package repo import ( "encoding/json" "io/ioutil" "os" "path/filepath" "sync" "github.com/google/uuid" "github.com/ipfs/go-datastore" "github.com/ipfs/go-datastore/namespace" dssync "github.com/ipfs/go-datastore/sync" "github.com/multiformats/go-multiaddr" "golang.org/x/xerrors" "github.com/filecoin-project/lotus/chain/types" "github.com/filecoin-project/lotus/node/config" "github.com/filecoin-project/sector-storage/stores" ) type MemRepo struct { api struct { sync.Mutex ma multiaddr.Multiaddr token []byte } repoLock chan struct{} token *byte datastore datastore.Datastore configF func(t RepoType) interface{} keystore map[string]types.KeyInfo } type lockedMemRepo struct { mem *MemRepo t RepoType sync.RWMutex tempDir string token *byte sc *stores.StorageConfig } func (lmem *lockedMemRepo) GetStorage() (stores.StorageConfig, error) { if lmem.sc == nil { lmem.sc = &stores.StorageConfig{StoragePaths: []stores.LocalPath{ {Path: lmem.Path()}, }} } return *lmem.sc, nil } func (lmem *lockedMemRepo) SetStorage(c func(*stores.StorageConfig)) error { _, _ = lmem.GetStorage() c(lmem.sc) return nil } func (lmem *lockedMemRepo) Path() string { lmem.Lock() defer lmem.Unlock() if lmem.tempDir != "" { return lmem.tempDir } t, err := ioutil.TempDir(os.TempDir(), "lotus-memrepo-temp-") if err != nil { panic(err) // only used in tests, probably fine } if lmem.t == StorageMiner { if err := config.WriteStorageFile(filepath.Join(t, fsStorageConfig), stores.StorageConfig{ StoragePaths: []stores.LocalPath{ {Path: t}, }}); err != nil { panic(err) } b, err := json.MarshalIndent(&stores.LocalStorageMeta{ ID: stores.ID(uuid.New().String()), Weight: 10, CanSeal: true, CanStore: true, }, "", " ") if err != nil { panic(err) } if err := ioutil.WriteFile(filepath.Join(t, "sectorstore.json"), b, 0644); err != nil { panic(err) } } lmem.tempDir = t return t } var _ Repo = &MemRepo{} // MemRepoOptions contains options for memory repo type MemRepoOptions struct { Ds datastore.Datastore ConfigF func(RepoType) interface{} KeyStore map[string]types.KeyInfo } // NewMemory creates new memory based repo with provided options. // opts can be nil, it will be replaced with defaults. // Any field in opts can be nil, they will be replaced by defaults. func NewMemory(opts *MemRepoOptions) *MemRepo { if opts == nil { opts = &MemRepoOptions{} } if opts.ConfigF == nil { opts.ConfigF = defConfForType } if opts.Ds == nil { opts.Ds = dssync.MutexWrap(datastore.NewMapDatastore()) } if opts.KeyStore == nil { opts.KeyStore = make(map[string]types.KeyInfo) } return &MemRepo{ repoLock: make(chan struct{}, 1), datastore: opts.Ds, configF: opts.ConfigF, keystore: opts.KeyStore, } } func (mem *MemRepo) APIEndpoint() (multiaddr.Multiaddr, error) { mem.api.Lock() defer mem.api.Unlock() if mem.api.ma == nil { return nil, ErrNoAPIEndpoint } return mem.api.ma, nil } func (mem *MemRepo) APIToken() ([]byte, error) { mem.api.Lock() defer mem.api.Unlock() if mem.api.ma == nil { return nil, ErrNoAPIToken } return mem.api.token, nil } func (mem *MemRepo) Lock(t RepoType) (LockedRepo, error) { select { case mem.repoLock <- struct{}{}: default: return nil, ErrRepoAlreadyLocked } mem.token = new(byte) return &lockedMemRepo{ mem: mem, t: t, token: mem.token, }, nil } func (lmem *lockedMemRepo) checkToken() error { lmem.RLock() defer lmem.RUnlock() if lmem.mem.token != lmem.token { return ErrClosedRepo } return nil } func (lmem *lockedMemRepo) Close() error { if err := lmem.checkToken(); err != nil { return err } lmem.Lock() defer lmem.Unlock() if lmem.mem.token != lmem.token { return ErrClosedRepo } if lmem.tempDir != "" { if err := os.RemoveAll(lmem.tempDir); err != nil { return err } lmem.tempDir = "" } lmem.mem.token = nil lmem.mem.api.Lock() lmem.mem.api.ma = nil lmem.mem.api.Unlock() <-lmem.mem.repoLock // unlock return nil } func (lmem *lockedMemRepo) Datastore(ns string) (datastore.Batching, error) { if err := lmem.checkToken(); err != nil { return nil, err } return namespace.Wrap(lmem.mem.datastore, datastore.NewKey(ns)), nil } func (lmem *lockedMemRepo) Config() (interface{}, error) { if err := lmem.checkToken(); err != nil { return nil, err } return lmem.mem.configF(lmem.t), nil } func (lmem *lockedMemRepo) Storage() (stores.StorageConfig, error) { panic("implement me") } func (lmem *lockedMemRepo) SetAPIEndpoint(ma multiaddr.Multiaddr) error { if err := lmem.checkToken(); err != nil { return err } lmem.mem.api.Lock() lmem.mem.api.ma = ma lmem.mem.api.Unlock() return nil } func (lmem *lockedMemRepo) SetAPIToken(token []byte) error { if err := lmem.checkToken(); err != nil { return err } lmem.mem.api.Lock() lmem.mem.api.token = token lmem.mem.api.Unlock() return nil } func (lmem *lockedMemRepo) KeyStore() (types.KeyStore, error) { if err := lmem.checkToken(); err != nil { return nil, err } return lmem, nil } // Implement KeyStore on the same instance // List lists all the keys stored in the KeyStore func (lmem *lockedMemRepo) List() ([]string, error) { if err := lmem.checkToken(); err != nil { return nil, err } lmem.RLock() defer lmem.RUnlock() res := make([]string, 0, len(lmem.mem.keystore)) for k := range lmem.mem.keystore { res = append(res, k) } return res, nil } // Get gets a key out of keystore and returns types.KeyInfo coresponding to named key func (lmem *lockedMemRepo) Get(name string) (types.KeyInfo, error) { if err := lmem.checkToken(); err != nil { return types.KeyInfo{}, err } lmem.RLock() defer lmem.RUnlock() key, ok := lmem.mem.keystore[name] if !ok { return types.KeyInfo{}, xerrors.Errorf("getting key '%s': %w", name, types.ErrKeyInfoNotFound) } return key, nil } // Put saves key info under given name func (lmem *lockedMemRepo) Put(name string, key types.KeyInfo) error { if err := lmem.checkToken(); err != nil { return err } lmem.Lock() defer lmem.Unlock() _, isThere := lmem.mem.keystore[name] if isThere { return xerrors.Errorf("putting key '%s': %w", name, types.ErrKeyExists) } lmem.mem.keystore[name] = key return nil } func (lmem *lockedMemRepo) Delete(name string) error { if err := lmem.checkToken(); err != nil { return err } lmem.Lock() defer lmem.Unlock() _, isThere := lmem.mem.keystore[name] if !isThere { return xerrors.Errorf("deleting key '%s': %w", name, types.ErrKeyInfoNotFound) } delete(lmem.mem.keystore, name) return nil }