/* * Minio Cloud Storage, (C) 2016 Minio, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package main import ( "io" "os" "path/filepath" "strings" "sync" "syscall" "github.com/minio/minio/pkg/disk" "github.com/minio/minio/pkg/safe" ) const ( fsListLimit = 1000 ) // listParams - list object params used for list object map type listParams struct { bucket string recursive bool marker string prefix string } // fsStorage - implements StorageAPI interface. type fsStorage struct { diskPath string diskInfo disk.Info minFreeDisk int64 listObjectMap map[listParams][]*treeWalker listObjectMapMutex *sync.Mutex } // isDirEmpty - returns whether given directory is empty or not. func isDirEmpty(dirname string) (status bool, err error) { f, err := os.Open(dirname) if err == nil { defer f.Close() if _, err = f.Readdirnames(1); err == io.EOF { status = true err = nil } } return status, err } // isDirExist - returns whether given directory exists or not. func isDirExist(dirname string) (bool, error) { fi, e := os.Stat(dirname) if e != nil { if os.IsNotExist(e) { return false, nil } return false, e } return fi.IsDir(), nil } // Initialize a new storage disk. func newFS(diskPath string) (StorageAPI, error) { if diskPath == "" { return nil, errInvalidArgument } st, e := os.Stat(diskPath) if e != nil { return nil, e } if !st.IsDir() { return nil, syscall.ENOTDIR } diskInfo, e := disk.GetInfo(diskPath) if e != nil { return nil, e } fs := fsStorage{ diskPath: diskPath, diskInfo: diskInfo, minFreeDisk: 5, // Minimum 5% disk should be free. listObjectMap: make(map[listParams][]*treeWalker), listObjectMapMutex: &sync.Mutex{}, } return fs, nil } // checkDiskFree verifies if disk path has sufficient minium free disk space. func checkDiskFree(diskPath string, minFreeDisk int64) (err error) { di, err := disk.GetInfo(diskPath) if err != nil { return err } // Remove 5% from total space for cumulative disk // space used for journalling, inodes etc. availableDiskSpace := (float64(di.Free) / (float64(di.Total) - (0.05 * float64(di.Total)))) * 100 if int64(availableDiskSpace) <= minFreeDisk { return errDiskFull } // Success. return nil } // removeDuplicateVols - remove duplicate volumes. func removeDuplicateVols(vols []VolInfo) []VolInfo { length := len(vols) - 1 for i := 0; i < length; i++ { for j := i + 1; j <= length; j++ { if vols[i].Name == vols[j].Name { // Pick the latest volume, if there is a duplicate. if vols[i].Created.Sub(vols[j].Created) > 0 { vols[i] = vols[length] } else { vols[j] = vols[length] } vols = vols[0:length] length-- j-- } } } return vols } // gets all the unique directories from diskPath. func getAllUniqueVols(dirPath string) ([]VolInfo, error) { volumeFn := func(dirent fsDirent) bool { // Return all directories. return dirent.IsDir() && isValidVolname(filepath.Clean(dirent.name)) } namesOnly := true // Returned are only names. dirents, err := scandir(dirPath, volumeFn, namesOnly) if err != nil { return nil, err } var volsInfo []VolInfo for _, dirent := range dirents { fi, err := os.Stat(filepath.Join(dirPath, dirent.name)) if err != nil { return nil, err } volsInfo = append(volsInfo, VolInfo{ Name: fi.Name(), // As os.Stat() doesn't carry other than ModTime(), use // ModTime() as CreatedTime. Created: fi.ModTime(), }) } volsInfo = removeDuplicateVols(volsInfo) return volsInfo, nil } // getVolumeDir - will convert incoming volume names to // corresponding valid volume names on the backend in a platform // compatible way for all operating systems. If volume is not found // an error is generated. func (s fsStorage) getVolumeDir(volume string) (string, error) { if !isValidVolname(volume) { return "", errInvalidArgument } volumeDir := filepath.Join(s.diskPath, volume) _, err := os.Stat(volumeDir) if err == nil { return volumeDir, nil } if os.IsNotExist(err) { var volsInfo []VolInfo volsInfo, err = getAllUniqueVols(s.diskPath) if err != nil { return volumeDir, errVolumeNotFound } for _, vol := range volsInfo { // Verify if lowercase version of the volume // is equal to the incoming volume, then use the proper name. if strings.ToLower(vol.Name) == volume { volumeDir = filepath.Join(s.diskPath, vol.Name) return volumeDir, nil } } return volumeDir, errVolumeNotFound } else if os.IsPermission(err) { return volumeDir, errVolumeAccessDenied } return volumeDir, err } // Make a volume entry. func (s fsStorage) MakeVol(volume string) (err error) { volumeDir, err := s.getVolumeDir(volume) if err == nil { // Volume already exists, return