Commit f7571657 authored by Linus Torvalds's avatar Linus Torvalds

Merge tag 'fuse-fixes-5.6-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/mszeredi/fuse

Pull fuse fixes from Miklos Szeredi:

 - Fix a regression introduced in v5.1 that triggers WARNINGs for some
   fuse filesystems

 - Fix an xfstest failure

 - Allow overlayfs to be used on top of fuse/virtiofs

 - Code and documentation cleanups

* tag 'fuse-fixes-5.6-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/mszeredi/fuse:
  fuse: use true,false for bool variable
  Documentation: filesystems: convert fuse to RST
  fuse: Support RENAME_WHITEOUT flag
  fuse: don't overflow LLONG_MAX with end offset
  fix up iter on short count in fuse_direct_io()
parents 175787e0 cabdb4fa
.. SPDX-License-Identifier: GPL-2.0
==============
FUSE
==============
Definitions Definitions
~~~~~~~~~~~ ===========
Userspace filesystem: Userspace filesystem:
A filesystem in which data and metadata are provided by an ordinary A filesystem in which data and metadata are provided by an ordinary
userspace process. The filesystem can be accessed normally through userspace process. The filesystem can be accessed normally through
the kernel interface. the kernel interface.
Filesystem daemon: Filesystem daemon:
The process(es) providing the data and metadata of the filesystem. The process(es) providing the data and metadata of the filesystem.
Non-privileged mount (or user mount): Non-privileged mount (or user mount):
A userspace filesystem mounted by a non-privileged (non-root) user. A userspace filesystem mounted by a non-privileged (non-root) user.
The filesystem daemon is running with the privileges of the mounting The filesystem daemon is running with the privileges of the mounting
user. NOTE: this is not the same as mounts allowed with the "user" user. NOTE: this is not the same as mounts allowed with the "user"
option in /etc/fstab, which is not discussed here. option in /etc/fstab, which is not discussed here.
Filesystem connection: Filesystem connection:
A connection between the filesystem daemon and the kernel. The A connection between the filesystem daemon and the kernel. The
connection exists until either the daemon dies, or the filesystem is connection exists until either the daemon dies, or the filesystem is
umounted. Note that detaching (or lazy umounting) the filesystem umounted. Note that detaching (or lazy umounting) the filesystem
does _not_ break the connection, in this case it will exist until does *not* break the connection, in this case it will exist until
the last reference to the filesystem is released. the last reference to the filesystem is released.
Mount owner: Mount owner:
The user who does the mounting. The user who does the mounting.
User: User:
The user who is performing filesystem operations. The user who is performing filesystem operations.
What is FUSE? What is FUSE?
~~~~~~~~~~~~~ =============
FUSE is a userspace filesystem framework. It consists of a kernel FUSE is a userspace filesystem framework. It consists of a kernel
module (fuse.ko), a userspace library (libfuse.*) and a mount utility module (fuse.ko), a userspace library (libfuse.*) and a mount utility
...@@ -46,50 +45,41 @@ non-privileged mounts. This opens up new possibilities for the use of ...@@ -46,50 +45,41 @@ non-privileged mounts. This opens up new possibilities for the use of
filesystems. A good example is sshfs: a secure network filesystem filesystems. A good example is sshfs: a secure network filesystem
using the sftp protocol. using the sftp protocol.
The userspace library and utilities are available from the FUSE The userspace library and utilities are available from the
homepage: `FUSE homepage: <http://fuse.sourceforge.net/>`_
http://fuse.sourceforge.net/
Filesystem type Filesystem type
~~~~~~~~~~~~~~~ ===============
The filesystem type given to mount(2) can be one of the following: The filesystem type given to mount(2) can be one of the following:
'fuse' fuse
This is the usual way to mount a FUSE filesystem. The first This is the usual way to mount a FUSE filesystem. The first
argument of the mount system call may contain an arbitrary string, argument of the mount system call may contain an arbitrary string,
which is not interpreted by the kernel. which is not interpreted by the kernel.
'fuseblk' fuseblk
The filesystem is block device based. The first argument of the The filesystem is block device based. The first argument of the
mount system call is interpreted as the name of the device. mount system call is interpreted as the name of the device.
