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   ioctl_ns    ( 2 )

ioctl () операции для пространств имен Linux (ioctl() operations for Linux namespaces)

Имя (Name)

ioctl_ns - ioctl() operations for Linux namespaces

Описание (Description)

Discovering namespace relationships
       The following ioctl(2) operations are provided to allow discovery
       of namespace relationships (see user_namespaces(7) and
       pid_namespaces(7)).  The form of the calls is:

new_fd = ioctl(fd, request);

In each case, fd refers to a /proc/[pid]/ns/* file. Both operations return a new file descriptor on success.

NS_GET_USERNS (since Linux 4.9) Returns a file descriptor that refers to the owning user namespace for the namespace referred to by fd.

NS_GET_PARENT (since Linux 4.9) Returns a file descriptor that refers to the parent namespace of the namespace referred to by fd. This operation is valid only for hierarchical namespaces (i.e., PID and user namespaces). For user namespaces, NS_GET_PARENT is synonymous with NS_GET_USERNS.

The new file descriptor returned by these operations is opened with the O_RDONLY and O_CLOEXEC (close-on-exec; see fcntl(2)) flags.

By applying fstat(2) to the returned file descriptor, one obtains a stat structure whose st_dev (resident device) and st_ino (inode number) fields together identify the owning/parent namespace. This inode number can be matched with the inode number of another /proc/[pid]/ns/{pid,user} file to determine whether that is the owning/parent namespace.

Either of these ioctl(2) operations can fail with the following errors:

EPERM The requested namespace is outside of the caller's namespace scope. This error can occur if, for example, the owning user namespace is an ancestor of the caller's current user namespace. It can also occur on attempts to obtain the parent of the initial user or PID namespace.

ENOTTY The operation is not supported by this kernel version.

Additionally, the NS_GET_PARENT operation can fail with the following error:

EINVAL fd refers to a nonhierarchical namespace.

See the EXAMPLES section for an example of the use of these operations.

Discovering the namespace type The NS_GET_NSTYPE operation (available since Linux 4.11) can be used to discover the type of namespace referred to by the file descriptor fd:

nstype = ioctl(fd, NS_GET_NSTYPE);

fd refers to a /proc/[pid]/ns/* file.

The return value is one of the CLONE_NEW* values that can be specified to clone(2) or unshare(2) in order to create a namespace.

Discovering the owner of a user namespace The NS_GET_OWNER_UID operation (available since Linux 4.11) can be used to discover the owner user ID of a user namespace (i.e., the effective user ID of the process that created the user namespace). The form of the call is:

uid_t uid; ioctl(fd, NS_GET_OWNER_UID, &uid);

fd refers to a /proc/[pid]/ns/user file.

The owner user ID is returned in the uid_t pointed to by the third argument.

This operation can fail with the following error:

EINVAL fd does not refer to a user namespace.


Ошибки (Error)

Any of the above ioctl() operations can return the following
       errors:

ENOTTY fd does not refer to a /proc/[pid]/ns/* file.


Стандарты (Conforming to)

Namespaces and the operations described on this page are a Linux-
       specific.

Примеры (Examples)

The example shown below uses the ioctl(2) operations described
       above to perform simple discovery of namespace relationships.
       The following shell sessions show various examples of the use of
       this program.

Trying to get the parent of the initial user namespace fails, since it has no parent:

$ ./ns_show /proc/self/ns/user p The parent namespace is outside your namespace scope

Create a process running sleep(1) that resides in new user and UTS namespaces, and show that the new UTS namespace is associated with the new user namespace:

$ unshare -Uu sleep 1000 & [1] 23235 $ ./ns_show /proc/23235/ns/uts u Device/Inode of owning user namespace is: [0,3] / 4026532448 $ readlink /proc/23235/ns/user user:[4026532448]

Then show that the parent of the new user namespace in the preceding example is the initial user namespace:

$ readlink /proc/self/ns/user user:[4026531837] $ ./ns_show /proc/23235/ns/user p Device/Inode of parent namespace is: [0,3] / 4026531837

Start a shell in a new user namespace, and show that from within this shell, the parent user namespace can't be discovered. Similarly, the UTS namespace (which is associated with the initial user namespace) can't be discovered.

$ PS1="sh2$ " unshare -U bash sh2$ ./ns_show /proc/self/ns/user p The parent namespace is outside your namespace scope sh2$ ./ns_show /proc/self/ns/uts u The owning user namespace is outside your namespace scope

Program source

/* ns_show.c

Licensed under the GNU General Public License v2 or later. */ #include <stdint.h> #include <stdlib.h> #include <unistd.h> #include <stdio.h> #include <fcntl.h> #include <string.h> #include <sys/stat.h> #include <sys/ioctl.h> #include <errno.h> #include <sys/sysmacros.h>

#ifndef NS_GET_USERNS #define NSIO 0xb7 #define NS_GET_USERNS _IO(NSIO, 0x1) #define NS_GET_PARENT _IO(NSIO, 0x2) #endif

int main(int argc, char *argv[]) { int fd, userns_fd, parent_fd; struct stat sb;

if (argc < 2) { fprintf(stderr, "Usage: %s /proc/[pid]/ns/[file] [p|u]\n", argv[0]); fprintf(stderr, "\nDisplay the result of one or both " "of NS_GET_USERNS (u) or NS_GET_PARENT (p)\n" "for the specified /proc/[pid]/ns/[file]. If neither " "'p' nor 'u' is specified,\n" "NS_GET_USERNS is the default.\n"); exit(EXIT_FAILURE); }

/* Obtain a file descriptor for the 'ns' file specified in argv[1]. */

fd = open(argv[1], O_RDONLY); if (fd == -1) { perror("open"); exit(EXIT_FAILURE); }

/* Obtain a file descriptor for the owning user namespace and then obtain and display the inode number of that namespace. */

if (argc < 3 || strchr(argv[2], 'u')) { userns_fd = ioctl(fd, NS_GET_USERNS);

if (userns_fd == -1) { if (errno == EPERM) printf("The owning user namespace is outside " "your namespace scope\n"); else perror("ioctl-NS_GET_USERNS"); exit(EXIT_FAILURE); }

if (fstat(userns_fd, &sb) == -1) { perror("fstat-userns"); exit(EXIT_FAILURE); } printf("Device/Inode of owning user namespace is: " "[%jx,%jx] / %ju\n", (uintmax_t) major(sb.st_dev), (uintmax_t) minor(sb.st_dev), (uintmax_t) sb.st_ino);

close(userns_fd); }

/* Obtain a file descriptor for the parent namespace and then obtain and display the inode number of that namespace. */

if (argc > 2 && strchr(argv[2], 'p')) { parent_fd = ioctl(fd, NS_GET_PARENT);

if (parent_fd == -1) { if (errno == EINVAL) printf("Can' get parent namespace of a " "nonhierarchical namespace\n"); else if (errno == EPERM) printf("The parent namespace is outside " "your namespace scope\n"); else perror("ioctl-NS_GET_PARENT"); exit(EXIT_FAILURE); }

if (fstat(parent_fd, &sb) == -1) { perror("fstat-parentns"); exit(EXIT_FAILURE); } printf("Device/Inode of parent namespace is: [%jx,%jx] / %ju\n", (uintmax_t) major(sb.st_dev), (uintmax_t) minor(sb.st_dev), (uintmax_t) sb.st_ino);

close(parent_fd); }

exit(EXIT_SUCCESS); }


Смотри также (See also)

fstat(2), ioctl(2), proc(5), namespaces(7)