package main import ( "errors" "fmt" "os" "sort" "strings" alpm "github.com/Jguer/go-alpm" "github.com/leonelquinteros/gotext" rpc "github.com/mikkeloscar/aur" "github.com/Jguer/yay/v10/pkg/db" "github.com/Jguer/yay/v10/pkg/query" "github.com/Jguer/yay/v10/pkg/settings" "github.com/Jguer/yay/v10/pkg/stringset" "github.com/Jguer/yay/v10/pkg/text" ) // Query is a collection of Results type aurQuery []rpc.Pkg // Query holds the results of a repository search. type repoQuery []db.RepoPackage func (s repoQuery) Reverse() { for i, j := 0, len(s)-1; i < j; i, j = i+1, j-1 { s[i], s[j] = s[j], s[i] } } func (q aurQuery) Len() int { return len(q) } func (q aurQuery) Less(i, j int) bool { var result bool switch config.SortBy { case "votes": result = q[i].NumVotes > q[j].NumVotes case "popularity": result = q[i].Popularity > q[j].Popularity case "name": result = text.LessRunes([]rune(q[i].Name), []rune(q[j].Name)) case "base": result = text.LessRunes([]rune(q[i].PackageBase), []rune(q[j].PackageBase)) case "submitted": result = q[i].FirstSubmitted < q[j].FirstSubmitted case "modified": result = q[i].LastModified < q[j].LastModified case "id": result = q[i].ID < q[j].ID case "baseid": result = q[i].PackageBaseID < q[j].PackageBaseID } if config.SortMode == settings.BottomUp { return !result } return result } func (q aurQuery) Swap(i, j int) { q[i], q[j] = q[j], q[i] } func getSearchBy(value string) rpc.By { switch value { case "name": return rpc.Name case "maintainer": return rpc.Maintainer case "depends": return rpc.Depends case "makedepends": return rpc.MakeDepends case "optdepends": return rpc.OptDepends case "checkdepends": return rpc.CheckDepends default: return rpc.NameDesc } } // NarrowSearch searches AUR and narrows based on subarguments func narrowSearch(pkgS []string, sortS bool) (aurQuery, error) { var r []rpc.Pkg var err error var usedIndex int by := getSearchBy(config.SearchBy) if len(pkgS) == 0 { return nil, nil } for i, word := range pkgS { r, err = rpc.SearchBy(word, by) if err == nil { usedIndex = i break } } 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 i := range r { match := true for j, pkgN := range pkgS { if usedIndex == j { continue } if !(strings.Contains(r[i].Name, pkgN) || strings.Contains(strings.ToLower(r[i].Description), pkgN)) { match = false break } } if match { n++ aq = append(aq, r[i]) } } if sortS { sort.Sort(aq) } return aq, err } // SyncSearch presents a query to the local repos and to the AUR. func syncSearch(pkgS []string, dbExecutor *db.AlpmExecutor) (err error) { pkgS = query.RemoveInvalidTargets(pkgS, config.Runtime.Mode) var aurErr error var aq aurQuery var pq repoQuery if config.Runtime.Mode == settings.ModeAUR || config.Runtime.Mode == settings.ModeAny { aq, aurErr = narrowSearch(pkgS, true) } if config.Runtime.Mode == settings.ModeRepo || config.Runtime.Mode == settings.ModeAny { pq = queryRepo(pkgS, dbExecutor) } switch config.SortMode { case settings.TopDown: if config.Runtime.Mode == settings.ModeRepo || config.Runtime.Mode == settings.ModeAny { pq.printSearch(dbExecutor) } if config.Runtime.Mode == settings.ModeAUR || config.Runtime.Mode == settings.ModeAny { aq.printSearch(1, dbExecutor) } case settings.BottomUp: if config.Runtime.Mode == settings.ModeAUR || config.Runtime.Mode == settings.ModeAny { aq.printSearch(1, dbExecutor) } if config.Runtime.Mode == settings.ModeRepo || config.Runtime.Mode == settings.ModeAny { pq.printSearch(dbExecutor) } default: return errors.New(gotext.Get("invalid sort mode. Fix with yay -Y --bottomup --save")) } if aurErr != nil { text.Errorln(gotext.Get("error during AUR search: %s", aurErr)) text.Warnln(gotext.Get("Showing repo packages only")) } return nil } // SyncInfo serves as a pacman -Si for repo packages and AUR packages. func syncInfo(cmdArgs *settings.Arguments, pkgS []string, dbExecutor *db.AlpmExecutor) error { var info []*rpc.Pkg var err error missing := false pkgS = query.RemoveInvalidTargets(pkgS, config.Runtime.Mode) aurS, repoS := packageSlices(pkgS, dbExecutor) if