Mount options Mount options
~~~~~~~~~~~~~ =============
'fd=N'
fd=N
The file descriptor to use for communication between the userspace The file descriptor to use for communication between the userspace
filesystem and the kernel. The file descriptor must have been filesystem and the kernel. The file descriptor must have been
obtained by opening the FUSE device ('/dev/fuse'). obtained by opening the FUSE device ('/dev/fuse').
'rootmode=M' rootmode=M
The file mode of the filesystem's root in octal representation. The file mode of the filesystem's root in octal representation.
'user_id=N' user_id=N
The numeric user id of the mount owner. The numeric user id of the mount owner.
'group_id=N' group_id=N
The numeric group id of the mount owner. The numeric group id of the mount owner.
'default_permissions' default_permissions
By default FUSE doesn't check file access permissions, the By default FUSE doesn't check file access permissions, the
filesystem is free to implement its access policy or leave it to filesystem is free to implement its access policy or leave it to
the underlying file access mechanism (e.g. in case of network the underlying file access mechanism (e.g. in case of network
...@@ -97,28 +87,25 @@ Mount options ...@@ -97,28 +87,25 @@ Mount options
access based on file mode. It is usually useful together with the access based on file mode. It is usually useful together with the
'allow_other' mount option. 'allow_other' mount option.
'allow_other' allow_other
This option overrides the security measure restricting file access This option overrides the security measure restricting file access
to the user mounting the filesystem. This option is by default only to the user mounting the filesystem. This option is by default only
allowed to root, but this restriction can be removed with a allowed to root, but this restriction can be removed with a
(userspace) configuration option. (userspace) configuration option.
'max_read=N' max_read=N
With this option the maximum size of read operations can be set. With this option the maximum size of read operations can be set.
The default is infinite. Note that the size of read requests is The default is infinite. Note that the size of read requests is
limited anyway to 32 pages (which is 128kbyte on i386). limited anyway to 32 pages (which is 128kbyte on i386).
'blksize=N' blksize=N
Set the block size for the filesystem. The default is 512. This Set the block size for the filesystem. The default is 512. This
option is only valid for 'fuseblk' type mounts. option is only valid for 'fuseblk' type mounts.
Control filesystem Control filesystem
~~~~~~~~~~~~~~~~~~ ==================
There's a control filesystem for FUSE, which can be mounted by: There's a control filesystem for FUSE, which can be mounted by::
mount -t fusectl none /sys/fs/fuse/connections mount -t fusectl none /sys/fs/fuse/connections
...@@ -130,15 +117,13 @@ named by a unique number. ...@@ -130,15 +117,13 @@ named by a unique number.
For each connection the following files exist within this directory: For each connection the following files exist within this directory:
'waiting' waiting
The number of requests which are waiting to be transferred to The number of requests which are waiting to be transferred to
userspace or being processed by the filesystem daemon. If there is userspace or being processed by the filesystem daemon. If there is
no filesystem activity and 'waiting' is non-zero, then the no filesystem activity and 'waiting' is non-zero, then the
filesystem is hung or deadlocked. filesystem is hung or deadlocked.
'abort' abort
Writing anything into this file will abort the filesystem Writing anything into this file will abort the filesystem
connection. This means that all waiting requests will be aborted an connection. This means that all waiting requests will be aborted an
error returned for all aborted and new requests. error returned for all aborted and new requests.
...@@ -146,37 +131,37 @@ For each connection the following files exist within this directory: ...@@ -146,37 +131,37 @@ For each connection the following files exist within this directory:
Only the owner of the mount may read or write these files. Only the owner of the mount may read or write these files.
Interrupting filesystem operations Interrupting filesystem operations
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ##################################
If a process issuing a FUSE filesystem request is interrupted, the If a process issuing a FUSE filesystem request is interrupted, the
following will happen: following will happen:
1) If the request is not yet sent to userspace AND the signal is - If the request is not yet sent to userspace AND the signal is
fatal (SIGKILL or unhandled fatal signal), then the request is fatal (SIGKILL or unhandled fatal signal), then the request is
dequeued and returns immediately. dequeued and returns immediately.
2) If the request is not yet sent to userspace AND the signal is not - If the request is not yet sent to userspace AND the signal is not
fatal, then an 'interrupted' flag is set for the request. When fatal, then an interrupted flag is set for the request. When
the request has been successfully transferred to userspace and the request has been successfully transferred to userspace and
this flag is set, an INTERRUPT request is queued. this flag is set, an INTERRUPT request is queued.
