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android / platform / build / soong / 44f61eb16f / . / java / dex.go
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// Copyright 2017 Google Inc. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package java
import (
"fmt"
"path/filepath"
"strconv"
"strings"
"github.com/google/blueprint"
"github.com/google/blueprint/proptools"
"android/soong/android"
"android/soong/remoteexec"
)
func init() {
pctx.HostBinToolVariable("symbols_map", "symbols_map")
}
type DexProperties struct {
// If set to true, compile dex regardless of installable. Defaults to false.
Compile_dex *bool
// list of module-specific flags that will be used for dex compiles
Dxflags []string `android:"arch_variant"`
// A list of files containing rules that specify the classes to keep in the main dex file.
Main_dex_rules []string `android:"path"`
Optimize struct {
// If false, disable all optimization. Defaults to true for android_app and
// android_test_helper_app modules, false for android_test, java_library, and java_test modules.
Enabled *bool
// True if the module containing this has it set by default.
EnabledByDefault bool `blueprint:"mutated"`
// If true, then `d8` will be used on eng builds instead of `r8`, even though
// optimize.enabled is true.
D8_on_eng *bool
// Whether to allow that library classes inherit from program classes.
// Defaults to false.
Ignore_library_extends_program *bool
// Whether to continue building even if warnings are emitted. Defaults to true.
Ignore_warnings *bool
// Whether runtime invisible annotations should be kept by R8. Defaults to false.
// This is equivalent to:
// -keepattributes RuntimeInvisibleAnnotations,
// RuntimeInvisibleParameterAnnotations,
// RuntimeInvisibleTypeAnnotations
// This is only applicable when RELEASE_R8_ONLY_RUNTIME_VISIBLE_ANNOTATIONS is
// enabled and will be used to migrate away from keeping runtime invisible
// annotations (b/387958004).
Keep_runtime_invisible_annotations *bool
// If true, runs R8 in Proguard compatibility mode, otherwise runs R8 in full mode.
// Defaults to false for apps and tests, true for libraries.
Proguard_compatibility *bool
// If true, R8 will not add public or protected members (fields or methods) to
// the API surface of the compilation unit, i.e., classes that are kept or
// have kept subclasses will not expose any members added by R8 for internal
// use. That includes renamed members if obfuscation is enabled.
// This should only be used for building targets that go on the bootclasspath.
// Defaults to false.
Protect_api_surface *bool
// If true, optimize for size by removing unused code. Defaults to true for apps,
// false for libraries and tests.
Shrink *bool
// If true, optimize bytecode. Defaults to false.
Optimize proptools.Configurable[bool] `android:"replace_instead_of_append"`
// If true, obfuscate bytecode by renaming packages, classes, and members.
// Defaults to false.
Obfuscate *bool
// If true, do not use the flag files generated by aapt that automatically keep
// classes referenced by the app manifest. Defaults to false.
No_aapt_flags *bool
// If true, optimize for size by removing unused resources. Defaults to false.
Shrink_resources *bool
// If true, use optimized resource shrinking in R8, overriding the
// Shrink_resources setting. Defaults to false.
// Optimized shrinking means that R8 will trace and treeshake resources together with code
// and apply additional optimizations. This implies non final fields in the R classes.
Optimized_shrink_resources *bool
// Flags to pass to proguard.
Proguard_flags []string
// Specifies the locations of files containing proguard flags.
Proguard_flags_files []string `android:"path"`
// If true, transitive reverse dependencies of this module will have this
// module's proguard spec appended to their optimization action
Export_proguard_flags_files *bool
// Path to a file containing a list of class names that should not be compiled using R8.
// These classes will be compiled by D8 similar to when Optimize.Enabled is false.
//
// Example:
//
// r8.exclude:
// com.example.Foo
// com.example.Bar
// com.example.Bar$Baz
//
// By default all classes are compiled using R8 when Optimize.Enabled is set.
Exclude *string `android:"path"`
// Optional list of downstream (Java) libraries from which to trace and preserve references
// when optimizing. Note that this requires that the source reference does *not* have
// a strict lib dependency on this target; dependencies should be on intermediate targets
// statically linked into this target, e.g., if A references B, and we want to trace and
// keep references from A when optimizing B, you would create an intermediate B.impl (
// containing all static code), have A depend on `B.impl` via libs, and set
// `trace_references_from: ["A"]` on B.
//
// Also note that these are *not* inherited across targets, they must be specified at the
// top-level target that is optimized.
//
// TODO(b/212737576): Handle this implicitly using bottom-up deps mutation and implicit
// creation of a proxy `.impl` library.
Trace_references_from proptools.Configurable[[]string] `android:"arch_variant"`
// Add libraries using `--classpath` instead of `--libs`, to allow overrides. This
// should normally not be used, but can be necessary when running R8 on the boot
// classpath itself.
Import_libraries_as_classpath *bool
}
// Keep the data uncompressed. We always need uncompressed dex for execution,
// so this might actually save space by avoiding storing the same data twice.
// This defaults to reasonable value based on module and should not be set.
// It exists only to support ART tests.
Uncompress_dex *bool
// Exclude kotlinc generate files: *.kotlin_module, *.kotlin_builtins. Defaults to false.
Exclude_kotlinc_generated_files *bool
// Disable dex container (also known as "multi-dex").
// This may be necessary as a temporary workaround to mask toolchain bugs (see b/341652226).
