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platform_build_soong/rust/compiler_test.go
Matthew Maurer 1d8e20d744 rust: internalize srcPathFromModuleSrcs 
This was frequently misused (for example, in the prebuilts module, it
was used as a complex "assert(len(srcs))==1"), and can be superceded by
getCrateRoot anywhere it was used. It's now only called from
compiler.go, and can drop the second return parameter, as it was only
actually used by the prebuilt assert misuse.

Bug: 309943184
Test: m nothing
Change-Id: I6c92580bc8f0ecb7586c544056b5409e6dd280e7
2023-11-22 00:52:10 +00:00

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// 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 feature flags are being correctly generated.
func TestFeaturesToFlags(t *testing.T) {
ctx := testRust(t, `
rust_library_host_dylib {
name: "libfoo",
srcs: ["foo.rs"],
crate_name: "foo",
features: [
"fizz",
"buzz"
],
}`)
libfooDylib := ctx.ModuleForTests("libfoo", "linux_glibc_x86_64_dylib").Rule("rustc")
if !strings.Contains(libfooDylib.Args["rustcFlags"], "cfg 'feature=\"fizz\"'") ||
!strings.Contains(libfooDylib.Args["rustcFlags"], "cfg 'feature=\"buzz\"'") {
t.Fatalf("missing fizz and buzz feature flags for libfoo dylib, rustcFlags: %#v", libfooDylib.Args["rustcFlags"])
}
}
// Test that cfgs flags are being correctly generated.
func TestCfgsToFlags(t *testing.T) {
ctx := testRust(t, `
rust_library_host {
name: "libfoo",
srcs: ["foo.rs"],
crate_name: "foo",
cfgs: [
"std",
"cfg1=\"one\""
],
}`)
libfooDylib := ctx.ModuleForTests("libfoo", "linux_glibc_x86_64_dylib").Rule("rustc")
if !strings.Contains(libfooDylib.Args["rustcFlags"], "cfg 'std'") ||
!strings.Contains(libfooDylib.Args["rustcFlags"], "cfg 'cfg1=\"one\"'") {
t.Fatalf("missing std and cfg1 flags for libfoo dylib, rustcFlags: %#v", libfooDylib.Args["rustcFlags"])
}
}
// Test that we reject multiple source files.
func TestEnforceSingleSourceFile(t *testing.T) {
singleSrcError := "srcs can only contain one path for a rust file and source providers prefixed by \":\""
prebuiltSingleSrcError := "prebuilt libraries can only have one entry in srcs"
// Test libraries
testRustError(t, singleSrcError, `
rust_library_host {
name: "foo-bar-library",
srcs: ["foo.rs", "src/bar.rs"],
}`)
// Test binaries
testRustError(t, singleSrcError, `
rust_binary_host {
name: "foo-bar-binary",
srcs: ["foo.rs", "src/bar.rs"],
}`)
// Test proc_macros
testRustError(t, singleSrcError, `
rust_proc_macro {
name: "foo-bar-proc-macro",
srcs: ["foo.rs", "src/bar.rs"],
}`)
// Test prebuilts
testRustError(t, prebuiltSingleSrcError, `
rust_prebuilt_dylib {
name: "foo-bar-prebuilt",
srcs: ["liby.so", "libz.so"],
host_supported: true,
}`)
}
// Test that we reject _no_ source files.
func TestEnforceMissingSourceFiles(t *testing.T) {
singleSrcError := "srcs must not be empty"
// Test libraries
testRustError(t, singleSrcError, `
rust_library_host {
name: "foo-bar-library",
crate_name: "foo",
}`)
// Test binaries
testRustError(t, singleSrcError, `
rust_binary_host {
name: "foo-bar-binary",
crate_name: "foo",
}`)
// Test proc_macros
testRustError(t, singleSrcError, `
rust_proc_macro {
name: "foo-bar-proc-macro",
crate_name: "foo",
}`)
// Test prebuilts
testRustError(t, singleSrcError, `
rust_prebuilt_dylib {
name: "foo-bar-prebuilt",
crate_name: "foo",
host_supported: true,
}`)
}
// Test environment vars for Cargo compat are set.
