platform_build_soong/java/testing.go

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// Copyright 2019 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"
"reflect"
"regexp"
"sort"
"strings"
"testing"
"android/soong/android"
"android/soong/cc"
"android/soong/dexpreopt"
"github.com/google/blueprint"
)
const defaultJavaDir = "default/java"
// Test fixture preparer that will register most java build components.
//
// Singletons and mutators should only be added here if they are needed for a majority of java
// module types, otherwise they should be added under a separate preparer to allow them to be
// selected only when needed to reduce test execution time.
//
// Module types do not have much of an overhead unless they are used so this should include as many
// module types as possible. The exceptions are those module types that require mutators and/or
// singletons in order to function in which case they should be kept together in a separate
// preparer.
var PrepareForTestWithJavaBuildComponents = android.GroupFixturePreparers(
// Make sure that mutators and module types, e.g. prebuilt mutators available.
android.PrepareForTestWithAndroidBuildComponents,
// Make java build components available to the test.
android.FixtureRegisterWithContext(registerRequiredBuildComponentsForTest),
android.FixtureRegisterWithContext(registerJavaPluginBuildComponents),
// Additional files needed in tests that disallow non-existent source files.
// This includes files that are needed by all, or at least most, instances of a java module type.
android.MockFS{
// Needed for linter used by java_library.
"build/soong/java/lint_defaults.txt": nil,
// Needed for apps that do not provide their own.
"build/make/target/product/security": nil,
}.AddToFixture(),
)
// Test fixture preparer that will define all default java modules except the
// fake_tool_binary for dex2oatd.
var PrepareForTestWithJavaDefaultModulesWithoutFakeDex2oatd = android.GroupFixturePreparers(
// Make sure that all the module types used in the defaults are registered.
PrepareForTestWithJavaBuildComponents,
// Additional files needed when test disallows non-existent source.
android.MockFS{
// Needed for framework-res
defaultJavaDir + "/AndroidManifest.xml": nil,
// Needed for framework
defaultJavaDir + "/framework/aidl": nil,
// Needed for various deps defined in GatherRequiredDepsForTest()
defaultJavaDir + "/a.java": nil,
}.AddToFixture(),
// The java default module definitions.
android.FixtureAddTextFile(defaultJavaDir+"/Android.bp", gatherRequiredDepsForTest()),
// Add dexpreopt compat libs (android.test.base, etc.) and a fake dex2oatd module.
dexpreopt.PrepareForTestWithDexpreoptCompatLibs,
)
// Test fixture preparer that will define default java modules, e.g. standard prebuilt modules.
var PrepareForTestWithJavaDefaultModules = android.GroupFixturePreparers(
PrepareForTestWithJavaDefaultModulesWithoutFakeDex2oatd,
dexpreopt.PrepareForTestWithFakeDex2oatd,
)
// Provides everything needed by dexpreopt.
var PrepareForTestWithDexpreopt = android.GroupFixturePreparers(
PrepareForTestWithJavaDefaultModules,
dexpreopt.PrepareForTestByEnablingDexpreopt,
)
var PrepareForTestWithOverlayBuildComponents = android.FixtureRegisterWithContext(registerOverlayBuildComponents)
// Prepare a fixture to use all java module types, mutators and singletons fully.
//
// This should only be used by tests that want to run with as much of the build enabled as possible.
var PrepareForIntegrationTestWithJava = android.GroupFixturePreparers(
cc.PrepareForIntegrationTestWithCc,
PrepareForTestWithJavaDefaultModules,
)
// Prepare a fixture with the standard files required by a java_sdk_library module.
var PrepareForTestWithJavaSdkLibraryFiles = android.FixtureMergeMockFs(android.MockFS{
"api/current.txt": nil,
"api/removed.txt": nil,
"api/system-current.txt": nil,
"api/system-removed.txt": nil,
"api/test-current.txt": nil,
"api/test-removed.txt": nil,
"api/module-lib-current.txt": nil,
"api/module-lib-removed.txt": nil,
"api/system-server-current.txt": nil,
"api/system-server-removed.txt": nil,
})
// FixtureWithLastReleaseApis creates a preparer that creates prebuilt versions of the specified
// modules for the `last` API release. By `last` it just means last in the list of supplied versions
// and as this only provides one version it can be any value.
