platform_build_soong/java/app_test.go
Ulyana Trafimovich 8fab5bcce3 Merge changes from topic "uses-libs-5"
* changes:
  Rewrite construct_context.sh in Python.
  Refactor class loader context generation.
2020-07-02 09:06:27 +00:00

3151 lines
82 KiB
Go

// 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]
actualMaster := mkEntries.EntryMap["LOCAL_APK_SET_MASTER_FILE"]
expectedMaster := []string{"foo.apk"}
if !reflect.DeepEqual(actualMaster, expectedMaster) {
t.Errorf("Unexpected LOCAL_APK_SET_MASTER_FILE value: '%s', expected: '%s',",
actualMaster, expectedMaster)
}
}
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",
}
ndk_prebuilt_object {
name: "ndk_crtbegin_so.29",
sdk_version: "29",
}
ndk_prebuilt_object {
name: "ndk_crtend_so.29",
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
for _, input := range inputs {
switch input.String() {
case "prebuilts/ndk/current/platforms/android-29/arch-arm64/usr/lib/crtbegin_so.o":
crtbeginFound = true
case "prebuilts/ndk/current/platforms/android-29/arch-arm64/usr/lib/crtend_so.o":
crtendFound = true
}
}
if !crtbeginFound || !crtendFound {
t.Error("should link with ndk_crtbegin_so.29 and ndk_crtend_so.29")
}
}
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 <NOTICE dir> 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)
}
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)
}
}