3) If the request is already sent to userspace, then an INTERRUPT - If the request is already sent to userspace, then an INTERRUPT
request is queued. request is queued.
INTERRUPT requests take precedence over other requests, so the INTERRUPT requests take precedence over other requests, so the
userspace filesystem will receive queued INTERRUPTs before any others. userspace filesystem will receive queued INTERRUPTs before any others.
The userspace filesystem may ignore the INTERRUPT requests entirely, The userspace filesystem may ignore the INTERRUPT requests entirely,
or may honor them by sending a reply to the _original_ request, with or may honor them by sending a reply to the *original* request, with
the error set to EINTR. the error set to EINTR.
It is also possible that there's a race between processing the It is also possible that there's a race between processing the
original request and its INTERRUPT request. There are two possibilities: original request and its INTERRUPT request. There are two possibilities:
1) The INTERRUPT request is processed before the original request is 1. The INTERRUPT request is processed before the original request is
processed processed
2) The INTERRUPT request is processed after the original request has 2. The INTERRUPT request is processed after the original request has
been answered been answered
If the filesystem cannot find the original request, it should wait for If the filesystem cannot find the original request, it should wait for
...@@ -186,7 +171,7 @@ should reply to the INTERRUPT request with an EAGAIN error. In case ...@@ -186,7 +171,7 @@ should reply to the INTERRUPT request with an EAGAIN error. In case
reply will be ignored. reply will be ignored.
Aborting a filesystem connection Aborting a filesystem connection
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ================================
It is possible to get into certain situations where the filesystem is It is possible to get into certain situations where the filesystem is
not responding. Reasons for this may be: not responding. Reasons for this may be:
...@@ -216,7 +201,7 @@ the filesystem. There are several ways to do this: ...@@ -216,7 +201,7 @@ the filesystem. There are several ways to do this:
powerful method, always works. powerful method, always works.
How do non-privileged mounts work? How do non-privileged mounts work?
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ==================================
Since the mount() system call is a privileged operation, a helper Since the mount() system call is a privileged operation, a helper
program (fusermount) is needed, which is installed setuid root. program (fusermount) is needed, which is installed setuid root.
...@@ -235,15 +220,13 @@ system. Obvious requirements arising from this are: ...@@ -235,15 +220,13 @@ system. Obvious requirements arising from this are:
other users' or the super user's processes other users' or the super user's processes
How are requirements fulfilled? How are requirements fulfilled?
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ===============================
A) The mount owner could gain elevated privileges by either: A) The mount owner could gain elevated privileges by either:
1) creating a filesystem containing a device file, then opening 1. creating a filesystem containing a device file, then opening this device
this device
2) creating a filesystem containing a suid or sgid application, 2. creating a filesystem containing a suid or sgid application, then executing this application
then executing this application
The solution is not to allow opening device files and ignore The solution is not to allow opening device files and ignore
setuid and setgid bits when executing programs. To ensure this setuid and setgid bits when executing programs. To ensure this
...@@ -284,7 +267,7 @@ How are requirements fulfilled? ...@@ -284,7 +267,7 @@ How are requirements fulfilled?
ii) It can present files or directories of unlimited length, or ii) It can present files or directories of unlimited length, or
directory structures of unlimited depth, possibly causing a directory structures of unlimited depth, possibly causing a
system process to eat up diskspace, memory or other system process to eat up diskspace, memory or other
resources, again causing DoS. resources, again causing *DoS*.
The solution to this as well as B) is not to allow processes The solution to this as well as B) is not to allow processes
to access the filesystem, which could otherwise not be to access the filesystem, which could otherwise not be
...@@ -294,28 +277,27 @@ How are requirements fulfilled? ...@@ -294,28 +277,27 @@ How are requirements fulfilled?
ptrace can be used to check if a process is allowed to access ptrace can be used to check if a process is allowed to access
the filesystem or not. the filesystem or not.
Note that the ptrace check is not strictly necessary to Note that the *ptrace* check is not strictly necessary to
prevent B/2/i, it is enough to check if mount owner has enough prevent B/2/i, it is enough to check if mount owner has enough
privilege to send signal to the process accessing the privilege to send signal to the process accessing the
filesystem, since SIGSTOP can be used to get a similar effect. filesystem, since *SIGSTOP* can be used to get a similar effect.
I think these limitations are unacceptable? I think these limitations are unacceptable?
