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https://github.com/rclone/rclone.git
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446 lines
14 KiB
Go
446 lines
14 KiB
Go
//go:build linux || (darwin && amd64)
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package mount2
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import (
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"context"
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"os"
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"path"
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"syscall"
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fusefs "github.com/hanwen/go-fuse/v2/fs"
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"github.com/hanwen/go-fuse/v2/fuse"
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"github.com/rclone/rclone/cmd/mountlib"
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"github.com/rclone/rclone/fs"
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"github.com/rclone/rclone/fs/log"
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"github.com/rclone/rclone/vfs"
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)
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// Node represents a directory or file
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type Node struct {
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fusefs.Inode
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node vfs.Node
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fsys *FS
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}
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// Node types must be InodeEmbedders
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var _ fusefs.InodeEmbedder = (*Node)(nil)
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// newNode creates a new fusefs.Node from a vfs Node
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func newNode(fsys *FS, vfsNode vfs.Node) (node *Node) {
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// Check the vfsNode to see if it has a fuse Node cached
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// We must return the same fuse nodes for vfs Nodes
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node, ok := vfsNode.Sys().(*Node)
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if ok {
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return node
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}
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node = &Node{
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node: vfsNode,
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fsys: fsys,
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}
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// Cache the node for later
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vfsNode.SetSys(node)
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return node
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}
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// String used for pretty printing.
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func (n *Node) String() string {
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return n.node.Path()
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}
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// lookup a Node in a directory
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func (n *Node) lookupVfsNodeInDir(leaf string) (vfsNode vfs.Node, errno syscall.Errno) {
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dir, ok := n.node.(*vfs.Dir)
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if !ok {
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return nil, syscall.ENOTDIR
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}
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vfsNode, err := dir.Stat(leaf)
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return vfsNode, translateError(err)
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}
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// // lookup a Dir given a path
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// func (n *Node) lookupDir(path string) (dir *vfs.Dir, code fuse.Status) {
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// node, code := fsys.lookupVfsNodeInDir(path)
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// if !code.Ok() {
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// return nil, code
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// }
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// dir, ok := n.(*vfs.Dir)
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// if !ok {
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// return nil, fuse.ENOTDIR
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// }
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// return dir, fuse.OK
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// }
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// // lookup a parent Dir given a path returning the dir and the leaf
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// func (n *Node) lookupParentDir(filePath string) (leaf string, dir *vfs.Dir, code fuse.Status) {
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// parentDir, leaf := path.Split(filePath)
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// dir, code = fsys.lookupDir(parentDir)
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// return leaf, dir, code
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// }
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// Statfs implements statistics for the filesystem that holds this
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// Inode. If not defined, the `out` argument will zeroed with an OK
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// result. This is because OSX filesystems must Statfs, or the mount
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// will not work.
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func (n *Node) Statfs(ctx context.Context, out *fuse.StatfsOut) syscall.Errno {
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defer log.Trace(n, "")("out=%+v", &out)
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const blockSize = 4096
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total, _, free := n.fsys.VFS.Statfs()
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out.Blocks = uint64(total) / blockSize // Total data blocks in file system.
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out.Bfree = uint64(free) / blockSize // Free blocks in file system.
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out.Bavail = out.Bfree // Free blocks in file system if you're not root.
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out.Files = 1e9 // Total files in file system.
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out.Ffree = 1e9 // Free files in file system.
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out.Bsize = blockSize // Block size
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out.NameLen = 255 // Maximum file name length?
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out.Frsize = blockSize // Fragment size, smallest addressable data size in the file system.
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mountlib.ClipBlocks(&out.Blocks)
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mountlib.ClipBlocks(&out.Bfree)
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mountlib.ClipBlocks(&out.Bavail)
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return 0
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}
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var _ = (fusefs.NodeStatfser)((*Node)(nil))
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// Getattr reads attributes for an Inode. The library will ensure that
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// Mode and Ino are set correctly. For files that are not opened with
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// FOPEN_DIRECTIO, Size should be set so it can be read correctly. If
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// returning zeroed permissions, the default behavior is to change the
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// mode of 0755 (directory) or 0644 (files). This can be switched off
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// with the Options.NullPermissions setting. If blksize is unset, 4096
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// is assumed, and the 'blocks' field is set accordingly.
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func (n *Node) Getattr(ctx context.Context, f fusefs.FileHandle, out *fuse.AttrOut) syscall.Errno {
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n.fsys.setAttrOut(n.node, out)
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return 0
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}
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var _ = (fusefs.NodeGetattrer)((*Node)(nil))
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// Setattr sets attributes for an Inode.
