// Copyright 2016 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 ( "path/filepath" "strings" "android/soong/android" "android/soong/tradefed" ) type TestProperties struct { // if set, build against the gtest library. Defaults to true. Gtest *bool // if set, use the isolated gtest runner. Defaults to false. Isolated *bool } // Test option struct. type TestOptions struct { // The UID that you want to run the test as on a device. Run_test_as *string } type TestBinaryProperties struct { // Create a separate binary for each source file. Useful when there is // global state that can not be torn down and reset between each test suite. Test_per_src *bool // Disables the creation of a test-specific directory when used with // relative_install_path. Useful if several tests need to be in the same // directory, but test_per_src doesn't work. No_named_install_directory *bool // list of files or filegroup modules that provide data that should be installed alongside // the test Data []string `android:"path"` // list of compatibility suites (for example "cts", "vts") that the module should be // installed into. Test_suites []string `android:"arch_variant"` // the name of the test configuration (for example "AndroidTest.xml") that should be // installed with the module. Test_config *string `android:"path,arch_variant"` // the name of the test configuration template (for example "AndroidTestTemplate.xml") that // should be installed with the module. Test_config_template *string `android:"path,arch_variant"` // Test options. Test_options TestOptions // Add RootTargetPreparer to auto generated test config. This guarantees the test to run // with root permission. Require_root *bool } func init() { android.RegisterModuleType("cc_test", TestFactory) android.RegisterModuleType("cc_test_library", TestLibraryFactory) android.RegisterModuleType("cc_benchmark", BenchmarkFactory) android.RegisterModuleType("cc_test_host", TestHostFactory) android.RegisterModuleType("cc_benchmark_host", BenchmarkHostFactory) } // cc_test generates a test config file and an executable binary file to test // specific functionality on a device. The executable binary gets an implicit // static_libs dependency on libgtests unless the gtest flag is set to false. func TestFactory() android.Module { module := NewTest(android.HostAndDeviceSupported) return module.Init() } // cc_test_library creates an archive of files (i.e. .o files) which is later // referenced by another module (such as cc_test, cc_defaults or cc_test_library) // for archiving or linking. func TestLibraryFactory() android.Module { module := NewTestLibrary(android.HostAndDeviceSupported) return module.Init() } // cc_benchmark compiles an executable binary that performs benchmark testing // of a specific component in a device. Additional files such as test suites // and test configuration are installed on the side of the compiled executed // binary. func BenchmarkFactory() android.Module { module := NewBenchmark(android.HostAndDeviceSupported) return module.Init() } // cc_test_host compiles a test host binary. func TestHostFactory() android.Module { module := NewTest(android.HostSupported) return module.Init() } // cc_benchmark_host compiles an executable binary that performs benchmark // testing of a specific component in the host. Additional files such as // test suites and test configuration are installed on the side of the // compiled executed binary. func BenchmarkHostFactory() android.Module { module := NewBenchmark(android.HostSupported) return module.Init() } type testPerSrc interface { testPerSrc() bool srcs() []string setSrc(string, string) } func (test *testBinary) testPerSrc() bool { return Bool(test.Properties.Test_per_src) } func (test *testBinary) srcs() []string { return test.baseCompiler.Properties.Srcs } func (test *testBinary) setSrc(name, src string) { test.baseCompiler.Properties.Srcs = []string{src} test.binaryDecorator.Properties.Stem = StringPtr(name) } var _ testPerSrc = (*testBinary)(nil) func testPerSrcMutator(mctx android.BottomUpMutatorContext) { if m, ok := mctx.Module().(*Module); ok { if test, ok := m.linker.(testPerSrc); ok { if test.testPerSrc() && len(test.srcs()) > 0 { if duplicate, found := checkDuplicate(test.srcs()); found { mctx.PropertyErrorf("srcs", "found a duplicate entry %q", duplicate) return } testNames := make([]string, len(test.srcs())) for i, src := range test.srcs() { testNames[i] = strings.TrimSuffix(filepath.Base(src), filepath.Ext(src)) } tests := mctx.CreateLocalVariations(testNames...) for i, src := range test.srcs() { tests[i].