//go:build ignore // Cross compile rclone - in go because I hate bash ;-) package main import ( "flag" "fmt" "log" "os" "os/exec" "path" "path/filepath" "regexp" "runtime" "sort" "strings" "sync" "text/template" "time" ) var ( // Flags debug = flag.Bool("d", false, "Print commands instead of running them") parallel = flag.Int("parallel", runtime.NumCPU(), "Number of commands to run in parallel") copyAs = flag.String("release", "", "Make copies of the releases with this name") gitLog = flag.String("git-log", "", "git log to include as well") include = flag.String("include", "^.*$", "os/arch regexp to include") exclude = flag.String("exclude", "^$", "os/arch regexp to exclude") cgo = flag.Bool("cgo", false, "Use cgo for the build") noClean = flag.Bool("no-clean", false, "Don't clean the build directory before running") tags = flag.String("tags", "", "Space separated list of build tags") buildmode = flag.String("buildmode", "", "Passed to go build -buildmode flag") compileOnly = flag.Bool("compile-only", false, "Just build the binary, not the zip") extraEnv = flag.String("env", "", "comma separated list of VAR=VALUE env vars to set") macOSSDK = flag.String("macos-sdk", "", "macOS SDK to use") macOSArch = flag.String("macos-arch", "", "macOS arch to use") extraCgoCFlags = flag.String("cgo-cflags", "", "extra CGO_CFLAGS") extraCgoLdFlags = flag.String("cgo-ldflags", "", "extra CGO_LDFLAGS") ) // GOOS/GOARCH pairs we build for // // If the GOARCH contains a - it is a synthetic arch with more parameters var osarches = []string{ "windows/386", "windows/amd64", "windows/arm64", "darwin/amd64", "darwin/arm64", "linux/386", "linux/amd64", "linux/arm", "linux/arm-v6", "linux/arm-v7", "linux/arm64", "linux/mips", "linux/mipsle", "freebsd/386", "freebsd/amd64", "freebsd/arm", "freebsd/arm-v6", "freebsd/arm-v7", "netbsd/386", "netbsd/amd64", "netbsd/arm", "netbsd/arm-v6", "netbsd/arm-v7", "openbsd/386", "openbsd/amd64", "plan9/386", "plan9/amd64", "solaris/amd64", "js/wasm", } // Special environment flags for a given arch var archFlags = map[string][]string{ "386": {"GO386=softfloat"}, "mips": {"GOMIPS=softfloat"}, "mipsle": {"GOMIPS=softfloat"}, "arm": {"GOARM=5"}, "arm-v6": {"GOARM=6"}, "arm-v7": {"GOARM=7"}, } // Map Go architectures to NFPM architectures // Any missing are passed straight through var goarchToNfpm = map[string]string{ "arm": "arm5", "arm-v6": "arm6", "arm-v7": "arm7", } // runEnv - run a shell command with env func runEnv(args, env []string) error { if *debug { args = append([]string{"echo"}, args...) } cmd := exec.Command(args[0], args[1:]...) if env != nil { cmd.Env = append(os.Environ(), env...) } if *debug { log.Printf("args = %v, env = %v\n", args, cmd.Env) } out, err := cmd.CombinedOutput() if err != nil { log.Print("----------------------------") log.Printf("Failed to run %v: %v", args, err) log.Printf("Command output was:\n%s", out) log.Print("----------------------------") } return err } // run a shell command func run(args ...string) { err := runEnv(args, nil) if err != nil { log.Fatalf("Exiting after error: %v", err) } } // chdir or die func chdir(dir string) { err := os.Chdir(dir) if err != nil { log.Fatalf("Couldn't cd into %q: %v", dir, err) } } // substitute data from go template file in to file out func substitute(inFile, outFile string, data interface{}) { t, err := template.ParseFiles(inFile) if err != nil { log.Fatalf("Failed to read template file %q: %v", inFile, err) } out, err := os.Create(outFile) if err != nil { log.Fatalf("Failed to create output file %q: %v", outFile, err) } defer func() { err := out.Close() if