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func (n *Node) Setattr(ctx context.Context, f fusefs.FileHandle, in *fuse.SetAttrIn, out *fuse.AttrOut) (errno syscall.Errno) {
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defer log.Trace(n, "in=%v", in)("out=%#v, errno=%v", &out, &errno)
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var err error
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n.fsys.setAttrOut(n.node, out)
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size, ok := in.GetSize()
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if ok {
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err = n.node.Truncate(int64(size))
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if err != nil {
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return translateError(err)
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}
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out.Attr.Size = size
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}
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mtime, ok := in.GetMTime()
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if ok {
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err = n.node.SetModTime(mtime)
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if err != nil {
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return translateError(err)
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}
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out.Attr.Mtime = uint64(mtime.Unix())
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out.Attr.Mtimensec = uint32(mtime.Nanosecond())
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}
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return 0
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}
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var _ = (fusefs.NodeSetattrer)((*Node)(nil))
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// Open opens an Inode (of regular file type) for reading. It
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// is optional but recommended to return a FileHandle.
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func (n *Node) Open(ctx context.Context, flags uint32) (fh fusefs.FileHandle, fuseFlags uint32, errno syscall.Errno) {
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defer log.Trace(n, "flags=%#o", flags)("errno=%v", &errno)
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// fuse flags are based off syscall flags as are os flags, so
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// should be compatible
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handle, err := n.node.Open(int(flags))
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if err != nil {
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return nil, 0, translateError(err)
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}
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// If size unknown then use direct io to read
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if entry := n.node.DirEntry(); entry != nil && entry.Size() < 0 {
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fuseFlags |= fuse.FOPEN_DIRECT_IO
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}
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if n.fsys.opt.DirectIO {
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fuseFlags |= fuse.FOPEN_DIRECT_IO
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}
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return newFileHandle(handle, n.fsys), fuseFlags, 0
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}
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var _ = (fusefs.NodeOpener)((*Node)(nil))
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// Lookup should find a direct child of a directory by the child's name. If
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// the entry does not exist, it should return ENOENT and optionally
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// set a NegativeTimeout in `out`. If it does exist, it should return
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// attribute data in `out` and return the Inode for the child. A new
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// inode can be created using `Inode.NewInode`. The new Inode will be
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// added to the FS tree automatically if the return status is OK.
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//
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// If a directory does not implement NodeLookuper, the library looks
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// for an existing child with the given name.
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//
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// The input to a Lookup is {parent directory, name string}.
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//
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// Lookup, if successful, must return an *Inode. Once the Inode is
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// returned to the kernel, the kernel can issue further operations,
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// such as Open or Getxattr on that node.
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//
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// A successful Lookup also returns an EntryOut. Among others, this
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// contains file attributes (mode, size, mtime, etc.).
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//
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// FUSE supports other operations that modify the namespace. For
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// example, the Symlink, Create, Mknod, Link methods all create new
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// children in directories. Hence, they also return *Inode and must
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// populate their fuse.EntryOut arguments.
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func (n *Node) Lookup(ctx context.Context, name string, out *fuse.EntryOut) (inode *fusefs.Inode, errno syscall.Errno) {
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defer log.Trace(n, "name=%q", name)("inode=%v, attr=%v, errno=%v", &inode, &out, &errno)
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vfsNode, errno := n.lookupVfsNodeInDir(name)
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if errno != 0 {
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return nil, errno
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}
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newNode := newNode(n.fsys, vfsNode)
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// FIXME
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// out.SetEntryTimeout(dt time.Duration)
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// out.SetAttrTimeout(dt time.Duration)
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n.fsys.setEntryOut(vfsNode, out)
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return n.NewInode(ctx, newNode, fusefs.StableAttr{Mode: out.Attr.Mode}), 0
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}
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var _ = (fusefs.NodeLookuper)((*Node)(nil))
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// Opendir opens a directory Inode for reading its
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// contents. The actual reading is driven from Readdir, so
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// this method is just for performing sanity/permission
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// checks. The default is to return success.
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func (n *Node) Opendir(ctx context.Context) syscall.Errno {
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if !n.node.IsDir() {
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return syscall.ENOTDIR
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}
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return 0
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}
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var _ = (fusefs.NodeOpendirer)((*Node)(nil))
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type dirStream struct {
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nodes []os.FileInfo
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i int
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}
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// HasNext indicates if there are further entries. HasNext
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// might be called on already closed streams.
