package stores import ( "context" "encoding/json" "io/ioutil" "os" "path/filepath" "sync" "github.com/filecoin-project/specs-actors/actors/abi" "golang.org/x/xerrors" "github.com/filecoin-project/go-sectorbuilder" "github.com/filecoin-project/lotus/node/config" "github.com/filecoin-project/lotus/storage/sealmgr/sectorutil" ) type StoragePath struct { ID ID Weight uint64 LocalPath string CanSeal bool CanStore bool } // [path]/sectorstore.json type LocalStorageMeta struct { ID ID Weight uint64 // 0 = readonly CanSeal bool CanStore bool } type LocalStorage interface { GetStorage() (config.StorageConfig, error) SetStorage(func(*config.StorageConfig)) error } const MetaFile = "sectorstore.json" var pathTypes = []sectorbuilder.SectorFileType{sectorbuilder.FTUnsealed, sectorbuilder.FTSealed, sectorbuilder.FTCache} type Local struct { localStorage LocalStorage index SectorIndex urls []string paths map[ID]*path localLk sync.RWMutex } type path struct { local string // absolute local path } func NewLocal(ctx context.Context, ls LocalStorage, index SectorIndex, urls []string) (*Local, error) { l := &Local{ localStorage: ls, index: index, urls: urls, paths: map[ID]*path{}, } return l, l.open(ctx) } func (st *Local) OpenPath(ctx context.Context, p string) error { st.localLk.Lock() defer st.localLk.Unlock() mb, err := ioutil.ReadFile(filepath.Join(p, MetaFile)) if err != nil { return xerrors.Errorf("reading storage metadata for %s: %w", p, err) } var meta LocalStorageMeta if err := json.Unmarshal(mb, &meta); err != nil { return xerrors.Errorf("unmarshalling storage metadata for %s: %w", p, err) } // TODO: Check existing / dedupe out := &path{ local: p, } fst, err := Stat(p) if err != nil { return err } err = st.index.StorageAttach(ctx, StorageInfo{ ID: meta.ID, URLs: st.urls, Weight: meta.Weight, CanSeal: meta.CanSeal, CanStore: meta.CanStore, }, fst) if err != nil { return xerrors.Errorf("declaring storage in index: %w", err) } for _, t := range pathTypes { ents, err := ioutil.ReadDir(filepath.Join(p, t.String())) if err != nil { if os.IsNotExist(err) { if err := os.MkdirAll(filepath.Join(p, t.String()), 0755); err != nil { return xerrors.Errorf("openPath mkdir '%s': %w", filepath.Join(p, t.String()), err) } continue } return xerrors.Errorf("listing %s: %w", filepath.Join(p, t.String()), err) } for _, ent := range ents { sid, err := sectorutil.ParseSectorID(ent.Name()) if err != nil { return xerrors.Errorf("parse sector id %s: %w", ent.Name(), err) } if err := st.index.StorageDeclareSector(ctx, meta.ID, sid, t); err != nil { return xerrors.Errorf("declare sector %d(t:%d) -> %s: %w", sid, t, meta.ID, err) } } } st.paths[meta.ID] = out return nil } func (st *Local) open(ctx context.Context) error { cfg, err := st.localStorage.GetStorage() if err != nil { return xerrors.Errorf("getting local storage config: %w", err) } for _, path := range cfg.StoragePaths { err := st.OpenPath(ctx, path.Path) if err != nil { return xerrors.Errorf("opening path %s: %w", path.Path, err) } } return nil } func (st *Local) AcquireSector(ctx context.Context, sid abi.SectorID, existing sectorbuilder.SectorFileType, allocate sectorbuilder.SectorFileType, sealing bool) (sectorbuilder.SectorPaths, sectorbuilder.SectorPaths, func(), error) { if existing|allocate != existing^allocate { return sectorbuilder.SectorPaths{}, sectorbuilder.SectorPaths{}, nil, xerrors.New("can't both find and allocate a sector") } st.localLk.RLock() var out sectorbuilder.SectorPaths var storageIDs sectorbuilder.SectorPaths for _, fileType := range pathTypes { if fileType&existing == 0 { continue } si, err := st.index.StorageFindSector(ctx, sid, fileType) if err != nil { log.Warnf("finding existing sector %d(t:%d) failed: %+v", sid, fileType, err) continue } for _, info := range si { p, ok := st.paths[info.ID] if !ok { continue } if p.local == "" { // TODO: can that even be the case? continue } spath := filepath.Join(p.local, fileType.String(), sectorutil.SectorName(sid)) sectorutil.SetPathByType(&out, fileType, spath) sectorutil.SetPathByType(&storageIDs, fileType, string(info.ID)) existing ^= fileType } } for _, fileType := range pathTypes { if fileType&allocate == 0 { continue } sis, err := st.index.StorageBestAlloc(ctx, fileType, sealing) if err != nil { st.localLk.RUnlock() return sectorbuilder.SectorPaths{}, sectorbuilder.SectorPaths{}, nil, xerrors.Errorf("finding best storage for allocating : %w", err) } var best string var bestID ID for _, si := range sis { p, ok := st.paths[si.ID] if !ok { continue } if p.local == "" { // TODO: can that even be the case? continue } if sealing && !si.CanSeal { continue } if !sealing && !si.CanStore { continue } // TODO: Check free space best = filepath.Join(p.local, fileType.String(), sectorutil.SectorName(sid)) bestID = si.ID } if best == "" { st.localLk.RUnlock() return sectorbuilder.SectorPaths{}, sectorbuilder.SectorPaths{}, nil, xerrors.Errorf("couldn't find a suitable path for a sector") } sectorutil.SetPathByType(&out, fileType, best) sectorutil.SetPathByType(&storageIDs, fileType, string(bestID)) allocate ^= fileType } return out, storageIDs, st.localLk.RUnlock, nil } func (st *Local) Local(ctx context.Context) ([]StoragePath, error) { st.localLk.RLock() defer st.localLk.RUnlock() var out []StoragePath for id, p := range st.paths { if p.local == "" { continue } si, err := st.index.StorageInfo(ctx, id) if err != nil { return nil, xerrors.Errorf("get storage info for %s: %w", id, err) } out = append(out, StoragePath{ ID: id, Weight: si.Weight, LocalPath: p.local, CanSeal: si.CanSeal, CanStore: si.CanStore, }) } return out, nil } func (st *Local) FsStat(id ID) (FsStat, error) { st.localLk.RLock() defer st.localLk.RUnlock() p, ok := st.paths[id] if !ok { return FsStat{}, xerrors.Errorf("fsstat: path not found") } return Stat(p.local) }