package nametransform import ( "io/ioutil" "os" "path/filepath" "strings" "syscall" "github.com/rfjakob/gocryptfs/internal/cryptocore" "github.com/rfjakob/gocryptfs/internal/syscallcompat" "github.com/rfjakob/gocryptfs/internal/tlog" ) const ( // DirIVLen is identical to AES block size DirIVLen = 16 // DirIVFilename is the filename used to store directory IV. // Exported because we have to ignore this name in directory listing. DirIVFilename = "gocryptfs.diriv" ) // ReadDirIV - read the "gocryptfs.diriv" file from "dir" (absolute ciphertext path) // This function is exported because it allows for an efficient readdir implementation. func ReadDirIV(dir string) (iv []byte, err error) { fd, err := os.Open(filepath.Join(dir, DirIVFilename)) if err != nil { // Note: getting errors here is normal because of concurrent deletes. return nil, err } defer fd.Close() return fdReadDirIV(fd) } // ReadDirIVAt reads "gocryptfs.diriv" from the directory that is opened as "dirfd". // Using the dirfd makes it immune to concurrent renames of the directory. func ReadDirIVAt(dirfd *os.File) (iv []byte, err error) { fdRaw, err := syscallcompat.Openat(int(dirfd.Fd()), DirIVFilename, syscall.O_RDONLY, 0) if err != nil { tlog.Warn.Printf("ReadDirIVAt: opening %q in dir %q failed: %v", DirIVFilename, dirfd.Name(), err) return nil, err } fd := os.NewFile(uintptr(fdRaw), DirIVFilename) defer fd.Close() return fdReadDirIV(fd) } // fdReadDirIV reads and verifies the DirIV from an opened gocryptfs.diriv file. func fdReadDirIV(fd *os.File) (iv []byte, err error) { // We want to detect if the file is bigger than DirIVLen, so // make the buffer 1 byte bigger than necessary. iv = make([]byte, DirIVLen+1) n, err := fd.Read(iv) if err != nil { tlog.Warn.Printf("ReadDirIVAt: Read failed: %v", err) return nil, err } iv = iv[0:n] if len(iv) != DirIVLen { tlog.Warn.Printf("ReadDirIVAt: wanted %d bytes, got %d", DirIVLen, len(iv)) return nil, syscall.EINVAL } return iv, nil } // WriteDirIV - create diriv file inside "dir" (absolute ciphertext path) // This function is exported because it is used from pathfs_frontend, main, // and also the automated tests. func WriteDirIV(dir string) error { iv := cryptocore.RandBytes(DirIVLen) file := filepath.Join(dir, DirIVFilename) err := ioutil.WriteFile(file, iv, 0400) if err != nil { tlog.Warn.Printf("WriteDirIV: %v", err) } return err } // EncryptPathDirIV - encrypt relative plaintext path using EME with DirIV. // Components that are longer than 255 bytes are hashed if be.longnames == true. func (be *NameTransform) EncryptPathDirIV(plainPath string, rootDir string) (cipherPath string, err error) { // Empty string means root directory if plainPath == "" { return plainPath, nil } // Reject names longer than 255 bytes already here. This relieves everybody // who uses hashed long names from checking for that later. baseName := filepath.Base(plainPath) if len(baseName) > syscall.NAME_MAX { return "", syscall.ENAMETOOLONG } // Check if the DirIV is cached parentDir := filepath.Dir(plainPath) iv, cParentDir := be.DirIVCache.lookup(parentDir) if iv != nil { cBaseName := be.EncryptName(baseName, iv) if be.longNames && len(cBaseName) > syscall.NAME_MAX { cBaseName = HashLongName(cBaseName) } cipherPath = cParentDir + "/" + cBaseName return cipherPath, nil } // Not cached - walk the directory tree var wd = rootDir var encryptedNames []string plainNames := strings.Split(plainPath, "/") for _, plainName := range plainNames { iv, err = ReadDirIV(wd) if err != nil { return "", err } encryptedName := be.EncryptName(plainName, iv) if be.longNames && len(encryptedName) > syscall.NAME_MAX { encryptedName = HashLongName(encryptedName) } encryptedNames = append(encryptedNames, encryptedName) wd = filepath.Join(wd, encryptedName) } cipherPath = strings.Join(encryptedNames, "/") // Cache the final DirIV cParentDir = filepath.Dir(cipherPath) be.DirIVCache.store(parentDir, iv, cParentDir) return cipherPath, nil }