No_dex_container *bool
}
type dexer struct {
dexProperties DexProperties
// list of extra proguard flag files
extraProguardFlagsFiles android.Paths
proguardDictionary android.OptionalPath
proguardConfiguration android.OptionalPath
proguardUsageZip android.OptionalPath
resourcesInput android.OptionalPath
resourcesOutput android.OptionalPath
providesTransitiveHeaderJarsForR8
}
func (d *dexer) effectiveOptimizeEnabled(ctx android.EarlyModuleContext) bool {
// For eng builds, if Optimize.D8_on_eng is true, then disable optimization.
if ctx.Config().Eng() && proptools.Bool(d.dexProperties.Optimize.D8_on_eng) {
return false
}
// Otherwise, use the legacy logic of a default value which can be explicitly overridden by the module.
return BoolDefault(d.dexProperties.Optimize.Enabled, d.dexProperties.Optimize.EnabledByDefault)
}
func (d *DexProperties) resourceShrinkingEnabled(ctx android.ModuleContext) bool {
return !ctx.Config().Eng() && BoolDefault(d.Optimize.Optimized_shrink_resources, Bool(d.Optimize.Shrink_resources))
}
func (d *DexProperties) optimizedResourceShrinkingEnabled(ctx android.ModuleContext) bool {
return d.resourceShrinkingEnabled(ctx) && BoolDefault(d.Optimize.Optimized_shrink_resources, ctx.Config().UseOptimizedResourceShrinkingByDefault())
}
func (d *dexer) optimizeOrObfuscateEnabled(ctx android.ModuleContext) bool {
return d.effectiveOptimizeEnabled(ctx) && (d.dexProperties.Optimize.Optimize.GetOrDefault(ctx, false) || proptools.Bool(d.dexProperties.Optimize.Obfuscate))
}
// Removes all outputs of d8Inc rule
var d8IncClean = pctx.AndroidStaticRule("d8Inc-partialcompileclean",
blueprint.RuleParams{
Command: `rm -rf "${outDir}" "${builtOut}" "${d8Deps}"`,
}, "outDir", "d8Flags", "d8Deps", "zipFlags", "mergeZipsFlags", "builtOut",
)
var d8Inc, d8IncRE = pctx.MultiCommandRemoteStaticRules("d8Inc",
blueprint.RuleParams{
Command: `mkdir -p "$outDir" && ` +
`${config.IncrementalDexInputCmd} ` +
`--classesJar $in --dexTarget $out --deps $d8Deps --outputDir $outDir && ` +
`$d8Template${config.D8Cmd} ${config.D8Flags} $d8Flags --output $outDir --no-dex-input-jar $in --packages $out.rsp --mod-packages $out.inc.rsp && ` +
`$zipTemplate${config.SoongZipCmd} $zipFlags -o $outDir/classes.dex.jar -C $outDir -f "$outDir/classes*.dex" && ` +
`${config.MergeZipsCmd} -D -stripFile "**/*.class" $mergeZipsFlags $out $outDir/classes.dex.jar $in && ` +
`if [ -f "$out.input.pc_state.new" ]; then mv "$out.input.pc_state.new" "$out.input.pc_state" && ` +
`rm -rf $out.input.pc_state.new; fi && ` +
`if [ -f "$out.deps.pc_state.new" ]; then mv "$out.deps.pc_state.new" "$out.deps.pc_state" && ` +
`rm -rf $out.deps.pc_state.new; fi && ` +
`rm -f "$outDir"/classes*.dex "$outDir/classes.dex.jar"`,
CommandDeps: []string{
"${config.IncrementalDexInputCmd}",
"${config.D8Cmd}",
"${config.SoongZipCmd}",
"${config.MergeZipsCmd}",
},
}, map[string]*remoteexec.REParams{
"$d8Template": &remoteexec.REParams{
Labels: map[string]string{"type": "compile", "compiler": "d8"},
Inputs: []string{"${config.D8Jar}"},
ExecStrategy: "${config.RED8ExecStrategy}",
ToolchainInputs: []string{"${config.JavaCmd}"},
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
},
"$zipTemplate": &remoteexec.REParams{
Labels: map[string]string{"type": "tool", "name": "soong_zip"},
Inputs: []string{"${config.SoongZipCmd}", "$outDir"},
OutputFiles: []string{"$outDir/classes.dex.jar"},
ExecStrategy: "${config.RED8ExecStrategy}",
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
},
}, []string{"outDir", "d8Flags", "zipFlags", "mergeZipsFlags", "d8Deps"}, nil)
// Include all of the args for d8IncR8, so that we can generate the partialcompileclean target's build using the same list.
var d8IncR8Clean = pctx.AndroidStaticRule("d8Incr8-partialcompileclean",
blueprint.RuleParams{
Command: `rm -rf "${outDir}" "${outDict}" "${outConfig}" "${outUsage}" "${outUsageZip}" "${outUsageDir}" ` +
`"${resourcesOutput}" "${outR8ArtProfile}" ${builtOut} ${d8Deps}`,
}, "outDir", "outDict", "outConfig", "outUsage", "outUsageZip", "outUsageDir", "builtOut",
"d8Flags", "d8Deps", "r8Flags", "zipFlags", "mergeZipsFlags", "resourcesOutput", "outR8ArtProfile", "implicits",
)
var d8IncR8, d8IncR8RE = pctx.MultiCommandRemoteStaticRules("d8Incr8",
blueprint.RuleParams{
Command: `mkdir -p "$outDir" && ` +
`rm -f "$outDict" && rm -f "$outConfig" && rm -rf "${outUsageDir}" && ` +
`mkdir -p $$(dirname ${outUsage}) && ` +
`if [ -n "$${SOONG_USE_PARTIAL_COMPILE}" ]; then ` +
` for f in "${outConfig}" "${outDict}" "${outUsage}" "${resourcesOutput}"; do ` +
` test -n "$${f}" && test ! -f "$${f}" && mkdir -p "$$(dirname "$${f}")" && touch "$${f}" || true; ` +
` done && ` +
` ${config.IncrementalDexInputCmd} --classesJar $in --dexTarget $out --deps $d8Deps --outputDir $outDir && ` +
` $d8Template${config.D8Cmd} ${config.D8Flags} $d8Flags --output $outDir --no-dex-input-jar $in --packages $out.rsp --mod-packages $out.inc.rsp; ` +
`else ` +
` rm -rf "$outDir" && mkdir -p "$outDir" && ` +
` $r8Template${config.R8Cmd} ${config.R8Flags} $r8Flags -injars $in --output $outDir ` +
` --no-data-resources ` +
` -printmapping ${outDict} ` +
` -printconfiguration ${outConfig} ` +
` -printusage ${outUsage} ` +
` --deps-file ${out}.d && ` +
` touch "${outDict}" "${outConfig}" "${outUsage}"; ` +
`fi && ` +
`${config.SoongZipCmd} -o ${outUsageZip} -C ${outUsageDir} -f ${outUsage} && ` +