(*Module).linker.(testPerSrc).setSrc(testNames[i], src) } } } } } func checkDuplicate(values []string) (duplicate string, found bool) { seen := make(map[string]string) for _, v := range values { if duplicate, found = seen[v]; found { return } seen[v] = v } return } type testDecorator struct { Properties TestProperties linker *baseLinker } func (test *testDecorator) gtest() bool { return BoolDefault(test.Properties.Gtest, true) } func (test *testDecorator) linkerFlags(ctx ModuleContext, flags Flags) Flags { if !test.gtest() { return flags } flags.CFlags = append(flags.CFlags, "-DGTEST_HAS_STD_STRING") if ctx.Host() { flags.CFlags = append(flags.CFlags, "-O0", "-g") switch ctx.Os() { case android.Windows: flags.CFlags = append(flags.CFlags, "-DGTEST_OS_WINDOWS") case android.Linux: flags.CFlags = append(flags.CFlags, "-DGTEST_OS_LINUX") case android.Darwin: flags.CFlags = append(flags.CFlags, "-DGTEST_OS_MAC") } } else { flags.CFlags = append(flags.CFlags, "-DGTEST_OS_LINUX_ANDROID") } return flags } func (test *testDecorator) linkerDeps(ctx BaseModuleContext, deps Deps) Deps { if test.gtest() { if ctx.useSdk() && ctx.Device() { deps.StaticLibs = append(deps.StaticLibs, "libgtest_main_ndk_c++", "libgtest_ndk_c++") } else if BoolDefault(test.Properties.Isolated, false) { deps.StaticLibs = append(deps.StaticLibs, "libgtest_isolated_main") } else { deps.StaticLibs = append(deps.StaticLibs, "libgtest_main", "libgtest") } } return deps } func (test *testDecorator) linkerInit(ctx BaseModuleContext, linker *baseLinker) { // 1. Add ../../lib[64] to rpath so that out/host/linux-x86/nativetest// can // find out/host/linux-x86/lib[64]/library.so // 2. Add ../../../lib[64] to rpath so that out/host/linux-x86/testcases/// can // also find out/host/linux-x86/lib[64]/library.so runpaths := []string{"../../lib", "../../../lib"} for _, runpath := range runpaths { if ctx.toolchain().Is64Bit() { runpath += "64" } linker.dynamicProperties.RunPaths = append(linker.dynamicProperties.RunPaths, runpath) } // add "" to rpath so that test binaries can find libraries in their own test directory linker.dynamicProperties.RunPaths = append(linker.dynamicProperties.RunPaths, "") } func (test *testDecorator) linkerProps() []interface{} { return []interface{}{&test.Properties} } func NewTestInstaller() *baseInstaller { return NewBaseInstaller("nativetest", "nativetest64", InstallInData) } type testBinary struct { testDecorator *binaryDecorator *baseCompiler Properties TestBinaryProperties data android.Paths testConfig android.Path } func (test *testBinary) linkerProps() []interface{} { props := append(test.testDecorator.linkerProps(), test.binaryDecorator.linkerProps()...) props = append(props, &test.Properties) return props } func (test *testBinary) linkerInit(ctx BaseModuleContext) { test.testDecorator.linkerInit(ctx, test.binaryDecorator.baseLinker) test.binaryDecorator.linkerInit(ctx) } func (test *testBinary) linkerDeps(ctx DepsContext, deps Deps) Deps { deps = test.testDecorator.linkerDeps(ctx, deps) deps = test.binaryDecorator.linkerDeps(ctx, deps) return deps } func (test *testBinary) linkerFlags(ctx ModuleContext, flags Flags) Flags { flags = test.binaryDecorator.linkerFlags(ctx, flags) flags = test.testDecorator.linkerFlags(ctx, flags) return flags } func (test *testBinary) install(ctx ModuleContext, file android.Path) { test.data = android.PathsForModuleSrc(ctx, test.Properties.Data) var configs []tradefed.Config if Bool(test.Properties.Require_root) { configs = append(configs, tradefed.Preparer{"com.android.tradefed.targetprep.RootTargetPreparer"}) } if Bool(test.testDecorator.Properties.Isolated) { configs = append(configs, tradefed.Option{"not-shardable", "true"}) } if test.Properties.Test_options.Run_test_as != nil { configs = append(configs, tradefed.Option{"run-test-as", String(test.Properties.Test_options.Run_test_as)}) } test.testConfig = tradefed.AutoGenNativeTestConfig(ctx, test.Properties.Test_config, test.Properties.Test_config_template, test.Properties.Test_suites, configs) test.binaryDecorator.baseInstaller.dir = "nativetest" test.binaryDecorator.baseInstaller.dir64 = "nativetest64" if !Bool(test.Properties.No_named_install_directory) { test.binaryDecorator.baseInstaller.relative = ctx.ModuleName() } else if