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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 cc
import (
"fmt"
"os"
"reflect"
"regexp"
"runtime"
"strings"
"testing"
"android/soong/aidl_library"
"android/soong/android"
"github.com/google/blueprint"
)
func init() {
registerTestMutators(android.InitRegistrationContext)
}
func TestMain(m *testing.M) {
os.Exit(m.Run())
}
var prepareForCcTest = android.GroupFixturePreparers(
PrepareForIntegrationTestWithCc,
android.FixtureModifyProductVariables(func(variables android.FixtureProductVariables) {
variables.VendorApiLevel = StringPtr("202404")
}),
)
var apexVariationName = "apex28"
var apexVersion = "28"
func registerTestMutators(ctx android.RegistrationContext) {
ctx.PostDepsMutators(func(ctx android.RegisterMutatorsContext) {
ctx.BottomUp("apex", testApexMutator).Parallel()
})
}
func testApexMutator(mctx android.BottomUpMutatorContext) {
modules := mctx.CreateVariations(apexVariationName)
apexInfo := android.ApexInfo{
ApexVariationName: apexVariationName,
MinSdkVersion: android.ApiLevelForTest(apexVersion),
}
mctx.SetVariationProvider(modules[0], android.ApexInfoProvider, apexInfo)
}
// testCcWithConfig runs tests using the prepareForCcTest
//
// See testCc for an explanation as to how to stop using this deprecated method.
//
// deprecated
func testCcWithConfig(t *testing.T, config android.Config) *android.TestContext {
t.Helper()
result := prepareForCcTest.RunTestWithConfig(t, config)
return result.TestContext
}
// testCc runs tests using the prepareForCcTest
//
// Do not add any new usages of this, instead use the prepareForCcTest 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 prepareForCcTest 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 testCc(t *testing.T, bp string) *android.TestContext {
t.Helper()
result := prepareForCcTest.RunTestWithBp(t, bp)
return result.TestContext
}
// testCcErrorWithConfig runs tests using the prepareForCcTest
//
// See testCc for an explanation as to how to stop using this deprecated method.
//
// deprecated
func testCcErrorWithConfig(t *testing.T, pattern string, config android.Config) {
t.Helper()
prepareForCcTest.
ExtendWithErrorHandler(android.FixtureExpectsAtLeastOneErrorMatchingPattern(pattern)).
RunTestWithConfig(t, config)
}
// testCcError runs tests using the prepareForCcTest
//
// See testCc for an explanation as to how to stop using this deprecated method.
//
// deprecated
func testCcError(t *testing.T, pattern string, bp string) {
t.Helper()
config := TestConfig(t.TempDir(), android.Android, nil, bp, nil)
testCcErrorWithConfig(t, pattern, config)
return
}
const (
coreVariant = "android_arm64_armv8-a_shared"
vendorVariant = "android_vendor_arm64_armv8-a_shared"
productVariant = "android_product_arm64_armv8-a_shared"
recoveryVariant = "android_recovery_arm64_armv8-a_shared"
)
// Test that the PrepareForTestWithCcDefaultModules provides all the files that it uses by
// running it in a fixture that requires all source files to exist.
func TestPrepareForTestWithCcDefaultModules(t *testing.T) {
android.GroupFixturePreparers(
PrepareForTestWithCcDefaultModules,
android.PrepareForTestDisallowNonExistentPaths,
).RunTest(t)
}
func TestVendorSrc(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_library {
name: "libTest",
srcs: ["foo.c"],
no_libcrt: true,
nocrt: true,
system_shared_libs: [],
vendor_available: true,
target: {
vendor: {
srcs: ["bar.c"],
},
},
}
`)
ld := ctx.ModuleForTests("libTest", vendorVariant).Rule("ld")
var objs []string
for _, o := range ld.Inputs {
objs = append(objs, o.Base())
}
if len(objs) != 2 || objs[0] != "foo.o" || objs[1] != "bar.o" {
t.Errorf("inputs of libTest must be []string{\"foo.o\", \"bar.o\"}, but was %#v.", objs)
}
}
func checkInstallPartition(t *testing.T, ctx *android.TestContext, name, variant, expected string) {
mod := ctx.ModuleForTests(name, variant).Module().(*Module)
partitionDefined := false
checkPartition := func(specific bool, partition string) {
if specific {
if expected != partition && !partitionDefined {
// The variant is installed to the 'partition'
t.Errorf("%s variant of %q must not be installed to %s partition", variant, name, partition)
}
partitionDefined = true
} else {
// The variant is not installed to the 'partition'
if expected == partition {
t.Errorf("%s variant of %q must be installed to %s partition", variant, name, partition)
}
}
}
socSpecific := func(m *Module) bool {
return m.SocSpecific() || m.InstallInVendor()
}
deviceSpecific := func(m *Module) bool {
return m.DeviceSpecific() || m.InstallInOdm()
}
productSpecific := func(m *Module) bool {
return m.ProductSpecific() || m.InstallInProduct()
}
systemExtSpecific := func(m *Module) bool {
return m.SystemExtSpecific()
}
checkPartition(socSpecific(mod), "vendor")
checkPartition(deviceSpecific(mod), "odm")
checkPartition(productSpecific(mod), "product")
checkPartition(systemExtSpecific(mod), "system_ext")
if !partitionDefined && expected != "system" {
t.Errorf("%s variant of %q is expected to be installed to %s partition,"+
" but installed to system partition", variant, name, expected)
}
}
func TestInstallPartition(t *testing.T) {
t.Parallel()
t.Helper()
ctx := prepareForCcTest.RunTestWithBp(t, `
cc_library {
name: "libsystem",
}
cc_library {
name: "libsystem_ext",
system_ext_specific: true,
}
cc_library {
name: "libproduct",
product_specific: true,
}
cc_library {
name: "libvendor",
vendor: true,
}
cc_library {
name: "libodm",
device_specific: true,
}
cc_library {
name: "liball_available",
vendor_available: true,
product_available: true,
}
cc_library {
name: "libsystem_ext_all_available",
system_ext_specific: true,
vendor_available: true,
product_available: true,
}
cc_library {
name: "liball_available_odm",
odm_available: true,
product_available: true,
}
cc_library {
name: "libproduct_vendoravailable",
product_specific: true,
vendor_available: true,
}
cc_library {
name: "libproduct_odmavailable",
product_specific: true,
odm_available: true,
}
`).TestContext
checkInstallPartition(t, ctx, "libsystem", coreVariant, "system")
checkInstallPartition(t, ctx, "libsystem_ext", coreVariant, "system_ext")
checkInstallPartition(t, ctx, "libproduct", productVariant, "product")
checkInstallPartition(t, ctx, "libvendor", vendorVariant, "vendor")
checkInstallPartition(t, ctx, "libodm", vendorVariant, "odm")
checkInstallPartition(t, ctx, "liball_available", coreVariant, "system")
checkInstallPartition(t, ctx, "liball_available", productVariant, "product")
checkInstallPartition(t, ctx, "liball_available", vendorVariant, "vendor")
checkInstallPartition(t, ctx, "libsystem_ext_all_available", coreVariant, "system_ext")
checkInstallPartition(t, ctx, "libsystem_ext_all_available", productVariant, "product")
checkInstallPartition(t, ctx, "libsystem_ext_all_available", vendorVariant, "vendor")
checkInstallPartition(t, ctx, "liball_available_odm", coreVariant, "system")
checkInstallPartition(t, ctx, "liball_available_odm", productVariant, "product")
checkInstallPartition(t, ctx, "liball_available_odm", vendorVariant, "odm")
checkInstallPartition(t, ctx, "libproduct_vendoravailable", productVariant, "product")
checkInstallPartition(t, ctx, "libproduct_vendoravailable", vendorVariant, "vendor")
checkInstallPartition(t, ctx, "libproduct_odmavailable", productVariant, "product")
checkInstallPartition(t, ctx, "libproduct_odmavailable", vendorVariant, "odm")
}
func checkWriteFileOutput(t *testing.T, ctx *android.TestContext, params android.TestingBuildParams, expected []string) {
t.Helper()
content := android.ContentFromFileRuleForTests(t, ctx, params)
actual := strings.FieldsFunc(content, func(r rune) bool { return r == '\n' })
assertArrayString(t, actual, expected)
}
func TestDataLibs(t *testing.T) {
t.Parallel()
bp := `
cc_test_library {
name: "test_lib",
srcs: ["test_lib.cpp"],
gtest: false,
}
cc_test {
name: "main_test",
data_libs: ["test_lib"],
gtest: false,
}
`
config := TestConfig(t.TempDir(), android.Android, nil, bp, nil)
ctx := testCcWithConfig(t, config)
module := ctx.ModuleForTests("main_test", "android_arm_armv7-a-neon").Module()
testBinary := module.(*Module).linker.(*testBinary)
outputFiles, err := module.(android.OutputFileProducer).OutputFiles("")
if err != nil {
t.Errorf("Expected cc_test to produce output files, error: %s", err)
return
}
if len(outputFiles) != 1 {
t.Errorf("expected exactly one output file. output files: [%s]", outputFiles)
return
}
if len(testBinary.dataPaths()) != 1 {
t.Errorf("expected exactly one test data file. test data files: [%v]", testBinary.dataPaths())
return
}
outputPath := outputFiles[0].String()
testBinaryPath := testBinary.dataPaths()[0].SrcPath.String()
if !strings.HasSuffix(outputPath, "/main_test") {
t.Errorf("expected test output file to be 'main_test', but was '%s'", outputPath)
return
}
if !strings.HasSuffix(testBinaryPath, "/test_lib.so") {
t.Errorf("expected test data file to be 'test_lib.so', but was '%s'", testBinaryPath)
return
}
}
func TestDataLibsRelativeInstallPath(t *testing.T) {
t.Parallel()
bp := `
cc_test_library {
name: "test_lib",
srcs: ["test_lib.cpp"],
relative_install_path: "foo/bar/baz",
gtest: false,
}
cc_binary {
name: "test_bin",
relative_install_path: "foo/bar/baz",
compile_multilib: "both",
}
cc_test {
name: "main_test",
data_libs: ["test_lib"],
data_bins: ["test_bin"],
gtest: false,
}
`
config := TestConfig(t.TempDir(), android.Android, nil, bp, nil)
ctx := testCcWithConfig(t, config)
module := ctx.ModuleForTests("main_test", "android_arm_armv7-a-neon").Module()
testBinary := module.(*Module).linker.(*testBinary)
outputFiles, err := module.(android.OutputFileProducer).OutputFiles("")
if err != nil {
t.Fatalf("Expected cc_test to produce output files, error: %s", err)
}
if len(outputFiles) != 1 {
t.Fatalf("expected exactly one output file. output files: [%s]", outputFiles)
}
if len(testBinary.dataPaths()) != 2 {
t.Fatalf("expected exactly one test data file. test data files: [%v]", testBinary.dataPaths())
}
outputPath := outputFiles[0].String()
if !strings.HasSuffix(outputPath, "/main_test") {
t.Errorf("expected test output file to be 'main_test', but was '%s'", outputPath)
}
entries := android.AndroidMkEntriesForTest(t, ctx, module)[0]
if !strings.HasSuffix(entries.EntryMap["LOCAL_TEST_DATA"][0], ":test_lib.so:foo/bar/baz") {
t.Errorf("expected LOCAL_TEST_DATA to end with `:test_lib.so:foo/bar/baz`,"+
" but was '%s'", entries.EntryMap["LOCAL_TEST_DATA"][0])
}
if !strings.HasSuffix(entries.EntryMap["LOCAL_TEST_DATA"][1], ":test_bin:foo/bar/baz") {
t.Errorf("expected LOCAL_TEST_DATA to end with `:test_bin:foo/bar/baz`,"+
" but was '%s'", entries.EntryMap["LOCAL_TEST_DATA"][1])
}
}
func TestTestBinaryTestSuites(t *testing.T) {
t.Parallel()
bp := `
cc_test {
name: "main_test",
srcs: ["main_test.cpp"],
test_suites: [
"suite_1",
"suite_2",
],
gtest: false,
}
`
ctx := prepareForCcTest.RunTestWithBp(t, bp).TestContext
module := ctx.ModuleForTests("main_test", "android_arm_armv7-a-neon").Module()
entries := android.AndroidMkEntriesForTest(t, ctx, module)[0]
compatEntries := entries.EntryMap["LOCAL_COMPATIBILITY_SUITE"]
if len(compatEntries) != 2 {
t.Errorf("expected two elements in LOCAL_COMPATIBILITY_SUITE. got %d", len(compatEntries))
}
if compatEntries[0] != "suite_1" {
t.Errorf("expected LOCAL_COMPATIBILITY_SUITE to be`suite_1`,"+
" but was '%s'", compatEntries[0])
}
if compatEntries[1] != "suite_2" {
t.Errorf("expected LOCAL_COMPATIBILITY_SUITE to be`suite_2`,"+
" but was '%s'", compatEntries[1])
}
}
func TestTestLibraryTestSuites(t *testing.T) {
t.Parallel()
bp := `
cc_test_library {
name: "main_test_lib",
srcs: ["main_test_lib.cpp"],
test_suites: [
"suite_1",
"suite_2",
],
gtest: false,
}
`
ctx := prepareForCcTest.RunTestWithBp(t, bp).TestContext
module := ctx.ModuleForTests("main_test_lib", "android_arm_armv7-a-neon_shared").Module()
entries := android.AndroidMkEntriesForTest(t, ctx, module)[0]
compatEntries := entries.EntryMap["LOCAL_COMPATIBILITY_SUITE"]
if len(compatEntries) != 2 {
t.Errorf("expected two elements in LOCAL_COMPATIBILITY_SUITE. got %d", len(compatEntries))
}
if compatEntries[0] != "suite_1" {
t.Errorf("expected LOCAL_COMPATIBILITY_SUITE to be`suite_1`,"+
" but was '%s'", compatEntries[0])
}
if compatEntries[1] != "suite_2" {
t.Errorf("expected LOCAL_COMPATIBILITY_SUITE to be`suite_2`,"+
" but was '%s'", compatEntries[1])
}
}
func TestDoubleLoadbleDep(t *testing.T) {
t.Parallel()
// okay to link : LLNDK -> double_loadable
testCc(t, `
cc_library {
name: "libllndk",
shared_libs: ["libdoubleloadable"],
llndk: {
symbol_file: "libllndk.map.txt",
}
}
cc_library {
name: "libdoubleloadable",
vendor_available: true,
product_available: true,
double_loadable: true,
}
`)
// okay to link : double_loadable -> double_loadable
testCc(t, `
cc_library {
name: "libdoubleloadable1",
shared_libs: ["libdoubleloadable2"],
vendor_available: true,
double_loadable: true,
}
cc_library {
name: "libdoubleloadable2",
vendor_available: true,
double_loadable: true,
}
`)
// okay to link : double_loadable -> double_loadable
testCc(t, `
cc_library {
name: "libdoubleloadable",
vendor_available: true,
product_available: true,
double_loadable: true,
shared_libs: ["libnondoubleloadable"],
}
cc_library {
name: "libnondoubleloadable",
vendor_available: true,
product_available: true,
double_loadable: true,
}
`)
// okay to link : LLNDK -> core-only -> vendor_available & double_loadable
testCc(t, `
cc_library {
name: "libllndk",
shared_libs: ["libcoreonly"],
llndk: {
symbol_file: "libllndk.map.txt",
}
}
cc_library {
name: "libcoreonly",
shared_libs: ["libvendoravailable"],
}
// indirect dependency of LLNDK
cc_library {
name: "libvendoravailable",
vendor_available: true,
double_loadable: true,
}
`)
}
func TestDoubleLoadableDepError(t *testing.T) {
t.Parallel()
// Check whether an error is emitted when a LLNDK depends on a non-double_loadable lib.
