mirror of
https://github.com/seaweedfs/seaweedfs.git
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262 lines
8.6 KiB
Go
262 lines
8.6 KiB
Go
package mount
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import (
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"context"
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"fmt"
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"github.com/hanwen/go-fuse/v2/fs"
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"github.com/hanwen/go-fuse/v2/fuse"
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"github.com/seaweedfs/seaweedfs/weed/filer"
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"github.com/seaweedfs/seaweedfs/weed/glog"
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"github.com/seaweedfs/seaweedfs/weed/pb/filer_pb"
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"github.com/seaweedfs/seaweedfs/weed/util"
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"io"
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"strings"
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"syscall"
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)
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/** Rename a file
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*
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* If the target exists it should be atomically replaced. If
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* the target's inode's lookup count is non-zero, the file
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* system is expected to postpone any removal of the inode
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* until the lookup count reaches zero (see description of the
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* forget function).
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*
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* If this request is answered with an error code of ENOSYS, this is
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* treated as a permanent failure with error code EINVAL, i.e. all
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* future bmap requests will fail with EINVAL without being
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* send to the filesystem process.
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*
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* *flags* may be `RENAME_EXCHANGE` or `RENAME_NOREPLACE`. If
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* RENAME_NOREPLACE is specified, the filesystem must not
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* overwrite *newname* if it exists and return an error
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* instead. If `RENAME_EXCHANGE` is specified, the filesystem
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* must atomically exchange the two files, i.e. both must
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* exist and neither may be deleted.
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*
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* Valid replies:
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* fuse_reply_err
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*
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* @param req request handle
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* @param parent inode number of the old parent directory
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* @param name old name
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* @param newparent inode number of the new parent directory
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* @param newname new name
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*/
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/*
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renameat2()
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renameat2() has an additional flags argument. A renameat2() call
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with a zero flags argument is equivalent to renameat().
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The flags argument is a bit mask consisting of zero or more of
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the following flags:
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RENAME_EXCHANGE
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Atomically exchange oldpath and newpath. Both pathnames
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must exist but may be of different types (e.g., one could
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be a non-empty directory and the other a symbolic link).
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RENAME_NOREPLACE
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Don't overwrite newpath of the rename. Return an error if
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newpath already exists.
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RENAME_NOREPLACE can't be employed together with
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RENAME_EXCHANGE.
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RENAME_NOREPLACE requires support from the underlying
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filesystem. Support for various filesystems was added as
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follows:
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* ext4 (Linux 3.15);
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* btrfs, tmpfs, and cifs (Linux 3.17);
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* xfs (Linux 4.0);
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* Support for many other filesystems was added in Linux
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4.9, including ext2, minix, reiserfs, jfs, vfat, and
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bpf.
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RENAME_WHITEOUT (since Linux 3.18)
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This operation makes sense only for overlay/union
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filesystem implementations.
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Specifying RENAME_WHITEOUT creates a "whiteout" object at
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the source of the rename at the same time as performing
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the rename. The whole operation is atomic, so that if the
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rename succeeds then the whiteout will also have been
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created.
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A "whiteout" is an object that has special meaning in
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union/overlay filesystem constructs. In these constructs,
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multiple layers exist and only the top one is ever
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modified. A whiteout on an upper layer will effectively
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hide a matching file in the lower layer, making it appear
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as if the file didn't exist.
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When a file that exists on the lower layer is renamed, the
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file is first copied up (if not already on the upper
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layer) and then renamed on the upper, read-write layer.
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At the same time, the source file needs to be "whiteouted"
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(so that the version of the source file in the lower layer
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is rendered invisible). The whole operation needs to be
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done atomically.
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When not part of a union/overlay, the whiteout appears as
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a character device with a {0,0} device number. (Note that
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other union/overlay implementations may employ different
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methods for storing whiteout entries; specifically, BSD
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union mount employs a separate inode type, DT_WHT, which,
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while supported by some filesystems available in Linux,
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such as CODA and XFS, is ignored by the kernel's whiteout
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support code, as of Linux 4.19, at least.)
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RENAME_WHITEOUT requires the same privileges as creating a
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device node (i.e., the CAP_MKNOD capability).
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RENAME_WHITEOUT can't be employed together with
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RENAME_EXCHANGE.
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RENAME_WHITEOUT requires support from the underlying
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filesystem. Among the filesystems that support it are
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tmpfs (since Linux 3.18), ext4 (since Linux 3.18), XFS
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(since Linux 4.1), f2fs (since Linux 4.2), btrfs (since
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Linux 4.7), and ubifs (since Linux 4.9).
