syncthing/lib/db/set.go
Jakob Borg 2a4fc28318 We should pass around db.Instance instead of leveldb.DB
We're going to need the db.Instance to keep some state, and for that to
work we need the same one passed around everywhere. Hence this moves the
leveldb-specific file opening stuff into the db package and exports the
dbInstance type.
2015-10-31 12:35:30 +01:00

273 lines
7.6 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 db provides a set type to track local/remote files with newness
// checks. We must do a certain amount of normalization in here. We will get
// fed paths with either native or wire-format separators and encodings
// depending on who calls us. We transform paths to wire-format (NFC and
// slashes) on the way to the database, and transform to native format
// (varying separator and encoding) on the way back out.
package db
import (
stdsync "sync"
"github.com/syncthing/syncthing/lib/osutil"
"github.com/syncthing/syncthing/lib/protocol"
"github.com/syncthing/syncthing/lib/sync"
)
type FileSet struct {
localVersion map[protocol.DeviceID]int64
mutex sync.Mutex
folder string
db *Instance
blockmap *BlockMap
localSize sizeTracker
globalSize sizeTracker
}
// FileIntf is the set of methods implemented by both protocol.FileInfo and
// protocol.FileInfoTruncated.
type FileIntf interface {
Size() int64
IsDeleted() bool
IsInvalid() bool
IsDirectory() bool
IsSymlink() bool
HasPermissionBits() bool
}
// The Iterator is called with either a protocol.FileInfo or a
// protocol.FileInfoTruncated (depending on the method) and returns true to
// continue iteration, false to stop.
type Iterator func(f FileIntf) bool
type sizeTracker struct {
files int
deleted int
bytes int64
mut stdsync.Mutex
}
func (s *sizeTracker) addFile(f FileIntf) {
if f.IsInvalid() {
return
}
s.mut.Lock()
if f.IsDeleted() {
s.deleted++
} else {
s.files++
}
s.bytes += f.Size()
s.mut.Unlock()
}
func (s *sizeTracker) removeFile(f FileIntf) {
if f.IsInvalid() {
return
}
s.mut.Lock()
if f.IsDeleted() {
s.deleted--
} else {
s.files--
}
s.bytes -= f.Size()
if s.deleted < 0 || s.files < 0 {
panic("bug: removed more than added")
}
s.mut.Unlock()
}
func (s *sizeTracker) Size() (files, deleted int, bytes int64) {
s.mut.Lock()
defer s.mut.Unlock()
return s.files, s.deleted, s.bytes
}
func NewFileSet(folder string, db *Instance) *FileSet {
var s = FileSet{
localVersion: make(map[protocol.DeviceID]int64),
folder: folder,
db: db,
blockmap: NewBlockMap(db, folder),
mutex: sync.NewMutex(),
}
s.db.checkGlobals([]byte(folder), &s.globalSize)
var deviceID protocol.DeviceID
s.db.withAllFolderTruncated([]byte(folder), func(device []byte, f FileInfoTruncated) bool {
copy(deviceID[:], device)
if f.LocalVersion > s.localVersion[deviceID] {
s.localVersion[deviceID] = f.LocalVersion
}
if deviceID == protocol.LocalDeviceID {
s.localSize.addFile(f)
}
return true
})
l.Debugf("loaded localVersion for %q: %#v", folder, s.localVersion)
clock(s.localVersion[protocol.LocalDeviceID])
return &s
}
func (s *FileSet) Replace(device protocol.DeviceID, fs []protocol.FileInfo) {
l.Debugf("%s Replace(%v, [%d])", s.folder, device, len(fs))
normalizeFilenames(fs)
s.mutex.Lock()
defer s.mutex.Unlock()
s.localVersion[device] = s.db.replace([]byte(s.folder), device[:], fs, &s.localSize, &s.globalSize)
if len(fs) == 0 {
// Reset the local version if all files were removed.
