| ACL(5) | File Formats Manual | ACL(5) |
acl — Access
Control Lists
This manual page describes POSIX Access Control Lists, which are used to define more fine-grained discretionary access rights for files and directories.
Every object can be thought of as having associated with it an ACL that governs the discretionary access to that object; this ACL is referred to as an access ACL. In addition, a directory may have an associated ACL that governs the initial access ACL for objects created within that directory; this ACL is referred to as a default ACL.
An ACL consists of a set of ACL entries. An ACL entry specifies the access permissions on the associated object for an individual user or a group of users as a combination of read, write and search/execute permissions.
An ACL entry contains an entry tag type, an optional entry tag qualifier, and a set of permissions. We use the term qualifier to denote the entry tag qualifier of an ACL entry.
The qualifier denotes the identifier of a user or a group, for entries with tag types of ACL_USER or ACL_GROUP, respectively. Entries with tag types other than ACL_USER or ACL_GROUP have no defined qualifiers.
The following entry tag types are defined:
When an access check is performed, the ACL_USER_OBJ and ACL_USER entries are tested against the effective user ID. The effective group ID, as well as all supplementary group IDs are tested against the ACL_GROUP_OBJ and ACL_GROUP entries.
A valid ACL contains exactly one entry with each of the ACL_USER_OBJ, ACL_GROUP_OBJ, and ACL_OTHER tag types. Entries with ACL_USER and ACL_GROUP tag types may appear zero or more times in an ACL. An ACL that contains entries of ACL_USER or ACL_GROUP tag types must contain exactly one entry of the ACL_MASK tag type. If an ACL contains no entries of ACL_USER or ACL_GROUP tag types, the ACL_MASK entry is optional.
All user ID qualifiers must be unique among all entries of ACL_USER tag type, and all group IDs must be unique among all entries of ACL_GROUP tag type.
The
acl_get_file()
function returns an ACL with zero ACL entries as the default ACL of a
directory, if the directory is not associated with a default ACL. The
acl_set_file()
function also accepts an ACL with zero ACL entries as a valid default ACL
for directories, denoting that the directory shall not be associated with a
default ACL. This is equivalent to using the
acl_delete_def_file()
function.
The permissions defined by ACLs are a superset of the permissions specified by the file permission bits.
There is a correspondence between the file owner, group, and other permissions and specific ACL entries: the owner permissions correspond to the permissions of the ACL_USER_OBJ entry. If the ACL has an ACL_MASK entry, the group permissions correspond to the permissions of the ACL_MASK entry. Otherwise, if the ACL has no ACL_MASK entry, the group permissions correspond to the permissions of the ACL_GROUP_OBJ entry. The other permissions correspond to the permissions of the ACL_OTHER entry.
The file owner, group, and other permissions always match the permissions of the corresponding ACL entry. Modification of the file permission bits results in the modification of the associated ACL entries, and modification of these ACL entries results in the modification of the file permission bits.
The access ACL of a file object is initialized when the object is
created with any of the
creat(),
mkdir(),
mknod(),
mkfifo(),
or
open()
functions. If a default ACL is associated with a directory, the
mode parameter to the functions creating file objects
and the default ACL of the directory are used to determine the ACL of the
new object:
If no default ACL is associated with a directory, the mode parameter to the functions creating file objects and the file creation mask (see umask(2)) are used to determine the ACL of the new object:
A process may request read, write, or execute/search access to a file object protected by an ACL. The access check algorithm determines whether access to the object will be granted.
else access is denied.
else access is denied.
else access is denied.
else access is denied.
A long and a short text form for representing ACLs is defined. In both forms, ACL entries are represented as three colon separated fields: an ACL entry tag type, an ACL entry qualifier, and the discretionary access permissions. The first field contains one of the following entry tag type keywords:
useruser ACL entry specifies the access granted to
either the file owner (entry tag type ACL_USER_OBJ) or a specified user
(entry tag type ACL_USER).groupgroup ACL entry specifies the access granted to
either the file group (entry tag type ACL_GROUP_OBJ) or a specified group
(entry tag type ACL_GROUP).maskmask ACL entry specifies the maximum access
which can be granted by any ACL entry except the
user entry for the file owner and the
other entry (entry tag type ACL_MASK).otherother ACL entry specifies the access granted to
any process that does not match any user or
group ACL entries (entry tag type ACL_OTHER).The second field contains the user or group identifier of the user or group associated with the ACL entry for entries of entry tag type ACL_USER or ACL_GROUP, and is empty for all other entries. A user identifier can be a user name or a user ID number in decimal form. A group identifier can be a group name or a group ID number in decimal form.