//
// This uses FixtureWithPrebuiltApis under the covers so the limitations of that apply to this.
func FixtureWithLastReleaseApis(moduleNames ...string) android.FixturePreparer {
return FixtureWithPrebuiltApis(map[string][]string{
"30": moduleNames,
})
}
// PrepareForTestWithPrebuiltsOfCurrentApi is a preparer that creates prebuilt versions of the
// standard modules for the current version.
//
// This uses FixtureWithPrebuiltApis under the covers so the limitations of that apply to this.
var PrepareForTestWithPrebuiltsOfCurrentApi = FixtureWithPrebuiltApis(map[string][]string{
"current": {},
// Can't have current on its own as it adds a prebuilt_apis module but doesn't add any
// .txt files which causes the prebuilt_apis module to fail.
"30": {},
})
// FixtureWithPrebuiltApis creates a preparer that will define prebuilt api modules for the
// specified releases and modules.
//
// The supplied map keys are the releases, e.g. current, 29, 30, etc. The values are a list of
// modules for that release. Due to limitations in the prebuilt_apis module which this preparer
// uses the set of releases must include at least one numbered release, i.e. it cannot just include
// "current".
//
// This defines a file in the mock file system in a predefined location (prebuilts/sdk/Android.bp)
// and so only one instance of this can be used in each fixture.
func FixtureWithPrebuiltApis(release2Modules map[string][]string) android.FixturePreparer {
mockFS := android.MockFS{}
path := "prebuilts/sdk/Android.bp"
bp := fmt.Sprintf(`
prebuilt_apis {
name: "sdk",
api_dirs: ["%s"],
imports_sdk_version: "none",
imports_compile_dex: true,
}
`, strings.Join(android.SortedStringKeys(release2Modules), `", "`))
for release, modules := range release2Modules {
libs := append([]string{"android", "core-for-system-modules"}, modules...)
mockFS.Merge(prebuiltApisFilesForLibs([]string{release}, libs))
}
return android.GroupFixturePreparers(
android.FixtureAddTextFile(path, bp),
android.FixtureMergeMockFs(mockFS),
)
}
func prebuiltApisFilesForLibs(apiLevels []string, sdkLibs []string) map[string][]byte {
fs := make(map[string][]byte)
for _, level := range apiLevels {
for _, lib := range sdkLibs {
for _, scope := range []string{"public", "system", "module-lib", "system-server", "test"} {
fs[fmt.Sprintf("prebuilts/sdk/%s/%s/%s.jar", level, scope, lib)] = nil
// No finalized API files for "current"
if level != "current" {
fs[fmt.Sprintf("prebuilts/sdk/%s/%s/api/%s.txt", level, scope, lib)] = nil
fs[fmt.Sprintf("prebuilts/sdk/%s/%s/api/%s-removed.txt", level, scope, lib)] = nil
}
}
}
fs[fmt.Sprintf("prebuilts/sdk/%s/public/framework.aidl", level)] = nil
}
return fs
}
Improve realism of boot jar tests Boot jars, updatable boot jars and art apex jars are part of two separate but related configuration objects, the main Config struct (actually the nested productVariables struct) and the dexpreopt specific GlobalConfig. The fields in both are initialized from the same data in the make config files but handled separately. Previously each test that used one of the configuration objects would generally just initialize the one it used. That would make the test sensitive to the specific configuration object that was used. A refactoring that change the code from using one configuration object to the other would cause the test to fail. Also, some tests would inadvertently create invalid configurations by setting ArtApexJars without also setting BootJars. While the ability to create invalid configurations is useful (and there are some tests that exist to verify the behavior in that case) most tests should not be using them. This change simplifies the configuration of the tests and improves their realism by: 1. Providing a new FixtureConfigureBootJars method that takes a set of boot jars and sets ArtApexJars, and BootJars in the dexpreopt.GlobalConfig and BootJars in the product variables too. 2. Providing a new FixtureConfigureUpdatableBootJars method that takes a set of boot jars and sets UpdatableBootJars in both the dexpreopt.GlobalConfig and productVariables. 3. Migrating existing tests to use these new methods. Some tests still use the dexpreopt.FixtureSet...Jars() methods directly, generally to create invalid configurations. Bug: 177892522 Test: m nothing Change-Id: I4d8f0b9762cfcc7ae6383bef08563d7c3fa13955
2021-04-13 03:02:36 +08:00
// FixtureConfigureBootJars configures the boot jars in both the dexpreopt.GlobalConfig and
// Config.productVariables structs. As a side effect that enables dexpreopt.