s.localVersion[device] = 0
}
if device == protocol.LocalDeviceID {
s.blockmap.Drop()
s.blockmap.Add(fs)
}
}
func (s *FileSet) Update(device protocol.DeviceID, fs []protocol.FileInfo) {
l.Debugf("%s Update(%v, [%d])", s.folder, device, len(fs))
normalizeFilenames(fs)
s.mutex.Lock()
defer s.mutex.Unlock()
if device == protocol.LocalDeviceID {
discards := make([]protocol.FileInfo, 0, len(fs))
updates := make([]protocol.FileInfo, 0, len(fs))
for _, newFile := range fs {
existingFile, ok := s.db.getFile([]byte(s.folder), device[:], []byte(newFile.Name))
if !ok || !existingFile.Version.Equal(newFile.Version) {
discards = append(discards, existingFile)
updates = append(updates, newFile)
}
}
s.blockmap.Discard(discards)
s.blockmap.Update(updates)
}
if lv := s.db.updateFiles([]byte(s.folder), device[:], fs, &s.localSize, &s.globalSize); lv > s.localVersion[device] {
s.localVersion[device] = lv
}
}
func (s *FileSet) WithNeed(device protocol.DeviceID, fn Iterator) {
l.Debugf("%s WithNeed(%v)", s.folder, device)
s.db.withNeed([]byte(s.folder), device[:], false, nativeFileIterator(fn))
}
func (s *FileSet) WithNeedTruncated(device protocol.DeviceID, fn Iterator) {
l.Debugf("%s WithNeedTruncated(%v)", s.folder, device)
s.db.withNeed([]byte(s.folder), device[:], true, nativeFileIterator(fn))
}
func (s *FileSet) WithHave(device protocol.DeviceID, fn Iterator) {
l.Debugf("%s WithHave(%v)", s.folder, device)
s.db.withHave([]byte(s.folder), device[:], false, nativeFileIterator(fn))
}
func (s *FileSet) WithHaveTruncated(device protocol.DeviceID, fn Iterator) {
l.Debugf("%s WithHaveTruncated(%v)", s.folder, device)
s.db.withHave([]byte(s.folder), device[:], true, nativeFileIterator(fn))
}
func (s *FileSet) WithGlobal(fn Iterator) {
l.Debugf("%s WithGlobal()", s.folder)
s.db.withGlobal([]byte(s.folder), nil, false, nativeFileIterator(fn))
}
func (s *FileSet) WithGlobalTruncated(fn Iterator) {
l.Debugf("%s WithGlobalTruncated()", s.folder)
s.db.withGlobal([]byte(s.folder), nil, true, nativeFileIterator(fn))
}
func (s *FileSet) WithPrefixedGlobalTruncated(prefix string, fn Iterator) {
l.Debugf("%s WithPrefixedGlobalTruncated()", s.folder, prefix)
s.db.withGlobal([]byte(s.folder), []byte(osutil.NormalizedFilename(prefix)), true, nativeFileIterator(fn))
}
func (s *FileSet) Get(device protocol.DeviceID, file string) (protocol.FileInfo, bool) {
f, ok := s.db.getFile([]byte(s.folder), device[:], []byte(osutil.NormalizedFilename(file)))
f.Name = osutil.NativeFilename(f.Name)
return f, ok
}
func (s *FileSet) GetGlobal(file string) (protocol.FileInfo, bool) {
fi, ok := s.db.getGlobal([]byte(s.folder), []byte(osutil.NormalizedFilename(file)), false)
if !ok {
return protocol.FileInfo{}, false
}
f := fi.(protocol.FileInfo)
f.Name = osutil.NativeFilename(f.Name)
return f, true
}
func (s *FileSet) GetGlobalTruncated(file string) (FileInfoTruncated, bool) {
fi, ok := s.db.getGlobal([]byte(s.folder), []byte(osutil.NormalizedFilename(file)), true)
if !ok {
return FileInfoTruncated{}, false
}
f := fi.(FileInfoTruncated)
f.Name = osutil.NativeFilename(f.Name)
return f, true
}
func (s *FileSet) Availability(file string) []protocol.DeviceID {
return s.db.availability([]byte(s.folder), []byte(osutil.NormalizedFilename(file)))
}
func (s *FileSet) LocalVersion(device protocol.DeviceID) int64 {
s.mutex.Lock()
defer s.mutex.Unlock()
return s.localVersion[device]
}
func (s *FileSet) LocalSize() (files, deleted int, bytes int64) {
return s.localSize.Size()
}
func (s *FileSet) GlobalSize() (files, deleted int, bytes int64) {
return s.globalSize.Size()
}
// DropFolder clears out all information related to the given folder from the
// database.
func DropFolder(db *Instance, folder string) {
db.dropFolder([]byte(folder))
bm := &BlockMap{
db: db,
folder: folder,
}
bm.Drop()
NewVirtualMtimeRepo(db, folder).Drop()
}
func normalizeFilenames(fs []protocol.FileInfo) {
for i := range fs {
fs[i].Name = osutil.NormalizedFilename(fs[i].Name)
}
}
func nativeFileIterator(fn Iterator) Iterator {
return func(fi FileIntf) bool {
switch f := fi.(type) {
case protocol.FileInfo:
f.Name = osutil.NativeFilename(f.Name)
return fn(f)
case FileInfoTruncated:
f.Name = osutil.NativeFilename(f.Name)
return fn(f)
default:
panic("unknown interface type")
}
}
}