platform_build_soong/java/hiddenapi_singleton_test.go

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// Copyright 2020 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"
"testing"
"android/soong/android"
"github.com/google/blueprint/proptools"
)
// TODO(b/177892522): Move these tests into a more appropriate place.
func fixtureSetPrebuiltHiddenApiDirProductVariable(prebuiltHiddenApiDir *string) android.FixturePreparer {
return android.FixtureModifyProductVariables(func(variables android.FixtureProductVariables) {
variables.PrebuiltHiddenApiDir = prebuiltHiddenApiDir
})
}
var prepareForTestWithDefaultPlatformBootclasspath = android.FixtureAddTextFile("frameworks/base/boot/Android.bp", `
platform_bootclasspath {
name: "platform-bootclasspath",
}
`)
var hiddenApiFixtureFactory = android.GroupFixturePreparers(
PrepareForTestWithJavaDefaultModules,
PrepareForTestWithHiddenApiBuildComponents,
)
func TestHiddenAPISingleton(t *testing.T) {
result := android.GroupFixturePreparers(
hiddenApiFixtureFactory,
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
2021-04-12 21:02:36 +02:00
FixtureConfigureBootJars("platform:foo"),
prepareForTestWithDefaultPlatformBootclasspath,
).RunTestWithBp(t, `
java_library {
name: "foo",
srcs: ["a.java"],
compile_dex: true,
}
`)
hiddenAPI := result.ModuleForTests("platform-bootclasspath", "android_common")
hiddenapiRule := hiddenAPI.Rule("platform-bootclasspath-monolithic-hiddenapi-stub-flags")
want := "--boot-dex=out/soong/.intermediates/foo/android_common/aligned/foo.jar"
android.AssertStringDoesContain(t, "hiddenapi command", hiddenapiRule.RuleParams.Command, want)
}
func TestHiddenAPISingletonWithSourceAndPrebuiltPreferredButNoDex(t *testing.T) {
expectedErrorMessage := "module prebuilt_foo{os:android,arch:common} does not provide a dex jar"
android.GroupFixturePreparers(
hiddenApiFixtureFactory,
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
2021-04-12 21:02:36 +02:00
FixtureConfigureBootJars("platform:foo"),
prepareForTestWithDefaultPlatformBootclasspath,
).ExtendWithErrorHandler(android.FixtureExpectsAtLeastOneErrorMatchingPattern(expectedErrorMessage)).
RunTestWithBp(t, `
java_library {
name: "foo",
srcs: ["a.java"],
compile_dex: true,
}
java_import {
name: "foo",
jars: ["a.jar"],
prefer: true,
}
`)
}
func TestHiddenAPISingletonWithPrebuilt(t *testing.T) {
result := android.GroupFixturePreparers(
hiddenApiFixtureFactory,
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
2021-04-12 21:02:36 +02:00
FixtureConfigureBootJars("platform:foo"),
prepareForTestWithDefaultPlatformBootclasspath,
).RunTestWithBp(t, `
java_import {
name: "foo",
jars: ["a.jar"],
compile_dex: true,
}
`)
hiddenAPI := result.ModuleForTests("platform-bootclasspath", "android_common")
hiddenapiRule := hiddenAPI.Rule("platform-bootclasspath-monolithic-hiddenapi-stub-flags")
want := "--boot-dex=out/soong/.intermediates/foo/android_common/aligned/foo.jar"
android.AssertStringDoesContain(t, "hiddenapi command", hiddenapiRule.RuleParams.Command, want)
}
func TestHiddenAPISingletonWithPrebuiltUseSource(t *testing.T) {
result := android.GroupFixturePreparers(
hiddenApiFixtureFactory,
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
2021-04-12 21:02:36 +02:00
FixtureConfigureBootJars("platform:foo"),
prepareForTestWithDefaultPlatformBootclasspath,
).RunTestWithBp(t, `
java_library {
name: "foo",
srcs: ["a.java"],
compile_dex: true,
}
java_import {
name: "foo",
jars: ["a.jar"],
compile_dex: true,
prefer: false,
}
`)
hiddenAPI := result.ModuleForTests("platform-bootclasspath", "android_common")
hiddenapiRule := hiddenAPI.Rule("platform-bootclasspath-monolithic-hiddenapi-stub-flags")
fromSourceJarArg := "--boot-dex=out/soong/.intermediates/foo/android_common/aligned/foo.jar"
android.AssertStringDoesContain(t, "hiddenapi command", hiddenapiRule.RuleParams.Command, fromSourceJarArg)
prebuiltJarArg := "--boot-dex=out/soong/.intermediates/foo/android_common/dex/foo.jar"
android.AssertStringDoesNotContain(t, "hiddenapi command", hiddenapiRule.RuleParams.Command, prebuiltJarArg)
}
func TestHiddenAPISingletonWithPrebuiltOverrideSource(t *testing.T) {
result := android.GroupFixturePreparers(
hiddenApiFixtureFactory,
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