`rm -rf ${outUsageDir} && ` +
`$zipTemplate${config.SoongZipCmd} $zipFlags -o $outDir/classes.dex.jar -C $outDir -f "$outDir/classes*.dex" && ` +
`${config.MergeZipsCmd} -D -stripFile "**/*.class" $mergeZipsFlags $out $outDir/classes.dex.jar $in && ` +
`if [ -f "$out.input.pc_state.new" ]; then mv "$out.input.pc_state.new" "$out.input.pc_state" && ` +
`rm -rf $out.input.pc_state.new; fi && ` +
`if [ -f "$out.deps.pc_state.new" ]; then mv "$out.deps.pc_state.new" "$out.deps.pc_state" && ` +
`rm -rf $out.deps.pc_state.new; fi && ` +
`rm -f "$outDir"/classes*.dex "$outDir/classes.dex.jar" `,
CommandDeps: []string{
"${config.IncrementalDexInputCmd}",
"${config.D8Cmd}",
"${config.R8Cmd}",
"${config.SoongZipCmd}",
"${config.MergeZipsCmd}",
},
}, map[string]*remoteexec.REParams{
"$d8Template": &remoteexec.REParams{
Labels: map[string]string{"type": "compile", "compiler": "d8"},
Inputs: []string{"${config.D8Jar}"},
ExecStrategy: "${config.RED8ExecStrategy}",
ToolchainInputs: []string{"${config.JavaCmd}"},
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
},
"$r8Template": &remoteexec.REParams{
Labels: map[string]string{"type": "compile", "compiler": "r8"},
Inputs: []string{"$implicits", "${config.R8Jar}"},
OutputFiles: []string{"${outUsage}", "${outConfig}", "${outDict}", "${resourcesOutput}", "${outR8ArtProfile}"},
ExecStrategy: "${config.RER8ExecStrategy}",
ToolchainInputs: []string{"${config.JavaCmd}"},
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
},
"$zipTemplate": &remoteexec.REParams{
Labels: map[string]string{"type": "tool", "name": "soong_zip"},
Inputs: []string{"${config.SoongZipCmd}", "$outDir"},
OutputFiles: []string{"$outDir/classes.dex.jar"},
ExecStrategy: "${config.RED8ExecStrategy}",
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
},
}, []string{"outDir", "outDict", "outConfig", "outUsage", "outUsageZip", "outUsageDir",
"d8Flags", "d8Deps", "r8Flags", "zipFlags", "mergeZipsFlags", "resourcesOutput", "outR8ArtProfile"}, []string{"implicits"})
var d8, d8RE = pctx.MultiCommandRemoteStaticRules("d8",
blueprint.RuleParams{
Command: `rm -rf "$outDir" && mkdir -p "$outDir" && ` +
`$d8Template${config.D8Cmd} ${config.D8Flags} $d8Flags --output $outDir --no-dex-input-jar $in && ` +
`$zipTemplate${config.SoongZipCmd} $zipFlags -o $outDir/classes.dex.jar -C $outDir -f "$outDir/classes*.dex" && ` +
`${config.MergeZipsCmd} -D -stripFile "**/*.class" $mergeZipsFlags $out $outDir/classes.dex.jar $in && ` +
`rm -f "$outDir"/classes*.dex "$outDir/classes.dex.jar"`,
CommandDeps: []string{
"${config.D8Cmd}",
"${config.D8Jar}",
"${config.SoongZipCmd}",
"${config.MergeZipsCmd}",
},
}, map[string]*remoteexec.REParams{
"$d8Template": &remoteexec.REParams{
Labels: map[string]string{"type": "compile", "compiler": "d8"},
Inputs: []string{"${config.D8Jar}"},
ExecStrategy: "${config.RED8ExecStrategy}",
ToolchainInputs: []string{"${config.JavaCmd}"},
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
},
"$zipTemplate": &remoteexec.REParams{
Labels: map[string]string{"type": "tool", "name": "soong_zip"},
Inputs: []string{"${config.SoongZipCmd}", "$outDir"},
OutputFiles: []string{"$outDir/classes.dex.jar"},
ExecStrategy: "${config.RED8ExecStrategy}",
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
},
}, []string{"outDir", "d8Flags", "zipFlags", "mergeZipsFlags"}, nil)
// Include all of the args for d8r8, so that we can generate the partialcompileclean target's build using the same list.
var d8r8Clean = pctx.AndroidStaticRule("d8r8-partialcompileclean",
blueprint.RuleParams{
Command: `rm -rf "${outDir}" "${outDict}" "${outConfig}" "${outUsage}" "${outUsageZip}" "${outUsageDir}" ` +
`"${resourcesOutput}" "${outR8ArtProfile}" ${builtOut}`,
}, "outDir", "outDict", "outConfig", "outUsage", "outUsageZip", "outUsageDir", "builtOut",
"d8Flags", "r8Flags", "zipFlags", "mergeZipsFlags", "resourcesOutput", "outR8ArtProfile", "implicits",
)
var d8r8, d8r8RE = pctx.MultiCommandRemoteStaticRules("d8r8",
blueprint.RuleParams{
Command: `rm -rf "$outDir" && mkdir -p "$outDir" && ` +
`rm -f "$outDict" && rm -f "$outConfig" && rm -rf "${outUsageDir}" && ` +
`mkdir -p $$(dirname ${outUsage}) && ` +
`if [ -n "$${SOONG_USE_PARTIAL_COMPILE}" ]; then ` +
` for f in "${outConfig}" "${outDict}" "${outUsage}" "${resourcesOutput}"; do ` +
` test -n "$${f}" && test ! -f "$${f}" && mkdir -p "$$(dirname "$${f}")" && touch "$${f}" || true; ` +
` done && ` +
` $d8Template${config.D8Cmd} ${config.D8Flags} $d8Flags --output $outDir --no-dex-input-jar $in; ` +
`else ` +
` $r8Template${config.R8Cmd} ${config.R8Flags} $r8Flags -injars $in --output $outDir ` +
` --no-data-resources ` +
` -printmapping ${outDict} ` +
` -printconfiguration ${outConfig} ` +
` -printusage ${outUsage} ` +
` --deps-file ${out}.d && ` +
` touch "${outDict}" "${outConfig}" "${outUsage}"; ` +
`fi && ` +
`${config.SoongZipCmd} -o ${outUsageZip} -C ${outUsageDir} -f ${outUsage} && ` +
`rm -rf ${outUsageDir} && ` +
`$zipTemplate${config.SoongZipCmd} $zipFlags -o $outDir/classes.dex.jar -C $outDir -f "$outDir/classes*.dex" && ` +
`${config.MergeZipsCmd} -D -stripFile "**/*.class" $mergeZipsFlags $out $outDir/classes.dex.jar $in && ` +
`rm -f "$outDir"/classes*.dex "$outDir/classes.dex.jar" `,
CommandDeps: []string{
"${config.D8Cmd}",
"${config.D8Jar}",
"${config.R8Cmd}",
"${config.R8Jar}",