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ===========================================
If a sysadmin trusts the users enough, or can ensure through other If a sysadmin trusts the users enough, or can ensure through other
measures, that system processes will never enter non-privileged measures, that system processes will never enter non-privileged
mounts, it can relax the last limitation with a "user_allow_other" mounts, it can relax the last limitation with a 'user_allow_other'
config option. If this config option is set, the mounting user can config option. If this config option is set, the mounting user can
add the "allow_other" mount option which disables the check for other add the 'allow_other' mount option which disables the check for other
users' processes. users' processes.
Kernel - userspace interface Kernel - userspace interface
~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ============================
The following diagram shows how a filesystem operation (in this The following diagram shows how a filesystem operation (in this
example unlink) is performed in FUSE. example unlink) is performed in FUSE. ::
NOTE: everything in this description is greatly simplified
| "rm /mnt/fuse/file" | FUSE filesystem daemon | "rm /mnt/fuse/file" | FUSE filesystem daemon
| | | |
...@@ -357,12 +339,13 @@ NOTE: everything in this description is greatly simplified ...@@ -357,12 +339,13 @@ NOTE: everything in this description is greatly simplified
| <fuse_unlink() | | <fuse_unlink() |
| <sys_unlink() | | <sys_unlink() |
.. note:: Everything in the description above is greatly simplified
There are a couple of ways in which to deadlock a FUSE filesystem. There are a couple of ways in which to deadlock a FUSE filesystem.
Since we are talking about unprivileged userspace programs, Since we are talking about unprivileged userspace programs,
something must be done about these. something must be done about these.
Scenario 1 - Simple deadlock **Scenario 1 - Simple deadlock**::
-----------------------------
| "rm /mnt/fuse/file" | FUSE filesystem daemon | "rm /mnt/fuse/file" | FUSE filesystem daemon
| | | |
...@@ -379,12 +362,12 @@ Scenario 1 - Simple deadlock ...@@ -379,12 +362,12 @@ Scenario 1 - Simple deadlock
The solution for this is to allow the filesystem to be aborted. The solution for this is to allow the filesystem to be aborted.
Scenario 2 - Tricky deadlock **Scenario 2 - Tricky deadlock**
----------------------------
This one needs a carefully crafted filesystem. It's a variation on This one needs a carefully crafted filesystem. It's a variation on
the above, only the call back to the filesystem is not explicit, the above, only the call back to the filesystem is not explicit,
but is caused by a pagefault. but is caused by a pagefault. ::
| Kamikaze filesystem thread 1 | Kamikaze filesystem thread 2 | Kamikaze filesystem thread 1 | Kamikaze filesystem thread 2
| | | |
...@@ -410,7 +393,7 @@ but is caused by a pagefault. ...@@ -410,7 +393,7 @@ but is caused by a pagefault.
| | [lock page] | | [lock page]
| | * DEADLOCK * | | * DEADLOCK *
Solution is basically the same as above. The solution is basically the same as above.
An additional problem is that while the write buffer is being copied An additional problem is that while the write buffer is being copied
to the request, the request must not be interrupted/aborted. This is to the request, the request must not be interrupted/aborted. This is
......
...@@ -47,6 +47,7 @@ Documentation for filesystem implementations. ...@@ -47,6 +47,7 @@ Documentation for filesystem implementations.
:maxdepth: 2 :maxdepth: 2
autofs autofs
fuse
overlayfs overlayfs
virtiofs virtiofs
vfat vfat
...@@ -6903,7 +6903,7 @@ T: git git://git.kernel.org/pub/scm/linux/kernel/git/mszeredi/fuse.git ...@@ -6903,7 +6903,7 @@ T: git git://git.kernel.org/pub/scm/linux/kernel/git/mszeredi/fuse.git
S: Maintained S: Maintained
F: fs/fuse/ F: fs/fuse/
F: include/uapi/linux/fuse.h F: include/uapi/linux/fuse.h
F: Documentation/filesystems/fuse.txt F: Documentation/filesystems/fuse.rst
FUTEX SUBSYSTEM FUTEX SUBSYSTEM
M: Thomas Gleixner <tglx@linutronix.de> M: Thomas Gleixner <tglx@linutronix.de>
......
