1
mirror of https://github.com/rclone/rclone synced 2024-12-29 22:26:24 +01:00
rclone/cmd/cmount/fs.go
Josh Soref d0888edc0a Spelling fixes
Fix spelling of: above, already, anonymous, associated,
authentication, bandwidth, because, between, blocks, calculate,
candidates, cautious, changelog, cleaner, clipboard, command,
completely, concurrently, considered, constructs, corrupt, current,
daemon, dependencies, deprecated, directory, dispatcher, download,
eligible, ellipsis, encrypter, endpoint, entrieslist, essentially,
existing writers, existing, expires, filesystem, flushing, frequently,
hierarchy, however, implementation, implements, inaccurate,
individually, insensitive, longer, maximum, metadata, modified,
multipart, namedirfirst, nextcloud, obscured, opened, optional,
owncloud, pacific, passphrase, password, permanently, persimmon,
positive, potato, protocol, quota, receiving, recommends, referring,
requires, revisited, satisfied, satisfies, satisfy, semver,
serialized, session, storage, strategies, stringlist, successful,
supported, surprise, temporarily, temporary, transactions, unneeded,
update, uploads, wrapped

Signed-off-by: Josh Soref <jsoref@users.noreply.github.com>
2020-10-14 15:21:31 +01:00

630 lines
17 KiB
Go

// +build cmount
// +build cgo
// +build linux darwin freebsd windows
package cmount
import (
"io"
"os"
"path"
"sync"
"time"
"github.com/billziss-gh/cgofuse/fuse"
"github.com/pkg/errors"
"github.com/rclone/rclone/cmd/mountlib"
"github.com/rclone/rclone/fs"
"github.com/rclone/rclone/fs/log"
"github.com/rclone/rclone/vfs"
)
const fhUnset = ^uint64(0)
// FS represents the top level filing system
type FS struct {
VFS *vfs.VFS
f fs.Fs
ready chan (struct{})
mu sync.Mutex // to protect the below
handles []vfs.Handle
}
// NewFS makes a new FS
func NewFS(VFS *vfs.VFS) *FS {
fsys := &FS{
VFS: VFS,
f: VFS.Fs(),
ready: make(chan (struct{})),
}
return fsys
}
// Open a handle returning an integer file handle
func (fsys *FS) openHandle(handle vfs.Handle) (fh uint64) {
fsys.mu.Lock()
defer fsys.mu.Unlock()
var i int
var oldHandle vfs.Handle
for i, oldHandle = range fsys.handles {
if oldHandle == nil {
fsys.handles[i] = handle
goto found
}
}
fsys.handles = append(fsys.handles, handle)
i = len(fsys.handles) - 1
found:
return uint64(i)
}
// get the handle for fh, call with the lock held
func (fsys *FS) _getHandle(fh uint64) (i int, handle vfs.Handle, errc int) {
if fh > uint64(len(fsys.handles)) {
fs.Debugf(nil, "Bad file handle: too big: 0x%X", fh)
return i, nil, -fuse.EBADF
}
i = int(fh)
handle = fsys.handles[i]
if handle == nil {
fs.Debugf(nil, "Bad file handle: nil handle: 0x%X", fh)
return i, nil, -fuse.EBADF
}
return i, handle, 0
}
// Get the handle for the file handle
func (fsys *FS) getHandle(fh uint64) (handle vfs.Handle, errc int) {
fsys.mu.Lock()
_, handle, errc = fsys._getHandle(fh)
fsys.mu.Unlock()
return
}
// Close the handle
func (fsys *FS) closeHandle(fh uint64) (errc int) {
fsys.mu.Lock()
i, _, errc := fsys._getHandle(fh)
if errc == 0 {
fsys.handles[i] = nil
}
fsys.mu.Unlock()
return
}
// lookup a Node given a path
func (fsys *FS) lookupNode(path string) (node vfs.Node, errc int) {
node, err := fsys.VFS.Stat(path)
return node, translateError(err)
}
// lookup a Dir given a path
func (fsys *FS) lookupDir(path string) (dir *vfs.Dir, errc int) {
node, errc := fsys.lookupNode(path)
if errc != 0 {
return nil, errc