func FixtureConfigureBootJars(bootJars ...string) android.FixturePreparer {
artBootJars := []string{}
for _, j := range bootJars {
artApex := false
for _, artApexName := range artApexNames {
if strings.HasPrefix(j, artApexName+":") {
artApex = true
break
}
}
if artApex {
artBootJars = append(artBootJars, j)
}
}
return android.GroupFixturePreparers(
android.FixtureModifyProductVariables(func(variables android.FixtureProductVariables) {
variables.BootJars = android.CreateTestConfiguredJarList(bootJars)
}),
dexpreopt.FixtureSetBootJars(bootJars...),
dexpreopt.FixtureSetArtBootJars(artBootJars...),
// Add a fake dex2oatd module.
dexpreopt.PrepareForTestWithFakeDex2oatd,
Improve realism of boot jar tests Boot jars, updatable boot jars and art apex jars are part of two separate but related configuration objects, the main Config struct (actually the nested productVariables struct) and the dexpreopt specific GlobalConfig. The fields in both are initialized from the same data in the make config files but handled separately. Previously each test that used one of the configuration objects would generally just initialize the one it used. That would make the test sensitive to the specific configuration object that was used. A refactoring that change the code from using one configuration object to the other would cause the test to fail. Also, some tests would inadvertently create invalid configurations by setting ArtApexJars without also setting BootJars. While the ability to create invalid configurations is useful (and there are some tests that exist to verify the behavior in that case) most tests should not be using them. This change simplifies the configuration of the tests and improves their realism by: 1. Providing a new FixtureConfigureBootJars method that takes a set of boot jars and sets ArtApexJars, and BootJars in the dexpreopt.GlobalConfig and BootJars in the product variables too. 2. Providing a new FixtureConfigureUpdatableBootJars method that takes a set of boot jars and sets UpdatableBootJars in both the dexpreopt.GlobalConfig and productVariables. 3. Migrating existing tests to use these new methods. Some tests still use the dexpreopt.FixtureSet...Jars() methods directly, generally to create invalid configurations. Bug: 177892522 Test: m nothing Change-Id: I4d8f0b9762cfcc7ae6383bef08563d7c3fa13955
2021-04-13 03:02:36 +08:00
)
}
// FixtureConfigureUpdatableBootJars configures the updatable boot jars in both the
// dexpreopt.GlobalConfig and Config.productVariables structs. As a side effect that enables
// dexpreopt.
func FixtureConfigureUpdatableBootJars(bootJars ...string) android.FixturePreparer {
return android.GroupFixturePreparers(
android.FixtureModifyProductVariables(func(variables android.FixtureProductVariables) {
variables.UpdatableBootJars = android.CreateTestConfiguredJarList(bootJars)
}),
dexpreopt.FixtureSetUpdatableBootJars(bootJars...),
// Add a fake dex2oatd module.