2021-04-12 21:02:36 +02:00
FixtureConfigureBootJars("platform:foo"),
prepareForTestWithDefaultPlatformBootclasspath,
).RunTestWithBp(t, `
java_library {
name: "foo",
srcs: ["a.java"],
compile_dex: true,
}
java_import {
name: "foo",
jars: ["a.jar"],
compile_dex: true,
prefer: true,
}
`)
hiddenAPI := result.ModuleForTests("platform-bootclasspath", "android_common")
hiddenapiRule := hiddenAPI.Rule("platform-bootclasspath-monolithic-hiddenapi-stub-flags")
prebuiltJarArg := "--boot-dex=out/soong/.intermediates/prebuilt_foo/android_common/dex/foo.jar"
android.AssertStringDoesContain(t, "hiddenapi command", hiddenapiRule.RuleParams.Command, prebuiltJarArg)
fromSourceJarArg := "--boot-dex=out/soong/.intermediates/foo/android_common/aligned/foo.jar"
android.AssertStringDoesNotContain(t, "hiddenapi command", hiddenapiRule.RuleParams.Command, fromSourceJarArg)
}
func TestHiddenAPISingletonSdks(t *testing.T) {
testCases := []struct {
name string
unbundledBuild bool
publicStub string
systemStub string
testStub string
corePlatformStub string
// Additional test preparer
preparer android.FixturePreparer
}{
{
name: "testBundled",
unbundledBuild: false,
publicStub: "android_stubs_current_exportable",
systemStub: "android_system_stubs_current_exportable",
testStub: "android_test_stubs_current_exportable",
corePlatformStub: "legacy.core.platform.api.stubs.exportable",
preparer: android.GroupFixturePreparers(),
}, {
name: "testUnbundled",
unbundledBuild: true,
publicStub: "sdk_public_current_android",
systemStub: "sdk_system_current_android",
testStub: "sdk_test_current_android",
corePlatformStub: "legacy.core.platform.api.stubs.exportable",
preparer: PrepareForTestWithPrebuiltsOfCurrentApi,
},
}
for _, tc := range testCases {
t.Run(tc.name, func(t *testing.T) {
result := android.GroupFixturePreparers(
hiddenApiFixtureFactory,
tc.preparer,
prepareForTestWithDefaultPlatformBootclasspath,
// Make sure that we have atleast one platform library so that we can check the monolithic hiddenapi
// file creation.
FixtureConfigureBootJars("platform:foo"),
android.FixtureModifyProductVariables(func(variables android.FixtureProductVariables) {
variables.Always_use_prebuilt_sdks = proptools.BoolPtr(tc.unbundledBuild)
variables.BuildFlags = map[string]string{
"RELEASE_HIDDEN_API_EXPORTABLE_STUBS": "true",
}
}),
).RunTestWithBp(t, `
java_library {
name: "foo",
srcs: ["a.java"],
compile_dex: true,
}
`)
hiddenAPI := result.ModuleForTests("platform-bootclasspath", "android_common")
hiddenapiRule := hiddenAPI.Rule("platform-bootclasspath-monolithic-hiddenapi-stub-flags")
wantPublicStubs := "--public-stub-classpath=" + generateSdkDexPath(tc.publicStub, tc.unbundledBuild)
android.AssertStringDoesContain(t, "hiddenapi command", hiddenapiRule.RuleParams.Command, wantPublicStubs)
wantSystemStubs := "--system-stub-classpath=" + generateSdkDexPath(tc.systemStub, tc.unbundledBuild)
android.AssertStringDoesContain(t, "hiddenapi command", hiddenapiRule.RuleParams.Command, wantSystemStubs)
wantTestStubs := "--test-stub-classpath=" + generateSdkDexPath(tc.testStub, tc.unbundledBuild)
android.AssertStringDoesContain(t, "hiddenapi command", hiddenapiRule.RuleParams.Command, wantTestStubs)
wantCorePlatformStubs := "--core-platform-stub-classpath=" + generateDexPath(defaultJavaDir, tc.corePlatformStub)
android.AssertStringDoesContain(t, "hiddenapi command", hiddenapiRule.RuleParams.Command, wantCorePlatformStubs)
})
}
}
func generateDexedPath(subDir, dex, module string) string {
return fmt.Sprintf("out/soong/.intermediates/%s/android_common/%s/%s.jar", subDir, dex, module)
}
func generateDexPath(moduleDir string, module string) string {
return generateDexedPath(filepath.Join(moduleDir, module), "dex", module)
}
func generateSdkDexPath(module string, unbundled bool) string {
if unbundled {
return generateDexedPath("prebuilts/sdk/"+module, "dex", module)
}
return generateDexPath(defaultJavaDir, module)
}
func TestHiddenAPISingletonWithPrebuiltCsvFile(t *testing.T) {
// The idea behind this test is to ensure that when the build is
// confugured with a PrebuiltHiddenApiDir that the rules for the
// hiddenapi singleton copy the prebuilts to the typical output
// location, and then use that output location for the hiddenapi encode
// dex step.
