// 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" "reflect" "regexp" "sort" "strings" "testing" "github.com/google/blueprint/proptools" "android/soong/android" "android/soong/cc" ) var ( resourceFiles = []string{ "res/layout/layout.xml", "res/values/strings.xml", "res/values-en-rUS/strings.xml", } compiledResourceFiles = []string{ "aapt2/res/layout_layout.xml.flat", "aapt2/res/values_strings.arsc.flat", "aapt2/res/values-en-rUS_strings.arsc.flat", } ) func testAppConfig(env map[string]string, bp string, fs map[string][]byte) android.Config { appFS := map[string][]byte{} for k, v := range fs { appFS[k] = v } for _, file := range resourceFiles { appFS[file] = nil } return testConfig(env, bp, appFS) } func testApp(t *testing.T, bp string) *android.TestContext { config := testAppConfig(nil, bp, nil) ctx := testContext() run(t, ctx, config) return ctx } func TestApp(t *testing.T) { for _, moduleType := range []string{"android_app", "android_library"} { t.Run(moduleType, func(t *testing.T) { ctx := testApp(t, moduleType+` { name: "foo", srcs: ["a.java"], sdk_version: "current" } `) foo := ctx.ModuleForTests("foo", "android_common") var expectedLinkImplicits []string manifestFixer := foo.Output("manifest_fixer/AndroidManifest.xml") expectedLinkImplicits = append(expectedLinkImplicits, manifestFixer.Output.String()) frameworkRes := ctx.ModuleForTests("framework-res", "android_common") expectedLinkImplicits = append(expectedLinkImplicits, frameworkRes.Output("package-res.apk").Output.String()) // Test the mapping from input files to compiled output file names compile := foo.Output(compiledResourceFiles[0]) if !reflect.DeepEqual(resourceFiles, compile.Inputs.Strings()) { t.Errorf("expected aapt2 compile inputs expected:\n %#v\n got:\n %#v", resourceFiles, compile.Inputs.Strings()) } compiledResourceOutputs := compile.Outputs.Strings() sort.Strings(compiledResourceOutputs) expectedLinkImplicits = append(expectedLinkImplicits, compiledResourceOutputs...) list := foo.Output("aapt2/res.list") expectedLinkImplicits = append(expectedLinkImplicits, list.Output.String()) // Check that the link rule uses res := ctx.ModuleForTests("foo", "android_common").Output("package-res.apk") if !reflect.DeepEqual(expectedLinkImplicits, res.Implicits.Strings()) { t.Errorf("expected aapt2 link implicits expected:\n %#v\n got:\n %#v", expectedLinkImplicits, res.Implicits.Strings()) } }) } } func TestAppSplits(t *testing.T) { ctx := testApp(t, ` android_app { name: "foo", srcs: ["a.java"], package_splits: ["v4", "v7,hdpi"], sdk_version: "current" }`) foo := ctx.ModuleForTests("foo", "android_common") expectedOutputs := []string{ filepath.Join(buildDir, ".intermediates/foo/android_common/foo.apk"), filepath.Join(buildDir, ".intermediates/foo/android_common/foo_v4.apk"), filepath.Join(buildDir, ".intermediates/foo/android_common/foo_v7_hdpi.apk"), } for _, expectedOutput := range expectedOutputs { foo.Output(expectedOutput) } outputFiles, err := foo.Module().(*AndroidApp).OutputFiles("") if err != nil { t.Fatal(err) } if g, w := outputFiles.Strings(), expectedOutputs; !reflect.DeepEqual(g, w) { t.Errorf(`want OutputFiles("") = %q, got %q`, w, g) } } func TestAndroidAppSet(t *testing.T) { ctx, config := testJava(t, ` android_app_set { name: "foo", set: "prebuilts/apks/app.apks", prerelease: true, }`) module := ctx.ModuleForTests("foo", "android_common") const packedSplitApks = "foo.zip" params := module.Output(packedSplitApks) if params.Rule == nil { t.Errorf("expected output %s is missing", packedSplitApks) } if s := params.Args["allow-prereleased"]; s != "true" { t.Errorf("wrong allow-prereleased value: '%s', expected 'true'", s) } if s := params.Args["partition"]; s != "system" { t.Errorf("wrong partition value: '%s', expected 'system'", s) } mkEntries := android.AndroidMkEntriesForTest(t, config, "", module.Module())[0] actualInstallFile := mkEntries.EntryMap["LOCAL_APK_SET_INSTALL_FILE"] expectedInstallFile := []string{"foo.apk"} if !reflect.DeepEqual(actualInstallFile, expectedInstallFile) { t.Errorf("Unexpected LOCAL_APK_SET_INSTALL_FILE value: '%s', expected: '%s',", actualInstallFile, expectedInstallFile) } } func TestAndroidAppSet_Variants(t *testing.T) { bp := ` android_app_set { name: "foo", set: "prebuilts/apks/app.apks", }` testCases := []struct { name string deviceArch *string deviceSecondaryArch *string aaptPrebuiltDPI []string sdkVersion int expected map[string]string }{ { name: "One", deviceArch: proptools.StringPtr("x86"), aaptPrebuiltDPI: []string{"ldpi", "xxhdpi"}, sdkVersion: 29, expected: map[string]string{ "abis": "X86", "allow-prereleased": "false", "screen-densities": "LDPI,XXHDPI", "sdk-version": "29", "stem": "foo", }, }, { name: "Two", deviceArch: proptools.StringPtr("x86_64"), deviceSecondaryArch: proptools.StringPtr("x86"), aaptPrebuiltDPI: nil, sdkVersion: 30, expected: map[string]string{ "abis": "X86_64,X86", "allow-prereleased": "false", "screen-densities": "all", "sdk-version": "30", "stem": "foo", }, }, } for _, test := range testCases { config := testAppConfig(nil, bp, nil) config.TestProductVariables.AAPTPrebuiltDPI = test.aaptPrebuiltDPI config.TestProductVariables.Platform_sdk_version = &test.sdkVersion config.TestProductVariables.DeviceArch = test.deviceArch config.TestProductVariables.DeviceSecondaryArch = test.deviceSecondaryArch ctx := testContext() run(t, ctx, config) module := ctx.ModuleForTests("foo", "android_common") const packedSplitApks = "foo.zip" params := module.Output(packedSplitApks) for k, v := range test.expected { if actual := params.Args[k]; actual != v { t.Errorf("%s: bad build arg value for '%s': '%s', expected '%s'", test.name, k, actual, v) } } } } func TestPlatformAPIs(t *testing.T) { testJava(t, ` android_app { name: "foo", srcs: ["a.java"], platform_apis: true, } `) testJava(t, ` android_app { name: "foo", srcs: ["a.java"], sdk_version: "current", } `) testJavaError(t, "platform_apis must be true when sdk_version is empty.", ` android_app { name: "bar", srcs: ["b.java"], } `) testJavaError(t, "platform_apis must be false when sdk_version is not empty.", ` android_app { name: "bar", srcs: ["b.java"], sdk_version: "system_current", platform_apis: true, } `) } func TestAndroidAppLinkType(t *testing.T) { testJava(t, ` android_app { name: "foo", srcs: ["a.java"], libs: ["bar"], static_libs: ["baz"], platform_apis: true, } java_library { name: "bar", sdk_version: "current", srcs: ["b.java"], } android_library { name: "baz", sdk_version: "system_current", srcs: ["c.java"], } `) testJavaError(t, "Adjust sdk_version: property of the source or target module so that target module is built with the same or smaller API set than the source.", ` android_app { name: "foo", srcs: ["a.java"], libs: ["bar"], sdk_version: "current", static_libs: ["baz"], } java_library { name: "bar", sdk_version: "current", srcs: ["b.java"], } android_library { name: "baz", sdk_version: "system_current", srcs: ["c.java"], } `) testJava(t, ` android_app { name: "foo", srcs: ["a.java"], libs: ["bar"], sdk_version: "system_current", static_libs: ["baz"], } java_library { name: "bar", sdk_version: "current", srcs: ["b.java"], } android_library { name: "baz", sdk_version: "system_current", srcs: ["c.java"], } `) testJavaError(t, "Adjust sdk_version: property of the source or target module so that target module is built with the same or smaller API set than the source.", ` android_app { name: "foo", srcs: ["a.java"], libs: ["bar"], sdk_version: "system_current", static_libs: ["baz"], } java_library { name: "bar", sdk_version: "current", srcs: ["b.java"], } android_library { name: "baz", srcs: ["c.java"], } `) } func TestUpdatableApps(t *testing.T) { testCases := []struct { name string bp string expectedError string }{ { name: "Stable public SDK", bp: `android_app { name: "foo", srcs: ["a.java"], sdk_version: "29", min_sdk_version: "29", updatable: true, }`, }, { name: "Stable system SDK", bp: `android_app { name: "foo", srcs: ["a.java"], sdk_version: "system_29", min_sdk_version: "29", updatable: true, }`, }, { name: "Current public SDK", bp: `android_app { name: "foo", srcs: ["a.java"], sdk_version: "current", min_sdk_version: "29", updatable: true, }`, }, { name: "Current system SDK", bp: `android_app { name: "foo", srcs: ["a.java"], sdk_version: "system_current", min_sdk_version: "29", updatable: true, }`, }, { name: "Current module SDK", bp: `android_app { name: "foo", srcs: ["a.java"], sdk_version: "module_current", min_sdk_version: "29", updatable: true, }`, }, { name: "Current core SDK", bp: `android_app { name: "foo", srcs: ["a.java"], sdk_version: "core_current", min_sdk_version: "29", updatable: true, }`, }, { name: "No Platform APIs", bp: `android_app { name: "foo", srcs: ["a.java"], platform_apis: true, min_sdk_version: "29", updatable: true, }`, expectedError: "Updatable apps must use stable SDKs", }, { name: "No Core Platform APIs", bp: `android_app { name: "foo", srcs: ["a.java"], sdk_version: "core_platform", min_sdk_version: "29", updatable: true, }`, expectedError: "Updatable apps must use stable SDKs", }, { name: "No unspecified APIs", bp: `android_app { name: "foo", srcs: ["a.java"], updatable: true, min_sdk_version: "29", }`, expectedError: "Updatable apps must use stable SDK", }, { name: "Must specify min_sdk_version", bp: `android_app { name: "app_without_min_sdk_version", srcs: ["a.java"], sdk_version: "29", updatable: true, }`, expectedError: "updatable apps must set min_sdk_version.", }, } for _, test := range testCases { t.Run(test.name, func(t *testing.T) { if test.expectedError == "" { testJava(t, test.bp) } else { testJavaError(t, test.expectedError, test.bp) } }) } } func TestUpdatableApps_TransitiveDepsShouldSetMinSdkVersion(t *testing.T) { testJavaError(t, `module "bar".