package main import ( "fmt" "sort" "strings" alpm "github.com/jguer/go-alpm" rpc "github.com/mikkeloscar/aur" ) // Query is a collection of Results type aurQuery []rpc.Pkg // Query holds the results of a repository search. type repoQuery []alpm.Package func (q aurQuery) Len() int { return len(q) } func (q aurQuery) Less(i, j int) bool { if config.SortMode == BottomUp { return q[i].NumVotes < q[j].NumVotes } return q[i].NumVotes > q[j].NumVotes } func (q aurQuery) Swap(i, j int) { q[i], q[j] = q[j], q[i] } // FilterPackages filters packages based on source and type from local repository. func filterPackages() (local []alpm.Package, remote []alpm.Package, localNames []string, remoteNames []string, err error) { localDb, err := alpmHandle.LocalDb() if err != nil { return } dbList, err := alpmHandle.SyncDbs() if err != nil { return } f := func(k alpm.Package) error { found := false // For each DB search for our secret package. _ = dbList.ForEach(func(d alpm.Db) error { if found { return nil } _, err := d.PkgByName(k.Name()) if err == nil { found = true local = append(local, k) localNames = append(localNames, k.Name()) } return nil }) if !found { remote = append(remote, k) remoteNames = append(remoteNames, k.Name()) } return nil } err = localDb.PkgCache().ForEach(f) return } // MissingPackage warns if the Query was unable to find a package func (q aurQuery) missingPackage(pkgS []string) { for _, depName := range pkgS { found := false for _, dep := range q { if dep.Name == depName { found = true break } } if !found { fmt.Println(redFg("Unable to find" + depName + "in AUR")) } } } // NarrowSearch searches AUR and narrows based on subarguments func narrowSearch(pkgS []string, sortS bool) (aurQuery, error) { if len(pkgS) == 0 { return nil, nil } r, err := rpc.Search(pkgS[0]) if err != nil { return nil, err } if len(pkgS) == 1 { if sortS { sort.Sort(aurQuery(r)) } return r, err } var aq aurQuery var n int for _, res := range r { match := true for _, pkgN := range pkgS[1:] { if !(strings.Contains(res.Name, pkgN) || strings.Contains(strings.ToLower(res.Description), pkgN)) { match = false break } } if match { n++ aq = append(aq, res) } } if sortS { sort.Sort(aq) } return aq, err } // SyncSearch presents a query to the local repos and to the AUR. func syncSearch(pkgS []string) (err error) { aq, err := narrowSearch(pkgS, true) if err != nil { return err } pq, _, err := queryRepo(pkgS) if err != nil { return err } if config.SortMode == BottomUp { aq.printSearch(1) pq.printSearch() } else { pq.printSearch() aq.printSearch(1) } return nil } // SyncInfo serves as a pacman -Si for repo packages and AUR packages. func syncInfo(pkgS []string) (err error) { var info []rpc.Pkg aurS, repoS, err := packageSlices(pkgS) if err != nil { return } if len(aurS) != 0 { info, err = aurInfo(aurS) if err != nil { fmt.Println(err) } } //repo always goes first if len(repoS) != 0 { arguments := cmdArgs.copy() arguments.delTarget(aurS...) err = passToPacman(arguments) if err != nil { return } } if len(aurS) != 0 { for _, pkg := range info { PrintInfo(&pkg) } } return } // Search handles repo searches. Creates a RepoSearch struct. func queryRepo(pkgInputN []string) (s repoQuery, n int, err error) { dbList, err := alpmHandle.SyncDbs() if err != nil { return } // BottomUp functions initL := func(len int) int { if config.SortMode == TopDown { return 0 } return len - 1 } compL := func(len int, i int) bool { if config.SortMode == TopDown { return i < len } return i > -1 } finalL := func(i int) int { if config.SortMode == TopDown { return i + 1 } return i - 1 } dbS := dbList.Slice() lenDbs := len(dbS) for f := initL(lenDbs); compL(lenDbs, f); f = finalL(f) { pkgS := dbS[f].PkgCache().Slice() lenPkgs := len(pkgS) for i := initL(lenPkgs); compL(lenPkgs, i); i = finalL(i) { match := true for _, pkgN := range pkgInputN { if !