testCcError(t, "module \".*\" variant \".*\": link.* \".*\" which is not LL-NDK, VNDK-SP, .*double_loadable", `
cc_library {
name: "libllndk",
shared_libs: ["libnondoubleloadable"],
llndk: {
symbol_file: "libllndk.map.txt",
}
}
cc_library {
name: "libnondoubleloadable",
vendor_available: true,
product_available: true,
}
`)
// Check whether an error is emitted when a LLNDK depends on a non-double_loadable vendor_available lib.
testCcError(t, "module \".*\" variant \".*\": link.* \".*\" which is not LL-NDK, VNDK-SP, .*double_loadable", `
cc_library {
name: "libllndk",
no_libcrt: true,
shared_libs: ["libnondoubleloadable"],
llndk: {
symbol_file: "libllndk.map.txt",
}
}
cc_library {
name: "libnondoubleloadable",
vendor_available: true,
}
`)
// Check whether an error is emitted when a LLNDK depends on a non-double_loadable indirectly.
testCcError(t, "module \".*\" variant \".*\": link.* \".*\" which is not LL-NDK, VNDK-SP, .*double_loadable", `
cc_library {
name: "libllndk",
shared_libs: ["libcoreonly"],
llndk: {
symbol_file: "libllndk.map.txt",
}
}
cc_library {
name: "libcoreonly",
shared_libs: ["libvendoravailable"],
}
// indirect dependency of LLNDK
cc_library {
name: "libvendoravailable",
vendor_available: true,
}
`)
// The error is not from 'client' but from 'libllndk'
testCcError(t, "module \"libllndk\".* links a library \"libnondoubleloadable\".*double_loadable", `
cc_library {
name: "client",
vendor_available: true,
double_loadable: true,
shared_libs: ["libllndk"],
}
cc_library {
name: "libllndk",
shared_libs: ["libnondoubleloadable"],
llndk: {
symbol_file: "libllndk.map.txt",
}
}
cc_library {
name: "libnondoubleloadable",
vendor_available: true,
}
`)
}
func TestMakeLinkType(t *testing.T) {
t.Parallel()
bp := `
cc_library {
name: "libvendor",
vendor: true,
}
vndk_prebuilt_shared {
name: "prevndk",
version: "27",
target_arch: "arm",
binder32bit: true,
vendor_available: true,
product_available: true,
vndk: {
enabled: true,
},
arch: {
arm: {
srcs: ["liba.so"],
},
},
}
cc_library {
name: "libllndk",
llndk: {
symbol_file: "libllndk.map.txt",
}
}
cc_library {
name: "libllndkprivate",
llndk: {
symbol_file: "libllndkprivate.map.txt",
private: true,
}
}
llndk_libraries_txt {
name: "llndk.libraries.txt",
}
`
config := TestConfig(t.TempDir(), android.Android, nil, bp, nil)
// native:vndk
ctx := testCcWithConfig(t, config)
vendorVariant27 := "android_vendor.27_arm64_armv8-a_shared"
tests := []struct {
variant string
name string
expected string
}{
{vendorVariant, "libvendor", "native:vendor"},
{vendorVariant, "libllndk", "native:vndk"},
{vendorVariant27, "prevndk.vndk.27.arm.binder32", "native:vendor"},
{coreVariant, "libllndk", "native:platform"},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
module := ctx.ModuleForTests(test.name, test.variant).Module().(*Module)
assertString(t, module.makeLinkType, test.expected)
})
}
}
var staticLinkDepOrderTestCases = []struct {
// This is a string representation of a map[moduleName][]moduleDependency .
// It models the dependencies declared in an Android.bp file.
inStatic string
// This is a string representation of a map[moduleName][]moduleDependency .
// It models the dependencies declared in an Android.bp file.
inShared string
// allOrdered is a string representation of a map[moduleName][]moduleDependency .
// The keys of allOrdered specify which modules we would like to check.
// The values of allOrdered specify the expected result (of the transitive closure of all
// dependencies) for each module to test
allOrdered string
// outOrdered is a string representation of a map[moduleName][]moduleDependency .
// The keys of outOrdered specify which modules we would like to check.
// The values of outOrdered specify the expected result (of the ordered linker command line)
// for each module to test.
outOrdered string
}{
// Simple tests
{
inStatic: "",
outOrdered: "",
},
{
inStatic: "a:",
outOrdered: "a:",
},
{
inStatic: "a:b; b:",
outOrdered: "a:b; b:",
},
// Tests of reordering
{
// diamond example
inStatic: "a:d,b,c; b:d; c:d; d:",
outOrdered: "a:b,c,d; b:d; c:d; d:",
},
{
// somewhat real example
inStatic: "bsdiff_unittest:b,c,d,e,f,g,h,i; e:b",
outOrdered: "bsdiff_unittest:c,d,e,b,f,g,h,i; e:b",
},
{
// multiple reorderings
inStatic: "a:b,c,d,e; d:b; e:c",
outOrdered: "a:d,b,e,c; d:b; e:c",
},
{
// should reorder without adding new transitive dependencies
inStatic: "bin:lib2,lib1; lib1:lib2,liboptional",
allOrdered: "bin:lib1,lib2,liboptional; lib1:lib2,liboptional",
outOrdered: "bin:lib1,lib2; lib1:lib2,liboptional",
},
{
// multiple levels of dependencies
inStatic: "a:b,c,d,e,f,g,h; f:b,c,d; b:c,d; c:d",
allOrdered: "a:e,f,b,c,d,g,h; f:b,c,d; b:c,d; c:d",
outOrdered: "a:e,f,b,c,d,g,h; f:b,c,d; b:c,d; c:d",
},
// shared dependencies
{
// Note that this test doesn't recurse, to minimize the amount of logic it tests.
// So, we don't actually have to check that a shared dependency of c will change the order
// of a library that depends statically on b and on c. We only need to check that if c has
// a shared dependency on b, that that shows up in allOrdered.
inShared: "c:b",
allOrdered: "c:b",
outOrdered: "c:",
},
{
// This test doesn't actually include any shared dependencies but it's a reminder of what
// the second phase of the above test would look like
inStatic: "a:b,c; c:b",
allOrdered: "a:c,b; c:b",
outOrdered: "a:c,b; c:b",
},
// tiebreakers for when two modules specifying different orderings and there is no dependency
// to dictate an order
{
// if the tie is between two modules at the end of a's deps, then a's order wins
inStatic: "a1:b,c,d,e; a2:b,c,e,d; b:d,e; c:e,d",
outOrdered: "a1:b,c,d,e; a2:b,c,e,d; b:d,e; c:e,d",
},
{
// if the tie is between two modules at the start of a's deps, then c's order is used
inStatic: "a1:d,e,b1,c1; b1:d,e; c1:e,d; a2:d,e,b2,c2; b2:d,e; c2:d,e",
outOrdered: "a1:b1,c1,e,d; b1:d,e; c1:e,d; a2:b2,c2,d,e; b2:d,e; c2:d,e",
},
// Tests involving duplicate dependencies
{
// simple duplicate
inStatic: "a:b,c,c,b",
outOrdered: "a:c,b",
},
{
// duplicates with reordering
inStatic: "a:b,c,d,c; c:b",
outOrdered: "a:d,c,b",
},
// Tests to confirm the nonexistence of infinite loops.
// These cases should never happen, so as long as the test terminates and the
// result is deterministic then that should be fine.
