syncthing/lib/config/wrapper.go

511 lines
13 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 https://mozilla.org/MPL/2.0/.
package config
import (
"fmt"
"os"
"path/filepath"
"sync/atomic"
"time"
"github.com/syncthing/syncthing/lib/events"
"github.com/syncthing/syncthing/lib/fs"
"github.com/syncthing/syncthing/lib/osutil"
"github.com/syncthing/syncthing/lib/protocol"
"github.com/syncthing/syncthing/lib/sync"
"github.com/syncthing/syncthing/lib/util"
)
// The Committer interface is implemented by objects that need to know about
// or have a say in configuration changes.
//
// When the configuration is about to be changed, VerifyConfiguration() is
// called for each subscribing object, with the old and new configuration. A
// nil error is returned if the new configuration is acceptable (i.e. does not
// contain any errors that would prevent it from being a valid config).
// Otherwise an error describing the problem is returned.
//
// If any subscriber returns an error from VerifyConfiguration(), the
// configuration change is not committed and an error is returned to whoever
// tried to commit the broken config.
//
// If all verification calls returns nil, CommitConfiguration() is called for
// each subscribing object. The callee returns true if the new configuration
// has been successfully applied, otherwise false. Any Commit() call returning
// false will result in a "restart needed" response to the API/user. Note that
// the new configuration will still have been applied by those who were
// capable of doing so.
type Committer interface {
VerifyConfiguration(from, to Configuration) error
CommitConfiguration(from, to Configuration) (handled bool)
String() string
}
// Waiter allows to wait for the given config operation to complete.
type Waiter interface {
Wait()
}
type noopWaiter struct{}
func (noopWaiter) Wait() {}
// 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
subs []Committer
mut sync.Mutex
requiresRestart uint32 // an atomic bool
}
// 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,
mut: sync.NewMutex(),
}
w.replaces = make(chan Configuration)
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
}
func (w *Wrapper) ConfigPath() string {
return w.path
}
// 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(c Committer) {
w.mut.Lock()
w.subs = append(w.subs, c)
w.mut.Unlock()
}
// Unsubscribe de-registers the given handler from any future calls to
// configuration changes
func (w *Wrapper) Unsubscribe(c Committer) {
w.mut.Lock()
for i := range w.subs {
if w.subs[i] == c {
copy(w.subs[i:], w.subs[i+1:])
w.subs[len(w.subs)-1] = nil
w.subs = w.subs[:len(w.subs)-1]
break
}
}
w.mut.Unlock()
}
// RawCopy returns a copy of the currently wrapped Configuration object.
func (w *Wrapper) RawCopy() Configuration {
w.mut.Lock()
defer w.mut.Unlock()
return w.cfg.Copy()
}
// Replace swaps the current configuration object for the given one.
func (w *Wrapper) Replace(cfg Configuration) (Waiter, error) {
w.mut.Lock()
defer w.mut.Unlock()
return w.replaceLocked(cfg.Copy())
}
func (w *Wrapper) replaceLocked(to Configuration) (Waiter, error) {
from := w.cfg
if err := to.clean(); err != nil {
return noopWaiter{}, err
}
for _, sub := range w.subs {
l.Debugln(sub, "verifying configuration")
if err := sub.VerifyConfiguration(from.Copy(), to.Copy()); err != nil {
l.Debugln(sub, "rejected config:", err)
return noopWaiter{}, err
}
}
w.cfg = to
w.deviceMap = nil
w.folderMap = nil
return w.notifyListeners(from.Copy(), to.Copy()), nil
}
func (w *Wrapper) notifyListeners(from, to Configuration) Waiter {
wg := sync.NewWaitGroup()
wg.Add(len(w.subs))
for _, sub := range w.subs {
go func(commiter Committer) {
w.notifyListener(commiter, from, to)
wg.Done()
}(sub)
}
return wg
}
func (w *Wrapper) notifyListener(sub Committer, from, to Configuration) {
l.Debugln(sub, "committing configuration")
if !sub.CommitConfiguration(from, to) {
l.Debugln(sub, "requires restart")
w.setRequiresRestart()
}
}
// Devices returns a map of devices.