// Where to find the prebuilt hiddenapi files:
prebuiltHiddenApiDir := "path/to/prebuilt/hiddenapi"
result := android.GroupFixturePreparers(
hiddenApiFixtureFactory,
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
2021-04-12 21:02:36 +02:00
FixtureConfigureBootJars("platform:foo"),
fixtureSetPrebuiltHiddenApiDirProductVariable(&prebuiltHiddenApiDir),
).RunTestWithBp(t, `
java_import {
name: "foo",
jars: ["a.jar"],
compile_dex: true,
}
`)
expectedCpInput := prebuiltHiddenApiDir + "/hiddenapi-flags.csv"
expectedCpOutput := "out/soong/hiddenapi/hiddenapi-flags.csv"
expectedFlagsCsv := "out/soong/hiddenapi/hiddenapi-flags.csv"
foo := result.ModuleForTests("foo", "android_common")
hiddenAPI := result.SingletonForTests("hiddenapi")
cpRule := hiddenAPI.Rule("Cp")
actualCpInput := cpRule.BuildParams.Input
actualCpOutput := cpRule.BuildParams.Output
encodeDexRule := foo.Rule("hiddenAPIEncodeDex")
actualFlagsCsv := encodeDexRule.BuildParams.Args["flagsCsv"]
android.AssertPathRelativeToTopEquals(t, "hiddenapi cp rule input", expectedCpInput, actualCpInput)
android.AssertPathRelativeToTopEquals(t, "hiddenapi cp rule output", expectedCpOutput, actualCpOutput)
android.AssertStringEquals(t, "hiddenapi encode dex rule flags csv", expectedFlagsCsv, actualFlagsCsv)
}
func TestHiddenAPIEncoding_JavaSdkLibrary(t *testing.T) {
result := android.GroupFixturePreparers(
hiddenApiFixtureFactory,
FixtureConfigureBootJars("platform:foo"),
PrepareForTestWithJavaSdkLibraryFiles,
FixtureWithLastReleaseApis("foo"),
// Make sure that the frameworks/base/Android.bp file exists as otherwise hidden API encoding
// is disabled.
android.FixtureAddTextFile("frameworks/base/Android.bp", ""),
).RunTestWithBp(t, `
java_sdk_library {
name: "foo",
srcs: ["a.java"],
shared_library: false,
compile_dex: true,
public: {enabled: true},
}
`)
checkDexEncoded := func(t *testing.T, name, unencodedDexJar, encodedDexJar string) {
moduleForTests := result.ModuleForTests(name+".impl", "android_common")
encodeDexRule := moduleForTests.Rule("hiddenAPIEncodeDex")
actualUnencodedDexJar := encodeDexRule.Input
// Make sure that the module has its dex jar encoded.
android.AssertStringEquals(t, "encode embedded java_library", unencodedDexJar, actualUnencodedDexJar.String())
// Make sure that the encoded dex jar is the exported one.
errCtx := moduleErrorfTestCtx{}
exportedDexJar := moduleForTests.Module().(UsesLibraryDependency).DexJarBuildPath(errCtx).Path()
android.AssertPathRelativeToTopEquals(t, "encode embedded java_library", encodedDexJar, exportedDexJar)
}
// The java_library embedded with the java_sdk_library must be dex encoded.
t.Run("foo", func(t *testing.T) {
expectedUnencodedDexJar := "out/soong/.intermediates/foo.impl/android_common/aligned/foo.jar"
expectedEncodedDexJar := "out/soong/.intermediates/foo.impl/android_common/hiddenapi/foo.jar"
checkDexEncoded(t, "foo", expectedUnencodedDexJar, expectedEncodedDexJar)
})
}