err != nil { log.Fatalf("Failed to close output file %q: %v", outFile, err) } }() err = t.Execute(out, data) if err != nil { log.Fatalf("Failed to substitute template file %q: %v", inFile, err) } } // build the zip package return its name func buildZip(dir string) string { // Now build the zip run("cp", "-a", "../MANUAL.txt", filepath.Join(dir, "README.txt")) run("cp", "-a", "../MANUAL.html", filepath.Join(dir, "README.html")) run("cp", "-a", "../rclone.1", dir) if *gitLog != "" { run("cp", "-a", *gitLog, dir) } zip := dir + ".zip" run("zip", "-r9", zip, dir) return zip } // Build .deb and .rpm packages // // It returns a list of artifacts it has made func buildDebAndRpm(dir, version, goarch string) []string { // Make internal version number acceptable to .deb and .rpm pkgVersion := version[1:] pkgVersion = strings.ReplaceAll(pkgVersion, "β", "-beta") pkgVersion = strings.ReplaceAll(pkgVersion, "-", ".") nfpmArch, ok := goarchToNfpm[goarch] if !ok { nfpmArch = goarch } // Make nfpm.yaml from the template substitute("../bin/nfpm.yaml", path.Join(dir, "nfpm.yaml"), map[string]string{ "Version": pkgVersion, "Arch": nfpmArch, }) // build them var artifacts []string for _, pkg := range []string{".deb", ".rpm"} { artifact := dir + pkg run("bash", "-c", "cd "+dir+" && nfpm -f nfpm.yaml pkg -t ../"+artifact) artifacts = append(artifacts, artifact) } return artifacts } // Trip a version suffix off the arch if present func stripVersion(goarch string) string { i := strings.Index(goarch, "-") if i < 0 { return goarch } return goarch[:i] } // run the command returning trimmed output func runOut(command ...string) string { out, err := exec.Command(command[0], command[1:]...).Output() if err != nil { log.Fatalf("Failed to run %q: %v", command, err) } return strings.TrimSpace(string(out)) } // Generate Windows resource system object file (.syso), which can be picked // up by the following go build for embedding version information and icon // resources into the executable. func generateResourceWindows(version, arch string) func() { sysoPath := fmt.Sprintf("../resource_windows_%s.syso", arch) // Use explicit destination filename, even though it should be same as default, so that we are sure we have the correct reference to it if err := os.Remove(sysoPath); !os.IsNotExist(err) { // Note: This one we choose to treat as fatal, to avoid any risk of picking up an old .syso file without noticing. log.Fatalf("Failed to remove existing Windows %s resource system object file %s: %v", arch, sysoPath, err) } args := []string{"go", "run", "../bin/resource_windows.go", "-arch", arch, "-version", version, "-syso", sysoPath} if err := runEnv(args, nil); err != nil { log.Printf("Warning: Couldn't generate Windows %s resource system object file, binaries will not have version information or icon embedded", arch) return nil } if _, err := os.Stat(sysoPath); err != nil { log.Printf("Warning: Couldn't find generated Windows %s resource system object file, binaries will not have version information or icon embedded", arch) return nil } return func() { if err := os.Remove(sysoPath); err != nil && !os.IsNotExist(err) { log.Printf("Warning: Couldn't remove generated Windows %s resource system object file %s: %v. Please remove it manually.", arch, sysoPath, err) } } } // build the binary in dir returning success or failure func compileArch(version, goos, goarch, dir string) bool { log.Printf("Compiling %s/%s into %s", goos, goarch, dir) goarchBase := stripVersion(goarch) output := filepath.Join(dir, "rclone") if goos == "windows" { output += ".exe" if cleanupFn := generateResourceWindows(version, goarchBase); cleanupFn != nil { defer cleanupFn() } } err := os.MkdirAll(dir, 0777) if err != nil { log.Fatalf("Failed to mkdir: %v", err) } args := []string{ "go", "build", "--ldflags", "-s -X github.com/rclone/rclone/fs.Version=" + version, "-trimpath", "-o", output, "-tags", *tags, } if *buildmode != "" { args = append(args, "-buildmode", *buildmode, ) } args = append(args, "..", ) env := []string{ "GOOS=" + goos, "GOARCH=" + goarchBase, } if *extraEnv != "" { env = append(env, strings.Split(*extraEnv, ",")...) } var ( cgoCFlags []string cgoLdFlags []string ) if *macOSSDK != "" { flag := "-isysroot " + runOut("xcrun", "--sdk", *macOSSDK, "--show-sdk-path") cgoCFlags = append(cgoCFlags, flag) cgoLdFlags = append(cgoLdFlags, flag) } if *macOSArch != "" { flag := "-arch " + *macOSArch cgoCFlags = append(cgoCFlags, flag) cgoLdFlags = append(cgoLdFlags, flag) } if *extraCgoCFlags != "" { cgoCFlags = append(cgoCFlags, *extraCgoCFlags) } if *extraCgoLdFlags != "" { cgoLdFlags = append(cgoLdFlags, *extraCgoLdFlags) } if len(cgoCFlags) > 0 { env = append(env, "CGO_CFLAGS="+strings.Join(cgoCFlags, " ")) } if len(cgoLdFlags) > 0 { env = append(env, "CGO_LDFLAGS="+strings.Join(cgoLdFlags, " ")) } if !*cgo { env = append(env, "CGO_ENABLED=0") } else { env = append(env, "CGO_ENABLED=1") } if flags, ok := archFlags[goarch]; ok { env = append(env, flags...) } err = runEnv(args, env) if err != nil { log.Printf("Error compiling %s/%s: %v", goos, goarch, err) return false } if !*compileOnly { if goos != "js" { artifacts := []string{buildZip(dir)} // build a .deb and .rpm if appropriate if goos == "linux" { artifacts = append(artifacts, buildDebAndRpm(dir, version, goarch)...) } if *copyAs != "" { for _, artifact := range artifacts { run("ln", artifact, strings.Replace(artifact, "-"+version, "-"+*copyAs, 1)) } } } // tidy up run("rm", "-rf", dir) } log.Printf("Done compiling %s/%s", goos, goarch) return true } func compile(version string) { start := time.Now() wg := new(sync.WaitGroup) run := make(chan func(), *parallel) for i := 0; i < *parallel; i++ { wg.Add(1) go func() { defer wg.Done() for f := range run { f() } }() } includeRe, err := regexp.Compile(*include) if err != nil { log.Fatalf("Bad -include regexp: %v", err) } excludeRe, err := regexp.Compile(*exclude) if err != nil { log.Fatalf("Bad -exclude regexp: %v", err) } compiled := 0 var failuresMu sync.Mutex var failures []string for _, osarch := range osarches { if excludeRe.MatchString(osarch) || !includeRe.MatchString(osarch) { continue } parts := strings.Split(osarch, "/") if len(parts) != 2 { log.Fatalf("Bad osarch %q", osarch) } goos, goarch := parts[0], parts[1] userGoos := goos if goos == "darwin" { userGoos = "osx" } dir := filepath.Join("rclone-" + version + "-" + userGoos + "-" + goarch) run <- func() { if !compileArch(version, goos, goarch, dir) { failuresMu.Lock() failures = append(failures, goos+"/"+goarch) failuresMu.Unlock() } } compiled++ } close(run) wg.Wait() log.Printf("Compiled %d arches in %v", compiled, time.Since(start)) if len(failures) > 0 { sort.Strings(failures) log.Printf("%d compile failures:\n %s\n", len(failures), strings.Join(failures, "\n ")) os.Exit(1) } } func main() { flag.Parse() args := flag.Args() if len(args) != 1 { log.Fatalf("Syntax: %s ", os.Args[0]) } version := args[0] if !*noClean { run("rm", "-rf", "build") run("mkdir", "build") } chdir("build") err := os.WriteFile("version.txt", []byte(fmt.Sprintf("rclone %s\n", version)), 0666) if err != nil { log.Fatalf("Couldn't write version.txt: %v", err) } compile(version) }