at the very beginning of GenerateAndroidBuildActions to flag an error when
// certain conditions are not met.
//
// TODO(jiyong): move these checks to a separate go file.
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var _ android . ModuleWithMinSdkVersionCheck = ( * apexBundle ) ( nil )
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// Entures that min_sdk_version of the included modules are equal or less than the min_sdk_version
// of this apexBundle.
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func ( a * apexBundle ) CheckMinSdkVersion ( ctx android . ModuleContext ) {
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if a . testApex || a . vndkApex {
return
}
// apexBundle::minSdkVersion reports its own errors.
minSdkVersion := a . minSdkVersion ( ctx )
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android . CheckMinSdkVersion ( ctx , minSdkVersion , a . WalkPayloadDeps )
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}
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// Returns apex's min_sdk_version string value, honoring overrides
func ( a * apexBundle ) minSdkVersionValue ( ctx android . EarlyModuleContext ) string {
// Only override the minSdkVersion value on Apexes which already specify
// a min_sdk_version (it's optional for non-updatable apexes), and that its
// min_sdk_version value is lower than the one to override with.
overrideMinSdkValue := ctx . DeviceConfig ( ) . ApexGlobalMinSdkVersionOverride ( )
overrideApiLevel := minSdkVersionFromValue ( ctx , overrideMinSdkValue )
originalMinApiLevel := minSdkVersionFromValue ( ctx , proptools . String ( a . properties . Min_sdk_version ) )
isMinSdkSet := a . properties . Min_sdk_version != nil
isOverrideValueHigher := overrideApiLevel . CompareTo ( originalMinApiLevel ) > 0
if overrideMinSdkValue != "" && isMinSdkSet && isOverrideValueHigher {
return overrideMinSdkValue
}
return proptools . String ( a . properties . Min_sdk_version )
}
// Returns apex's min_sdk_version SdkSpec, honoring overrides
2021-12-03 19:58:32 +01:00
func ( a * apexBundle ) MinSdkVersion ( ctx android . EarlyModuleContext ) android . SdkSpec {
return android . SdkSpec {
Kind : android . SdkNone ,
ApiLevel : a . minSdkVersion ( ctx ) ,
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Raw : a . minSdkVersionValue ( ctx ) ,
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}
}
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// Returns apex's min_sdk_version ApiLevel, honoring overrides
2021-12-03 19:58:32 +01:00
func ( a * apexBundle ) minSdkVersion ( ctx android . EarlyModuleContext ) android . ApiLevel {
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return minSdkVersionFromValue ( ctx , a . minSdkVersionValue ( ctx ) )
}
// Construct ApiLevel object from min_sdk_version string value
func minSdkVersionFromValue ( ctx android . EarlyModuleContext , value string ) android . ApiLevel {
if value == "" {
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return android . NoneApiLevel
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}
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apiLevel , err := android . ApiLevelFromUser ( ctx , value )
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if err != nil {
ctx . PropertyErrorf ( "min_sdk_version" , "%s" , err . Error ( ) )
return android . NoneApiLevel
}
return apiLevel
}
// Ensures that a lib providing stub isn't statically linked
func ( a * apexBundle ) checkStaticLinkingToStubLibraries ( ctx android . ModuleContext ) {
// Practically, we only care about regular APEXes on the device.
if ctx . Host ( ) || a . testApex || a . vndkApex {
return
}
abInfo := ctx . Provider ( ApexBundleInfoProvider ) . ( ApexBundleInfo )
a . WalkPayloadDeps ( ctx , func ( ctx android . ModuleContext , from blueprint . Module , to android . ApexModule , externalDep bool ) bool {
if ccm , ok := to . ( * cc . Module ) ; ok {
apexName := ctx . ModuleName ( )
fromName := ctx . OtherModuleName ( from )
toName := ctx . OtherModuleName ( to )
// If `to` is not actually in the same APEX as `from` then it does not need
// apex_available and neither do any of its dependencies.
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//
// It is ok to call DepIsInSameApex() directly from within WalkPayloadDeps().
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if am , ok := from . ( android . DepIsInSameApex ) ; ok && ! am . DepIsInSameApex ( ctx , to ) {
// As soon as the dependency graph crosses the APEX boundary, don't go further.
return false
}
// The dynamic linker and crash_dump tool in the runtime APEX is the only
// exception to this rule. It can't make the static dependencies dynamic
// because it can't do the dynamic linking for itself.
2020-11-30 06:42:14 +01:00
// Same rule should be applied to linkerconfig, because it should be executed
// only with static linked libraries before linker is available with ld.config.txt
if apexName == "com.android.runtime" && ( fromName == "linker" || fromName == "crash_dump" || fromName == "linkerconfig" ) {
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return false
}
isStubLibraryFromOtherApex := ccm . HasStubsVariants ( ) && ! abInfo . Contents . DirectlyInApex ( toName )
if isStubLibraryFromOtherApex && ! externalDep {
ctx . ModuleErrorf ( "%q required by %q is a native library providing stub. " +
"It shouldn't be included in this APEX via static linking. Dependency path: %s" , to . String ( ) , fromName , ctx . GetPathString ( false ) )
}
}
return true
} )
}
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// checkUpdatable enforces APEX and its transitive dep properties to have desired values for updatable APEXes.
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func ( a * apexBundle ) checkUpdatable ( ctx android . ModuleContext ) {
if a . Updatable ( ) {
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if a . minSdkVersionValue ( ctx ) == "" {
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ctx . PropertyErrorf ( "updatable" , "updatable APEXes should set min_sdk_version as well" )
}
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if a . UsePlatformApis ( ) {
ctx . PropertyErrorf ( "updatable" , "updatable APEXes can't use platform APIs" )
}
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if a . SocSpecific ( ) || a . DeviceSpecific ( ) {
ctx . PropertyErrorf ( "updatable" , "vendor APEXes are not updatable" )
}
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if a . FutureUpdatable ( ) {
ctx . PropertyErrorf ( "future_updatable" , "Already updatable. Remove `future_updatable: true:`" )
}
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a . checkJavaStableSdkVersion ( ctx )
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a . checkClasspathFragments ( ctx )
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}
}
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// checkClasspathFragments enforces that all classpath fragments in deps generate classpaths.proto config.
func ( a * apexBundle ) checkClasspathFragments ( ctx android . ModuleContext ) {
ctx . VisitDirectDeps ( func ( module android . Module ) {
if tag := ctx . OtherModuleDependencyTag ( module ) ; tag == bcpfTag || tag == sscpfTag {
info := ctx . OtherModuleProvider ( module , java . ClasspathFragmentProtoContentInfoProvider ) . ( java . ClasspathFragmentProtoContentInfo )
if ! info . ClasspathFragmentProtoGenerated {
ctx . OtherModuleErrorf ( module , "is included in updatable apex %v, it must not set generate_classpaths_proto to false" , ctx . ModuleName ( ) )
}
}
} )
}
// checkJavaStableSdkVersion enforces that all Java deps are using stable SDKs to compile.
