// Copyright 2019 The Android Open Source Project // // 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 rust import ( "strings" "testing" "android/soong/android" ) // Test that variants are being generated correctly, and that crate-types are correct. func TestLibraryVariants(t *testing.T) { ctx := testRust(t, ` rust_library_host { name: "libfoo", srcs: ["foo.rs"], crate_name: "foo", } rust_ffi_host { name: "libfoo.ffi", srcs: ["foo.rs"], crate_name: "foo" } rust_ffi_host_static { name: "libfoo.ffi_static", srcs: ["foo.rs"], crate_name: "foo" }`) // Test all variants are being built. libfooRlib := ctx.ModuleForTests(t, "libfoo", "linux_glibc_x86_64_rlib_rlib-std").Rule("rustc") libfooDylib := ctx.ModuleForTests(t, "libfoo", "linux_glibc_x86_64_dylib").Rule("rustc") libfooFFIRlib := ctx.ModuleForTests(t, "libfoo.ffi", "linux_glibc_x86_64_rlib_rlib-std").Rule("rustc") libfooShared := ctx.ModuleForTests(t, "libfoo.ffi", "linux_glibc_x86_64_shared").Rule("rustc") rlibCrateType := "rlib" dylibCrateType := "dylib" sharedCrateType := "cdylib" // Test crate type for rlib is correct. if !strings.Contains(libfooRlib.Args["rustcFlags"], "crate-type="+rlibCrateType) { t.Errorf("missing crate-type for static variant, expecting %#v, rustcFlags: %#v", rlibCrateType, libfooRlib.Args["rustcFlags"]) } // Test crate type for dylib is correct. if !strings.Contains(libfooDylib.Args["rustcFlags"], "crate-type="+dylibCrateType) { t.Errorf("missing crate-type for static variant, expecting %#v, rustcFlags: %#v", dylibCrateType, libfooDylib.Args["rustcFlags"]) } // Test crate type for FFI rlibs is correct if !strings.Contains(libfooFFIRlib.Args["rustcFlags"], "crate-type="+rlibCrateType) { t.Errorf("missing crate-type for static variant, expecting %#v, rustcFlags: %#v", rlibCrateType, libfooFFIRlib.Args["rustcFlags"]) } // Test crate type for C shared libraries is correct. if !strings.Contains(libfooShared.Args["rustcFlags"], "crate-type="+sharedCrateType) { t.Errorf("missing crate-type for shared variant, expecting %#v, got rustcFlags: %#v", sharedCrateType, libfooShared.Args["rustcFlags"]) } } // Test that dylibs are not statically linking the standard library. func TestDylibPreferDynamic(t *testing.T) { ctx := testRust(t, ` rust_library_host_dylib { name: "libfoo", srcs: ["foo.rs"], crate_name: "foo", }`) libfooDylib := ctx.ModuleForTests(t, "libfoo", "linux_glibc_x86_64_dylib").Rule("rustc") if !strings.Contains(libfooDylib.Args["rustcFlags"], "prefer-dynamic") { t.Errorf("missing prefer-dynamic flag for libfoo dylib, rustcFlags: %#v", libfooDylib.Args["rustcFlags"]) } } func TestValidateLibraryStem(t *testing.T) { testRustError(t, "crate_name must be defined.", ` rust_library_host { name: "libfoo", srcs: ["foo.rs"], }`) testRustError(t, "library crate_names must be alphanumeric with underscores allowed", ` rust_library_host { name: "libfoo-bar", srcs: ["foo.rs"], crate_name: "foo-bar" }`) testRustError(t, "Invalid name or stem property; library filenames must start with lib", ` rust_library_host { name: "foobar", srcs: ["foo.rs"], crate_name: "foo_bar" }`) testRustError(t, "Invalid name or stem property; library filenames must start with lib", ` rust_library_host { name: "foobar", stem: "libfoo", srcs: ["foo.rs"], crate_name: "foo_bar" }`) testRustError(t, "Invalid name or stem property; library filenames must start with lib", ` rust_library_host { name: "foobar", stem: "foo_bar", srcs: ["foo.rs"], crate_name: "foo_bar" }`) } func TestSharedLibrary(t *testing.T) { ctx := testRust(t, ` rust_ffi_shared { name: "libfoo", srcs: ["foo.rs"], crate_name: "foo", }`) libfoo := ctx.ModuleForTests(t, "libfoo", "android_arm64_armv8-a_shared") libfooOutput := libfoo.Rule("rustc") if !strings.Contains(libfooOutput.Args["linkFlags"], "-Wl,-soname=libfoo.so") { t.Errorf("missing expected -Wl,-soname linker flag for libfoo shared lib, linkFlags: %#v", libfooOutput.Args["linkFlags"]) } if !android.InList("libstd", libfoo.Module().