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func (ds *dirStream) HasNext() bool {
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return ds.i < len(ds.nodes)
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}
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// Next retrieves the next entry. It is only called if HasNext
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// has previously returned true. The Errno return may be used to
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// indicate I/O errors
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func (ds *dirStream) Next() (de fuse.DirEntry, errno syscall.Errno) {
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// defer log.Trace(nil, "")("de=%+v, errno=%v", &de, &errno)
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fi := ds.nodes[ds.i]
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de = fuse.DirEntry{
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// Mode is the file's mode. Only the high bits (e.g. S_IFDIR)
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// are considered.
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Mode: getMode(fi),
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// Name is the basename of the file in the directory.
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Name: path.Base(fi.Name()),
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// Ino is the inode number.
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Ino: 0, // FIXME
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}
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ds.i++
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return de, 0
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}
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// Close releases resources related to this directory
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// stream.
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func (ds *dirStream) Close() {
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}
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var _ fusefs.DirStream = (*dirStream)(nil)
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// Readdir opens a stream of directory entries.
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//
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// Readdir essentially returns a list of strings, and it is allowed
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// for Readdir to return different results from Lookup. For example,
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// you can return nothing for Readdir ("ls my-fuse-mount" is empty),
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// while still implementing Lookup ("ls my-fuse-mount/a-specific-file"
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// shows a single file).
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//
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// If a directory does not implement NodeReaddirer, a list of
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// currently known children from the tree is returned. This means that
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// static in-memory file systems need not implement NodeReaddirer.
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func (n *Node) Readdir(ctx context.Context) (ds fusefs.DirStream, errno syscall.Errno) {
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defer log.Trace(n, "")("ds=%v, errno=%v", &ds, &errno)
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if !n.node.IsDir() {
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return nil, syscall.ENOTDIR
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}
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fh, err := n.node.Open(os.O_RDONLY)
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if err != nil {
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return nil, translateError(err)
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}
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defer func() {
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closeErr := fh.Close()
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if errno == 0 && closeErr != nil {
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errno = translateError(closeErr)
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}
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}()
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items, err := fh.Readdir(-1)
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if err != nil {
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return nil, translateError(err)
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}
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return &dirStream{
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nodes: items,
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}, 0
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}
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var _ = (fusefs.NodeReaddirer)((*Node)(nil))
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// Mkdir is similar to Lookup, but must create a directory entry and Inode.
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// Default is to return EROFS.
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func (n *Node) Mkdir(ctx context.Context, name string, mode uint32, out *fuse.EntryOut) (inode *fusefs.Inode, errno syscall.Errno) {
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defer log.Trace(name, "mode=0%o", mode)("inode=%v, errno=%v", &inode, &errno)
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dir, ok := n.node.(*vfs.Dir)
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if !ok {
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return nil, syscall.ENOTDIR
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}
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newDir, err := dir.Mkdir(name)
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if err != nil {
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return nil, translateError(err)
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}
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newNode := newNode(n.fsys, newDir)
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n.fsys.setEntryOut(newNode.node, out)
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newInode := n.NewInode(ctx, newNode, fusefs.StableAttr{Mode: out.Attr.Mode})
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return newInode, 0
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}
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var _ = (fusefs.NodeMkdirer)((*Node)(nil))
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// Create is similar to Lookup, but should create a new
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// child. It typically also returns a FileHandle as a
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// reference for future reads/writes.
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// Default is to return EROFS.