...@@ -451,8 +451,8 @@ static int cuse_send_init(struct cuse_conn *cc) ...@@ -451,8 +451,8 @@ static int cuse_send_init(struct cuse_conn *cc)
ap->args.out_args[0].size = sizeof(ia->out); ap->args.out_args[0].size = sizeof(ia->out);
ap->args.out_args[0].value = &ia->out; ap->args.out_args[0].value = &ia->out;
ap->args.out_args[1].size = CUSE_INIT_INFO_MAX; ap->args.out_args[1].size = CUSE_INIT_INFO_MAX;
ap->args.out_argvar = 1; ap->args.out_argvar = true;
ap->args.out_pages = 1; ap->args.out_pages = true;
ap->num_pages = 1; ap->num_pages = 1;
ap->pages = &ia->page; ap->pages = &ia->page;
ap->descs = &ia->desc; ap->descs = &ia->desc;
......
...@@ -818,7 +818,7 @@ static int fuse_rename2(struct inode *olddir, struct dentry *oldent, ...@@ -818,7 +818,7 @@ static int fuse_rename2(struct inode *olddir, struct dentry *oldent,
struct fuse_conn *fc = get_fuse_conn(olddir); struct fuse_conn *fc = get_fuse_conn(olddir);
int err; int err;
if (flags & ~(RENAME_NOREPLACE | RENAME_EXCHANGE)) if (flags & ~(RENAME_NOREPLACE | RENAME_EXCHANGE | RENAME_WHITEOUT))
return -EINVAL; return -EINVAL;
if (flags) { if (flags) {
......
...@@ -803,6 +803,10 @@ static int fuse_do_readpage(struct file *file, struct page *page) ...@@ -803,6 +803,10 @@ static int fuse_do_readpage(struct file *file, struct page *page)
attr_ver = fuse_get_attr_version(fc); attr_ver = fuse_get_attr_version(fc);
/* Don't overflow end offset */
if (pos + (desc.length - 1) == LLONG_MAX)
desc.length--;
fuse_read_args_fill(&ia, file, pos, desc.length, FUSE_READ); fuse_read_args_fill(&ia, file, pos, desc.length, FUSE_READ);
res = fuse_simple_request(fc, &ia.ap.args); res = fuse_simple_request(fc, &ia.ap.args);
if (res < 0) if (res < 0)
...@@ -888,6 +892,14 @@ static void fuse_send_readpages(struct fuse_io_args *ia, struct file *file) ...@@ -888,6 +892,14 @@ static void fuse_send_readpages(struct fuse_io_args *ia, struct file *file)
ap->args.out_pages = true; ap->args.out_pages = true;
ap->args.page_zeroing = true; ap->args.page_zeroing = true;
ap->args.page_replace = true; ap->args.page_replace = true;
/* Don't overflow end offset */
if (pos + (count - 1) == LLONG_MAX) {
count--;
ap->descs[ap->num_pages - 1].length--;
}
WARN_ON((loff_t) (pos + count) < 0);
fuse_read_args_fill(ia, file, pos, count, FUSE_READ); fuse_read_args_fill(ia, file, pos, count, FUSE_READ);
ia->read.attr_ver = fuse_get_attr_version(fc); ia->read.attr_ver = fuse_get_attr_version(fc);
if (fc->async_read) { if (fc->async_read) {
...@@ -1397,9 +1409,9 @@ static int fuse_get_user_pages(struct fuse_args_pages *ap, struct iov_iter *ii, ...@@ -1397,9 +1409,9 @@ static int fuse_get_user_pages(struct fuse_args_pages *ap, struct iov_iter *ii,
} }
if (write) if (write)
ap->args.in_pages = 1; ap->args.in_pages = true;
else else
ap->args.out_pages = 1; ap->args.out_pages = true;
*nbytesp = nbytes; *nbytesp = nbytes;
...@@ -1465,6 +1477,7 @@ ssize_t fuse_direct_io(struct fuse_io_priv *io, struct iov_iter *iter, ...@@ -1465,6 +1477,7 @@ ssize_t fuse_direct_io(struct fuse_io_priv *io, struct iov_iter *iter,
} }
ia = NULL; ia = NULL;
if (nres < 0) { if (nres < 0) {
iov_iter_revert(iter, nbytes);
err = nres; err = nres;
break; break;
} }
...@@ -1473,8 +1486,10 @@ ssize_t fuse_direct_io(struct fuse_io_priv *io, struct iov_iter *iter, ...@@ -1473,8 +1486,10 @@ ssize_t fuse_direct_io(struct fuse_io_priv *io, struct iov_iter *iter,
count -= nres; count -= nres;
res += nres; res += nres;
pos += nres; pos += nres;
if (nres != nbytes) if (nres != nbytes) {
iov_iter_revert(iter, nbytes - nres);
break; break;
}
if (count) { if (count) {
max_pages = iov_iter_npages(iter, fc->max_pages); max_pages = iov_iter_npages(iter, fc->max_pages);
ia = fuse_io_alloc(io, max_pages); ia = fuse_io_alloc(io, max_pages);
......