{
inStatic: "a:a",
outOrdered: "a:a",
},
{
inStatic: "a:b; b:c; c:a",
allOrdered: "a:b,c; b:c,a; c:a,b",
outOrdered: "a:b; b:c; c:a",
},
{
inStatic: "a:b,c; b:c,a; c:a,b",
allOrdered: "a:c,a,b; b:a,b,c; c:b,c,a",
outOrdered: "a:c,b; b:a,c; c:b,a",
},
}
// converts from a string like "a:b,c; d:e" to (["a","b"], {"a":["b","c"], "d":["e"]}, [{"a", "a.o"}, {"b", "b.o"}])
func parseModuleDeps(text string) (modulesInOrder []android.Path, allDeps map[android.Path][]android.Path) {
// convert from "a:b,c; d:e" to "a:b,c;d:e"
strippedText := strings.Replace(text, " ", "", -1)
if len(strippedText) < 1 {
return []android.Path{}, make(map[android.Path][]android.Path, 0)
}
allDeps = make(map[android.Path][]android.Path, 0)
// convert from "a:b,c;d:e" to ["a:b,c", "d:e"]
moduleTexts := strings.Split(strippedText, ";")
outputForModuleName := func(moduleName string) android.Path {
return android.PathForTesting(moduleName)
}
for _, moduleText := range moduleTexts {
// convert from "a:b,c" to ["a", "b,c"]
components := strings.Split(moduleText, ":")
if len(components) != 2 {
panic(fmt.Sprintf("illegal module dep string %q from larger string %q; must contain one ':', not %v", moduleText, text, len(components)-1))
}
moduleName := components[0]
moduleOutput := outputForModuleName(moduleName)
modulesInOrder = append(modulesInOrder, moduleOutput)
depString := components[1]
// convert from "b,c" to ["b", "c"]
depNames := strings.Split(depString, ",")
if len(depString) < 1 {
depNames = []string{}
}
var deps []android.Path
for _, depName := range depNames {
deps = append(deps, outputForModuleName(depName))
}
allDeps[moduleOutput] = deps
}
return modulesInOrder, allDeps
}
func TestStaticLibDepReordering(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_library {
name: "a",
static_libs: ["b", "c", "d"],
stl: "none",
}
cc_library {
name: "b",
stl: "none",
}
cc_library {
name: "c",
static_libs: ["b"],
stl: "none",
}
cc_library {
name: "d",
stl: "none",
}
`)
variant := "android_arm64_armv8-a_static"
moduleA := ctx.ModuleForTests("a", variant).Module().(*Module)
staticLibInfo, _ := android.SingletonModuleProvider(ctx, moduleA, StaticLibraryInfoProvider)
actual := android.Paths(staticLibInfo.TransitiveStaticLibrariesForOrdering.ToList()).RelativeToTop()
expected := GetOutputPaths(ctx, variant, []string{"a", "c", "b", "d"})
if !reflect.DeepEqual(actual, expected) {
t.Errorf("staticDeps orderings were not propagated correctly"+
"\nactual: %v"+
"\nexpected: %v",
actual,
expected,
)
}
}
func TestStaticLibDepReorderingWithShared(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_library {
name: "a",
static_libs: ["b", "c"],
stl: "none",
}
cc_library {
name: "b",
stl: "none",
}
cc_library {
name: "c",
shared_libs: ["b"],
stl: "none",
}
`)
variant := "android_arm64_armv8-a_static"
moduleA := ctx.ModuleForTests("a", variant).Module().(*Module)
staticLibInfo, _ := android.SingletonModuleProvider(ctx, moduleA, StaticLibraryInfoProvider)
actual := android.Paths(staticLibInfo.TransitiveStaticLibrariesForOrdering.ToList()).RelativeToTop()
expected := GetOutputPaths(ctx, variant, []string{"a", "c", "b"})
if !reflect.DeepEqual(actual, expected) {
t.Errorf("staticDeps orderings did not account for shared libs"+
"\nactual: %v"+
"\nexpected: %v",
actual,
expected,
)
}
}
func checkEquals(t *testing.T, message string, expected, actual interface{}) {
t.Helper()
if !reflect.DeepEqual(actual, expected) {
t.Errorf(message+
"\nactual: %v"+
"\nexpected: %v",
actual,
expected,
)
}
}
func TestLlndkLibrary(t *testing.T) {
t.Parallel()
result := prepareForCcTest.RunTestWithBp(t, `
cc_library {
name: "libllndk",
stubs: { versions: ["1", "2"] },
llndk: {
symbol_file: "libllndk.map.txt",
},
export_include_dirs: ["include"],
}
cc_prebuilt_library_shared {
name: "libllndkprebuilt",
stubs: { versions: ["1", "2"] },
llndk: {
symbol_file: "libllndkprebuilt.map.txt",
},
}
cc_library {
name: "libllndk_with_external_headers",
stubs: { versions: ["1", "2"] },
llndk: {
symbol_file: "libllndk.map.txt",
export_llndk_headers: ["libexternal_llndk_headers"],
},
header_libs: ["libexternal_headers"],
export_header_lib_headers: ["libexternal_headers"],
}
cc_library_headers {
name: "libexternal_headers",
export_include_dirs: ["include"],
vendor_available: true,
product_available: true,
}
cc_library_headers {
name: "libexternal_llndk_headers",
export_include_dirs: ["include_llndk"],
export_system_include_dirs: ["include_system_llndk"],
llndk: {
symbol_file: "libllndk.map.txt",
},
vendor_available: true,
}
cc_library {
name: "libllndk_with_override_headers",
stubs: { versions: ["1", "2"] },
llndk: {
symbol_file: "libllndk.map.txt",
override_export_include_dirs: ["include_llndk"],
},
export_include_dirs: ["include"],
}
cc_library {
name: "libllndk_with_system_headers",
llndk: {
symbol_file: "libllndk.map.txt",
export_llndk_headers: ["libexternal_llndk_headers"],
export_headers_as_system: true,
},
export_include_dirs: ["include"],
export_system_include_dirs: ["include_system"],
}
`)
actual := result.ModuleVariantsForTests("libllndk")
for i := 0; i < len(actual); i++ {
if !strings.HasPrefix(actual[i], "android_vendor_") {
actual = append(actual[:i], actual[i+1:]...)
i--
}
}
expected := []string{
"android_vendor_arm64_armv8-a_shared",
"android_vendor_arm_armv7-a-neon_shared",
}
android.AssertArrayString(t, "variants for llndk stubs", expected, actual)
params := result.ModuleForTests("libllndk", "android_vendor_arm_armv7-a-neon_shared").Description("generate stub")
android.AssertSame(t, "use Vendor API level for default stubs", "202404", params.Args["apiLevel"])
checkExportedIncludeDirs := func(module, variant string, expectedSystemDirs []string, expectedDirs ...string) {
t.Helper()
m := result.ModuleForTests(module, variant).Module()
f, _ := android.SingletonModuleProvider(result, m, FlagExporterInfoProvider)
android.AssertPathsRelativeToTopEquals(t, "exported include dirs for "+module+"["+variant+"]",
expectedDirs, f.IncludeDirs)
android.AssertPathsRelativeToTopEquals(t, "exported include dirs for "+module+"["+variant+"]",
expectedSystemDirs, f.SystemIncludeDirs)
}
checkExportedIncludeDirs("libllndk", coreVariant, nil, "include")
checkExportedIncludeDirs("libllndk", vendorVariant, nil, "include")
checkExportedIncludeDirs("libllndk_with_external_headers", coreVariant, nil, "include")
checkExportedIncludeDirs("libllndk_with_external_headers", vendorVariant,
[]string{"include_system_llndk"}, "include_llndk")
checkExportedIncludeDirs("libllndk_with_override_headers", coreVariant, nil, "include")
checkExportedIncludeDirs("libllndk_with_override_headers", vendorVariant, nil, "include_llndk")
checkExportedIncludeDirs("libllndk_with_system_headers", coreVariant, []string{"include_system"}, "include")
checkExportedIncludeDirs("libllndk_with_system_headers", vendorVariant,
[]string{"include_system", "include", "include_system_llndk"}, "include_llndk")
checkAbiLinkerIncludeDirs := func(module string) {
t.Helper()
coreModule := result.ModuleForTests(module, coreVariant)
abiCheckFlags := ""
for _, output := range coreModule.AllOutputs() {
if strings.HasSuffix(output, ".so.llndk.lsdump") {
abiCheckFlags = coreModule.Output(output).Args["exportedHeaderFlags"]
}
}
vendorModule := result.ModuleForTests(module, vendorVariant).Module()
vendorInfo, _ := android.SingletonModuleProvider(result, vendorModule, FlagExporterInfoProvider)
vendorDirs := android.Concat(vendorInfo.IncludeDirs, vendorInfo.SystemIncludeDirs)
android.AssertStringEquals(t, module+" has different exported include dirs for vendor variant and ABI check",
android.JoinPathsWithPrefix(vendorDirs, "-I"), abiCheckFlags)
}
checkAbiLinkerIncludeDirs("libllndk")
checkAbiLinkerIncludeDirs("libllndk_with_override_headers")
checkAbiLinkerIncludeDirs("libllndk_with_external_headers")
checkAbiLinkerIncludeDirs("libllndk_with_system_headers")
}
func TestLlndkHeaders(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_library_headers {
name: "libllndk_headers",
export_include_dirs: ["my_include"],
llndk: {
llndk_headers: true,
},
}
cc_library {
name: "libllndk",
llndk: {
symbol_file: "libllndk.map.txt",
export_llndk_headers: ["libllndk_headers"],
}
}
cc_library {
name: "libvendor",
shared_libs: ["libllndk"],
vendor: true,
srcs: ["foo.c"],
no_libcrt: true,
nocrt: true,
}
`)
// _static variant is used since _shared reuses *.o from the static variant
cc := ctx.ModuleForTests("libvendor", "android_vendor_arm_armv7-a-neon_static").Rule("cc")
cflags := cc.Args["cFlags"]
if !strings.Contains(cflags, "-Imy_include") {
t.Errorf("cflags for libvendor must contain -Imy_include, but was %#v.", cflags)
}
}
func checkRuntimeLibs(t *testing.T, expected []string, module *Module) {
actual := module.Properties.AndroidMkRuntimeLibs
if !reflect.DeepEqual(actual, expected) {
t.Errorf("incorrect runtime_libs for shared libs"+
"\nactual: %v"+
"\nexpected: %v",
actual,
expected,
)
}
}
const runtimeLibAndroidBp = `
cc_library {
name: "liball_available",
vendor_available: true,
product_available: true,
no_libcrt : true,
nocrt : true,
system_shared_libs : [],
}
cc_library {
name: "libvendor_available1",
vendor_available: true,
runtime_libs: ["liball_available"],
no_libcrt : true,
nocrt : true,
system_shared_libs : [],
}
cc_library {
name: "libvendor_available2",
vendor_available: true,
runtime_libs: ["liball_available"],
target: {
vendor: {
exclude_runtime_libs: ["liball_available"],
}
},
no_libcrt : true,
nocrt : true,
system_shared_libs : [],
}
cc_library {
name: "libproduct_vendor",
product_specific: true,
vendor_available: true,
no_libcrt : true,
nocrt : true,
system_shared_libs : [],
}
cc_library {
name: "libcore",
runtime_libs: ["liball_available"],
no_libcrt : true,
nocrt : true,
system_shared_libs : [],
}
cc_library {
name: "libvendor1",
vendor: true,
no_libcrt : true,
nocrt : true,
system_shared_libs : [],
}
cc_library {
name: "libvendor2",
vendor: true,
runtime_libs: ["liball_available", "libvendor1", "libproduct_vendor"],
no_libcrt : true,
nocrt : true,
system_shared_libs : [],
}
cc_library {
name: "libproduct_available1",
product_available: true,
runtime_libs: ["liball_available"],
no_libcrt : true,
nocrt : true,
system_shared_libs : [],
}
cc_library {
name: "libproduct1",
product_specific: true,
no_libcrt : true,
nocrt : true,
system_shared_libs : [],
}
cc_library {
name: "libproduct2",
product_specific: true,
runtime_libs: ["liball_available", "libproduct1", "libproduct_vendor"],
no_libcrt : true,
nocrt : true,
system_shared_libs : [],
}
`
func TestRuntimeLibs(t *testing.T) {
t.Parallel()
ctx := testCc(t, runtimeLibAndroidBp)
// runtime_libs for core variants use the module names without suffixes.
variant := "android_arm64_armv8-a_shared"
module := ctx.ModuleForTests("libvendor_available1", variant).Module().(*Module)
checkRuntimeLibs(t, []string{"liball_available"}, module)
module = ctx.ModuleForTests("libproduct_available1", variant).Module().(*Module)
checkRuntimeLibs(t, []string{"liball_available"}, module)
module = ctx.ModuleForTests("libcore", variant).Module().(*Module)
checkRuntimeLibs(t, []string{"liball_available"}, module)
// runtime_libs for vendor variants have '.vendor' suffixes if the modules have both core
// and vendor variants.
variant = "android_vendor_arm64_armv8-a_shared"
module = ctx.ModuleForTests("libvendor_available1", variant).Module().(*Module)
checkRuntimeLibs(t, []string{"liball_available.vendor"}, module)
module = ctx.ModuleForTests("libvendor2", variant).Module().(*Module)
checkRuntimeLibs(t, []string{"liball_available.vendor", "libvendor1", "libproduct_vendor.vendor"}, module)
// runtime_libs for product variants have '.product' suffixes if the modules have both core
// and product variants.