(*Module).Properties.AndroidMkDylibs) { t.Errorf("Non-static libstd dylib expected to be a dependency of Rust shared libraries. Dylib deps are: %#v", libfoo.Module().(*Module).Properties.AndroidMkDylibs) } } func TestSharedLibraryToc(t *testing.T) { ctx := testRust(t, ` rust_ffi_shared { name: "libfoo", srcs: ["foo.rs"], crate_name: "foo", } cc_binary { name: "fizzbuzz", shared_libs: ["libfoo"], }`) fizzbuzz := ctx.ModuleForTests(t, "fizzbuzz", "android_arm64_armv8-a").Rule("ld") if !android.SuffixInList(fizzbuzz.Implicits.Strings(), "libfoo.so.toc") { t.Errorf("missing expected libfoo.so.toc implicit dependency, instead found: %#v", fizzbuzz.Implicits.Strings()) } } func TestStaticLibraryLinkage(t *testing.T) { ctx := testRust(t, ` rust_ffi_static { name: "libfoo", srcs: ["foo.rs"], crate_name: "foo", }`) libfoo := ctx.ModuleForTests(t, "libfoo", "android_arm64_armv8-a_rlib_rlib-std") if !android.InList("libstd", libfoo.Module().(*Module).Properties.AndroidMkRlibs) { t.Errorf("Static libstd rlib expected to be a dependency of Rust rlib libraries. Rlib deps are: %#v", libfoo.Module().(*Module).Properties.AndroidMkDylibs) } } func TestNativeDependencyOfRlib(t *testing.T) { ctx := testRust(t, ` rust_ffi_static { name: "libffi_static", crate_name: "ffi_static", rlibs: ["librust_rlib"], srcs: ["foo.rs"], } rust_library_rlib { name: "librust_rlib", crate_name: "rust_rlib", srcs: ["foo.rs"], shared_libs: ["libshared_cc_dep"], static_libs: ["libstatic_cc_dep"], } cc_library_shared { name: "libshared_cc_dep", srcs: ["foo.cpp"], } cc_library_static { name: "libstatic_cc_dep", srcs: ["foo.cpp"], } `) rustRlibRlibStd := ctx.ModuleForTests(t, "librust_rlib", "android_arm64_armv8-a_rlib_rlib-std") rustRlibDylibStd := ctx.ModuleForTests(t, "librust_rlib", "android_arm64_armv8-a_rlib_dylib-std") ffiRlib := ctx.ModuleForTests(t, "libffi_static", "android_arm64_armv8-a_rlib_rlib-std") modules := []android.TestingModule{ rustRlibRlibStd, rustRlibDylibStd, ffiRlib, } // librust_rlib specifies -L flag to cc deps output directory on rustc command // and re-export the cc deps to rdep libffi_static // When building rlib crate, rustc doesn't link the native libraries // The build system assumes the cc deps will be at the final linkage (either a shared library or binary) // Hence, these flags are no-op // TODO: We could consider removing these flags for _, module := range modules { if !strings.Contains(module.Rule("rustc").Args["libFlags"], "-L out/soong/.intermediates/libshared_cc_dep/android_arm64_armv8-a_shared/") { t.Errorf( "missing -L flag for libshared_cc_dep of %s, rustcFlags: %#v", module.Module().Name(), rustRlibRlibStd.Rule("rustc").Args["libFlags"], ) } if !strings.Contains(module.Rule("rustc").Args["libFlags"], "-L out/soong/.intermediates/libstatic_cc_dep/android_arm64_armv8-a_static/") { t.Errorf( "missing -L flag for libstatic_cc_dep of %s, rustcFlags: %#v", module.Module().Name(), rustRlibRlibStd.Rule("rustc").Args["libFlags"], ) } } } // Test that variants pull in the right type of rustlib autodep func TestAutoDeps(t *testing.T) { ctx := testRust(t, ` rust_library_host { name: "libbar", srcs: ["bar.rs"], crate_name: "bar", } rust_library_host_rlib { name: "librlib_only", srcs: ["bar.rs"], crate_name: "rlib_only", } rust_library_host { name: "libfoo", srcs: ["foo.rs"], crate_name: "foo", rustlibs: [ "libbar", "librlib_only", ], } rust_ffi_host { name: "libfoo.ffi", srcs: ["foo.rs"], crate_name: "foo", rustlibs: [ "libbar", "librlib_only", ], } rust_ffi_host_static { name: "libfoo.ffi.static", srcs: ["foo.rs"], crate_name: "foo", rustlibs: [ "libbar", "librlib_only", ], }`) libfooRlib := ctx.ModuleForTests(t, "libfoo", "linux_glibc_x86_64_rlib_rlib-std") libfooDylib := ctx.ModuleForTests(t, "libfoo", "linux_glibc_x86_64_dylib") libfooFFIRlib := ctx.ModuleForTests(t, "libfoo.ffi", "linux_glibc_x86_64_rlib_rlib-std") libfooShared := ctx.ModuleForTests(t, "libfoo.ffi", "linux_glibc_x86_64_shared") for _, static := range []android.TestingModule{libfooRlib, libfooFFIRlib} { if !android.InList("libbar.rlib-std", static.Module().(*Module).Properties.AndroidMkRlibs) { t.Errorf("libbar not present as rlib dependency in static lib: %s", static.Module().Name()) } if android.InList("libbar", static.Module().(*Module).Properties.AndroidMkDylibs) { t.Errorf("libbar present as dynamic dependency in static lib: %s", static.Module().Name()) } } for _, dyn := range []android.TestingModule{libfooDylib, libfooShared} { if !android.InList("libbar", dyn.Module().(*Module).Properties.AndroidMkDylibs) { t.Errorf("libbar not present as dynamic dependency in dynamic lib: %s", dyn.Module().Name()) } if android.InList("libbar", dyn.Module().(*Module).Properties.AndroidMkRlibs) { t.Errorf("libbar present as rlib dependency in dynamic lib: %s", dyn.Module().Name()) } if !android.InList("librlib_only", dyn.Module().(*Module).Properties.AndroidMkRlibs) { t.Errorf("librlib_only should be selected by rustlibs as an rlib: %s.", dyn.Module().Name()) } } } // Test that stripped versions are correctly generated and used. func TestStrippedLibrary(t *testing.T) { ctx := testRust(t, ` rust_library_dylib { name: "libfoo", crate_name: "foo", srcs: ["foo.rs"], } rust_library_dylib { name: "libbar", crate_name: "bar", srcs: ["foo.rs"], strip: { none: true } } `) foo := ctx.ModuleForTests(t, "libfoo", "android_arm64_armv8-a_dylib") foo.Output("libfoo.dylib.so") foo.Output("unstripped/libfoo.dylib.so") // Check that the `cp` rule is using the stripped version as input. cp := foo.Rule("android.Cp") if strings.HasSuffix(cp.Input.String(), "unstripped/libfoo.dylib.so") { t.Errorf("installed library not based on stripped version: %v", cp.Input) } fizzBar := ctx.ModuleForTests(t, "libbar", "android_arm64_armv8-a_dylib").MaybeOutput("unstripped/libbar.dylib.so") if fizzBar.Rule != nil { t.Errorf("unstripped library exists, so stripped library has incorrectly been generated") } } func TestLibstdLinkage(t *testing.T) { ctx := testRust(t, ` rust_library { name: "libfoo", srcs: ["foo.rs"], crate_name: "foo", } rust_ffi { name: "libbar", srcs: ["foo.rs"], crate_name: "bar", rustlibs: ["libfoo"], } rust_ffi_static { name: "libbar_static", srcs: ["foo.rs"], crate_name: "bar", rustlibs: ["libfoo"], } rust_ffi { name: "libbar.prefer_rlib", srcs: ["foo.rs"], crate_name: "bar", rustlibs: ["libfoo"], prefer_rlib: true, }`) libfooDylib := ctx.ModuleForTests(t, "libfoo", "android_arm64_armv8-a_dylib").Module().(*Module) libfooRlibStatic := ctx.ModuleForTests(t, "libfoo", "android_arm64_armv8-a_rlib_rlib-std").Module().(*Module) libfooRlibDynamic := ctx.ModuleForTests(t, "libfoo", "android_arm64_armv8-a_rlib_dylib-std").Module().(*Module) libbarShared := ctx.ModuleForTests(t, "libbar", "android_arm64_armv8-a_shared").Module().