String(test.binaryDecorator.baseInstaller.Properties.Relative_install_path) == "" { ctx.PropertyErrorf("no_named_install_directory", "Module install directory may only be disabled if relative_install_path is set") } test.binaryDecorator.baseInstaller.install(ctx, file) } func NewTest(hod android.HostOrDeviceSupported) *Module { module, binary := NewBinary(hod) module.multilib = android.MultilibBoth binary.baseInstaller = NewTestInstaller() test := &testBinary{ testDecorator: testDecorator{ linker: binary.baseLinker, }, binaryDecorator: binary, baseCompiler: NewBaseCompiler(), } module.compiler = test module.linker = test module.installer = test return module } type testLibrary struct { testDecorator *libraryDecorator } func (test *testLibrary) linkerProps() []interface{} { return append(test.testDecorator.linkerProps(), test.libraryDecorator.linkerProps()...) } func (test *testLibrary) linkerInit(ctx BaseModuleContext) { test.testDecorator.linkerInit(ctx, test.libraryDecorator.baseLinker) test.libraryDecorator.linkerInit(ctx) } func (test *testLibrary) linkerDeps(ctx DepsContext, deps Deps) Deps { deps = test.testDecorator.linkerDeps(ctx, deps) deps = test.libraryDecorator.linkerDeps(ctx, deps) return deps } func (test *testLibrary) linkerFlags(ctx ModuleContext, flags Flags) Flags { flags = test.libraryDecorator.linkerFlags(ctx, flags) flags = test.testDecorator.linkerFlags(ctx, flags) return flags } func NewTestLibrary(hod android.HostOrDeviceSupported) *Module { module, library := NewLibrary(android.HostAndDeviceSupported) library.baseInstaller = NewTestInstaller() test := &testLibrary{ testDecorator: testDecorator{ linker: library.baseLinker, }, libraryDecorator: library, } module.linker = test return module } type BenchmarkProperties struct { // list of files or filegroup modules that provide data that should be installed alongside // the test Data []string `android:"path"` // list of compatibility suites (for example "cts", "vts") that the module should be // installed into. Test_suites []string `android:"arch_variant"` // the name of the test configuration (for example "AndroidTest.xml") that should be // installed with the module. Test_config *string `android:"path,arch_variant"` // the name of the test configuration template (for example "AndroidTestTemplate.xml") that // should be installed with the module. Test_config_template *string `android:"path,arch_variant"` // Add RootTargetPreparer to auto generated test config. This guarantees the test to run // with root permission. Require_root *bool } type benchmarkDecorator struct { *binaryDecorator Properties BenchmarkProperties data android.Paths testConfig android.Path } func (benchmark *benchmarkDecorator) linkerInit(ctx BaseModuleContext) { runpath := "../../lib" if ctx.toolchain().Is64Bit() { runpath += "64" } benchmark.baseLinker.dynamicProperties.RunPaths = append(benchmark.baseLinker.dynamicProperties.RunPaths, runpath) benchmark.binaryDecorator.linkerInit(ctx) } func (benchmark *benchmarkDecorator) linkerProps() []interface{} { props := benchmark.binaryDecorator.linkerProps() props = append(props, &benchmark.Properties) return props } func (benchmark *benchmarkDecorator) linkerDeps(ctx DepsContext, deps Deps) Deps { deps = benchmark.binaryDecorator.linkerDeps(ctx, deps) deps.StaticLibs = append(deps.StaticLibs, "libgoogle-benchmark") return deps } func (benchmark *benchmarkDecorator) install(ctx ModuleContext, file android.Path) { benchmark.data = android.PathsForModuleSrc(ctx, benchmark.Properties.Data) var configs []tradefed.Config if Bool(benchmark.Properties.Require_root) { configs = append(configs, tradefed.Preparer{"com.android.tradefed.targetprep.RootTargetPreparer"}) } benchmark.testConfig = tradefed.AutoGenNativeBenchmarkTestConfig(ctx, benchmark.Properties.Test_config, benchmark.Properties.Test_config_template, benchmark.Properties.Test_suites, configs) benchmark.binaryDecorator.baseInstaller.dir = filepath.Join("benchmarktest", ctx.ModuleName()) benchmark.binaryDecorator.baseInstaller.dir64 = filepath.Join("benchmarktest64", ctx.ModuleName()) benchmark.binaryDecorator.baseInstaller.install(ctx, file) } func NewBenchmark(hod android.HostOrDeviceSupported) *Module { module, binary := NewBinary(hod) module.multilib = android.MultilibBoth binary.baseInstaller = NewBaseInstaller("benchmarktest", "benchmarktest64", InstallInData) benchmark := &benchmarkDecorator{ binaryDecorator: binary, } module.linker = benchmark module.installer = benchmark return module }