}
dir, ok := node.(*vfs.Dir)
if !ok {
return nil, -fuse.ENOTDIR
}
return dir, 0
}
// lookup a parent Dir given a path returning the dir and the leaf
func (fsys *FS) lookupParentDir(filePath string) (leaf string, dir *vfs.Dir, errc int) {
parentDir, leaf := path.Split(filePath)
dir, errc = fsys.lookupDir(parentDir)
return leaf, dir, errc
}
// lookup a File given a path
func (fsys *FS) lookupFile(path string) (file *vfs.File, errc int) {
node, errc := fsys.lookupNode(path)
if errc != 0 {
return nil, errc
}
file, ok := node.(*vfs.File)
if !ok {
return nil, -fuse.EISDIR
}
return file, 0
}
// get a node and handle from the path or from the fh if not fhUnset
//
// handle may be nil
func (fsys *FS) getNode(path string, fh uint64) (node vfs.Node, handle vfs.Handle, errc int) {
if fh == fhUnset {
node, errc = fsys.lookupNode(path)
} else {
handle, errc = fsys.getHandle(fh)
if errc == 0 {
node = handle.Node()
}
}
return
}
// stat fills up the stat block for Node
func (fsys *FS) stat(node vfs.Node, stat *fuse.Stat_t) (errc int) {
Size := uint64(node.Size())
Blocks := (Size + 511) / 512
modTime := node.ModTime()
Mode := node.Mode().Perm()
if node.IsDir() {
Mode |= fuse.S_IFDIR
} else {
Mode |= fuse.S_IFREG
}
//stat.Dev = 1
stat.Ino = node.Inode() // FIXME do we need to set the inode number?
stat.Mode = uint32(Mode)
stat.Nlink = 1
stat.Uid = fsys.VFS.Opt.UID
stat.Gid = fsys.VFS.Opt.GID
//stat.Rdev
stat.Size = int64(Size)
t := fuse.NewTimespec(modTime)
stat.Atim = t
stat.Mtim = t
stat.Ctim = t
stat.Blksize = 512
stat.Blocks = int64(Blocks)
stat.Birthtim = t
// fs.Debugf(nil, "stat = %+v", *stat)
return 0
}
// Init is called after the filesystem is ready
func (fsys *FS) Init() {
defer log.Trace(fsys.f, "")("")
close(fsys.ready)
}
// Destroy is called when it is unmounted (note that depending on how
// the file system is terminated the file system may not receive the
// Destroy call).
func (fsys *FS) Destroy() {
defer log.Trace(fsys.f, "")("")
}
// Getattr reads the attributes for path
func (fsys *FS) Getattr(path string, stat *fuse.Stat_t, fh uint64) (errc int) {
defer log.Trace(path, "fh=0x%X", fh)("errc=%v", &errc)
node, _, errc := fsys.getNode(path, fh)
if errc == 0 {
errc = fsys.stat(node, stat)
}
return
}
// Opendir opens path as a directory
func (fsys *FS) Opendir(path string) (errc int, fh uint64) {
defer log.Trace(path, "")("errc=%d, fh=0x%X", &errc, &fh)
handle, err := fsys.VFS.OpenFile(path, os.O_RDONLY, 0777)
if err != nil {
return translateError(err), fhUnset
}
return 0, fsys.openHandle(handle)
}
// Readdir reads the directory at dirPath
func (fsys *FS) Readdir(dirPath string,
fill func(name string, stat *fuse.Stat_t, ofst int64) bool,
ofst int64,
fh uint64) (errc int) {
itemsRead := -1
defer log.Trace(dirPath, "ofst=%d, fh=0x%X", ofst, fh)("items=%d, errc=%d", &itemsRead, &errc)
dir, errc := fsys.lookupDir(dirPath)
if errc != 0 {
return errc
}
// We can't seek in directories and FUSE should know that so
// return an error if ofst is ever set.
if ofst > 0 {
return -fuse.ESPIPE
}
nodes, err := dir.ReadDirAll()
if err != nil {
return translateError(err)
}
// Optionally, create a struct stat that describes the file as
// for getattr (but FUSE only looks at st_ino and the
// file-type bits of st_mode).
//
// We have called host.SetCapReaddirPlus() so WinFsp will
// use the full stat information - a Useful optimization on
// Windows.