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func ( a * apexBundle ) checkJavaStableSdkVersion ( ctx android . ModuleContext ) {
// Visit direct deps only. As long as we guarantee top-level deps are using stable SDKs,
// java's checkLinkType guarantees correct usage for transitive deps
ctx . VisitDirectDepsBlueprint ( func ( module blueprint . Module ) {
tag := ctx . OtherModuleDependencyTag ( module )
switch tag {
case javaLibTag , androidAppTag :
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if m , ok := module . ( interface {
CheckStableSdkVersion ( ctx android . BaseModuleContext ) error
} ) ; ok {
if err := m . CheckStableSdkVersion ( ctx ) ; err != nil {
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ctx . ModuleErrorf ( "cannot depend on \"%v\": %v" , ctx . OtherModuleName ( module ) , err )
}
}
}
} )
}
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// checkApexAvailability ensures that the all the dependencies are marked as available for this APEX.
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func ( a * apexBundle ) checkApexAvailability ( ctx android . ModuleContext ) {
// Let's be practical. Availability for test, host, and the VNDK apex isn't important
if ctx . Host ( ) || a . testApex || a . vndkApex {
return
}
// Because APEXes targeting other than system/system_ext partitions can't set
// apex_available, we skip checks for these APEXes
if a . SocSpecific ( ) || a . DeviceSpecific ( ) || ( a . ProductSpecific ( ) && ctx . Config ( ) . EnforceProductPartitionInterface ( ) ) {
return
}
// Coverage build adds additional dependencies for the coverage-only runtime libraries.
// Requiring them and their transitive depencies with apex_available is not right
// because they just add noise.
if ctx . Config ( ) . IsEnvTrue ( "EMMA_INSTRUMENT" ) || a . IsNativeCoverageNeeded ( ctx ) {
return
}
a . WalkPayloadDeps ( ctx , func ( ctx android . ModuleContext , from blueprint . Module , to android . ApexModule , externalDep bool ) bool {
// As soon as the dependency graph crosses the APEX boundary, don't go further.
if externalDep {
return false
}
apexName := ctx . ModuleName ( )
fromName := ctx . OtherModuleName ( from )
toName := ctx . OtherModuleName ( to )
// If `to` is not actually in the same APEX as `from` then it does not need
// apex_available and neither do any of its dependencies.
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//
// It is ok to call DepIsInSameApex() directly from within WalkPayloadDeps().
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if am , ok := from . ( android . DepIsInSameApex ) ; ok && ! am . DepIsInSameApex ( ctx , to ) {
// As soon as the dependency graph crosses the APEX boundary, don't go
// further.
return false
}
if to . AvailableFor ( apexName ) || baselineApexAvailable ( apexName , toName ) {
return true
}
Friendly error message on apex_available and min_sdk_version checks
1) suggest a fix at the end of the message
2) add new lines around the dependency path so that they are visually
separated from rest of the error message
Bug: N/A
Test: m with an intentional break
error: bionic/apex/Android.bp:32:1: module "com.android.runtime" variant "android_common_com.android.runtime_image": "libutils_headers" requires "libsystem_headers" that doesn't list the APEX under 'apex_available'.
Dependency path:
via tag apex.dependencyTag: { name:executable payload:true}
-> crash_dump{os:android,image:,arch:arm_armv8-a,sdk:,apex:apex10000}
via tag cc.libraryDependencyTag: { Kind:staticLibraryDependency Order:normalLibraryDependency wholeStatic:false reexportFlags:false explicitlyVersioned:false dataLib:false ndk:false staticUnwinder:false makeSuffix: skipApexAllowedDependenciesCheck:false excludeInApex:false}
-> libtombstoned_client_static{os:android,image:,arch:arm_armv8-a,sdk:,link:static,apex:apex10000}
via tag cc.libraryDependencyTag: { Kind:staticLibraryDependency Order:normalLibraryDependency wholeStatic:true reexportFlags:true explicitlyVersioned:false dataLib:false ndk:false staticUnwinder:false makeSuffix: skipApexAllowedDependenciesCheck:false excludeInApex:false}
-> libcutils{os:android,image:,arch:arm_armv8-a,sdk:,link:static,asan:,apex:apex10000}
via tag cc.libraryDependencyTag: { Kind:headerLibraryDependency Order:normalLibraryDependency wholeStatic:false reexportFlags:false explicitlyVersioned:false dataLib:false ndk:false staticUnwinder:false makeSuffix: skipApexAllowedDependenciesCheck:false excludeInApex:false}
-> libutils_headers{os:android,image:,arch:arm_armv8-a,sdk:,asan:,apex:apex10000}
via tag cc.libraryDependencyTag: { Kind:headerLibraryDependency Order:normalLibraryDependency wholeStatic:false reexportFlags:true explicitlyVersioned:false dataLib:false ndk:false staticUnwinder:false makeSuffix: skipApexAllowedDependenciesCheck:false excludeInApex:false}
-> libsystem_headers{os:android,image:,arch:arm_armv8-a,sdk:,asan:,apex:apex10000}
Consider adding "com.android.runtime" to 'apex_available' property of "libsystem_headers"
Change-Id: I09f92c3086ea433780133a33ba0ad73baee6dc41
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ctx . ModuleErrorf ( "%q requires %q that doesn't list the APEX under 'apex_available'." +
"\n\nDependency path:%s\n\n" +
"Consider adding %q to 'apex_available' property of %q" ,
fromName , toName , ctx . GetPathString ( true ) , apexName , toName )
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// Visit this module's dependencies to check and report any issues with their availability.
