platform_build_soong/java/java_test.go

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// Copyright 2017 Google Inc. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package java
import (
Fix prebuilt_stubs_sources to work with no stubs sources The framework-sdkextension java_sdk_library module defines an API for public, system and module_lib API surfaces but the public API is empty. The empty public API results in an empty .srcjar being repackaged and merged into the sdkextension-sdk snapshot and results in no directory for the public API stubs sources being created. Unfortunately, the Android.bp file in the snapshot is created by Soong and it does not know that the public API will be empty and so it creates an Android.bp file that references the directory into which the stubs sources should be added but which ends up not existing in the snapshot. Referencing a non-existent directory causes a build failure. This change fixes that issue by using PathForModuleSrc with no path components to get the path to the module directory (which must exist) and then resolving the module relative local src directory against that. The local src directory is globbed to find all the files, which will return an empty set of paths if the directory does not exist. Finally, the file paths are passed as an rsp file to soong_zip to avoid exceeding any command line limits. Many other different approaches were considered: * Adding a property to the java_sdk_library to indicate that the public API was actually empty. That would require extra maintenance by developers and would require some extra checks to be performed after generating the stubs source to ensure that it was empty which would complicate the build process. * Creating a directory with some placeholder file (empty directories don't work well with git) that would force the creation of the directory. That file would most likely be created whether the API was empty or not, would need to be stored in git alongside the source and could be quite confusing to reviewers. Bug: 173508731 Test: m nothing - to run new tests Build sdkextension-sdk, unpack it and then build the .srcjar files for the public, system and module_lib API surfaces. Without this change the build failed, reporting that the stubs_sources directory for the public API did not exist. With this change the build succeeded. Checked the contents of the resulting .srcjar files and made sure that the public one was empty and the others contained the SdkExtensions.java class and a package-info.java file. Change-Id: Ia468a3f37349f2dbc21db67744bda6461498d515
2020-11-18 17:36:47 +01:00
"fmt"
"os"
"path/filepath"
"reflect"
"runtime"
"strconv"
"strings"
"testing"
"github.com/google/blueprint/proptools"
"android/soong/android"
"android/soong/cc"
"android/soong/dexpreopt"
"android/soong/genrule"
)
// Legacy preparer used for running tests within the java package.
//
// This includes everything that was needed to run any test in the java package prior to the
// introduction of the test fixtures. Tests that are being converted to use fixtures directly
// rather than through the testJava...() methods should avoid using this and instead use the
// various preparers directly, using android.GroupFixturePreparers(...) to group them when
// necessary.
//
// deprecated
var prepareForJavaTest = android.GroupFixturePreparers(
genrule.PrepareForTestWithGenRuleBuildComponents,
// Get the CC build components but not default modules.
cc.PrepareForTestWithCcBuildComponents,
// Include all the default java modules.
PrepareForTestWithJavaDefaultModules,
PrepareForTestWithOverlayBuildComponents,
android.FixtureRegisterWithContext(func(ctx android.RegistrationContext) {
ctx.RegisterPreSingletonType("sdk_versions", sdkPreSingletonFactory)
}),
PrepareForTestWithDexpreopt,
)
func TestMain(m *testing.M) {
os.Exit(m.Run())
}
// testJavaError is a legacy way of running tests of java modules that expect errors.
//
// See testJava for an explanation as to how to stop using this deprecated method.
//
// deprecated
func testJavaError(t *testing.T, pattern string, bp string) (*android.TestContext, android.Config) {
t.Helper()
result := android.GroupFixturePreparers(
prepareForJavaTest, dexpreopt.PrepareForTestByEnablingDexpreopt).
ExtendWithErrorHandler(android.FixtureExpectsAtLeastOneErrorMatchingPattern(pattern)).
RunTestWithBp(t, bp)
return result.TestContext, result.Config
}
// testJavaWithFS runs tests using the prepareForJavaTest
//
// See testJava for an explanation as to how to stop using this deprecated method.
//
// deprecated
func testJavaWithFS(t *testing.T, bp string, fs android.MockFS) (*android.TestContext, android.Config) {
t.Helper()
result := android.GroupFixturePreparers(
prepareForJavaTest, fs.AddToFixture()).RunTestWithBp(t, bp)
return result.TestContext, result.Config
}
// testJava runs tests using the prepareForJavaTest
//
// Do not add any new usages of this, instead use the prepareForJavaTest directly as it makes it
// much easier to customize the test behavior.
//
// If it is necessary to customize the behavior of an existing test that uses this then please first
// convert the test to using prepareForJavaTest first and then in a following change add the
// appropriate fixture preparers. Keeping the conversion change separate makes it easy to verify
// that it did not change the test behavior unexpectedly.
//
// deprecated
func testJava(t *testing.T, bp string) (*android.TestContext, android.Config) {
t.Helper()
result := prepareForJavaTest.RunTestWithBp(t, bp)
return result.TestContext, result.Config
}
// defaultModuleToPath constructs a path to the turbine generate jar for a default test module that
// is defined in PrepareForIntegrationTestWithJava
func defaultModuleToPath(name string) string {
switch {
case name == `""`:
return name
case strings.HasSuffix(name, ".jar"):
return name
default:
return filepath.Join("out", "soong", ".intermediates", defaultJavaDir, name, "android_common", "turbine-combined", name+".jar")
}
}
// Test that the PrepareForTestWithJavaDefaultModules provides all the files that it uses by
// running it in a fixture that requires all source files to exist.
func TestPrepareForTestWithJavaDefaultModules(t *testing.T) {
android.GroupFixturePreparers(
PrepareForTestWithJavaDefaultModules,
android.PrepareForTestDisallowNonExistentPaths,
).RunTest(t)
}
func TestJavaLinkType(t *testing.T) {
testJava(t, `
java_library {
name: "foo",
srcs: ["a.java"],
libs: ["bar"],
static_libs: ["baz"],
}
java_library {
name: "bar",
sdk_version: "current",
srcs: ["b.java"],
}
java_library {
name: "baz",
sdk_version: "system_current",
srcs: ["c.java"],
}
`)
testJavaError(t, "consider adjusting sdk_version: OR platform_apis:", `
java_library {
name: "foo",
srcs: ["a.java"],
libs: ["bar"],
sdk_version: "current",
static_libs: ["baz"],
}
java_library {
name: "bar",
sdk_version: "current",
srcs: ["b.java"],
}
java_library {
name: "baz",
sdk_version: "system_current",
srcs: ["c.java"],
}
`)
testJava(t, `
java_library {
name: "foo",
srcs: ["a.java"],
libs: ["bar"],
sdk_version: "system_current",
static_libs: ["baz"],
}
java_library {
name: "bar",
sdk_version: "current",
srcs: ["b.java"],
}
java_library {
name: "baz",
sdk_version: "system_current",
srcs: ["c.java"],
}
`)
testJavaError(t, "consider adjusting sdk_version: OR platform_apis:", `
java_library {
name: "foo",
srcs: ["a.java"],
libs: ["bar"],
sdk_version: "system_current",
static_libs: ["baz"],
}
java_library {
name: "bar",
sdk_version: "current",
srcs: ["b.java"],
}
java_library {
name: "baz",
srcs: ["c.java"],
}
`)
}
func TestSimple(t *testing.T) {
ctx, _ := testJava(t, `
java_library {
name: "foo",
srcs: ["a.java"],
libs: ["bar"],
static_libs: ["baz"],
}
java_library {
name: "bar",
srcs: ["b.java"],
}
java_library {
name: "baz",
srcs: ["c.java"],
}
`)
javac := ctx.ModuleForTests("foo", "android_common").Rule("javac")
combineJar := ctx.ModuleForTests("foo", "android_common").Description("for javac")
if len(javac.Inputs) != 1 || javac.Inputs[0].String() != "a.java" {
t.Errorf(`foo inputs %v != ["a.java"]`, javac.Inputs)
}
baz := ctx.ModuleForTests("baz", "android_common").Rule("javac").Output.String()
barTurbine := filepath.Join("out", "soong", ".intermediates", "bar", "android_common", "turbine-combined", "bar.jar")
bazTurbine := filepath.Join("out", "soong", ".intermediates", "baz", "android_common", "turbine-combined", "baz.jar")
android.AssertStringDoesContain(t, "foo classpath", javac.Args["classpath"], barTurbine)
android.AssertStringDoesContain(t, "foo classpath", javac.Args["classpath"], bazTurbine)
if len(combineJar.Inputs) != 2 || combineJar.Inputs[1].String() != baz {
t.Errorf("foo combineJar inputs %v does not contain %q", combineJar.Inputs, baz)
}
}
func TestExportedPlugins(t *testing.T) {
type Result struct {
library string
processors string
disableTurbine bool
}
var tests = []struct {
name string
extra string
results []Result
}{
{
name: "Exported plugin is not a direct plugin",
extra: `java_library { name: "exports", srcs: ["a.java"], exported_plugins: ["plugin"] }`,
results: []Result{{library: "exports", processors: "-proc:none"}},
},
{
name: "Exports plugin to dependee",
extra: `
java_library{name: "exports", exported_plugins: ["plugin"]}