dexpreopt.PrepareForTestWithFakeDex2oatd,
Improve realism of boot jar tests Boot jars, updatable boot jars and art apex jars are part of two separate but related configuration objects, the main Config struct (actually the nested productVariables struct) and the dexpreopt specific GlobalConfig. The fields in both are initialized from the same data in the make config files but handled separately. Previously each test that used one of the configuration objects would generally just initialize the one it used. That would make the test sensitive to the specific configuration object that was used. A refactoring that change the code from using one configuration object to the other would cause the test to fail. Also, some tests would inadvertently create invalid configurations by setting ArtApexJars without also setting BootJars. While the ability to create invalid configurations is useful (and there are some tests that exist to verify the behavior in that case) most tests should not be using them. This change simplifies the configuration of the tests and improves their realism by: 1. Providing a new FixtureConfigureBootJars method that takes a set of boot jars and sets ArtApexJars, and BootJars in the dexpreopt.GlobalConfig and BootJars in the product variables too. 2. Providing a new FixtureConfigureUpdatableBootJars method that takes a set of boot jars and sets UpdatableBootJars in both the dexpreopt.GlobalConfig and productVariables. 3. Migrating existing tests to use these new methods. Some tests still use the dexpreopt.FixtureSet...Jars() methods directly, generally to create invalid configurations. Bug: 177892522 Test: m nothing Change-Id: I4d8f0b9762cfcc7ae6383bef08563d7c3fa13955
2021-04-13 03:02:36 +08:00
)
}
// registerRequiredBuildComponentsForTest registers the build components used by
// PrepareForTestWithJavaDefaultModules.
//
// As functionality is moved out of here into separate FixturePreparer instances they should also
// be moved into GatherRequiredDepsForTest for use by tests that have not yet switched to use test
// fixtures.
func registerRequiredBuildComponentsForTest(ctx android.RegistrationContext) {
RegisterAARBuildComponents(ctx)
RegisterAppBuildComponents(ctx)
RegisterAppImportBuildComponents(ctx)
RegisterAppSetBuildComponents(ctx)
registerBootclasspathBuildComponents(ctx)
registerBootclasspathFragmentBuildComponents(ctx)
RegisterDexpreoptBootJarsComponents(ctx)
RegisterDocsBuildComponents(ctx)
RegisterGenRuleBuildComponents(ctx)
registerJavaBuildComponents(ctx)
registerPlatformBootclasspathBuildComponents(ctx)
RegisterPrebuiltApisBuildComponents(ctx)
RegisterRuntimeResourceOverlayBuildComponents(ctx)
RegisterSdkLibraryBuildComponents(ctx)
RegisterStubsBuildComponents(ctx)
RegisterSystemModulesBuildComponents(ctx)
registerSystemserverClasspathBuildComponents(ctx)
registerLintBuildComponents(ctx)
}
// gatherRequiredDepsForTest gathers the module definitions used by
// PrepareForTestWithJavaDefaultModules.
//
// As functionality is moved out of here into separate FixturePreparer instances they should also
// be moved into GatherRequiredDepsForTest for use by tests that have not yet switched to use test
// fixtures.
func gatherRequiredDepsForTest() string {
var bp string
extraModules := []string{
"core-lambda-stubs",
"ext",
"android_stubs_current",
"android_system_stubs_current",
"android_test_stubs_current",
"android_module_lib_stubs_current",
"android_system_server_stubs_current",
"core.current.stubs",
"legacy.core.platform.api.stubs",
"stable.core.platform.api.stubs",
"kotlin-stdlib",
"kotlin-stdlib-jdk7",
"kotlin-stdlib-jdk8",
"kotlin-annotations",
}
for _, extra := range extraModules {
bp += fmt.Sprintf(`
java_library {
name: "%s",
srcs: ["a.java"],
sdk_version: "none",
system_modules: "stable-core-platform-api-stubs-system-modules",
compile_dex: true,
}
`, extra)
}
bp += `
java_library {
name: "framework",
srcs: ["a.java"],
sdk_version: "none",
system_modules: "stable-core-platform-api-stubs-system-modules",
aidl: {
export_include_dirs: ["framework/aidl"],
},
}
android_app {
name: "framework-res",
sdk_version: "core_platform",
}`
systemModules := []string{
"core-current-stubs-system-modules",
"core-module-lib-stubs-system-modules",
"legacy-core-platform-api-stubs-system-modules",
"stable-core-platform-api-stubs-system-modules",
}
for _, extra := range systemModules {
bp += fmt.Sprintf(`
java_system_modules {
name: "%[1]s",
libs: ["%[1]s-lib"],
}
java_library {
name: "%[1]s-lib",
sdk_version: "none",
system_modules: "none",
}
`, extra)
}
// Make sure that the dex_bootjars singleton module is instantiated for the tests.