return true
} )
}
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// checkStaticExecutable ensures that executables in an APEX are not static.
func ( a * apexBundle ) checkStaticExecutables ( ctx android . ModuleContext ) {
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// No need to run this for host APEXes
if ctx . Host ( ) {
return
}
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ctx . VisitDirectDepsBlueprint ( func ( module blueprint . Module ) {
if ctx . OtherModuleDependencyTag ( module ) != executableTag {
return
}
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if l , ok := module . ( cc . LinkableInterface ) ; ok && l . StaticExecutable ( ) {
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apex := a . ApexVariationName ( )
exec := ctx . OtherModuleName ( module )
if isStaticExecutableAllowed ( apex , exec ) {
return
}
ctx . ModuleErrorf ( "executable %s is static" , ctx . OtherModuleName ( module ) )
}
} )
}
// A small list of exceptions where static executables are allowed in APEXes.
func isStaticExecutableAllowed ( apex string , exec string ) bool {
m := map [ string ] [ ] string {
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"com.android.runtime" : {
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"linker" ,
"linkerconfig" ,
} ,
}
execNames , ok := m [ apex ]
return ok && android . InList ( exec , execNames )
}
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// Collect information for opening IDE project files in java/jdeps.go.
func ( a * apexBundle ) IDEInfo ( dpInfo * android . IdeInfo ) {
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dpInfo . Deps = append ( dpInfo . Deps , a . overridableProperties . Java_libs ... )
dpInfo . Deps = append ( dpInfo . Deps , a . overridableProperties . Bootclasspath_fragments ... )
dpInfo . Deps = append ( dpInfo . Deps , a . overridableProperties . Systemserverclasspath_fragments ... )
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dpInfo . Paths = append ( dpInfo . Paths , a . modulePaths ... )
}
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var (
apexAvailBaseline = makeApexAvailableBaseline ( )
inverseApexAvailBaseline = invertApexBaseline ( apexAvailBaseline )
)
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func baselineApexAvailable ( apex , moduleName string ) bool {
key := apex
moduleName = normalizeModuleName ( moduleName )
if val , ok := apexAvailBaseline [ key ] ; ok && android . InList ( moduleName , val ) {
return true
}
key = android . AvailableToAnyApex
if val , ok := apexAvailBaseline [ key ] ; ok && android . InList ( moduleName , val ) {
return true
}
return false
}
func normalizeModuleName ( moduleName string ) string {
// Prebuilt modules (e.g. java_import, etc.) have "prebuilt_" prefix added by the build
// system. Trim the prefix for the check since they are confusing
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moduleName = android . RemoveOptionalPrebuiltPrefix ( moduleName )
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if strings . HasPrefix ( moduleName , "libclang_rt." ) {
// This module has many arch variants that depend on the product being built.
// We don't want to list them all
moduleName = "libclang_rt"
}
if strings . HasPrefix ( moduleName , "androidx." ) {
// TODO(b/156996905) Set apex_available/min_sdk_version for androidx support libraries
moduleName = "androidx"
}
return moduleName
}
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// Transform the map of apex -> modules to module -> apexes.
func invertApexBaseline ( m map [ string ] [ ] string ) map [ string ] [ ] string {
r := make ( map [ string ] [ ] string )
for apex , modules := range m {
for _ , module := range modules {
r [ module ] = append ( r [ module ] , apex )
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}
}
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return r
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}
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// Retrieve the baseline of apexes to which the supplied module belongs.
func BaselineApexAvailable ( moduleName string ) [ ] string {
return inverseApexAvailBaseline [ normalizeModuleName ( moduleName ) ]
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}
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// This is a map from apex to modules, which overrides the apex_available setting for that
// particular module to make it available for the apex regardless of its setting.
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// TODO(b/147364041): remove this
func makeApexAvailableBaseline ( ) map [ string ] [ ] string {
// The "Module separator"s below are employed to minimize merge conflicts.
m := make ( map [ string ] [ ] string )
//
// Module separator
//
m [ "com.android.appsearch" ] = [ ] string {
"icing-java-proto-lite" ,
"libprotobuf-java-lite" ,
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}
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//
// Module separator
//
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m [ "com.android.bluetooth" ] = [ ] string {
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"android.hardware.audio.common@5.0" ,
"android.hardware.bluetooth.a2dp@1.0" ,
"android.hardware.bluetooth.audio@2.0" ,
"android.hardware.bluetooth@1.0" ,
"android.hardware.bluetooth@1.1" ,
"android.hardware.graphics.bufferqueue@1.0" ,
"android.hardware.graphics.bufferqueue@2.0" ,
"android.hardware.graphics.common@1.0" ,
"android.hardware.graphics.common@1.1" ,
"android.hardware.graphics.common@1.2" ,
"android.hardware.media@1.0" ,