"${config.SoongZipCmd}",
"${config.MergeZipsCmd}",
},
}, map[string]*remoteexec.REParams{
"$d8Template": &remoteexec.REParams{
Labels: map[string]string{"type": "compile", "compiler": "d8"},
Inputs: []string{"${config.D8Jar}"},
ExecStrategy: "${config.RED8ExecStrategy}",
ToolchainInputs: []string{"${config.JavaCmd}"},
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
},
"$r8Template": &remoteexec.REParams{
Labels: map[string]string{"type": "compile", "compiler": "r8"},
Inputs: []string{"$implicits", "${config.R8Jar}"},
OutputFiles: []string{"${outUsage}", "${outConfig}", "${outDict}", "${resourcesOutput}", "${outR8ArtProfile}"},
ExecStrategy: "${config.RER8ExecStrategy}",
ToolchainInputs: []string{"${config.JavaCmd}"},
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
},
"$zipTemplate": &remoteexec.REParams{
Labels: map[string]string{"type": "tool", "name": "soong_zip"},
Inputs: []string{"${config.SoongZipCmd}", "$outDir"},
OutputFiles: []string{"$outDir/classes.dex.jar"},
ExecStrategy: "${config.RED8ExecStrategy}",
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
},
}, []string{"outDir", "outDict", "outConfig", "outUsage", "outUsageZip", "outUsageDir",
"d8Flags", "r8Flags", "zipFlags", "mergeZipsFlags", "resourcesOutput", "outR8ArtProfile"}, []string{"implicits"})
var r8, r8RE = pctx.MultiCommandRemoteStaticRules("r8",
blueprint.RuleParams{
Command: `rm -rf "$outDir" && mkdir -p "$outDir" && ` +
`rm -f "$outDict" && rm -f "$outConfig" && rm -rf "${outUsageDir}" && ` +
`mkdir -p $$(dirname ${outUsage}) && ` +
`$r8Template${config.R8Cmd} ${config.R8Flags} $r8Flags -injars $in --output $outDir ` +
`--no-data-resources ` +
`-printmapping ${outDict} ` +
`-printconfiguration ${outConfig} ` +
`-printusage ${outUsage} ` +
`--deps-file ${out}.d && ` +
`touch "${outDict}" "${outConfig}" "${outUsage}" && ` +
`${config.SoongZipCmd} -o ${outUsageZip} -C ${outUsageDir} -f ${outUsage} && ` +
`rm -rf ${outUsageDir} && ` +
`$zipTemplate${config.SoongZipCmd} $zipFlags -o $outDir/classes.dex.jar -C $outDir -f "$outDir/classes*.dex" && ` +
`${config.MergeZipsCmd} -D -stripFile "**/*.class" $mergeZipsFlags $out $outDir/classes.dex.jar $in && ` +
`rm -f "$outDir"/classes*.dex "$outDir/classes.dex.jar"`,
Depfile: "${out}.d",
Deps: blueprint.DepsGCC,
CommandDeps: []string{
"${config.R8Cmd}",
"${config.R8Jar}",
"${config.SoongZipCmd}",
"${config.MergeZipsCmd}",
},
}, map[string]*remoteexec.REParams{
"$r8Template": &remoteexec.REParams{
Labels: map[string]string{"type": "compile", "compiler": "r8"},
Inputs: []string{"$implicits", "${config.R8Jar}"},
OutputFiles: []string{"${outUsage}", "${outConfig}", "${outDict}", "${resourcesOutput}", "${outR8ArtProfile}"},
ExecStrategy: "${config.RER8ExecStrategy}",
ToolchainInputs: []string{"${config.JavaCmd}"},
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
},
"$zipTemplate": &remoteexec.REParams{
Labels: map[string]string{"type": "tool", "name": "soong_zip"},
Inputs: []string{"${config.SoongZipCmd}", "$outDir"},
OutputFiles: []string{"$outDir/classes.dex.jar"},
ExecStrategy: "${config.RER8ExecStrategy}",
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
},
"$zipUsageTemplate": &remoteexec.REParams{
Labels: map[string]string{"type": "tool", "name": "soong_zip"},
Inputs: []string{"${config.SoongZipCmd}", "${outUsage}"},
OutputFiles: []string{"${outUsageZip}"},
ExecStrategy: "${config.RER8ExecStrategy}",
Platform: map[string]string{remoteexec.PoolKey: "${config.REJavaPool}"},
},
}, []string{"outDir", "outDict", "outConfig", "outUsage", "outUsageZip", "outUsageDir",
"r8Flags", "zipFlags", "mergeZipsFlags", "resourcesOutput", "outR8ArtProfile"}, []string{"implicits"})
var proguardDictToProto = pctx.AndroidStaticRule("proguard_dict_to_proto", blueprint.RuleParams{
Command: `${symbols_map} -r8 $in -location $location -write_if_changed $out`,
Restat: true,
CommandDeps: []string{"${symbols_map}"},
}, "location")
func (d *dexer) dexCommonFlags(ctx android.ModuleContext,
dexParams *compileDexParams) (flags []string, deps android.Paths, incD8Compatible bool) {
flags = d.dexProperties.Dxflags
// Translate all the DX flags to D8 ones until all the build files have been migrated
// to D8 flags. See: b/69377755
flags = android.RemoveListFromList(flags,
[]string{"--core-library", "--dex", "--multi-dex"})
for _, f := range android.PathsForModuleSrc(ctx, d.dexProperties.Main_dex_rules) {
flags = append(flags, "--main-dex-rules", f.String())
deps = append(deps, f)
}
var requestReleaseMode, requestDebugMode bool
requestReleaseMode, flags = android.RemoveFromList("--release", flags)
requestDebugMode, flags = android.RemoveFromList("--debug", flags)
if ctx.Config().Getenv("NO_OPTIMIZE_DX") != "" || ctx.Config().Getenv("GENERATE_DEX_DEBUG") != "" {
requestDebugMode = true
requestReleaseMode = false
}
// Don't strip out debug information for eng builds, unless the target
// explicitly provided the `--release` build flag. This allows certain
// test targets to remain optimized as part of eng test_suites builds.
if requestDebugMode {
flags = append(flags, "--debug")
} else if requestReleaseMode {
flags = append(flags, "--release")
} else if ctx.Config().Eng() {
flags = append(flags, "--debug")
} else if !d.effectiveOptimizeEnabled(ctx) && d.dexProperties.Optimize.EnabledByDefault {
// D8 uses --debug by default, whereas R8 uses --release by default.
