package main // This file tests the compiler by running Go files in testdata/*.go and // comparing their output with the expected output in testdata/*.txt. import ( "bufio" "bytes" "fmt" "io/ioutil" "os" "os/exec" "path/filepath" "runtime" "sort" "strings" "sync" "testing" "time" "github.com/tinygo-org/tinygo/builder" "github.com/tinygo-org/tinygo/compileopts" "github.com/tinygo-org/tinygo/goenv" ) const TESTDATA = "testdata" func TestCompiler(t *testing.T) { matches, err := filepath.Glob(filepath.Join(TESTDATA, "*.go")) if err != nil { t.Fatal("could not read test files:", err) } dirMatches, err := filepath.Glob(filepath.Join(TESTDATA, "*", "main.go")) if err != nil { t.Fatal("could not read test packages:", err) } if len(matches) == 0 || len(dirMatches) == 0 { t.Fatal("no test files found") } for _, m := range dirMatches { matches = append(matches, filepath.Dir(m)+string(filepath.Separator)) } sort.Strings(matches) if runtime.GOOS != "windows" { t.Run("Host", func(t *testing.T) { runPlatTests("", matches, t) }) } if testing.Short() { return } t.Run("EmulatedCortexM3", func(t *testing.T) { runPlatTests("cortex-m-qemu", matches, t) }) if runtime.GOOS == "windows" || runtime.GOOS == "darwin" { // Note: running only on Windows and macOS because Linux (as of 2020) // usually has an outdated QEMU version that doesn't support RISC-V yet. t.Run("EmulatedRISCV", func(t *testing.T) { runPlatTests("riscv-qemu", matches, t) }) } if runtime.GOOS == "linux" { t.Run("ARMLinux", func(t *testing.T) { runPlatTests("arm--linux-gnueabihf", matches, t) }) t.Run("ARM64Linux", func(t *testing.T) { runPlatTests("aarch64--linux-gnu", matches, t) }) goVersion, err := builder.GorootVersionString(goenv.Get("GOROOT")) if err != nil { t.Error("could not get Go version:", err) return } minorVersion := strings.Split(goVersion, ".")[1] if minorVersion != "13" { // WebAssembly tests fail on Go 1.13, so skip them there. Versions // below that are also not supported but still seem to pass, so // include them in the tests for now. t.Run("WebAssembly", func(t *testing.T) { runPlatTests("wasm", matches, t) }) } } } func runPlatTests(target string, matches []string, t *testing.T) { t.Parallel() for _, path := range matches { path := path // redefine to avoid race condition t.Run(filepath.Base(path), func(t *testing.T) { t.Parallel() runTest(path, target, t) }) } } // Due to some problems with LLD, we cannot run links in parallel, or in parallel with compiles. // Therefore, we put a lock around builds and run everything else in parallel. var buildLock sync.Mutex // runBuild is a thread-safe wrapper around Build. func runBuild(src, out string, opts *compileopts.Options) error { buildLock.Lock() defer buildLock.Unlock() return Build(src, out, opts) } func runTest(path, target string, t *testing.T) { // Get the expected output for this test. txtpath := path[:len(path)-3] + ".txt" if path[len(path)-1] == os.PathSeparator { txtpath = path + "out.txt" } expected, err := ioutil.ReadFile(txtpath) if err != nil { t.Fatal("could not read expected output file:", err) } // Create a temporary directory for test output files. tmpdir, err := ioutil.TempDir("", "tinygo-test") if err != nil { t.Fatal("could not create temporary directory:", err) } defer func() { rerr := os.RemoveAll(tmpdir) if rerr != nil { t.Errorf("failed to remove temporary directory %q: %s", tmpdir, rerr.Error()) } }() // Build the test binary. config := &compileopts.Options{ Target: target, Opt: "z", PrintIR: false, DumpSSA: false, VerifyIR: true, Debug: false, PrintSizes: "", WasmAbi: "js", } binary := filepath.Join(tmpdir, "test") err = runBuild("./"+path, binary, config) if err != nil { printCompilerError(t.Log, err) t.Fail() return } // Run the test. runComplete := make(chan struct{}) var cmd *exec.Cmd ranTooLong := false if target == "" { cmd = exec.Command(binary) } else { spec, err := compileopts.LoadTarget(target) if err != nil { t.Fatal("failed to load target spec:", err) } if len(spec.Emulator) == 0 { t.Fatal("no emulator available for target:", target) } args := append(spec.Emulator[1:], binary) cmd = exec.Command(spec.Emulator[0], args...) } stdout := &bytes.Buffer{} cmd.Stdout = stdout cmd.Stderr = os.Stderr err = cmd.Start() if err != nil { t.Fatal("failed to start:", err) } go func() { // Terminate the process if it runs too long. timer := time.NewTimer(10 * time.Second) select { case <-runComplete: timer.Stop() case <-timer.C: ranTooLong = true if runtime.GOOS == "windows" { cmd.Process.Signal(os.Kill) // Windows doesn't support SIGINT. } else { cmd.Process.Signal(os.Interrupt) } } }() err = cmd.Wait() if _, ok := err.(*exec.ExitError); ok && target != "" { err = nil // workaround for QEMU } close(runComplete) if ranTooLong { stdout.WriteString("--- test ran too long, terminating...\n") } // putchar() prints CRLF, convert it to LF. actual := bytes.Replace(stdout.Bytes(), []byte{'\r', '\n'}, []byte{'\n'}, -1) expected = bytes.Replace(expected, []byte{'\r', '\n'}, []byte{'\n'}, -1) // for Windows // Check whether the command ran successfully. fail := false if err != nil { t.Log("failed to run:", err) fail = true } else if !bytes.Equal(expected, actual) { t.Log("output did not match") fail = true } if fail { r := bufio.NewReader(bytes.NewReader(actual)) for { line, err := r.ReadString('\n') if err != nil { break } t.Log("stdout:", line[:len(line)-1]) } t.Fail() } } // This TestMain is necessary because TinyGo may also be invoked to run certain // LLVM tools in a separate process. Not capturing these invocations would lead // to recursive tests. func TestMain(m *testing.M) { if len(os.Args) >= 2 { switch os.Args[1] { case "clang", "ld.lld", "wasm-ld": // Invoke a specific tool. err := builder.RunTool(os.Args[1], os.Args[2:]...) if err != nil { fmt.Fprintln(os.Stderr, err) os.Exit(1) } os.Exit(0) } } // Run normal tests. os.Exit(m.Run()) }