*: should support min_sdk_version\(29\)`, cc.GatherRequiredDepsForTest(android.Android)+` android_app { name: "foo", srcs: ["a.java"], updatable: true, sdk_version: "current", min_sdk_version: "29", static_libs: ["bar"], } java_library { name: "bar", sdk_version: "current", } `) } func TestUpdatableApps_JniLibsShouldShouldSupportMinSdkVersion(t *testing.T) { testJava(t, cc.GatherRequiredDepsForTest(android.Android)+` android_app { name: "foo", srcs: ["a.java"], updatable: true, sdk_version: "current", min_sdk_version: "current", jni_libs: ["libjni"], } cc_library { name: "libjni", stl: "none", system_shared_libs: [], sdk_version: "current", } `) } func TestUpdatableApps_JniLibShouldBeBuiltAgainstMinSdkVersion(t *testing.T) { bp := cc.GatherRequiredDepsForTest(android.Android) + ` android_app { name: "foo", srcs: ["a.java"], updatable: true, sdk_version: "current", min_sdk_version: "29", jni_libs: ["libjni"], } cc_library { name: "libjni", stl: "none", system_shared_libs: [], sdk_version: "29", } ` fs := map[string][]byte{ "prebuilts/ndk/current/platforms/android-29/arch-arm64/usr/lib/crtbegin_so.o": nil, "prebuilts/ndk/current/platforms/android-29/arch-arm64/usr/lib/crtend_so.o": nil, "prebuilts/ndk/current/platforms/android-29/arch-arm/usr/lib/crtbegin_so.o": nil, "prebuilts/ndk/current/platforms/android-29/arch-arm/usr/lib/crtend_so.o": nil, } ctx, _ := testJavaWithConfig(t, testConfig(nil, bp, fs)) inputs := ctx.ModuleForTests("libjni", "android_arm64_armv8-a_sdk_shared").Description("link").Implicits var crtbeginFound, crtendFound bool expectedCrtBegin := ctx.ModuleForTests("crtbegin_so", "android_arm64_armv8-a_sdk_29").Rule("partialLd").Output expectedCrtEnd := ctx.ModuleForTests("crtend_so", "android_arm64_armv8-a_sdk_29").Rule("partialLd").Output implicits := []string{} for _, input := range inputs { implicits = append(implicits, input.String()) if strings.HasSuffix(input.String(), expectedCrtBegin.String()) { crtbeginFound = true } else if strings.HasSuffix(input.String(), expectedCrtEnd.String()) { crtendFound = true } } if !crtbeginFound { t.Error(fmt.Sprintf( "expected implicit with suffix %q, have the following implicits:\n%s", expectedCrtBegin, strings.Join(implicits, "\n"))) } if !crtendFound { t.Error(fmt.Sprintf( "expected implicit with suffix %q, have the following implicits:\n%s", expectedCrtEnd, strings.Join(implicits, "\n"))) } } func TestUpdatableApps_ErrorIfJniLibDoesntSupportMinSdkVersion(t *testing.T) { bp := cc.GatherRequiredDepsForTest(android.Android) + ` android_app { name: "foo", srcs: ["a.java"], updatable: true, sdk_version: "current", min_sdk_version: "29", // this APK should support 29 jni_libs: ["libjni"], } cc_library { name: "libjni", stl: "none", sdk_version: "current", } ` testJavaError(t, `"libjni" .*: sdk_version\(current\) is higher than min_sdk_version\(29\)`, bp) } func TestUpdatableApps_ErrorIfDepSdkVersionIsHigher(t *testing.T) { bp := cc.GatherRequiredDepsForTest(android.Android) + ` android_app { name: "foo", srcs: ["a.java"], updatable: true, sdk_version: "current", min_sdk_version: "29", // this APK should support 29 jni_libs: ["libjni"], } cc_library { name: "libjni", stl: "none", shared_libs: ["libbar"], system_shared_libs: [], sdk_version: "27", } cc_library { name: "libbar", stl: "none", system_shared_libs: [], sdk_version: "current", } ` testJavaError(t, `"libjni" .*: links "libbar" built against newer API version "current"`, bp) } func TestResourceDirs(t *testing.T) { testCases := []struct { name string prop string resources []string }{ { name: "no resource_dirs", prop: "", resources: []string{"res/res/values/strings.xml"}, }, { name: "resource_dirs", prop: `resource_dirs: ["res"]`, resources: []string{"res/res/values/strings.xml"}, }, { name: "empty resource_dirs", prop: `resource_dirs: []`, resources: nil, }, } fs := map[string][]byte{ "res/res/values/strings.xml": nil, } bp := ` android_app { name: "foo", sdk_version: "current", %s } ` for _, testCase := range testCases { t.Run(testCase.name, func(t *testing.T) { config := testConfig(nil, fmt.Sprintf(bp, testCase.prop), fs) ctx := testContext() run(t, ctx, config) module := ctx.ModuleForTests("foo", "android_common") resourceList := module.MaybeOutput("aapt2/res.list") var resources []string if resourceList.Rule != nil { for _, compiledResource := range resourceList.Inputs.Strings() { resources = append(resources, module.Output(compiledResource).Inputs.Strings()...) } } if !reflect.DeepEqual(resources, testCase.resources) { t.Errorf("expected resource files %q, got %q", testCase.resources, resources) } }) } } func TestLibraryAssets(t *testing.T) { bp := ` android_app { name: "foo", sdk_version: "current", static_libs: ["lib1", "lib2", "lib3"], } android_library { name: "lib1", sdk_version: "current", asset_dirs: ["assets_a"], } android_library { name: "lib2", sdk_version: "current", } android_library { name: "lib3", sdk_version: "current", static_libs: ["lib4"], } android_library { name: "lib4", sdk_version: "current", asset_dirs: ["assets_b"], } ` testCases := []struct { name string assetFlag string assetPackages []string }{ { name: "foo", // lib1 has its own asset. lib3 doesn't have any, but provides lib4's transitively. assetPackages: []string{ buildDir + "/.intermediates/foo/android_common/aapt2/package-res.apk", buildDir + "/.intermediates/lib1/android_common/assets.zip", buildDir + "/.intermediates/lib3/android_common/assets.zip", }, }, { name: "lib1", assetFlag: "-A assets_a", }, { name: "lib2", }, { name: "lib3", assetPackages: []string{ buildDir + "/.intermediates/lib3/android_common/aapt2/package-res.apk", buildDir + "/.intermediates/lib4/android_common/assets.zip", }, }, { name: "lib4", assetFlag: "-A assets_b", }, } ctx := testApp(t, bp) for _, test := range testCases { t.Run(test.name, func(t *testing.T) { m := ctx.ModuleForTests(test.name, "android_common") // Check asset flag in aapt2 link flags var aapt2link android.TestingBuildParams if len(test.assetPackages) > 0 { aapt2link = m.Output("aapt2/package-res.apk") } else { aapt2link = m.Output("package-res.apk") } aapt2Flags := aapt2link.Args["flags"] if test.assetFlag != "" { if !strings.Contains(aapt2Flags, test.assetFlag) { t.Errorf("Can't find asset flag %q in aapt2 link flags %q", test.assetFlag, aapt2Flags) } } else { if strings.Contains(aapt2Flags, " -A ") { t.Errorf("aapt2 link flags %q contain unexpected asset flag", aapt2Flags) } } // Check asset merge rule. if len(test.assetPackages) > 0 { mergeAssets := m.Output("package-res.apk") if !reflect.DeepEqual(test.assetPackages, mergeAssets.Inputs.Strings()) { t.Errorf("Unexpected mergeAssets inputs: %v, expected: %v", mergeAssets.Inputs.Strings(), test.assetPackages) } } }) } } func TestAndroidResources(t *testing.T) { testCases := []struct { name string enforceRROTargets []string enforceRROExcludedOverlays []string resourceFiles map[string][]string overlayFiles map[string][]string rroDirs map[string][]string }{ { name: "no RRO", enforceRROTargets: nil, enforceRROExcludedOverlays: nil, resourceFiles: map[string][]string{ "foo": nil, "bar": {"bar/res/res/values/strings.xml"}, "lib": nil, "lib2": {"lib2/res/res/values/strings.xml"}, }, overlayFiles: map[string][]string{ "foo": { buildDir + "/.intermediates/lib2/android_common/package-res.apk", buildDir + "/.intermediates/lib/android_common/package-res.apk", buildDir + "/.intermediates/lib3/android_common/package-res.apk", "foo/res/res/values/strings.xml", "device/vendor/blah/static_overlay/foo/res/values/strings.xml", "device/vendor/blah/overlay/foo/res/values/strings.xml", "product/vendor/blah/overlay/foo/res/values/strings.xml", }, "bar": { "device/vendor/blah/static_overlay/bar/res/values/strings.xml", "device/vendor/blah/overlay/bar/res/values/strings.xml", }, "lib": { buildDir + "/.intermediates/lib2/android_common/package-res.apk", "lib/res/res/values/strings.xml", "device/vendor/blah/overlay/lib/res/values/strings.xml", }, }, rroDirs: map[string][]string{ "foo": nil, "bar": nil, }, }, { name: "enforce RRO on foo", enforceRROTargets: []string{"foo"}, enforceRROExcludedOverlays: []string{"device/vendor/blah/static_overlay"}, resourceFiles: map[string][]string{ "foo": nil, "bar": {"bar/res/res/values/strings.xml"}, "lib": nil, "lib2": {"lib2/res/res/values/strings.xml"}, }, overlayFiles: map[string][]string{ "foo": { buildDir + "/.intermediates/lib2/android_common/package-res.apk", buildDir + "/.intermediates/lib/android_common/package-res.apk", buildDir + "/.intermediates/lib3/android_common/package-res.apk", "foo/res/res/values/strings.xml", "device/vendor/blah/static_overlay/foo/res/values/strings.xml", }, "bar": { "device/vendor/blah/static_overlay/bar/res/values/strings.xml", "device/vendor/blah/overlay/bar/res/values/strings.xml", }, "lib": { buildDir + "/.intermediates/lib2/android_common/package-res.apk", "lib/res/res/values/strings.xml", "device/vendor/blah/overlay/lib/res/values/strings.xml", }, }, rroDirs: map[string][]string{ "foo": { "device:device/vendor/blah/overlay/foo/res", // Enforce RRO on "foo" could imply RRO on static dependencies, but for now it doesn't. // "device/vendor/blah/overlay/lib/res", "product:product/vendor/blah/overlay/foo/res", }, "bar": nil, "lib": nil, }, }, { name: "enforce RRO on all", enforceRROTargets: []string{"*"}, enforceRROExcludedOverlays: []string{ // Excluding specific apps/res directories also allowed. "device/vendor/blah/static_overlay/foo", "device/vendor/blah/static_overlay/bar/res", }, resourceFiles: map[string][]string{ "foo": nil, "bar": {"bar/res/res/values/strings.xml"}, "lib": nil, "lib2": {"lib2/res/res/values/strings.xml"}, }, overlayFiles: map[string][]string{ "foo": { buildDir + "/.intermediates/lib2/android_common/package-res.apk", buildDir + "/.intermediates/lib/android_common/package-res.apk", buildDir + "/.intermediates/lib3/android_common/package-res.apk", "foo/res/res/values/strings.xml", "device/vendor/blah/static_overlay/foo/res/values/strings.xml", }, "bar": {"device/vendor/blah/static_overlay/bar/res/values/strings.xml"}, "lib": { buildDir + "/.intermediates/lib2/android_common/package-res.apk", "lib/res/res/values/strings.xml", }, }, rroDirs: map[string][]string{ "foo": { "device:device/vendor/blah/overlay/foo/res", "product:product/vendor/blah/overlay/foo/res", // Lib dep comes after the direct deps "device:device/vendor/blah/overlay/lib/res", }, "bar": {"device:device/vendor/blah/overlay/bar/res"}, "lib": {"device:device/vendor/blah/overlay/lib/res"}, }, }, } deviceResourceOverlays := []string{ "device/vendor/blah/overlay", "device/vendor/blah/overlay2", "device/vendor/blah/static_overlay", } productResourceOverlays := []string{ "product/vendor/blah/overlay", } fs := map[string][]byte{ "foo/res/res/values/strings.xml": nil, "bar/res/res/values/strings.xml": nil, "lib/res/res/values/strings.xml": nil, "lib2/res/res/values/strings.xml": nil, "device/vendor/blah/overlay/foo/res/values/strings.xml": nil, "device/vendor/blah/overlay/bar/res/values/strings.xml": nil, "device/vendor/blah/overlay/lib/res/values/strings.xml": nil, "device/vendor/blah/static_overlay/foo/res/values/strings.xml": nil, "device/vendor/blah/static_overlay/bar/res/values/strings.xml": nil, "device/vendor/blah/overlay2/res/values/strings.xml": nil, "product/vendor/blah/overlay/foo/res/values/strings.xml": nil, } bp := ` android_app { name: "foo", sdk_version: "current", resource_dirs: ["foo/res"], static_libs: ["lib", "lib3"], } android_app { name: "bar", sdk_version: "current", resource_dirs: ["bar/res"], } android_library { name: "lib", sdk_version: "current", resource_dirs: ["lib/res"], static_libs: ["lib2"], } android_library { name: "lib2", sdk_version: "current", resource_dirs: ["lib2/res"], } // This library has the same resources as lib (should not lead to dupe RROs) android_library { name: "lib3", sdk_version: "current", resource_dirs: ["lib/res"] } ` for _, testCase := range testCases { t.Run(testCase.name, func(t *testing.T) { config := testAppConfig(nil, bp, fs) config.TestProductVariables.DeviceResourceOverlays = deviceResourceOverlays config.TestProductVariables.ProductResourceOverlays = productResourceOverlays if testCase.enforceRROTargets != nil { config.TestProductVariables.EnforceRROTargets = testCase.enforceRROTargets } if testCase.enforceRROExcludedOverlays != nil { config.TestProductVariables.EnforceRROExcludedOverlays = testCase.enforceRROExcludedOverlays } ctx := testContext() run(t, ctx, config) resourceListToFiles := func(module android.TestingModule, list []string) (files []string) { for _, o := range list { res := module.MaybeOutput(o) if res.Rule != nil { // If the overlay is compiled as part of this module (i.e. a .arsc.flat file), // verify the inputs to the .arsc.flat rule. files = append(files, res.Inputs.Strings()...) } else { // Otherwise, verify the full path to the output of the other module files = append(files, o) } } return files } getResources := func(moduleName string) (resourceFiles, overlayFiles, rroDirs []string) { module := ctx.ModuleForTests(moduleName, "android_common") resourceList := module.MaybeOutput("aapt2/res.list") if resourceList.Rule != nil { resourceFiles = resourceListToFiles(module, resourceList.Inputs.Strings()) } overlayList := module.MaybeOutput("aapt2/overlay.list") if overlayList.Rule != nil { overlayFiles = resourceListToFiles(module, overlayList.Inputs.Strings()) } for _, d := range module.Module().(AndroidLibraryDependency).ExportedRRODirs() { var prefix string if d.overlayType == device { prefix = "device:" } else if d.overlayType == product { prefix = "product:" } else { t.Fatalf("Unexpected overlayType %d", d.overlayType) } rroDirs = append(rroDirs, prefix+d.path.String()) } return resourceFiles, overlayFiles, rroDirs } modules := []string{"foo", "bar", "lib", "lib2"} for _, module := range modules { resourceFiles, overlayFiles, rroDirs := getResources(module) if !reflect.DeepEqual(resourceFiles, testCase.resourceFiles[module]) { t.Errorf("expected %s resource files:\n %#v\n got:\n %#v", module, testCase.resourceFiles[module], resourceFiles) } if !reflect.DeepEqual(overlayFiles, testCase.overlayFiles[module]) { t.Errorf("expected %s overlay files:\n %#v\n got:\n %#v", module, testCase.overlayFiles[module], overlayFiles) } if !reflect.DeepEqual(rroDirs, testCase.rroDirs[module]) { t.Errorf("expected %s rroDirs: %#v\n got:\n %#v", module, testCase.rroDirs[module], rroDirs) } } }) } } func TestAppSdkVersion(t *testing.T) { testCases := []struct { name string sdkVersion string platformSdkInt int platformSdkCodename string platformSdkFinal bool expectedMinSdkVersion string platformApis bool }{ { name: "current final SDK", sdkVersion: "current", platformSdkInt: 27, platformSdkCodename: "REL", platformSdkFinal: true, expectedMinSdkVersion: "27", }, { name: "current non-final SDK", sdkVersion: "current", platformSdkInt: 27, platformSdkCodename: "OMR1", platformSdkFinal: false, expectedMinSdkVersion: "OMR1", }, { name: "default final SDK", sdkVersion: "", platformApis: true, platformSdkInt: 27, platformSdkCodename: "REL", platformSdkFinal: true, expectedMinSdkVersion: "27", }, { name: "default non-final SDK", sdkVersion: "", platformApis: true, platformSdkInt: 27, platformSdkCodename: "OMR1", platformSdkFinal: false, expectedMinSdkVersion: "OMR1", }, { name: "14", sdkVersion: "14", expectedMinSdkVersion: "14", }, } for _, moduleType := range []string{"android_app", "android_library"} { for _, test := range testCases { t.Run(moduleType+" "+test.name, func(t *testing.T) { platformApiProp := "" if test.platformApis { platformApiProp = "platform_apis: true," } bp := fmt.Sprintf(`%s { name: "foo", srcs: ["a.java"], sdk_version: "%s", %s }`, moduleType, test.sdkVersion, platformApiProp) config := testAppConfig(nil, bp, nil) config.TestProductVariables.Platform_sdk_version = &test.platformSdkInt config.TestProductVariables.Platform_sdk_codename = &test.platformSdkCodename config.TestProductVariables.Platform_sdk_final = &test.platformSdkFinal ctx := testContext() run(t, ctx, config) foo := ctx.ModuleForTests("foo", "android_common") link := foo.Output("package-res.apk") linkFlags := strings.Split(link.Args["flags"], " ") min := android.IndexList("--min-sdk-version", linkFlags) target := android.IndexList("--target-sdk-version", linkFlags) if min == -1 || target == -1 || min == len(linkFlags)-1 || target == len(linkFlags)-1 { t.Fatalf("missing --min-sdk-version or --target-sdk-version in link flags: %q", linkFlags) } gotMinSdkVersion := linkFlags[min+1] gotTargetSdkVersion := linkFlags[target+1] if gotMinSdkVersion != test.expectedMinSdkVersion { t.Errorf("incorrect --min-sdk-version, expected %q got %q", test.expectedMinSdkVersion, gotMinSdkVersion) } if gotTargetSdkVersion != test.expectedMinSdkVersion { t.Errorf("incorrect --target-sdk-version, expected %q got %q", test.expectedMinSdkVersion, gotTargetSdkVersion) } }) } } } func TestJNIABI(t *testing.T) { ctx, _ := testJava(t, cc.GatherRequiredDepsForTest(android.Android)+` cc_library { name: "libjni", system_shared_libs: [], sdk_version: "current", stl: "none", } android_test { name: "test", sdk_version: "core_platform", jni_libs: ["libjni"], } android_test { name: "test_first", sdk_version: "core_platform", compile_multilib: "first", jni_libs: ["libjni"], } android_test { name: "test_both", sdk_version: "core_platform", compile_multilib: "both", jni_libs: ["libjni"], } android_test { name: "test_32", sdk_version: "core_platform", compile_multilib: "32", jni_libs: ["libjni"], } android_test { name: "test_64", sdk_version: "core_platform", compile_multilib: "64", jni_libs: ["libjni"], } `) testCases := []struct { name string abis []string }{ {"test", []string{"arm64-v8a"}}, {"test_first", []string{"arm64-v8a"}}, {"test_both", []string{"arm64-v8a", "armeabi-v7a"}}, {"test_32", []string{"armeabi-v7a"}}, {"test_64", []string{"arm64-v8a"}}, } for _, test := range testCases { t.Run(test.name, func(t *testing.T) { app := ctx.ModuleForTests(test.name, "android_common") jniLibZip := app.Output("jnilibs.zip") var abis []string args := strings.Fields(jniLibZip.Args["jarArgs"]) for i := 0; i < len(args); i++ { if args[i] == "-P" { abis = append(abis, filepath.Base(args[i+1])) i++ } } if !reflect.DeepEqual(abis, test.abis) { t.Errorf("want abis %v, got %v", test.abis, abis) } }) } } func TestAppSdkVersionByPartition(t *testing.T) { testJavaError(t, "sdk_version must have a value when the module is located at vendor or product", ` android_app { name: "foo", srcs: ["a.java"], vendor: true, platform_apis: true, } `) testJava(t, ` android_app { name: "bar", srcs: ["b.java"], platform_apis: true, } `) for _, enforce := range []bool{true, false} { bp := ` android_app { name: "foo", srcs: ["a.java"], product_specific: true, platform_apis: true, } ` config := testAppConfig(nil, bp, nil) config.TestProductVariables.EnforceProductPartitionInterface = proptools.BoolPtr(enforce) if enforce { testJavaErrorWithConfig(t, "sdk_version must have a value when the module is located at vendor or product", config) } else { testJavaWithConfig(t, config) } } } func TestJNIPackaging(t *testing.T) { ctx, _ := testJava(t, cc.GatherRequiredDepsForTest(android.Android)+` cc_library { name: "libjni", system_shared_libs: [], stl: "none", sdk_version: "current", } android_app { name: "app", jni_libs: ["libjni"], sdk_version: "current", } android_app { name: "app_noembed", jni_libs: ["libjni"], use_embedded_native_libs: false, sdk_version: "current", } android_app { name: "app_embed", jni_libs: ["libjni"], use_embedded_native_libs: true, sdk_version: "current", } android_test { name: "test", sdk_version: "current", jni_libs: ["libjni"], } android_test { name: "test_noembed", sdk_version: "current", jni_libs: ["libjni"], use_embedded_native_libs: false, } android_test_helper_app { name: "test_helper", sdk_version: "current", jni_libs: ["libjni"], } android_test_helper_app { name: "test_helper_noembed", sdk_version: "current", jni_libs: ["libjni"], use_embedded_native_libs: false, } `) testCases := []struct { name string packaged bool compressed bool }{ {"app", false, false}, {"app_noembed", false, false}, {"app_embed", true, false}, {"test", true, false}, {"test_noembed", true, true}, {"test_helper", true, false}, {"test_helper_noembed", true, true}, } for _, test := range testCases { t.Run(test.name, func(t *testing.T) { app := ctx.ModuleForTests(test.name, "android_common") jniLibZip := app.MaybeOutput("jnilibs.zip") if g, w := (jniLibZip.Rule != nil), test.packaged; g != w { t.Errorf("expected jni packaged %v, got %v", w, g) } if jniLibZip.Rule != nil { if g, w := !strings.Contains(jniLibZip.Args["jarArgs"], "-L 0"), test.compressed; g != w { t.Errorf("expected jni compressed %v, got %v", w, g) } if !strings.Contains(jniLibZip.Implicits[0].String(), "_sdk_") { t.Errorf("expected input %q to use sdk variant", jniLibZip.Implicits[0].String()) } } }) } } func TestJNISDK(t *testing.T) { ctx, _ := testJava(t, cc.GatherRequiredDepsForTest(android.Android)+` cc_library { name: "libjni", system_shared_libs: [], stl: "none", sdk_version: "current", } android_test { name: "app_platform", jni_libs: ["libjni"], platform_apis: true, } android_test { name: "app_sdk", jni_libs: ["libjni"], sdk_version: "current", } android_test { name: "app_force_platform", jni_libs: ["libjni"], sdk_version: "current", jni_uses_platform_apis: true, } android_test { name: "app_force_sdk", jni_libs: ["libjni"], platform_apis: true, jni_uses_sdk_apis: true, } cc_library { name: "libvendorjni", system_shared_libs: [], stl: "none", vendor: true, } android_test { name: "app_vendor", jni_libs: ["libvendorjni"], sdk_version: "current", vendor: true, } `) testCases := []struct { name string sdkJNI bool vendorJNI bool }{ {name: "app_platform"}, {name: "app_sdk", sdkJNI: true}, {name: "app_force_platform"}, {name: "app_force_sdk", sdkJNI: true}, {name: "app_vendor", vendorJNI: true}, } platformJNI := ctx.ModuleForTests("libjni", "android_arm64_armv8-a_shared"). Output("libjni.so").Output.String() sdkJNI := ctx.ModuleForTests("libjni", "android_arm64_armv8-a_sdk_shared"). Output("libjni.so").Output.String() vendorJNI := ctx.ModuleForTests("libvendorjni", "android_arm64_armv8-a_shared"). Output("libvendorjni.so").Output.String() for _, test := range testCases { t.Run(test.name, func(t *testing.T) { app := ctx.ModuleForTests(test.name, "android_common") jniLibZip := app.MaybeOutput("jnilibs.zip") if len(jniLibZip.Implicits) != 1 { t.Fatalf("expected exactly one jni library, got %q", jniLibZip.Implicits.Strings()) } gotJNI := jniLibZip.Implicits[0].String() if test.sdkJNI { if gotJNI != sdkJNI { t.Errorf("expected SDK JNI library %q, got %q", sdkJNI, gotJNI) } } else if test.vendorJNI { if gotJNI != vendorJNI { t.Errorf("expected platform JNI library %q, got %q", vendorJNI, gotJNI) } } else { if gotJNI != platformJNI { t.Errorf("expected platform JNI library %q, got %q", platformJNI, gotJNI) } } }) } t.Run("jni_uses_platform_apis_error", func(t *testing.T) { testJavaError(t, `jni_uses_platform_apis: can only be set for modules that set sdk_version`, ` android_test { name: "app_platform", platform_apis: true, jni_uses_platform_apis: true, } `) }) t.Run("jni_uses_sdk_apis_error", func(t *testing.T) { testJavaError(t, `jni_uses_sdk_apis: can only be set for modules that do not set sdk_version`, ` android_test { name: "app_sdk", sdk_version: "current", jni_uses_sdk_apis: true, } `) }) } func TestCertificates(t *testing.T) { testCases := []struct { name string bp string certificateOverride string expectedLineage string expectedCertificate string }{ { name: "default", bp: ` android_app { name: "foo", srcs: ["a.java"], sdk_version: "current", } `, certificateOverride: "", expectedLineage: "", expectedCertificate: "build/make/target/product/security/testkey.x509.pem build/make/target/product/security/testkey.pk8", }, { name: "module certificate property", bp: ` android_app { name: "foo", srcs: ["a.java"], certificate: ":new_certificate", sdk_version: "current", } android_app_certificate { name: "new_certificate", certificate: "cert/new_cert", } `, certificateOverride: "", expectedLineage: "", expectedCertificate: "cert/new_cert.x509.pem cert/new_cert.pk8", }, { name: "path certificate property", bp: ` android_app { name: "foo", srcs: ["a.java"], certificate: "expiredkey", sdk_version: "current", } `, certificateOverride: "", expectedLineage: "", expectedCertificate: "build/make/target/product/security/expiredkey.x509.pem build/make/target/product/security/expiredkey.pk8", }, { name: "certificate overrides", bp: ` android_app { name: "foo", srcs: ["a.java"], certificate: "expiredkey", sdk_version: "current", } android_app_certificate { name: "new_certificate", certificate: "cert/new_cert", } `, certificateOverride: "foo:new_certificate", expectedLineage: "", expectedCertificate: "cert/new_cert.x509.pem cert/new_cert.pk8", }, { name: "certificate lineage", bp: ` android_app { name: "foo", srcs: ["a.java"], certificate: ":new_certificate", lineage: "lineage.bin", sdk_version: "current", } android_app_certificate { name: "new_certificate", certificate: "cert/new_cert", } `, certificateOverride: "", expectedLineage: "--lineage lineage.bin", expectedCertificate: "cert/new_cert.x509.pem cert/new_cert.pk8", }, } for _, test := range testCases { t.Run(test.name, func(t *testing.T) { config := testAppConfig(nil, test.bp, nil) if test.certificateOverride != "" { config.TestProductVariables.CertificateOverrides = []string{test.certificateOverride} } ctx := testContext() run(t, ctx, config) foo := ctx.ModuleForTests("foo", "android_common") signapk := foo.Output("foo.apk") signCertificateFlags := signapk.Args["certificates"] if test.expectedCertificate != signCertificateFlags { t.Errorf("Incorrect signing flags, expected: %q, got: %q", test.expectedCertificate, signCertificateFlags) } signFlags := signapk.Args["flags"] if test.expectedLineage != signFlags { t.Errorf("Incorrect signing flags, expected: %q, got: %q", test.expectedLineage, signFlags) } }) } } func TestPackageNameOverride(t *testing.T) { testCases := []struct { name string bp string packageNameOverride string expected []string }{ { name: "default", bp: ` android_app { name: "foo", srcs: ["a.java"], sdk_version: "current", } `, packageNameOverride: "", expected: []string{ buildDir + "/.intermediates/foo/android_common/foo.apk", buildDir + "/target/product/test_device/system/app/foo/foo.apk", }, }, { name: "overridden", bp: ` android_app { name: "foo", srcs: ["a.java"], sdk_version: "current", } `, packageNameOverride: "foo:bar", expected: []string{ // The package apk should be still be the original name for test dependencies. buildDir + "/.intermediates/foo/android_common/bar.apk", buildDir + "/target/product/test_device/system/app/bar/bar.apk", }, }, } for _, test := range testCases { t.Run(test.name, func(t *testing.T) { config := testAppConfig(nil, test.bp, nil) if test.packageNameOverride != "" { config.TestProductVariables.PackageNameOverrides = []string{test.packageNameOverride} } ctx := testContext() run(t, ctx, config) foo := ctx.ModuleForTests("foo", "android_common") outputs := foo.AllOutputs() outputMap := make(map[string]bool) for _, o := range outputs { outputMap[o] = true } for _, e := range test.expected { if _, exist := outputMap[e]; !exist { t.Errorf("Can't find %q in output files.