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NAME | DESCRIPTION | ERRORS | VERSIONS | CONFORMING TO | NOTES | BUGS | EXAMPLES | SEE ALSO | COLOPHON |
FANOTIFY(7) Linux Programmer's Manual FANOTIFY(7)
fanotify - monitoring filesystem events
The fanotify API provides notification and interception of filesystem
events. Use cases include virus scanning and hierarchical storage
management. Currently, only a limited set of events is supported.
In particular, there is no support for create, delete, and move
events. (See inotify(7) for details of an API that does notify those
events.)
Additional capabilities compared to the inotify(7) API include the
ability to monitor all of the objects in a mounted filesystem, the
ability to make access permission decisions, and the possibility to
read or modify files before access by other applications.
The following system calls are used with this API: fanotify_init(2),
fanotify_mark(2), read(2), write(2), and close(2).
fanotify_init(), fanotify_mark(), and notification groups
The fanotify_init(2) system call creates and initializes an fanotify
notification group and returns a file descriptor referring to it.
An fanotify notification group is a kernel-internal object that holds
a list of files, directories, filesystems, and mount points for which
events shall be created.
For each entry in an fanotify notification group, two bit masks
exist: the mark mask and the ignore mask. The mark mask defines file
activities for which an event shall be created. The ignore mask
defines activities for which no event shall be generated. Having
these two types of masks permits a filesystem, mount point, or
directory to be marked for receiving events, while at the same time
ignoring events for specific objects under a mount point or
directory.
The fanotify_mark(2) system call adds a file, directory, filesystem
or mount point to a notification group and specifies which events
shall be reported (or ignored), or removes or modifies such an entry.
A possible usage of the ignore mask is for a file cache. Events of
interest for a file cache are modification of a file and closing of
the same. Hence, the cached directory or mount point is to be marked
to receive these events. After receiving the first event informing
that a file has been modified, the corresponding cache entry will be
invalidated. No further modification events for this file are of
interest until the file is closed. Hence, the modify event can be
added to the ignore mask. Upon receiving the close event, the modify
event can be removed from the ignore mask and the file cache entry
can be updated.
The entries in the fanotify notification groups refer to files and
directories via their inode number and to mounts via their mount ID.
If files or directories are renamed or moved within the same mount,
the respective entries survive. If files or directories are deleted
or moved to another mount or if filesystems or mounts are unmounted,
the corresponding entries are deleted.
The event queue
As events occur on the filesystem objects monitored by a notification
group, the fanotify system generates events that are collected in a
queue. These events can then be read (using read(2) or similar) from
the fanotify file descriptor returned by fanotify_init(2).
Two types of events are generated: notification events and permission
events. Notification events are merely informative and require no
action to be taken by the receiving application with the exception
being that the file descriptor provided within a generic event must
be closed. The closing of file descriptors for each event applies
only to applications that have initialized fanotify without using
FAN_REPORT_FID (see below). Permission events are requests to the
receiving application to decide whether permission for a file access
shall be granted. For these events, the recipient must write a
response which decides whether access is granted or not.
An event is removed from the event queue of the fanotify group when
it has been read. Permission events that have been read are kept in
an internal list of the fanotify group until either a permission
decision has been taken by writing to the fanotify file descriptor or
the fanotify file descriptor is closed.
Reading fanotify events
Calling read(2) for the file descriptor returned by fanotify_init(2)
blocks (if the flag FAN_NONBLOCK is not specified in the call to
fanotify_init(2)) until either a file event occurs or the call is
interrupted by a signal (see signal(7)).
The use of the FAN_REPORT_FID flag in fanotify_init(2) influences
what data structures are returned to the event listener for each
event. After a successful read(2), the read buffer contains one or
more of the following structures:
struct fanotify_event_metadata {
__u32 event_len;
__u8 vers;
__u8 reserved;
__u16 metadata_len;
__aligned_u64 mask;
__s32 fd;
__s32 pid;
};
In the case where FAN_REPORT_FID is supplied as one of the flags to
fanotify_init(2), you should also expect to receive the structure
detailed below following the generic fanotify_event_metadata struc‐
ture within the read buffer:
struct fanotify_event_info_fid {
struct fanotify_event_info_header hdr;
__kernel_fsid_t fsid;
unsigned char file_handle[0];
};
For performance reasons, it is recommended to use a large buffer size
(for example, 4096 bytes), so that multiple events can be retrieved
by a single read(2).
The return value of read(2) is the number of bytes placed in the buf‐
fer, or -1 in case of an error (but see BUGS).