len(aurS) != 0 { noDB := make([]string, 0, len(aurS)) for _, pkg := range aurS { _, name := text.SplitDBFromName(pkg) noDB = append(noDB, name) } info, err = query.AURInfoPrint(noDB, config.RequestSplitN) if err != nil { missing = true fmt.Fprintln(os.Stderr, err) } } // Repo always goes first if len(repoS) != 0 { arguments := cmdArgs.Copy() arguments.ClearTargets() arguments.AddTarget(repoS...) err = show(passToPacman(arguments)) if err != nil { return err } } if len(aurS) != len(info) { missing = true } if len(info) != 0 { for _, pkg := range info { PrintInfo(pkg, cmdArgs.ExistsDouble("i")) } } if missing { err = fmt.Errorf("") } return err } // Search handles repo searches. Creates a RepoSearch struct. func queryRepo(pkgInputN []string, dbExecutor *db.AlpmExecutor) repoQuery { s := repoQuery(dbExecutor.SyncPackages(pkgInputN...)) if config.SortMode == settings.BottomUp { s.Reverse() } return s } // PackageSlices separates an input slice into aur and repo slices func packageSlices(toCheck []string, dbExecutor *db.AlpmExecutor) (aur, repo []string) { for _, _pkg := range toCheck { dbName, name := text.SplitDBFromName(_pkg) found := false if dbName == "aur" || config.Runtime.Mode == settings.ModeAUR { aur = append(aur, _pkg) continue } else if dbName != "" || config.Runtime.Mode == settings.ModeRepo { repo = append(repo, _pkg) continue } found = dbExecutor.SyncSatisfierExists(name) if !found { found = len(dbExecutor.PackagesFromGroup(name)) != 0 } if found { repo = append(repo, _pkg) } else { aur = append(aur, _pkg) } } return aur, repo } // HangingPackages returns a list of packages installed as deps // and unneeded by the system // removeOptional decides whether optional dependencies are counted or not func hangingPackages(removeOptional bool, dbExecutor *db.AlpmExecutor) (hanging []string) { // safePackages represents every package in the system in one of 3 states // State = 0 - Remove package from the system // State = 1 - Keep package in the system; need to iterate over dependencies // State = 2 - Keep package and have iterated over dependencies safePackages := make(map[string]uint8) // provides stores a mapping from the provides name back to the original package name provides := make(stringset.MapStringSet) packages := dbExecutor.LocalPackages() // Mark explicit dependencies and enumerate the provides list for _, pkg := range packages { if pkg.Reason() == alpm.PkgReasonExplicit { safePackages[pkg.Name()] = 1 } else { safePackages[pkg.Name()] = 0 } for _, dep := range dbExecutor.PackageProvides(pkg) { provides.Add(dep.Name, pkg.Name()) } } iterateAgain := true for iterateAgain { iterateAgain = false for _, pkg := range packages { if state := safePackages[pkg.Name()]; state == 0 || state == 2 { continue } safePackages[pkg.Name()] = 2 deps := dbExecutor.PackageDepends(pkg) if !removeOptional { deps = append(deps, dbExecutor.PackageOptionalDepends(pkg)...) } // Update state for dependencies for _, dep := range deps { // Don't assume a dependency is installed state, ok := safePackages[dep.Name] if !ok { // Check if dep is a provides rather than actual package name if pset, ok2 := provides[dep.Name]; ok2 { for p := range pset { if safePackages[p] == 0 { iterateAgain = true safePackages[p] = 1 } } } continue } if state == 0 { iterateAgain = true safePackages[dep.Name] = 1 } } } } // Build list of packages to be removed for _, pkg := range packages { if safePackages[pkg.Name()] == 0 { hanging = append(hanging, pkg.Name()) } } return hanging } // Statistics returns statistics about packages installed in system func statistics(dbExecutor *db.AlpmExecutor) *struct { Totaln int Expln int TotalSize int64 } { var totalSize int64 localPackages := dbExecutor.LocalPackages() totalInstalls := 0 explicitInstalls := 0 for _, pkg := range localPackages { totalSize += pkg.ISize() totalInstalls++ if pkg.Reason() == alpm.PkgReasonExplicit { explicitInstalls++ } } info := &struct { Totaln int Expln int TotalSize int64 }{ totalInstalls, explicitInstalls, totalSize, } return info }