\nAll outputs:%v", e, outputs) } } }) } } func TestInstrumentationTargetOverridden(t *testing.T) { bp := ` android_app { name: "foo", srcs: ["a.java"], sdk_version: "current", } android_test { name: "bar", instrumentation_for: "foo", sdk_version: "current", } ` config := testAppConfig(nil, bp, nil) config.TestProductVariables.ManifestPackageNameOverrides = []string{"foo:org.dandroid.bp"} ctx := testContext() run(t, ctx, config) bar := ctx.ModuleForTests("bar", "android_common") res := bar.Output("package-res.apk") aapt2Flags := res.Args["flags"] e := "--rename-instrumentation-target-package org.dandroid.bp" if !strings.Contains(aapt2Flags, e) { t.Errorf("target package renaming flag, %q is missing in aapt2 link flags, %q", e, aapt2Flags) } } func TestOverrideAndroidApp(t *testing.T) { ctx, _ := testJava(t, ` android_app { name: "foo", srcs: ["a.java"], certificate: "expiredkey", overrides: ["qux"], sdk_version: "current", } override_android_app { name: "bar", base: "foo", certificate: ":new_certificate", lineage: "lineage.bin", logging_parent: "bah", } android_app_certificate { name: "new_certificate", certificate: "cert/new_cert", } override_android_app { name: "baz", base: "foo", package_name: "org.dandroid.bp", } `) expectedVariants := []struct { moduleName string variantName string apkName string apkPath string certFlag string lineageFlag string overrides []string aaptFlag string logging_parent string }{ { moduleName: "foo", variantName: "android_common", apkPath: "/target/product/test_device/system/app/foo/foo.apk", certFlag: "build/make/target/product/security/expiredkey.x509.pem build/make/target/product/security/expiredkey.pk8", lineageFlag: "", overrides: []string{"qux"}, aaptFlag: "", logging_parent: "", }, { moduleName: "bar", variantName: "android_common_bar", apkPath: "/target/product/test_device/system/app/bar/bar.apk", certFlag: "cert/new_cert.x509.pem cert/new_cert.pk8", lineageFlag: "--lineage lineage.bin", overrides: []string{"qux", "foo"}, aaptFlag: "", logging_parent: "bah", }, { moduleName: "baz", variantName: "android_common_baz", apkPath: "/target/product/test_device/system/app/baz/baz.apk", certFlag: "build/make/target/product/security/expiredkey.x509.pem build/make/target/product/security/expiredkey.pk8", lineageFlag: "", overrides: []string{"qux", "foo"}, aaptFlag: "--rename-manifest-package org.dandroid.bp", logging_parent: "", }, } for _, expected := range expectedVariants { variant := ctx.ModuleForTests("foo", expected.variantName) // Check the final apk name outputs := variant.AllOutputs() expectedApkPath := buildDir + expected.apkPath found := false for _, o := range outputs { if o == expectedApkPath { found = true break } } if !found { t.Errorf("Can't find %q in output files.\nAll outputs:%v", expectedApkPath, outputs) } // Check the certificate paths signapk := variant.Output(expected.moduleName + ".apk") certFlag := signapk.Args["certificates"] if expected.certFlag != certFlag { t.Errorf("Incorrect signing flags, expected: %q, got: %q", expected.certFlag, certFlag) } // Check the lineage flags lineageFlag := signapk.Args["flags"] if expected.lineageFlag != lineageFlag { t.Errorf("Incorrect signing flags, expected: %q, got: %q", expected.lineageFlag, lineageFlag) } // Check if the overrides field values are correctly aggregated. mod := variant.Module().(*AndroidApp) if !reflect.DeepEqual(expected.overrides, mod.appProperties.Overrides) { t.Errorf("Incorrect overrides property value, expected: %q, got: %q", expected.overrides, mod.appProperties.Overrides) } // Test Overridable property: Logging_parent logging_parent := mod.aapt.LoggingParent if expected.logging_parent != logging_parent { t.Errorf("Incorrect overrides property value for logging parent, expected: %q, got: %q", expected.logging_parent, logging_parent) } // Check the package renaming flag, if exists. res := variant.Output("package-res.apk") aapt2Flags := res.Args["flags"] if !strings.Contains(aapt2Flags, expected.aaptFlag) { t.Errorf("package renaming flag, %q is missing in aapt2 link flags, %q", expected.aaptFlag, aapt2Flags) } } } func TestOverrideAndroidAppDependency(t *testing.T) { ctx, _ := testJava(t, ` android_app { name: "foo", srcs: ["a.java"], sdk_version: "current", } override_android_app { name: "bar", base: "foo", package_name: "org.dandroid.bp", } android_test { name: "baz", srcs: ["b.java"], instrumentation_for: "foo", } android_test { name: "qux", srcs: ["b.java"], instrumentation_for: "bar", } `) // Verify baz, which depends on the overridden module foo, has the correct classpath javac arg. javac := ctx.ModuleForTests("baz", "android_common").Rule("javac") fooTurbine := filepath.Join(buildDir, ".intermediates", "foo", "android_common", "turbine-combined", "foo.jar") if !strings.Contains(javac.Args["classpath"], fooTurbine) { t.Errorf("baz classpath %v does not contain %q", javac.Args["classpath"], fooTurbine) } // Verify qux, which depends on the overriding module bar, has the correct classpath javac arg. javac = ctx.ModuleForTests("qux", "android_common").Rule("javac") barTurbine := filepath.Join(buildDir, ".intermediates", "foo", "android_common_bar", "turbine-combined", "foo.jar") if !strings.Contains(javac.Args["classpath"], barTurbine) { t.Errorf("qux classpath %v does not contain %q", javac.Args["classpath"], barTurbine) } } func TestOverrideAndroidTest(t *testing.T) { ctx, _ := testJava(t, ` android_app { name: "foo", srcs: ["a.java"], package_name: "com.android.foo", sdk_version: "current", } override_android_app { name: "bar", base: "foo", package_name: "com.android.bar", } android_test { name: "foo_test", srcs: ["b.java"], instrumentation_for: "foo", } override_android_test { name: "bar_test", base: "foo_test", package_name: "com.android.bar.test", instrumentation_for: "bar", instrumentation_target_package: "com.android.bar", } `) expectedVariants := []struct { moduleName string variantName string apkPath string overrides []string targetVariant string packageFlag string targetPackageFlag string }{ { variantName: "android_common", apkPath: "/target/product/test_device/testcases/foo_test/arm64/foo_test.apk", overrides: nil, targetVariant: "android_common", packageFlag: "", targetPackageFlag: "", }, { variantName: "android_common_bar_test", apkPath: "/target/product/test_device/testcases/bar_test/arm64/bar_test.apk", overrides: []string{"foo_test"}, targetVariant: "android_common_bar", packageFlag: "com.android.bar.test", targetPackageFlag: "com.android.bar", }, } for _, expected := range expectedVariants { variant := ctx.ModuleForTests("foo_test", expected.variantName) // Check the final apk name outputs := variant.AllOutputs() expectedApkPath := buildDir + expected.apkPath found := false for _, o := range outputs { if o == expectedApkPath { found = true break } } if !found { t.Errorf("Can't find %q in output files.\nAll outputs:%v", expectedApkPath, outputs) } // Check if the overrides field values are correctly aggregated. mod := variant.Module().(*AndroidTest) if !reflect.DeepEqual(expected.overrides, mod.appProperties.Overrides) { t.Errorf("Incorrect overrides property value, expected: %q, got: %q", expected.overrides, mod.appProperties.Overrides) } // Check if javac classpath has the correct jar file path. This checks instrumentation_for overrides. javac := variant.Rule("javac") turbine := filepath.Join(buildDir, ".intermediates", "foo", expected.targetVariant, "turbine-combined", "foo.jar") if !strings.Contains(javac.Args["classpath"], turbine) { t.Errorf("classpath %q does not contain %q", javac.Args["classpath"], turbine) } // Check aapt2 flags. res := variant.Output("package-res.apk") aapt2Flags := res.Args["flags"] checkAapt2LinkFlag(t, aapt2Flags, "rename-manifest-package", expected.packageFlag) checkAapt2LinkFlag(t, aapt2Flags, "rename-instrumentation-target-package", expected.targetPackageFlag) } } func TestAndroidTest_FixTestConfig(t *testing.T) { ctx, _ := testJava(t, ` android_app { name: "foo", srcs: ["a.java"], package_name: "com.android.foo", sdk_version: "current", } android_test { name: "foo_test", srcs: ["b.java"], instrumentation_for: "foo", } android_test { name: "bar_test", srcs: ["b.java"], package_name: "com.android.bar.test", instrumentation_for: "foo", } override_android_test { name: "baz_test", base: "foo_test", package_name: "com.android.baz.test", } `) testCases := []struct { moduleName string variantName string expectedFlags []string }{ { moduleName: "foo_test", variantName: "android_common", }, { moduleName: "bar_test", variantName: "android_common", expectedFlags: []string{ "--manifest " + buildDir + "/.intermediates/bar_test/android_common/manifest_fixer/AndroidManifest.xml", "--package-name com.android.bar.test", }, }, { moduleName: "foo_test", variantName: "android_common_baz_test", expectedFlags: []string{ "--manifest " + buildDir + "/.intermediates/foo_test/android_common_baz_test/manifest_fixer/AndroidManifest.xml", "--package-name com.android.baz.test", "--test-file-name baz_test.apk", }, }, } for _, test := range testCases { variant := ctx.ModuleForTests(test.moduleName, test.variantName) params := variant.MaybeOutput("test_config_fixer/AndroidTest.xml") if len(test.expectedFlags) > 0 { if params.Rule == nil { t.Errorf("test_config_fixer was expected to run, but didn't") } else { for _, flag := range test.expectedFlags { if !strings.Contains(params.RuleParams.Command, flag) { t.Errorf("Flag %q was not found in command: %q", flag, params.RuleParams.Command) } } } } else { if params.Rule != nil { t.Errorf("test_config_fixer was not expected to run, but did: %q", params.RuleParams.Command) } } } } func TestAndroidAppImport(t *testing.T) { ctx, _ := testJava(t, ` android_app_import { name: "foo", apk: "prebuilts/apk/app.apk", certificate: "platform", dex_preopt: { enabled: true, }, } `) variant := ctx.ModuleForTests("foo", "android_common") // Check dexpreopt outputs. if variant.MaybeOutput("dexpreopt/oat/arm64/package.vdex").Rule == nil || variant.MaybeOutput("dexpreopt/oat/arm64/package.odex").Rule == nil { t.Errorf("can't find dexpreopt outputs") } // Check cert signing flag. signedApk := variant.Output("signed/foo.apk") signingFlag := signedApk.Args["certificates"] expected := "build/make/target/product/security/platform.x509.pem build/make/target/product/security/platform.pk8" if expected != signingFlag { t.Errorf("Incorrect signing flags, expected: %q, got: %q", expected, signingFlag) } } func TestAndroidAppImport_NoDexPreopt(t *testing.T) { ctx, _ := testJava(t, ` android_app_import { name: "foo", apk: "prebuilts/apk/app.apk", certificate: "platform", dex_preopt: { enabled: false, }, } `) variant := ctx.ModuleForTests("foo", "android_common") // Check dexpreopt outputs. They shouldn't exist. if variant.MaybeOutput("dexpreopt/oat/arm64/package.vdex").Rule != nil || variant.MaybeOutput("dexpreopt/oat/arm64/package.odex").Rule != nil { t.Errorf("dexpreopt shouldn't have run.") } } func TestAndroidAppImport_Presigned(t *testing.T) { ctx, _ := testJava(t, ` android_app_import { name: "foo", apk: "prebuilts/apk/app.apk", presigned: true, dex_preopt: { enabled: true, }, } `) variant := ctx.ModuleForTests("foo", "android_common") // Check dexpreopt outputs. if variant.MaybeOutput("dexpreopt/oat/arm64/package.vdex").Rule == nil || variant.MaybeOutput("dexpreopt/oat/arm64/package.odex").Rule == nil { t.Errorf("can't find dexpreopt outputs") } // Make sure signing was skipped and aligning was done. if variant.MaybeOutput("signed/foo.apk").Rule != nil { t.Errorf("signing rule shouldn't be included.") } if variant.MaybeOutput("zip-aligned/foo.apk").Rule == nil { t.Errorf("can't find aligning rule") } } func TestAndroidAppImport_SigningLineage(t *testing.T) { ctx, _ := testJava(t, ` android_app_import { name: "foo", apk: "prebuilts/apk/app.apk", certificate: "platform", lineage: "lineage.bin", } `) variant := ctx.ModuleForTests("foo", "android_common") // Check cert signing lineage flag. signedApk := variant.Output("signed/foo.apk") signingFlag := signedApk.Args["flags"] expected := "--lineage lineage.bin" if expected != signingFlag { t.Errorf("Incorrect signing flags, expected: %q, got: %q", expected, signingFlag) } } func TestAndroidAppImport_DefaultDevCert(t *testing.T) { ctx, _ := testJava(t, ` android_app_import { name: "foo", apk: "prebuilts/apk/app.apk", default_dev_cert: true, dex_preopt: { enabled: true, }, } `) variant := ctx.ModuleForTests("foo", "android_common") // Check dexpreopt outputs. if variant.MaybeOutput("dexpreopt/oat/arm64/package.vdex").Rule == nil || variant.MaybeOutput("dexpreopt/oat/arm64/package.odex").Rule == nil { t.Errorf("can't find dexpreopt outputs") } // Check cert signing flag. signedApk := variant.Output("signed/foo.apk") signingFlag := signedApk.Args["certificates"] expected := "build/make/target/product/security/testkey.x509.pem build/make/target/product/security/testkey.pk8" if expected != signingFlag { t.Errorf("Incorrect signing flags, expected: %q, got: %q", expected, signingFlag) } } func TestAndroidAppImport_DpiVariants(t *testing.T) { bp := ` android_app_import { name: "foo", apk: "prebuilts/apk/app.apk", dpi_variants: { xhdpi: { apk: "prebuilts/apk/app_xhdpi.apk", }, xxhdpi: { apk: "prebuilts/apk/app_xxhdpi.apk", }, }, presigned: true, dex_preopt: { enabled: true, }, } ` testCases := []struct { name string aaptPreferredConfig *string aaptPrebuiltDPI []string expected string }{ { name: "no preferred", aaptPreferredConfig: nil, aaptPrebuiltDPI: []string{}, expected: "prebuilts/apk/app.apk", }, { name: "AAPTPreferredConfig matches", aaptPreferredConfig: proptools.StringPtr("xhdpi"), aaptPrebuiltDPI: []string{"xxhdpi", "ldpi"}, expected: "prebuilts/apk/app_xhdpi.apk", }, { name: "AAPTPrebuiltDPI matches", aaptPreferredConfig: proptools.StringPtr("mdpi"), aaptPrebuiltDPI: []string{"xxhdpi", "xhdpi"}, expected: "prebuilts/apk/app_xxhdpi.apk", }, { name: "non-first AAPTPrebuiltDPI matches", aaptPreferredConfig: proptools.StringPtr("mdpi"), aaptPrebuiltDPI: []string{"ldpi", "xhdpi"}, expected: "prebuilts/apk/app_xhdpi.apk", }, { name: "no matches", aaptPreferredConfig: proptools.StringPtr("mdpi"), aaptPrebuiltDPI: []string{"ldpi", "xxxhdpi"}, expected: "prebuilts/apk/app.apk", }, } jniRuleRe := regexp.MustCompile("^if \\(zipinfo (\\S+)") for _, test := range testCases { config := testAppConfig(nil, bp, nil) config.TestProductVariables.AAPTPreferredConfig = test.aaptPreferredConfig config.TestProductVariables.AAPTPrebuiltDPI = test.aaptPrebuiltDPI ctx := testContext() run(t, ctx, config) variant := ctx.ModuleForTests("foo", "android_common") jniRuleCommand := variant.Output("jnis-uncompressed/foo.apk").RuleParams.Command matches := jniRuleRe.FindStringSubmatch(jniRuleCommand) if len(matches) != 2 { t.Errorf("failed to extract the src apk path from %q", jniRuleCommand) } if test.expected != matches[1] { t.Errorf("wrong src apk, expected: %q got: %q", test.expected, matches[1]) } } } func TestAndroidAppImport_Filename(t *testing.T) { ctx, config := testJava(t, ` android_app_import { name: "foo", apk: "prebuilts/apk/app.apk", presigned: true, } android_app_import { name: "bar", apk: "prebuilts/apk/app.apk", presigned: true, filename: "bar_sample.apk" } `) testCases := []struct { name string expected string }{ { name: "foo", expected: "foo.apk", }, { name: "bar", expected: "bar_sample.apk", }, } for _, test := range testCases { variant := ctx.ModuleForTests(test.name, "android_common") if variant.MaybeOutput(test.expected).Rule == nil { t.Errorf("can't find output named %q - all outputs: %v", test.expected, variant.AllOutputs()) } a := variant.Module().(*AndroidAppImport) expectedValues := []string{test.expected} actualValues := android.AndroidMkEntriesForTest( t, config, "", a)[0].EntryMap["LOCAL_INSTALLED_MODULE_STEM"] if !reflect.DeepEqual(actualValues, expectedValues) { t.Errorf("Incorrect LOCAL_INSTALLED_MODULE_STEM value '%s', expected '%s'", actualValues, expectedValues) } } } func TestAndroidAppImport_ArchVariants(t *testing.T) { // The test config's target arch is ARM64. testCases := []struct { name string bp string expected string }{ { name: "matching arch", bp: ` android_app_import { name: "foo", apk: "prebuilts/apk/app.apk", arch: { arm64: { apk: "prebuilts/apk/app_arm64.apk", }, }, presigned: true, dex_preopt: { enabled: true, }, } `, expected: "prebuilts/apk/app_arm64.apk", }, { name: "no matching arch", bp: ` android_app_import { name: "foo", apk: "prebuilts/apk/app.apk", arch: { arm: { apk: "prebuilts/apk/app_arm.apk", }, }, presigned: true, dex_preopt: { enabled: true, }, } `, expected: "prebuilts/apk/app.apk", }, } jniRuleRe := regexp.MustCompile("^if \\(zipinfo (\\S+)") for _, test := range testCases { ctx, _ := testJava(t, test.bp) variant := ctx.ModuleForTests("foo", "android_common") jniRuleCommand := variant.Output("jnis-uncompressed/foo.apk").RuleParams.Command matches := jniRuleRe.FindStringSubmatch(jniRuleCommand) if len(matches) != 2 { t.Errorf("failed to extract the src apk path from %q", jniRuleCommand) } if test.expected != matches[1] { t.Errorf("wrong src apk, expected: %q got: %q", test.expected, matches[1]) } } } func TestAndroidTestImport(t *testing.T) { ctx, config := testJava(t, ` android_test_import { name: "foo", apk: "prebuilts/apk/app.apk", presigned: true, data: [ "testdata/data", ], } `) test := ctx.ModuleForTests("foo", "android_common").Module().(*AndroidTestImport) // Check android mks. entries := android.AndroidMkEntriesForTest(t, config, "", test)[0] expected := []string{"tests"} actual := entries.EntryMap["LOCAL_MODULE_TAGS"] if !reflect.DeepEqual(expected, actual) { t.Errorf("Unexpected module tags - expected: %q, actual: %q", expected, actual) } expected = []string{"testdata/data:testdata/data"} actual = entries.EntryMap["LOCAL_COMPATIBILITY_SUPPORT_FILES"] if !reflect.DeepEqual(expected, actual) { t.Errorf("Unexpected test data - expected: %q, actual: %q", expected, actual) } } func TestAndroidTestImport_NoJinUncompressForPresigned(t *testing.T) { ctx, _ := testJava(t, ` android_test_import { name: "foo", apk: "prebuilts/apk/app.apk", certificate: "cert/new_cert", data: [ "testdata/data", ], } android_test_import { name: "foo_presigned", apk: "prebuilts/apk/app.apk", presigned: true, data: [ "testdata/data", ], } `) variant := ctx.ModuleForTests("foo", "android_common") jniRule := variant.Output("jnis-uncompressed/foo.apk").RuleParams.Command if !strings.HasPrefix(jniRule, "if (zipinfo") { t.Errorf("Unexpected JNI uncompress rule command: " + jniRule) } variant = ctx.ModuleForTests("foo_presigned", "android_common") jniRule = variant.Output("jnis-uncompressed/foo_presigned.apk").BuildParams.Rule.String() if jniRule != android.Cp.String() { t.Errorf("Unexpected JNI uncompress rule: " + jniRule) } if variant.MaybeOutput("zip-aligned/foo_presigned.apk").Rule == nil { t.Errorf("Presigned