variant = "android_product_arm64_armv8-a_shared"
module = ctx.ModuleForTests("libproduct_available1", variant).Module().(*Module)
checkRuntimeLibs(t, []string{"liball_available.product"}, module)
module = ctx.ModuleForTests("libproduct2", variant).Module().(*Module)
checkRuntimeLibs(t, []string{"liball_available.product", "libproduct1", "libproduct_vendor"}, module)
}
func TestExcludeRuntimeLibs(t *testing.T) {
t.Parallel()
ctx := testCc(t, runtimeLibAndroidBp)
variant := "android_arm64_armv8-a_shared"
module := ctx.ModuleForTests("libvendor_available2", variant).Module().(*Module)
checkRuntimeLibs(t, []string{"liball_available"}, module)
variant = "android_vendor_arm64_armv8-a_shared"
module = ctx.ModuleForTests("libvendor_available2", variant).Module().(*Module)
checkRuntimeLibs(t, nil, module)
}
func checkStaticLibs(t *testing.T, expected []string, module *Module) {
t.Helper()
actual := module.Properties.AndroidMkStaticLibs
if !reflect.DeepEqual(actual, expected) {
t.Errorf("incorrect static_libs"+
"\nactual: %v"+
"\nexpected: %v",
actual,
expected,
)
}
}
const staticLibAndroidBp = `
cc_library {
name: "lib1",
}
cc_library {
name: "lib2",
static_libs: ["lib1"],
}
`
func TestStaticLibDepExport(t *testing.T) {
t.Parallel()
ctx := testCc(t, staticLibAndroidBp)
// Check the shared version of lib2.
variant := "android_arm64_armv8-a_shared"
module := ctx.ModuleForTests("lib2", variant).Module().(*Module)
checkStaticLibs(t, []string{"lib1", "libc++demangle", "libclang_rt.builtins"}, module)
// Check the static version of lib2.
variant = "android_arm64_armv8-a_static"
module = ctx.ModuleForTests("lib2", variant).Module().(*Module)
// libc++_static is linked additionally.
checkStaticLibs(t, []string{"lib1", "libc++_static", "libc++demangle", "libclang_rt.builtins"}, module)
}
var compilerFlagsTestCases = []struct {
in string
out bool
}{
{
in: "a",
out: false,
},
{
in: "-a",
out: true,
},
{
in: "-Ipath/to/something",
out: false,
},
{
in: "-isystempath/to/something",
out: false,
},
{
in: "--coverage",
out: false,
},
{
in: "-include a/b",
out: true,
},
{
in: "-include a/b c/d",
out: false,
},
{
in: "-DMACRO",
out: true,
},
{
in: "-DMAC RO",
out: false,
},
{
in: "-a -b",
out: false,
},
{
in: "-DMACRO=definition",
out: true,
},
{
in: "-DMACRO=defi nition",
out: true, // TODO(jiyong): this should be false
},
{
in: "-DMACRO(x)=x + 1",
out: true,
},
{
in: "-DMACRO=\"defi nition\"",
out: true,
},
}
type mockContext struct {
BaseModuleContext
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) {
t.Parallel()
for _, testCase := range compilerFlagsTestCases {
ctx := &mockContext{result: true}
CheckBadCompilerFlags(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)
}
}
}
func TestRecovery(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_library_shared {
name: "librecovery",
recovery: true,
}
cc_library_shared {
name: "librecovery32",
recovery: true,
compile_multilib:"32",
}
cc_library_shared {
name: "libHalInRecovery",
recovery_available: true,
vendor: true,
}
`)
variants := ctx.ModuleVariantsForTests("librecovery")
const arm64 = "android_recovery_arm64_armv8-a_shared"
if len(variants) != 1 || !android.InList(arm64, variants) {
t.Errorf("variants of librecovery must be \"%s\" only, but was %#v", arm64, variants)
}
variants = ctx.ModuleVariantsForTests("librecovery32")
if android.InList(arm64, variants) {
t.Errorf("multilib was set to 32 for librecovery32, but its variants has %s.", arm64)
}
recoveryModule := ctx.ModuleForTests("libHalInRecovery", recoveryVariant).Module().(*Module)
if !recoveryModule.Platform() {
t.Errorf("recovery variant of libHalInRecovery must not specific to device, soc, or product")
}
}
func TestDataLibsPrebuiltSharedTestLibrary(t *testing.T) {
t.Parallel()
bp := `
cc_prebuilt_test_library_shared {
name: "test_lib",
relative_install_path: "foo/bar/baz",
srcs: ["srcpath/dontusethispath/baz.so"],
}
cc_test {
name: "main_test",
data_libs: ["test_lib"],
gtest: false,
}
`
config := TestConfig(t.TempDir(), android.Android, nil, bp, nil)
ctx := testCcWithConfig(t, config)
module := ctx.ModuleForTests("main_test", "android_arm_armv7-a-neon").Module()
testBinary := module.(*Module).linker.(*testBinary)
outputFiles, err := module.(android.OutputFileProducer).OutputFiles("")
if err != nil {
t.Fatalf("Expected cc_test to produce output files, error: %s", err)
}
if len(outputFiles) != 1 {
t.Errorf("expected exactly one output file. output files: [%s]", outputFiles)
}
if len(testBinary.dataPaths()) != 1 {
t.Errorf("expected exactly one test data file. test data files: [%v]", testBinary.dataPaths())
}
outputPath := outputFiles[0].String()
if !strings.HasSuffix(outputPath, "/main_test") {
t.Errorf("expected test output file to be 'main_test', but was '%s'", outputPath)
}
entries := android.AndroidMkEntriesForTest(t, ctx, module)[0]
if !strings.HasSuffix(entries.EntryMap["LOCAL_TEST_DATA"][0], ":test_lib.so:foo/bar/baz") {
t.Errorf("expected LOCAL_TEST_DATA to end with `:test_lib.so:foo/bar/baz`,"+
" but was '%s'", entries.EntryMap["LOCAL_TEST_DATA"][0])
}
}
func TestVersionedStubs(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_library_shared {
name: "libFoo",
srcs: ["foo.c"],
stubs: {
symbol_file: "foo.map.txt",
versions: ["1", "2", "3"],
},
}
cc_library_shared {
name: "libBar",
srcs: ["bar.c"],
shared_libs: ["libFoo#1"],
}`)
variants := ctx.ModuleVariantsForTests("libFoo")
expectedVariants := []string{
"android_arm64_armv8-a_shared",
"android_arm64_armv8-a_shared_1",
"android_arm64_armv8-a_shared_2",
"android_arm64_armv8-a_shared_3",
"android_arm64_armv8-a_shared_current",
"android_arm_armv7-a-neon_shared",
"android_arm_armv7-a-neon_shared_1",
"android_arm_armv7-a-neon_shared_2",
"android_arm_armv7-a-neon_shared_3",
"android_arm_armv7-a-neon_shared_current",
}
variantsMismatch := false
if len(variants) != len(expectedVariants) {
variantsMismatch = true
} else {
for _, v := range expectedVariants {
if !inList(v, variants) {
variantsMismatch = false
}
}
}
if variantsMismatch {
t.Errorf("variants of libFoo expected:\n")
for _, v := range expectedVariants {
t.Errorf("%q\n", v)
}
t.Errorf(", but got:\n")
for _, v := range variants {
t.Errorf("%q\n", v)
}
}
libBarLinkRule := ctx.ModuleForTests("libBar", "android_arm64_armv8-a_shared").Rule("ld")
libFlags := libBarLinkRule.Args["libFlags"]
libFoo1StubPath := "libFoo/android_arm64_armv8-a_shared_1/libFoo.so"
if !strings.Contains(libFlags, libFoo1StubPath) {
t.Errorf("%q is not found in %q", libFoo1StubPath, libFlags)
}
libBarCompileRule := ctx.ModuleForTests("libBar", "android_arm64_armv8-a_shared").Rule("cc")
cFlags := libBarCompileRule.Args["cFlags"]
libFoo1VersioningMacro := "-D__LIBFOO_API__=1"
if !strings.Contains(cFlags, libFoo1VersioningMacro) {
t.Errorf("%q is not found in %q", libFoo1VersioningMacro, cFlags)
}
}
func TestStubsForLibraryInMultipleApexes(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_library_shared {
name: "libFoo",
srcs: ["foo.c"],
stubs: {
symbol_file: "foo.map.txt",
versions: ["current"],
},
apex_available: ["bar", "a1"],
}
cc_library_shared {
name: "libBar",
srcs: ["bar.c"],
shared_libs: ["libFoo"],
apex_available: ["a1"],
}
cc_library_shared {
name: "libA1",
srcs: ["a1.c"],
shared_libs: ["libFoo"],
apex_available: ["a1"],
}
cc_library_shared {
name: "libBarA1",
srcs: ["bara1.c"],
shared_libs: ["libFoo"],
apex_available: ["bar", "a1"],
}
cc_library_shared {
name: "libAnyApex",
srcs: ["anyApex.c"],
shared_libs: ["libFoo"],
apex_available: ["//apex_available:anyapex"],
}
cc_library_shared {
name: "libBaz",
srcs: ["baz.c"],
shared_libs: ["libFoo"],
apex_available: ["baz"],
}
cc_library_shared {
name: "libQux",
srcs: ["qux.c"],
shared_libs: ["libFoo"],
apex_available: ["qux", "bar"],
}`)
variants := ctx.ModuleVariantsForTests("libFoo")
expectedVariants := []string{
"android_arm64_armv8-a_shared",
"android_arm64_armv8-a_shared_current",
"android_arm_armv7-a-neon_shared",
"android_arm_armv7-a-neon_shared_current",
}
variantsMismatch := false
if len(variants) != len(expectedVariants) {
variantsMismatch = true
} else {
for _, v := range expectedVariants {
if !inList(v, variants) {
variantsMismatch = false
}
}
}
if variantsMismatch {
t.Errorf("variants of libFoo expected:\n")
for _, v := range expectedVariants {
t.Errorf("%q\n", v)
}
t.Errorf(", but got:\n")
for _, v := range variants {
t.Errorf("%q\n", v)
}
}
linkAgainstFoo := []string{"libBarA1"}
linkAgainstFooStubs := []string{"libBar", "libA1", "libBaz", "libQux", "libAnyApex"}
libFooPath := "libFoo/android_arm64_armv8-a_shared/libFoo.so"
for _, lib := range linkAgainstFoo {
libLinkRule := ctx.ModuleForTests(lib, "android_arm64_armv8-a_shared").Rule("ld")
libFlags := libLinkRule.Args["libFlags"]
if !strings.Contains(libFlags, libFooPath) {
t.Errorf("%q: %q is not found in %q", lib, libFooPath, libFlags)
}
}
libFooStubPath := "libFoo/android_arm64_armv8-a_shared_current/libFoo.so"
for _, lib := range linkAgainstFooStubs {
libLinkRule := ctx.ModuleForTests(lib, "android_arm64_armv8-a_shared").Rule("ld")
libFlags := libLinkRule.Args["libFlags"]
if !strings.Contains(libFlags, libFooStubPath) {
t.Errorf("%q: %q is not found in %q", lib, libFooStubPath, libFlags)
}
}
}
func TestVersioningMacro(t *testing.T) {
t.Parallel()
for _, tc := range []struct{ moduleName, expected string }{
{"libc", "__LIBC_API__"},
{"libfoo", "__LIBFOO_API__"},
{"libfoo@1", "__LIBFOO_1_API__"},
{"libfoo-v1", "__LIBFOO_V1_API__"},
{"libfoo.v1", "__LIBFOO_V1_API__"},
} {
checkEquals(t, tc.moduleName, tc.expected, versioningMacroName(tc.moduleName))
}
}
func pathsToBase(paths android.Paths) []string {
var ret []string
for _, p := range paths {
ret = append(ret, p.Base())
}
return ret
}
