package main import ( "bufio" "encoding/json" "errors" "fmt" "os" "os/exec" "path/filepath" "strconv" "strings" ) var cmdArgs = makeArguments() func usage() { fmt.Println(`Usage: yay [...] yay operations: yay {-h --help} yay {-V --version} yay {-D --database} yay {-F --files} [options] [package(s)] yay {-Q --query} [options] [package(s)] yay {-R --remove} [options] yay {-S --sync} [options] [package(s)] yay {-T --deptest} [options] [package(s)] yay {-U --upgrade} [options] New operations: yay {-Y --yay} [options] [package(s)] yay {-P --print} [options] yay {-G --getpkgbuild} [package(s)] Permanent configuration options: --topdown Shows repository's packages first and then AUR's --bottomup Shows AUR's packages first and then repository's --devel Check -git/-svn/-hg development version --nodevel Disable development version checking --afterclean Clean package sources after successful build --noafterclean Disable package sources cleaning after successful build --timeupdate Check package's modification date and version --notimeupdate Check only package version change Print specific options: -c --complete Used for completions -d --defaultconfig Print current yay configuration -n --numberupgrades Print number of updates -s --stats Display system package statistics -u --upgrades Print update list Yay specific options: -g --getpkgbuild Download PKGBUILD from ABS or AUR -c --clean Remove unneeded dependencies --gendb Generates development package DB used for updating. If no operation is provided -Y will be assumed `) } func initYay() (err error) { var configHome string // configHome handles config directory home var cacheHome string // cacheHome handles cache home if 0 == os.Geteuid() { fmt.Println("Please avoid running yay as root/sudo.") } if configHome = os.Getenv("XDG_CONFIG_HOME"); configHome != "" { if info, err := os.Stat(configHome); err == nil && info.IsDir() { configHome = configHome + "/yay" } else { configHome = os.Getenv("HOME") + "/.config/yay" } } else { configHome = os.Getenv("HOME") + "/.config/yay" } if cacheHome = os.Getenv("XDG_CACHE_HOME"); cacheHome != "" { if info, err := os.Stat(cacheHome); err == nil && info.IsDir() { cacheHome = cacheHome + "/yay" } else { cacheHome = os.Getenv("HOME") + "/.cache/yay" } } else { cacheHome = os.Getenv("HOME") + "/.cache/yay" } configFile = configHome + "/config.json" vcsFile = configHome + "/yay_vcs.json" completionFile = cacheHome + "/aur_" //////////////// // yay config // //////////////// defaultSettings(&config) if _, err = os.Stat(configFile); os.IsNotExist(err) { err = os.MkdirAll(filepath.Dir(configFile), 0755) if err != nil { err = fmt.Errorf("Unable to create config directory:\n%s\n"+ "The error was:\n%s", filepath.Dir(configFile), err) return } // Save the default config if nothing is found config.saveConfig() } else { cfile, errf := os.OpenFile(configFile, os.O_RDWR|os.O_CREATE, 0644) if errf != nil { fmt.Printf("Error reading config: %s\n", err) } else { defer cfile.Close() decoder := json.NewDecoder(cfile) err = decoder.Decode(&config) if err != nil { fmt.Println("Loading default Settings.\nError reading config:", err) defaultSettings(&config) } } } ///////////////// // vcs config // //////////////// updated = false vfile, err := os.OpenFile(vcsFile, os.O_RDONLY|os.O_CREATE, 0644) if err == nil { defer vfile.Close() decoder := json.NewDecoder(vfile) _ = decoder.Decode(&savedInfo) } return } func initAlpm() (err error) { ///////////////// // alpm config // ///////////////// var value string var exists bool //var double bool value, _, exists = cmdArgs.getArg("config") if exists { config.PacmanConf = value } alpmConf, err = readAlpmConfig(config.PacmanConf) if err != nil { err = fmt.Errorf("Unable to read Pacman conf: %s", err) return } value, _, exists = cmdArgs.getArg("dbpath", "b") if exists { alpmConf.DBPath = value } value, _, exists = cmdArgs.getArg("root", "r") if exists { alpmConf.RootDir = value } value, _, exists = cmdArgs.getArg("arch") if exists { alpmConf.Architecture = value } //TODO //current system does not allow duplicate arguments //but pacman allows multiple cachdirs to be passed //for now only handle one cache dir value, _, exists = cmdArgs.getArg("cachdir") if exists { alpmConf.CacheDir = []string{value} } value, _, exists = cmdArgs.getArg("gpgdir") if exists { alpmConf.GPGDir = value } alpmHandle, err = alpmConf.CreateHandle() if err != nil { err = fmt.Errorf("Unable to CreateHandle: %s", err) return } return } func main() { var status int var err error err = cmdArgs.parseCommandLine() if err != nil { fmt.Println(err) status = 1 goto cleanup } err = initYay() if err != nil { fmt.Println(err) status = 1 goto cleanup } err = initAlpm() if err != nil { fmt.Println(err) status = 1 goto cleanup } err = handleCmd() if err != nil { fmt.Println(err) status = 1 goto cleanup } //ive used a goto here //i think its the best way to do this sort of thing cleanup: //cleanup //from here on out dont exit if an error occurs //if we fail to save the configuration //at least continue on and try clean up other parts if updated { err = saveVCSInfo() if err != nil { fmt.Println(err) status = 1 } } if changedConfig { err = config.saveConfig() if err != nil { fmt.Println(err) status = 1 } } if alpmHandle != nil { err = alpmHandle.Release() if err != nil { fmt.Println(err) status = 1 } } os.Exit(status) } func handleCmd() (err error) { for option := range cmdArgs.options { if handleConfig(option) { cmdArgs.delArg(option) } } for option := range cmdArgs.globals { if handleConfig(option) { cmdArgs.delArg(option) } } switch cmdArgs.op { case "V", "version": handleVersion() case "D", "database": passToPacman(cmdArgs) case "F", "files": passToPacman(cmdArgs) case "Q", "query": passToPacman(cmdArgs) case "R", "remove": handleRemove() case "S", "sync": err = handleSync() case "T", "deptest": passToPacman(cmdArgs) case "U", "upgrade": passToPacman(cmdArgs) case "G", "getpkgbuild": err = handleGetpkgbuild() case "P", "print": err = handlePrint() case "Y", "--yay": err = handleYay() default: //this means we allowed an op but not implement it //if this happens it an error in the code and not the usage err = fmt.Errorf("unhandled operation") } return } //this function should only set config options //but currently still uses the switch left over from old code //eventually this should be refactored out futher //my current plan is to have yay specific operations in its own operator //e.g. yay -Y --gendb //e.g yay -Yg func handleConfig(option string) bool { switch option { case "afterclean": config.CleanAfter = true case "noafterclean": config.CleanAfter = false // case "gendb": // err = createDevelDB() // if err != nil { // fmt.Println(err) // } // err = saveVCSInfo() // if err != nil { // fmt.Println(err) // } // os.Exit(0) case "devel": config.Devel = true case "nodevel": config.Devel = false case "timeupdate": config.TimeUpdate = true case "notimeupdate": config.TimeUpdate = false case "topdown": config.SortMode = TopDown case "bottomup": config.SortMode = BottomUp // case "help": // usage() // os.Exit(0) // case "version": // fmt.Printf("yay v%s\n", version) // os.Exit(0) case "noconfirm": config.NoConfirm = true default: return false } changedConfig = true return true } func handleVersion() { fmt.Printf("yay v%s\n", version) } func handlePrint() (err error) { switch { case cmdArgs.existsArg("d", "defaultconfig"): fmt.Printf("%#v", config) case cmdArgs.existsArg("n", "numberupgrades"): err = printNumberOfUpdates() if err != nil { return } case cmdArgs.existsArg("u", "upgrades"): err = printUpdateList() if err != nil { return } case cmdArgs.existsArg("c", "complete"): switch { case cmdArgs.existsArg("f", "fish"): complete("fish") default: complete("sh") } case cmdArgs.existsArg("s", "stats"): err = localStatistics() default: return nil } return nil } func handleYay() (err error) { //_, options, targets := cmdArgs.formatArgs() if cmdArgs.existsArg("h", "help") { usage() } else if cmdArgs.existsArg("gendb") { err = createDevelDB() if err != nil { return } err = saveVCSInfo() if err != nil { return } } else if cmdArgs.existsArg("c", "clean") { err = cleanDependencies() } else if cmdArgs.existsArg("g", "getpkgbuild") { err = handleGetpkgbuild() } else if len(cmdArgs.targets) > 0 { err = handleYogurt() } return } func handleGetpkgbuild() (err error) { for pkg := range cmdArgs.targets { err = getPkgbuild(pkg) if err != nil { //we print the error instead of returning it //seems as we can handle multiple errors without stoping //theres no easy way around this right now fmt.Println(pkg+":", err) } } return } func handleYogurt() (err error) { options := cmdArgs.formatArgs() targets := cmdArgs.formatTargets() config.SearchMode = NumberMenu err = numberMenu(targets, options) return } func handleSync() (err error) { targets := cmdArgs.formatTargets() options := cmdArgs.formatArgs() if cmdArgs.existsArg("y", "refresh") { arguments := cmdArgs.copy() arguments.delArg("u", "sysupgrade") arguments.targets = make(stringSet) err = passToPacman(arguments) if err != nil { return } } if cmdArgs.existsArg("s", "search") { if cmdArgs.existsArg("q", "quiet") { config.SearchMode = Minimal } else { config.SearchMode = Detailed } err = syncSearch(targets) } else if cmdArgs.existsArg("c", "clean") { err = passToPacman(cmdArgs) } else if cmdArgs.existsArg("u", "sysupgrade") { err = upgradePkgs(make([]string, 0)) } else if cmdArgs.existsArg("i", "info") { err = syncInfo(targets, options) } else if len(cmdArgs.targets) > 0 { err = install(cmdArgs) } return } func handleRemove() (err error) { removeVCSPackage(cmdArgs.formatTargets()) err = passToPacman(cmdArgs) return } // BuildIntRange build the range from start to end func BuildIntRange(rangeStart, rangeEnd int) []int { if rangeEnd-rangeStart == 0 { // rangeEnd == rangeStart, which means no range return []int{rangeStart} } if rangeEnd < rangeStart { swap := rangeEnd rangeEnd = rangeStart rangeStart = swap } final := make([]int, 0) for i := rangeStart; i <= rangeEnd; i++ { final = append(final, i) } return final } // BuildRange construct a range of ints from the format 1-10 func BuildRange(input string) ([]int, error) { multipleNums := strings.Split(input, "-") if len(multipleNums) != 2 { return nil, errors.New("Invalid range") } rangeStart, err := strconv.Atoi(multipleNums[0]) if err != nil { return nil, err } rangeEnd, err := strconv.Atoi(multipleNums[1]) if err != nil { return nil, err } return BuildIntRange(rangeStart, rangeEnd), err } // Contains returns whether e is present in s func contains(s []string, e string) bool { for _, a := range s { if a == e { return true } } return false } // RemoveIntListFromList removes all src's elements that are present in target func removeListFromList(src, target []string) []string { max := len(target) for i := 0; i < max; i++ { if contains(src, target[i]) { target = append(target[:i], target[i+1:]...) max-- i-- } } return target } // NumberMenu presents a CLI for selecting packages to install. func numberMenu(pkgS []string, flags []string) (err error) { //func numberMenu(cmdArgs *arguments) (err error) { var num int aurQ, err := narrowSearch(pkgS, true) if err != nil { fmt.Println("Error during AUR search:", err) } numaq := len(aurQ) repoQ, numpq, err := queryRepo(pkgS) if err != nil { return } if numpq == 0 && numaq == 0 { return fmt.Errorf("no packages match search") } if config.SortMode == BottomUp { aurQ.printSearch(numpq + 1) repoQ.printSearch() } else { repoQ.printSearch() aurQ.printSearch(numpq + 1) } fmt.Println(greenFg("Type the numbers or ranges (e.g. 1-10) you want to install. " + "Separate each one of them with a space.")) fmt.Print("Numbers: ") reader := bufio.NewReader(os.Stdin) numberBuf, overflow, err := reader.ReadLine() if err != nil || overflow { fmt.Println(err) return } numberString := string(numberBuf) var aurI, aurNI, repoNI, repoI []string result := strings.Fields(numberString) for _, numS := range result { negate := numS[0] == '^' if negate { numS = numS[1:] } var numbers []int num, err = strconv.Atoi(numS) if err != nil { numbers, err = BuildRange(numS) if err != nil { continue } } else { numbers = []int{num} } // Install package for _, x := range numbers { var target string if x > numaq+numpq || x <= 0 { continue } else if x > numpq { if config.SortMode == BottomUp { target = aurQ[numaq+numpq-x].Name } else { target = aurQ[x-numpq-1].Name } if negate { aurNI = append(aurNI, target) } else { aurI = append(aurI, target) } } else { if config.SortMode == BottomUp { target = repoQ[numpq-x].Name() } else { target = repoQ[x-1].Name() } if negate { repoNI = append(repoNI, target) } else { repoI = append(repoI, target) } } } } if len(repoI) == 0 && len(aurI) == 0 && (len(aurNI) > 0 || len(repoNI) > 0) { // If no package was specified, only exclusions, exclude from all the // packages for _, pack := range aurQ { aurI = append(aurI, pack.Name) } for _, pack := range repoQ { repoI = append(repoI, pack.Name()) } } aurI = removeListFromList(aurNI, aurI) repoI = removeListFromList(repoNI, repoI) arguments := makeArguments() arguments.addTarget(repoI...) arguments.addTarget(aurI...) err = install(arguments) return err } // passToPacman outsources execution to pacman binary without modifications. func passToPacman(args *arguments) error { var cmd *exec.Cmd argArr := make([]string, 0) if args.needRoot() { argArr = append(argArr, "sudo") } argArr = append(argArr, "pacman") argArr = append(argArr, cmdArgs.formatGlobals()...) argArr = append(argArr, args.formatArgs()...) if config.NoConfirm { argArr = append(argArr, "--noconfirm") } argArr = append(argArr, args.formatTargets()...) cmd = exec.Command(argArr[0], argArr[1:]...) cmd.Stdin, cmd.Stdout, cmd.Stderr = os.Stdin, os.Stdout, os.Stderr err := cmd.Run() return err } // passToMakepkg outsources execution to makepkg binary without modifications. func passToMakepkg(dir string, args ...string) (err error) { if config.NoConfirm { args = append(args) } cmd := exec.Command(config.MakepkgBin, args...) cmd.Stdin, cmd.Stdout, cmd.Stderr = os.Stdin, os.Stdout, os.Stderr cmd.Dir = dir err = cmd.Run() if err == nil { _ = saveVCSInfo() if config.CleanAfter { fmt.Println(boldGreenFg(arrow + " CleanAfter enabled. Deleting source folder.")) os.RemoveAll(dir) } } return }