// For targets that default to R8 usage (e.g., apps), but override this default, we still
// want D8 to run in release mode, preserving semantics as much as possible between the two.
flags = append(flags, "--release")
}
// Supplying the platform build flag disables various features like API modeling and desugaring.
// For targets with a stable min SDK version (i.e., when the min SDK is both explicitly specified
// and managed+versioned), we suppress this flag to ensure portability.
// Note: Targets with a min SDK kind of core_platform (e.g., framework.jar) or unspecified (e.g.,
// services.jar), are not classified as stable, which is WAI.
// TODO(b/232073181): Expand to additional min SDK cases after validation.
var addAndroidPlatformBuildFlag = false
if !dexParams.sdkVersion.Stable() {
addAndroidPlatformBuildFlag = true
}
effectiveVersion, err := dexParams.minSdkVersion.EffectiveVersion(ctx)
if err != nil {
ctx.PropertyErrorf("min_sdk_version", "%s", err)
}
if !Bool(d.dexProperties.No_dex_container) && effectiveVersion.FinalOrFutureInt() >= 36 && ctx.Config().UseDexV41() {
// W is 36, but we have not bumped the SDK version yet, so check for both.
if ctx.Config().PlatformSdkVersion().FinalInt() >= 36 ||
ctx.Config().PlatformSdkCodename() == "Baklava" {
flags = append([]string{"-JDcom.android.tools.r8.dexContainerExperiment"}, flags...)
}
}
// If the specified SDK level is 10000, then configure the compiler to use the
// current platform SDK level and to compile the build as a platform build.
var minApiFlagValue = effectiveVersion.FinalOrFutureInt()
if minApiFlagValue == 10000 {
minApiFlagValue = ctx.Config().PlatformSdkVersion().FinalInt()
addAndroidPlatformBuildFlag = true
}
flags = append(flags, "--min-api "+strconv.Itoa(minApiFlagValue))
incD8Compatible = false
// Incremental d8 does not have libraries passed to it for speed, so any
// desugaring with library classes is not possible.
// To cater for this we only enable incD8 when platform build flag is passed
// as it automatically disables desugaring.
if addAndroidPlatformBuildFlag {
flags = append(flags, "--android-platform-build")
incD8Compatible = true
}
return flags, deps, incD8Compatible
}
func (d *dexer) d8Flags(ctx android.ModuleContext, dexParams *compileDexParams, useD8Inc bool) (d8Flags []string, d8Deps android.Paths, artProfileOutput *android.OutputPath) {
flags := dexParams.flags
// classpath optimizations are optional when using d8 incrementally, offering
// further speed-up.
if !useD8Inc {
d8Flags = append(d8Flags, flags.bootClasspath.FormRepeatedClassPath("--lib ")...)
d8Flags = append(d8Flags, flags.dexClasspath.FormRepeatedClassPath("--lib ")...)
d8Deps = append(d8Deps, flags.bootClasspath...)
d8Deps = append(d8Deps, flags.dexClasspath...)
if flags, deps, profileOutput := d.addArtProfile(ctx, dexParams); profileOutput != nil {
d8Flags = append(d8Flags, flags...)
d8Deps = append(d8Deps, deps...)
artProfileOutput = profileOutput
}
}
return d8Flags, d8Deps, artProfileOutput
}
func (d *dexer) r8DepLibFlags(ctx android.ModuleContext, dexParams *compileDexParams) (r8Flags []string, r8Deps android.Paths) {
var depLibs classpath
// When an app contains references to APIs that are not in the SDK specified by
// its LOCAL_SDK_VERSION for example added by support library or by runtime
// classes added by desugaring, we artificially raise the "SDK version" "linked" by
// ProGuard, to
// - suppress ProGuard warnings of referencing symbols unknown to the lower SDK version.
// - prevent ProGuard stripping subclass in the support library that extends class added in the higher SDK version.
// See b/20667396
// TODO(b/360905238): Remove SdkSystemServer exception after resolving missing class references.
if !dexParams.sdkVersion.Stable() || dexParams.sdkVersion.Kind == android.SdkSystemServer {
var proguardRaiseDeps classpath
ctx.VisitDirectDepsProxyWithTag(proguardRaiseTag, func(m android.ModuleProxy) {
if dep, ok := android.OtherModuleProvider(ctx, m, JavaInfoProvider); ok {
proguardRaiseDeps = append(proguardRaiseDeps, dep.RepackagedHeaderJars...)
}
})
depLibs = append(depLibs, proguardRaiseDeps...)
}
depLibs = append(depLibs, dexParams.flags.bootClasspath...)
depLibs = append(depLibs, dexParams.flags.dexClasspath...)
transitiveStaticLibsLookupMap := map[android.Path]bool{}
for _, jar := range d.transitiveStaticLibsHeaderJarsForR8.ToList() {
transitiveStaticLibsLookupMap[jar] = true
}
transitiveHeaderJars := android.Paths{}
for _, jar := range d.transitiveLibsHeaderJarsForR8.ToList() {
if _, ok := transitiveStaticLibsLookupMap[jar]; ok {
// don't include a lib if it is already packaged in the current JAR as a static lib
continue
}
transitiveHeaderJars = append(transitiveHeaderJars, jar)
}
transitiveClasspath := classpath(transitiveHeaderJars)
depLibs = append(depLibs, transitiveClasspath...)
depLibs = depLibs.FirstUniquePaths()
r8Deps = append(r8Deps, depLibs...)