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*/
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const (
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RenameEmptyFlag = 0
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RenameNoReplace = 1
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RenameExchange = fs.RENAME_EXCHANGE
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RenameWhiteout = 3
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)
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func (wfs *WFS) Rename(cancel <-chan struct{}, in *fuse.RenameIn, oldName string, newName string) (code fuse.Status) {
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if wfs.IsOverQuota {
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return fuse.Status(syscall.ENOSPC)
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}
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if s := checkName(newName); s != fuse.OK {
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return s
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}
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switch in.Flags {
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case RenameEmptyFlag:
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case RenameNoReplace:
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case RenameExchange:
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case RenameWhiteout:
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return fuse.ENOTSUP
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default:
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return fuse.EINVAL
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}
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oldDir, code := wfs.inodeToPath.GetPath(in.NodeId)
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if code != fuse.OK {
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return
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}
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oldPath := oldDir.Child(oldName)
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newDir, code := wfs.inodeToPath.GetPath(in.Newdir)
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if code != fuse.OK {
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return
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}
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newPath := newDir.Child(newName)
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glog.V(4).Infof("dir Rename %s => %s", oldPath, newPath)
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// update remote filer
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err := wfs.WithFilerClient(true, func(client filer_pb.SeaweedFilerClient) error {
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ctx, cancel := context.WithCancel(context.Background())
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defer cancel()
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request := &filer_pb.StreamRenameEntryRequest{
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OldDirectory: string(oldDir),
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OldName: oldName,
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NewDirectory: string(newDir),
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NewName: newName,
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Signatures: []int32{wfs.signature},
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}
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stream, err := client.StreamRenameEntry(ctx, request)
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if err != nil {
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code = fuse.EIO
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return fmt.Errorf("dir AtomicRenameEntry %s => %s : %v", oldPath, newPath, err)
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}
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for {
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resp, recvErr := stream.Recv()
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if recvErr != nil {
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if recvErr == io.EOF {
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break
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} else {
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if strings.Contains(recvErr.Error(), "not empty") {
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code = fuse.Status(syscall.ENOTEMPTY)
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} else if strings.Contains(recvErr.Error(), "not directory") {
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code = fuse.ENOTDIR
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}
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return fmt.Errorf("dir Rename %s => %s receive: %v", oldPath, newPath, recvErr)
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}
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}
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if err = wfs.handleRenameResponse(ctx, resp); err != nil {
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glog.V(0).Infof("dir Rename %s => %s : %v", oldPath, newPath, err)
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return err
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}
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}
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return nil
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})
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if err != nil {
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glog.V(0).Infof("Link: %v", err)
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return
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}
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return fuse.OK
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}
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func (wfs *WFS) handleRenameResponse(ctx context.Context, resp *filer_pb.StreamRenameEntryResponse) error {
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// comes from filer StreamRenameEntry, can only be create or delete entry
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glog.V(4).Infof("dir Rename %+v", resp.EventNotification)
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if resp.EventNotification.NewEntry != nil {
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// with new entry, the old entry name also exists. This is the first step to create new entry
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newEntry := filer.FromPbEntry(resp.EventNotification.NewParentPath, resp.EventNotification.NewEntry)
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if err := wfs.metaCache.AtomicUpdateEntryFromFiler(ctx, "", newEntry); err != nil {
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return err
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}
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oldParent, newParent := util.FullPath(resp.Directory), util.FullPath(resp.EventNotification.NewParentPath)
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oldName, newName := resp.EventNotification.OldEntry.Name, resp.EventNotification.NewEntry.Name
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oldPath := oldParent.Child(oldName)
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newPath := newParent.Child(newName)
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sourceInode, targetInode := wfs.inodeToPath.MovePath(oldPath, newPath)
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if sourceInode != 0 {
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fh, foundFh := wfs.fhmap.FindFileHandle(sourceInode)
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if foundFh {
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if entry := fh.GetEntry(); entry != nil {
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entry.Name = newName
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}
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}
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// invalidate attr and data
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// wfs.fuseServer.InodeNotify(sourceInode, 0, -1)
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}
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if targetInode != 0 {
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// invalidate attr and data
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// wfs.fuseServer.InodeNotify(targetInode, 0, -1)
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}
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} else if resp.EventNotification.OldEntry != nil {
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// without new entry, only old entry name exists. This is the second step to delete old entry
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if err := wfs.metaCache.AtomicUpdateEntryFromFiler(ctx, util.NewFullPath(resp.Directory, resp.EventNotification.OldEntry.Name), nil); err != nil {
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return err
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}
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}
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return nil
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}
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