syncthing/internal/config/wrapper.go
Jakob Borg aa803ce2ff Move folder errors to state
The "Invalid" config attribute is retained for errors discovered during
config loading (empty path, duplicate ID). This can only be set or
cleared at config loading time.

Errors discovered during runtime (I/O problems, etc) are now in the
folder state instead. Changes to these are sent as any other folder
state change.
2015-04-13 07:43:45 +09:00

254 lines
5.8 KiB
Go

// Copyright (C) 2014 The Syncthing Authors.
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this file,
// You can obtain one at http://mozilla.org/MPL/2.0/.
package config
import (
"io/ioutil"
"os"
"path/filepath"
"sync"
"github.com/syncthing/protocol"
"github.com/syncthing/syncthing/internal/events"
"github.com/syncthing/syncthing/internal/osutil"
)
// An interface to handle configuration changes, and a wrapper type á la
// http.Handler
type Handler interface {
Changed(Configuration) error
}
type HandlerFunc func(Configuration) error
func (fn HandlerFunc) Changed(cfg Configuration) error {
return fn(cfg)
}
// A wrapper around a Configuration that manages loads, saves and published
// notifications of changes to registered Handlers
type Wrapper struct {
cfg Configuration
path string
deviceMap map[protocol.DeviceID]DeviceConfiguration
folderMap map[string]FolderConfiguration
replaces chan Configuration
mut sync.Mutex
subs []Handler
sMut sync.Mutex
}
// Wrap wraps an existing Configuration structure and ties it to a file on
// disk.
func Wrap(path string, cfg Configuration) *Wrapper {
w := &Wrapper{cfg: cfg, path: path}
w.replaces = make(chan Configuration)
go w.Serve()
return w
}
// Load loads an existing file on disk and returns a new configuration
// wrapper.
func Load(path string, myID protocol.DeviceID) (*Wrapper, error) {
fd, err := os.Open(path)
if err != nil {
return nil, err
}
defer fd.Close()
cfg, err := ReadXML(fd, myID)
if err != nil {
return nil, err
}
return Wrap(path, cfg), nil
}
// Serve handles configuration replace events and calls any interested
// handlers. It is started automatically by Wrap() and Load() and should not
// be run manually.
func (w *Wrapper) Serve() {
for cfg := range w.replaces {
w.sMut.Lock()
subs := w.subs
w.sMut.Unlock()
for _, h := range subs {
h.Changed(cfg)
}
}
}
// Stop stops the Serve() loop. Set and Replace operations will panic after a
// Stop.
func (w *Wrapper) Stop() {
close(w.replaces)
}
// Subscribe registers the given handler to be called on any future
// configuration changes.
func (w *Wrapper) Subscribe(h Handler) {
w.sMut.Lock()
w.subs = append(w.subs, h)
w.sMut.Unlock()
}
// Raw returns the currently wrapped Configuration object.
func (w *Wrapper) Raw() Configuration {
return w.cfg
}
// Replace swaps the current configuration object for the given one.
func (w *Wrapper) Replace(cfg Configuration) {
w.mut.Lock()
defer w.mut.Unlock()
w.cfg = cfg
w.deviceMap = nil
w.folderMap = nil
w.replaces <- cfg.Copy()
}
// Devices returns a map of devices. Device structures should not be changed,
// other than for the purpose of updating via SetDevice().
func (w *Wrapper) Devices() map[protocol.DeviceID]DeviceConfiguration {
w.mut.Lock()
defer w.mut.Unlock()
if w.deviceMap == nil {
w.deviceMap = make(map[protocol.DeviceID]DeviceConfiguration, len(w.cfg.Devices))
for _, dev := range w.cfg.Devices {
w.deviceMap[dev.DeviceID] = dev
}
}
return w.deviceMap
}
// SetDevice adds a new device to the configuration, or overwrites an existing
// device with the same ID.
func (w *Wrapper) SetDevice(dev DeviceConfiguration) {
w.mut.Lock()
defer w.mut.Unlock()
w.deviceMap = nil
for i := range w.cfg.Devices {
if w.cfg.Devices[i].DeviceID == dev.DeviceID {
w.cfg.Devices[i] = dev
w.replaces <- w.cfg.Copy()
return
}
}
w.cfg.Devices = append(w.cfg.Devices, dev)
w.replaces <- w.cfg.Copy()
}
// Devices returns a map of folders. Folder structures should not be changed,
// other than for the purpose of updating via SetFolder().
func (w *Wrapper) Folders() map[string]FolderConfiguration {
w.mut.Lock()
defer w.mut.Unlock()
if w.folderMap == nil {
w.folderMap = make(map[string]FolderConfiguration, len(w.cfg.Folders))
for _, fld := range w.cfg.Folders {
w.folderMap[fld.ID] = fld
}
}
return w.folderMap
}
// SetFolder adds a new folder to the configuration, or overwrites an existing
// folder with the same ID.
func (w *Wrapper) SetFolder(fld FolderConfiguration) {
w.mut.Lock()
defer w.mut.Unlock()
w.folderMap = nil
for i := range w.cfg.Folders {
if w.cfg.Folders[i].ID == fld.ID {
w.cfg.Folders[i] = fld
w.replaces <- w.cfg.Copy()
return
}
}
w.cfg.Folders = append(w.cfg.Folders, fld)
w.replaces <- w.cfg.Copy()
}
// Options returns the current options configuration object.
func (w *Wrapper) Options() OptionsConfiguration {
w.mut.Lock()
defer w.mut.Unlock()
return w.cfg.Options
}
// SetOptions replaces the current options configuration object.
func (w *Wrapper) SetOptions(opts OptionsConfiguration) {
w.mut.Lock()
defer w.mut.Unlock()
w.cfg.Options = opts
w.replaces <- w.cfg.Copy()
}
// GUI returns the current GUI configuration object.
func (w *Wrapper) GUI() GUIConfiguration {
w.mut.Lock()
defer w.mut.Unlock()
return w.cfg.GUI
}
// SetGUI replaces the current GUI configuration object.
func (w *Wrapper) SetGUI(gui GUIConfiguration) {
w.mut.Lock()
defer w.mut.Unlock()
w.cfg.GUI = gui
w.replaces <- w.cfg.Copy()
}
// Returns whether or not connection attempts from the given device should be
// silently ignored.
func (w *Wrapper) IgnoredDevice(id protocol.DeviceID) bool {
w.mut.Lock()
defer w.mut.Unlock()
for _, device := range w.cfg.IgnoredDevices {
if device == id {
return true
}
}
return false
}
// Save writes the configuration to disk, and generates a ConfigSaved event.
func (w *Wrapper) Save() error {
fd, err := ioutil.TempFile(filepath.Dir(w.path), "cfg")
if err != nil {
return err
}
defer os.Remove(fd.Name())
err = w.cfg.WriteXML(fd)
if err != nil {
fd.Close()
return err
}
err = fd.Close()
if err != nil {
return err
}
events.Default.Log(events.ConfigSaved, w.cfg)
return osutil.Rename(fd.Name(), w.path)
}