//
// NB we are using the first mode for readdir: The readdir
// implementation ignores the offset parameter, and passes
// zero to the filler function's offset. The filler function
// will not return '1' (unless an error happens), so the whole
// directory is read in a single readdir operation.
fill(".", nil, 0)
fill("..", nil, 0)
for _, node := range nodes {
name := node.Name()
if len(name) > mountlib.MaxLeafSize {
fs.Errorf(dirPath, "Name too long (%d bytes) for FUSE, skipping: %s", len(name), name)
continue
}
// We have called host.SetCapReaddirPlus() so supply the stat information
// It is very cheap at this point so supply it regardless of OS capabilities
var stat fuse.Stat_t
_ = fsys.stat(node, &stat) // not capable of returning an error
fill(name, &stat, 0)
}
itemsRead = len(nodes)
return 0
}
// Releasedir finished reading the directory
func (fsys *FS) Releasedir(path string, fh uint64) (errc int) {
defer log.Trace(path, "fh=0x%X", fh)("errc=%d", &errc)
return fsys.closeHandle(fh)
}
// Statfs reads overall stats on the filesystem
func (fsys *FS) Statfs(path string, stat *fuse.Statfs_t) (errc int) {
defer log.Trace(path, "")("stat=%+v, errc=%d", stat, &errc)
const blockSize = 4096
total, _, free := fsys.VFS.Statfs()
stat.Blocks = uint64(total) / blockSize // Total data blocks in file system.
stat.Bfree = uint64(free) / blockSize // Free blocks in file system.
stat.Bavail = stat.Bfree // Free blocks in file system if you're not root.
stat.Files = 1e9 // Total files in file system.
stat.Ffree = 1e9 // Free files in file system.
stat.Bsize = blockSize // Block size
stat.Namemax = 255 // Maximum file name length?
stat.Frsize = blockSize // Fragment size, smallest addressable data size in the file system.
mountlib.ClipBlocks(&stat.Blocks)
mountlib.ClipBlocks(&stat.Bfree)
mountlib.ClipBlocks(&stat.Bavail)
return 0
}
// OpenEx opens a file
func (fsys *FS) OpenEx(path string, fi *fuse.FileInfo_t) (errc int) {
defer log.Trace(path, "flags=0x%X", fi.Flags)("errc=%d, fh=0x%X", &errc, &fi.Fh)
fi.Fh = fhUnset
// translate the fuse flags to os flags
flags := translateOpenFlags(fi.Flags)
handle, err := fsys.VFS.OpenFile(path, flags, 0777)
if err != nil {
return translateError(err)
}
// If size unknown then use direct io to read
if entry := handle.Node().DirEntry(); entry != nil && entry.Size() < 0 {
fi.DirectIo = true
}
fi.Fh = fsys.openHandle(handle)
return 0
}
// Open opens a file
func (fsys *FS) Open(path string, flags int) (errc int, fh uint64) {
var fi = fuse.FileInfo_t{
Flags: flags,
}
errc = fsys.OpenEx(path, &fi)
return errc, fi.Fh
}
// CreateEx creates and opens a file.
func (fsys *FS) CreateEx(filePath string, mode uint32, fi *fuse.FileInfo_t) (errc int) {
defer log.Trace(filePath, "flags=0x%X, mode=0%o", fi.Flags, mode)("errc=%d, fh=0x%X", &errc, &fi.Fh)
fi.Fh = fhUnset
leaf, parentDir, errc := fsys.lookupParentDir(filePath)
if errc != 0 {
return errc
}
file, err := parentDir.Create(leaf, fi.Flags)
if err != nil {
return translateError(err)
}
// translate the fuse flags to os flags
flags := translateOpenFlags(fi.Flags) | os.O_CREATE
handle, err := file.Open(flags)
if err != nil {
return translateError(err)
}
fi.Fh = fsys.openHandle(handle)
return 0
}
// Create creates and opens a file.