func TestStaticLibArchiveArgs(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_library_static {
name: "foo",
srcs: ["foo.c"],
}
cc_library_static {
name: "bar",
srcs: ["bar.c"],
}
cc_library_shared {
name: "qux",
srcs: ["qux.c"],
}
cc_library_static {
name: "baz",
srcs: ["baz.c"],
static_libs: ["foo"],
shared_libs: ["qux"],
whole_static_libs: ["bar"],
}`)
variant := "android_arm64_armv8-a_static"
arRule := ctx.ModuleForTests("baz", variant).Rule("ar")
// For static libraries, the object files of a whole static dep are included in the archive
// directly
if g, w := pathsToBase(arRule.Inputs), []string{"bar.o", "baz.o"}; !reflect.DeepEqual(w, g) {
t.Errorf("Expected input objects %q, got %q", w, g)
}
// non whole static dependencies are not linked into the archive
if len(arRule.Implicits) > 0 {
t.Errorf("Expected 0 additional deps, got %q", arRule.Implicits)
}
}
func TestSharedLibLinkingArgs(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_library_static {
name: "foo",
srcs: ["foo.c"],
}
cc_library_static {
name: "bar",
srcs: ["bar.c"],
}
cc_library_shared {
name: "qux",
srcs: ["qux.c"],
}
cc_library_shared {
name: "baz",
srcs: ["baz.c"],
static_libs: ["foo"],
shared_libs: ["qux"],
whole_static_libs: ["bar"],
}`)
variant := "android_arm64_armv8-a_shared"
linkRule := ctx.ModuleForTests("baz", variant).Rule("ld")
libFlags := linkRule.Args["libFlags"]
// When dynamically linking, we expect static dependencies to be found on the command line
if expected := "foo.a"; !strings.Contains(libFlags, expected) {
t.Errorf("Static lib %q was not found in %q", expected, libFlags)
}
// When dynamically linking, we expect whole static dependencies to be found on the command line
if expected := "bar.a"; !strings.Contains(libFlags, expected) {
t.Errorf("Static lib %q was not found in %q", expected, libFlags)
}
// When dynamically linking, we expect shared dependencies to be found on the command line
if expected := "qux.so"; !strings.Contains(libFlags, expected) {
t.Errorf("Shared lib %q was not found in %q", expected, libFlags)
}
// We should only have the objects from the shared library srcs, not the whole static dependencies
if g, w := pathsToBase(linkRule.Inputs), []string{"baz.o"}; !reflect.DeepEqual(w, g) {
t.Errorf("Expected input objects %q, got %q", w, g)
}
}
func TestStaticExecutable(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_binary {
name: "static_test",
srcs: ["foo.c", "baz.o"],
static_executable: true,
}`)
variant := "android_arm64_armv8-a"
binModuleRule := ctx.ModuleForTests("static_test", variant).Rule("ld")
libFlags := binModuleRule.Args["libFlags"]
systemStaticLibs := []string{"libc.a", "libm.a"}
for _, lib := range systemStaticLibs {
if !strings.Contains(libFlags, lib) {
t.Errorf("Static lib %q was not found in %q", lib, libFlags)
}
}
systemSharedLibs := []string{"libc.so", "libm.so", "libdl.so"}
for _, lib := range systemSharedLibs {
if strings.Contains(libFlags, lib) {
t.Errorf("Shared lib %q was found in %q", lib, libFlags)
}
}
}
func TestStaticDepsOrderWithStubs(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_binary {
name: "mybin",
srcs: ["foo.c"],
static_libs: ["libfooC", "libfooB"],
static_executable: true,
stl: "none",
}
cc_library {
name: "libfooB",
srcs: ["foo.c"],
shared_libs: ["libfooC"],
stl: "none",
}
cc_library {
name: "libfooC",
srcs: ["foo.c"],
stl: "none",
stubs: {
versions: ["1"],
},
}`)
mybin := ctx.ModuleForTests("mybin", "android_arm64_armv8-a").Rule("ld")
actual := mybin.Implicits[:2]
expected := GetOutputPaths(ctx, "android_arm64_armv8-a_static", []string{"libfooB", "libfooC"})
if !reflect.DeepEqual(actual, expected) {
t.Errorf("staticDeps orderings were not propagated correctly"+
"\nactual: %v"+
"\nexpected: %v",
actual,
expected,
)
}
}
func TestErrorsIfAModuleDependsOnDisabled(t *testing.T) {
t.Parallel()
testCcError(t, `module "libA" .* depends on disabled module "libB"`, `
cc_library {
name: "libA",
srcs: ["foo.c"],
shared_libs: ["libB"],
stl: "none",
}
cc_library {
name: "libB",
srcs: ["foo.c"],
enabled: false,
stl: "none",
}
`)
}
func VerifyAFLFuzzTargetVariant(t *testing.T, variant string) {
bp := `
cc_fuzz {
name: "test_afl_fuzz_target",
srcs: ["foo.c"],
host_supported: true,
static_libs: [
"afl_fuzz_static_lib",
],
shared_libs: [
"afl_fuzz_shared_lib",
],
fuzzing_frameworks: {
afl: true,
libfuzzer: false,
},
}
cc_library {
name: "afl_fuzz_static_lib",
host_supported: true,
srcs: ["static_file.c"],
}
cc_library {
name: "libfuzzer_only_static_lib",
host_supported: true,
srcs: ["static_file.c"],
}
cc_library {
name: "afl_fuzz_shared_lib",
host_supported: true,
srcs: ["shared_file.c"],
static_libs: [
"second_static_lib",
],
}
cc_library_headers {
name: "libafl_headers",
vendor_available: true,
host_supported: true,
export_include_dirs: [
"include",
"instrumentation",
],
}
cc_object {
name: "afl-compiler-rt",
vendor_available: true,
host_supported: true,
cflags: [
"-fPIC",
],
srcs: [
"instrumentation/afl-compiler-rt.o.c",
],
}
cc_library {
name: "second_static_lib",
host_supported: true,
srcs: ["second_file.c"],
}
cc_object {
name: "aflpp_driver",
host_supported: true,
srcs: [
"aflpp_driver.c",
],
}`
testEnv := map[string]string{
"FUZZ_FRAMEWORK": "AFL",
}
ctx := android.GroupFixturePreparers(prepareForCcTest, android.FixtureMergeEnv(testEnv)).RunTestWithBp(t, bp)
checkPcGuardFlag := func(
modName string, variantName string, shouldHave bool) {
cc := ctx.ModuleForTests(modName, variantName).Rule("cc")
cFlags, ok := cc.Args["cFlags"]
if !ok {
t.Errorf("Could not find cFlags for module %s and variant %s",
modName, variantName)
}
if strings.Contains(
cFlags, "-fsanitize-coverage=trace-pc-guard") != shouldHave {
t.Errorf("Flag was found: %t. Expected to find flag: %t. "+
"Test failed for module %s and variant %s",
!shouldHave, shouldHave, modName, variantName)
}
}
moduleName := "test_afl_fuzz_target"
checkPcGuardFlag(moduleName, variant+"_fuzzer", true)
moduleName = "afl_fuzz_static_lib"
checkPcGuardFlag(moduleName, variant+"_static", false)
checkPcGuardFlag(moduleName, variant+"_static_fuzzer", true)
moduleName = "second_static_lib"
checkPcGuardFlag(moduleName, variant+"_static", false)
checkPcGuardFlag(moduleName, variant+"_static_fuzzer", true)
ctx.ModuleForTests("afl_fuzz_shared_lib",
"android_arm64_armv8-a_shared").Rule("cc")
ctx.ModuleForTests("afl_fuzz_shared_lib",
"android_arm64_armv8-a_shared_fuzzer").Rule("cc")
}
func TestAFLFuzzTargetForDevice(t *testing.T) {
t.Parallel()
VerifyAFLFuzzTargetVariant(t, "android_arm64_armv8-a")
}
func TestAFLFuzzTargetForLinuxHost(t *testing.T) {
t.Parallel()
if runtime.GOOS != "linux" {
t.Skip("requires linux")
}
VerifyAFLFuzzTargetVariant(t, "linux_glibc_x86_64")
}
// Simple smoke test for the cc_fuzz target that ensures the rule compiles
// correctly.
func TestFuzzTarget(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_fuzz {
name: "fuzz_smoke_test",
srcs: ["foo.c"],
}`)
variant := "android_arm64_armv8-a_fuzzer"
ctx.ModuleForTests("fuzz_smoke_test", variant).Rule("cc")
}
func assertString(t *testing.T, got, expected string) {
t.Helper()
if got != expected {
t.Errorf("expected %q got %q", expected, got)
}
}
func assertArrayString(t *testing.T, got, expected []string) {
t.Helper()
if len(got) != len(expected) {
t.Errorf("expected %d (%q) got (%d) %q", len(expected), expected, len(got), got)
return
}
for i := range got {
if got[i] != expected[i] {
t.Errorf("expected %d-th %q (%q) got %q (%q)",
i, expected[i], expected, got[i], got)
return
}
}
}
func assertMapKeys(t *testing.T, m map[string]string, expected []string) {
t.Helper()
assertArrayString(t, android.SortedKeys(m), expected)
}
func TestDefaults(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_defaults {
name: "defaults",
srcs: ["foo.c"],
static: {
srcs: ["bar.c"],
},
shared: {
srcs: ["baz.c"],
},
}
cc_library_static {
name: "libstatic",
defaults: ["defaults"],
}
cc_library_shared {
name: "libshared",
defaults: ["defaults"],
}
cc_library {
name: "libboth",
defaults: ["defaults"],
}
cc_binary {
name: "binary",
defaults: ["defaults"],
}`)
shared := ctx.ModuleForTests("libshared", "android_arm64_armv8-a_shared").Rule("ld")
if g, w := pathsToBase(shared.Inputs), []string{"foo.o", "baz.o"}; !reflect.DeepEqual(w, g) {
t.Errorf("libshared ld rule wanted %q, got %q", w, g)
}
bothShared := ctx.ModuleForTests("libboth", "android_arm64_armv8-a_shared").Rule("ld")
if g, w := pathsToBase(bothShared.Inputs), []string{"foo.o", "baz.o"}; !reflect.DeepEqual(w, g) {
t.Errorf("libboth ld rule wanted %q, got %q", w, g)
}
binary := ctx.ModuleForTests("binary", "android_arm64_armv8-a").Rule("ld")
if g, w := pathsToBase(binary.Inputs), []string{"foo.o"}; !reflect.DeepEqual(w, g) {
t.Errorf("binary ld rule wanted %q, got %q", w, g)
}
static := ctx.ModuleForTests("libstatic", "android_arm64_armv8-a_static").Rule("ar")
if g, w := pathsToBase(static.Inputs), []string{"foo.o", "bar.o"}; !reflect.DeepEqual(w, g) {
t.Errorf("libstatic ar rule wanted %q, got %q", w, g)
}
bothStatic := ctx.ModuleForTests("libboth", "android_arm64_armv8-a_static").Rule("ar")
if g, w := pathsToBase(bothStatic.Inputs), []string{"foo.o", "bar.o"}; !reflect.DeepEqual(w, g) {
t.Errorf("libboth ar rule wanted %q, got %q", w, g)
}
}
func TestProductVariableDefaults(t *testing.T) {
t.Parallel()
bp := `
cc_defaults {
name: "libfoo_defaults",
srcs: ["foo.c"],
cppflags: ["-DFOO"],
product_variables: {
debuggable: {
cppflags: ["-DBAR"],
},
},
}
cc_library {
name: "libfoo",
defaults: ["libfoo_defaults"],
}
`
result := android.GroupFixturePreparers(
prepareForCcTest,
android.PrepareForTestWithVariables,
android.FixtureModifyProductVariables(func(variables android.FixtureProductVariables) {
variables.Debuggable = BoolPtr(true)
}),
).RunTestWithBp(t, bp)