error. return errVolumeExists } // Validate if disk is free. if e := checkDiskFree(s.diskPath, s.minFreeDisk); e != nil { return e } // If volume not found create it. if err == errVolumeNotFound { // Make a volume entry. return os.Mkdir(volumeDir, 0700) } // For all other errors return here. return err } // ListVols - list volumes. func (s fsStorage) ListVols() (volsInfo []VolInfo, err error) { // Get disk info to be populated for VolInfo. var diskInfo disk.Info diskInfo, err = disk.GetInfo(s.diskPath) if err != nil { return nil, err } volsInfo, err = getAllUniqueVols(s.diskPath) if err != nil { return nil, err } for i, vol := range volsInfo { // Volname on case sensitive fs backends can come in as // capitalized, but object layer cannot consume it // directly. Convert it as we see fit. volName := strings.ToLower(vol.Name) volInfo := VolInfo{ Name: volName, Created: vol.Created, Total: diskInfo.Total, Free: diskInfo.Free, FSType: diskInfo.FSType, } volsInfo[i] = volInfo } return volsInfo, nil } // StatVol - get volume info. func (s fsStorage) StatVol(volume string) (volInfo VolInfo, err error) { // Verify if volume is valid and it exists. volumeDir, err := s.getVolumeDir(volume) if err != nil { return VolInfo{}, err } // Stat a volume entry. var st os.FileInfo st, err = os.Stat(volumeDir) if err != nil { if os.IsNotExist(err) { return VolInfo{}, errVolumeNotFound } return VolInfo{}, err } // Get disk info, to be returned back along with volume info. var diskInfo disk.Info diskInfo, err = disk.GetInfo(s.diskPath) if err != nil { return VolInfo{}, err } // As os.Stat() doesn't carry other than ModTime(), use ModTime() // as CreatedTime. createdTime := st.ModTime() return VolInfo{ Name: volume, Created: createdTime, Free: diskInfo.Free, Total: diskInfo.Total, FSType: diskInfo.FSType, }, nil } // DeleteVol - delete a volume. func (s fsStorage) DeleteVol(volume string) error { // Verify if volume is valid and it exists. volumeDir, err := s.getVolumeDir(volume) if err != nil { return err } err = os.Remove(volumeDir) if err != nil { if os.IsNotExist(err) { return errVolumeNotFound } else if strings.Contains(err.Error(), "directory is not empty") { // On windows the string is slightly different, handle it // here. return errVolumeNotEmpty } else if strings.Contains(err.Error(), "directory not empty") { // Hopefully for all other operating systems, this is // assumed to be consistent. return errVolumeNotEmpty } return err } return err } // Save the goroutine reference in the map func (s *fsStorage) saveTreeWalk(params listParams, walker *treeWalker) { s.listObjectMapMutex.Lock() defer s.listObjectMapMutex.Unlock() walkers, _ := s.listObjectMap[params] walkers = append(walkers, walker) s.listObjectMap[params] = walkers } // Lookup the goroutine reference from map func (s *fsStorage) lookupTreeWalk(params listParams) *treeWalker { s.listObjectMapMutex.Lock() defer s.listObjectMapMutex.Unlock() if walkChs, ok := s.listObjectMap[params]; ok { for i, walkCh := range walkChs { if !walkCh.timedOut { newWalkChs := walkChs[i+1:] if len(newWalkChs) > 0 { s.listObjectMap[params] = newWalkChs } else { delete(s.listObjectMap, params) } return walkCh } } // As all channels are timed out, delete the map entry delete(s.listObjectMap, params) } return nil } // List operation. func (s fsStorage) ListFiles(volume, prefix, marker string, recursive bool, count int) ([]FileInfo, bool, error) { // Verify if volume is valid and it exists. volumeDir, err := s.getVolumeDir(volume) if err != nil { return nil, true, err } var fileInfos []FileInfo if marker != "" { // Verify if marker has prefix. if marker != "" && !strings.HasPrefix(marker, prefix) { return nil, true, errInvalidArgument } } // Return empty response for a valid request when count is 0. if count == 0 { return nil, true, nil } // Over flowing count - reset to fsListLimit. if count < 0 || count > fsListLimit { count = fsListLimit } // Verify if prefix exists. prefixDir := filepath.Dir(filepath.FromSlash(prefix)) prefixRootDir := filepath.Join(volumeDir, prefixDir) if status, err := isDirExist(prefixRootDir); !status { if err == nil { // Prefix does not exist, not an error just respond empty list response. return nil, true, nil } else if strings.Contains(err.Error(), "not a directory") { // Prefix exists as a file. return nil, true, nil } // Rest errors should be treated as failure. return nil, true, err } // Maximum 1000 files returned in a single call. // Further calls will set right marker value to