package main import ( "fmt" "os" "os/exec" "path/filepath" "strconv" "strings" "sync" gosrc "github.com/Morganamilo/go-srcinfo" alpm "github.com/jguer/go-alpm" ) // Install handles package installs func install(parser *arguments) error { var err error var incompatible stringSet var do *depOrder var aurUp upSlice var repoUp upSlice var srcinfos map[string]*gosrc.Srcinfo warnings := &aurWarnings{} removeMake := false if mode == modeAny || mode == modeRepo { if config.CombinedUpgrade { if parser.existsArg("y", "refresh") { err = earlyRefresh(parser) if err != nil { return fmt.Errorf("Error refreshing databases") } } } else if parser.existsArg("y", "refresh") || parser.existsArg("u", "sysupgrade") || len(parser.targets) > 0 { err = earlyPacmanCall(parser) if err != nil { return err } } } //we may have done -Sy, our handle now has an old //database. err = initAlpmHandle() if err != nil { return err } _, _, localNames, remoteNames, err := filterPackages() if err != nil { return err } remoteNamesCache := sliceToStringSet(remoteNames) localNamesCache := sliceToStringSet(localNames) requestTargets := parser.copy().targets //create the arguments to pass for the repo install arguments := parser.copy() arguments.delArg("asdeps", "asdep") arguments.delArg("asexplicit", "asexp") arguments.op = "S" arguments.clearTargets() if mode == modeAUR { arguments.delArg("u", "sysupgrade") } //if we are doing -u also request all packages needing update if parser.existsArg("u", "sysupgrade") { aurUp, repoUp, err = upList(warnings) if err != nil { return err } warnings.print() ignore, aurUp, err := upgradePkgs(aurUp, repoUp) if err != nil { return err } for _, up := range repoUp { if !ignore.get(up.Name) { requestTargets = append(requestTargets, up.Name) parser.addTarget(up.Name) } } for up := range aurUp { requestTargets = append(requestTargets, "aur/"+up) parser.addTarget("aur/" + up) } value, _, exists := cmdArgs.getArg("ignore") if len(ignore) > 0 { ignoreStr := strings.Join(ignore.toSlice(), ",") if exists { ignoreStr += "," + value } arguments.options["ignore"] = ignoreStr } } targets := sliceToStringSet(parser.targets) dp, err := getDepPool(requestTargets, warnings) if err != nil { return err } err = dp.CheckMissing() if err != nil { return err } if len(dp.Aur) == 0 { if !config.CombinedUpgrade { if parser.existsArg("u", "sysupgrade") { fmt.Println(" there is nothing to do") } return nil } parser.op = "S" parser.delArg("y", "refresh") parser.options["ignore"] = arguments.options["ignore"] return show(passToPacman(parser)) } if len(dp.Aur) > 0 && 0 == os.Geteuid() { return fmt.Errorf(bold(red(arrow)) + " Refusing to install AUR Packages as root, Aborting.") } conflicts, err := dp.CheckConflicts() if err != nil { return err } do = getDepOrder(dp) if err != nil { return err } for _, pkg := range do.Repo { arguments.addTarget(pkg.DB().Name() + "/" + pkg.Name()) } for _, pkg := range dp.Groups { arguments.addTarget(pkg) } if len(do.Aur) == 0 && len(arguments.targets) == 0 && (!parser.existsArg("u", "sysupgrade") || mode == modeAUR) { fmt.Println(" there is nothing to do") return nil } do.Print() fmt.Println() if do.HasMake() { if config.RemoveMake == "yes" { removeMake = true } else if config.RemoveMake == "no" { removeMake = false } else if continueTask("Remove make dependencies after install?", false) { removeMake = true } } if config.CleanMenu { if anyExistInCache(do.Aur) { askClean := pkgbuildNumberMenu(do.Aur, remoteNamesCache) toClean, err := cleanNumberMenu(do.Aur, remoteNamesCache, askClean) if err != nil { return err } cleanBuilds(toClean) } } toSkip := pkgbuildsToSkip(do.Aur, targets) cloned, err := downloadPkgbuilds(do.Aur, toSkip, config.BuildDir) if err != nil { return err } var toDiff []Base var toEdit []Base if config.DiffMenu { pkgbuildNumberMenu(do.Aur, remoteNamesCache) toDiff, err = diffNumberMenu(do.Aur, remoteNamesCache) if err != nil { return err } if len(toDiff) > 0 { err = showPkgbuildDiffs(toDiff, cloned) if err != nil { return err } } } if len(toDiff) > 0 { oldValue := config.NoConfirm config.NoConfirm = false fmt.Println() if !continueTask(bold(green("Proceed with install?")), true) { return fmt.Errorf("Aborting due to user") } config.NoConfirm = oldValue } err = mergePkgbuilds(do.Aur) if err != nil { return err } srcinfos, err = parseSrcinfoFiles(do.Aur, true) if err != nil { return err } if config.EditMenu { pkgbuildNumberMenu(do.Aur, remoteNamesCache) toEdit, err = editNumberMenu(do.Aur, remoteNamesCache) if err != nil { return err } if len(toEdit) > 0 { err = editPkgbuilds(toEdit, srcinfos) if err != nil { return err } } } if len(toEdit) > 0 { oldValue := config.NoConfirm config.NoConfirm = false fmt.Println() if !continueTask(bold(green("Proceed with install?")), true) { return fmt.Errorf("Aborting due to user") } config.NoConfirm = oldValue } incompatible, err = getIncompatible(do.Aur, srcinfos) if err != nil { return err } if config.PGPFetch { err = checkPgpKeys(do.Aur, srcinfos) if err != nil { return err } } if !config.CombinedUpgrade { arguments.delArg("u", "sysupgrade") } if len(arguments.targets) > 0 || arguments.existsArg("u") { err := show(passToPacman(arguments)) if err != nil { return fmt.Errorf("Error installing repo packages") } depArguments := makeArguments() depArguments.addArg("D", "asdeps") expArguments := makeArguments() expArguments.addArg("D", "asexplicit") for _, pkg := range do.Repo { if !dp.Explicit.get(pkg.Name()) && !localNamesCache.get(pkg.Name()) && !remoteNamesCache.get(pkg.Name()) { depArguments.addTarget(pkg.Name()) continue } if parser.existsArg("asdeps", "asdep") && dp.Explicit.get(pkg.Name()) { depArguments.addTarget(pkg.Name()) } else if parser.existsArg("asexp", "asexplicit") && dp.Explicit.get(pkg.Name()) { expArguments.addTarget(pkg.Name()) } } if len(depArguments.targets) > 0 { _, stderr, err := capture(passToPacman(depArguments)) if err != nil { return fmt.Errorf("%s%s", stderr, err) } } if len(expArguments.targets) > 0 { _, stderr, err := capture(passToPacman(expArguments)) if err != nil { return fmt.Errorf("%s%s", stderr, err) } } } go updateCompletion(false) err = downloadPkgbuildsSources(do.Aur, incompatible) if err != nil { return err } err = buildInstallPkgbuilds(dp, do, srcinfos, parser, incompatible, conflicts) if err != nil { return err } if removeMake { removeArguments := makeArguments() removeArguments.addArg("R", "u") for _, pkg := range do.getMake() { removeArguments.addTarget(pkg) } oldValue := config.NoConfirm config.NoConfirm = true err = show(passToPacman(removeArguments)) config.NoConfirm = oldValue if err != nil { return err } } if config.CleanAfter { cleanAfter(do.Aur) } return nil } func inRepos(syncDB alpm.DBList, pkg string) bool { target := toTarget(pkg) if target.DB == "aur" { return false } else if target.DB != "" { return true } previousHideMenus := hideMenus hideMenus = false _, err := syncDB.FindSatisfier(target.DepString()) hideMenus = previousHideMenus if err == nil { return true } return !syncDB.FindGroupPkgs(target.Name).Empty() } func earlyPacmanCall(parser *arguments) error { arguments := parser.copy() arguments.op = "S" targets := parser.targets parser.clearTargets() arguments.clearTargets() syncDB, err := alpmHandle.SyncDBs() if err != nil { return err } if mode == modeRepo { arguments.targets = targets } else { //separate aur and repo targets for _, target := range targets { if inRepos(syncDB, target) { arguments.addTarget(target) } else { parser.addTarget(target) } } } if parser.existsArg("y", "refresh") || parser.existsArg("u", "sysupgrade") || len(arguments.targets) > 0 { err = show(passToPacman(arguments)) if err != nil { return