"android.hidl.safe_union@1.0" ,
"android.hidl.token@1.0" ,
"android.hidl.token@1.0-utils" ,
"avrcp-target-service" ,
"avrcp_headers" ,
"bluetooth-protos-lite" ,
"bluetooth.mapsapi" ,
"com.android.vcard" ,
"dnsresolver_aidl_interface-V2-java" ,
"ipmemorystore-aidl-interfaces-V5-java" ,
"ipmemorystore-aidl-interfaces-java" ,
"internal_include_headers" ,
"lib-bt-packets" ,
"lib-bt-packets-avrcp" ,
"lib-bt-packets-base" ,
"libFraunhoferAAC" ,
"libaudio-a2dp-hw-utils" ,
"libaudio-hearing-aid-hw-utils" ,
"libbluetooth" ,
"libbluetooth-types" ,
"libbluetooth-types-header" ,
"libbluetooth_gd" ,
"libbluetooth_headers" ,
"libbluetooth_jni" ,
"libbt-audio-hal-interface" ,
"libbt-bta" ,
"libbt-common" ,
"libbt-hci" ,
"libbt-platform-protos-lite" ,
"libbt-protos-lite" ,
"libbt-sbc-decoder" ,
"libbt-sbc-encoder" ,
"libbt-stack" ,
"libbt-utils" ,
"libbtcore" ,
"libbtdevice" ,
"libbte" ,
"libbtif" ,
"libchrome" ,
"libevent" ,
"libfmq" ,
"libg722codec" ,
"libgui_headers" ,
"libmedia_headers" ,
"libmodpb64" ,
"libosi" ,
"libstagefright_foundation_headers" ,
"libstagefright_headers" ,
"libstatslog" ,
"libstatssocket" ,
"libtinyxml2" ,
"libudrv-uipc" ,
"libz" ,
"media_plugin_headers" ,
"net-utils-services-common" ,
"netd_aidl_interface-unstable-java" ,
"netd_event_listener_interface-java" ,
"netlink-client" ,
"networkstack-client" ,
"sap-api-java-static" ,
"services.net" ,
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}
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//
// Module separator
//
m [ "com.android.cellbroadcast" ] = [ ] string { "CellBroadcastApp" , "CellBroadcastServiceModule" }
//
// Module separator
//
m [ "com.android.extservices" ] = [ ] string {
"error_prone_annotations" ,
"ExtServices-core" ,
"ExtServices" ,
"libtextclassifier-java" ,
"libz_current" ,
"textclassifier-statsd" ,
"TextClassifierNotificationLibNoManifest" ,
"TextClassifierServiceLibNoManifest" ,
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}
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//
// Module separator
//
m [ "com.android.neuralnetworks" ] = [ ] string {
"android.hardware.neuralnetworks@1.0" ,
"android.hardware.neuralnetworks@1.1" ,
"android.hardware.neuralnetworks@1.2" ,
"android.hardware.neuralnetworks@1.3" ,
"android.hidl.allocator@1.0" ,
"android.hidl.memory.token@1.0" ,
"android.hidl.memory@1.0" ,
"android.hidl.safe_union@1.0" ,
"libarect" ,
"libbuildversion" ,
"libmath" ,
"libprocpartition" ,
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}
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//
// Module separator
//
m [ "com.android.media" ] = [ ] string {
"android.frameworks.bufferhub@1.0" ,
"android.hardware.cas.native@1.0" ,
"android.hardware.cas@1.0" ,
"android.hardware.configstore-utils" ,
"android.hardware.configstore@1.0" ,
"android.hardware.configstore@1.1" ,
"android.hardware.graphics.allocator@2.0" ,
"android.hardware.graphics.allocator@3.0" ,
"android.hardware.graphics.bufferqueue@1.0" ,
"android.hardware.graphics.bufferqueue@2.0" ,
"android.hardware.graphics.common@1.0" ,
"android.hardware.graphics.common@1.1" ,
"android.hardware.graphics.common@1.2" ,
"android.hardware.graphics.mapper@2.0" ,
"android.hardware.graphics.mapper@2.1" ,
"android.hardware.graphics.mapper@3.0" ,
"android.hardware.media.omx@1.0" ,
"android.hardware.media@1.0" ,
"android.hidl.allocator@1.0" ,
"android.hidl.memory.token@1.0" ,
"android.hidl.memory@1.0" ,
"android.hidl.token@1.0" ,
"android.hidl.token@1.0-utils" ,
"bionic_libc_platform_headers" ,
"exoplayer2-extractor" ,
"exoplayer2-extractor-annotation-stubs" ,
"gl_headers" ,
"jsr305" ,
"libEGL" ,
"libEGL_blobCache" ,
"libEGL_getProcAddress" ,
"libFLAC" ,
"libFLAC-config" ,
"libFLAC-headers" ,
"libGLESv2" ,
"libaacextractor" ,
"libamrextractor" ,
"libarect" ,
"libaudio_system_headers" ,
"libaudioclient" ,
"libaudioclient_headers" ,
"libaudiofoundation" ,
"libaudiofoundation_headers" ,
"libaudiomanager" ,
"libaudiopolicy" ,
"libaudioutils" ,
"libaudioutils_fixedfft" ,
"libbluetooth-types-header" ,
"libbufferhub" ,
"libbufferhub_headers" ,
"libbufferhubqueue" ,
"libc_malloc_debug_backtrace" ,
"libcamera_client" ,
"libcamera_metadata" ,
"libdvr_headers" ,
"libexpat" ,
"libfifo" ,
"libflacextractor" ,
"libgrallocusage" ,
"libgraphicsenv" ,
"libgui" ,
"libgui_headers" ,
"libhardware_headers" ,
"libinput" ,
"liblzma" ,
"libmath" ,
"libmedia" ,
"libmedia_codeclist" ,
"libmedia_headers" ,
"libmedia_helper" ,
"libmedia_helper_headers" ,
"libmedia_midiiowrapper" ,
"libmedia_omx" ,
"libmediautils" ,
"libmidiextractor" ,
"libmkvextractor" ,
"libmp3extractor" ,
"libmp4extractor" ,
"libmpeg2extractor" ,
"libnativebase_headers" ,
"libnativewindow_headers" ,
"libnblog" ,
"liboggextractor" ,
"libpackagelistparser" ,
"libpdx" ,
"libpdx_default_transport" ,
"libpdx_headers" ,
"libpdx_uds" ,
"libprocinfo" ,
"libspeexresampler" ,
"libspeexresampler" ,
"libstagefright_esds" ,
"libstagefright_flacdec" ,
"libstagefright_flacdec" ,
"libstagefright_foundation" ,
"libstagefright_foundation_headers" ,
"libstagefright_foundation_without_imemory" ,
"libstagefright_headers" ,
"libstagefright_id3" ,
"libstagefright_metadatautils" ,
"libstagefright_mpeg2extractor" ,
"libstagefright_mpeg2support" ,
"libui" ,
"libui_headers" ,
"libunwindstack" ,
"libvibrator" ,
"libvorbisidec" ,
"libwavextractor" ,
"libwebm" ,
"media_ndk_headers" ,
"media_plugin_headers" ,
"updatable-media" ,
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}
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//
// Module separator
//
m [ "com.android.media.swcodec" ] = [ ] string {
"android.frameworks.bufferhub@1.0" ,