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func (n *Node) Create(ctx context.Context, name string, flags uint32, mode uint32, out *fuse.EntryOut) (node *fusefs.Inode, fh fusefs.FileHandle, fuseFlags uint32, errno syscall.Errno) {
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defer log.Trace(n, "name=%q, flags=%#o, mode=%#o", name, flags, mode)("node=%v, fh=%v, flags=%#o, errno=%v", &node, &fh, &fuseFlags, &errno)
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dir, ok := n.node.(*vfs.Dir)
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if !ok {
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return nil, nil, 0, syscall.ENOTDIR
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}
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// translate the fuse flags to os flags
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osFlags := int(flags) | os.O_CREATE
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file, err := dir.Create(name, osFlags)
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if err != nil {
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return nil, nil, 0, translateError(err)
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}
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handle, err := file.Open(osFlags)
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if err != nil {
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return nil, nil, 0, translateError(err)
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}
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fh = newFileHandle(handle, n.fsys)
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// FIXME
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// fh = &fusefs.WithFlags{
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// File: fh,
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// //FuseFlags: fuse.FOPEN_NONSEEKABLE,
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// OpenFlags: flags,
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// }
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// Find the created node
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vfsNode, errno := n.lookupVfsNodeInDir(name)
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if errno != 0 {
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return nil, nil, 0, errno
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}
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n.fsys.setEntryOut(vfsNode, out)
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newNode := newNode(n.fsys, vfsNode)
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fs.Debugf(nil, "attr=%#v", out.Attr)
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newInode := n.NewInode(ctx, newNode, fusefs.StableAttr{Mode: out.Attr.Mode})
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return newInode, fh, 0, 0
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}
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var _ = (fusefs.NodeCreater)((*Node)(nil))
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// Unlink should remove a child from this directory. If the
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// return status is OK, the Inode is removed as child in the
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// FS tree automatically. Default is to return EROFS.
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func (n *Node) Unlink(ctx context.Context, name string) (errno syscall.Errno) {
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defer log.Trace(n, "name=%q", name)("errno=%v", &errno)
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vfsNode, errno := n.lookupVfsNodeInDir(name)
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if errno != 0 {
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return errno
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}
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return translateError(vfsNode.Remove())
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}
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var _ = (fusefs.NodeUnlinker)((*Node)(nil))
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// Rmdir is like Unlink but for directories.
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// Default is to return EROFS.
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func (n *Node) Rmdir(ctx context.Context, name string) (errno syscall.Errno) {
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defer log.Trace(n, "name=%q", name)("errno=%v", &errno)
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vfsNode, errno := n.lookupVfsNodeInDir(name)
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if errno != 0 {
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return errno
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}
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return translateError(vfsNode.Remove())
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}
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var _ = (fusefs.NodeRmdirer)((*Node)(nil))
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// Rename should move a child from one directory to a different
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// one. The change is effected in the FS tree if the return status is
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// OK. Default is to return EROFS.
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func (n *Node) Rename(ctx context.Context, oldName string, newParent fusefs.InodeEmbedder, newName string, flags uint32) (errno syscall.Errno) {
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defer log.Trace(n, "oldName=%q, newParent=%v, newName=%q", oldName, newParent, newName)("errno=%v", &errno)
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oldDir, ok := n.node.(*vfs.Dir)
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if !ok {
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return syscall.ENOTDIR
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}
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newParentNode, ok := newParent.(*Node)
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if !ok {
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fs.Errorf(n, "newParent was not a *Node")
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return syscall.EIO
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}
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newDir, ok := newParentNode.node.(*vfs.Dir)
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if !ok {
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return syscall.ENOTDIR
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}
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return translateError(oldDir.Rename(oldName, newName, newDir))
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}
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var _ = (fusefs.NodeRenamer)((*Node)(nil))
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// Getxattr should read data for the given attribute into
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// `dest` and return the number of bytes. If `dest` is too
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// small, it should return ERANGE and the size of the attribute.
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// If not defined, Getxattr will return ENOATTR.
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func (n *Node) Getxattr(ctx context.Context, attr string, dest []byte) (uint32, syscall.Errno) {
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return 0, syscall.ENOSYS // we never implement this
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}
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var _ fusefs.NodeGetxattrer = (*Node)(nil)
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// Setxattr should store data for the given attribute. See
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// setxattr(2) for information about flags.
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// If not defined, Setxattr will return ENOATTR.
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func (n *Node) Setxattr(ctx context.Context, attr string, data []byte, flags uint32) syscall.Errno {
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return syscall.ENOSYS // we never implement this
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}
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var _ fusefs.NodeSetxattrer = (*Node)(nil)
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// Removexattr should delete the given attribute.
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// If not defined, Removexattr will return ENOATTR.
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func (n *Node) Removexattr(ctx context.Context, attr string) syscall.Errno {
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return syscall.ENOSYS // we never implement this
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}
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var _ fusefs.NodeRemovexattrer = (*Node)(nil)
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// Listxattr should read all attributes (null terminated) into
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// `dest`. If the `dest` buffer is too small, it should return ERANGE
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// and the correct size. If not defined, return an empty list and
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// success.
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func (n *Node) Listxattr(ctx context.Context, dest []byte) (uint32, syscall.Errno) {
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return 0, syscall.ENOSYS // we never implement this
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}
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var _ fusefs.NodeListxattrer = (*Node)(nil)
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