fmt.Errorf("Error installing repo packages") } } return nil } func earlyRefresh(parser *arguments) error { arguments := parser.copy() parser.delArg("y", "refresh") arguments.delArg("u", "sysupgrade") arguments.delArg("s", "search") arguments.delArg("i", "info") arguments.delArg("l", "list") arguments.clearTargets() return show(passToPacman(arguments)) } func getIncompatible(bases []Base, srcinfos map[string]*gosrc.Srcinfo) (stringSet, error) { incompatible := make(stringSet) basesMap := make(map[string]Base) alpmArch, err := alpmHandle.Arch() if err != nil { return nil, err } nextpkg: for _, base := range bases { for _, arch := range srcinfos[base.Pkgbase()].Arch { if arch == "any" || arch == alpmArch { continue nextpkg } } incompatible.set(base.Pkgbase()) basesMap[base.Pkgbase()] = base } if len(incompatible) > 0 { fmt.Println() fmt.Print(bold(yellow(arrow)) + " The following packages are not compatible with your architecture:") for pkg := range incompatible { fmt.Print(" " + cyan(basesMap[pkg].String())) } fmt.Println() if !continueTask("Try to build them anyway?", true) { return nil, fmt.Errorf("Aborting due to user") } } return incompatible, nil } func parsePackageList(dir string) (map[string]string, string, error) { stdout, stderr, err := capture(passToMakepkg(dir, "--packagelist")) if err != nil { return nil, "", fmt.Errorf("%s%s", stderr, err) } var version string lines := strings.Split(stdout, "\n") pkgdests := make(map[string]string) for _, line := range lines { if line == "" { continue } fileName := filepath.Base(line) split := strings.Split(fileName, "-") if len(split) < 4 { return nil, "", fmt.Errorf("Can not find package name : %s", split) } // pkgname-pkgver-pkgrel-arch.pkgext // This assumes 3 dashes after the pkgname, Will cause an error // if the PKGEXT contains a dash. Please no one do that. pkgname := strings.Join(split[:len(split)-3], "-") version = strings.Join(split[len(split)-3:len(split)-1], "-") pkgdests[pkgname] = line } return pkgdests, version, nil } func anyExistInCache(bases []Base) bool { for _, base := range bases { pkg := base.Pkgbase() dir := filepath.Join(config.BuildDir, pkg) if _, err := os.Stat(dir); !os.IsNotExist(err) { return true } } return false } func pkgbuildNumberMenu(bases []Base, installed stringSet) bool { toPrint := "" askClean := false for n, base := range bases { pkg := base.Pkgbase() dir := filepath.Join(config.BuildDir, pkg) toPrint += fmt.Sprintf(magenta("%3d")+" %-40s", len(bases)-n, bold(base.String())) anyInstalled := false for _, b := range base { anyInstalled = anyInstalled || installed.get(b.Name) } if anyInstalled { toPrint += bold(green(" (Installed)")) } if _, err := os.Stat(dir); !os.IsNotExist(err) { toPrint += bold(green(" (Build Files Exist)")) askClean = true } toPrint += "\n" } fmt.Print(toPrint) return askClean } func cleanNumberMenu(bases []Base, installed stringSet, hasClean bool) ([]Base, error) { toClean := make([]Base, 0) if !hasClean { return toClean, nil } fmt.Println(bold(green(arrow + " Packages to cleanBuild?"))) fmt.Println(bold(green(arrow) + cyan(" [N]one ") + "[A]ll [Ab]ort [I]nstalled [No]tInstalled or (1 2 3, 1-3, ^4)")) fmt.Print(bold(green(arrow + " "))) cleanInput, err := getInput(config.AnswerClean) if err != nil { return nil, err } cInclude, cExclude, cOtherInclude, cOtherExclude := parseNumberMenu(cleanInput) cIsInclude := len(cExclude) == 0 && len(cOtherExclude) == 0 if cOtherInclude.get("abort") || cOtherInclude.get("ab") { return nil, fmt.Errorf("Aborting due to user") } if !cOtherInclude.get("n") && !cOtherInclude.get("none") { for i, base := range bases { pkg := base.Pkgbase() anyInstalled := false for _, b := range base { anyInstalled = anyInstalled || installed.get(b.Name) } dir := filepath.Join(config.BuildDir, pkg) if _, err := os.Stat(dir); os.IsNotExist(err) { continue } if !cIsInclude && cExclude.get(len(bases)-i) { continue } if anyInstalled && (cOtherInclude.get("i") || cOtherInclude.get("installed")) { toClean = append(toClean, base) continue } if !anyInstalled && (cOtherInclude.get("no") || cOtherInclude.get("notinstalled")) { toClean = append(toClean, base) continue } if cOtherInclude.get("a") || cOtherInclude.get("all") { toClean = append(toClean, base) continue } if cIsInclude && (cInclude.get(len(bases)-i) || cOtherInclude.get(pkg)) { toClean = append(toClean, base) continue } if !cIsInclude && (!cExclude.get(len(bases)-i) && !cOtherExclude.get(pkg)) { toClean = append(toClean, base) continue } } } return toClean, nil } func editNumberMenu(bases []Base, installed stringSet) ([]Base, error) { return editDiffNumberMenu(bases, installed, false) } func diffNumberMenu(bases []Base, installed stringSet) ([]Base, error) { return editDiffNumberMenu(bases, installed, true) } func editDiffNumberMenu(bases []Base, installed stringSet, diff bool) ([]Base, error) { toEdit := make([]Base, 0) var editInput string var err error fmt.Println(bold(green(arrow) + cyan(" [N]one ") + "[A]ll [Ab]ort [I]nstalled [No]tInstalled or (1 2 3, 1-3, ^4)")) if diff { fmt.Println(bold(green(arrow + " Diffs to show?"))) fmt.Print(bold(green(arrow + " "))) editInput, err = getInput(config.AnswerDiff) if err != nil { return nil, err } } else { fmt.Println(bold(green(arrow + " PKGBUILDs to edit?"))) fmt.Print(bold(green(arrow + " "))) editInput, err = getInput(config.AnswerEdit) if err != nil { return nil, err } } eInclude, eExclude, eOtherInclude, eOtherExclude := parseNumberMenu(editInput) eIsInclude := len(eExclude) == 0 && len(eOtherExclude) == 0 if eOtherInclude.get("abort") || eOtherInclude.get("ab") { return nil, fmt.Errorf("Aborting due to user") } if !eOtherInclude.get("n") && !eOtherInclude.get("none") { for i, base := range bases { pkg := base.Pkgbase() anyInstalled := false for _, b := range base { anyInstalled = anyInstalled || installed.get(b.Name) } if !eIsInclude && eExclude.get(len(bases)-i) { continue } if anyInstalled && (eOtherInclude.get("i") || eOtherInclude.get("installed")) { toEdit = append(toEdit, base) continue } if !anyInstalled && (eOtherInclude.get("no") || eOtherInclude.get("notinstalled")) { toEdit = append(toEdit, base) continue } if eOtherInclude.get("a") || eOtherInclude.get("all") { toEdit = append(toEdit, base) continue } if eIsInclude && (eInclude.get(len(bases)-i) || eOtherInclude.get(pkg)) { toEdit = append(toEdit, base) } if !eIsInclude && (!eExclude.get(len(bases)-i) && !eOtherExclude.get(pkg)) { toEdit = append(toEdit, base) } } } return toEdit, nil } func showPkgbuildDiffs(bases []Base, cloned stringSet) error { for _, base := range bases { pkg := base.Pkgbase() dir := filepath.Join(config.BuildDir, pkg) if shouldUseGit(dir) { start := "HEAD" if cloned.get(pkg) { start = gitEmptyTree } else { hasDiff, err := gitHasDiff(config.BuildDir, pkg) if err != nil { return err } if !hasDiff { fmt.Printf("%s %s: %s\n", bold(yellow(arrow)), cyan(base.String()), bold("No changes -- skipping")) continue } } args := []string{"diff", start + "..HEAD@{upstream}", "--src-prefix", dir + "/", "--dst-prefix", dir + "/", "--", ".", ":(exclude).SRCINFO"} if useColor { args = append(args, "--color=always") } else { args = append(args, "--color=never") } err := show(passToGit(dir, args...)) if err != nil { return err } } else { args := []string{"diff"} if useColor { args = append(args, "--color=always") } else { args = append(args, "--color=never") } args = append(args, "--no-index", "/var/empty", dir) // git always returns 1. why? I have no idea show(passToGit(dir, args...)) } } return nil } func editPkgbuilds(bases []Base, srcinfos map[string]*gosrc.Srcinfo) error { pkgbuilds := make([]string, 0, len(bases)) for _, base := range bases { pkg := base.Pkgbase() dir := filepath.Join(config.BuildDir, pkg) pkgbuilds = append(pkgbuilds, filepath.Join(dir, "PKGBUILD")) for _, splitPkg := range srcinfos[pkg].SplitPackages() { if splitPkg.Install != "" { pkgbuilds = append(pkgbuilds, filepath.Join(dir, splitPkg.Install)) } } } if len(pkgbuilds) > 0 { editor, editorArgs := editor() editorArgs = append(editorArgs, pkgbuilds...) editcmd := exec.Command(editor, editorArgs...) editcmd.Stdin, editcmd.Stdout, editcmd.Stderr = os.Stdin, os.Stdout, os.Stderr err := editcmd.Run() if err != nil { return fmt.Errorf("Editor did not exit successfully, Aborting: %s", err) } } return nil } func parseSrcinfoFiles(bases []Base, errIsFatal bool) (map[string]*gosrc.Srcinfo, error) { srcinfos := make(map[string]*gosrc.Srcinfo) for k, base := range bases { pkg := base.Pkgbase() dir := filepath.Join(config.BuildDir, pkg) str := bold(cyan("::") + " Parsing SRCINFO (%d/%d): %s\n") fmt.Printf(str, k+1, len(bases), cyan(base.String())) pkgbuild, err := gosrc.ParseFile(filepath.Join(dir, ".SRCINFO")) if err != nil { if !errIsFatal { fmt.Fprintf(os.Stderr, "failed to parse %s -- skipping: %s\n", base.String(), err) continue } return nil, fmt.Errorf("failed to parse %s: %s", base.String(), err) } srcinfos[pkg] = pkgbuild } return srcinfos, nil } func pkgbuildsToSkip(bases []Base, targets stringSet) stringSet { toSkip := make(stringSet) for _, base := range bases { isTarget := false for _, pkg := range base { isTarget = isTarget || targets.get(pkg.Name) } if (config.ReDownload == "yes" && isTarget) || config.ReDownload == "all" { continue } dir := filepath.Join(config.BuildDir, base.Pkgbase(), ".SRCINFO") pkgbuild, err := gosrc.ParseFile(dir) if err == nil { if alpm.VerCmp(pkgbuild.Version(), base.Version()) >= 0 { toSkip.set(base.Pkgbase()) } } } return toSkip } func mergePkgbuilds(bases []Base) error { for _, base := range bases { if shouldUseGit(filepath.Join(config.BuildDir, base.Pkgbase())) { err := gitMerge(config.BuildDir, base.Pkgbase()) if err != nil { return err } } } return nil } func downloadPkgbuilds(bases []Base, toSkip stringSet, buildDir string) (stringSet, error) { cloned := make(stringSet) downloaded := 0 var wg sync.WaitGroup var mux sync.Mutex var errs MultiError download := func(k int, base Base) { defer wg.Done() pkg := base.Pkgbase() if toSkip.get(pkg) { mux.Lock() downloaded++ str := bold(cyan("::") + " PKGBUILD up to date, Skipping (%d/%d): %s\n") fmt.Printf(str, downloaded, len(bases), cyan(base.String())) mux.Unlock() return } if shouldUseGit(filepath.Join(config.BuildDir, pkg)) { clone, err := gitDownload(config.AURURL+"/"+pkg+".git", buildDir, pkg) if err != nil { errs.Add(err) return } if clone { mux.Lock() cloned.set(pkg) mux.Unlock() } } else { err := downloadAndUnpack(config.AURURL+base.URLPath(), buildDir) if err != nil { errs.Add(err) return } } mux.Lock() downloaded++ str := bold(cyan("::") + " Downloaded PKGBUILD (%d/%d): %s\n") fmt.Printf(str, downloaded, len(bases), cyan(base.String())) mux.Unlock() } count := 0 for k, base := range bases { wg.Add(1) go download(k, base) count++ if count%25 == 0 { wg.Wait() } } wg.Wait() return cloned, errs.Return() } func downloadPkgbuildsSources(bases []Base, incompatible stringSet) (err error) { for _, base := range bases { pkg := base.Pkgbase() dir := filepath.Join(config.BuildDir, pkg) args := []string{"--verifysource", "-Ccf"} if incompatible.get(pkg) { args = append(args, "--ignorearch") } err = show(passToMakepkg(dir, args...)) if err != nil { return fmt.Errorf("Error downloading sources: %s", cyan(base.String())) } } return } func buildInstallPkgbuilds(dp *depPool, do *depOrder, srcinfos map[string]*gosrc.Srcinfo, parser *arguments, incompatible stringSet, conflicts mapStringSet) error { for _, base := range do.Aur { pkg := base.Pkgbase() dir := filepath.Join(config.BuildDir, pkg) built := true srcinfo := srcinfos[pkg] args := []string{"--nobuild", "-fC"} if incompatible.get(pkg) { args = append(args, "--ignorearch") } //pkgver bump err := show(passToMakepkg(dir, args...)) if err != nil { return fmt.Errorf("Error making: %s", base.String()) } pkgdests, version, err := parsePackageList(dir) if err != nil { return err } isExplicit := false for _, b := range base { isExplicit = isExplicit || dp.Explicit.get(b.Name) } if config.ReBuild == "no" || (config.ReBuild == "yes" && !isExplicit) { for _, split := range base { pkgdest, ok := pkgdests[split.Name] if !ok { return fmt.Errorf("Could not find PKGDEST for: %s", split.Name) } _, err := os.Stat(pkgdest) if os.IsNotExist(err) { built = false } else if err != nil { return err } } } else { built = false } if cmdArgs.existsArg("needed") { installed := true for _, split := range base { if alpmpkg := dp.LocalDB.Pkg(split.Name); alpmpkg == nil || alpmpkg.Version() != version { installed = false } } if installed { show(passToMakepkg(dir, "-c", "--nobuild", "--noextract", "--ignorearch")) fmt.Println(cyan(pkg+"-"+version) + bold(" is up to date -- skipping")) continue } } if built { show(passToMakepkg(dir, "-c", "--nobuild", "--noextract", "--ignorearch")) fmt.Println(bold(yellow(arrow)), cyan(pkg+"-"+version)+bold(" already made -- skipping build")) } else { args := []string{"-cf", "--noconfirm", "--noextract", "--noprepare", "--holdver"} if incompatible.get(pkg) { args = append(args, "--ignorearch") } err := show(passToMakepkg(dir, args...)) if err != nil { return fmt.Errorf("Error making: %s", base.String()) } } arguments := parser.copy() arguments.clearTargets() arguments.op = "U" arguments.delArg("confirm") arguments.delArg("noconfirm") arguments.delArg("c", "clean") arguments.delArg("q", "quiet") arguments.delArg("q", "quiet") arguments.delArg("y", "refresh") arguments.delArg("u", "sysupgrade") arguments.delArg("w", "downloadonly") oldConfirm := config.NoConfirm //conflicts have been checked so answer y for them if config.UseAsk { ask, _ := strconv.Atoi(cmdArgs.globals["ask"]) uask := alpm.QuestionType(ask) | alpm.QuestionTypeConflictPkg cmdArgs.globals["ask"] = fmt.Sprint(uask) } else { conflict := false for _, split := range base { if _, ok := conflicts[split.Name]; ok { conflict = true } } if !conflict { config.NoConfirm = true } } depArguments := makeArguments() depArguments.addArg("D", "asdeps") expArguments := makeArguments() expArguments.addArg("D", "asexplicit") //remotenames: names of all non repo packages on the system _, _, localNames, remoteNames, err := filterPackages() if err != nil { return err } //cache as a stringset. maybe make it return a string set in the first //place remoteNamesCache := sliceToStringSet(remoteNames) localNamesCache := sliceToStringSet(localNames) for _, split := range base { pkgdest, ok := pkgdests[split.Name] if !ok { return fmt.Errorf("Could not find PKGDEST for: %s", split.Name) } arguments.addTarget(pkgdest) if !dp.Explicit.get(split.Name) && !localNamesCache.get(split.Name) && !remoteNamesCache.get(split.Name) { depArguments.addTarget(split.Name) } if dp.Explicit.get(split.Name) { if parser.existsArg("asdeps", "asdep") { depArguments.addTarget(split.Name) } else if parser.existsArg("asexplicit", "asexp") { expArguments.addTarget(split.Name) } } } err = show(passToPacman(arguments)) if err != nil { return err } var mux sync.Mutex var wg sync.WaitGroup for _, pkg := range base { wg.Add(1) go updateVCSData(pkg.Name, srcinfo.Source, &mux, &wg) } wg.Wait() err = saveVCSInfo() if err != nil { fmt.Fprintln(os.Stderr, err) } if len(depArguments.targets) > 0 { _, stderr, err := capture(passToPacman(depArguments)) if err != nil { return fmt.Errorf("%s%s", stderr, err) } } config.NoConfirm = oldConfirm } return nil }