package main import ( "bufio" "fmt" "os" "sort" "strconv" "strings" "unicode" alpm "github.com/jguer/go-alpm" rpc "github.com/mikkeloscar/aur" pkgb "github.com/mikkeloscar/gopkgbuild" ) // upgrade type describes a system upgrade. type upgrade struct { Name string Repository string LocalVersion string RemoteVersion string } // upSlice is a slice of Upgrades type upSlice []upgrade func (u upSlice) Len() int { return len(u) } func (u upSlice) Swap(i, j int) { u[i], u[j] = u[j], u[i] } func (u upSlice) Less(i, j int) bool { iRunes := []rune(u[i].Repository) jRunes := []rune(u[j].Repository) max := len(iRunes) if max > len(jRunes) { max = len(jRunes) } for idx := 0; idx < max; idx++ { ir := iRunes[idx] jr := jRunes[idx] lir := unicode.ToLower(ir) ljr := unicode.ToLower(jr) if lir != ljr { return lir > ljr } // the lowercase runes are the same, so compare the original if ir != jr { return ir > jr } } return false } // Print prints the details of the packages to upgrade. func (u upSlice) Print(start int) { for k, i := range u { old, errOld := pkgb.NewCompleteVersion(i.LocalVersion) new, errNew := pkgb.NewCompleteVersion(i.RemoteVersion) var left, right string f := func(name string) (color int) { var hash = 5381 for i := 0; i < len(name); i++ { hash = int(name[i]) + ((hash << 5) + (hash)) } return hash%6 + 31 } fmt.Printf("\x1b[33m%-2d\x1b[0m ", len(u)+start-k-1) fmt.Printf("\x1b[1;%dm%s\x1b[0m/\x1b[1;39m%-25s\t\t\x1b[0m", f(i.Repository), i.Repository, i.Name) if errOld != nil { left = fmt.Sprintf("\x1b[31m%20s\x1b[0m", "Invalid Version") } else { left = fmt.Sprintf("\x1b[31m%18s\x1b[0m-%s", old.Version, old.Pkgrel) } if errNew != nil { right = fmt.Sprintf("\x1b[31m%s\x1b[0m", "Invalid Version") } else { right = fmt.Sprintf("\x1b[31m%s\x1b[0m-%s", new.Version, new.Pkgrel) } fmt.Printf("%s -> %s\n", left, right) } } // upList returns lists of packages to upgrade from each source. func upList() (aurUp upSlice, repoUp upSlice, err error) { local, remote, _, remoteNames, err := filterPackages() if err != nil { return } repoC := make(chan upSlice) aurC := make(chan upSlice) errC := make(chan error) fmt.Println("\x1b[1;36;1m::\x1b[0m\x1b[1m Searching databases for updates...\x1b[0m") go func() { repoUpList, err := upRepo(local) errC <- err repoC <- repoUpList }() fmt.Println("\x1b[1;36;1m::\x1b[0m\x1b[1m Searching AUR for updates...\x1b[0m") go func() { aurUpList, err := upAUR(remote, remoteNames) errC <- err aurC <- aurUpList }() var i = 0 loop: for { select { case repoUp = <-repoC: i++ case aurUp = <-aurC: i++ case err := <-errC: if err != nil { fmt.Println(err) } default: if i == 2 { close(repoC) close(aurC) close(errC) break loop } } } return } func upDevel(remote []alpm.Package, packageC chan upgrade, done chan bool) { for _, e := range savedInfo { if e.needsUpdate() { found := false var pkg alpm.Package for _, r := range remote { if r.Name() == e.Package { found = true pkg = r } } if found { if pkg.ShouldIgnore() { fmt.Printf("\x1b[33mwarning:\x1b[0m %s ignoring package upgrade (%s => %s)\n", pkg.Name(), pkg.Version(), "git") } else { packageC <- upgrade{e.Package, "devel", e.SHA[0:6], "git"} } } else { removeVCSPackage([]string{e.Package}) } } } done <- true } // upAUR gathers foreign packages and checks if they have new versions. // Output: Upgrade type package list. func upAUR(remote []alpm.Package, remoteNames []string) (toUpgrade upSlice, err error) { var j int var routines int var routineDone int packageC := make(chan upgrade) done := make(chan bool) if config.Devel { routines++ go upDevel(remote, packageC, done) fmt.Println("\x1b[1;36;1m::\x1b[0m\x1b[1m Checking development packages...