...@@ -494,36 +494,36 @@ static int fuse_parse_param(struct fs_context *fc, struct fs_parameter *param) ...@@ -494,36 +494,36 @@ static int fuse_parse_param(struct fs_context *fc, struct fs_parameter *param)
case OPT_FD: case OPT_FD:
ctx->fd = result.uint_32; ctx->fd = result.uint_32;
ctx->fd_present = 1; ctx->fd_present = true;
break; break;
case OPT_ROOTMODE: case OPT_ROOTMODE:
if (!fuse_valid_type(result.uint_32)) if (!fuse_valid_type(result.uint_32))
return invalf(fc, "fuse: Invalid rootmode"); return invalf(fc, "fuse: Invalid rootmode");
ctx->rootmode = result.uint_32; ctx->rootmode = result.uint_32;
ctx->rootmode_present = 1; ctx->rootmode_present = true;
break; break;
case OPT_USER_ID: case OPT_USER_ID:
ctx->user_id = make_kuid(fc->user_ns, result.uint_32); ctx->user_id = make_kuid(fc->user_ns, result.uint_32);
if (!uid_valid(ctx->user_id)) if (!uid_valid(ctx->user_id))
return invalf(fc, "fuse: Invalid user_id"); return invalf(fc, "fuse: Invalid user_id");
ctx->user_id_present = 1; ctx->user_id_present = true;
break; break;
case OPT_GROUP_ID: case OPT_GROUP_ID:
ctx->group_id = make_kgid(fc->user_ns, result.uint_32); ctx->group_id = make_kgid(fc->user_ns, result.uint_32);
if (!gid_valid(ctx->group_id)) if (!gid_valid(ctx->group_id))
return invalf(fc, "fuse: Invalid group_id"); return invalf(fc, "fuse: Invalid group_id");
ctx->group_id_present = 1; ctx->group_id_present = true;
break; break;
case OPT_DEFAULT_PERMISSIONS: case OPT_DEFAULT_PERMISSIONS:
ctx->default_permissions = 1; ctx->default_permissions = true;
break; break;
case OPT_ALLOW_OTHER: case OPT_ALLOW_OTHER:
ctx->allow_other = 1; ctx->allow_other = true;
break; break;
case OPT_MAX_READ: case OPT_MAX_READ:
...@@ -997,7 +997,7 @@ void fuse_send_init(struct fuse_conn *fc) ...@@ -997,7 +997,7 @@ void fuse_send_init(struct fuse_conn *fc)
/* Variable length argument used for backward compatibility /* Variable length argument used for backward compatibility
with interface version < 7.5. Rest of init_out is zeroed with interface version < 7.5. Rest of init_out is zeroed
by do_get_request(), so a short reply is not a problem */ by do_get_request(), so a short reply is not a problem */
ia->args.out_argvar = 1; ia->args.out_argvar = true;
ia->args.out_args[0].size = sizeof(ia->out); ia->args.out_args[0].size = sizeof(ia->out);
ia->args.out_args[0].value = &ia->out; ia->args.out_args[0].value = &ia->out;
ia->args.force = true; ia->args.force = true;
......
...@@ -332,7 +332,7 @@ static int fuse_readdir_uncached(struct file *file, struct dir_context *ctx) ...@@ -332,7 +332,7 @@ static int fuse_readdir_uncached(struct file *file, struct dir_context *ctx)
return -ENOMEM; return -ENOMEM;
plus = fuse_use_readdirplus(inode, ctx); plus = fuse_use_readdirplus(inode, ctx);
ap->args.out_pages = 1; ap->args.out_pages = true;
ap->num_pages = 1; ap->num_pages = 1;
ap->pages = &page; ap->pages = &page;
ap->descs = &desc; ap->descs = &desc;
......
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