The fields of the fanotify_event_metadata structure are as follows:
event_len
This is the length of the data for the current event and the
offset to the next event in the buffer. Without
FAN_REPORT_FID, the value of event_len is always
FAN_EVENT_METADATA_LEN. With FAN_REPORT_FID, event_len also
includes the variable length file identifier.
vers This field holds a version number for the structure. It must
be compared to FANOTIFY_METADATA_VERSION to verify that the
structures returned at run time match the structures defined
at compile time. In case of a mismatch, the application
should abandon trying to use the fanotify file descriptor.
reserved
This field is not used.
metadata_len
This is the length of the structure. The field was introduced
to facilitate the implementation of optional headers per event
type. No such optional headers exist in the current implemen‐
tation.
mask This is a bit mask describing the event (see below).
fd This is an open file descriptor for the object being accessed,
or FAN_NOFD if a queue overflow occurred. If the fanotify
file descriptor has been initialized using FAN_REPORT_FID,
applications should expect this value to be set to FAN_NOFD
for each event that is received. The file descriptor can be
used to access the contents of the monitored file or direc‐
tory. The reading application is responsible for closing this
file descriptor.
When calling fanotify_init(2), the caller may specify (via the
event_f_flags argument) various file status flags that are to
be set on the open file description that corresponds to this
file descriptor. In addition, the (kernel-internal)
FMODE_NONOTIFY file status flag is set on the open file
description. This flag suppresses fanotify event generation.
Hence, when the receiver of the fanotify event accesses the
notified file or directory using this file descriptor, no
additional events will be created.
pid If flag FAN_REPORT_TID was set in fanotify_init(2), this is
the TID of the thread that caused the event. Otherwise, this
the PID of the process that caused the event.
A program listening to fanotify events can compare this PID to the
PID returned by getpid(2), to determine whether the event is caused
by the listener itself, or is due to a file access by another
process.
The bit mask in mask indicates which events have occurred for a sin‐
gle filesystem object. Multiple bits may be set in this mask, if
more than one event occurred for the monitored filesystem object. In
particular, consecutive events for the same filesystem object and
originating from the same process may be merged into a single event,
with the exception that two permission events are never merged into
one queue entry.
The bits that may appear in mask are as follows:
FAN_ACCESS
A file or a directory (but see BUGS) was accessed (read).
FAN_OPEN
A file or a directory was opened.
FAN_OPEN_EXEC
A file was opened with the intent to be executed. See NOTES
in fanotify_mark(2) for additional details.
FAN_ATTRIB
A file or directory metadata was changed.
FAN_CREATE
A child file or directory was created in a watched parent.
FAN_DELETE
A child file or directory was deleted in a watched parent.
FAN_DELETE_SELF
A watched file or directory was deleted.
FAN_MOVED_FROM
A file or directory has been moved from a watched parent
directory.
FAN_MOVED_TO
A file or directory has been moved to a watched parent direc‐
tory.
FAN_MOVE_SELF
A watched file or directory was moved.
FAN_MODIFY
A file was modified.
FAN_CLOSE_WRITE
A file that was opened for writing (O_WRONLY or O_RDWR) was
closed.
FAN_CLOSE_NOWRITE
A file or directory that was opened read-only (O_RDONLY) was
closed.
FAN_Q_OVERFLOW
The event queue exceeded the limit of 16384 entries. This
limit can be overridden by specifying the FAN_UNLIMITED_QUEUE
flag when calling fanotify_init(2).
FAN_ACCESS_PERM
An application wants to read a file or directory, for example
using read(2) or readdir(2). The reader must write a response
(as described below) that determines whether the permission to
access the filesystem object shall be granted.
FAN_OPEN_PERM
An application wants to open a file or directory. The reader
must write a response that determines whether the permission
to open the filesystem object shall be granted.
FAN_OPEN_EXEC_PERM
An application wants to open a file for execution. The reader
must write a response that determines whether the permission
to open the filesystem object for execution shall be granted.
See NOTES in fanotify_mark(2) for additional details.
To check for any close event, the following bit mask may be used:
FAN_CLOSE
A file was closed. This is a synonym for:
FAN_CLOSE_WRITE | FAN_CLOSE_NOWRITE
To check for any move event, the following bit mask may be used:
FAN_MOVE
A file or directory was moved. This is a synonym for:
FAN_MOVED_FROM | FAN_MOVED_TO
The following bits may appear in mask only in conjunction with other
event type bits:
FAN_ONDIR
The events described in the mask have occurred on a directory
object. Reporting events on directories requires setting this
flag in the mark mask. See fanotify_mark(2) for additional
details. The FAN_ONDIR flag is reported in an event mask only
if the fanotify group has been initialized with the flag
FAN_REPORT_FID.