"android.hardware.common-ndk_platform" ,
"android.hardware.configstore-utils" ,
"android.hardware.configstore@1.0" ,
"android.hardware.configstore@1.1" ,
"android.hardware.graphics.allocator@2.0" ,
"android.hardware.graphics.allocator@3.0" ,
"android.hardware.graphics.allocator@4.0" ,
"android.hardware.graphics.bufferqueue@1.0" ,
"android.hardware.graphics.bufferqueue@2.0" ,
"android.hardware.graphics.common-ndk_platform" ,
"android.hardware.graphics.common@1.0" ,
"android.hardware.graphics.common@1.1" ,
"android.hardware.graphics.common@1.2" ,
"android.hardware.graphics.mapper@2.0" ,
"android.hardware.graphics.mapper@2.1" ,
"android.hardware.graphics.mapper@3.0" ,
"android.hardware.graphics.mapper@4.0" ,
"android.hardware.media.bufferpool@2.0" ,
"android.hardware.media.c2@1.0" ,
"android.hardware.media.c2@1.1" ,
"android.hardware.media.omx@1.0" ,
"android.hardware.media@1.0" ,
"android.hardware.media@1.0" ,
"android.hidl.memory.token@1.0" ,
"android.hidl.memory@1.0" ,
"android.hidl.safe_union@1.0" ,
"android.hidl.token@1.0" ,
"android.hidl.token@1.0-utils" ,
"libEGL" ,
"libFLAC" ,
"libFLAC-config" ,
"libFLAC-headers" ,
"libFraunhoferAAC" ,
"libLibGuiProperties" ,
"libarect" ,
"libaudio_system_headers" ,
"libaudioutils" ,
"libaudioutils" ,
"libaudioutils_fixedfft" ,
"libavcdec" ,
"libavcenc" ,
"libavservices_minijail" ,
"libavservices_minijail" ,
"libbinderthreadstateutils" ,
"libbluetooth-types-header" ,
"libbufferhub_headers" ,
"libcodec2" ,
"libcodec2_headers" ,
"libcodec2_hidl@1.0" ,
"libcodec2_hidl@1.1" ,
"libcodec2_internal" ,
"libcodec2_soft_aacdec" ,
"libcodec2_soft_aacenc" ,
"libcodec2_soft_amrnbdec" ,
"libcodec2_soft_amrnbenc" ,
"libcodec2_soft_amrwbdec" ,
"libcodec2_soft_amrwbenc" ,
"libcodec2_soft_av1dec_gav1" ,
"libcodec2_soft_avcdec" ,
"libcodec2_soft_avcenc" ,
"libcodec2_soft_common" ,
"libcodec2_soft_flacdec" ,
"libcodec2_soft_flacenc" ,
"libcodec2_soft_g711alawdec" ,
"libcodec2_soft_g711mlawdec" ,
"libcodec2_soft_gsmdec" ,
"libcodec2_soft_h263dec" ,
"libcodec2_soft_h263enc" ,
"libcodec2_soft_hevcdec" ,
"libcodec2_soft_hevcenc" ,
"libcodec2_soft_mp3dec" ,
"libcodec2_soft_mpeg2dec" ,
"libcodec2_soft_mpeg4dec" ,
"libcodec2_soft_mpeg4enc" ,
"libcodec2_soft_opusdec" ,
"libcodec2_soft_opusenc" ,
"libcodec2_soft_rawdec" ,
"libcodec2_soft_vorbisdec" ,
"libcodec2_soft_vp8dec" ,
"libcodec2_soft_vp8enc" ,
"libcodec2_soft_vp9dec" ,
"libcodec2_soft_vp9enc" ,
"libcodec2_vndk" ,
"libdvr_headers" ,
"libfmq" ,
"libfmq" ,
"libgav1" ,
"libgralloctypes" ,
"libgrallocusage" ,
"libgraphicsenv" ,
"libgsm" ,
"libgui_bufferqueue_static" ,
"libgui_headers" ,
"libhardware" ,
"libhardware_headers" ,
"libhevcdec" ,
"libhevcenc" ,
"libion" ,
"libjpeg" ,
"liblzma" ,
"libmath" ,
"libmedia_codecserviceregistrant" ,
"libmedia_headers" ,
"libmpeg2dec" ,
"libnativebase_headers" ,
"libnativewindow_headers" ,
"libpdx_headers" ,
"libscudo_wrapper" ,
"libsfplugin_ccodec_utils" ,
"libspeexresampler" ,
"libstagefright_amrnb_common" ,
"libstagefright_amrnbdec" ,
"libstagefright_amrnbenc" ,
"libstagefright_amrwbdec" ,
"libstagefright_amrwbenc" ,
"libstagefright_bufferpool@2.0.1" ,
"libstagefright_enc_common" ,
"libstagefright_flacdec" ,
"libstagefright_foundation" ,
"libstagefright_foundation_headers" ,
"libstagefright_headers" ,
"libstagefright_m4vh263dec" ,
"libstagefright_m4vh263enc" ,
"libstagefright_mp3dec" ,
"libui" ,
"libui_headers" ,
"libunwindstack" ,
"libvorbisidec" ,
"libvpx" ,
"libyuv" ,
"libyuv_static" ,
"media_ndk_headers" ,
"media_plugin_headers" ,
"mediaswcodec" ,
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}
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//
// Module separator
//
m [ "com.android.mediaprovider" ] = [ ] string {
"MediaProvider" ,
"MediaProviderGoogle" ,
"fmtlib_ndk" ,
"libbase_ndk" ,
"libfuse" ,
"libfuse_jni" ,
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}
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//
// Module separator
//
m [ "com.android.runtime" ] = [ ] string {
"bionic_libc_platform_headers" ,
"libarm-optimized-routines-math" ,
"libc_aeabi" ,
"libc_bionic" ,
"libc_bionic_ndk" ,
"libc_bootstrap" ,
"libc_common" ,
"libc_common_shared" ,
"libc_common_static" ,
"libc_dns" ,
"libc_dynamic_dispatch" ,
"libc_fortify" ,
"libc_freebsd" ,
"libc_freebsd_large_stack" ,
"libc_gdtoa" ,
"libc_init_dynamic" ,
"libc_init_static" ,
"libc_jemalloc_wrapper" ,
"libc_netbsd" ,
"libc_nomalloc" ,
"libc_nopthread" ,
"libc_openbsd" ,
"libc_openbsd_large_stack" ,
"libc_openbsd_ndk" ,
"libc_pthread" ,
"libc_static_dispatch" ,
"libc_syscalls" ,
"libc_tzcode" ,
"libc_unwind_static" ,
"libdebuggerd" ,
"libdebuggerd_common_headers" ,
"libdebuggerd_handler_core" ,
"libdebuggerd_handler_fallback" ,
"libdl_static" ,
"libjemalloc5" ,
"liblinker_main" ,
"liblinker_malloc" ,
"liblz4" ,
"liblzma" ,
"libprocinfo" ,
"libpropertyinfoparser" ,
"libscudo" ,
"libstdc++" ,
"libsystemproperties" ,
"libtombstoned_client_static" ,
"libunwindstack" ,
"libz" ,
"libziparchive" ,
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}
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//
// Module separator
//
m [ "com.android.tethering" ] = [ ] string {
"android.hardware.tetheroffload.config-V1.0-java" ,
"android.hardware.tetheroffload.control-V1.0-java" ,
"android.hidl.base-V1.0-java" ,
"libcgrouprc" ,
"libcgrouprc_format" ,
"libtetherutilsjni" ,
"libvndksupport" ,
"net-utils-framework-common" ,
"netd_aidl_interface-V3-java" ,
"netlink-client" ,
"networkstack-aidl-interfaces-java" ,
"tethering-aidl-interfaces-java" ,
"TetheringApiCurrentLib" ,
}
//
// Module separator
//
m [ "com.android.wifi" ] = [ ] string {
