package dlna import ( "context" "encoding/xml" "fmt" "log" "net/http" "net/url" "os" "path" "path/filepath" "regexp" "strings" "github.com/anacrolix/dms/dlna" "github.com/anacrolix/dms/upnp" "github.com/pkg/errors" "github.com/rclone/rclone/cmd/serve/dlna/upnpav" "github.com/rclone/rclone/fs" "github.com/rclone/rclone/vfs" ) type contentDirectoryService struct { *server upnp.Eventing } func (cds *contentDirectoryService) updateIDString() string { return fmt.Sprintf("%d", uint32(os.Getpid())) } var mediaMimeTypeRegexp = regexp.MustCompile("^(video|audio|image)/") // Turns the given entry and DMS host into a UPnP object. A nil object is // returned if the entry is not of interest. func (cds *contentDirectoryService) cdsObjectToUpnpavObject(cdsObject object, fileInfo vfs.Node, resources vfs.Nodes, host string) (ret interface{}, err error) { obj := upnpav.Object{ ID: cdsObject.ID(), Restricted: 1, ParentID: cdsObject.ParentID(), } if fileInfo.IsDir() { defaultChildCount := 1 obj.Class = "object.container.storageFolder" obj.Title = fileInfo.Name() return upnpav.Container{ Object: obj, ChildCount: &defaultChildCount, }, nil } if !fileInfo.Mode().IsRegular() { return } // Read the mime type from the fs.Object if possible, // otherwise fall back to working out what it is from the file path. var mimeType string if o, ok := fileInfo.DirEntry().(fs.Object); ok { mimeType = fs.MimeType(context.TODO(), o) } else { mimeType = fs.MimeTypeFromName(fileInfo.Name()) } mediaType := mediaMimeTypeRegexp.FindStringSubmatch(mimeType) if mediaType == nil { return } obj.Class = "object.item." + mediaType[1] + "Item" obj.Title = fileInfo.Name() obj.Date = upnpav.Timestamp{Time: fileInfo.ModTime()} item := upnpav.Item{ Object: obj, Res: make([]upnpav.Resource, 0, 1), } item.Res = append(item.Res, upnpav.Resource{ URL: (&url.URL{ Scheme: "http", Host: host, Path: path.Join(resPath, cdsObject.Path), }).String(), ProtocolInfo: fmt.Sprintf("http-get:*:%s:%s", mimeType, dlna.ContentFeatures{ SupportRange: true, }.String()), Size: uint64(fileInfo.Size()), }) for _, resource := range resources { subtitleURL := (&url.URL{ Scheme: "http", Host: host, Path: path.Join(resPath, resource.Path()), }).String() item.Res = append(item.Res, upnpav.Resource{ URL: subtitleURL, ProtocolInfo: fmt.Sprintf("http-get:*:%s:*", "text/srt"), }) } ret = item return } // Returns all the upnpav objects in a directory. func (cds *contentDirectoryService) readContainer(o object, host string) (ret []interface{}, err error) { node, err := cds.vfs.Stat(o.Path) if err != nil { return } if !node.IsDir() { err = errors.New("not a directory") return } dir := node.(*vfs.Dir) dirEntries, err := dir.ReadDirAll() if err != nil { err = errors.New("failed to list directory") return } dirEntries, mediaResources := mediaWithResources(dirEntries) for _, de := range dirEntries { child := object{ path.Join(o.Path, de.Name()), } obj, err := cds.cdsObjectToUpnpavObject(child, de, mediaResources[de], host) if err != nil { fs.Errorf(cds, "error with %s: %s", child.FilePath(), err) continue } if obj == nil { fs.Debugf(cds, "unrecognized file type: %s", de) continue } ret = append(ret, obj) } return } // Given a list of nodes, separate them into potential media items and any associated resources (external subtitles, // for example.) // // The result is a slice of potential media nodes (in their original order) and a map containing associated // resources nodes of each media node, if any. func mediaWithResources(nodes vfs.Nodes) (vfs.Nodes, map[vfs.Node]vfs.Nodes) { media, mediaResources := vfs.Nodes{}, make(map[vfs.Node]vfs.Nodes) // First, separate out the subtitles and media into maps, keyed by their lowercase base names. mediaByName, subtitlesByName := make(map[string]vfs.Nodes), make(map[string]vfs.Node) for _, node := range nodes { baseName, ext := splitExt(strings.ToLower(node.Name())) switch ext { case ".srt": subtitlesByName[baseName] = node default: mediaByName[baseName] = append(mediaByName[baseName], node) media = append(media, node) } } // Find the associated