libfoo := result.Module("libfoo", "android_arm64_armv8-a_static").(*Module)
android.AssertStringListContains(t, "cppflags", libfoo.flags.Local.CppFlags, "-DBAR")
}
func TestEmptyWholeStaticLibsAllowMissingDependencies(t *testing.T) {
t.Parallel()
bp := `
cc_library_static {
name: "libfoo",
srcs: ["foo.c"],
whole_static_libs: ["libbar"],
}
cc_library_static {
name: "libbar",
whole_static_libs: ["libmissing"],
}
`
result := android.GroupFixturePreparers(
prepareForCcTest,
android.PrepareForTestWithAllowMissingDependencies,
).RunTestWithBp(t, bp)
libbar := result.ModuleForTests("libbar", "android_arm64_armv8-a_static").Output("libbar.a")
android.AssertDeepEquals(t, "libbar rule", android.ErrorRule, libbar.Rule)
android.AssertStringDoesContain(t, "libbar error", libbar.Args["error"], "missing dependencies: libmissing")
libfoo := result.ModuleForTests("libfoo", "android_arm64_armv8-a_static").Output("libfoo.a")
android.AssertStringListContains(t, "libfoo.a dependencies", libfoo.Inputs.Strings(), libbar.Output.String())
}
func TestInstallSharedLibs(t *testing.T) {
t.Parallel()
bp := `
cc_binary {
name: "bin",
host_supported: true,
shared_libs: ["libshared"],
runtime_libs: ["libruntime"],
srcs: [":gen"],
}
cc_library_shared {
name: "libshared",
host_supported: true,
shared_libs: ["libtransitive"],
}
cc_library_shared {
name: "libtransitive",
host_supported: true,
}
cc_library_shared {
name: "libruntime",
host_supported: true,
}
cc_binary_host {
name: "tool",
srcs: ["foo.cpp"],
}
genrule {
name: "gen",
tools: ["tool"],
out: ["gen.cpp"],
cmd: "$(location tool) $(out)",
}
`
config := TestConfig(t.TempDir(), android.Android, nil, bp, nil)
ctx := testCcWithConfig(t, config)
hostBin := ctx.ModuleForTests("bin", config.BuildOSTarget.String()).Description("install")
hostShared := ctx.ModuleForTests("libshared", config.BuildOSTarget.String()+"_shared").Description("install")
hostRuntime := ctx.ModuleForTests("libruntime", config.BuildOSTarget.String()+"_shared").Description("install")
hostTransitive := ctx.ModuleForTests("libtransitive", config.BuildOSTarget.String()+"_shared").Description("install")
hostTool := ctx.ModuleForTests("tool", config.BuildOSTarget.String()).Description("install")
if g, w := hostBin.Implicits.Strings(), hostShared.Output.String(); !android.InList(w, g) {
t.Errorf("expected host bin dependency %q, got %q", w, g)
}
if g, w := hostBin.Implicits.Strings(), hostTransitive.Output.String(); !android.InList(w, g) {
t.Errorf("expected host bin dependency %q, got %q", w, g)
}
if g, w := hostShared.Implicits.Strings(), hostTransitive.Output.String(); !android.InList(w, g) {
t.Errorf("expected host bin dependency %q, got %q", w, g)
}
if g, w := hostBin.Implicits.Strings(), hostRuntime.Output.String(); !android.InList(w, g) {
t.Errorf("expected host bin dependency %q, got %q", w, g)
}
if g, w := hostBin.Implicits.Strings(), hostTool.Output.String(); android.InList(w, g) {
t.Errorf("expected no host bin dependency %q, got %q", w, g)
}
deviceBin := ctx.ModuleForTests("bin", "android_arm64_armv8-a").Description("install")
deviceShared := ctx.ModuleForTests("libshared", "android_arm64_armv8-a_shared").Description("install")
deviceTransitive := ctx.ModuleForTests("libtransitive", "android_arm64_armv8-a_shared").Description("install")
deviceRuntime := ctx.ModuleForTests("libruntime", "android_arm64_armv8-a_shared").Description("install")
if g, w := deviceBin.OrderOnly.Strings(), deviceShared.Output.String(); !android.InList(w, g) {
t.Errorf("expected device bin dependency %q, got %q", w, g)
}
if g, w := deviceBin.OrderOnly.Strings(), deviceTransitive.Output.String(); !android.InList(w, g) {
t.Errorf("expected device bin dependency %q, got %q", w, g)
}
if g, w := deviceShared.OrderOnly.Strings(), deviceTransitive.Output.String(); !android.InList(w, g) {
t.Errorf("expected device bin dependency %q, got %q", w, g)
}
if g, w := deviceBin.OrderOnly.Strings(), deviceRuntime.Output.String(); !android.InList(w, g) {
t.Errorf("expected device bin dependency %q, got %q", w, g)
}
if g, w := deviceBin.OrderOnly.Strings(), hostTool.Output.String(); android.InList(w, g) {
t.Errorf("expected no device bin dependency %q, got %q", w, g)
}
}
func TestStubsLibReexportsHeaders(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_library_shared {
name: "libclient",
srcs: ["foo.c"],
shared_libs: ["libfoo#1"],
}
cc_library_shared {
name: "libfoo",
srcs: ["foo.c"],
shared_libs: ["libbar"],
export_shared_lib_headers: ["libbar"],
stubs: {
symbol_file: "foo.map.txt",
versions: ["1", "2", "3"],
},
}
cc_library_shared {
name: "libbar",
export_include_dirs: ["include/libbar"],
srcs: ["foo.c"],
}`)
cFlags := ctx.ModuleForTests("libclient", "android_arm64_armv8-a_shared").Rule("cc").Args["cFlags"]
if !strings.Contains(cFlags, "-Iinclude/libbar") {
t.Errorf("expected %q in cflags, got %q", "-Iinclude/libbar", cFlags)
}
}
func TestAidlLibraryWithHeaders(t *testing.T) {
t.Parallel()
ctx := android.GroupFixturePreparers(
prepareForCcTest,
aidl_library.PrepareForTestWithAidlLibrary,
android.MockFS{
"package_bar/Android.bp": []byte(`
aidl_library {
name: "bar",
srcs: ["x/y/Bar.aidl"],
hdrs: ["x/HeaderBar.aidl"],
strip_import_prefix: "x",
}
`)}.AddToFixture(),
android.MockFS{
"package_foo/Android.bp": []byte(`
aidl_library {
name: "foo",
srcs: ["a/b/Foo.aidl"],
hdrs: ["a/HeaderFoo.aidl"],
strip_import_prefix: "a",
deps: ["bar"],
}
cc_library {
name: "libfoo",
aidl: {
libs: ["foo"],
}
}
`),
}.AddToFixture(),
).RunTest(t).TestContext
libfoo := ctx.ModuleForTests("libfoo", "android_arm64_armv8-a_static")
android.AssertPathsRelativeToTopEquals(
t,
"aidl headers",
[]string{
"package_bar/x/HeaderBar.aidl",
"package_foo/a/HeaderFoo.aidl",
"package_foo/a/b/Foo.aidl",
"out/soong/.intermediates/package_foo/libfoo/android_arm64_armv8-a_static/gen/aidl_library.sbox.textproto",
},
libfoo.Rule("aidl_library").Implicits,
)
manifest := android.RuleBuilderSboxProtoForTests(t, ctx, libfoo.Output("aidl_library.sbox.textproto"))
aidlCommand := manifest.Commands[0].GetCommand()
expectedAidlFlags := "-Ipackage_foo/a -Ipackage_bar/x"
if !strings.Contains(aidlCommand, expectedAidlFlags) {
t.Errorf("aidl command %q does not contain %q", aidlCommand, expectedAidlFlags)
}
outputs := strings.Join(libfoo.AllOutputs(), " ")
android.AssertStringDoesContain(t, "aidl-generated header", outputs, "gen/aidl_library/b/BpFoo.h")
android.AssertStringDoesContain(t, "aidl-generated header", outputs, "gen/aidl_library/b/BnFoo.h")
android.AssertStringDoesContain(t, "aidl-generated header", outputs, "gen/aidl_library/b/Foo.h")
android.AssertStringDoesContain(t, "aidl-generated cpp", outputs, "b/Foo.cpp")
// Confirm that the aidl header doesn't get compiled to cpp and h files
android.AssertStringDoesNotContain(t, "aidl-generated header", outputs, "gen/aidl_library/y/BpBar.h")
android.AssertStringDoesNotContain(t, "aidl-generated header", outputs, "gen/aidl_library/y/BnBar.h")
android.AssertStringDoesNotContain(t, "aidl-generated header", outputs, "gen/aidl_library/y/Bar.h")
android.AssertStringDoesNotContain(t, "aidl-generated cpp", outputs, "y/Bar.cpp")
}
func TestAidlFlagsPassedToTheAidlCompiler(t *testing.T) {
t.Parallel()
ctx := android.GroupFixturePreparers(
prepareForCcTest,
aidl_library.PrepareForTestWithAidlLibrary,
).RunTestWithBp(t, `
cc_library {
name: "libfoo",
srcs: ["a/Foo.aidl"],
aidl: { flags: ["-Werror"], },
}
`)
libfoo := ctx.ModuleForTests("libfoo", "android_arm64_armv8-a_static")
manifest := android.RuleBuilderSboxProtoForTests(t, ctx.TestContext, libfoo.Output("aidl.sbox.textproto"))
aidlCommand := manifest.Commands[0].GetCommand()
expectedAidlFlag := "-Werror"
if !strings.Contains(aidlCommand, expectedAidlFlag) {
t.Errorf("aidl command %q does not contain %q", aidlCommand, expectedAidlFlag)
}
}
func TestAidlFlagsWithMinSdkVersion(t *testing.T) {
t.Parallel()
for _, tc := range []struct {
name string
sdkVersion string
variant string
expected string
}{
{
name: "default is current",
sdkVersion: "",
variant: "android_arm64_armv8-a_static",
expected: "platform_apis",
},
{
name: "use sdk_version",
sdkVersion: `sdk_version: "29"`,
variant: "android_arm64_armv8-a_static",
expected: "platform_apis",
},
{
name: "use sdk_version(sdk variant)",
sdkVersion: `sdk_version: "29"`,
variant: "android_arm64_armv8-a_sdk_static",
expected: "29",
},
{
name: "use min_sdk_version",
sdkVersion: `min_sdk_version: "29"`,
variant: "android_arm64_armv8-a_static",
expected: "29",
},
} {
t.Run(tc.name, func(t *testing.T) {
ctx := testCc(t, `
cc_library {
name: "libfoo",
stl: "none",
srcs: ["a/Foo.aidl"],
`+tc.sdkVersion+`
}
`)
libfoo := ctx.ModuleForTests("libfoo", tc.variant)
manifest := android.RuleBuilderSboxProtoForTests(t, ctx, libfoo.Output("aidl.sbox.textproto"))
aidlCommand := manifest.Commands[0].GetCommand()
expectedAidlFlag := "--min_sdk_version=" + tc.expected
if !strings.Contains(aidlCommand, expectedAidlFlag) {
t.Errorf("aidl command %q does not contain %q", aidlCommand, expectedAidlFlag)
}
})
}
}
func TestInvalidAidlProp(t *testing.T) {
t.Parallel()
testCases := []struct {
description string
bp string
}{
{
description: "Invalid use of aidl.libs and aidl.include_dirs",
bp: `
cc_library {
name: "foo",
aidl: {
libs: ["foo_aidl"],
include_dirs: ["bar/include"],
}
}
`,
},
{
description: "Invalid use of aidl.libs and aidl.local_include_dirs",
bp: `
cc_library {
name: "foo",
aidl: {
libs: ["foo_aidl"],
local_include_dirs: ["include"],
}
}
`,
},
}
for _, testCase := range testCases {
t.Run(testCase.description, func(t *testing.T) {
bp := `
aidl_library {
name: "foo_aidl",
srcs: ["Foo.aidl"],
} ` + testCase.bp
android.GroupFixturePreparers(
prepareForCcTest,
aidl_library.PrepareForTestWithAidlLibrary.