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.Copy()
}
}
return w.deviceMap
}
// SetDevices adds new devices to the configuration, or overwrites existing
// devices with the same ID.
func (w *Wrapper) SetDevices(devs []DeviceConfiguration) (Waiter, error) {
w.mut.Lock()
defer w.mut.Unlock()
newCfg := w.cfg.Copy()
var replaced bool
for oldIndex := range devs {
replaced = false
for newIndex := range newCfg.Devices {
if newCfg.Devices[newIndex].DeviceID == devs[oldIndex].DeviceID {
newCfg.Devices[newIndex] = devs[oldIndex].Copy()
replaced = true
break
}
}
if !replaced {
newCfg.Devices = append(newCfg.Devices, devs[oldIndex].Copy())
}
}
return w.replaceLocked(newCfg)
}
// SetDevice adds a new device to the configuration, or overwrites an existing
// device with the same ID.
func (w *Wrapper) SetDevice(dev DeviceConfiguration) (Waiter, error) {
return w.SetDevices([]DeviceConfiguration{dev})
}
// RemoveDevice removes the device from the configuration
func (w *Wrapper) RemoveDevice(id protocol.DeviceID) (Waiter, error) {
w.mut.Lock()
defer w.mut.Unlock()
newCfg := w.cfg.Copy()
for i := range newCfg.Devices {
if newCfg.Devices[i].DeviceID == id {
newCfg.Devices = append(newCfg.Devices[:i], newCfg.Devices[i+1:]...)
return w.replaceLocked(newCfg)
}
}
return noopWaiter{}, nil
}
// Folders 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.Copy()
}
}
return w.folderMap
}
// FolderList returns a slice of folders.
func (w *Wrapper) FolderList() []FolderConfiguration {
w.mut.Lock()
defer w.mut.Unlock()
return w.cfg.Copy().Folders
}
// SetFolder adds a new folder to the configuration, or overwrites an existing
// folder with the same ID.
func (w *Wrapper) SetFolder(fld FolderConfiguration) (Waiter, error) {
w.mut.Lock()
defer w.mut.Unlock()
newCfg := w.cfg.Copy()
for i := range newCfg.Folders {
if newCfg.Folders[i].ID == fld.ID {
newCfg.Folders[i] = fld
return w.replaceLocked(newCfg)
}
}
newCfg.Folders = append(newCfg.Folders, fld)
return w.replaceLocked(newCfg)
}
// Options returns the current options configuration object.
func (w *Wrapper) Options() OptionsConfiguration {
w.mut.Lock()
defer w.mut.Unlock()
return w.cfg.Options.Copy()
}
// SetOptions replaces the current options configuration object.
func (w *Wrapper) SetOptions(opts OptionsConfiguration) (Waiter, error) {
w.mut.Lock()
defer w.mut.Unlock()
newCfg := w.cfg.Copy()
newCfg.Options = opts.Copy()
return w.replaceLocked(newCfg)
}
func (w *Wrapper) LDAP() LDAPConfiguration {
w.mut.Lock()
defer w.mut.Unlock()
return w.cfg.LDAP.Copy()
}
// GUI returns the current GUI configuration object.
func (w *Wrapper) GUI() GUIConfiguration {
w.mut.Lock()
defer w.mut.Unlock()
return w.cfg.GUI.Copy()
}
// SetGUI replaces the current GUI configuration object.
func (w *Wrapper) SetGUI(gui GUIConfiguration) (Waiter, error) {
w.mut.Lock()
defer w.mut.Unlock()
newCfg := w.cfg.Copy()
newCfg.GUI = gui.Copy()
return w.replaceLocked(newCfg)
}
// IgnoredDevice 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 == id {
return true
}
}
return false
}
// IgnoredFolder returns whether or not share attempts for the given
// folder should be silently ignored.
func (w *Wrapper) IgnoredFolder(device protocol.DeviceID, folder string) bool {
dev, ok := w.Device(device)
if !ok {
return false
}
return dev.IgnoredFolder(folder)
}
// Device returns the configuration for the given device and an "ok" bool.
func (w *Wrapper) Device(id protocol.DeviceID) (DeviceConfiguration, bool) {
w.mut.Lock()
defer w.mut.Unlock()
for _, device := range w.cfg.Devices {
if device.DeviceID == id {
return device.Copy(), true
}
}
return DeviceConfiguration{}, false
}
// Folder returns the configuration for the given folder and an "ok" bool.