The fields of the fanotify_event_info_fid structure are as follows:
hdr This is a structure of type fanotify_event_info_header. It is
a generic header that contains information used to describe
additional information attached to the event. For example,
when an fanotify file descriptor is created using
FAN_REPORT_FID, the info_type field of this header is set to
FAN_EVENT_INFO_TYPE_FID. Event listeners can use this field
to check that the additional information received for an event
is of the correct type. Additionally, the fan‐
otify_event_info_header also contains a len field. In the
current implementation, the value of len is always (event_len
- FAN_EVENT_METADATA_LEN).
fsid This is a unique identifier of the filesystem containing the
object associated with the event. It is a structure of type
__kernel_fsid_t and contains the same value as f_fsid when
calling statfs(2).
file_handle
This is a variable length structure of type file_handle. It
is an opaque handle that corresponds to a specified object on
a filesystem as returned by name_to_handle_at(2). It can be
used to uniquely identify a file on a filesystem and can be
passed as an argument to open_by_handle_at(2). Note that for
directory entry events, such as FAN_CREATE, FAN_DELETE, and
FAN_MOVE, the file_handle describes the modified directory and
not the created/deleted/moved child object. The events
FAN_ATTRIB, FAN_DELETE_SELF, and FAN_MOVE_SELF will carry the
file_handle information for the child object if the child
object is being watched.
The following macros are provided to iterate over a buffer containing
fanotify event metadata returned by a read(2) from an fanotify file
descriptor:
FAN_EVENT_OK(meta, len)
This macro checks the remaining length len of the buffer meta
against the length of the metadata structure and the event_len
field of the first metadata structure in the buffer.
FAN_EVENT_NEXT(meta, len)
This macro uses the length indicated in the event_len field of
the metadata structure pointed to by meta to calculate the
address of the next metadata structure that follows meta. len
is the number of bytes of metadata that currently remain in
the buffer. The macro returns a pointer to the next metadata
structure that follows meta, and reduces len by the number of
bytes in the metadata structure that has been skipped over
(i.e., it subtracts meta->event_len from len).
In addition, there is:
FAN_EVENT_METADATA_LEN
This macro returns the size (in bytes) of the structure fan‐
otify_event_metadata. This is the minimum size (and currently
the only size) of any event metadata.
Monitoring an fanotify file descriptor for events
When an fanotify event occurs, the fanotify file descriptor indicates
as readable when passed to epoll(7), poll(2), or select(2).
Dealing with permission events
For permission events, the application must write(2) a structure of
the following form to the fanotify file descriptor:
struct fanotify_response {
__s32 fd;
__u32 response;
};
The fields of this structure are as follows:
fd This is the file descriptor from the structure fan‐
otify_event_metadata.
response
This field indicates whether or not the permission is to be
granted. Its value must be either FAN_ALLOW to allow the file
operation or FAN_DENY to deny the file operation.
If access is denied, the requesting application call will receive an
EPERM error.
Closing the fanotify file descriptor
When all file descriptors referring to the fanotify notification
group are closed, the fanotify group is released and its resources
are freed for reuse by the kernel. Upon close(2), outstanding per‐
mission events will be set to allowed.
/proc/[pid]/fdinfo
The file /proc/[pid]/fdinfo/[fd] contains information about fanotify
marks for file descriptor fd of process pid. See proc(5) for
details.
In addition to the usual errors for read(2), the following errors can
occur when reading from the fanotify file descriptor:
EINVAL The buffer is too small to hold the event.
EMFILE The per-process limit on the number of open files has been
reached. See the description of RLIMIT_NOFILE in
getrlimit(2).
ENFILE The system-wide limit on the total number of open files has
been reached. See /proc/sys/fs/file-max in proc(5).
ETXTBSY
This error is returned by read(2) if O_RDWR or O_WRONLY was
specified in the event_f_flags argument when calling
fanotify_init(2) and an event occurred for a monitored file
that is currently being executed.
In addition to the usual errors for write(2), the following errors
can occur when writing to the fanotify file descriptor:
EINVAL Fanotify access permissions are not enabled in the kernel
configuration or the value of response in the response
structure is not valid.
ENOENT The file descriptor fd in the response structure is not valid.
This may occur when a response for the permission event has
already been written.
