package filesys import ( "context" "fmt" "math" "os" "path" "sync" "time" "google.golang.org/grpc" "github.com/chrislusf/seaweedfs/weed/util/grace" "github.com/seaweedfs/fuse" "github.com/seaweedfs/fuse/fs" "github.com/chrislusf/seaweedfs/weed/filesys/meta_cache" "github.com/chrislusf/seaweedfs/weed/glog" "github.com/chrislusf/seaweedfs/weed/pb/filer_pb" "github.com/chrislusf/seaweedfs/weed/util" "github.com/chrislusf/seaweedfs/weed/util/chunk_cache" ) type Option struct { FilerGrpcAddress string GrpcDialOption grpc.DialOption FilerMountRootPath string Collection string Replication string TtlSec int32 ChunkSizeLimit int64 CacheDir string CacheSizeMB int64 DataCenter string EntryCacheTtl time.Duration Umask os.FileMode MountCtime time.Time MountMtime time.Time OutsideContainerClusterMode bool // whether the mount runs outside SeaweedFS containers Cipher bool // whether encrypt data on volume server UidGidMapper *meta_cache.UidGidMapper } var _ = fs.FS(&WFS{}) var _ = fs.FSStatfser(&WFS{}) type WFS struct { option *Option // contains all open handles, protected by handlesLock handlesLock sync.Mutex handles map[uint64]*FileHandle bufPool sync.Pool stats statsCache root fs.Node fsNodeCache *FsCache chunkCache *chunk_cache.TieredChunkCache metaCache *meta_cache.MetaCache signature int32 } type statsCache struct { filer_pb.StatisticsResponse lastChecked int64 // unix time in seconds } func NewSeaweedFileSystem(option *Option) *WFS { wfs := &WFS{ option: option, handles: make(map[uint64]*FileHandle), bufPool: sync.Pool{ New: func() interface{} { return make([]byte, option.ChunkSizeLimit) }, }, signature: util.RandomInt32(), } cacheUniqueId := util.Md5String([]byte(option.FilerGrpcAddress + option.FilerMountRootPath + util.Version()))[0:4] cacheDir := path.Join(option.CacheDir, cacheUniqueId) if option.CacheSizeMB > 0 { os.MkdirAll(cacheDir, os.FileMode(0777)&^option.Umask) wfs.chunkCache = chunk_cache.NewTieredChunkCache(256, cacheDir, option.CacheSizeMB) } wfs.metaCache = meta_cache.NewMetaCache(path.Join(cacheDir, "meta"), option.UidGidMapper) startTime := time.Now() go meta_cache.SubscribeMetaEvents(wfs.metaCache, wfs.signature, wfs, wfs.option.FilerMountRootPath, startTime.UnixNano()) grace.OnInterrupt(func() { wfs.metaCache.Shutdown() }) entry, _ := filer_pb.GetEntry(wfs, util.FullPath(wfs.option.FilerMountRootPath)) wfs.root = &Dir{name: wfs.option.FilerMountRootPath, wfs: wfs, entry: entry} wfs.fsNodeCache = newFsCache(wfs.root) return wfs } func (wfs *WFS) Root() (fs.Node, error) { return wfs.root, nil } func (wfs *WFS) AcquireHandle(file *File, uid, gid uint32) (fileHandle *FileHandle) { fullpath := file.fullpath() glog.V(4).Infof("AcquireHandle %s uid=%d gid=%d", fullpath, uid, gid) wfs.handlesLock.Lock() defer wfs.handlesLock.Unlock() inodeId := file.fullpath().AsInode() existingHandle, found := wfs.handles[inodeId] if found && existingHandle != nil { file.isOpen++ return existingHandle } fileHandle = newFileHandle(file, uid, gid) file.maybeLoadEntry(context.Background()) file.isOpen++ wfs.handles[inodeId] = fileHandle fileHandle.handle = inodeId return } func (wfs *WFS) ReleaseHandle(fullpath util.FullPath, handleId fuse.HandleID) { wfs.handlesLock.Lock() defer wfs.handlesLock.Unlock() glog.V(4).Infof("%s ReleaseHandle id %d current handles length %d", fullpath, handleId, len(wfs.handles)) delete(wfs.handles, fullpath.AsInode()) return } // Statfs is called to obtain file system metadata. Implements fuse.FSStatfser func (wfs *WFS) Statfs(ctx context.Context, req *fuse.StatfsRequest, resp *fuse.StatfsResponse) error { glog.V(4).Infof("reading fs stats: %+v", req) if wfs.stats.lastChecked < time.Now().Unix()-20 { err := wfs.WithFilerClient(func(client filer_pb.SeaweedFilerClient) error { request := &filer_pb.StatisticsRequest{ Collection: wfs.option.Collection, Replication: wfs.option.Replication, Ttl: fmt.Sprintf("%ds", wfs.option.TtlSec), } glog.V(4).Infof("reading filer stats: %+v", request) resp, err := client.Statistics(context.Background(), request) if err != nil { glog.V(0).Infof("reading filer stats %v: %v", request, err) return err } glog.V(4).Infof("read filer stats: %+v", resp) wfs.stats.TotalSize = resp.TotalSize wfs.stats.UsedSize = resp.UsedSize wfs.stats.FileCount = resp.FileCount wfs.stats.lastChecked = time.Now().Unix() return nil }) if err != nil { glog.V(0).Infof("filer Statistics: %v", err) return err } } totalDiskSize := wfs.stats.TotalSize usedDiskSize := wfs.stats.UsedSize actualFileCount := wfs.stats.FileCount // Compute the total number of available blocks resp.Blocks = totalDiskSize / blockSize // Compute the number of used blocks numBlocks := uint64(usedDiskSize / blockSize) // Report the number of free and available blocks for the block size resp.Bfree = resp.Blocks - numBlocks resp.Bavail = resp.Blocks - numBlocks resp.Bsize = uint32(blockSize) // Report the total number of possible files in the file system (and those free) resp.Files = math.MaxInt64 resp.Ffree = math.MaxInt64 - actualFileCount // Report the maximum length of a name and the minimum fragment size resp.Namelen = 1024 resp.Frsize = uint32(blockSize) return nil } func (wfs *WFS) mapPbIdFromFilerToLocal(entry *filer_pb.Entry) { if entry.Attributes == nil { return } entry.Attributes.Uid, entry.Attributes.Gid = wfs.option.UidGidMapper.FilerToLocal(entry.Attributes.Uid, entry.Attributes.Gid) } func (wfs *WFS) mapPbIdFromLocalToFiler(entry *filer_pb.Entry) { if entry.Attributes == nil { return } entry.Attributes.Uid, entry.Attributes.Gid = wfs.option.UidGidMapper.LocalToFiler(entry.Attributes.Uid, entry.Attributes.Gid) }