func (fsys *FS) Create(filePath string, flags int, mode uint32) (errc int, fh uint64) {
var fi = fuse.FileInfo_t{
Flags: flags,
}
errc = fsys.CreateEx(filePath, mode, &fi)
return errc, fi.Fh
}
// Truncate truncates a file to size
func (fsys *FS) Truncate(path string, size int64, fh uint64) (errc int) {
defer log.Trace(path, "size=%d, fh=0x%X", size, fh)("errc=%d", &errc)
node, handle, errc := fsys.getNode(path, fh)
if errc != 0 {
return errc
}
var err error
if handle != nil {
err = handle.Truncate(size)
} else {
err = node.Truncate(size)
}
if err != nil {
return translateError(err)
}
return 0
}
// Read data from file handle
func (fsys *FS) Read(path string, buff []byte, ofst int64, fh uint64) (n int) {
defer log.Trace(path, "ofst=%d, fh=0x%X", ofst, fh)("n=%d", &n)
handle, errc := fsys.getHandle(fh)
if errc != 0 {
return errc
}
n, err := handle.ReadAt(buff, ofst)
if err == io.EOF {
} else if err != nil {
return translateError(err)
}
return n
}
// Write data to file handle
func (fsys *FS) Write(path string, buff []byte, ofst int64, fh uint64) (n int) {
defer log.Trace(path, "ofst=%d, fh=0x%X", ofst, fh)("n=%d", &n)
handle, errc := fsys.getHandle(fh)
if errc != 0 {
return errc
}
n, err := handle.WriteAt(buff, ofst)
if err != nil {
return translateError(err)
}
return n
}
// Flush flushes an open file descriptor or path
func (fsys *FS) Flush(path string, fh uint64) (errc int) {
defer log.Trace(path, "fh=0x%X", fh)("errc=%d", &errc)
handle, errc := fsys.getHandle(fh)
if errc != 0 {
return errc
}
return translateError(handle.Flush())
}
// Release closes the file if still open
func (fsys *FS) Release(path string, fh uint64) (errc int) {
defer log.Trace(path, "fh=0x%X", fh)("errc=%d", &errc)
handle, errc := fsys.getHandle(fh)
if errc != 0 {
return errc
}
_ = fsys.closeHandle(fh)
return translateError(handle.Release())
}
// Unlink removes a file.
func (fsys *FS) Unlink(filePath string) (errc int) {
defer log.Trace(filePath, "")("errc=%d", &errc)
leaf, parentDir, errc := fsys.lookupParentDir(filePath)
if errc != 0 {
return errc
}
return translateError(parentDir.RemoveName(leaf))
}
// Mkdir creates a directory.
func (fsys *FS) Mkdir(dirPath string, mode uint32) (errc int) {
defer log.Trace(dirPath, "mode=0%o", mode)("errc=%d", &errc)
leaf, parentDir, errc := fsys.lookupParentDir(dirPath)
if errc != 0 {
return errc
}
_, err := parentDir.Mkdir(leaf)
return translateError(err)
}
// Rmdir removes a directory
func (fsys *FS) Rmdir(dirPath string) (errc int) {
defer log.Trace(dirPath, "")("errc=%d", &errc)
leaf, parentDir, errc := fsys.lookupParentDir(dirPath)
if errc != 0 {
return errc
}
return translateError(parentDir.RemoveName(leaf))
}
// Rename renames a file.
func (fsys *FS) Rename(oldPath string, newPath string) (errc int) {
defer log.Trace(oldPath, "newPath=%q", newPath)("errc=%d", &errc)
return translateError(fsys.VFS.Rename(oldPath, newPath))
}
// Windows sometimes seems to send times that are the epoch which is
// 1601-01-01 +/- timezone so filter out times that are earlier than
// this.
var invalidDateCutoff = time.Date(1601, 1, 2, 0, 0, 0, 0, time.UTC)
// Utimens changes the access and modification times of a file.
func (fsys *FS) Utimens(path string, tmsp []fuse.Timespec) (errc int) {
defer log.Trace(path, "tmsp=%+v", tmsp)("errc=%d", &errc)
node, errc := fsys.lookupNode(path)
if errc != 0 {
return errc
}
if tmsp == nil || len(tmsp) < 2 {
fs.Debugf(path, "Utimens: Not setting time as timespec isn't complete: %v", tmsp)
return 0
}
t := tmsp[1].Time()
if t.Before(invalidDateCutoff) {
fs.Debugf(path, "Utimens: Not setting out of range time: %v", t)
return 0
}
fs.Debugf(path, "Utimens: SetModTime: %v", t)
return translateError(node.SetModTime(t))
}
// Mknod creates a file node.
func (fsys *FS) Mknod(path string, mode uint32, dev uint64) (errc int) {
defer log.Trace(path, "mode=0x%X, dev=0x%X", mode, dev)("errc=%d", &errc)
return -fuse.ENOSYS
}
// Fsync synchronizes file contents.
func (fsys *FS) Fsync(path string, datasync bool, fh uint64) (errc int) {
defer log.Trace(path, "datasync=%v, fh=0x%X", datasync, fh)("errc=%d", &errc)
// This is a no-op for rclone
return 0
}
// Link creates a hard link to a file.
func (fsys *FS) Link(oldpath string, newpath string) (errc int) {
defer log.Trace(oldpath, "newpath=%q", newpath)("errc=%d", &errc)
return -fuse.ENOSYS
}
// Symlink creates a symbolic link.