The fanotify API was introduced in version 2.6.36 of the Linux kernel
and enabled in version 2.6.37. Fdinfo support was added in version
3.8.
The fanotify API is Linux-specific.
The fanotify API is available only if the kernel was built with the
CONFIG_FANOTIFY configuration option enabled. In addition, fanotify
permission handling is available only if the
CONFIG_FANOTIFY_ACCESS_PERMISSIONS configuration option is enabled.
Limitations and caveats
Fanotify reports only events that a user-space program triggers
through the filesystem API. As a result, it does not catch remote
events that occur on network filesystems.
The fanotify API does not report file accesses and modifications that
may occur because of mmap(2), msync(2), and munmap(2).
Events for directories are created only if the directory itself is
opened, read, and closed. Adding, removing, or changing children of
a marked directory does not create events for the monitored directory
itself.
Fanotify monitoring of directories is not recursive: to monitor
subdirectories under a directory, additional marks must be created.
(But note that the fanotify API provides no way of detecting when a
subdirectory has been created under a marked directory, which makes
recursive monitoring difficult.) Monitoring mounts offers the
capability to monitor a whole directory tree. Monitoring filesystems
offers the capability to monitor changes made from any mount of a
filesystem instance.
The event queue can overflow. In this case, events are lost.
Before Linux 3.19, fallocate(2) did not generate fanotify events.
Since Linux 3.19, calls to fallocate(2) generate FAN_MODIFY events.
As of Linux 3.17, the following bugs exist:
* On Linux, a filesystem object may be accessible through multiple
paths, for example, a part of a filesystem may be remounted using
the --bind option of mount(8). A listener that marked a mount
will be notified only of events that were triggered for a
filesystem object using the same mount. Any other event will pass
unnoticed.
* When an event is generated, no check is made to see whether the
user ID of the receiving process has authorization to read or
write the file before passing a file descriptor for that file.
This poses a security risk, when the CAP_SYS_ADMIN capability is
set for programs executed by unprivileged users.
* If a call to read(2) processes multiple events from the fanotify
queue and an error occurs, the return value will be the total
length of the events successfully copied to the user-space buffer
before the error occurred. The return value will not be -1, and
errno will not be set. Thus, the reading application has no way
to detect the error.
The two example programs below demonstrate the usage of the fanotify
API.
Example program: fanotify_example.c
The first program is an example of fanotify being used with its event
object information passed in the form of a file descriptor. The
program marks the mount point passed as a command-line argument and
waits for events of type FAN_OPEN_PERM and FAN_CLOSE_WRITE. When a
permission event occurs, a FAN_ALLOW response is given.
The following shell session shows an example of running this program.
This session involved editing the file /home/user/temp/notes. Before
the file was opened, a FAN_OPEN_PERM event occurred. After the file
was closed, a FAN_CLOSE_WRITE event occurred. Execution of the
program ends when the user presses the ENTER key.
# ./fanotify_example /home
Press enter key to terminate.
Listening for events.
FAN_OPEN_PERM: File /home/user/temp/notes
FAN_CLOSE_WRITE: File /home/user/temp/notes
Listening for events stopped.
Program source: fanotify_example.c
#define _GNU_SOURCE /* Needed to get O_LARGEFILE definition */
#include <errno.h>
#include <fcntl.h>
#include <limits.h>
#include <poll.h>
#include <stdio.h>
#include <stdlib.h>
#include <sys/fanotify.h>
#include <unistd.h>
/* Read all available fanotify events from the file descriptor 'fd' */
static void
handle_events(int fd)
{
const struct fanotify_event_metadata *metadata;
struct fanotify_event_metadata buf[200];
ssize_t len;
char path[PATH_MAX];
ssize_t path_len;
char procfd_path[PATH_MAX];
struct fanotify_response response;
/* Loop while events can be read from fanotify file descriptor */
for (;;) {
/* Read some events */
len = read(fd, (void *) &buf, sizeof(buf));
if (len == -1 && errno != EAGAIN) {
perror("read");
exit(EXIT_FAILURE);
}