(*Module) libbarFFIRlib := ctx.ModuleForTests(t, "libbar", "android_arm64_armv8-a_rlib_rlib-std").Module().(*Module) // prefer_rlib works the same for both rust_library and rust_ffi, so a single check is sufficient here. libbarRlibStd := ctx.ModuleForTests(t, "libbar.prefer_rlib", "android_arm64_armv8-a_shared").Module().(*Module) if !android.InList("libstd", libfooRlibStatic.Properties.AndroidMkRlibs) { t.Errorf("rlib-std variant for device rust_library_rlib does not link libstd as an rlib") } if !android.InList("libstd", libfooRlibDynamic.Properties.AndroidMkDylibs) { t.Errorf("dylib-std variant for device rust_library_rlib does not link libstd as an dylib") } if !android.InList("libstd", libfooDylib.Properties.AndroidMkDylibs) { t.Errorf("Device rust_library_dylib does not link libstd as an dylib") } if !android.InList("libstd", libbarShared.Properties.AndroidMkDylibs) { t.Errorf("Device rust_ffi_shared does not link libstd as an dylib") } if !android.InList("libstd", libbarFFIRlib.Properties.AndroidMkRlibs) { t.Errorf("Device rust_ffi_static does not link libstd as an rlib") } if !android.InList("libfoo.rlib-std", libbarFFIRlib.Properties.AndroidMkRlibs) { t.Errorf("Device rust_ffi_static does not link dependent rustlib rlib-std variant") } if !android.InList("libstd", libbarRlibStd.Properties.AndroidMkRlibs) { t.Errorf("rust_ffi with prefer_rlib does not link libstd as an rlib") } } func TestRustFFIExportedIncludes(t *testing.T) { ctx := testRust(t, ` rust_ffi { name: "libbar", srcs: ["foo.rs"], crate_name: "bar", export_include_dirs: ["rust_includes"], host_supported: true, } cc_library_static { name: "libfoo", srcs: ["foo.cpp"], shared_libs: ["libbar"], host_supported: true, }`) libfooStatic := ctx.ModuleForTests(t, "libfoo", "linux_glibc_x86_64_static").Rule("cc") android.AssertStringDoesContain(t, "cFlags for lib module", libfooStatic.Args["cFlags"], " -Irust_includes ") } // Make sure cc_rustlibs_for_make has the expected behavior, and that // cc_library_static does as well. // This is here instead of cc/library_test.go because the test needs to // define a rust_ffi module which can't be done in soong-cc to avoid the // circular dependency. func TestCCRustlibsForMake(t *testing.T) { t.Parallel() result := testRust(t, ` rust_ffi_static { name: "libbar", srcs: ["foo.rs"], crate_name: "bar", export_include_dirs: ["rust_includes"], host_supported: true, } cc_rustlibs_for_make { name: "libmakerustlibs", whole_static_libs: ["libbar"], } cc_library_static { name: "libccstatic", whole_static_libs: ["libbar"], } `) libmakerustlibs := result.ModuleForTests(t, "libmakerustlibs", "android_arm64_armv8-a_static").MaybeRule("rustc") libccstatic := result.ModuleForTests(t, "libccstatic", "android_arm64_armv8-a_static").MaybeRule("rustc") if libmakerustlibs.Output == nil { t.Errorf("cc_rustlibs_for_make is not generating a Rust staticlib when it should") } if libccstatic.Output != nil { t.Errorf("cc_library_static is generating a Rust staticlib when it should not") } } func TestRustVersionScript(t *testing.T) { ctx := testRust(t, ` rust_library { name: "librs", srcs: ["bar.rs"], crate_name: "rs", extra_exported_symbols: "librs.map.txt", } rust_ffi { name: "libffi", srcs: ["foo.rs"], crate_name: "ffi", version_script: "libffi.map.txt", } `) //linkFlags librs := ctx.ModuleForTests(t, "librs", "android_arm64_armv8-a_dylib").Rule("rustc") libffi := ctx.ModuleForTests(t, "libffi", "android_arm64_armv8-a_shared").Rule("rustc") if !strings.Contains(librs.Args["linkFlags"], "-Wl,--version-script=librs.map.txt") { t.Errorf("missing