java_library{name: "foo", srcs: ["a.java"], libs: ["exports"]}
java_library{name: "bar", srcs: ["a.java"], static_libs: ["exports"]}
`,
results: []Result{
{library: "foo", processors: "-processor com.android.TestPlugin"},
{library: "bar", processors: "-processor com.android.TestPlugin"},
},
},
{
name: "Exports plugin to android_library",
extra: `
java_library{name: "exports", exported_plugins: ["plugin"]}
android_library{name: "foo", srcs: ["a.java"], libs: ["exports"]}
android_library{name: "bar", srcs: ["a.java"], static_libs: ["exports"]}
`,
results: []Result{
{library: "foo", processors: "-processor com.android.TestPlugin"},
{library: "bar", processors: "-processor com.android.TestPlugin"},
},
},
{
name: "Exports plugin is not propagated via transitive deps",
extra: `
java_library{name: "exports", exported_plugins: ["plugin"]}
java_library{name: "foo", srcs: ["a.java"], libs: ["exports"]}
java_library{name: "bar", srcs: ["a.java"], static_libs: ["foo"]}
`,
results: []Result{
{library: "foo", processors: "-processor com.android.TestPlugin"},
{library: "bar", processors: "-proc:none"},
},
},
{
name: "Exports plugin appends to plugins",
extra: `
java_plugin{name: "plugin2", processor_class: "com.android.TestPlugin2"}
java_library{name: "exports", exported_plugins: ["plugin"]}
java_library{name: "foo", srcs: ["a.java"], libs: ["exports"], plugins: ["plugin2"]}
`,
results: []Result{
{library: "foo", processors: "-processor com.android.TestPlugin,com.android.TestPlugin2"},
},
},
{
name: "Exports plugin to with generates_api to dependee",
extra: `
java_library{name: "exports", exported_plugins: ["plugin_generates_api"]}
java_library{name: "foo", srcs: ["a.java"], libs: ["exports"]}
java_library{name: "bar", srcs: ["a.java"], static_libs: ["exports"]}
`,
results: []Result{
{library: "foo", processors: "-processor com.android.TestPlugin", disableTurbine: true},
{library: "bar", processors: "-processor com.android.TestPlugin", disableTurbine: true},
},
},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
ctx, _ := testJava(t, `
java_plugin {
name: "plugin",
processor_class: "com.android.TestPlugin",
}
java_plugin {
name: "plugin_generates_api",
generates_api: true,
processor_class: "com.android.TestPlugin",
}
`+test.extra)
for _, want := range test.results {
javac := ctx.ModuleForTests(want.library, "android_common").Rule("javac")
if javac.Args["processor"] != want.processors {
t.Errorf("For library %v, expected %v, found %v", want.library, want.processors, javac.Args["processor"])
}
turbine := ctx.ModuleForTests(want.library, "android_common").MaybeRule("turbine")
disableTurbine := turbine.BuildParams.Rule == nil
if disableTurbine != want.disableTurbine {
t.Errorf("For library %v, expected disableTurbine %v, found %v", want.library, want.disableTurbine, disableTurbine)
}
}
})
}
}
func TestSdkVersionByPartition(t *testing.T) {
testJavaError(t, "sdk_version must have a value when the module is located at vendor or product", `
java_library {
name: "foo",
srcs: ["a.java"],
vendor: true,
}
`)
testJava(t, `
java_library {
name: "bar",
srcs: ["b.java"],
}
`)
for _, enforce := range []bool{true, false} {
bp := `
java_library {
name: "foo",
srcs: ["a.java"],
product_specific: true,
}
`
errorHandler := android.FixtureExpectsNoErrors
if enforce {
errorHandler = android.FixtureExpectsAtLeastOneErrorMatchingPattern("sdk_version must have a value when the module is located at vendor or product")
}
android.GroupFixturePreparers(
PrepareForTestWithJavaDefaultModules,
android.FixtureModifyProductVariables(func(variables android.FixtureProductVariables) {
variables.EnforceProductPartitionInterface = proptools.BoolPtr(enforce)
}),
).
ExtendWithErrorHandler(errorHandler).
RunTestWithBp(t, bp)
}
}
func TestArchSpecific(t *testing.T) {
ctx, _ := testJava(t, `
java_library {
name: "foo",
srcs: ["a.java"],
target: {
android: {
srcs: ["b.java"],
},
},
}
`)
javac := ctx.ModuleForTests("foo", "android_common").Rule("javac")
if len(javac.Inputs) != 2 || javac.Inputs[0].String() != "a.java" || javac.Inputs[1].String() != "b.java" {
t.Errorf(`foo inputs %v != ["a.java", "b.java"]`, javac.Inputs)
}
}
func TestBinary(t *testing.T) {
ctx, _ := testJava(t, `
java_library_host {
name: "foo",
srcs: ["a.java"],
}
java_binary_host {
name: "bar",
srcs: ["b.java"],
static_libs: ["foo"],
jni_libs: ["libjni"],
}
cc_library_shared {
name: "libjni",
host_supported: true,
device_supported: false,
stl: "none",
}
`)
buildOS := ctx.Config().BuildOS.String()
bar := ctx.ModuleForTests("bar", buildOS+"_common")
barJar := bar.Output("bar.jar").Output.String()
barWrapper := ctx.ModuleForTests("bar", buildOS+"_x86_64")
barWrapperDeps := barWrapper.Output("bar").Implicits.Strings()
libjni := ctx.ModuleForTests("libjni", buildOS+"_x86_64_shared")
libjniSO := libjni.Rule("Cp").Output.String()
// Test that the install binary wrapper depends on the installed jar file
if g, w := barWrapperDeps, barJar; !android.InList(w, g) {
t.Errorf("expected binary wrapper implicits to contain %q, got %q", w, g)
}
// Test that the install binary wrapper depends on the installed JNI libraries
if g, w := barWrapperDeps, libjniSO; !android.InList(w, g) {
t.Errorf("expected binary wrapper implicits to contain %q, got %q", w, g)
}
}
func TestTest(t *testing.T) {
ctx, _ := testJava(t, `
java_test_host {
name: "foo",
srcs: ["a.java"],
jni_libs: ["libjni"],
}
cc_library_shared {
name: "libjni",
host_supported: true,
device_supported: false,
stl: "none",
}
`)
buildOS := ctx.Config().BuildOS.String()
foo := ctx.ModuleForTests("foo", buildOS+"_common").Module().(*TestHost)
expected := "lib64/libjni.so"
if runtime.GOOS == "darwin" {
expected = "lib64/libjni.dylib"
}
fooTestData := foo.data
if len(fooTestData) != 1 || fooTestData[0].Rel() != expected {
t.Errorf(`expected foo test data relative path [%q], got %q`,
expected, fooTestData.Strings())
}
}
func TestHostBinaryNoJavaDebugInfoOverride(t *testing.T) {
bp := `
java_library {
name: "target_library",
srcs: ["a.java"],
}
java_binary_host {
name: "host_binary",
srcs: ["b.java"],
}
`
result := android.GroupFixturePreparers(
PrepareForTestWithJavaDefaultModules,
android.FixtureModifyProductVariables(func(variables android.FixtureProductVariables) {
variables.MinimizeJavaDebugInfo = proptools.BoolPtr(true)
}),
).RunTestWithBp(t, bp)
// first, check that the -g flag is added to target modules
targetLibrary := result.ModuleForTests("target_library", "android_common")
targetJavaFlags := targetLibrary.Module().VariablesForTests()["javacFlags"]
if !strings.Contains(targetJavaFlags, "-g:source,lines") {
t.Errorf("target library javac flags %v should contain "+
"-g:source,lines override with MinimizeJavaDebugInfo", targetJavaFlags)
}
// check that -g is not overridden for host modules
buildOS := result.Config.BuildOS.String()
hostBinary := result.ModuleForTests("host_binary", buildOS+"_common")
hostJavaFlags := hostBinary.Module().VariablesForTests()["javacFlags"]
if strings.Contains(hostJavaFlags, "-g:source,lines") {
t.Errorf("java_binary_host javac flags %v should not have "+
"-g:source,lines override with MinimizeJavaDebugInfo", hostJavaFlags)
}
}
func TestPrebuilts(t *testing.T) {
ctx, _ := testJava(t, `
java_library {
name: "foo",
srcs: ["a.java", ":stubs-source"],
libs: ["bar", "sdklib"],
static_libs: ["baz"],
}
java_import {
name: "bar",
jars: ["a.jar"],
}
java_import {
name: "baz",
jars: ["b.jar"],
sdk_version: "current",
compile_dex: true,
}
dex_import {
name: "qux",
jars: ["b.jar"],
}
java_sdk_library_import {
name: "sdklib",
public: {
jars: ["c.jar"],
},
}
prebuilt_stubs_sources {
name: "stubs-source",
srcs: ["stubs/sources"],
}
java_test_import {
name: "test",
jars: ["a.jar"],
test_suites: ["cts"],
test_config: "AndroidTest.xml",
}
`)
fooModule := ctx.ModuleForTests("foo", "android_common")
javac := fooModule.Rule("javac")
combineJar := ctx.ModuleForTests("foo", "android_common").Description("for javac")
barModule := ctx.ModuleForTests("bar", "android_common")
barJar := barModule.Rule("combineJar").Output
bazModule := ctx.ModuleForTests("baz", "android_common")
bazJar := bazModule.Rule("combineJar").Output
sdklibStubsJar := ctx.ModuleForTests("sdklib.stubs", "android_common").Rule("combineJar").Output
fooLibrary := fooModule.Module().(*Library)
assertDeepEquals(t, "foo unique sources incorrect",
[]string{"a.java"}, fooLibrary.uniqueSrcFiles.Strings())
assertDeepEquals(t, "foo java source jars incorrect",
[]string{".intermediates/stubs-source/android_common/stubs-source-stubs.srcjar"},
android.NormalizePathsForTesting(fooLibrary.compiledSrcJars))
if !strings.Contains(javac.Args["classpath"], barJar.String()) {
t.Errorf("foo classpath %v does not contain %q", javac.Args["classpath"], barJar.String())
}
barDexJar := barModule.Module().(*Import).DexJarBuildPath()
if barDexJar.IsSet() {
t.Errorf("bar dex jar build path expected to be set, got %s", barDexJar)
}
if !strings.Contains(javac.Args["classpath"], sdklibStubsJar.String()) {
t.Errorf("foo classpath %v does not contain %q", javac.Args["classpath"], sdklibStubsJar.String())
}
if len(combineJar.Inputs) != 2 || combineJar.Inputs[1].String() != bazJar.String() {
t.Errorf("foo combineJar inputs %v does not contain %q", combineJar.Inputs, bazJar.String())
}