var libraryDepArg string
if Bool(d.dexProperties.Optimize.Import_libraries_as_classpath) {
libraryDepArg = "--classpath "
} else {
libraryDepArg = "--lib "
}
r8Flags = append(r8Flags, depLibs.FormRepeatedClassPath(libraryDepArg)...)
return r8Flags, r8Deps
}
func (d *dexer) r8Flags(ctx android.ModuleContext, dexParams *compileDexParams, debugMode, useD8Inc bool) (r8Flags []string, r8Deps android.Paths, artProfileOutput *android.OutputPath) {
r8Flags, r8Deps = d.r8DepLibFlags(ctx, dexParams)
flags := dexParams.flags
opt := d.dexProperties.Optimize
flagFiles := android.Paths{
android.PathForSource(ctx, "build/make/core/proguard.flags"),
}
if ctx.Config().UseR8GlobalCheckNotNullFlags() {
flagFiles = append(flagFiles, android.PathForSource(ctx,
"build/make/core/proguard/checknotnull.flags"))
}
flagFiles = append(flagFiles, d.extraProguardFlagsFiles...)
// TODO(ccross): static android library proguard files
flagFiles = append(flagFiles, android.PathsForModuleSrc(ctx, opt.Proguard_flags_files)...)
traceReferencesSources := android.Paths{}
ctx.VisitDirectDepsProxyWithTag(traceReferencesTag, func(m android.ModuleProxy) {
if dep, ok := android.OtherModuleProvider(ctx, m, JavaInfoProvider); ok {
traceReferencesSources = append(traceReferencesSources, dep.ImplementationJars...)
}
})
if len(traceReferencesSources) > 0 {
traceTarget := dexParams.classesJar
traceLibs := android.FirstUniquePaths(append(flags.bootClasspath.Paths(), flags.dexClasspath.Paths()...))
traceReferencesFlags := android.PathForModuleOut(ctx, "proguard", "trace_references.flags")
TraceReferences(ctx, traceReferencesSources, traceTarget, traceLibs, traceReferencesFlags)
flagFiles = append(flagFiles, traceReferencesFlags)
}
flagFiles = android.FirstUniquePaths(flagFiles)
r8Flags = append(r8Flags, android.JoinWithPrefix(flagFiles.Strings(), "-include "))
r8Deps = append(r8Deps, flagFiles...)
// TODO(b/70942988): This is included from build/make/core/proguard.flags
r8Deps = append(r8Deps, android.PathForSource(ctx,
"build/make/core/proguard_basic_keeps.flags"))
r8Flags = append(r8Flags, opt.Proguard_flags...)
if BoolDefault(opt.Ignore_library_extends_program, false) {
r8Flags = append(r8Flags, "--ignore-library-extends-program")
}
if BoolDefault(opt.Keep_runtime_invisible_annotations, false) {
r8Flags = append(r8Flags, "--keep-runtime-invisible-annotations")
}
if BoolDefault(opt.Proguard_compatibility, !ctx.Config().UseR8FullModeByDefault()) {
r8Flags = append(r8Flags, "--force-proguard-compatibility")
}
if BoolDefault(opt.Protect_api_surface, false) {
r8Flags = append(r8Flags, "--protect-api-surface")
}
// Avoid unnecessary stack frame noise by only injecting source map ids for non-debug
// optimized or obfuscated targets.
optimize := opt.Optimize.GetOrDefault(ctx, false)
if (optimize || Bool(opt.Obfuscate)) && !debugMode {
// TODO(b/213833843): Allow configuration of the prefix via a build variable.
var sourceFilePrefix = "go/retraceme "
var sourceFileTemplate = "\"" + sourceFilePrefix + "%MAP_ID\""
r8Flags = append(r8Flags, "--map-id-template", "%MAP_HASH")
r8Flags = append(r8Flags, "--source-file-template", sourceFileTemplate)
}
// TODO(ccross): Don't shrink app instrumentation tests by default.
if !Bool(opt.Shrink) {
r8Flags = append(r8Flags, "-dontshrink")
}
if !optimize {
r8Flags = append(r8Flags, "-dontoptimize")
}
// TODO(ccross): error if obufscation + app instrumentation test.
if !Bool(opt.Obfuscate) {
r8Flags = append(r8Flags, "-dontobfuscate")
}
// TODO(ccross): if this is an instrumentation test of an obfuscated app, use the
// dictionary of the app and move the app from libraryjars to injars.
// TODO(b/180878971): missing classes should be added to the relevant builds.
// TODO(b/229727645): do not use true as default for Android platform builds.
if proptools.BoolDefault(opt.Ignore_warnings, true) {
r8Flags = append(r8Flags, "-ignorewarnings")
}
// resourcesInput is empty when we don't use resource shrinking, if on, pass these to R8
if d.resourcesInput.Valid() {
r8Flags = append(r8Flags, "--resource-input", d.resourcesInput.Path().String())
r8Deps = append(r8Deps, d.resourcesInput.Path())
r8Flags = append(r8Flags, "--resource-output", d.resourcesOutput.Path().String())
if d.dexProperties.optimizedResourceShrinkingEnabled(ctx) {
r8Flags = append(r8Flags, "--optimized-resource-shrinking")
if Bool(d.dexProperties.Optimize.Optimized_shrink_resources) {
// Explicitly opted into optimized shrinking, no need for keeping R$id entries
r8Flags = append(r8Flags, "--force-optimized-resource-shrinking")
}
}
}
if !useD8Inc {
if flags, deps, profileOutput := d.addArtProfile(ctx, dexParams); profileOutput != nil {
r8Flags = append(r8Flags, flags...)
r8Deps = append(r8Deps, deps...)
artProfileOutput = profileOutput
}
}
if ctx.Config().UseR8StoreStoreFenceConstructorInlining() {
r8Flags = append(r8Flags, "--store-store-fence-constructor-inlining")
}
if opt.Exclude != nil {
r8Flags = append(r8Flags, "--exclude", *opt.Exclude)
r8Deps = append(r8Deps, android.PathForModuleSrc(ctx, *opt.Exclude))
}
return r8Flags, r8Deps, artProfileOutput
}
type compileDexParams struct {
flags javaBuilderFlags
sdkVersion android.SdkSpec
minSdkVersion android.ApiLevel
classesJar android.Path
jarName string
artProfileInput *string
}
// Adds --art-profile to r8/d8 command.