func TestCargoCompat(t *testing.T) {
ctx := testRust(t, `
rust_binary {
name: "fizz",
srcs: ["foo.rs"],
crate_name: "foo",
cargo_env_compat: true,
cargo_pkg_version: "1.0.0"
}`)
fizz := ctx.ModuleForTests("fizz", "android_arm64_armv8-a").Rule("rustc")
if !strings.Contains(fizz.Args["envVars"], "CARGO_BIN_NAME=fizz") {
t.Fatalf("expected 'CARGO_BIN_NAME=fizz' in envVars, actual envVars: %#v", fizz.Args["envVars"])
}
if !strings.Contains(fizz.Args["envVars"], "CARGO_CRATE_NAME=foo") {
t.Fatalf("expected 'CARGO_CRATE_NAME=foo' in envVars, actual envVars: %#v", fizz.Args["envVars"])
}
if !strings.Contains(fizz.Args["envVars"], "CARGO_PKG_VERSION=1.0.0") {
t.Fatalf("expected 'CARGO_PKG_VERSION=1.0.0' in envVars, actual envVars: %#v", fizz.Args["envVars"])
}
}
func TestInstallDir(t *testing.T) {
ctx := testRust(t, `
rust_library_dylib {
name: "libfoo",
srcs: ["foo.rs"],
crate_name: "foo",
}
rust_binary {
name: "fizzbuzz",
srcs: ["foo.rs"],
}`)
install_path_lib64 := ctx.ModuleForTests("libfoo",
"android_arm64_armv8-a_dylib").Module().(*Module).compiler.(*libraryDecorator).path.String()
install_path_lib32 := ctx.ModuleForTests("libfoo",
"android_arm_armv7-a-neon_dylib").Module().(*Module).compiler.(*libraryDecorator).path.String()
install_path_bin := ctx.ModuleForTests("fizzbuzz",
"android_arm64_armv8-a").Module().(*Module).compiler.(*binaryDecorator).path.String()
if !strings.HasSuffix(install_path_lib64, "system/lib64/libfoo.dylib.so") {
t.Fatalf("unexpected install path for 64-bit library: %#v", install_path_lib64)
}
if !strings.HasSuffix(install_path_lib32, "system/lib/libfoo.dylib.so") {
t.Fatalf("unexpected install path for 32-bit library: %#v", install_path_lib32)
}
if !strings.HasSuffix(install_path_bin, "system/bin/fizzbuzz") {
t.Fatalf("unexpected install path for binary: %#v", install_path_bin)
}
}
func TestLints(t *testing.T) {
bp := `
// foo uses the default value of lints
rust_library {
name: "libfoo",
srcs: ["foo.rs"],
crate_name: "foo",
}
// bar forces the use of the "android" lint set
rust_library {
name: "libbar",
srcs: ["foo.rs"],
crate_name: "bar",
lints: "android",
}
// foobar explicitly disable all lints
rust_library {
name: "libfoobar",
srcs: ["foo.rs"],
crate_name: "foobar",
lints: "none",
}`
var lintTests = []struct {
modulePath string
fooFlags string
}{
{"", "${config.RustDefaultLints}"},
{"external/", "${config.RustAllowAllLints}"},
{"hardware/", "${config.RustVendorLints}"},
}
for _, tc := range lintTests {
t.Run("path="+tc.modulePath, func(t *testing.T) {
result := android.GroupFixturePreparers(
prepareForRustTest,
// Test with the blueprint file in different directories.
android.FixtureAddTextFile(tc.modulePath+"Android.bp", bp),
).RunTest(t)
r := result.ModuleForTests("libfoo", "android_arm64_armv8-a_dylib").MaybeRule("rustc")
android.AssertStringDoesContain(t, "libfoo flags", r.Args["rustcFlags"], tc.fooFlags)
r = result.ModuleForTests("libbar", "android_arm64_armv8-a_dylib").MaybeRule("rustc")
android.AssertStringDoesContain(t, "libbar flags", r.Args["rustcFlags"], "${config.RustDefaultLints}")
r = result.ModuleForTests("libfoobar", "android_arm64_armv8-a_dylib").MaybeRule("rustc")
android.AssertStringDoesContain(t, "libfoobar flags", r.Args["rustcFlags"], "${config.RustAllowAllLints}")
})
}
}
// Test that devices are linking the stdlib dynamically
func TestStdDeviceLinkage(t *testing.T) {
ctx := testRust(t, `
rust_binary {
name: "fizz",
srcs: ["foo.rs"],
}
rust_library {
name: "libfoo",
srcs: ["foo.rs"],
crate_name: "foo",
}`)
fizz := ctx.ModuleForTests("fizz", "android_arm64_armv8-a").Module().(*Module)
fooRlib := ctx.ModuleForTests("libfoo", "android_arm64_armv8-a_rlib_dylib-std").Module().(*Module)
fooDylib := ctx.ModuleForTests("libfoo", "android_arm64_armv8-a_dylib").Module().(*Module)
if !android.InList("libstd", fizz.Properties.AndroidMkDylibs) {
t.Errorf("libstd is not linked dynamically for device binaries")
}
if !android.InList("libstd", fooRlib.Properties.AndroidMkDylibs) {
t.Errorf("libstd is not linked dynamically for rlibs")
}
if !android.InList("libstd", fooDylib.Properties.AndroidMkDylibs) {
t.Errorf("libstd is not linked dynamically for dylibs")
}
}
// Ensure that manual link flags are disallowed.
func TestManualLinkageRejection(t *testing.T) {
// rustc flags
testRustError(t, ".* cannot be manually specified", `
rust_binary {
name: "foo",
srcs: [
"foo.rs",
],
flags: ["-lbar"],
}
`)
testRustError(t, ".* cannot be manually specified", `
rust_binary {
name: "foo",
srcs: [
"foo.rs",
],
flags: ["--extern=foo"],
}
`)
testRustError(t, ".* cannot be manually specified", `
rust_binary {
name: "foo",
srcs: [
"foo.rs",
],
flags: ["-Clink-args=foo"],
}
`)
testRustError(t, ".* cannot be manually specified", `
rust_binary {
name: "foo",
srcs: [
"foo.rs",
],
flags: ["-C link-args=foo"],
}
`)
testRustError(t, ".* cannot be manually specified", `
rust_binary {
name: "foo",
srcs: [
"foo.rs",
],
flags: ["-L foo/"],
}
`)
// lld flags
testRustError(t, ".* cannot be manually specified", `
rust_binary {
name: "foo",
srcs: [
"foo.rs",
],
ld_flags: ["-Wl,-L bar/"],
}
`)
testRustError(t, ".* cannot be manually specified", `
rust_binary {
name: "foo",
srcs: [
"foo.rs",
],
ld_flags: ["-Wl,-lbar"],
}
`)
}
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