/* Check if end of available data reached */
if (len <= 0)
break;
/* Point to the first event in the buffer */
metadata = buf;
/* Loop over all events in the buffer */
while (FAN_EVENT_OK(metadata, len)) {
/* Check that run-time and compile-time structures match */
if (metadata->vers != FANOTIFY_METADATA_VERSION) {
fprintf(stderr,
"Mismatch of fanotify metadata version.\n");
exit(EXIT_FAILURE);
}
/* metadata->fd contains either FAN_NOFD, indicating a
queue overflow, or a file descriptor (a nonnegative
integer). Here, we simply ignore queue overflow. */
if (metadata->fd >= 0) {
/* Handle open permission event */
if (metadata->mask & FAN_OPEN_PERM) {
printf("FAN_OPEN_PERM: ");
/* Allow file to be opened */
response.fd = metadata->fd;
response.response = FAN_ALLOW;
write(fd, &response,
sizeof(struct fanotify_response));
}
/* Handle closing of writable file event */
if (metadata->mask & FAN_CLOSE_WRITE)
printf("FAN_CLOSE_WRITE: ");
/* Retrieve and print pathname of the accessed file */
snprintf(procfd_path, sizeof(procfd_path),
"/proc/self/fd/%d", metadata->fd);
path_len = readlink(procfd_path, path,
sizeof(path) - 1);
if (path_len == -1) {
perror("readlink");
exit(EXIT_FAILURE);
}
path[path_len] = '\0';
printf("File %s\n", path);
/* Close the file descriptor of the event */
close(metadata->fd);
}
/* Advance to next event */
metadata = FAN_EVENT_NEXT(metadata, len);
}
}
}
int
main(int argc, char *argv[])
{
char buf;
int fd, poll_num;
nfds_t nfds;
struct pollfd fds[2];
/* Check mount point is supplied */
if (argc != 2) {
fprintf(stderr, "Usage: %s MOUNT\n", argv[0]);
exit(EXIT_FAILURE);
}
printf("Press enter key to terminate.\n");
/* Create the file descriptor for accessing the fanotify API */
fd = fanotify_init(FAN_CLOEXEC | FAN_CLASS_CONTENT | FAN_NONBLOCK,
O_RDONLY | O_LARGEFILE);
if (fd == -1) {
perror("fanotify_init");
exit(EXIT_FAILURE);
}
/* Mark the mount for:
- permission events before opening files
- notification events after closing a write-enabled
file descriptor */
if (fanotify_mark(fd, FAN_MARK_ADD | FAN_MARK_MOUNT,
FAN_OPEN_PERM | FAN_CLOSE_WRITE, AT_FDCWD,
argv[1]) == -1) {
perror("fanotify_mark");
exit(EXIT_FAILURE);
}
/* Prepare for polling */
nfds = 2;
/* Console input */
fds[0].fd = STDIN_FILENO;
fds[0].events = POLLIN;
/* Fanotify input */
fds[1].fd = fd;
fds[1].events = POLLIN;
/* This is the loop to wait for incoming events */
printf("Listening for events.\n");
while (1) {
poll_num = poll(fds, nfds, -1);
if (poll_num == -1) {
if (errno == EINTR) /* Interrupted by a signal */
continue; /* Restart poll() */
perror("poll"); /* Unexpected error */
exit(EXIT_FAILURE);
}
if (poll_num > 0) {
if (fds[0].revents & POLLIN) {
/* Console input is available: empty stdin and quit */
while (read(STDIN_FILENO, &buf, 1) > 0 && buf != '\n')
continue;
break;
}
if (fds[1].revents & POLLIN) {
/* Fanotify events are available */
handle_events(fd);
}
}
}
printf("Listening for events stopped.\n");
exit(EXIT_SUCCESS);
}
Example program: fanotify_fid.c
The second program is an example of fanotify being used with
FAN_REPORT_FID enabled. The program marks the filesystem object that
is passed as a command-line argument and waits until an event of type
FAN_CREATE has occurred. The event mask indicates which type of
filesystem object—either a file or a directory—was created. Once all
events have been read from the buffer and processed accordingly, the
program simply terminates.
The following shell sessions show two different invocations of this
program, with different actions performed on a watched object.
The first session shows a mark being placed on /home/user. This is
followed by the creation of a regular file, /home/user/testfile.txt.
This results in a FAN_CREATE event being generated and reported
against the file's parent watched directory object. Program execu‐
tion ends once all events captured within the buffer have been pro‐
cessed.
# ./fanotify_fid /home/user
Listening for events.
FAN_CREATE (file created):
Directory /home/user has been modified.
All events processed successfully. Program exiting.
$ touch /home/user/testfile.txt # In another terminal
The second session shows a mark being placed on /home/user. This is
followed by the creation of a directory, /home/user/testdir. This
specific action results in a FAN_CREATE event being generated and is
reported with the FAN_ONDIR flag set.
# ./fanotify_fid /home/user
Listening for events.