bazDexJar := bazModule.Module().(*Import).DexJarBuildPath().Path()
expectedDexJar := "out/soong/.intermediates/baz/android_common/dex/baz.jar"
android.AssertPathRelativeToTopEquals(t, "baz dex jar build path", expectedDexJar, bazDexJar)
ctx.ModuleForTests("qux", "android_common").Rule("Cp")
entries := android.AndroidMkEntriesForTest(t, ctx, fooModule.Module())[0]
android.AssertStringEquals(t, "unexpected LOCAL_SOONG_MODULE_TYPE", "java_library", entries.EntryMap["LOCAL_SOONG_MODULE_TYPE"][0])
entries = android.AndroidMkEntriesForTest(t, ctx, barModule.Module())[0]
android.AssertStringEquals(t, "unexpected LOCAL_SOONG_MODULE_TYPE", "java_import", entries.EntryMap["LOCAL_SOONG_MODULE_TYPE"][0])
entries = android.AndroidMkEntriesForTest(t, ctx, ctx.ModuleForTests("sdklib", "android_common").Module())[0]
android.AssertStringEquals(t, "unexpected LOCAL_SOONG_MODULE_TYPE", "java_sdk_library_import", entries.EntryMap["LOCAL_SOONG_MODULE_TYPE"][0])
}
func assertDeepEquals(t *testing.T, message string, expected interface{}, actual interface{}) {
if !reflect.DeepEqual(expected, actual) {
t.Errorf("%s: expected %q, found %q", message, expected, actual)
}
}
Fix prebuilt_stubs_sources to work with no stubs sources The framework-sdkextension java_sdk_library module defines an API for public, system and module_lib API surfaces but the public API is empty. The empty public API results in an empty .srcjar being repackaged and merged into the sdkextension-sdk snapshot and results in no directory for the public API stubs sources being created. Unfortunately, the Android.bp file in the snapshot is created by Soong and it does not know that the public API will be empty and so it creates an Android.bp file that references the directory into which the stubs sources should be added but which ends up not existing in the snapshot. Referencing a non-existent directory causes a build failure. This change fixes that issue by using PathForModuleSrc with no path components to get the path to the module directory (which must exist) and then resolving the module relative local src directory against that. The local src directory is globbed to find all the files, which will return an empty set of paths if the directory does not exist. Finally, the file paths are passed as an rsp file to soong_zip to avoid exceeding any command line limits. Many other different approaches were considered: * Adding a property to the java_sdk_library to indicate that the public API was actually empty. That would require extra maintenance by developers and would require some extra checks to be performed after generating the stubs source to ensure that it was empty which would complicate the build process. * Creating a directory with some placeholder file (empty directories don't work well with git) that would force the creation of the directory. That file would most likely be created whether the API was empty or not, would need to be stored in git alongside the source and could be quite confusing to reviewers. Bug: 173508731 Test: m nothing - to run new tests Build sdkextension-sdk, unpack it and then build the .srcjar files for the public, system and module_lib API surfaces. Without this change the build failed, reporting that the stubs_sources directory for the public API did not exist. With this change the build succeeded. Checked the contents of the resulting .srcjar files and made sure that the public one was empty and the others contained the SdkExtensions.java class and a package-info.java file. Change-Id: Ia468a3f37349f2dbc21db67744bda6461498d515
2020-11-18 17:36:47 +01:00
func TestPrebuiltStubsSources(t *testing.T) {
test := func(t *testing.T, sourcesPath string, expectedInputs []string) {
ctx, _ := testJavaWithFS(t, fmt.Sprintf(`
prebuilt_stubs_sources {
name: "stubs-source",
srcs: ["%s"],
}`, sourcesPath), map[string][]byte{
"stubs/sources/pkg/A.java": nil,
"stubs/sources/pkg/B.java": nil,
})
zipSrc := ctx.ModuleForTests("stubs-source", "android_common").Rule("zip_src")
if expected, actual := expectedInputs, zipSrc.Inputs.Strings(); !reflect.DeepEqual(expected, actual) {
t.Errorf("mismatch of inputs to soong_zip: expected %q, actual %q", expected, actual)
}
}
t.Run("empty/missing directory", func(t *testing.T) {
test(t, "empty-directory", nil)
Fix prebuilt_stubs_sources to work with no stubs sources The framework-sdkextension java_sdk_library module defines an API for public, system and module_lib API surfaces but the public API is empty. The empty public API results in an empty .srcjar being repackaged and merged into the sdkextension-sdk snapshot and results in no directory for the public API stubs sources being created. Unfortunately, the Android.bp file in the snapshot is created by Soong and it does not know that the public API will be empty and so it creates an Android.bp file that references the directory into which the stubs sources should be added but which ends up not existing in the snapshot. Referencing a non-existent directory causes a build failure. This change fixes that issue by using PathForModuleSrc with no path components to get the path to the module directory (which must exist) and then resolving the module relative local src directory against that. The local src directory is globbed to find all the files, which will return an empty set of paths if the directory does not exist. Finally, the file paths are passed as an rsp file to soong_zip to avoid exceeding any command line limits. Many other different approaches were considered: * Adding a property to the java_sdk_library to indicate that the public API was actually empty. That would require extra maintenance by developers and would require some extra checks to be performed after generating the stubs source to ensure that it was empty which would complicate the build process. * Creating a directory with some placeholder file (empty directories don't work well with git) that would force the creation of the directory. That file would most likely be created whether the API was empty or not, would need to be stored in git alongside the source and could be quite confusing to reviewers. Bug: 173508731 Test: m nothing - to run new tests Build sdkextension-sdk, unpack it and then build the .srcjar files for the public, system and module_lib API surfaces. Without this change the build failed, reporting that the stubs_sources directory for the public API did not exist. With this change the build succeeded. Checked the contents of the resulting .srcjar files and made sure that the public one was empty and the others contained the SdkExtensions.java class and a package-info.java file. Change-Id: Ia468a3f37349f2dbc21db67744bda6461498d515
2020-11-18 17:36:47 +01:00
})
t.Run("non-empty set of sources", func(t *testing.T) {
test(t, "stubs/sources", []string{
"stubs/sources/pkg/A.java",
"stubs/sources/pkg/B.java",
})
})
}
func TestDefaults(t *testing.T) {
ctx, _ := testJava(t, `
java_defaults {
name: "defaults",
srcs: ["a.java"],
libs: ["bar"],
static_libs: ["baz"],
optimize: {enabled: false},
}
java_library {
name: "foo",
defaults: ["defaults"],
}
java_library {
name: "bar",
srcs: ["b.java"],
}
java_library {
name: "baz",
srcs: ["c.java"],
}
android_test {
name: "atestOptimize",
defaults: ["defaults"],
optimize: {enabled: true},
}
android_test {
name: "atestNoOptimize",
defaults: ["defaults"],
}
android_test {
name: "atestDefault",
srcs: ["a.java"],
}
`)
javac := ctx.ModuleForTests("foo", "android_common").Rule("javac")
combineJar := ctx.ModuleForTests("foo", "android_common").Description("for javac")
if len(javac.Inputs) != 1 || javac.Inputs[0].String() != "a.java" {
t.Errorf(`foo inputs %v != ["a.java"]`, javac.Inputs)
}
barTurbine := filepath.Join("out", "soong", ".intermediates", "bar", "android_common", "turbine-combined", "bar.jar")
if !strings.Contains(javac.Args["classpath"], barTurbine) {
t.Errorf("foo classpath %v does not contain %q", javac.Args["classpath"], barTurbine)
}
baz := ctx.ModuleForTests("baz", "android_common").Rule("javac").Output.String()
if len(combineJar.Inputs) != 2 || combineJar.Inputs[1].String() != baz {
t.Errorf("foo combineJar inputs %v does not contain %q", combineJar.Inputs, baz)
}
atestOptimize := ctx.ModuleForTests("atestOptimize", "android_common").MaybeRule("r8")
if atestOptimize.Output == nil {
t.Errorf("atestOptimize should optimize APK")
}
atestNoOptimize := ctx.ModuleForTests("atestNoOptimize", "android_common").MaybeRule("d8")
if atestNoOptimize.Output == nil {
t.Errorf("atestNoOptimize should not optimize APK")
}
atestDefault := ctx.ModuleForTests("atestDefault", "android_common").MaybeRule("d8")
if atestDefault.Output == nil {
t.Errorf("atestDefault should not optimize APK")
}
}
func TestResources(t *testing.T) {
var table = []struct {
name string
prop string
extra string
args string
}{
{
// Test that a module with java_resource_dirs includes the files
name: "resource dirs",
prop: `java_resource_dirs: ["java-res"]`,
args: "-C java-res -f java-res/a/a -f java-res/b/b",
},
{
// Test that a module with java_resources includes the files
name: "resource files",
prop: `java_resources: ["java-res/a/a", "java-res/b/b"]`,
args: "-C . -f java-res/a/a -f java-res/b/b",
},
{
// Test that a module with a filegroup in java_resources includes the files with the