"PlatformProperties" ,
"android.hardware.wifi-V1.0-java" ,
"android.hardware.wifi-V1.0-java-constants" ,
"android.hardware.wifi-V1.1-java" ,
"android.hardware.wifi-V1.2-java" ,
"android.hardware.wifi-V1.3-java" ,
"android.hardware.wifi-V1.4-java" ,
"android.hardware.wifi.hostapd-V1.0-java" ,
"android.hardware.wifi.hostapd-V1.1-java" ,
"android.hardware.wifi.hostapd-V1.2-java" ,
"android.hardware.wifi.supplicant-V1.0-java" ,
"android.hardware.wifi.supplicant-V1.1-java" ,
"android.hardware.wifi.supplicant-V1.2-java" ,
"android.hardware.wifi.supplicant-V1.3-java" ,
"android.hidl.base-V1.0-java" ,
"android.hidl.manager-V1.0-java" ,
"android.hidl.manager-V1.1-java" ,
"android.hidl.manager-V1.2-java" ,
"bouncycastle-unbundled" ,
"dnsresolver_aidl_interface-V2-java" ,
"error_prone_annotations" ,
"framework-wifi-pre-jarjar" ,
"framework-wifi-util-lib" ,
"ipmemorystore-aidl-interfaces-V3-java" ,
"ipmemorystore-aidl-interfaces-java" ,
"ksoap2" ,
"libnanohttpd" ,
"libwifi-jni" ,
"net-utils-services-common" ,
"netd_aidl_interface-V2-java" ,
"netd_aidl_interface-unstable-java" ,
"netd_event_listener_interface-java" ,
"netlink-client" ,
"networkstack-client" ,
"services.net" ,
"wifi-lite-protos" ,
"wifi-nano-protos" ,
"wifi-service-pre-jarjar" ,
"wifi-service-resources" ,
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}
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//
// Module separator
//
m [ "com.android.os.statsd" ] = [ ] string {
"libstatssocket" ,
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}
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//
// Module separator
//
m [ android . AvailableToAnyApex ] = [ ] string {
// TODO(b/156996905) Set apex_available/min_sdk_version for androidx/extras support libraries
"androidx" ,
"androidx-constraintlayout_constraintlayout" ,
"androidx-constraintlayout_constraintlayout-nodeps" ,
"androidx-constraintlayout_constraintlayout-solver" ,
"androidx-constraintlayout_constraintlayout-solver-nodeps" ,
"com.google.android.material_material" ,
"com.google.android.material_material-nodeps" ,
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"libclang_rt" ,
"libprofile-clang-extras" ,
"libprofile-clang-extras_ndk" ,
"libprofile-extras" ,
"libprofile-extras_ndk" ,
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"libunwind" ,
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}
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return m
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}
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func init ( ) {
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android . AddNeverAllowRules ( createBcpPermittedPackagesRules ( qBcpPackages ( ) ) ... )
android . AddNeverAllowRules ( createBcpPermittedPackagesRules ( rBcpPackages ( ) ) ... )
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}
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func createBcpPermittedPackagesRules ( bcpPermittedPackages map [ string ] [ ] string ) [ ] android . Rule {
rules := make ( [ ] android . Rule , 0 , len ( bcpPermittedPackages ) )
for jar , permittedPackages := range bcpPermittedPackages {
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permittedPackagesRule := android . NeverAllow ( ) .
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With ( "name" , jar ) .
WithMatcher ( "permitted_packages" , android . NotInList ( permittedPackages ) ) .
Because ( jar +
" bootjar may only use these package prefixes: " + strings . Join ( permittedPackages , "," ) +
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". Please consider the following alternatives:\n" +
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" 1. If the offending code is from a statically linked library, consider " +
"removing that dependency and using an alternative already in the " +
"bootclasspath, or perhaps a shared library." +
" 2. Move the offending code into an allowed package.\n" +
" 3. Jarjar the offending code. Please be mindful of the potential system " +
"health implications of bundling that code, particularly if the offending jar " +
"is part of the bootclasspath." )
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rules = append ( rules , permittedPackagesRule )
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}
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return rules
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}
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// DO NOT EDIT! These are the package prefixes that are exempted from being AOT'ed by ART.
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// Adding code to the bootclasspath in new packages will cause issues on module update.
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func qBcpPackages ( ) map [ string ] [ ] string {
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return map [ string ] [ ] string {
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"conscrypt" : {
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"android.net.ssl" ,
"com.android.org.conscrypt" ,
} ,
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"updatable-media" : {
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"android.media" ,
} ,
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}
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}
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// DO NOT EDIT! These are the package prefixes that are exempted from being AOT'ed by ART.
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// Adding code to the bootclasspath in new packages will cause issues on module update.
