platform_build_soong/rust/library_test.go
Ivan Lozano 8d10fc39af rust: Refactor stripped output file path
Rust installed files reside in "$MODULE_OUT/stripped/" when they are
stripped, otherwise they reside in "$MODULE_OUT". However, other parts
of Soong assume that installed files are always in $MODULE_OUT
(cc_modules place *unstripped* files in $MODULE_OUT/unstripped).

This notably causes problems when adding Rust modules as test data in
AndroidMkDataPaths. When Rust modules are parsed by AndroidMkDataPaths,
if they are stripped then they incorrectly get installed as test data
with the path:
<install_root>/<relative_install_path>/stripped/file.

This CL refactors how we handle Rust stripped output such that the
installed file always resides in $MODULE_OUT.

Bug: 171710847
Test: Installed files now always reside in $MODULE_OUT
Change-Id: I53a6ff57a0a5a55cd95ea78ae592ce22abfa20c9
2021-11-09 21:43:58 -05:00

333 lines
11 KiB
Go

// 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"
}`)
// Test all variants are being built.
libfooRlib := ctx.ModuleForTests("libfoo", "linux_glibc_x86_64_rlib_rlib-std").Rule("rustc")
libfooDylib := ctx.ModuleForTests("libfoo", "linux_glibc_x86_64_dylib").Rule("rustc")
libfooStatic := ctx.ModuleForTests("libfoo.ffi", "linux_glibc_x86_64_static").Rule("rustc")
libfooShared := ctx.ModuleForTests("libfoo.ffi", "linux_glibc_x86_64_shared").Rule("rustc")
rlibCrateType := "rlib"
dylibCrateType := "dylib"
sharedCrateType := "cdylib"
staticCrateType := "static"
// 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 C static libraries is correct.
if !strings.Contains(libfooStatic.Args["rustcFlags"], "crate-type="+staticCrateType) {
t.Errorf("missing crate-type for static variant, expecting %#v, rustcFlags: %#v", staticCrateType, libfooStatic.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("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"])
}
}
// Check that we are passing the android_dylib config flag
func TestAndroidDylib(t *testing.T) {
ctx := testRust(t, `
rust_library_host_dylib {
name: "libfoo",
srcs: ["foo.rs"],
crate_name: "foo",
}`)
libfooDylib := ctx.ModuleForTests("libfoo", "linux_glibc_x86_64_dylib").Rule("rustc")
if !strings.Contains(libfooDylib.Args["rustcFlags"], "--cfg 'android_dylib'") {
t.Errorf("missing android_dylib cfg 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<crate_name>", `
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<crate_name>", `
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<crate_name>", `
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("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("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("libfoo", "android_arm64_armv8-a_static")
if !android.InList("libstd", libfoo.Module().(*Module).Properties.AndroidMkRlibs) {
t.Errorf("Static libstd rlib expected to be a dependency of Rust static libraries. Rlib deps are: %#v",
libfoo.Module().(*Module).Properties.AndroidMkDylibs)
}
}
// 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 {
name: "libfoo",
srcs: ["foo.rs"],
crate_name: "foo",
rustlibs: ["libbar"],
}
rust_ffi_host {
name: "libfoo.ffi",
srcs: ["foo.rs"],
crate_name: "foo",
rustlibs: ["libbar"],
}`)
libfooRlib := ctx.ModuleForTests("libfoo", "linux_glibc_x86_64_rlib_rlib-std")
libfooDylib := ctx.ModuleForTests("libfoo", "linux_glibc_x86_64_dylib")
libfooStatic := ctx.ModuleForTests("libfoo.ffi", "linux_glibc_x86_64_static")
libfooShared := ctx.ModuleForTests("libfoo.ffi", "linux_glibc_x86_64_shared")
for _, static := range []android.TestingModule{libfooRlib, libfooStatic} {
if !android.InList("libbar.rlib-std", static.Module().(*Module).Properties.AndroidMkRlibs) {
t.Errorf("libbar not present as rlib dependency in static lib")
}
if android.InList("libbar", static.Module().(*Module).Properties.AndroidMkDylibs) {
t.Errorf("libbar present as dynamic dependency in static lib")
}
}
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")
}
if android.InList("libbar.dylib-std", dyn.Module().(*Module).Properties.AndroidMkRlibs) {
t.Errorf("libbar present as rlib dependency in dynamic lib")
}
}
}
// 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("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("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 {
name: "libbar.prefer_rlib",
srcs: ["foo.rs"],
crate_name: "bar",
rustlibs: ["libfoo"],
prefer_rlib: true,
}`)
libfooDylib := ctx.ModuleForTests("libfoo", "android_arm64_armv8-a_dylib").Module().(*Module)
libfooRlibStatic := ctx.ModuleForTests("libfoo", "android_arm64_armv8-a_rlib_rlib-std").Module().(*Module)
libfooRlibDynamic := ctx.ModuleForTests("libfoo", "android_arm64_armv8-a_rlib_dylib-std").Module().(*Module)
libbarShared := ctx.ModuleForTests("libbar", "android_arm64_armv8-a_shared").Module().(*Module)
libbarStatic := ctx.ModuleForTests("libbar", "android_arm64_armv8-a_static").Module().(*Module)
// prefer_rlib works the same for both rust_library and rust_ffi, so a single check is sufficient here.
libbarRlibStd := ctx.ModuleForTests("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", libbarStatic.Properties.AndroidMkRlibs) {
t.Errorf("Device rust_ffi_static does not link libstd as an rlib")
}
if !android.InList("libfoo.rlib-std", libbarStatic.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")
}
}