package fusefrontend_reverse import ( "bytes" "encoding/binary" "io" "os" "syscall" // In newer Go versions, this has moved to just "sync/syncmap". "golang.org/x/sync/syncmap" "github.com/hanwen/go-fuse/fuse" "github.com/hanwen/go-fuse/fuse/nodefs" "github.com/rfjakob/gocryptfs/internal/contentenc" "github.com/rfjakob/gocryptfs/internal/pathiv" "github.com/rfjakob/gocryptfs/internal/tlog" ) type reverseFile struct { // Embed nodefs.defaultFile for a ENOSYS implementation of all methods nodefs.File // Backing FD fd *os.File // File header (contains the IV) header contentenc.FileHeader // IV for block 0 block0IV []byte // Content encryption helper contentEnc *contentenc.ContentEnc } var inodeTable syncmap.Map func (rfs *ReverseFS) newFile(relPath string, flags uint32) (nodefs.File, fuse.Status) { absPath, err := rfs.abs(rfs.decryptPath(relPath)) if err != nil { return nil, fuse.ToStatus(err) } fd, err := os.OpenFile(absPath, int(flags), 0666) if err != nil { return nil, fuse.ToStatus(err) } var st syscall.Stat_t err = syscall.Fstat(int(fd.Fd()), &st) if err != nil { tlog.Warn.Printf("newFile: Fstat error: %v", err) return nil, fuse.ToStatus(err) } // See if we have that inode number already in the table // (even if Nlink has dropped to 1) var derivedIVs pathiv.FileIVs v, found := inodeTable.Load(st.Ino) if found { tlog.Debug.Printf("ino%d: newFile: found in the inode table", st.Ino) derivedIVs = v.(pathiv.FileIVs) } else { derivedIVs = pathiv.DeriveFile(relPath) // Nlink > 1 means there is more than one path to this file. // Store the derived values so we always return the same data, // regardless of the path that is used to access the file. // This means that the first path wins. if st.Nlink > 1 { v, found = inodeTable.LoadOrStore(st.Ino, derivedIVs) if found { // Another thread has stored a different value before we could. derivedIVs = v.(pathiv.FileIVs) } else { tlog.Debug.Printf("ino%d: newFile: Nlink=%d, stored in the inode table", st.Ino, st.Nlink) } } } header := contentenc.FileHeader{ Version: contentenc.CurrentVersion, ID: derivedIVs.ID, } return &reverseFile{ File: nodefs.NewDefaultFile(), fd: fd, header: header, block0IV: derivedIVs.Block0IV, contentEnc: rfs.contentEnc, }, fuse.OK } // GetAttr - FUSE call // Triggered by fstat() from userspace func (rf *reverseFile) GetAttr(*fuse.Attr) fuse.Status { tlog.Debug.Printf("reverseFile.GetAttr fd=%d\n", rf.fd.Fd()) // The kernel should fall back to stat() return fuse.ENOSYS } // encryptBlocks - encrypt "plaintext" into a number of ciphertext blocks. // "plaintext" must already be block-aligned. func (rf *reverseFile) encryptBlocks(plaintext []byte, firstBlockNo uint64, fileID []byte, block0IV []byte) []byte { nonce := make([]byte, len(block0IV)) copy(nonce, block0IV) block0IVlow := binary.BigEndian.Uint64(block0IV[8:]) nonceLow := nonce[8:] inBuf := bytes.NewBuffer(plaintext) var outBuf bytes.Buffer bs := int(rf.contentEnc.PlainBS()) for blockNo := firstBlockNo; inBuf.Len() > 0; blockNo++ { binary.BigEndian.PutUint64(nonceLow, block0IVlow+blockNo) inBlock := inBuf.Next(bs) outBlock := rf.contentEnc.EncryptBlockNonce(inBlock, blockNo, fileID, nonce) outBuf.Write(outBlock) } return outBuf.Bytes() } // readBackingFile: read from the backing plaintext file, encrypt it, return the // ciphertext. // "off" ... ciphertext offset (must be >= HEADER_LEN) // "length" ... ciphertext length func (rf *reverseFile) readBackingFile(off uint64, length uint64) (out []byte, err error) { blocks := rf.contentEnc.ExplodeCipherRange(off, length) // Read the backing plaintext in one go alignedOffset, alignedLength := contentenc.JointPlaintextRange(blocks) plaintext := make([]byte, int(alignedLength)) n, err := rf.fd.ReadAt(plaintext, int64(alignedOffset)) if err != nil && err != io.EOF { tlog.Warn.Printf("readBackingFile: ReadAt: %s", err.Error()) return nil, err } // Truncate buffer down to actually read bytes plaintext = plaintext[0:n] // Encrypt blocks ciphertext := rf.encryptBlocks(plaintext, blocks[0].BlockNo, rf.header.ID, rf.block0IV) // Crop down to the relevant part lenHave := len(ciphertext) skip := blocks[0].Skip endWant := int(skip + length) if lenHave > endWant { out = ciphertext[skip:endWant] } else if lenHave > int(skip) { out = ciphertext[skip:lenHave] } // else: out stays empty, file was smaller than the requested offset return out, nil } // Read - FUSE call func (rf *reverseFile) Read(buf []byte, ioff int64) (resultData fuse.ReadResult, status fuse.Status) { length := uint64(len(buf)) off := uint64(ioff) var out bytes.Buffer var header []byte // Synthesize file header if off < contentenc.HeaderLen { header = rf.header.Pack() // Truncate to requested part end := int(off) + len(buf) if end > len(header) { end = len(header) } header = header[off:end] // Write into output buffer and adjust offsets out.Write(header) hLen := uint64(len(header)) off += hLen length -= hLen } // Read actual file data if length > 0 { fileData, err := rf.readBackingFile(off, length) if err != nil { return nil, fuse.ToStatus(err) } if len(fileData) == 0 { // If we could not read any actual data, we also don't want to // return the file header. An empty file stays empty in encrypted // form. return nil, fuse.OK } out.Write(fileData) } return fuse.ReadResultData(out.Bytes()), fuse.OK } // Release - FUSE call, close file func (rf *reverseFile) Release() { rf.fd.Close() }