/* isLoadable returns an error if not loadable. The flag returns whether it is the dir for a TRUSTED peer (so false if encrypted). */ func isLoadable(path string) (bool, error) { // we check based on available paths tinPath := path + "/" + shared.TINZENITEDIR + "/" + shared.LOCALDIR encPath := path + "/" + shared.LOCALDIR // first check if .tinzenite (so that visible dirs of enc won't cause false detection) if exists, _ := shared.DirectoryExists(tinPath); exists { return true, nil } // second check if encrypted if exists, _ := shared.DirectoryExists(encPath); exists { return false, nil } // if neither we're done, so say encrypted but error return false, shared.ErrNotTinzenite }
func (c *chaninterface) onModel(address, path string) error { // read model file and remove it data, err := ioutil.ReadFile(path) if err != nil { return err } err = os.Remove(path) if err != nil { log.Println("Failed to remove temp model file:", err) // not strictly critical so no return here } // unmarshal foreignModel := &shared.ObjectInfo{} err = json.Unmarshal(data, foreignModel) if err != nil { return err } // make a model of the local stuff storePath := c.boot.path + "/" + shared.TINZENITEDIR + "/" + shared.LOCALDIR m, err := model.Create(c.boot.path, c.boot.peer.Identification, storePath) if err != nil { return err } c.model = m // apply what is already here err = c.model.Update() if err != nil { return err } // get difference in updates var updateLists []*shared.UpdateMessage updateLists, err = c.model.Bootstrap(foreignModel) if err != nil { return err } log.Println("Need to apply", len(updateLists), "updates.") // pretend that the updatemessage came from outside here for _, um := range updateLists { // directories can be applied directly if um.Object.Directory { dirPath := m.RootPath + "/" + um.Object.Path // if the dir doesn't exist, make it if exists, _ := shared.DirectoryExists(dirPath); !exists { err := shared.MakeDirectory(dirPath) if err != nil { log.Println("Failed applying dir:", err) } } // apply to model err = c.model.ApplyUpdateMessage(um) // ignore merge conflicts as they are to be overwritten anyway if err != nil && err != shared.ErrConflict { return err } continue } // write update messages which must be fetched c.messages[um.Object.Identification] = um } return nil }
func main() { log.Println(tag, "starting server.") // define required flags var path string var commandString string var useHadoop bool var address string var user string flag.StringVar(&path, "path", "", "File directory path in which to run the server.") flag.StringVar(&commandString, "cmd", "load", "Command for the path: create or load. Default is load.") flag.BoolVar(&useHadoop, "hadoop", false, "Flag to enable Hadoop storage.") flag.StringVar(&address, "address", "127.0.0.1", "Address of HDFS to connect to.") flag.StringVar(&user, "user", "root", "User of HDFS to connect as.") // parse flags flag.Parse() // prepare command command := shared.CmdParse(commandString) // if command isn't load or create, quit if command != shared.CmdLoad && command != shared.CmdCreate { log.Println(tag, "invalid command given!") return } // prepare path if path == "" { path = shared.GetString("Enter path for Server directory:") } // make sure the path is clean and absolute path, _ = filepath.Abs(filepath.Clean(path)) // path may not be empty OR only contain '.' (which means error in filepath) if path == "" || path == "." { log.Println(tag, "no path given!") return } // create it if required and desired if exists, _ := shared.DirectoryExists(path); !exists { // if command is load we're not going to offer creating the path if command == shared.CmdLoad { log.Println(tag, "Can not run Server without valid path.") return } useQuestion := shared.CreateYesNo("Path <" + path + "> doesn't exist. Create it?") if useQuestion.Ask() < 0 { log.Println(tag, "Can not run Server without valid path.") return } // if yes, create it shared.MakeDirectory(path) } // prepare storage var store encrypted.Storage if useHadoop { var err error store, err = createHDFSStorage(address, user) if err != nil { log.Println("Failed to connect to HDFS:", err) return } } else { // disk storage writes data to disk store = createDiskStorage(path) } var enc *encrypted.Encrypted var err error switch command { case shared.CmdLoad: enc, err = encrypted.Load(path, store) if err != nil { log.Println(tag, "failed to load encrypted:", err) return } case shared.CmdCreate: peerName := shared.GetString("Please enter a peer name for this instance:") enc, err = encrypted.Create(path, peerName, store) if err != nil { log.Println(tag, "failed to create encrypted:", err) return } // store first version for future loads err = enc.Store() if err != nil { log.Println(tag, "failed to store initially:", err) } default: log.Println(tag, "No valid command was chosen, so we'll do nothing.") return } // run encrypted // print important info toxAddress, _ := enc.Address() fmt.Printf("%s Running server <%s>.\nID: %s\n", tag, enc.Name(), toxAddress) // prepare quitting via ctrl-c c := make(chan os.Signal, 1) signal.Notify(c, os.Interrupt) // loop until close for { select { case <-c: // store before closing _ = enc.Store() enc.Close() log.Println(tag, "quitting.") return } // select } // for }