// path prefix
name: "resource filegroup",
prop: `java_resources: [":foo-res"]`,
extra: `
filegroup {
name: "foo-res",
path: "java-res",
srcs: ["java-res/a/a", "java-res/b/b"],
}`,
args: "-C java-res -f java-res/a/a -f java-res/b/b",
},
{
// Test that a module with wildcards in java_resource_dirs has the correct path prefixes
name: "wildcard dirs",
prop: `java_resource_dirs: ["java-res/*"]`,
args: "-C java-res/a -f java-res/a/a -C java-res/b -f java-res/b/b",
},
{
// Test that a module exclude_java_resource_dirs excludes the files
name: "wildcard dirs",
prop: `java_resource_dirs: ["java-res/*"], exclude_java_resource_dirs: ["java-res/b"]`,
args: "-C java-res/a -f java-res/a/a",
},
{
// Test wildcards in java_resources
name: "wildcard files",
prop: `java_resources: ["java-res/**/*"]`,
args: "-C . -f java-res/a/a -f java-res/b/b",
},
{
// Test exclude_java_resources with java_resources
name: "wildcard files with exclude",
prop: `java_resources: ["java-res/**/*"], exclude_java_resources: ["java-res/b/*"]`,
args: "-C . -f java-res/a/a",
},
{
// Test exclude_java_resources with java_resource_dirs
name: "resource dirs with exclude files",
prop: `java_resource_dirs: ["java-res"], exclude_java_resources: ["java-res/b/b"]`,
args: "-C java-res -f java-res/a/a",
},
{
// Test exclude_java_resource_dirs with java_resource_dirs
name: "resource dirs with exclude files",
prop: `java_resource_dirs: ["java-res", "java-res2"], exclude_java_resource_dirs: ["java-res2"]`,
args: "-C java-res -f java-res/a/a -f java-res/b/b",
},
}
for _, test := range table {
t.Run(test.name, func(t *testing.T) {
ctx, _ := testJavaWithFS(t, `
java_library {
name: "foo",
srcs: [
"a.java",
"b.java",
"c.java",
],
`+test.prop+`,
}
`+test.extra,
map[string][]byte{
"java-res/a/a": nil,
"java-res/b/b": nil,
"java-res2/a": nil,
},
)
foo := ctx.ModuleForTests("foo", "android_common").Output("withres/foo.jar")
fooRes := ctx.ModuleForTests("foo", "android_common").Output("res/foo.jar")
if !inList(fooRes.Output.String(), foo.Inputs.Strings()) {
t.Errorf("foo combined jars %v does not contain %q",
foo.Inputs.Strings(), fooRes.Output.String())
}
if fooRes.Args["jarArgs"] != test.args {
t.Errorf("foo resource jar args %q is not %q",
fooRes.Args["jarArgs"], test.args)
}
})
}
}
func TestIncludeSrcs(t *testing.T) {
ctx, _ := testJavaWithFS(t, `
java_library {
name: "foo",
srcs: [
"a.java",
"b.java",
"c.java",
],
include_srcs: true,
}
java_library {
name: "bar",
srcs: [
"a.java",
"b.java",
"c.java",
],
java_resource_dirs: ["java-res"],
include_srcs: true,
}
`, map[string][]byte{
"java-res/a/a": nil,
"java-res/b/b": nil,
"java-res2/a": nil,
})
// Test a library with include_srcs: true
foo := ctx.ModuleForTests("foo", "android_common").Output("withres/foo.jar")
fooSrcJar := ctx.ModuleForTests("foo", "android_common").Output("foo.srcjar")
if g, w := fooSrcJar.Output.String(), foo.Inputs.Strings(); !inList(g, w) {
t.Errorf("foo combined jars %v does not contain %q", w, g)
}
if g, w := fooSrcJar.Args["jarArgs"], "-C . -f a.java -f b.java -f c.java"; g != w {
t.Errorf("foo source jar args %q is not %q", w, g)
}
// Test a library with include_srcs: true and resources
bar := ctx.ModuleForTests("bar", "android_common").Output("withres/bar.jar")
barResCombined := ctx.ModuleForTests("bar", "android_common").Output("res-combined/bar.jar")
barRes := ctx.ModuleForTests("bar", "android_common").Output("res/bar.jar")
barSrcJar := ctx.ModuleForTests("bar", "android_common").Output("bar.srcjar")
if g, w := barSrcJar.Output.String(), barResCombined.Inputs.Strings(); !inList(g, w) {
t.Errorf("bar combined resource jars %v does not contain %q", w, g)
}
if g, w := barRes.Output.String(), barResCombined.Inputs.Strings(); !inList(g, w) {
t.Errorf("bar combined resource jars %v does not contain %q", w, g)
}
if g, w := barResCombined.Output.String(), bar.Inputs.Strings(); !inList(g, w) {
t.Errorf("bar combined jars %v does not contain %q", w, g)
}
if g, w := barSrcJar.Args["jarArgs"], "-C . -f a.java -f b.java -f c.java"; g != w {
t.Errorf("bar source jar args %q is not %q", w, g)
}
if g, w := barRes.Args["jarArgs"], "-C java-res -f java-res/a/a -f java-res/b/b"; g != w {
t.Errorf("bar resource jar args %q is not %q", w, g)
}
}
func TestGeneratedSources(t *testing.T) {
ctx, _ := testJavaWithFS(t, `
java_library {
name: "foo",
srcs: [
"a*.java",
":gen",
"b*.java",
],
}
genrule {
name: "gen",
tool_files: ["java-res/a"],
out: ["gen.java"],
}
`, map[string][]byte{
"a.java": nil,
"b.java": nil,
})
javac := ctx.ModuleForTests("foo", "android_common").Rule("javac")
genrule := ctx.ModuleForTests("gen", "").Rule("generator")
if filepath.Base(genrule.Output.String()) != "gen.java" {
t.Fatalf(`gen output file %v is not ".../gen.java"`, genrule.Output.String())
}
if len(javac.Inputs) != 3 ||
javac.Inputs[0].String() != "a.java" ||
javac.Inputs[1].String() != genrule.Output.String() ||
javac.Inputs[2].String() != "b.java" {
t.Errorf(`foo inputs %v != ["a.java", ".../gen.java", "b.java"]`, javac.Inputs)
}
}
func TestTurbine(t *testing.T) {
result := android.GroupFixturePreparers(
prepareForJavaTest, FixtureWithPrebuiltApis(map[string][]string{"14": {"foo"}})).
RunTestWithBp(t, `
java_library {
name: "foo",
srcs: ["a.java"],
sdk_version: "14",
}
java_library {
name: "bar",
srcs: ["b.java"],
static_libs: ["foo"],
sdk_version: "14",
}
java_library {
name: "baz",
srcs: ["c.java"],
libs: ["bar"],
sdk_version: "14",
}
`)
fooTurbine := result.ModuleForTests("foo", "android_common").Rule("turbine")
barTurbine := result.ModuleForTests("bar", "android_common").Rule("turbine")
barJavac := result.ModuleForTests("bar", "android_common").Rule("javac")
barTurbineCombined := result.ModuleForTests("bar", "android_common").Description("for turbine")
bazJavac := result.ModuleForTests("baz", "android_common").Rule("javac")
android.AssertPathsRelativeToTopEquals(t, "foo inputs", []string{"a.java"}, fooTurbine.Inputs)
fooHeaderJar := filepath.Join("out", "soong", ".intermediates", "foo", "android_common", "turbine-combined", "foo.jar")
barTurbineJar := filepath.Join("out", "soong", ".intermediates", "bar", "android_common", "turbine", "bar.jar")
android.AssertStringDoesContain(t, "bar turbine classpath", barTurbine.Args["turbineFlags"], fooHeaderJar)
android.AssertStringDoesContain(t, "bar javac classpath", barJavac.Args["classpath"], fooHeaderJar)
android.AssertPathsRelativeToTopEquals(t, "bar turbine combineJar", []string{barTurbineJar, fooHeaderJar}, barTurbineCombined.Inputs)
android.AssertStringDoesContain(t, "baz javac classpath", bazJavac.Args["classpath"], "prebuilts/sdk/14/public/android.jar")
}
func TestSharding(t *testing.T) {
ctx, _ := testJava(t, `
java_library {
name: "bar",
srcs: ["a.java","b.java","c.java"],
javac_shard_size: 1
}
`)
barHeaderJar := filepath.Join("out", "soong", ".intermediates", "bar", "android_common", "turbine", "bar.jar")
for i := 0; i < 3; i++ {
barJavac := ctx.ModuleForTests("bar", "android_common").Description("javac" + strconv.Itoa(i))
if !strings.HasPrefix(barJavac.Args["classpath"], "-classpath "+barHeaderJar+":") {
t.Errorf("bar javac classpath %v does start with %q", barJavac.Args["classpath"], barHeaderJar)
}
}
}
func TestExcludeFileGroupInSrcs(t *testing.T) {
ctx, _ := testJava(t, `
java_library {
name: "foo",
srcs: ["a.java", ":foo-srcs"],
exclude_srcs: ["a.java", ":foo-excludes"],
}
filegroup {
name: "foo-srcs",
srcs: ["java-fg/a.java", "java-fg/b.java", "java-fg/c.java"],
}
filegroup {
name: "foo-excludes",
srcs: ["java-fg/a.java", "java-fg/b.java"],
}
`)
javac := ctx.ModuleForTests("foo", "android_common").Rule("javac")
if len(javac.Inputs) != 1 || javac.Inputs[0].String() != "java-fg/c.java" {
t.Errorf(`foo inputs %v != ["java-fg/c.java"]`, javac.Inputs)
}
}
func TestJavaLibrary(t *testing.T) {
testJavaWithFS(t, "", map[string][]byte{
"libcore/Android.bp": []byte(`
java_library {
name: "core",
sdk_version: "none",
system_modules: "none",
}
filegroup {
name: "core-jar",
srcs: [":core{.jar}"],
}
`),
})
}
func TestJavaImport(t *testing.T) {
testJavaWithFS(t, "", map[string][]byte{
"libcore/Android.bp": []byte(`
java_import {
name: "core",
sdk_version: "none",
}
filegroup {
name: "core-jar",
srcs: [":core{.jar}"],
}
`),
})
}
var compilerFlagsTestCases = []struct {
in string
out bool
}{
{
in: "a",
out: false,
},
{
in: "-a",
out: true,
},
{
in: "-no-jdk",
out: false,
},
{
in: "-no-stdlib",
out: false,
},
{
in: "-kotlin-home",
out: false,
},
{
in: "-kotlin-home /some/path",
out: false,
},
{
in: "-include-runtime",
out: false,
},
{
in: "-Xintellij-plugin-root",
out: false,
},
}
type mockContext struct {
android.ModuleContext
result bool
}
func (ctx *mockContext) PropertyErrorf(property, format string, args ...interface{}) {
// CheckBadCompilerFlags calls this function when the flag should be rejected
ctx.result = false
}
func TestCompilerFlags(t *testing.T) {
for _, testCase := range compilerFlagsTestCases {
ctx := &mockContext{result: true}
CheckKotlincFlags(ctx, []string{testCase.in})
if ctx.result != testCase.out {
t.Errorf("incorrect output:")
t.Errorf(" input: %#v", testCase.in)
t.Errorf(" expected: %#v", testCase.out)
t.Errorf(" got: %#v", ctx.result)
}
}
}
// TODO(jungjw): Consider making this more robust by ignoring path order.