continue reading the rest of the files. // popTreeWalker returns nil if the call to ListFiles is done for the first time. // On further calls to ListFiles to retrive more files within the timeout period, // popTreeWalker returns the channel from which rest of the objects can be retrieved. walker := s.lookupTreeWalk(listParams{volume, recursive, marker, prefix}) if walker == nil { walker = startTreeWalk(s.diskPath, volume, filepath.FromSlash(prefix), filepath.FromSlash(marker), recursive) } nextMarker := "" for i := 0; i < count; { walkResult, ok := <-walker.ch if !ok { // Closed channel. return fileInfos, true, nil } // For any walk error return right away. if walkResult.err != nil { return nil, true, walkResult.err } fileInfo := walkResult.fileInfo fileInfo.Name = filepath.ToSlash(fileInfo.Name) fileInfos = append(fileInfos, fileInfo) // We have listed everything return. if walkResult.end { return fileInfos, true, nil } nextMarker = fileInfo.Name i++ } s.saveTreeWalk(listParams{volume, recursive, nextMarker, prefix}, walker) return fileInfos, false, nil } // ReadFile - read a file at a given offset. func (s fsStorage) ReadFile(volume string, path string, offset int64) (readCloser io.ReadCloser, err error) { volumeDir, err := s.getVolumeDir(volume) if err != nil { return nil, err } filePath := filepath.Join(volumeDir, filepath.FromSlash(path)) file, err := os.Open(filePath) if err != nil { if os.IsNotExist(err) { return nil, errFileNotFound } else if os.IsPermission(err) { return nil, errFileAccessDenied } return nil, err } st, err := file.Stat() if err != nil { return nil, err } // Verify if its not a regular file, since subsequent Seek is undefined. if !st.Mode().IsRegular() { return nil, errIsNotRegular } // Seek to requested offset. _, err = file.Seek(offset, os.SEEK_SET) if err != nil { return nil, err } return file, nil } // CreateFile - create a file at path. func (s fsStorage) CreateFile(volume, path string) (writeCloser io.WriteCloser, err error) { volumeDir, err := s.getVolumeDir(volume) if err != nil { return nil, err } if err := checkDiskFree(s.diskPath, s.minFreeDisk); err != nil { return nil, err } filePath := filepath.Join(volumeDir, path) // Verify if the file already exists and is not of regular type. if st, err := os.Stat(filePath); err == nil { if st.IsDir() { return nil, errIsNotRegular } } return safe.CreateFileWithPrefix(filePath, "$tmpfile") } // StatFile - get file info. func (s fsStorage) StatFile(volume, path string) (file FileInfo, err error) { volumeDir, err := s.getVolumeDir(volume) if err != nil { return FileInfo{}, err } filePath := filepath.Join(volumeDir, filepath.FromSlash(path)) st, err := os.Stat(filePath) if err != nil { // File is really not found. if os.IsNotExist(err) { return FileInfo{}, errFileNotFound } // File path cannot be verified since one of the parents is a file. if strings.Contains(err.Error(), "not a directory") { return FileInfo{}, errIsNotRegular } // Return all errors here. return FileInfo{}, err } // If its a directory its not a regular file. if st.Mode().IsDir() { return FileInfo{}, errIsNotRegular } file = FileInfo{ Volume: volume, Name: path, ModTime: st.ModTime(), Size: st.Size(), Mode: st.Mode(), } return file, nil } // deleteFile - delete file path if its empty. func deleteFile(basePath, deletePath string) error { if basePath == deletePath { return nil } // Verify if the path exists. pathSt, err := os.Stat(deletePath) if err != nil { if os.IsNotExist(err) { return errFileNotFound } else if os.IsPermission(err) { return errFileAccessDenied } return err } if pathSt.IsDir() { // Verify if directory is empty. empty, err := isDirEmpty(deletePath) if err != nil { return err } if !empty { return nil } } // Attempt to remove path. if err := os.Remove(deletePath); err != nil { return err } // Recursively go down the next path and delete again. if err := deleteFile(basePath, filepath.Dir(deletePath)); err != nil { return err } return nil } // DeleteFile - delete a file at path. func (s fsStorage) DeleteFile(volume, path string) error { volumeDir, err := s.getVolumeDir(volume) if err != nil { return err } // Following code is needed so that we retain "/" suffix if any in // path argument. filePath := filepath.Join(volumeDir, filepath.FromSlash(path)) if strings.HasSuffix(filepath.FromSlash(path), string(os.PathSeparator)) { filePath = filePath + string(os.PathSeparator) } // Delete file and delete parent directory as well if its empty. return deleteFile(volumeDir, filePath) }