func (w *Wrapper) Folder(id string) (FolderConfiguration, bool) {
w.mut.Lock()
defer w.mut.Unlock()
for _, folder := range w.cfg.Folders {
if folder.ID == id {
return folder.Copy(), true
}
}
return FolderConfiguration{}, false
}
// Save writes the configuration to disk, and generates a ConfigSaved event.
func (w *Wrapper) Save() error {
w.mut.Lock()
defer w.mut.Unlock()
fd, err := osutil.CreateAtomic(w.path)
if err != nil {
l.Debugln("CreateAtomic:", err)
return err
}
if err := w.cfg.WriteXML(fd); err != nil {
l.Debugln("WriteXML:", err)
fd.Close()
return err
}
if err := fd.Close(); err != nil {
l.Debugln("Close:", err)
return err
}
events.Default.Log(events.ConfigSaved, w.cfg)
return nil
}
func (w *Wrapper) GlobalDiscoveryServers() []string {
var servers []string
for _, srv := range w.Options().GlobalAnnServers {
switch srv {
case "default":
servers = append(servers, DefaultDiscoveryServers...)
case "default-v4":
servers = append(servers, DefaultDiscoveryServersV4...)
case "default-v6":
servers = append(servers, DefaultDiscoveryServersV6...)
default:
servers = append(servers, srv)
}
}
return util.UniqueStrings(servers)
}
func (w *Wrapper) ListenAddresses() []string {
var addresses []string
for _, addr := range w.Options().ListenAddresses {
switch addr {
case "default":
addresses = append(addresses, DefaultListenAddresses...)
default:
addresses = append(addresses, addr)
}
}
return util.UniqueStrings(addresses)
}
func (w *Wrapper) RequiresRestart() bool {
return atomic.LoadUint32(&w.requiresRestart) != 0
}
func (w *Wrapper) setRequiresRestart() {
atomic.StoreUint32(&w.requiresRestart, 1)
}
func (w *Wrapper) MyName() string {
w.mut.Lock()
myID := w.cfg.MyID
w.mut.Unlock()
cfg, _ := w.Device(myID)
return cfg.Name
}
func (w *Wrapper) AddOrUpdatePendingDevice(device protocol.DeviceID, name, address string) {
defer w.Save()
w.mut.Lock()
defer w.mut.Unlock()
for i := range w.cfg.PendingDevices {
if w.cfg.PendingDevices[i].ID == device {
w.cfg.PendingDevices[i].Time = time.Now()
w.cfg.PendingDevices[i].Name = name
w.cfg.PendingDevices[i].Address = address
return
}
}
w.cfg.PendingDevices = append(w.cfg.PendingDevices, ObservedDevice{
Time: time.Now(),
ID: device,
Name: name,
Address: address,
})
}
func (w *Wrapper) AddOrUpdatePendingFolder(id, label string, device protocol.DeviceID) {
defer w.Save()
w.mut.Lock()
defer w.mut.Unlock()
for i := range w.cfg.Devices {
if w.cfg.Devices[i].DeviceID == device {
for j := range w.cfg.Devices[i].PendingFolders {
if w.cfg.Devices[i].PendingFolders[j].ID == id {
w.cfg.Devices[i].PendingFolders[j].Label = label
w.cfg.Devices[i].PendingFolders[j].Time = time.Now()
return
}
}
w.cfg.Devices[i].PendingFolders = append(w.cfg.Devices[i].PendingFolders, ObservedFolder{
Time: time.Now(),
ID: id,
Label: label,
})
return
}
}
panic("bug: adding pending folder for non-existing device")
}
// CheckHomeFreeSpace returns nil if the home disk has the required amount of
// free space, or if home disk free space checking is disabled.
func (w *Wrapper) CheckHomeFreeSpace() error {
path := filepath.Dir(w.ConfigPath())
if usage, err := fs.NewFilesystem(fs.FilesystemTypeBasic, path).Usage("."); err == nil {
if err = checkFreeSpace(w.Options().MinHomeDiskFree, usage); err != nil {
return fmt.Errorf("insufficient space on home disk (%v): %v", path, err)
}
}
return nil
}