\x1b[0m") } for i := len(remote); i != 0; i = j { //Split requests so AUR RPC doesn't get mad at us. j = i - config.RequestSplitN if j < 0 { j = 0 } routines++ go func(local []alpm.Package, remote []string) { qtemp, err := rpc.Info(remote) if err != nil { fmt.Println(err) done <- true return } // For each item in query: Search equivalent in foreign. // We assume they're ordered and are returned ordered // and will only be missing if they don't exist in AUR. max := len(qtemp) - 1 var missing, x int for i := range local { x = i - missing if x > max { break } else if qtemp[x].Name == local[i].Name() { if (config.TimeUpdate && (int64(qtemp[x].LastModified) > local[i].BuildDate().Unix())) || (alpm.VerCmp(local[i].Version(), qtemp[x].Version) < 0) { if local[i].ShouldIgnore() { fmt.Printf("\x1b[33mwarning:\x1b[0m %s ignoring package upgrade (%s => %s)\n", local[i].Name(), local[i].Version(), qtemp[x].Version) } else { packageC <- upgrade{qtemp[x].Name, "aur", local[i].Version(), qtemp[x].Version} } } continue } else { missing++ } } done <- true }(remote[j:i], remoteNames[j:i]) } for { select { case pkg := <-packageC: for _, w := range toUpgrade { if w.Name == pkg.Name { continue } } toUpgrade = append(toUpgrade, pkg) case <-done: routineDone++ if routineDone == routines { err = nil return } } } } // upRepo gathers local packages and checks if they have new versions. // Output: Upgrade type package list. func upRepo(local []alpm.Package) (upSlice, error) { dbList, err := alpmHandle.SyncDbs() if err != nil { return nil, err } slice := upSlice{} for _, pkg := range local { newPkg := pkg.NewVersion(dbList) if newPkg != nil { if pkg.ShouldIgnore() { fmt.Printf("\x1b[33mwarning:\x1b[0m %s ignoring package upgrade (%s => %s)\n", pkg.Name(), pkg.Version(), newPkg.Version()) } else { slice = append(slice, upgrade{pkg.Name(), newPkg.DB().Name(), pkg.Version(), newPkg.Version()}) } } } return slice, nil } //Contains returns wheter e is present in s func containsInt(s []int, e int) bool { for _, a := range s { if a == e { return true } } return false } // RemoveIntListFromList removes all src's elements that are present in target func removeIntListFromList(src, target []int) []int { max := len(target) for i := 0; i < max; i++ { if containsInt(src, target[i]) { target = append(target[:i], target[i+1:]...) max-- i-- } } return target } // upgradePkgs handles updating the cache and installing updates. func upgradePkgs(flags []string) error { aurUp, repoUp, err := upList() if err != nil { return err } else if len(aurUp)+len(repoUp) == 0 { fmt.Println("\nThere is nothing to do") return err } var repoNums []int var aurNums []int sort.Sort(repoUp) fmt.Printf("\x1b[1;34;1m:: \x1b[0m\x1b[1m%d Packages to upgrade.\x1b[0m\n", len(aurUp)+len(repoUp)) repoUp.Print(len(aurUp) + 1) aurUp.Print(1) if !config.NoConfirm { fmt.Print("\x1b[32mEnter packages you don't want to upgrade.\x1b[0m\nNumbers: ") reader := bufio.NewReader(os.Stdin) numberBuf, overflow, err := reader.ReadLine() if err != nil || overflow { fmt.Println(err) return err } result := strings.Fields(string(numberBuf)) excludeAur := make([]int, 0) excludeRepo := make([]int, 0) 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} } for _, target := range numbers { if target > len(aurUp)+len(repoUp) || target <= 0 { continue } else if target <= len(aurUp) { target = len(aurUp) - target if negate { excludeAur = append(excludeAur, target) } else { aurNums = append(aurNums, target) } } else { target = len(aurUp) + len(repoUp) - target if negate { excludeRepo = append(excludeRepo, target) } else { repoNums = append(repoNums, target) } } } } if len(repoNums) == 0 && len(aurNums) == 0 && (len(excludeRepo) > 0 || len(excludeAur) > 0) { if len(repoUp) > 0 { repoNums = BuildIntRange(0, len(repoUp)-1) } if len(aurUp) > 0 { aurNums = BuildIntRange(0, len(aurUp)-1) } } aurNums = removeIntListFromList(excludeAur, aurNums) repoNums = removeIntListFromList(excludeRepo, repoNums) } arguments := cmdArgs.copy() arguments.delArg("u", "sysupgrade") arguments.delArg("y", "refresh") var repoNames []string var aurNames []string if len(repoUp) != 0 { repoloop: for i, k := range repoUp { for _, j := range repoNums { if j == i { continue repoloop } } repoNames = append(repoNames, k.Name) } } if len(aurUp) != 0 { aurloop: for i, k := range aurUp { for _, j := range aurNums { if j == i { continue aurloop } } aurNames = append(aurNames, k.Name) } } arguments.addTarget(repoNames...) arguments.addTarget(aurNames...) err = install(arguments) return err }