package directory import ( "net/http" "sort" "strconv" "strings" "github.com/mholt/caddy/caddyhttp/httpserver" ) // A Listing is the context used to fill out a template. type Listing struct { // The name of the directory (the last element of the path) Name string // The full path of the request Path string // The items (files and folders) in the path Items []Info // The number of directories in the listing NumDirs int // The number of files (items that aren't directories) in the listing NumFiles int // Which sorting order is used Sort string // And which order Order string // If ≠0 then Items have been limited to that many elements ItemsLimitedTo int httpserver.Context `json:"-"` } // handleSortOrder gets and stores for a Listing the 'sort' and 'order', // and reads 'limit' if given. The latter is 0 if not given. Sets cookies. func handleSortOrder(w http.ResponseWriter, r *http.Request, scope string) (sort string, order string, limit int, err error) { sort, order, limitQuery := r.URL.Query().Get("sort"), r.URL.Query().Get("order"), r.URL.Query().Get("limit") // If the query 'sort' or 'order' is empty, use defaults or any values previously saved in Cookies switch sort { case "": sort = "name" if sortCookie, sortErr := r.Cookie("sort"); sortErr == nil { sort = sortCookie.Value } case "name", "size", "type": http.SetCookie(w, &http.Cookie{Name: "sort", Value: sort, Path: scope, Secure: r.TLS != nil}) } switch order { case "": order = "asc" if orderCookie, orderErr := r.Cookie("order"); orderErr == nil { order = orderCookie.Value } case "asc", "desc": http.SetCookie(w, &http.Cookie{Name: "order", Value: order, Path: scope, Secure: r.TLS != nil}) } if limitQuery != "" { limit, err = strconv.Atoi(limitQuery) if err != nil { // if the 'limit' query can't be interpreted as a number, return err return } } return } // Implement sorting for Listing type byName Listing type bySize Listing type byTime Listing // By Name func (l byName) Len() int { return len(l.Items) } func (l byName) Swap(i, j int) { l.Items[i], l.Items[j] = l.Items[j], l.Items[i] } // Treat upper and lower case equally func (l byName) Less(i, j int) bool { if l.Items[i].IsDir && !l.Items[j].IsDir { return true } if !l.Items[i].IsDir && l.Items[j].IsDir { return false } return strings.ToLower(l.Items[i].Name) < strings.ToLower(l.Items[j].Name) } // By Size func (l bySize) Len() int { return len(l.Items) } func (l bySize) Swap(i, j int) { l.Items[i], l.Items[j] = l.Items[j], l.Items[i] } const directoryOffset = -1 << 31 // = math.MinInt32 func (l bySize) Less(i, j int) bool { iSize, jSize := l.Items[i].Size, l.Items[j].Size if l.Items[i].IsDir { iSize = directoryOffset + iSize } if l.Items[j].IsDir { jSize = directoryOffset + jSize } return iSize < jSize } // By Time func (l byTime) Len() int { return len(l.Items) } func (l byTime) Swap(i, j int) { l.Items[i], l.Items[j] = l.Items[j], l.Items[i] } func (l byTime) Less(i, j int) bool { return l.Items[i].ModTime.Before(l.Items[j].ModTime) } // Add sorting method to "Listing" // it will apply what's in ".Sort" and ".Order" func (l Listing) applySort() { // Check '.Order' to know how to sort if l.Order == "desc" { switch l.Sort { case "name": sort.Sort(sort.Reverse(byName(l))) case "size": sort.Sort(sort.Reverse(bySize(l))) case "time": sort.Sort(sort.Reverse(byTime(l))) default: // If not one of the above, do nothing return } } else { // If we had more Orderings we could add them here switch l.Sort { case "name": sort.Sort(byName(l)) case "size": sort.Sort(bySize(l)) case "time": sort.Sort(byTime(l)) default: sort.Sort(byName(l)) return } } }