FAN_CREATE | FAN_ONDIR (subdirectory created):
Directory /home/user has been modified.
All events processed successfully. Program exiting.
$ mkdir -p /home/user/testdir # In another terminal
Program source: fanotify_fid.c
#define _GNU_SOURCE
#include <errno.h>
#include <fcntl.h>
#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/fanotify.h>
#include <unistd.h>
#define BUF_SIZE 256
int
main(int argc, char **argv)
{
int fd, ret, event_fd, mount_fd;
ssize_t len, path_len;
char path[PATH_MAX];
char procfd_path[PATH_MAX];
char events_buf[BUF_SIZE];
struct file_handle *file_handle;
struct fanotify_event_metadata *metadata;
struct fanotify_event_info_fid *fid;
if (argc != 2) {
fprintf(stderr, "Invalid number of command line arguments.\n");
exit(EXIT_FAILURE);
}
mount_fd = open(argv[1], O_DIRECTORY | O_RDONLY);
if (mount_fd == -1) {
perror(argv[1]);
exit(EXIT_FAILURE);
}
/* Create an fanotify file descriptor with FAN_REPORT_FID as a flag
so that program can receive fid events. */
fd = fanotify_init(FAN_CLASS_NOTIF | FAN_REPORT_FID, 0);
if (fd == -1) {
perror("fanotify_init");
exit(EXIT_FAILURE);
}
/* Place a mark on the filesystem object supplied in argv[1]. */
ret = fanotify_mark(fd, FAN_MARK_ADD | FAN_MARK_ONLYDIR,
FAN_CREATE | FAN_ONDIR,
AT_FDCWD, argv[1]);
if (ret == -1) {
perror("fanotify_mark");
exit(EXIT_FAILURE);
}
printf("Listening for events.\n");
/* Read events from the event queue into a buffer */
len = read(fd, (void *) &events_buf, sizeof(events_buf));
if (len == -1 && errno != EAGAIN) {
perror("read");
exit(EXIT_FAILURE);
}
/* Process all events within the buffer */
for (metadata = (struct fanotify_event_metadata *) events_buf;
FAN_EVENT_OK(metadata, len);
metadata = FAN_EVENT_NEXT(metadata, len)) {
fid = (struct fanotify_event_info_fid *) (metadata + 1);
file_handle = (struct file_handle *) fid->handle;
/* Ensure that the event info is of the correct type */
if (fid->hdr.info_type != FAN_EVENT_INFO_TYPE_FID) {
fprintf(stderr, "Received unexpected event info type.\n");
exit(EXIT_FAILURE);
}
if (metadata->mask == FAN_CREATE)
printf("FAN_CREATE (file created):\n");
if (metadata->mask == (FAN_CREATE | FAN_ONDIR))
printf("FAN_CREATE | FAN_ONDIR (subdirectory created):\n");
/* metadata->fd is set to FAN_NOFD when FAN_REPORT_FID is
enabled. To obtain a file descriptor for the file object
corresponding to an event you can use the struct file_handle
that's provided within the fanotify_event_info_fid in
conjunction with the open_by_handle_at(2) system call.
A check for ESTALE is done to accommodate for the situation
where the file handle for the object was deleted prior to
this system call. */
event_fd = open_by_handle_at(mount_fd, file_handle, O_RDONLY);
if (event_fd == -1) {
if (errno == ESTALE) {
printf("File handle is no longer valid. "
"File has been deleted\n");
continue;
} else {
perror("open_by_handle_at");
exit(EXIT_FAILURE);
}
}
snprintf(procfd_path, sizeof(procfd_path), "/proc/self/fd/%d",
event_fd);
/* Retrieve and print the path of the modified dentry */
path_len = readlink(procfd_path, path, sizeof(path) - 1);
if (path_len == -1) {
perror("readlink");
exit(EXIT_FAILURE);
}
path[path_len] = '\0';
printf("\tDirectory '%s' has been modified.\n", path);
/* Close associated file descriptor for this event */
close(event_fd);
}
printf("All events processed successfully. Program exiting.\n");
exit(EXIT_SUCCESS);
}
fanotify_init(2), fanotify_mark(2), inotify(7)
This page is part of release 5.08 of the Linux man-pages project. A
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latest version of this page, can be found at
https://www.kernel.org/doc/man-pages/.
Linux 2020-06-09 FANOTIFY(7)
Pages that refer to this page: fanotify_init(2) , fanotify_mark(2) , proc(5) , procfs(5) , inotify(7)
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