expected -Wl,--version-script= linker flag for libextended shared lib, linkFlags: %#v", librs.Args["linkFlags"]) } if strings.Contains(librs.Args["linkFlags"], "-Wl,--android-version-script=librs.map.txt") { t.Errorf("unexpected -Wl,--android-version-script= linker flag for libextended shared lib, linkFlags: %#v", librs.Args["linkFlags"]) } if !strings.Contains(libffi.Args["linkFlags"], "-Wl,--android-version-script=libffi.map.txt") { t.Errorf("missing -Wl,--android-version-script= linker flag for libreplaced shared lib, linkFlags: %#v", libffi.Args["linkFlags"]) } if strings.Contains(libffi.Args["linkFlags"], "-Wl,--version-script=libffi.map.txt") { t.Errorf("unexpected -Wl,--version-script= linker flag for libextended shared lib, linkFlags: %#v", libffi.Args["linkFlags"]) } } func TestRustVersionScriptPropertyErrors(t *testing.T) { testRustError(t, "version_script: can only be set for rust_ffi modules", ` rust_library { name: "librs", srcs: ["bar.rs"], crate_name: "rs", version_script: "libbar.map.txt", }`) testRustError(t, "version_script and extra_exported_symbols", ` rust_ffi { name: "librs", srcs: ["bar.rs"], crate_name: "rs", version_script: "libbar.map.txt", extra_exported_symbols: "libbar.map.txt", }`) } func TestStubsVersions(t *testing.T) { t.Parallel() bp := ` rust_ffi { name: "libfoo", crate_name: "foo", srcs: ["foo.rs"], stubs: { versions: ["29", "R", "current"], }, } ` ctx := android.GroupFixturePreparers( prepareForRustTest, android.PrepareForTestWithVisibility, rustMockedFiles.AddToFixture(), android.FixtureModifyConfigAndContext(func(config android.Config, ctx *android.TestContext) { config.TestProductVariables.Platform_version_active_codenames = []string{"R"} })).RunTestWithBp(t, bp) variants := ctx.ModuleVariantsForTests("libfoo") for _, expectedVer := range []string{"29", "R", "current"} { expectedVariant := "android_arm_armv7-a-neon_shared_" + expectedVer if !android.InList(expectedVariant, variants) { t.Errorf("missing expected variant: %q", expectedVariant) } } } func TestStubsVersions_NotSorted(t *testing.T) { t.Parallel() bp := ` rust_ffi_shared { name: "libfoo", crate_name: "foo", srcs: ["foo.rs"], stubs: { versions: ["29", "current", "R"], }, } ` fixture := android.GroupFixturePreparers( prepareForRustTest, android.PrepareForTestWithVisibility, rustMockedFiles.AddToFixture(), android.FixtureModifyConfigAndContext(func(config android.Config, ctx *android.TestContext) { config.TestProductVariables.Platform_version_active_codenames = []string{"R"} })) fixture.ExtendWithErrorHandler(android.FixtureExpectsOneErrorPattern(`"libfoo" .*: versions: not sorted`)).RunTestWithBp(t, bp) } func TestStubsVersions_ParseError(t *testing.T) { t.Parallel() bp := ` rust_ffi_shared { name: "libfoo", crate_name: "foo", srcs: ["foo.rs"], stubs: { versions: ["29", "current", "X"], }, } ` fixture := android.GroupFixturePreparers( prepareForRustTest, android.PrepareForTestWithVisibility, rustMockedFiles.AddToFixture(), android.FixtureModifyConfigAndContext(func(config android.Config, ctx *android.TestContext) { config.TestProductVariables.Platform_version_active_codenames = []string{"R"} })) fixture.ExtendWithErrorHandler(android.FixtureExpectsOneErrorPattern(`"libfoo" .