test apk should be aligned") } } func TestAndroidTestImport_Preprocessed(t *testing.T) { ctx, _ := testJava(t, ` android_test_import { name: "foo", apk: "prebuilts/apk/app.apk", presigned: true, preprocessed: true, } android_test_import { name: "foo_cert", apk: "prebuilts/apk/app.apk", certificate: "cert/new_cert", preprocessed: true, } `) testModules := []string{"foo", "foo_cert"} for _, m := range testModules { apkName := m + ".apk" variant := ctx.ModuleForTests(m, "android_common") jniRule := variant.Output("jnis-uncompressed/" + apkName).BuildParams.Rule.String() if jniRule != android.Cp.String() { t.Errorf("Unexpected JNI uncompress rule: " + jniRule) } // Make sure signing and aligning were skipped. if variant.MaybeOutput("signed/"+apkName).Rule != nil { t.Errorf("signing rule shouldn't be included for preprocessed.") } if variant.MaybeOutput("zip-aligned/"+apkName).Rule != nil { t.Errorf("aligning rule shouldn't be for preprocessed") } } } func TestStl(t *testing.T) { ctx, _ := testJava(t, cc.GatherRequiredDepsForTest(android.Android)+` cc_library { name: "libjni", sdk_version: "current", stl: "c++_shared", } android_test { name: "stl", jni_libs: ["libjni"], compile_multilib: "both", sdk_version: "current", stl: "c++_shared", } android_test { name: "system", jni_libs: ["libjni"], compile_multilib: "both", sdk_version: "current", } `) testCases := []struct { name string jnis []string }{ {"stl", []string{ "libjni.so", "libc++_shared.so", }, }, {"system", []string{ "libjni.so", }, }, } for _, test := range testCases { t.Run(test.name, func(t *testing.T) { app := ctx.ModuleForTests(test.name, "android_common") jniLibZip := app.Output("jnilibs.zip") var jnis []string args := strings.Fields(jniLibZip.Args["jarArgs"]) for i := 0; i < len(args); i++ { if args[i] == "-f" { jnis = append(jnis, args[i+1]) i += 1 } } jnisJoined := strings.Join(jnis, " ") for _, jni := range test.jnis { if !strings.Contains(jnisJoined, jni) { t.Errorf("missing jni %q in %q", jni, jnis) } } }) } } func TestUsesLibraries(t *testing.T) { bp := ` java_sdk_library { name: "foo", srcs: ["a.java"], api_packages: ["foo"], sdk_version: "current", } java_sdk_library { name: "qux", srcs: ["a.java"], api_packages: ["qux"], sdk_version: "current", } java_sdk_library { name: "quuz", srcs: ["a.java"], api_packages: ["quuz"], sdk_version: "current", } java_sdk_library { name: "bar", srcs: ["a.java"], api_packages: ["bar"], sdk_version: "current", } android_app { name: "app", srcs: ["a.java"], libs: ["qux", "quuz.stubs"], uses_libs: ["foo"], sdk_version: "current", optional_uses_libs: [ "bar", "baz", ], } android_app_import { name: "prebuilt", apk: "prebuilts/apk/app.apk", certificate: "platform", uses_libs: ["foo"], optional_uses_libs: [ "bar", "baz", ], } ` config := testAppConfig(nil, bp, nil) config.TestProductVariables.MissingUsesLibraries = []string{"baz"} ctx := testContext() run(t, ctx, config) app := ctx.ModuleForTests("app", "android_common") prebuilt := ctx.ModuleForTests("prebuilt", "android_common") // Test that implicit dependencies on java_sdk_library instances are passed to the manifest. manifestFixerArgs := app.Output("manifest_fixer/AndroidManifest.xml").Args["args"] if w := "--uses-library qux"; !strings.Contains(manifestFixerArgs, w) { t.Errorf("unexpected manifest_fixer args: wanted %q in %q", w, manifestFixerArgs) } if w := "--uses-library quuz"; !strings.Contains(manifestFixerArgs, w) { t.Errorf("unexpected manifest_fixer args: wanted %q in %q", w, manifestFixerArgs) } // Test that all libraries are verified cmd := app.Rule("verify_uses_libraries").RuleParams.Command if w := "--uses-library foo"; !strings.Contains(cmd, w) { t.Errorf("wanted %q in %q", w, cmd) } if w := "--optional-uses-library bar --optional-uses-library baz"; !strings.Contains(cmd, w) { t.Errorf("wanted %q in %q", w, cmd) } cmd = prebuilt.Rule("verify_uses_libraries").RuleParams.Command if w := `uses_library_names="foo"`; !strings.Contains(cmd, w) { t.Errorf("wanted %q in %q", w, cmd) } if w := `optional_uses_library_names="bar baz"`; !strings.Contains(cmd, w) { t.Errorf("wanted %q in %q", w, cmd) } // Test that only present libraries are preopted cmd = app.Rule("dexpreopt").RuleParams.Command if w := `--target-classpath-for-sdk any /system/framework/foo.jar:/system/framework/bar.jar`; !strings.Contains(cmd, w) { t.Errorf("wanted %q in %q", w, cmd) } cmd = prebuilt.Rule("dexpreopt").RuleParams.Command if w := `--target-classpath-for-sdk any /system/framework/foo.jar:/system/framework/bar.jar`; !strings.Contains(cmd, w) { t.Errorf("wanted %q in %q", w, cmd) } } func TestCodelessApp(t *testing.T) { testCases := []struct { name string bp string noCode bool }{ { name: "normal", bp: ` android_app { name: "foo", srcs: ["a.java"], sdk_version: "current", } `, noCode: false, }, { name: "app without sources", bp: ` android_app { name: "foo", sdk_version: "current", } `, noCode: true, }, { name: "app with libraries", bp: ` android_app { name: "foo", static_libs: ["lib"], sdk_version: "current", } java_library { name: "lib", srcs: ["a.java"], sdk_version: "current", } `, noCode: false, }, { name: "app with sourceless libraries", bp: ` android_app { name: "foo", static_libs: ["lib"], sdk_version: "current", } java_library { name: "lib", sdk_version: "current", } `, // TODO(jungjw): this should probably be true noCode: false, }, } for _, test := range testCases { t.Run(test.name, func(t *testing.T) { ctx := testApp(t, test.bp) foo := ctx.ModuleForTests("foo", "android_common") manifestFixerArgs := foo.Output("manifest_fixer/AndroidManifest.xml").Args["args"] if strings.Contains(manifestFixerArgs, "--has-no-code") != test.noCode { t.Errorf("unexpected manifest_fixer args: %q", manifestFixerArgs) } }) } } func TestEmbedNotice(t *testing.T) { ctx, _ := testJavaWithFS(t, cc.GatherRequiredDepsForTest(android.Android)+` android_app { name: "foo", srcs: ["a.java"], static_libs: ["javalib"], jni_libs: ["libjni"], notice: "APP_NOTICE", embed_notices: true, sdk_version: "current", } // No embed_notice flag android_app { name: "bar", srcs: ["a.java"], jni_libs: ["libjni"], notice: "APP_NOTICE", sdk_version: "current", } // No NOTICE files android_app { name: "baz", srcs: ["a.java"], embed_notices: true, sdk_version: "current", } cc_library { name: "libjni", system_shared_libs: [], stl: "none", notice: "LIB_NOTICE", sdk_version: "current", } java_library { name: "javalib", srcs: [ ":gen", ], sdk_version: "current", } genrule { name: "gen", tools: ["gentool"], out: ["gen.java"], notice: "GENRULE_NOTICE", } java_binary_host { name: "gentool", srcs: ["b.java"], notice: "TOOL_NOTICE", } `, map[string][]byte{ "APP_NOTICE": nil, "GENRULE_NOTICE": nil, "LIB_NOTICE": nil, "TOOL_NOTICE": nil, }) // foo has NOTICE files to process, and embed_notices is true. foo := ctx.ModuleForTests("foo", "android_common") // verify merge notices rule. mergeNotices := foo.Rule("mergeNoticesRule") noticeInputs := mergeNotices.Inputs.Strings() // TOOL_NOTICE should be excluded as it's a host module. if len(mergeNotices.Inputs) != 3 { t.Errorf("number of input notice files: expected = 3, actual = %q", noticeInputs) } if !inList("APP_NOTICE", noticeInputs) { t.Errorf("APP_NOTICE is missing from notice files, %q", noticeInputs) } if !inList("LIB_NOTICE", noticeInputs) { t.Errorf("LIB_NOTICE is missing from notice files, %q", noticeInputs) } if !inList("GENRULE_NOTICE", noticeInputs) { t.Errorf("GENRULE_NOTICE is missing from notice files, %q", noticeInputs) } // aapt2 flags should include -A so that its contents are put in the APK's /assets. res := foo.Output("package-res.apk") aapt2Flags := res.Args["flags"] e := "-A " + buildDir + "/.intermediates/foo/android_common/NOTICE" if !strings.Contains(aapt2Flags, e) { t.Errorf("asset dir flag for NOTICE, %q is missing in aapt2 link flags, %q", e, aapt2Flags) } // bar has NOTICE files to process, but embed_notices is not set. bar := ctx.ModuleForTests("bar", "android_common") res = bar.Output("package-res.apk") aapt2Flags = res.Args["flags"] e = "-A " + buildDir + "/.intermediates/bar/android_common/NOTICE" if strings.Contains(aapt2Flags, e) { t.Errorf("bar shouldn't have the asset dir flag for NOTICE: %q", e) } // baz's embed_notice is true, but it doesn't have any NOTICE files. baz := ctx.ModuleForTests("baz", "android_common") res = baz.Output("package-res.apk") aapt2Flags = res.Args["flags"] e = "-A " + buildDir + "/.intermediates/baz/android_common/NOTICE" if strings.Contains(aapt2Flags, e) { t.Errorf("baz shouldn't have the asset dir flag for NOTICE: %q", e) } } func TestUncompressDex(t *testing.T) { testCases := []struct { name string bp string uncompressedPlatform bool uncompressedUnbundled bool }{ { name: "normal", bp: ` android_app { name: "foo", srcs: ["a.java"], sdk_version: "current", } `, uncompressedPlatform: true, uncompressedUnbundled: false, }, { name: "use_embedded_dex", bp: ` android_app { name: "foo", use_embedded_dex: true, srcs: ["a.java"], sdk_version: "current", } `, uncompressedPlatform: true, uncompressedUnbundled: true, }, { name: "privileged", bp: ` android_app { name: "foo", privileged: true, srcs: ["a.java"], sdk_version: "current", } `, uncompressedPlatform: true, uncompressedUnbundled: true, }, { name: "normal_uncompress_dex_true", bp: ` android_app { name: "foo", srcs: ["a.java"], sdk_version: "current", uncompress_dex: true, } `, uncompressedPlatform: true, uncompressedUnbundled: true, }, { name: "normal_uncompress_dex_false", bp: ` android_app { name: "foo", srcs: ["a.java"], sdk_version: "current", uncompress_dex: false, } `, uncompressedPlatform: false, uncompressedUnbundled: false, }, } test := func(t *testing.T, bp string, want bool, unbundled bool) { t.Helper() config := testAppConfig(nil, bp, nil) if unbundled { config.TestProductVariables.Unbundled_build = proptools.BoolPtr(true) config.TestProductVariables.Always_use_prebuilt_sdks = proptools.BoolPtr(true) } ctx := testContext() run(t, ctx, config) foo := ctx.ModuleForTests("foo", "android_common") dex := foo.Rule("r8") uncompressedInDexJar := strings.Contains(dex.Args["zipFlags"], "-L 0") aligned := foo.MaybeRule("zipalign").Rule != nil if uncompressedInDexJar != want { t.Errorf("want uncompressed in dex %v, got %v", want, uncompressedInDexJar) } if aligned != want { t.Errorf("want aligned %v, got %v", want, aligned) } } for _, tt := range testCases { t.Run(tt.name, func(t *testing.T) { t.Run("platform", func(t *testing.T) { test(t, tt.bp, tt.uncompressedPlatform, false) }) t.Run("unbundled", func(t *testing.T) { test(t, tt.bp, tt.uncompressedUnbundled, true) }) }) } } func checkAapt2LinkFlag(t *testing.T, aapt2Flags, flagName, expectedValue string) { if expectedValue != "" { expectedFlag := "--" + flagName + " " + expectedValue if !strings.Contains(aapt2Flags, expectedFlag) { t.Errorf("%q is missing in aapt2 link flags, %q", expectedFlag, aapt2Flags) } } else { unexpectedFlag := "--" + flagName if strings.Contains(aapt2Flags, unexpectedFlag) { t.Errorf("unexpected flag, %q is found in aapt2 link flags, %q", unexpectedFlag, aapt2Flags) } } } func TestRuntimeResourceOverlay(t *testing.T) { fs := map[string][]byte{ "baz/res/res/values/strings.xml": nil, "bar/res/res/values/strings.xml": nil, } bp := ` runtime_resource_overlay { name: "foo", certificate: "platform", lineage: "lineage.bin", product_specific: true, static_libs: ["bar"], resource_libs: ["baz"], aaptflags: ["--keep-raw-values"], } runtime_resource_overlay { name: "foo_themed", certificate: "platform", product_specific: true, theme: "faza", overrides: ["foo"], } android_library { name: "bar", resource_dirs: ["bar/res"], } android_app { name: "baz", sdk_version: "current", resource_dirs: ["baz/res"], } ` config := testAppConfig(nil, bp, fs) ctx := testContext() run(t, ctx, config) m := ctx.ModuleForTests("foo", "android_common") // Check AAPT2 link flags. aapt2Flags := m.Output("package-res.apk").Args["flags"] expectedFlags := []string{"--keep-raw-values", "--no-resource-deduping", "--no-resource-removal"} absentFlags := android.RemoveListFromList(expectedFlags, strings.Split(aapt2Flags, " ")) if len(absentFlags) > 0 { t.Errorf("expected values, %q are missing in aapt2 link flags, %q", absentFlags, aapt2Flags) } // Check overlay.list output for static_libs dependency. overlayList := m.Output("aapt2/overlay.list").Inputs.Strings() staticLibPackage := buildDir + "/.intermediates/bar/android_common/package-res.apk" if !inList(staticLibPackage, overlayList) { t.Errorf("Stactic lib res package %q missing in overlay list: %q", staticLibPackage, overlayList) } // Check AAPT2 link flags for resource_libs dependency. resourceLibFlag := "-I " + buildDir + "/.intermediates/baz/android_common/package-res.apk" if !strings.Contains(aapt2Flags, resourceLibFlag) { t.Errorf("Resource lib flag %q missing in aapt2 link flags: %q", resourceLibFlag, aapt2Flags) } // Check cert signing flag. signedApk := m.Output("signed/foo.apk") lineageFlag := signedApk.Args["flags"] expectedLineageFlag := "--lineage lineage.bin" if expectedLineageFlag != lineageFlag { t.Errorf("Incorrect signing lineage flags, expected: %q, got: %q", expectedLineageFlag, lineageFlag) } signingFlag := signedApk.Args["certificates"] expected := "build/make/target/product/security/platform.x509.pem build/make/target/product/security/platform.pk8" if expected != signingFlag { t.Errorf("Incorrect signing flags, expected: %q, got: %q", expected, signingFlag) } androidMkEntries := android.AndroidMkEntriesForTest(t, config, "", m.Module())[0] path := androidMkEntries.EntryMap["LOCAL_CERTIFICATE"] expectedPath := []string{"build/make/target/product/security/platform.x509.pem"} if !reflect.DeepEqual(path, expectedPath) { t.Errorf("Unexpected LOCAL_CERTIFICATE value: %v, expected: %v", path, expectedPath) } // Check device location. path = androidMkEntries.EntryMap["LOCAL_MODULE_PATH"] expectedPath = []string{"/tmp/target/product/test_device/product/overlay"} if !reflect.DeepEqual(path, expectedPath) { t.Errorf("Unexpected LOCAL_MODULE_PATH value: %v, expected: %v", path, expectedPath) } // A themed module has a different device location m = ctx.ModuleForTests("foo_themed", "android_common") androidMkEntries = android.AndroidMkEntriesForTest(t, config, "", m.Module())[0] path = androidMkEntries.EntryMap["LOCAL_MODULE_PATH"] expectedPath = []string{"/tmp/target/product/test_device/product/overlay/faza"} if !reflect.DeepEqual(path, expectedPath) { t.Errorf("Unexpected LOCAL_MODULE_PATH value: %v, expected: %v", path, expectedPath) } overrides := androidMkEntries.EntryMap["LOCAL_OVERRIDES_PACKAGES"] expectedOverrides := []string{"foo"} if !reflect.DeepEqual(overrides, expectedOverrides) { t.Errorf("Unexpected LOCAL_OVERRIDES_PACKAGES value: %v, expected: %v", overrides, expectedOverrides) } } func TestOverrideRuntimeResourceOverlay(t *testing.T) { ctx, _ := testJava(t, ` runtime_resource_overlay { name: "foo_overlay", certificate: "platform", product_specific: true, sdk_version: "current", } override_runtime_resource_overlay { name: "bar_overlay", base: "foo_overlay", package_name: "com.android.bar.overlay", target_package_name: "com.android.bar", } `) expectedVariants := []struct { moduleName string variantName string apkPath string overrides []string targetVariant string packageFlag string targetPackageFlag string }{ { variantName: "android_common", apkPath: "/target/product/test_device/product/overlay/foo_overlay.apk", overrides: nil, targetVariant: "android_common", packageFlag: "", targetPackageFlag: "", }, { variantName: "android_common_bar_overlay", apkPath: "/target/product/test_device/product/overlay/bar_overlay.apk", overrides: []string{"foo_overlay"}, targetVariant: "android_common_bar", packageFlag: "com.android.bar.overlay", targetPackageFlag: "com.android.bar", }, } for _, expected := range expectedVariants { variant := ctx.ModuleForTests("foo_overlay", expected.variantName) // Check the final apk name outputs := variant.AllOutputs() expectedApkPath := buildDir + expected.apkPath found := false for _, o := range outputs { if o == expectedApkPath { found = true break } } if !found { t.Errorf("Can't find %q in output files.\nAll outputs:%v", expectedApkPath, outputs) } // Check if the overrides field values are correctly aggregated. mod := variant.Module().(*RuntimeResourceOverlay) if !reflect.DeepEqual(expected.overrides, mod.properties.Overrides) { t.Errorf("Incorrect overrides property value, expected: %q, got: %q", expected.overrides, mod.properties.Overrides) } // Check aapt2 flags. res := variant.Output("package-res.apk") aapt2Flags := res.Args["flags"] checkAapt2LinkFlag(t, aapt2Flags, "rename-manifest-package", expected.packageFlag) checkAapt2LinkFlag(t, aapt2Flags, "rename-overlay-target-package", expected.targetPackageFlag) } } func TestRuntimeResourceOverlay_JavaDefaults(t *testing.T) { ctx, config := testJava(t, ` java_defaults { name: "rro_defaults", theme: "default_theme", product_specific: true, aaptflags: ["--keep-raw-values"], } runtime_resource_overlay { name: "foo_with_defaults", defaults: ["rro_defaults"], } runtime_resource_overlay { name: "foo_barebones", } `) // // RRO module with defaults // m := ctx.ModuleForTests("foo_with_defaults", "android_common") // Check AAPT2 link flags. aapt2Flags := strings.Split(m.Output("package-res.apk").Args["flags"], " ") expectedFlags := []string{"--keep-raw-values", "--no-resource-deduping", "--no-resource-removal"} absentFlags := android.RemoveListFromList(expectedFlags, aapt2Flags) if len(absentFlags) > 0 { t.Errorf("expected values, %q are missing in aapt2 link flags, %q", absentFlags, aapt2Flags) } // Check device location. path := android.AndroidMkEntriesForTest(t, config, "", m.Module())[0].EntryMap["LOCAL_MODULE_PATH"] expectedPath := []string{"/tmp/target/product/test_device/product/overlay/default_theme"} if !reflect.DeepEqual(path, expectedPath) { t.Errorf("Unexpected LOCAL_MODULE_PATH value: %q, expected: %q", path, expectedPath) } // // RRO module without defaults // m = ctx.ModuleForTests("foo_barebones", "android_common") // Check AAPT2 link flags. aapt2Flags = strings.Split(m.Output("package-res.apk").Args["flags"], " ") unexpectedFlags := "--keep-raw-values" if inList(unexpectedFlags, aapt2Flags) { t.Errorf("unexpected value, %q is present in aapt2 link flags, %q", unexpectedFlags, aapt2Flags) } // Check device location. path = android.AndroidMkEntriesForTest(t, config, "", m.Module())[0].EntryMap["LOCAL_MODULE_PATH"] expectedPath = []string{"/tmp/target/product/test_device/system/overlay"} if !reflect.DeepEqual(path, expectedPath) { t.Errorf("Unexpected LOCAL_MODULE_PATH value: %v, expected: %v", path, expectedPath) } }