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func rBcpPackages ( ) map [ string ] [ ] string {
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return map [ string ] [ ] string {
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"framework-mediaprovider" : {
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"android.provider" ,
} ,
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"framework-permission" : {
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"android.permission" ,
"android.app.role" ,
"com.android.permission" ,
"com.android.role" ,
} ,
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"framework-sdkextensions" : {
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"android.os.ext" ,
} ,
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"framework-statsd" : {
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"android.app" ,
"android.os" ,
"android.util" ,
"com.android.internal.statsd" ,
"com.android.server.stats" ,
} ,
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"framework-wifi" : {
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"com.android.server.wifi" ,
"com.android.wifi.x" ,
"android.hardware.wifi" ,
"android.net.wifi" ,
} ,
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"framework-tethering" : {
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"android.net" ,
} ,
}
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}
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// For Bazel / bp2build
type bazelApexBundleAttributes struct {
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Manifest bazel . LabelAttribute
Android_manifest bazel . LabelAttribute
File_contexts bazel . LabelAttribute
Key bazel . LabelAttribute
Certificate bazel . LabelAttribute
Min_sdk_version * string
Updatable bazel . BoolAttribute
Installable bazel . BoolAttribute
Binaries bazel . LabelListAttribute
Prebuilts bazel . LabelListAttribute
Native_shared_libs_32 bazel . LabelListAttribute
Native_shared_libs_64 bazel . LabelListAttribute
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Compressible bazel . BoolAttribute
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Package_name * string
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Logging_parent * string
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}
type convertedNativeSharedLibs struct {
Native_shared_libs_32 bazel . LabelListAttribute
Native_shared_libs_64 bazel . LabelListAttribute
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}
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// ConvertWithBp2build performs bp2build conversion of an apex
func ( a * apexBundle ) ConvertWithBp2build ( ctx android . TopDownMutatorContext ) {
// We do not convert apex_test modules at this time
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if ctx . ModuleType ( ) != "apex" {
return
}
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attrs , props := convertWithBp2build ( a , ctx )
ctx . CreateBazelTargetModule ( props , android . CommonAttributes { Name : a . Name ( ) } , & attrs )
}
func convertWithBp2build ( a * apexBundle , ctx android . TopDownMutatorContext ) ( bazelApexBundleAttributes , bazel . BazelTargetModuleProperties ) {
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var manifestLabelAttribute bazel . LabelAttribute
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manifestLabelAttribute . SetValue ( android . BazelLabelForModuleSrcSingle ( ctx , proptools . StringDefault ( a . properties . Manifest , "apex_manifest.json" ) ) )
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var androidManifestLabelAttribute bazel . LabelAttribute
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if a . properties . AndroidManifest != nil {
androidManifestLabelAttribute . SetValue ( android . BazelLabelForModuleSrcSingle ( ctx , * a . properties . AndroidManifest ) )
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}
var fileContextsLabelAttribute bazel . LabelAttribute
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if a . properties . File_contexts == nil {
// See buildFileContexts(), if file_contexts is not specified the default one is used, which is //system/sepolicy/apex:<module name>-file_contexts
fileContextsLabelAttribute . SetValue ( android . BazelLabelForModuleDepSingle ( ctx , a . Name ( ) + "-file_contexts" ) )
} else if strings . HasPrefix ( * a . properties . File_contexts , ":" ) {
// File_contexts is a module
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fileContextsLabelAttribute . SetValue ( android . BazelLabelForModuleDepSingle ( ctx , * a . properties . File_contexts ) )
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} else {
// File_contexts is a file
fileContextsLabelAttribute . SetValue ( android . BazelLabelForModuleSrcSingle ( ctx , * a . properties . File_contexts ) )
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}
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// TODO(b/219503907) this would need to be set to a.MinSdkVersionValue(ctx) but
// given it's coming via config, we probably don't want to put it in here.
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var minSdkVersion * string
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if a . properties . Min_sdk_version != nil {
minSdkVersion = a . properties . Min_sdk_version
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}
var keyLabelAttribute bazel . LabelAttribute
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if a . overridableProperties . Key != nil {
keyLabelAttribute . SetValue ( android . BazelLabelForModuleDepSingle ( ctx , * a . overridableProperties . Key ) )
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}
var certificateLabelAttribute bazel . LabelAttribute
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if a . overridableProperties . Certificate != nil {
certificateLabelAttribute . SetValue ( android . BazelLabelForModuleDepSingle ( ctx , * a . overridableProperties . Certificate ) )
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}
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nativeSharedLibs := & convertedNativeSharedLibs {
Native_shared_libs_32 : bazel . LabelListAttribute { } ,
Native_shared_libs_64 : bazel . LabelListAttribute { } ,
}
compileMultilib := "both"
if a . CompileMultilib ( ) != nil {
compileMultilib = * a . CompileMultilib ( )
}
// properties.Native_shared_libs is treated as "both"
convertBothLibs ( ctx , compileMultilib , a . properties . Native_shared_libs , nativeSharedLibs )
convertBothLibs ( ctx , compileMultilib , a . properties . Multilib . Both . Native_shared_libs , nativeSharedLibs )
convert32Libs ( ctx , compileMultilib , a . properties . Multilib . Lib32 . Native_shared_libs , nativeSharedLibs )
convert64Libs ( ctx , compileMultilib , a . properties . Multilib . Lib64 . Native_shared_libs , nativeSharedLibs )
convertFirstLibs ( ctx , compileMultilib , a . properties . Multilib . First . Native_shared_libs , nativeSharedLibs )
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prebuilts := a . overridableProperties . Prebuilts
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prebuiltsLabelList := android . BazelLabelForModuleDeps ( ctx , prebuilts )
prebuiltsLabelListAttribute := bazel . MakeLabelListAttribute ( prebuiltsLabelList )
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binaries := android . BazelLabelForModuleDeps ( ctx , a . properties . ApexNativeDependencies . Binaries )
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binariesLabelListAttribute := bazel . MakeLabelListAttribute ( binaries )
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var updatableAttribute bazel . BoolAttribute
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if a . properties . Updatable != nil {
updatableAttribute . Value = a . properties . Updatable
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}
var installableAttribute bazel . BoolAttribute
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if a . properties . Installable != nil {
installableAttribute . Value = a . properties . Installable
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}
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var compressibleAttribute bazel . BoolAttribute
if a . overridableProperties . Compressible != nil {
compressibleAttribute . Value = a . overridableProperties . Compressible
}
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var packageName * string
if a . overridableProperties . Package_name != "" {
packageName = & a . overridableProperties . Package_name
}
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var loggingParent * string
if a . overridableProperties . Logging_parent != "" {
loggingParent = & a . overridableProperties . Logging_parent
}
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attrs := bazelApexBundleAttributes {
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Manifest : manifestLabelAttribute ,
Android_manifest : androidManifestLabelAttribute ,
File_contexts : fileContextsLabelAttribute ,
Min_sdk_version : minSdkVersion ,
Key : keyLabelAttribute ,
Certificate : certificateLabelAttribute ,
Updatable : updatableAttribute ,
Installable : installableAttribute ,
Native_shared_libs_32 : nativeSharedLibs . Native_shared_libs_32 ,
Native_shared_libs_64 : nativeSharedLibs . Native_shared_libs_64 ,
Binaries : binariesLabelListAttribute ,
Prebuilts : prebuiltsLabelListAttribute ,
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Compressible : compressibleAttribute ,
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Package_name : packageName ,
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Logging_parent : loggingParent ,
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}
props := bazel . BazelTargetModuleProperties {
Rule_class : "apex" ,
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Bzl_load_location : "//build/bazel/rules/apex:apex.bzl" ,
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}
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return attrs , props
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}
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// The following conversions are based on this table where the rows are the compile_multilib
// values and the columns are the properties.Multilib.*.Native_shared_libs. Each cell
// represents how the libs should be compiled for a 64-bit/32-bit device: 32 means it
// should be compiled as 32-bit, 64 means it should be compiled as 64-bit, none means it
// should not be compiled.