The third field contains the discretionary access permissions. The
read, write and search/execute permissions are represented by the
r, w, and
x characters, in this order. Each of these
characters is replaced by the - character to denote
that a permission is absent in the ACL entry. When converting from the text
form to the internal representation, permissions that are absent need not be
specified.
White space is permitted at the beginning and end of each ACL entry, and immediately before and after a field separator (the colon character).
The long text form contains one ACL entry per line. In addition, a
number sign (#) may start a comment that extends
until the end of the line. If an ACL_USER, ACL_GROUP_OBJ or ACL_GROUP ACL
entry contains permissions that are not also contained in the ACL_MASK
entry, the entry is followed by a number sign, the string
“effective:”, and the effective access permissions defined by
that entry. This is an example of the long text form:
user::rw- user:lisa:rw- #effective:r-- group::r-- group:toolies:rw- #effective:r-- mask::r-- other::r--
The short text form is a sequence of ACL entries separated by
commas, and is used for input. Comments are not supported. Entry tag type
keywords may either appear in their full unabbreviated form, or in their
single letter abbreviated form. The abbreviation for
user is u, the abbreviation
for group is g, the
abbreviation for mask is m,
and the abbreviation for other is
o. The permissions may contain at most one each of
the following characters in any order: r,
w, x. These are examples of
the short text form:
u::rw-,u:lisa:rw-,g::r--,g:toolies:rw-,m::r--,o::r-- g:toolies:rw,u:lisa:rw,u::wr,g::r,o::r,m::r
IEEE 1003.1e draft 17 defines Access Control Lists that include entries of tag type ACL_MASK, and defines a mapping between file permission bits that is not constant. The standard working group defined this relatively complex interface in order to ensure that applications that are compliant with IEEE 1003.1 (“POSIX.1”) will still function as expected on systems with ACLs. The IEEE 1003.1e draft 17 contains the rationale for choosing this interface in section B.23.
On a system that supports ACLs, the file utilities ls(1), cp(1), and mv(1) change their behavior in the following way:
ls -l displays a plus sign
(+) after the permission string.-p flag is specified, the
cp(1) utility also preserves ACLs. If this is not
possible, a warning is produced.The effect of the chmod(1) utility, and of the chmod(2) system call, on the access ACL is described in CORRESPONDENCE BETWEEN ACL ENTRIES AND FILE PERMISSION BITS.
The IEEE 1003.1e draft 17 (“POSIX.1e”) document describes several security extensions to the IEEE 1003.1 standard. While the work on 1003.1e has been abandoned, many UNIX style systems implement parts of POSIX.1e draft 17, or of earlier drafts.
Linux Access Control Lists implement the full set of functions and
utilities defined for Access Control Lists in POSIX.1e, and several
extensions. The implementation is fully compliant with POSIX.1e draft 17;
extensions are marked as such. The Access Control List manipulation
functions are defined in the ACL library (libacl, -lacl). The POSIX
compliant interfaces are declared in the
<sys/acl.h> header. Linux-specific extensions
to these functions are declared in the
<acl/libacl.h> header.
chmod(1), creat(2), getfacl(1), ls(1), mkdir(2), mkfifo(2), mknod(2), mount(8), open(2), setfacl(1), stat(2), umask(1)
acl_add_perm(3), acl_calc_mask(3), acl_clear_perms(3), acl_delete_perm(3), acl_get_permset(3), acl_set_permset(3)
acl_get_qualifier(3), acl_get_tag_type(3), acl_set_qualifier(3), acl_set_tag_type(3)
The first group of functions is supported on most systems with POSIX-like access control lists, while the second group is supported on fewer systems. For applications that will be ported the second group is best avoided.
acl_delete_def_file(3), acl_dup(3), acl_free(3), acl_from_text(3), acl_get_fd(3), acl_get_file(3), acl_init(3), acl_set_fd(3), acl_set_file(3), acl_to_text(3), acl_valid(3)
acl_add_perm(3), acl_calc_mask(3), acl_clear_perms(3), acl_copy_entry(3), acl_copy_ext(3), acl_copy_int(3), acl_create_entry(3), acl_delete_entry(3), acl_delete_perm(3), acl_get_entry(3), acl_get_permset(3), acl_get_qualifier(3), acl_get_tag_type(3), acl_set_permset(3), acl_set_qualifier(3), acl_set_tag_type(3), acl_size(3)
These non-portable extensions are available on Linux systems.
acl_check(3), acl_cmp(3), acl_entries(3), acl_equiv_mode(3), acl_error(3), acl_extended_fd(3), acl_extended_file(3), acl_extended_file_nofollow(3), acl_from_mode(3), acl_get_perm(3), acl_to_any_text(3)
Andreas Gruenbacher, <andreas.gruenbacher@gmail.com>
| March 23, 2002 | Linux ACL |