bp += `
dex_bootjars {
name: "dex_bootjars",
}
`
return bp
}
func CheckModuleDependencies(t *testing.T, ctx *android.TestContext, name, variant string, expected []string) {
t.Helper()
module := ctx.ModuleForTests(name, variant).Module()
deps := []string{}
ctx.VisitDirectDeps(module, func(m blueprint.Module) {
deps = append(deps, m.Name())
})
sort.Strings(deps)
if actual := deps; !reflect.DeepEqual(expected, actual) {
t.Errorf("expected %#q, found %#q", expected, actual)
}
}
// CheckPlatformBootclasspathModules returns the apex:module pair for the modules depended upon by
// the platform-bootclasspath module.
func CheckPlatformBootclasspathModules(t *testing.T, result *android.TestResult, name string, expected []string) {
t.Helper()
platformBootclasspath := result.Module(name, "android_common").(*platformBootclasspathModule)
pairs := ApexNamePairsFromModules(result.TestContext, platformBootclasspath.configuredModules)
android.AssertDeepEquals(t, fmt.Sprintf("%s modules", "platform-bootclasspath"), expected, pairs)
}
// ApexNamePairsFromModules returns the apex:module pair for the supplied modules.
func ApexNamePairsFromModules(ctx *android.TestContext, modules []android.Module) []string {
pairs := []string{}
for _, module := range modules {
pairs = append(pairs, apexNamePairFromModule(ctx, module))
}
return pairs
}
func apexNamePairFromModule(ctx *android.TestContext, module android.Module) string {
name := module.Name()
var apex string
apexInfo := ctx.ModuleProvider(module, android.ApexInfoProvider).(android.ApexInfo)
if apexInfo.IsForPlatform() {
apex = "platform"
} else {
apex = apexInfo.InApexVariants[0]
}
return fmt.Sprintf("%s:%s", apex, name)
}
// CheckPlatformBootclasspathFragments returns the apex:module pair for the fragments depended upon
// by the platform-bootclasspath module.
func CheckPlatformBootclasspathFragments(t *testing.T, result *android.TestResult, name string, expected []string) {
t.Helper()
platformBootclasspath := result.Module(name, "android_common").(*platformBootclasspathModule)
pairs := ApexNamePairsFromModules(result.TestContext, platformBootclasspath.fragments)
android.AssertDeepEquals(t, fmt.Sprintf("%s fragments", "platform-bootclasspath"), expected, pairs)
}
func CheckHiddenAPIRuleInputs(t *testing.T, message string, expected string, hiddenAPIRule android.TestingBuildParams) {
t.Helper()
inputs := android.Paths{}
if hiddenAPIRule.Input != nil {
inputs = append(inputs, hiddenAPIRule.Input)
}
inputs = append(inputs, hiddenAPIRule.Inputs...)
inputs = append(inputs, hiddenAPIRule.Implicits...)
inputs = android.SortedUniquePaths(inputs)
actual := strings.TrimSpace(strings.Join(inputs.RelativeToTop().Strings(), "\n"))
re := regexp.MustCompile(`\n\s+`)
expected = strings.TrimSpace(re.ReplaceAllString(expected, "\n"))
if actual != expected {
t.Errorf("Expected hiddenapi rule inputs - %s:\n%s\nactual inputs:\n%s", message, expected, actual)
}
}
// Check that the merged file create by platform_compat_config_singleton has the correct inputs.
func CheckMergedCompatConfigInputs(t *testing.T, result *android.TestResult, message string, expectedPaths ...string) {
sourceGlobalCompatConfig := result.SingletonForTests("platform_compat_config_singleton")
allOutputs := sourceGlobalCompatConfig.AllOutputs()
android.AssertIntEquals(t, message+": output len", 1, len(allOutputs))
output := sourceGlobalCompatConfig.Output(allOutputs[0])
android.AssertPathsRelativeToTopEquals(t, message+": inputs", expectedPaths, output.Implicits)
}