// multib/compile_multilib, 32, 64, both, first
// 32, 32/32, none/none, 32/32, none/32
// 64, none/none, 64/none, 64/none, 64/none
// both, 32/32, 64/none, 32&64/32, 64/32
// first, 32/32, 64/none, 64/32, 64/32
func convert32Libs ( ctx android . TopDownMutatorContext , compileMultilb string ,
libs [ ] string , nativeSharedLibs * convertedNativeSharedLibs ) {
libsLabelList := android . BazelLabelForModuleDeps ( ctx , libs )
switch compileMultilb {
case "both" , "32" :
makeNoConfig32SharedLibsAttributes ( libsLabelList , nativeSharedLibs )
case "first" :
make32SharedLibsAttributes ( libsLabelList , nativeSharedLibs )
case "64" :
// Incompatible, ignore
default :
invalidCompileMultilib ( ctx , compileMultilb )
}
}
func convert64Libs ( ctx android . TopDownMutatorContext , compileMultilb string ,
libs [ ] string , nativeSharedLibs * convertedNativeSharedLibs ) {
libsLabelList := android . BazelLabelForModuleDeps ( ctx , libs )
switch compileMultilb {
case "both" , "64" , "first" :
make64SharedLibsAttributes ( libsLabelList , nativeSharedLibs )
case "32" :
// Incompatible, ignore
default :
invalidCompileMultilib ( ctx , compileMultilb )
}
}
func convertBothLibs ( ctx android . TopDownMutatorContext , compileMultilb string ,
libs [ ] string , nativeSharedLibs * convertedNativeSharedLibs ) {
libsLabelList := android . BazelLabelForModuleDeps ( ctx , libs )
switch compileMultilb {
case "both" :
makeNoConfig32SharedLibsAttributes ( libsLabelList , nativeSharedLibs )
make64SharedLibsAttributes ( libsLabelList , nativeSharedLibs )
case "first" :
makeFirstSharedLibsAttributes ( libsLabelList , nativeSharedLibs )
case "32" :
makeNoConfig32SharedLibsAttributes ( libsLabelList , nativeSharedLibs )
case "64" :
make64SharedLibsAttributes ( libsLabelList , nativeSharedLibs )
default :
invalidCompileMultilib ( ctx , compileMultilb )
}
}
func convertFirstLibs ( ctx android . TopDownMutatorContext , compileMultilb string ,
libs [ ] string , nativeSharedLibs * convertedNativeSharedLibs ) {
libsLabelList := android . BazelLabelForModuleDeps ( ctx , libs )
switch compileMultilb {
case "both" , "first" :
makeFirstSharedLibsAttributes ( libsLabelList , nativeSharedLibs )
case "32" :
make32SharedLibsAttributes ( libsLabelList , nativeSharedLibs )
case "64" :
make64SharedLibsAttributes ( libsLabelList , nativeSharedLibs )
default :
invalidCompileMultilib ( ctx , compileMultilb )
}
}
func makeFirstSharedLibsAttributes ( libsLabelList bazel . LabelList , nativeSharedLibs * convertedNativeSharedLibs ) {
make32SharedLibsAttributes ( libsLabelList , nativeSharedLibs )
make64SharedLibsAttributes ( libsLabelList , nativeSharedLibs )
}
func makeNoConfig32SharedLibsAttributes ( libsLabelList bazel . LabelList , nativeSharedLibs * convertedNativeSharedLibs ) {
list := bazel . LabelListAttribute { }
list . SetSelectValue ( bazel . NoConfigAxis , "" , libsLabelList )
nativeSharedLibs . Native_shared_libs_32 . Append ( list )
}
func make32SharedLibsAttributes ( libsLabelList bazel . LabelList , nativeSharedLibs * convertedNativeSharedLibs ) {
makeSharedLibsAttributes ( "x86" , libsLabelList , & nativeSharedLibs . Native_shared_libs_32 )
makeSharedLibsAttributes ( "arm" , libsLabelList , & nativeSharedLibs . Native_shared_libs_32 )
}
func make64SharedLibsAttributes ( libsLabelList bazel . LabelList , nativeSharedLibs * convertedNativeSharedLibs ) {
makeSharedLibsAttributes ( "x86_64" , libsLabelList , & nativeSharedLibs . Native_shared_libs_64 )
makeSharedLibsAttributes ( "arm64" , libsLabelList , & nativeSharedLibs . Native_shared_libs_64 )
}
func makeSharedLibsAttributes ( config string , libsLabelList bazel . LabelList ,
labelListAttr * bazel . LabelListAttribute ) {
list := bazel . LabelListAttribute { }
list . SetSelectValue ( bazel . ArchConfigurationAxis , config , libsLabelList )
labelListAttr . Append ( list )
}
func invalidCompileMultilib ( ctx android . TopDownMutatorContext , value string ) {
ctx . PropertyErrorf ( "compile_multilib" , "Invalid value: %s" , value )
}