// r8/d8 will output a generated profile file to match the optimized dex code.
func (d *dexer) addArtProfile(ctx android.ModuleContext, dexParams *compileDexParams) (flags []string, deps android.Paths, artProfileOutputPath *android.OutputPath) {
if dexParams.artProfileInput == nil {
return nil, nil, nil
}
artProfileInputPath := android.PathForModuleSrc(ctx, *dexParams.artProfileInput)
artProfileOutputPathValue := android.PathForModuleOut(ctx, "profile.prof.txt").OutputPath
artProfileOutputPath = &artProfileOutputPathValue
flags = []string{
"--art-profile",
artProfileInputPath.String(),
artProfileOutputPath.String(),
}
deps = append(deps, artProfileInputPath)
return flags, deps, artProfileOutputPath
}
// Return the compiled dex jar and (optional) profile _after_ r8 optimization
func (d *dexer) compileDex(ctx android.ModuleContext, dexParams *compileDexParams) (android.Path, android.Path) {
// Compile classes.jar into classes.dex and then javalib.jar
javalibJar := android.PathForModuleOut(ctx, "dex", dexParams.jarName).OutputPath
cleanPhonyPath := android.PathForModuleOut(ctx, "dex", dexParams.jarName+"-partialcompileclean").OutputPath
outDir := android.PathForModuleOut(ctx, "dex")
zipFlags := "--ignore_missing_files --quiet"
if proptools.Bool(d.dexProperties.Uncompress_dex) {
zipFlags += " -L 0"
}
commonFlags, commonDeps, incD8Compatible := d.dexCommonFlags(ctx, dexParams)
// Exclude kotlinc generated files when "exclude_kotlinc_generated_files" is set to true.
mergeZipsFlags := ""
if proptools.BoolDefault(d.dexProperties.Exclude_kotlinc_generated_files, false) {
mergeZipsFlags = "-stripFile META-INF/**/*.kotlin_module -stripFile **/*.kotlin_builtins"
}
useR8 := d.effectiveOptimizeEnabled(ctx)
useD8 := !useR8 || ctx.Config().PartialCompileFlags().Use_d8
// d8Inc is applicable only when d8 is allowed.
useD8Inc := useD8 && ctx.Config().PartialCompileFlags().Enable_inc_d8 && incD8Compatible
rbeR8 := ctx.Config().UseRBE() && ctx.Config().IsEnvTrue("RBE_R8")
rbeD8 := ctx.Config().UseRBE() && ctx.Config().IsEnvTrue("RBE_D8")
var rule blueprint.Rule
var description string
var artProfileOutputPath *android.OutputPath
var implicitOutputs android.WritablePaths
var deps android.Paths
args := map[string]string{
"zipFlags": zipFlags,
"outDir": outDir.String(),
"mergeZipsFlags": mergeZipsFlags,
}
if useR8 {
proguardDictionary := android.PathForModuleOut(ctx, "proguard_dictionary")
d.proguardDictionary = android.OptionalPathForPath(proguardDictionary)
proguardConfiguration := android.PathForModuleOut(ctx, "proguard_configuration")
d.proguardConfiguration = android.OptionalPathForPath(proguardConfiguration)
proguardUsageDir := android.PathForModuleOut(ctx, "proguard_usage")
proguardUsage := proguardUsageDir.Join(ctx, ctx.Namespace().Path,
android.ModuleNameWithPossibleOverride(ctx), "unused.txt")
proguardUsageZip := android.PathForModuleOut(ctx, "proguard_usage.zip")
d.proguardUsageZip = android.OptionalPathForPath(proguardUsageZip)
resourcesOutput := android.PathForModuleOut(ctx, "package-res-shrunken.apk")
d.resourcesOutput = android.OptionalPathForPath(resourcesOutput)
implicitOutputs = append(implicitOutputs, android.WritablePaths{
proguardDictionary,
proguardUsageZip,
proguardConfiguration,
}...)
description = "r8"
debugMode := android.InList("--debug", commonFlags)
r8Flags, r8Deps, r8ArtProfileOutputPath := d.r8Flags(ctx, dexParams, debugMode, useD8Inc)
deps = append(deps, r8Deps...)
args["r8Flags"] = strings.Join(append(commonFlags, r8Flags...), " ")
if r8ArtProfileOutputPath != nil {
artProfileOutputPath = r8ArtProfileOutputPath
// Add the implicit r8 Art profile output to args so that r8RE knows
// about this implicit output
args["outR8ArtProfile"] = r8ArtProfileOutputPath.String()
}
args["outDict"] = proguardDictionary.String()
args["outConfig"] = proguardConfiguration.String()
args["outUsageDir"] = proguardUsageDir.String()
args["outUsage"] = proguardUsage.String()
args["outUsageZip"] = proguardUsageZip.String()
if d.resourcesInput.Valid() {
implicitOutputs = append(implicitOutputs, resourcesOutput)
args["resourcesOutput"] = resourcesOutput.String()
}
rule = r8
if rbeR8 {
rule = r8RE
args["implicits"] = strings.Join(deps.Strings(), ",")
}
}
cleanupD8R8, cleanupD8IncR8, cleanupD8Inc := false, false, false
if useD8 {
description = "d8"
d8Flags, d8Deps, d8ArtProfileOutputPath := d.d8Flags(ctx, dexParams, useD8Inc)
deps = append(deps, d8Deps...)
deps = append(deps, commonDeps...)
args["d8Flags"] = strings.Join(append(commonFlags, d8Flags...), " ")
if d8ArtProfileOutputPath != nil {
artProfileOutputPath = d8ArtProfileOutputPath
}
// The file containing dependencies of the current module
// Any change in them may warrant changes in the incremental dex compilation
// source set.
if useD8Inc {
d8DepsFile := android.PathForModuleOut(ctx, dexParams.jarName+".dex.deps.rsp")
android.WriteFileRule(ctx, d8DepsFile, strings.Join(deps.Strings(), "\n"))
deps = append(deps, d8DepsFile)
args["d8Deps"] = d8DepsFile.String()
}
// If we are generating both d8 and r8, only use RBE when both are enabled.