func checkPatchModuleFlag(t *testing.T, ctx *android.TestContext, moduleName string, expected string) {
variables := ctx.ModuleForTests(moduleName, "android_common").VariablesForTestsRelativeToTop()
flags := strings.Split(variables["javacFlags"], " ")
got := ""
for _, flag := range flags {
keyEnd := strings.Index(flag, "=")
if keyEnd > -1 && flag[:keyEnd] == "--patch-module" {
got = flag[keyEnd+1:]
break
}
}
if expected != android.StringPathRelativeToTop(ctx.Config().SoongOutDir(), got) {
t.Errorf("Unexpected patch-module flag for module %q - expected %q, but got %q", moduleName, expected, got)
}
}
func TestPatchModule(t *testing.T) {
t.Run("Java language level 8", func(t *testing.T) {
// Test with legacy javac -source 1.8 -target 1.8
bp := `
java_library {
name: "foo",
srcs: ["a.java"],
java_version: "1.8",
}
java_library {
name: "bar",
srcs: ["b.java"],
sdk_version: "none",
system_modules: "none",
patch_module: "java.base",
java_version: "1.8",
}
java_library {
name: "baz",
srcs: ["c.java"],
patch_module: "java.base",
java_version: "1.8",
}
`
ctx, _ := testJava(t, bp)
checkPatchModuleFlag(t, ctx, "foo", "")
checkPatchModuleFlag(t, ctx, "bar", "")
checkPatchModuleFlag(t, ctx, "baz", "")
})
t.Run("Java language level 9", func(t *testing.T) {
// Test with default javac -source 9 -target 9
bp := `
java_library {
name: "foo",
srcs: ["a.java"],
}
java_library {
name: "bar",
srcs: ["b.java"],
sdk_version: "none",
system_modules: "none",
patch_module: "java.base",
}
java_library {
name: "baz",
srcs: [
"c.java",
// Tests for b/150878007
"dir/d.java",
"dir2/e.java",
"dir2/f.java",
"nested/dir/g.java"
],
patch_module: "java.base",
}
`
ctx, _ := testJava(t, bp)
checkPatchModuleFlag(t, ctx, "foo", "")
expected := "java.base=.:out/soong"
checkPatchModuleFlag(t, ctx, "bar", expected)
expected = "java.base=" + strings.Join([]string{
".", "out/soong", "dir", "dir2", "nested", defaultModuleToPath("ext"), defaultModuleToPath("framework")}, ":")
checkPatchModuleFlag(t, ctx, "baz", expected)
})
}
func TestJavaLibraryWithSystemModules(t *testing.T) {
ctx, _ := testJava(t, `
java_library {
name: "lib-with-source-system-modules",
srcs: [
"a.java",
],
sdk_version: "none",
system_modules: "source-system-modules",
}
java_library {
name: "source-jar",
srcs: [
"a.java",
],
}
java_system_modules {
name: "source-system-modules",
libs: ["source-jar"],
}
java_library {
name: "lib-with-prebuilt-system-modules",
srcs: [
"a.java",
],
sdk_version: "none",
system_modules: "prebuilt-system-modules",
}
java_import {
name: "prebuilt-jar",
jars: ["a.jar"],
}
java_system_modules_import {
name: "prebuilt-system-modules",
libs: ["prebuilt-jar"],
}
`)
checkBootClasspathForSystemModule(t, ctx, "lib-with-source-system-modules", "/source-jar.jar")
checkBootClasspathForSystemModule(t, ctx, "lib-with-prebuilt-system-modules", "/prebuilt-jar.jar")
}
func checkBootClasspathForSystemModule(t *testing.T, ctx *android.TestContext, moduleName string, expectedSuffix string) {
javacRule := ctx.ModuleForTests(moduleName, "android_common").Rule("javac")
bootClasspath := javacRule.Args["bootClasspath"]
if strings.HasPrefix(bootClasspath, "--system ") && strings.HasSuffix(bootClasspath, expectedSuffix) {
t.Errorf("bootclasspath of %q must start with --system and end with %q, but was %#v.", moduleName, expectedSuffix, bootClasspath)
}
}
func TestAidlExportIncludeDirsFromImports(t *testing.T) {
ctx, _ := testJava(t, `
java_library {
name: "foo",
srcs: ["aidl/foo/IFoo.aidl"],
libs: ["bar"],
}
java_import {
name: "bar",
jars: ["a.jar"],
aidl: {
export_include_dirs: ["aidl/bar"],
},
}
`)
aidlCommand := ctx.ModuleForTests("foo", "android_common").Rule("aidl").RuleParams.Command
expectedAidlFlag := "-Iaidl/bar"
if !strings.Contains(aidlCommand, expectedAidlFlag) {
t.Errorf("aidl command %q does not contain %q", aidlCommand, expectedAidlFlag)
}
}
func TestAidlIncludeDirFromConvertedFileGroupWithPathPropInMixedBuilds(t *testing.T) {
// TODO(b/247782695), TODO(b/242847534) Fix mixed builds for filegroups
t.Skip("Re-enable once filegroups are corrected for mixed builds")
bp := `
filegroup {
name: "foo_aidl",
srcs: ["aidl/foo/IFoo.aidl"],
path: "aidl/foo",
bazel_module: { label: "//:foo_aidl" },
}
java_library {
name: "foo",
srcs: [":foo_aidl"],
}
`
outBaseDir := "out/bazel/output"
result := android.GroupFixturePreparers(
prepareForJavaTest,
android.PrepareForTestWithFilegroup,
android.FixtureModifyConfig(func(config android.Config) {
config.BazelContext = android.MockBazelContext{
OutputBaseDir: outBaseDir,
LabelToOutputFiles: map[string][]string{
"//:foo_aidl": []string{"aidl/foo/IFoo.aidl"},
},
}
}),
).RunTestWithBp(t, bp)
aidlCommand := result.ModuleForTests("foo", "android_common").Rule("aidl").RuleParams.Command
expectedAidlFlag := "-I" + outBaseDir + "/execroot/__main__/aidl/foo"
if !strings.Contains(aidlCommand, expectedAidlFlag) {
t.Errorf("aidl command %q does not contain %q", aidlCommand, expectedAidlFlag)
}
}
func TestAidlFlagsArePassedToTheAidlCompiler(t *testing.T) {
ctx, _ := testJava(t, `
java_library {
name: "foo",
srcs: ["aidl/foo/IFoo.aidl"],
aidl: { flags: ["-Werror"], },
}
`)
aidlCommand := ctx.ModuleForTests("foo", "android_common").Rule("aidl").RuleParams.Command
expectedAidlFlag := "-Werror"
if !strings.Contains(aidlCommand, expectedAidlFlag) {
t.Errorf("aidl command %q does not contain %q", aidlCommand, expectedAidlFlag)
}
}
func TestAidlFlagsWithMinSdkVersion(t *testing.T) {
fixture := android.GroupFixturePreparers(
prepareForJavaTest, FixtureWithPrebuiltApis(map[string][]string{"14": {"foo"}}))
for _, tc := range []struct {
name string
sdkVersion string
expected string
}{
{"default is current", "", "current"},
{"use sdk_version", `sdk_version: "14"`, "14"},
{"system_current", `sdk_version: "system_current"`, "current"},
} {
t.Run(tc.name, func(t *testing.T) {
ctx := fixture.RunTestWithBp(t, `
java_library {
name: "foo",
srcs: ["aidl/foo/IFoo.aidl"],
`+tc.sdkVersion+`
}
`)
aidlCommand := ctx.ModuleForTests("foo", "android_common").Rule("aidl").RuleParams.Command
expectedAidlFlag := "--min_sdk_version=" + tc.expected
if !strings.Contains(aidlCommand, expectedAidlFlag) {
t.Errorf("aidl command %q does not contain %q", aidlCommand, expectedAidlFlag)
}
})
}
}
func TestAidlFlagsMinSdkVersionDroidstubs(t *testing.T) {
bpTemplate := `
droidstubs {
name: "foo-stubs",
srcs: ["foo.aidl"],
%s
system_modules: "none",
}
`
testCases := []struct {
desc string
sdkVersionBp string
minSdkVersionExpected string
}{
{
desc: "sdk_version not set, module compiles against private platform APIs",
sdkVersionBp: ``,
minSdkVersionExpected: "10000",
},
{
desc: "sdk_version set to none, module does not build against an SDK",
sdkVersionBp: `sdk_version: "none",`,
minSdkVersionExpected: "10000",
},
}
for _, tc := range testCases {
ctx := prepareForJavaTest.RunTestWithBp(t, fmt.Sprintf(bpTemplate, tc.sdkVersionBp))
aidlCmd := ctx.ModuleForTests("foo-stubs", "android_common").Rule("aidl").RuleParams.Command
expected := "--min_sdk_version=" + tc.minSdkVersionExpected
android.AssertStringDoesContain(t, "aidl command conatins incorrect min_sdk_version for testCse: "+tc.desc, aidlCmd, expected)
}
}
func TestAidlEnforcePermissions(t *testing.T) {
ctx, _ := testJava(t, `
java_library {
name: "foo",
srcs: ["aidl/foo/IFoo.aidl"],
aidl: { enforce_permissions: true },
}
`)
aidlCommand := ctx.ModuleForTests("foo", "android_common").Rule("aidl").RuleParams.Command
expectedAidlFlag := "-Wmissing-permission-annotation -Werror"
if !strings.Contains(aidlCommand, expectedAidlFlag) {
t.Errorf("aidl command %q does not contain %q", aidlCommand, expectedAidlFlag)
}
}
func TestAidlEnforcePermissionsException(t *testing.T) {
ctx, _ := testJava(t, `
java_library {
name: "foo",
srcs: ["aidl/foo/IFoo.aidl", "aidl/foo/IFoo2.aidl"],
aidl: { enforce_permissions: true, enforce_permissions_exceptions: ["aidl/foo/IFoo2.aidl"] },
}
`)