*: versions: "X" could not be parsed as an integer and is not a recognized codename`)).RunTestWithBp(t, bp) } func TestVersionedStubs(t *testing.T) { t.Parallel() bp := ` rust_ffi_shared { name: "libFoo", crate_name: "Foo", srcs: ["foo.rs"], stubs: { symbol_file: "foo.map.txt", versions: ["1", "2", "3"], }, } cc_library_shared { name: "libBar", srcs: ["bar.c"], shared_libs: ["libFoo#1"], } rust_library { name: "libbar_rs", crate_name: "bar_rs", srcs: ["bar.rs"], shared_libs: ["libFoo#1"], } rust_ffi { name: "libbar_ffi_rs", crate_name: "bar_ffi_rs", srcs: ["bar.rs"], shared_libs: ["libFoo#1"], } ` ctx := android.GroupFixturePreparers( prepareForRustTest, android.PrepareForTestWithVisibility, rustMockedFiles.AddToFixture()).RunTestWithBp(t, bp) 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 !android.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(t, "libBar", "android_arm64_armv8-a_shared").Rule("ld") libBarFlags := libBarLinkRule.Args["libFlags"] libBarRsRustcRule := ctx.ModuleForTests(t, "libbar_rs", "android_arm64_armv8-a_dylib").Rule("rustc") libBarRsFlags := libBarRsRustcRule.Args["linkFlags"] libBarFfiRsRustcRule := ctx.ModuleForTests(t, "libbar_ffi_rs", "android_arm64_armv8-a_shared").Rule("rustc") libBarFfiRsFlags := libBarFfiRsRustcRule.Args["linkFlags"] libFoo1StubPath := "libFoo/android_arm64_armv8-a_shared_1/unstripped/libFoo.so" if !strings.Contains(libBarFlags, libFoo1StubPath) { t.Errorf("%q is not found in %q", libFoo1StubPath, libBarFlags) } if !strings.Contains(libBarRsFlags, libFoo1StubPath) { t.Errorf("%q is not found in %q", libFoo1StubPath, libBarRsFlags) } if !strings.Contains(libBarFfiRsFlags, libFoo1StubPath) { t.Errorf("%q is not found in %q", libFoo1StubPath, libBarFfiRsFlags) } } func TestCheckConflictingExplicitVersions(t *testing.T) { t.Parallel() bp := ` cc_library_shared { name: "libbar", srcs: ["bar.c"], shared_libs: ["libfoo", "libfoo#impl"], } rust_ffi_shared { name: "libfoo", crate_name: "foo", srcs: ["foo.rs"], stubs: { versions: ["29", "current"], }, } ` fixture := android.GroupFixturePreparers( prepareForRustTest, android.PrepareForTestWithVisibility, rustMockedFiles.AddToFixture()) fixture.ExtendWithErrorHandler(android.FixtureExpectsOneErrorPattern(`duplicate shared libraries with different explicit versions`)).RunTestWithBp(t, bp) } func TestAddnoOverride64GlobalCflags(t *testing.T) { t.Parallel() bp := ` cc_library_shared { name: "libclient", srcs: ["foo.c"], shared_libs: ["libfoo#1"], } rust_ffi_shared { name: "libfoo", crate_name: "foo", srcs: ["foo.c"], shared_libs: ["libbar"], stubs: { symbol_file: "foo.map.txt", versions: ["1", "2", "3"], }, } cc_library_shared { name: "libbar", export_include_dirs: ["include/libbar"], srcs: ["foo.c"], }` ctx := android.GroupFixturePreparers( prepareForRustTest, android.PrepareForTestWithVisibility, rustMockedFiles.AddToFixture()).RunTestWithBp(t, bp) cFlags := ctx.ModuleForTests(t, "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) } } // Make sure the stubs properties can only be used in modules producing shared libs func TestRustStubsFFIOnly(t *testing.T) { testRustError(t, "stubs properties", ` rust_library { name: "libfoo", crate_name: "foo", srcs: ["foo.c"], shared_libs: ["libbar"], stubs: { symbol_file: "foo.map.txt", }, } `) testRustError(t, "stubs properties", ` rust_library { name: "libfoo", crate_name: "foo", srcs: ["foo.c"], shared_libs: ["libbar"], stubs: { versions: ["1"], }, } `) testRustError(t, "stubs properties", ` rust_ffi_static { name: "libfoo", crate_name: "foo", srcs: ["foo.c"], shared_libs: ["libbar"], stubs: { symbol_file: "foo.map.txt", }, } `) testRustError(t, "stubs properties", ` rust_ffi_static { name: "libfoo", crate_name: "foo", srcs: ["foo.c"], shared_libs: ["libbar"], stubs: { versions: ["1"], }, } `) } // TODO: When rust_ffi libraries support export_*_lib_headers, // add a test similar to cc.TestStubsLibReexportsHeaders