switch {
// r8 is the selected rule, useD8Inc is the override
case useR8 && rule == r8 && useD8Inc:
rule = d8IncR8
cleanupD8IncR8 = true
description = "d8IncR8"
// r8 is the selected rule, useD8 is the override
case useR8 && rule == r8:
rule = d8r8
cleanupD8R8 = true
description = "d8r8"
// rbeR8 is the selected rule, useD8Inc is the override
case useR8 && rule == r8RE && useD8Inc:
rule = d8IncR8RE
cleanupD8IncR8 = true
description = "d8IncR8"
// rbeR8 is the selected rule, useD8 is the override
case useR8 && rule == r8RE && rbeD8:
rule = d8r8RE
cleanupD8R8 = true
description = "d8r8"
// rbeD8 is the selected rule, useD8Inc is the override
case rbeD8 && useD8Inc:
rule = d8IncRE
cleanupD8Inc = true
description = "d8Inc"
// rbeD8 is the selected rule
case rbeD8:
rule = d8RE
// D8 is the selected rule, useD8Inc is the override
case useD8Inc:
rule = d8Inc
cleanupD8Inc = true
description = "d8Inc"
// D8 is the selected rule
default:
rule = d8
}
}
if artProfileOutputPath != nil {
implicitOutputs = append(
implicitOutputs,
artProfileOutputPath,
)
}
ctx.Build(pctx, android.BuildParams{
Rule: rule,
Description: description,
Output: javalibJar,
ImplicitOutputs: implicitOutputs,
Input: dexParams.classesJar,
Implicits: deps,
Args: args,
})
// Run cleanup when d8r8 was used
if cleanupD8R8 {
// Generate the rule for partial compile clean.
args["builtOut"] = javalibJar.String()
ctx.Build(pctx, android.BuildParams{
Rule: d8r8Clean,
Description: "d8r8Clean",
Output: cleanPhonyPath,
Args: args,
PhonyOutput: true,
})
ctx.Phony("partialcompileclean", cleanPhonyPath)
}
// Run cleanup when d8IncR8 was used
if cleanupD8IncR8 {
// Generate the rule for partial compile clean.
args["builtOut"] = javalibJar.String()
ctx.Build(pctx, android.BuildParams{
Rule: d8IncR8Clean,
Description: "d8IncR8Clean",
Output: cleanPhonyPath,
Args: args,
PhonyOutput: true,
})
ctx.Phony("partialcompileclean", cleanPhonyPath)
}
// Run cleanup when d8Inc was used
if cleanupD8Inc {
// Generate the rule for partial compile clean.
args["builtOut"] = javalibJar.String()
ctx.Build(pctx, android.BuildParams{
Rule: d8IncClean,
Description: "d8IncClean",
Output: cleanPhonyPath,
Args: args,
PhonyOutput: true,
})
ctx.Phony("partialcompileclean", cleanPhonyPath)
}
if proptools.Bool(d.dexProperties.Uncompress_dex) {
alignedJavalibJar := android.PathForModuleOut(ctx, "aligned", dexParams.jarName).OutputPath
TransformZipAlign(ctx, alignedJavalibJar, javalibJar, nil)
javalibJar = alignedJavalibJar
}
return javalibJar, artProfileOutputPath
}
type ProguardZips struct {
DictZip android.Path
DictMapping android.Path
UsageZip android.Path
}
func BuildProguardZips(ctx android.ModuleContext, modules []android.ModuleOrProxy) ProguardZips {
dictZip := android.PathForModuleOut(ctx, "proguard-dict.zip")
dictZipBuilder := android.NewRuleBuilder(pctx, ctx)
dictZipCmd := dictZipBuilder.Command().BuiltTool("soong_zip").Flag("-d").FlagWithOutput("-o ", dictZip)
dictMapping := android.PathForModuleOut(ctx, "proguard-dict-mapping.textproto")
dictMappingBuilder := android.NewRuleBuilder(pctx, ctx)
dictMappingCmd := dictMappingBuilder.Command().BuiltTool("symbols_map").Flag("-merge").Output(dictMapping)
protosDir := android.PathForModuleOut(ctx, "proguard_mapping_protos")
usageZip := android.PathForModuleOut(ctx, "proguard-usage.zip")
usageZipBuilder := android.NewRuleBuilder(pctx, ctx)
usageZipCmd := usageZipBuilder.Command().BuiltTool("merge_zips").Output(usageZip)
for _, mod := range modules {
if proguardInfo, ok := android.OtherModuleProvider(ctx, mod, ProguardProvider); ok {
// Maintain these out/target/common paths for backwards compatibility. They may be able
// to be changed if tools look up file locations from the protobuf, but I'm not
// exactly sure how that works.
dictionaryFakePath := fmt.Sprintf("out/target/common/obj/%s/%s_intermediates/proguard_dictionary", proguardInfo.Class, proguardInfo.ModuleName)
dictZipCmd.FlagWithArg("-e ", dictionaryFakePath)
dictZipCmd.FlagWithInput("-f ", proguardInfo.ProguardDictionary)
dictZipCmd.Textf("-e out/target/common/obj/%s/%s_intermediates/classes.jar", proguardInfo.Class, proguardInfo.ModuleName)
dictZipCmd.FlagWithInput("-f ", proguardInfo.ClassesJar)
protoFile := protosDir.Join(ctx, filepath.Dir(dictionaryFakePath), "proguard_dictionary.textproto")
ctx.Build(pctx, android.BuildParams{
Rule: proguardDictToProto,
Input: proguardInfo.ProguardDictionary,
Output: protoFile,
Args: map[string]string{
"location": dictionaryFakePath,
},
})
dictMappingCmd.Input(protoFile)
usageZipCmd.Input(proguardInfo.ProguardUsageZip)
}
}
dictZipBuilder.Build("proguard_dict_zip", "Building proguard dictionary zip")
dictMappingBuilder.Build("proguard_dict_mapping_proto", "Building proguard mapping proto")
usageZipBuilder.Build("proguard_usage_zip", "Building proguard usage zip")
return ProguardZips{
DictZip: dictZip,
DictMapping: dictMapping,
UsageZip: usageZip,
}
}
type ProguardInfo struct {
ModuleName string
Class string
ProguardDictionary android.Path
ProguardUsageZip android.Path
ClassesJar android.Path
}
var ProguardProvider = blueprint.NewProvider[ProguardInfo]()