func (fsys *FS) Symlink(target string, newpath string) (errc int) {
defer log.Trace(target, "newpath=%q", newpath)("errc=%d", &errc)
return -fuse.ENOSYS
}
// Readlink reads the target of a symbolic link.
func (fsys *FS) Readlink(path string) (errc int, linkPath string) {
defer log.Trace(path, "")("linkPath=%q, errc=%d", &linkPath, &errc)
return -fuse.ENOSYS, ""
}
// Chmod changes the permission bits of a file.
func (fsys *FS) Chmod(path string, mode uint32) (errc int) {
defer log.Trace(path, "mode=0%o", mode)("errc=%d", &errc)
// This is a no-op for rclone
return 0
}
// Chown changes the owner and group of a file.
func (fsys *FS) Chown(path string, uid uint32, gid uint32) (errc int) {
defer log.Trace(path, "uid=%d, gid=%d", uid, gid)("errc=%d", &errc)
// This is a no-op for rclone
return 0
}
// Access checks file access permissions.
func (fsys *FS) Access(path string, mask uint32) (errc int) {
defer log.Trace(path, "mask=0%o", mask)("errc=%d", &errc)
// This is a no-op for rclone
return 0
}
// Fsyncdir synchronizes directory contents.
func (fsys *FS) Fsyncdir(path string, datasync bool, fh uint64) (errc int) {
defer log.Trace(path, "datasync=%v, fh=0x%X", datasync, fh)("errc=%d", &errc)
// This is a no-op for rclone
return 0
}
// Setxattr sets extended attributes.
func (fsys *FS) Setxattr(path string, name string, value []byte, flags int) (errc int) {
return -fuse.ENOSYS
}
// Getxattr gets extended attributes.
func (fsys *FS) Getxattr(path string, name string) (errc int, value []byte) {
return -fuse.ENOSYS, nil
}
// Removexattr removes extended attributes.
func (fsys *FS) Removexattr(path string, name string) (errc int) {
return -fuse.ENOSYS
}
// Listxattr lists extended attributes.
func (fsys *FS) Listxattr(path string, fill func(name string) bool) (errc int) {
return -fuse.ENOSYS
}
// Translate errors from mountlib
func translateError(err error) (errc int) {
if err == nil {
return 0
}
switch errors.Cause(err) {
case vfs.OK:
return 0
case vfs.ENOENT, fs.ErrorDirNotFound, fs.ErrorObjectNotFound:
return -fuse.ENOENT
case vfs.EEXIST, fs.ErrorDirExists:
return -fuse.EEXIST
case vfs.EPERM, fs.ErrorPermissionDenied:
return -fuse.EPERM
case vfs.ECLOSED:
return -fuse.EBADF
case vfs.ENOTEMPTY:
return -fuse.ENOTEMPTY
case vfs.ESPIPE:
return -fuse.ESPIPE
case vfs.EBADF:
return -fuse.EBADF
case vfs.EROFS:
return -fuse.EROFS
case vfs.ENOSYS, fs.ErrorNotImplemented:
return -fuse.ENOSYS
case vfs.EINVAL:
return -fuse.EINVAL
}
fs.Errorf(nil, "IO error: %v", err)
return -fuse.EIO
}
// Translate Open Flags from FUSE to os (as used in the vfs layer)
func translateOpenFlags(inFlags int) (outFlags int) {
switch inFlags & fuse.O_ACCMODE {
case fuse.O_RDONLY:
outFlags = os.O_RDONLY
case fuse.O_WRONLY:
outFlags = os.O_WRONLY
case fuse.O_RDWR:
outFlags = os.O_RDWR
}
if inFlags&fuse.O_APPEND != 0 {
outFlags |= os.O_APPEND
}
if inFlags&fuse.O_CREAT != 0 {
outFlags |= os.O_CREATE
}
if inFlags&fuse.O_EXCL != 0 {
outFlags |= os.O_EXCL
}
if inFlags&fuse.O_TRUNC != 0 {
outFlags |= os.O_TRUNC
}
// NB O_SYNC isn't defined by fuse
return outFlags
}
// Make sure interfaces are satisfied
var (
_ fuse.FileSystemInterface = (*FS)(nil)
_ fuse.FileSystemOpenEx = (*FS)(nil)
//_ fuse.FileSystemChflags = (*FS)(nil)
//_ fuse.FileSystemSetcrtime = (*FS)(nil)
//_ fuse.FileSystemSetchgtime = (*FS)(nil)
)