aidlCommand := ctx.ModuleForTests("foo", "android_common").Rule("aidl").RuleParams.Command
expectedAidlFlag := "$$FLAGS -Wmissing-permission-annotation -Werror aidl/foo/IFoo.aidl"
if !strings.Contains(aidlCommand, expectedAidlFlag) {
t.Errorf("aidl command %q does not contain %q", aidlCommand, expectedAidlFlag)
}
expectedAidlFlag = "$$FLAGS aidl/foo/IFoo2.aidl"
if !strings.Contains(aidlCommand, expectedAidlFlag) {
t.Errorf("aidl command %q does not contain %q", aidlCommand, expectedAidlFlag)
}
}
func TestDataNativeBinaries(t *testing.T) {
ctx := android.GroupFixturePreparers(
prepareForJavaTest,
android.PrepareForTestWithAllowMissingDependencies).RunTestWithBp(t, `
java_test_host {
name: "foo",
srcs: ["a.java"],
data_native_bins: ["bin"]
}
cc_binary_host {
name: "bin",
srcs: ["bin.cpp"],
}
`).TestContext
buildOS := ctx.Config().BuildOS.String()
test := ctx.ModuleForTests("foo", buildOS+"_common").Module().(*TestHost)
entries := android.AndroidMkEntriesForTest(t, ctx, test)[0]
expected := []string{"out/soong/.intermediates/bin/" + buildOS + "_x86_64/bin:bin"}
actual := entries.EntryMap["LOCAL_COMPATIBILITY_SUPPORT_FILES"]
android.AssertStringPathsRelativeToTopEquals(t, "LOCAL_COMPATIBILITY_SUPPORT_FILES", ctx.Config(), expected, actual)
}
func TestDefaultInstallable(t *testing.T) {
ctx, _ := testJava(t, `
java_test_host {
name: "foo"
}
`)
buildOS := ctx.Config().BuildOS.String()
module := ctx.ModuleForTests("foo", buildOS+"_common").Module().(*TestHost)
assertDeepEquals(t, "Default installable value should be true.", proptools.BoolPtr(true),
module.properties.Installable)
}
func TestErrorproneEnabled(t *testing.T) {
ctx, _ := testJava(t, `
java_library {
name: "foo",
srcs: ["a.java"],
errorprone: {
enabled: true,
},
}
`)
javac := ctx.ModuleForTests("foo", "android_common").Description("javac")
// Test that the errorprone plugins are passed to javac
expectedSubstring := "-Xplugin:ErrorProne"
if !strings.Contains(javac.Args["javacFlags"], expectedSubstring) {
t.Errorf("expected javacFlags to contain %q, got %q", expectedSubstring, javac.Args["javacFlags"])
}
// Modules with errorprone { enabled: true } will include errorprone checks
// in the main javac build rule. Only when RUN_ERROR_PRONE is true will
// the explicit errorprone build rule be created.
errorprone := ctx.ModuleForTests("foo", "android_common").MaybeDescription("errorprone")
if errorprone.RuleParams.Description != "" {
t.Errorf("expected errorprone build rule to not exist, but it did")
}
}
func TestErrorproneDisabled(t *testing.T) {
bp := `
java_library {
name: "foo",
srcs: ["a.java"],
errorprone: {
enabled: false,
},
}
`
ctx := android.GroupFixturePreparers(
PrepareForTestWithJavaDefaultModules,
android.FixtureMergeEnv(map[string]string{
"RUN_ERROR_PRONE": "true",
}),
).RunTestWithBp(t, bp)
javac := ctx.ModuleForTests("foo", "android_common").Description("javac")
// Test that the errorprone plugins are not passed to javac, like they would
// be if enabled was true.
expectedSubstring := "-Xplugin:ErrorProne"
if strings.Contains(javac.Args["javacFlags"], expectedSubstring) {
t.Errorf("expected javacFlags to not contain %q, got %q", expectedSubstring, javac.Args["javacFlags"])
}
// Check that no errorprone build rule is created, like there would be
// if enabled was unset and RUN_ERROR_PRONE was true.
errorprone := ctx.ModuleForTests("foo", "android_common").MaybeDescription("errorprone")
if errorprone.RuleParams.Description != "" {
t.Errorf("expected errorprone build rule to not exist, but it did")
}
}
func TestErrorproneEnabledOnlyByEnvironmentVariable(t *testing.T) {
bp := `
java_library {
name: "foo",
srcs: ["a.java"],
}
`
ctx := android.GroupFixturePreparers(
PrepareForTestWithJavaDefaultModules,
android.FixtureMergeEnv(map[string]string{
"RUN_ERROR_PRONE": "true",
}),
).RunTestWithBp(t, bp)
javac := ctx.ModuleForTests("foo", "android_common").Description("javac")
errorprone := ctx.ModuleForTests("foo", "android_common").Description("errorprone")
// Check that the errorprone plugins are not passed to javac, because they
// will instead be passed to the separate errorprone compilation
expectedSubstring := "-Xplugin:ErrorProne"
if strings.Contains(javac.Args["javacFlags"], expectedSubstring) {
t.Errorf("expected javacFlags to not contain %q, got %q", expectedSubstring, javac.Args["javacFlags"])
}
// Check that the errorprone plugin is enabled
if !strings.Contains(errorprone.Args["javacFlags"], expectedSubstring) {
t.Errorf("expected errorprone to contain %q, got %q", expectedSubstring, javac.Args["javacFlags"])
}
}
func TestDataDeviceBinsBuildsDeviceBinary(t *testing.T) {
testCases := []struct {
dataDeviceBinType string
depCompileMultilib string
variants []string
expectedError string
}{
{
dataDeviceBinType: "first",
depCompileMultilib: "first",
variants: []string{"android_arm64_armv8-a"},
},
{
dataDeviceBinType: "first",
depCompileMultilib: "both",
variants: []string{"android_arm64_armv8-a"},
},
{
// this is true because our testing framework is set up with
// Targets ~ [<64bit target>, <32bit target>], where 64bit is "first"
dataDeviceBinType: "first",
depCompileMultilib: "32",
expectedError: `Android.bp:2:3: dependency "bar" of "foo" missing variant`,
},
{
dataDeviceBinType: "first",
depCompileMultilib: "64",
variants: []string{"android_arm64_armv8-a"},
},
{
dataDeviceBinType: "both",
depCompileMultilib: "both",
variants: []string{
"android_arm_armv7-a-neon",
"android_arm64_armv8-a",
},
},
{
dataDeviceBinType: "both",
depCompileMultilib: "32",
expectedError: `Android.bp:2:3: dependency "bar" of "foo" missing variant`,
},
{
dataDeviceBinType: "both",
depCompileMultilib: "64",
expectedError: `Android.bp:2:3: dependency "bar" of "foo" missing variant`,
},
{
dataDeviceBinType: "both",
depCompileMultilib: "first",
expectedError: `Android.bp:2:3: dependency "bar" of "foo" missing variant`,
},
{
dataDeviceBinType: "32",
depCompileMultilib: "32",
variants: []string{"android_arm_armv7-a-neon"},
},
{
dataDeviceBinType: "32",
depCompileMultilib: "first",
expectedError: `Android.bp:2:3: dependency "bar" of "foo" missing variant`,
},
{
dataDeviceBinType: "32",
depCompileMultilib: "both",
variants: []string{"android_arm_armv7-a-neon"},
},
{
dataDeviceBinType: "32",
depCompileMultilib: "64",
expectedError: `Android.bp:2:3: dependency "bar" of "foo" missing variant`,
},
{
dataDeviceBinType: "64",
depCompileMultilib: "64",
variants: []string{"android_arm64_armv8-a"},
},
{
dataDeviceBinType: "64",
depCompileMultilib: "both",
variants: []string{"android_arm64_armv8-a"},
},
{
dataDeviceBinType: "64",
depCompileMultilib: "first",
variants: []string{"android_arm64_armv8-a"},
},
{
dataDeviceBinType: "64",
depCompileMultilib: "32",
expectedError: `Android.bp:2:3: dependency "bar" of "foo" missing variant`,
},
{
dataDeviceBinType: "prefer32",
depCompileMultilib: "32",
variants: []string{"android_arm_armv7-a-neon"},
},
{
dataDeviceBinType: "prefer32",
depCompileMultilib: "both",
variants: []string{"android_arm_armv7-a-neon"},
},
{
dataDeviceBinType: "prefer32",
depCompileMultilib: "first",
expectedError: `Android.bp:2:3: dependency "bar" of "foo" missing variant`,
},
{
dataDeviceBinType: "prefer32",
depCompileMultilib: "64",
expectedError: `Android.bp:2:3: dependency "bar" of "foo" missing variant`,
},
}
bpTemplate := `
java_test_host {
name: "foo",
srcs: ["test.java"],
data_device_bins_%s: ["bar"],
}
cc_binary {
name: "bar",
compile_multilib: "%s",
}
`
for _, tc := range testCases {
bp := fmt.Sprintf(bpTemplate, tc.dataDeviceBinType, tc.depCompileMultilib)
errorHandler := android.FixtureExpectsNoErrors
if tc.expectedError != "" {
errorHandler = android.FixtureExpectsAtLeastOneErrorMatchingPattern(tc.expectedError)
}
testName := fmt.Sprintf(`data_device_bins_%s with compile_multilib:"%s"`, tc.dataDeviceBinType, tc.depCompileMultilib)
t.Run(testName, func(t *testing.T) {
ctx := android.GroupFixturePreparers(PrepareForIntegrationTestWithJava).