ExtendWithErrorHandler(android.FixtureExpectsOneErrorPattern("For aidl headers, please only use aidl.libs prop")),
).RunTestWithBp(t, bp)
})
}
}
func TestMinSdkVersionInClangTriple(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_library_shared {
name: "libfoo",
srcs: ["foo.c"],
min_sdk_version: "29",
}`)
cFlags := ctx.ModuleForTests("libfoo", "android_arm64_armv8-a_shared").Rule("cc").Args["cFlags"]
android.AssertStringDoesContain(t, "min sdk version", cFlags, "-target aarch64-linux-android29")
}
func TestNonDigitMinSdkVersionInClangTriple(t *testing.T) {
t.Parallel()
bp := `
cc_library_shared {
name: "libfoo",
srcs: ["foo.c"],
min_sdk_version: "S",
}
`
result := android.GroupFixturePreparers(
prepareForCcTest,
android.FixtureModifyProductVariables(func(variables android.FixtureProductVariables) {
variables.Platform_version_active_codenames = []string{"UpsideDownCake", "Tiramisu"}
}),
).RunTestWithBp(t, bp)
ctx := result.TestContext
cFlags := ctx.ModuleForTests("libfoo", "android_arm64_armv8-a_shared").Rule("cc").Args["cFlags"]
android.AssertStringDoesContain(t, "min sdk version", cFlags, "-target aarch64-linux-android31")
}
func TestIncludeDirsExporting(t *testing.T) {
t.Parallel()
// Trim spaces from the beginning, end and immediately after any newline characters. Leaves
// embedded newline characters alone.
trimIndentingSpaces := func(s string) string {
return strings.TrimSpace(regexp.MustCompile("(^|\n)\\s+").ReplaceAllString(s, "$1"))
}
checkPaths := func(t *testing.T, message string, expected string, paths android.Paths) {
t.Helper()
expected = trimIndentingSpaces(expected)
actual := trimIndentingSpaces(strings.Join(android.FirstUniqueStrings(android.NormalizePathsForTesting(paths)), "\n"))
if expected != actual {
t.Errorf("%s: expected:\n%s\n actual:\n%s\n", message, expected, actual)
}
}
type exportedChecker func(t *testing.T, name string, exported FlagExporterInfo)
checkIncludeDirs := func(t *testing.T, ctx *android.TestContext, module android.Module, checkers ...exportedChecker) {
t.Helper()
exported, _ := android.SingletonModuleProvider(ctx, module, FlagExporterInfoProvider)
name := module.Name()
for _, checker := range checkers {
checker(t, name, exported)
}
}
expectedIncludeDirs := func(expectedPaths string) exportedChecker {
return func(t *testing.T, name string, exported FlagExporterInfo) {
t.Helper()
checkPaths(t, fmt.Sprintf("%s: include dirs", name), expectedPaths, exported.IncludeDirs)
}
}
expectedSystemIncludeDirs := func(expectedPaths string) exportedChecker {
return func(t *testing.T, name string, exported FlagExporterInfo) {
t.Helper()
checkPaths(t, fmt.Sprintf("%s: system include dirs", name), expectedPaths, exported.SystemIncludeDirs)
}
}
expectedGeneratedHeaders := func(expectedPaths string) exportedChecker {
return func(t *testing.T, name string, exported FlagExporterInfo) {
t.Helper()
checkPaths(t, fmt.Sprintf("%s: generated headers", name), expectedPaths, exported.GeneratedHeaders)
}
}
expectedOrderOnlyDeps := func(expectedPaths string) exportedChecker {
return func(t *testing.T, name string, exported FlagExporterInfo) {
t.Helper()
checkPaths(t, fmt.Sprintf("%s: order only deps", name), expectedPaths, exported.Deps)
}
}
genRuleModules := `
genrule {
name: "genrule_foo",
cmd: "generate-foo",
out: [
"generated_headers/foo/generated_header.h",
],
export_include_dirs: [
"generated_headers",
],
}
genrule {
name: "genrule_bar",
cmd: "generate-bar",
out: [
"generated_headers/bar/generated_header.h",
],
export_include_dirs: [
"generated_headers",
],
}
`
t.Run("ensure exported include dirs are not automatically re-exported from shared_libs", func(t *testing.T) {
ctx := testCc(t, genRuleModules+`
cc_library {
name: "libfoo",
srcs: ["foo.c"],
export_include_dirs: ["foo/standard"],
export_system_include_dirs: ["foo/system"],
generated_headers: ["genrule_foo"],
export_generated_headers: ["genrule_foo"],
}
cc_library {
name: "libbar",
srcs: ["bar.c"],
shared_libs: ["libfoo"],
export_include_dirs: ["bar/standard"],
export_system_include_dirs: ["bar/system"],
generated_headers: ["genrule_bar"],
export_generated_headers: ["genrule_bar"],
}
`)
foo := ctx.ModuleForTests("libfoo", "android_arm64_armv8-a_shared").Module()
checkIncludeDirs(t, ctx, foo,
expectedIncludeDirs(`
foo/standard
.intermediates/genrule_foo/gen/generated_headers
`),
expectedSystemIncludeDirs(`foo/system`),
expectedGeneratedHeaders(`.intermediates/genrule_foo/gen/generated_headers/foo/generated_header.h`),
expectedOrderOnlyDeps(`.intermediates/genrule_foo/gen/generated_headers/foo/generated_header.h`),
)
bar := ctx.ModuleForTests("libbar", "android_arm64_armv8-a_shared").Module()
checkIncludeDirs(t, ctx, bar,
expectedIncludeDirs(`
bar/standard
.intermediates/genrule_bar/gen/generated_headers
`),
expectedSystemIncludeDirs(`bar/system`),
expectedGeneratedHeaders(`.intermediates/genrule_bar/gen/generated_headers/bar/generated_header.h`),
expectedOrderOnlyDeps(`.intermediates/genrule_bar/gen/generated_headers/bar/generated_header.h`),
)
})
t.Run("ensure exported include dirs are automatically re-exported from whole_static_libs", func(t *testing.T) {
ctx := testCc(t, genRuleModules+`
cc_library {
name: "libfoo",
srcs: ["foo.c"],
export_include_dirs: ["foo/standard"],
export_system_include_dirs: ["foo/system"],
generated_headers: ["genrule_foo"],
export_generated_headers: ["genrule_foo"],
}
cc_library {
name: "libbar",
srcs: ["bar.c"],
whole_static_libs: ["libfoo"],
export_include_dirs: ["bar/standard"],
export_system_include_dirs: ["bar/system"],
generated_headers: ["genrule_bar"],
export_generated_headers: ["genrule_bar"],
}
`)
foo := ctx.ModuleForTests("libfoo", "android_arm64_armv8-a_shared").Module()
checkIncludeDirs(t, ctx, foo,
expectedIncludeDirs(`
foo/standard
.intermediates/genrule_foo/gen/generated_headers
`),
expectedSystemIncludeDirs(`foo/system`),
expectedGeneratedHeaders(`.intermediates/genrule_foo/gen/generated_headers/foo/generated_header.h`),
expectedOrderOnlyDeps(`.intermediates/genrule_foo/gen/generated_headers/foo/generated_header.h`),
)
bar := ctx.ModuleForTests("libbar", "android_arm64_armv8-a_shared").Module()
checkIncludeDirs(t, ctx, bar,
expectedIncludeDirs(`
bar/standard
foo/standard
.intermediates/genrule_foo/gen/generated_headers
.intermediates/genrule_bar/gen/generated_headers
`),
expectedSystemIncludeDirs(`
bar/system
foo/system
`),
expectedGeneratedHeaders(`
.intermediates/genrule_foo/gen/generated_headers/foo/generated_header.h
.intermediates/genrule_bar/gen/generated_headers/bar/generated_header.h
`),
expectedOrderOnlyDeps(`
.intermediates/genrule_foo/gen/generated_headers/foo/generated_header.h
.intermediates/genrule_bar/gen/generated_headers/bar/generated_header.h
`),
)
})
t.Run("ensure only aidl headers are exported", func(t *testing.T) {
ctx := android.GroupFixturePreparers(
prepareForCcTest,
aidl_library.PrepareForTestWithAidlLibrary,
).RunTestWithBp(t, `
aidl_library {
name: "libfoo_aidl",
srcs: ["x/y/Bar.aidl"],
strip_import_prefix: "x",
}
cc_library_shared {
name: "libfoo",
srcs: [
"foo.c",
"b.aidl",
"a.proto",
],
aidl: {
libs: ["libfoo_aidl"],
export_aidl_headers: true,
}
}
`).TestContext
foo := ctx.ModuleForTests("libfoo", "android_arm64_armv8-a_shared").Module()
checkIncludeDirs(t, ctx, foo,
expectedIncludeDirs(`
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/aidl
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/aidl_library
`),
expectedSystemIncludeDirs(``),
expectedGeneratedHeaders(`
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/aidl/b.h
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/aidl/Bnb.h
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/aidl/Bpb.h
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/aidl_library/y/Bar.h
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/aidl_library/y/BnBar.h
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/aidl_library/y/BpBar.h
`),
expectedOrderOnlyDeps(`
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/aidl/b.h
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/aidl/Bnb.h
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/aidl/Bpb.h
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/aidl_library/y/Bar.h
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/aidl_library/y/BnBar.h
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/aidl_library/y/BpBar.h
`),
)
})
t.Run("ensure only proto headers are exported", func(t *testing.T) {
ctx := testCc(t, genRuleModules+`
cc_library_shared {
name: "libfoo",
srcs: [
"foo.c",
"b.aidl",
"a.proto",
],
proto: {
export_proto_headers: true,
}
}
`)
foo := ctx.ModuleForTests("libfoo", "android_arm64_armv8-a_shared").Module()
checkIncludeDirs(t, ctx, foo,
expectedIncludeDirs(`
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/proto
`),
expectedSystemIncludeDirs(``),
expectedGeneratedHeaders(`
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/proto/a.pb.h
`),
expectedOrderOnlyDeps(`
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/proto/a.pb.h
`),
)
})
t.Run("ensure only sysprop headers are exported", func(t *testing.T) {
ctx := testCc(t, genRuleModules+`
cc_library_shared {
name: "libfoo",
srcs: [
"foo.c",
"path/to/a.sysprop",
"b.aidl",
"a.proto",
],
}
`)
foo := ctx.ModuleForTests("libfoo", "android_arm64_armv8-a_shared").Module()
checkIncludeDirs(t, ctx, foo,
expectedIncludeDirs(`
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/sysprop/include
`),
expectedSystemIncludeDirs(``),
expectedGeneratedHeaders(`
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/sysprop/include/path/to/a.sysprop.h
`),
expectedOrderOnlyDeps(`
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/sysprop/include/path/to/a.sysprop.h
.intermediates/libfoo/android_arm64_armv8-a_shared/gen/sysprop/public/include/path/to/a.sysprop.h
`),
)
})
}
func TestIncludeDirectoryOrdering(t *testing.T) {
t.Parallel()
baseExpectedFlags := []string{
"${config.ArmThumbCflags}",
"${config.ArmCflags}",
"${config.CommonGlobalCflags}",
"${config.DeviceGlobalCflags}",
"${config.ExternalCflags}",
"${config.ArmToolchainCflags}",
"${config.ArmArmv7ANeonCflags}",
"${config.ArmGenericCflags}",
"-target",
"armv7a-linux-androideabi21",
}
expectedIncludes := []string{
"external/foo/android_arm_export_include_dirs",
"external/foo/lib32_export_include_dirs",
"external/foo/arm_export_include_dirs",
"external/foo/android_export_include_dirs",
"external/foo/linux_export_include_dirs",
"external/foo/export_include_dirs",
"external/foo/android_arm_local_include_dirs",
"external/foo/lib32_local_include_dirs",
"external/foo/arm_local_include_dirs",
"external/foo/android_local_include_dirs",
"external/foo/linux_local_include_dirs",
"external/foo/local_include_dirs",
"external/foo",
"external/foo/libheader1",
"external/foo/libheader2",
"external/foo/libwhole1",
"external/foo/libwhole2",
"external/foo/libstatic1",
"external/foo/libstatic2",
"external/foo/libshared1",
"external/foo/libshared2",
"external/foo/liblinux",
"external/foo/libandroid",
"external/foo/libarm",
"external/foo/lib32",
"external/foo/libandroid_arm",
"defaults/cc/common/ndk_libc++_shared",
}
conly := []string{"-fPIC", "${config.CommonGlobalConlyflags}"}
cppOnly := []string{"-fPIC", "${config.CommonGlobalCppflags}", "${config.DeviceGlobalCppflags}", "${config.ArmCppflags}"}
cflags := []string{"-Werror", "-std=candcpp"}
cstd := []string{"-std=gnu17", "-std=conly"}
cppstd := []string{"-std=gnu++20", "-std=cpp", "-fno-rtti"}
lastIncludes := []string{
"out/soong/ndk/sysroot/usr/include",
"out/soong/ndk/sysroot/usr/include/arm-linux-androideabi",
}
combineSlices := func(slices ...[]string) []string {
var ret []string
for _, s := range slices {
ret = append(ret, s...)