media file for each subtitle for baseName, node := range subtitlesByName { // Find a media file with the same basename (video.mp4 for video.srt) mediaNodes, found := mediaByName[baseName] if !found { // Or basename of the basename (video.mp4 for video.en.srt) baseName, _ = splitExt(baseName) mediaNodes, found = mediaByName[baseName] } // Just advise if no match found if !found { fs.Infof(node, "could not find associated media for subtitle: %s", node.Name()) continue } // Associate with all potential media nodes fs.Debugf(mediaNodes, "associating subtitle: %s", node.Name()) for _, mediaNode := range mediaNodes { mediaResources[mediaNode] = append(mediaResources[mediaNode], node) } } return media, mediaResources } type browse struct { ObjectID string BrowseFlag string Filter string StartingIndex int RequestedCount int } // ContentDirectory object from ObjectID. func (cds *contentDirectoryService) objectFromID(id string) (o object, err error) { o.Path, err = url.QueryUnescape(id) if err != nil { return } if o.Path == "0" { o.Path = "/" } o.Path = path.Clean(o.Path) if !path.IsAbs(o.Path) { err = fmt.Errorf("bad ObjectID %v", o.Path) return } return } func (cds *contentDirectoryService) Handle(action string, argsXML []byte, r *http.Request) (map[string]string, error) { host := r.Host switch action { case "GetSystemUpdateID": return map[string]string{ "Id": cds.updateIDString(), }, nil case "GetSortCapabilities": return map[string]string{ "SortCaps": "dc:title", }, nil case "Browse": var browse browse if err := xml.Unmarshal(argsXML, &browse); err != nil { return nil, err } obj, err := cds.objectFromID(browse.ObjectID) if err != nil { return nil, upnp.Errorf(upnpav.NoSuchObjectErrorCode, err.Error()) } switch browse.BrowseFlag { case "BrowseDirectChildren": objs, err := cds.readContainer(obj, host) if err != nil { return nil, upnp.Errorf(upnpav.NoSuchObjectErrorCode, err.Error()) } totalMatches := len(objs) objs = objs[func() (low int) { low = browse.StartingIndex if low > len(objs) { low = len(objs) } return }():] if browse.RequestedCount != 0 && browse.RequestedCount < len(objs) { objs = objs[:browse.RequestedCount] } result, err := xml.Marshal(objs) if err != nil { return nil, err } return map[string]string{ "TotalMatches": fmt.Sprint(totalMatches), "NumberReturned": fmt.Sprint(len(objs)), "Result": didlLite(string(result)), "UpdateID": cds.updateIDString(), }, nil case "BrowseMetadata": node, err := cds.vfs.Stat(obj.Path) if err != nil { return nil, err } // TODO: External subtitles won't appear in the metadata here, but probably should. upnpObject, err := cds.cdsObjectToUpnpavObject(obj, node, vfs.Nodes{}, host) if err != nil { return nil, err } result, err := xml.Marshal(upnpObject) if err != nil { return nil, err } return map[string]string{ "Result": didlLite(string(result)), }, nil default: return nil, upnp.Errorf(upnp.ArgumentValueInvalidErrorCode, "unhandled browse flag: %v", browse.BrowseFlag) } case "GetSearchCapabilities": return map[string]string{ "SearchCaps": "", }, nil // Samsung Extensions case "X_GetFeatureList": return map[string]string{ "FeatureList": ` `}, nil case "X_SetBookmark": // just ignore return map[string]string{}, nil default: return nil, upnp.InvalidActionError } } // Represents a ContentDirectory object. type object struct { Path string // The cleaned, absolute path for the object relative to the server. } // Returns the actual local filesystem path for the object. func (o *object) FilePath() string { return filepath.FromSlash(o.Path) } // Returns the ObjectID for the object. This is used in various ContentDirectory actions. func (o object) ID() string { if !path.IsAbs(o.Path) { log.Panicf("Relative object path: %s", o.Path) } if len(o.Path) == 1 { return "0" } return url.QueryEscape(o.Path) } func (o *object) IsRoot() bool { return o.Path == "/" } // Returns the object's parent ObjectID. Fortunately it can be deduced from the // ObjectID (for now). func (o object) ParentID() string { if o.IsRoot() { return "-1" } o.Path = path.Dir(o.Path) return o.ID() }