ExtendWithErrorHandler(errorHandler).
RunTestWithBp(t, bp)
if tc.expectedError != "" {
return
}
buildOS := ctx.Config.BuildOS.String()
fooVariant := ctx.ModuleForTests("foo", buildOS+"_common")
fooMod := fooVariant.Module().(*TestHost)
entries := android.AndroidMkEntriesForTest(t, ctx.TestContext, fooMod)[0]
expectedAutogenConfig := `<option name="push-file" key="bar" value="/data/local/tests/unrestricted/foo/bar" />`
autogen := fooVariant.Rule("autogen")
if !strings.Contains(autogen.Args["extraConfigs"], expectedAutogenConfig) {
t.Errorf("foo extraConfigs %v does not contain %q", autogen.Args["extraConfigs"], expectedAutogenConfig)
}
expectedData := []string{}
for _, variant := range tc.variants {
barVariant := ctx.ModuleForTests("bar", variant)
relocated := barVariant.Output("bar")
expectedInput := fmt.Sprintf("out/soong/.intermediates/bar/%s/unstripped/bar", variant)
android.AssertPathRelativeToTopEquals(t, "relocation input", expectedInput, relocated.Input)
expectedData = append(expectedData, fmt.Sprintf("out/soong/.intermediates/bar/%s/bar:bar", variant))
}
actualData := entries.EntryMap["LOCAL_COMPATIBILITY_SUPPORT_FILES"]
android.AssertStringPathsRelativeToTopEquals(t, "LOCAL_TEST_DATA", ctx.Config, expectedData, actualData)
})
}
}
func TestImportMixedBuild(t *testing.T) {
bp := `
java_import {
name: "baz",
jars: [
"test1.jar",
"test2.jar",
],
bazel_module: { label: "//foo/bar:baz" },
}
`
ctx := android.GroupFixturePreparers(
prepareForJavaTest,
android.FixtureModifyConfig(func(config android.Config) {
config.BazelContext = android.MockBazelContext{
OutputBaseDir: "outputbase",
LabelToOutputFiles: map[string][]string{
"//foo/bar:baz": []string{"test1.jar", "test2.jar"},
},
}
}),
).RunTestWithBp(t, bp)
bazMod := ctx.ModuleForTests("baz", "android_common").Module()
producer := bazMod.(android.OutputFileProducer)
expectedOutputFiles := []string{".intermediates/baz/android_common/bazelCombined/baz.jar"}
outputFiles, err := producer.OutputFiles("")
if err != nil {
t.Errorf("Unexpected error getting java_import outputfiles %s", err)
}
actualOutputFiles := android.NormalizePathsForTesting(outputFiles)
android.AssertDeepEquals(t, "Output files are produced", expectedOutputFiles, actualOutputFiles)
javaInfoProvider := ctx.ModuleProvider(bazMod, JavaInfoProvider)
javaInfo, ok := javaInfoProvider.(JavaInfo)
if !ok {
t.Error("could not get JavaInfo from java_import module")
}
android.AssertDeepEquals(t, "Header JARs are produced", expectedOutputFiles, android.NormalizePathsForTesting(javaInfo.HeaderJars))
android.AssertDeepEquals(t, "Implementation/Resources JARs are produced", expectedOutputFiles, android.NormalizePathsForTesting(javaInfo.ImplementationAndResourcesJars))
android.AssertDeepEquals(t, "Implementation JARs are produced", expectedOutputFiles, android.NormalizePathsForTesting(javaInfo.ImplementationJars))
}
func TestGenAidlIncludeFlagsForMixedBuilds(t *testing.T) {
bazelOutputBaseDir := filepath.Join("out", "bazel")
result := android.GroupFixturePreparers(
PrepareForIntegrationTestWithJava,
android.FixtureModifyConfig(func(config android.Config) {
config.BazelContext = android.MockBazelContext{
OutputBaseDir: bazelOutputBaseDir,
}
}),
).RunTest(t)
ctx := &android.TestPathContext{TestResult: result}
srcDirectory := filepath.Join("frameworks", "base")
srcDirectoryAlreadyIncluded := filepath.Join("frameworks", "base", "core", "java")
bazelSrcDirectory := android.PathForBazelOut(ctx, srcDirectory)
bazelSrcDirectoryAlreadyIncluded := android.PathForBazelOut(ctx, srcDirectoryAlreadyIncluded)
srcs := android.Paths{
android.PathForTestingWithRel(bazelSrcDirectory.String(), "bazelAidl.aidl"),
android.PathForTestingWithRel(bazelSrcDirectory.String(), "bazelAidl2.aidl"),
android.PathForTestingWithRel(bazelSrcDirectoryAlreadyIncluded.String(), "bazelAidlExclude.aidl"),
android.PathForTestingWithRel(bazelSrcDirectoryAlreadyIncluded.String(), "bazelAidl2Exclude.aidl"),
}
dirsAlreadyIncluded := android.Paths{
android.PathForTesting(srcDirectoryAlreadyIncluded),
}
expectedFlags := " -Iout/bazel/execroot/__main__/frameworks/base"
flags := genAidlIncludeFlags(ctx, srcs, dirsAlreadyIncluded)
if flags != expectedFlags {
t.Errorf("expected flags to be %q; was %q", expectedFlags, flags)
}
}
func TestDeviceBinaryWrapperGeneration(t *testing.T) {
// Scenario 1: java_binary has main_class property in its bp
ctx, _ := testJava(t, `
java_binary {
name: "foo",
srcs: ["foo.java"],
main_class: "foo.bar.jb",
}
`)
wrapperPath := fmt.Sprint(ctx.ModuleForTests("foo", "android_arm64_armv8-a").AllOutputs())
if !strings.Contains(wrapperPath, "foo.sh") {
t.Errorf("wrapper file foo.sh is not generated")
}
// Scenario 2: java_binary has neither wrapper nor main_class, its build
// is expected to be failed.