}
return ret
}
testCases := []struct {
name string
src string
expected []string
}{
{
name: "c",
src: "foo.c",
expected: combineSlices(baseExpectedFlags, conly, expectedIncludes, cflags, cstd, lastIncludes, []string{"${config.NoOverrideGlobalCflags}", "${config.NoOverrideExternalGlobalCflags}"}),
},
{
name: "cc",
src: "foo.cc",
expected: combineSlices(baseExpectedFlags, cppOnly, expectedIncludes, cflags, cppstd, lastIncludes, []string{"${config.NoOverrideGlobalCflags}", "${config.NoOverrideExternalGlobalCflags}"}),
},
{
name: "assemble",
src: "foo.s",
expected: combineSlices(baseExpectedFlags, []string{"${config.CommonGlobalAsflags}"}, expectedIncludes, lastIncludes),
},
}
for _, tc := range testCases {
t.Run(tc.name, func(t *testing.T) {
bp := fmt.Sprintf(`
cc_library {
name: "libfoo",
srcs: ["%s"],
cflags: ["-std=candcpp"],
conlyflags: ["-std=conly"],
cppflags: ["-std=cpp"],
local_include_dirs: ["local_include_dirs"],
export_include_dirs: ["export_include_dirs"],
export_system_include_dirs: ["export_system_include_dirs"],
static_libs: ["libstatic1", "libstatic2"],
whole_static_libs: ["libwhole1", "libwhole2"],
shared_libs: ["libshared1", "libshared2"],
header_libs: ["libheader1", "libheader2"],
target: {
android: {
shared_libs: ["libandroid"],
local_include_dirs: ["android_local_include_dirs"],
export_include_dirs: ["android_export_include_dirs"],
},
android_arm: {
shared_libs: ["libandroid_arm"],
local_include_dirs: ["android_arm_local_include_dirs"],
export_include_dirs: ["android_arm_export_include_dirs"],
},
linux: {
shared_libs: ["liblinux"],
local_include_dirs: ["linux_local_include_dirs"],
export_include_dirs: ["linux_export_include_dirs"],
},
},
multilib: {
lib32: {
shared_libs: ["lib32"],
local_include_dirs: ["lib32_local_include_dirs"],
export_include_dirs: ["lib32_export_include_dirs"],
},
},
arch: {
arm: {
shared_libs: ["libarm"],
local_include_dirs: ["arm_local_include_dirs"],
export_include_dirs: ["arm_export_include_dirs"],
},
},
stl: "libc++",
sdk_version: "minimum",
}
cc_library_headers {
name: "libheader1",
export_include_dirs: ["libheader1"],
sdk_version: "minimum",
stl: "none",
}
cc_library_headers {
name: "libheader2",
export_include_dirs: ["libheader2"],
sdk_version: "minimum",
stl: "none",
}
`, tc.src)
libs := []string{
"libstatic1",
"libstatic2",
"libwhole1",
"libwhole2",
"libshared1",
"libshared2",
"libandroid",
"libandroid_arm",
"liblinux",
"lib32",
"libarm",
}
for _, lib := range libs {
bp += fmt.Sprintf(`
cc_library {
name: "%s",
export_include_dirs: ["%s"],
sdk_version: "minimum",
stl: "none",
}
`, lib, lib)
}
ctx := android.GroupFixturePreparers(
PrepareForIntegrationTestWithCc,
android.FixtureAddTextFile("external/foo/Android.bp", bp),
).RunTest(t)
// Use the arm variant instead of the arm64 variant so that it gets headers from
// ndk_libandroid_support to test LateStaticLibs.
cflags := ctx.ModuleForTests("libfoo", "android_arm_armv7-a-neon_sdk_static").Output("obj/external/foo/foo.o").Args["cFlags"]
var includes []string
flags := strings.Split(cflags, " ")
for _, flag := range flags {
if strings.HasPrefix(flag, "-I") {
includes = append(includes, strings.TrimPrefix(flag, "-I"))
} else if flag == "-isystem" {
// skip isystem, include next
} else if len(flag) > 0 {
includes = append(includes, flag)
}
}
android.AssertArrayString(t, "includes", tc.expected, includes)
})
}
}
func TestAddnoOverride64GlobalCflags(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_library_shared {
name: "libclient",
srcs: ["foo.c"],
shared_libs: ["libfoo#1"],
}
cc_library_shared {
name: "libfoo",
srcs: ["foo.c"],
shared_libs: ["libbar"],
export_shared_lib_headers: ["libbar"],
stubs: {
symbol_file: "foo.map.txt",
versions: ["1", "2", "3"],
},
}
cc_library_shared {
name: "libbar",
export_include_dirs: ["include/libbar"],
srcs: ["foo.c"],
}`)
cFlags := ctx.ModuleForTests("libclient", "android_arm64_armv8-a_shared").Rule("cc").Args["cFlags"]
if !strings.Contains(cFlags, "${config.NoOverride64GlobalCflags}") {
t.Errorf("expected %q in cflags, got %q", "${config.NoOverride64GlobalCflags}", cFlags)
}
}
func TestCcBuildBrokenClangProperty(t *testing.T) {
t.Parallel()
tests := []struct {
name string
clang bool
BuildBrokenClangProperty bool
err string
}{
{
name: "error when clang is set to false",
clang: false,
err: "is no longer supported",
},
{
name: "error when clang is set to true",
clang: true,
err: "property is deprecated, see Changes.md",
},
{
name: "no error when BuildBrokenClangProperty is explicitly set to true",
clang: true,
BuildBrokenClangProperty: true,
},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
bp := fmt.Sprintf(`
cc_library {
name: "foo",
clang: %t,
}`, test.clang)
if test.err == "" {
android.GroupFixturePreparers(
prepareForCcTest,
android.FixtureModifyProductVariables(func(variables android.FixtureProductVariables) {
if test.BuildBrokenClangProperty {
variables.BuildBrokenClangProperty = test.BuildBrokenClangProperty
}
}),
).RunTestWithBp(t, bp)
} else {
prepareForCcTest.
ExtendWithErrorHandler(android.FixtureExpectsOneErrorPattern(test.err)).
RunTestWithBp(t, bp)
}
})
}
}
func TestCcBuildBrokenClangAsFlags(t *testing.T) {
t.Parallel()
tests := []struct {
name string
clangAsFlags []string
BuildBrokenClangAsFlags bool
err string
}{
{
name: "error when clang_asflags is set",
clangAsFlags: []string{"-a", "-b"},
err: "clang_asflags: property is deprecated",
},
{
name: "no error when BuildBrokenClangAsFlags is explicitly set to true",
clangAsFlags: []string{"-a", "-b"},
BuildBrokenClangAsFlags: true,
},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
bp := fmt.Sprintf(`
cc_library {
name: "foo",
clang_asflags: %s,
}`, `["`+strings.Join(test.clangAsFlags, `","`)+`"]`)
if test.err == "" {
android.GroupFixturePreparers(
prepareForCcTest,
android.FixtureModifyProductVariables(func(variables android.FixtureProductVariables) {
if test.BuildBrokenClangAsFlags {
variables.BuildBrokenClangAsFlags = test.BuildBrokenClangAsFlags
}
}),
).RunTestWithBp(t, bp)
} else {
prepareForCcTest.
ExtendWithErrorHandler(android.FixtureExpectsOneErrorPattern(test.err)).
RunTestWithBp(t, bp)
}
})
}
}
func TestCcBuildBrokenClangCFlags(t *testing.T) {
t.Parallel()
tests := []struct {
name string
clangCFlags []string
BuildBrokenClangCFlags bool
err string
}{
{
name: "error when clang_cflags is set",
clangCFlags: []string{"-a", "-b"},
err: "clang_cflags: property is deprecated",
},
{
name: "no error when BuildBrokenClangCFlags is explicitly set to true",
clangCFlags: []string{"-a", "-b"},
BuildBrokenClangCFlags: true,
},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
bp := fmt.Sprintf(`
cc_library {
name: "foo",
clang_cflags: %s,
}`, `["`+strings.Join(test.clangCFlags, `","`)+`"]`)
if test.err == "" {
android.GroupFixturePreparers(
prepareForCcTest,
android.FixtureModifyProductVariables(func(variables android.FixtureProductVariables) {
if test.BuildBrokenClangCFlags {
variables.BuildBrokenClangCFlags = test.BuildBrokenClangCFlags
}
}),
).RunTestWithBp(t, bp)
} else {
prepareForCcTest.
ExtendWithErrorHandler(android.FixtureExpectsOneErrorPattern(test.err)).
RunTestWithBp(t, bp)
}
})
}
}
func TestStrippedAllOutputFile(t *testing.T) {
t.Parallel()
bp := `
cc_library {
name: "test_lib",
srcs: ["test_lib.cpp"],
dist: {
targets: [ "dist_target" ],
tag: "stripped_all",
}
}
`
config := TestConfig(t.TempDir(), android.Android, nil, bp, nil)
ctx := testCcWithConfig(t, config)
module := ctx.ModuleForTests("test_lib", "android_arm_armv7-a-neon_shared").Module()
outputFile, err := module.(android.OutputFileProducer).OutputFiles("stripped_all")
if err != nil {
t.Errorf("Expected cc_library to produce output files, error: %s", err)
return
}
if !strings.HasSuffix(outputFile.Strings()[0], "/stripped_all/test_lib.so") {
t.Errorf("Unexpected output file: %s", outputFile.Strings()[0])
return
}
}
func TestImageVariants(t *testing.T) {
t.Parallel()
bp := `
cc_binary {
name: "binfoo",
srcs: ["binfoo.cc"],
vendor_available: true,
product_available: true,
shared_libs: ["libbar"]
}
cc_library {
name: "libbar",
srcs: ["libbar.cc"],
vendor_available: true,
product_available: true,
}
`
ctx := prepareForCcTest.RunTestWithBp(t, bp)
hasDep := func(m android.Module, wantDep android.Module) bool {
t.Helper()
var found bool
ctx.VisitDirectDeps(m, func(dep blueprint.Module) {
if dep == wantDep {
found = true
}
})
return found
}
testDepWithVariant := func(imageVariant string) {
imageVariantStr := ""
if imageVariant != "core" {
imageVariantStr = "_" + imageVariant
}
binFooModule := ctx.ModuleForTests("binfoo", "android"+imageVariantStr+"_arm64_armv8-a").Module()
libBarModule := ctx.ModuleForTests("libbar", "android"+imageVariantStr+"_arm64_armv8-a_shared").Module()
android.AssertBoolEquals(t, "binfoo should have dependency on libbar with image variant "+imageVariant, true, hasDep(binFooModule, libBarModule))
}
testDepWithVariant("core")
testDepWithVariant("vendor")
testDepWithVariant("product")
}
func TestVendorSdkVersion(t *testing.T) {
t.Parallel()
bp := `
cc_library {
name: "libfoo",
srcs: ["libfoo.cc"],
vendor_available: true,
}
cc_library {
name: "libbar",
srcs: ["libbar.cc"],
vendor_available: true,
min_sdk_version: "29",
}
`
ctx := prepareForCcTest.RunTestWithBp(t, bp)
testSdkVersionFlag := func(module, version string) {
flags := ctx.ModuleForTests(module, "android_vendor_arm64_armv8-a_static").Rule("cc").Args["cFlags"]
android.AssertStringDoesContain(t, "min sdk version", flags, "-target aarch64-linux-android"+version)
}
testSdkVersionFlag("libfoo", "10000")
testSdkVersionFlag("libbar", "29")
ctx = android.GroupFixturePreparers(
prepareForCcTest,
android.FixtureModifyProductVariables(func(variables android.FixtureProductVariables) {
if variables.BuildFlags == nil {
variables.BuildFlags = make(map[string]string)
}
variables.BuildFlags["RELEASE_BOARD_API_LEVEL_FROZEN"] = "true"
}),
).RunTestWithBp(t, bp)
testSdkVersionFlag("libfoo", "30")
testSdkVersionFlag("libbar", "29")
}
func TestClangVerify(t *testing.T) {
t.Parallel()
ctx := testCc(t, `
cc_library {
name: "lib_no_clang_verify",
srcs: ["libnocv.cc"],
}
cc_library {
name: "lib_clang_verify",
srcs: ["libcv.cc"],
clang_verify: true,
}
`)
module := ctx.ModuleForTests("lib_no_clang_verify", "android_arm64_armv8-a_shared")
cFlags_no_cv := module.Rule("cc").Args["cFlags"]
if strings.Contains(cFlags_no_cv, "-Xclang") || strings.Contains(cFlags_no_cv, "-verify") {
t.Errorf("expected %q not in cflags, got %q", "-Xclang -verify", cFlags_no_cv)
}
cFlags_cv := ctx.ModuleForTests("lib_clang_verify", "android_arm64_armv8-a_shared").Rule("cc").Args["cFlags"]
if strings.Contains(cFlags_cv, "-Xclang") && strings.Contains(cFlags_cv, "-verify") {
t.Errorf("expected %q in cflags, got %q", "-Xclang -verify", cFlags_cv)
}
}