(strings.Contains(pkgS[i].Name(), pkgN) || strings.Contains(strings.ToLower(pkgS[i].Description()), pkgN)) { match = false break } } if match { n++ s = append(s, pkgS[i]) } } } return } // PackageSlices separates an input slice into aur and repo slices func packageSlices(toCheck []string) (aur []string, repo []string, err error) { dbList, err := alpmHandle.SyncDbs() if err != nil { return } for _, _pkg := range toCheck { if i := strings.Index(_pkg, "/"); i != -1 { _pkg = _pkg[i+1:] } pkg := getNameFromDep(_pkg) _, errdb := dbList.FindSatisfier(_pkg) found := errdb == nil if !found { _, errdb = dbList.PkgCachebyGroup(_pkg) found = errdb == nil } if found { repo = append(repo, pkg) } else { aur = append(aur, pkg) } } return } // HangingPackages returns a list of packages installed as deps // and unneeded by the system func hangingPackages() (hanging []string, err error) { localDb, err := alpmHandle.LocalDb() if err != nil { return } f := func(pkg alpm.Package) error { if pkg.Reason() != alpm.PkgReasonDepend { return nil } requiredby := pkg.ComputeRequiredBy() if len(requiredby) == 0 { hanging = append(hanging, pkg.Name()) fmt.Println(pkg.Name() + ": " + yellowFg(human(pkg.ISize()))) } return nil } err = localDb.PkgCache().ForEach(f) return } // Statistics returns statistics about packages installed in system func statistics() (info struct { Totaln int Expln int TotalSize int64 }, err error) { var tS int64 // TotalSize var nPkg int var ePkg int localDb, err := alpmHandle.LocalDb() if err != nil { return } for _, pkg := range localDb.PkgCache().Slice() { tS += pkg.ISize() nPkg++ if pkg.Reason() == 0 { ePkg++ } } info = struct { Totaln int Expln int TotalSize int64 }{ nPkg, ePkg, tS, } return } // SliceHangingPackages returns a list of packages installed as deps // and unneeded by the system from a provided list of package names. func sliceHangingPackages(pkgS []string) (hanging []string) { localDb, err := alpmHandle.LocalDb() if err != nil { return } big: for _, pkgName := range pkgS { for _, hangN := range hanging { if hangN == pkgName { continue big } } pkg, err := localDb.PkgByName(pkgName) if err == nil { if pkg.Reason() != alpm.PkgReasonDepend { continue } requiredby := pkg.ComputeRequiredBy() if len(requiredby) == 0 { hanging = append(hanging, pkgName) fmt.Println(pkg.Name() + ": " + yellowFg(human(pkg.ISize()))) } } } return } func min(a, b int) int { if a < b { return a } return a } func aurInfo(names []string) ([]rpc.Pkg, error) { info := make([]rpc.Pkg, 0, len(names)) seen := make(map[string]int) for n := 0; n < len(names); n += config.RequestSplitN { max := min(len(names), n + config.RequestSplitN) tempInfo, err := rpc.Info(names[n:max]) if err != nil { return info, err } info = append(info, tempInfo...) } for k, pkg := range info { seen[pkg.Name] = k } for _, name := range names { i, ok := seen[name] if !ok { fmt.Println(boldRedFgBlackBg(arrow+"Warning:"), boldYellowFgBlackBg(name), whiteFgBlackBg("is not available in AUR")) continue } pkg := info[i] if pkg.Maintainer == "" { fmt.Println(boldRedFgBlackBg(arrow+"Warning:"), boldYellowFgBlackBg(pkg.Name), whiteFgBlackBg("is orphaned")) } if pkg.OutOfDate != 0 { fmt.Println(boldRedFgBlackBg(arrow+"Warning:"), boldYellowFgBlackBg(pkg.Name), whiteFgBlackBg("is out-of-date in AUR")) } } return info, nil }