testJavaError(t, "main_class property is required for device binary if no default wrapper is assigned", `
java_binary {
name: "foo",
srcs: ["foo.java"],
}`)
}
func TestJavaApiContributionEmptyApiFile(t *testing.T) {
testJavaError(t,
"Error: foo has an empty api file.",
`java_api_contribution {
name: "foo",
}
java_api_library {
name: "bar",
api_surface: "public",
api_contributions: ["foo"],
}
`)
}
func TestJavaApiLibraryAndProviderLink(t *testing.T) {
provider_bp_a := `
java_api_contribution {
name: "foo1",
api_file: "foo1.txt",
}
`
provider_bp_b := `java_api_contribution {
name: "foo2",
api_file: "foo2.txt",
}
`
ctx, _ := testJavaWithFS(t, `
java_api_library {
name: "bar1",
api_surface: "public",
api_contributions: ["foo1"],
}
java_api_library {
name: "bar2",
api_surface: "system",
api_contributions: ["foo1", "foo2"],
api_files: ["api1/current.txt", "api2/current.txt"]
}
`,
map[string][]byte{
"a/Android.bp": []byte(provider_bp_a),
"b/Android.bp": []byte(provider_bp_b),
})
testcases := []struct {
moduleName string
sourceTextFileDirs []string
}{
{
moduleName: "bar1",
sourceTextFileDirs: []string{"a/foo1.txt"},
},
{
moduleName: "bar2",
sourceTextFileDirs: []string{"a/foo1.txt", "b/foo2.txt", "api1/current.txt", "api2/current.txt"},
},
}
for _, c := range testcases {
m := ctx.ModuleForTests(c.moduleName, "android_common")
manifest := m.Output("metalava.sbox.textproto")
sboxProto := android.RuleBuilderSboxProtoForTests(t, manifest)
manifestCommand := sboxProto.Commands[0].GetCommand()
sourceFilesFlag := "--source-files " + strings.Join(c.sourceTextFileDirs, " ")
android.AssertStringDoesContain(t, "source text files not present", manifestCommand, sourceFilesFlag)
}
}
func TestJavaApiLibraryAndDefaultsLink(t *testing.T) {
provider_bp_a := `
java_api_contribution {
name: "foo1",
api_file: "foo1.txt",
}
`
provider_bp_b := `
java_api_contribution {
name: "foo2",
api_file: "foo2.txt",
}
`
provider_bp_c := `
java_api_contribution {
name: "foo3",
api_file: "foo3.txt",
}
`
provider_bp_d := `
java_api_contribution {
name: "foo4",
api_file: "foo4.txt",
}
`
ctx, _ := testJavaWithFS(t, `
java_defaults {
name: "baz1",
api_surface: "public",
api_contributions: ["foo1", "foo2"],
}
java_defaults {
name: "baz2",
api_surface: "system",
api_contributions: ["foo3"],
}
java_api_library {
name: "bar1",
api_surface: "public",
api_contributions: ["foo1"],
}
java_api_library {
name: "bar2",
api_surface: "public",
defaults:["baz1"],
}
java_api_library {
name: "bar3",
api_surface: "system",
defaults:["baz1", "baz2"],
api_contributions: ["foo4"],
api_files: ["api1/current.txt", "api2/current.txt"]
}
`,
map[string][]byte{
"a/Android.bp": []byte(provider_bp_a),
"b/Android.bp": []byte(provider_bp_b),
"c/Android.bp": []byte(provider_bp_c),
"d/Android.bp": []byte(provider_bp_d),
})
testcases := []struct {
moduleName string
sourceTextFileDirs []string
}{
{
moduleName: "bar1",
sourceTextFileDirs: []string{"a/foo1.txt"},
},
{
moduleName: "bar2",
sourceTextFileDirs: []string{"a/foo1.txt", "b/foo2.txt"},
},
{
moduleName: "bar3",
sourceTextFileDirs: []string{"c/foo3.txt", "a/foo1.txt", "b/foo2.txt", "d/foo4.txt", "api1/current.txt", "api2/current.txt"},
},
}
for _, c := range testcases {
m := ctx.ModuleForTests(c.moduleName, "android_common")
manifest := m.Output("metalava.sbox.textproto")
sboxProto := android.RuleBuilderSboxProtoForTests(t, manifest)
manifestCommand := sboxProto.Commands[0].GetCommand()
sourceFilesFlag := "--source-files " + strings.Join(c.sourceTextFileDirs, " ")
android.AssertStringDoesContain(t, "source text files not present", manifestCommand, sourceFilesFlag)
}
}
func TestJavaApiLibraryJarGeneration(t *testing.T) {
provider_bp_a := `
java_api_contribution {
name: "foo1",
api_file: "foo1.txt",
}
`
provider_bp_b := `
java_api_contribution {
name: "foo2",
api_file: "foo2.txt",
}
`
ctx, _ := testJavaWithFS(t, `
java_api_library {
name: "bar1",
api_surface: "public",
api_contributions: ["foo1"],
}
java_api_library {
name: "bar2",
api_surface: "system",
api_contributions: ["foo1", "foo2"],
}
`,
map[string][]byte{
"a/Android.bp": []byte(provider_bp_a),
"b/Android.bp": []byte(provider_bp_b),
})
testcases := []struct {
moduleName string
outputJarName string
}{
{
moduleName: "bar1",
outputJarName: "bar1/bar1.jar",
},
{
moduleName: "bar2",
outputJarName: "bar2/bar2.jar",
},
}
for _, c := range testcases {
m := ctx.ModuleForTests(c.moduleName, "android_common")
outputs := fmt.Sprint(m.AllOutputs())
if !strings.Contains(outputs, c.outputJarName) {
t.Errorf("Module output does not contain expected jar %s", c.outputJarName)
}
}
}
func TestJavaApiLibraryLibsLink(t *testing.T) {
provider_bp_a := `
java_api_contribution {
name: "foo1",
api_file: "foo1.txt",
}
`
provider_bp_b := `
java_api_contribution {
name: "foo2",
api_file: "foo2.txt",
}
`
lib_bp_a := `
java_library {
name: "lib1",
srcs: ["Lib.java"],
}
`
lib_bp_b := `
java_library {
name: "lib2",
srcs: ["Lib.java"],
}
`
ctx, _ := testJavaWithFS(t, `
java_api_library {
name: "bar1",
api_surface: "public",
api_contributions: ["foo1"],
libs: ["lib1"],
}
java_api_library {
name: "bar2",
api_surface: "system",
api_contributions: ["foo1", "foo2"],
libs: ["lib1", "lib2", "bar1"],
}
`,
map[string][]byte{
"a/Android.bp": []byte(provider_bp_a),
"b/Android.bp": []byte(provider_bp_b),
"c/Android.bp": []byte(lib_bp_a),
"c/Lib.java": {},
"d/Android.bp": []byte(lib_bp_b),
"d/Lib.java": {},
})
testcases := []struct {
moduleName string
classPathJarNames []string
}{
{
moduleName: "bar1",
classPathJarNames: []string{"lib1.jar"},
},
{
moduleName: "bar2",
classPathJarNames: []string{"lib1.jar", "lib2.jar", "bar1/bar1.jar"},
},
}
for _, c := range testcases {
m := ctx.ModuleForTests(c.moduleName, "android_common")
javacRules := m.Rule("javac")
classPathArgs := javacRules.Args["classpath"]
for _, jarName := range c.classPathJarNames {
if !strings.Contains(classPathArgs, jarName) {
t.Errorf("Module output does not contain expected jar %s", jarName)
}
}
}
}
func TestJavaApiLibraryStaticLibsLink(t *testing.T) {
provider_bp_a := `
java_api_contribution {
name: "foo1",
api_file: "foo1.txt",
}
`
provider_bp_b := `
java_api_contribution {
name: "foo2",
api_file: "foo2.txt",
}
`
lib_bp_a := `
java_library {
name: "lib1",
srcs: ["Lib.java"],
}
`
lib_bp_b := `
java_library {
name: "lib2",
srcs: ["Lib.java"],
}
`
ctx, _ := testJavaWithFS(t, `
java_api_library {
name: "bar1",
api_surface: "public",
api_contributions: ["foo1"],
static_libs: ["lib1"],
}
java_api_library {
name: "bar2",
api_surface: "system",
api_contributions: ["foo1", "foo2"],
static_libs: ["lib1", "lib2", "bar1"],
}
`,
map[string][]byte{
"a/Android.bp": []byte(provider_bp_a),
"b/Android.bp": []byte(provider_bp_b),
"c/Android.bp": []byte(lib_bp_a),
"c/Lib.java": {},
"d/Android.bp": []byte(lib_bp_b),
"d/Lib.java": {},
})
testcases := []struct {
moduleName string
staticLibJarNames []string
}{
{
moduleName: "bar1",
staticLibJarNames: []string{"lib1.jar"},
},
{
moduleName: "bar2",
staticLibJarNames: []string{"lib1.jar", "lib2.jar", "bar1/bar1.jar"},
},
}
for _, c := range testcases {
m := ctx.ModuleForTests(c.moduleName, "android_common")
mergeZipsCommand := m.Rule("merge_zips").RuleParams.Command
for _, jarName := range c.staticLibJarNames {
if !strings.Contains(mergeZipsCommand, jarName) {
t.Errorf("merge_zips command does not contain expected jar %s", jarName)
}
}
}
}
func TestJavaApiLibraryDepApiSrcs(t *testing.T) {
provider_bp_a := `
java_api_contribution {
name: "foo1",
api_file: "foo1.txt",
}
`
provider_bp_b := `
java_api_contribution {
name: "foo2",
api_file: "foo2.txt",
}
`
lib_bp_a := `
java_api_library {
name: "lib1",
api_surface: "public",
api_contributions: ["foo1", "foo2"],
}
`
ctx, _ := testJavaWithFS(t, `
java_api_library {
name: "bar1",
api_surface: "public",
api_contributions: ["foo1"],
dep_api_srcs: "lib1",
}
`,
map[string][]byte{
"a/Android.bp": []byte(provider_bp_a),
"b/Android.bp": []byte(provider_bp_b),
"c/Android.bp": []byte(lib_bp_a),
})
m := ctx.ModuleForTests("bar1", "android_common")
manifest := m.Output("metalava.sbox.textproto")
sboxProto := android.RuleBuilderSboxProtoForTests(t, manifest)
manifestCommand := sboxProto.Commands[0].GetCommand()
android.AssertStringDoesContain(t, "Command expected to contain module srcjar file", manifestCommand, "bar1-stubs.srcjar")
android.AssertStringDoesContain(t, "Command expected to contain output files list text file flag", manifestCommand, "--out __SBOX_SANDBOX_DIR__/out/sources.txt")
}
func TestTradefedOptions(t *testing.T) {
result := PrepareForTestWithJavaBuildComponents.RunTestWithBp(t, `
java_test_host {
name: "foo",
test_options: {
tradefed_options: [
{
name: "exclude-path",
value: "org/apache"
}
]
}
}
`)
buildOS := result.Config.BuildOS.String()
args := result.ModuleForTests("foo", buildOS+"_common").
Output("out/soong/.intermediates/foo/" + buildOS + "_common/foo.config").Args
expected := proptools.NinjaAndShellEscape("<option name=\"exclude-path\" value=\"org/apache\" />")
if args["extraConfigs"] != expected {
t.Errorf("Expected args[\"extraConfigs\"] to equal %q, was %q", expected, args["extraConfigs"])
}
}