hpux man page for acl

acl(5)								File Formats Manual							    acl(5)

NAME
       acl - introduction to HFS access control lists

DESCRIPTION
       Access  control	lists  are  a  key enforcement mechanism of discretionary access control (see Definitions below), for specifying access to
       files by users and groups more selectively than traditional HP-UX mechanisms allow.

       HP-UX already enables nonprivileged users or processes, such as file owners, to allow or deny other users access to files and other objects
       on a "need to know" basis, as determined by their user and/or group identity (see passwd(4) and group(4)).  This level of control is accom-
       plished by setting or manipulating a file's permission bits to grant or restrict access by owner, group, and others (see chmod(2)).

       ACLs offer a greater degree of selectivity than permission bits.  ACLs allow the file owner or superuser to permit or deny access to a list
       of users, groups, or combinations thereof.

       ACLs  are  supported  as  a superset of the UNIX operating system discretionary access control (DAC) mechanism for files, but not for other
       objects such as inter-process communication (IPC) objects.

       This manual page describes ACLs as implemented on HFS file systems only.  See aclv(5) for a description of ACLs in JFS file systems.

   Definitions
       Because control of access to data is a key concern of computer security, we provide the following definitions, based on	those  of  the	to
       explain further both the concepts of access control and its relevance to HP-UX security features:

	      "A specific type of interaction between a subject and an object that
			     results  in  the  flow  of information from one to the other."  Subjects include "persons, processes, or devices that
			     cause information to flow among objects or change the system state."  Objects include files (ordinary files, directo-
			     ries, special files, FIFOs, etc.) and inter-process communication (IPC) features (shared memory, message queues, sem-
			     aphores, sockets).

	      An	     access control list is a set of (user.group, mode) entries associated with a file that specify  permissions  for  all
			     possible user-ID/group-ID combinations.

	      An entry in an ACL that specifies access rights for one user and group ID combination.

	      The right to alter
			     DAC information (permission bits or ACL entries).	Change permission is granted to object (file) owners and to privi-
			     leged users.

	      "A means of restricting access to objects based on the identity of
			     subjects and/or groups to which they belong.  The controls are discretionary in the sense that a subject with a  cer-
			     tain access permission is capable of passing that permission (perhaps indirectly) to any other subject."

	      Three bits in each ACL entry which represent read, write, and
			     execute/search  permissions.   These bits may exist in addition to the 16 mode bits associated with every file in the
			     file system (see glossary(9)).

	      The ability to ignore access restrictions and change restrictions
			     imposed by security policy and implemented in an access control mechanism.  In HP-UX, superusers and members of  cer-
			     tain groups (see privgrp(4)) are the only privileged users.

	      An individual ACL entry is considered restrictive or permissive,
			     depending	on  context.  Restrictive entries deny a user and/or group access that would otherwise be granted by less-
			     specific base or optional ACL entries (see below).  Permissive entries grant a user and/or group  access  that  would
			     otherwise be denied by less-specific base or optional ACL entries.

   Access Control List Entries
       An  access  control  list (ACL) consists of sets of (user.group, mode) entries associated with a file that specify permissions.	Each entry
       specifies for one user-ID/group-ID combination a set of access permissions, including read, write, and execute/search.

       To help understand the relationship between access control lists and traditional file permissions, consider the following file and its per-
       missions:

       In an ACL, user and group IDs can be represented by names or numbers, found in The following special symbols can also be used:

	      Symbol representing no specific user or group.
	      Symbol representing the current file owner or group.

   Base ACL Entries
       When  a	file  is created, three base access control list entries are mapped from the file's access permission bits to match a file's owner
       and group and its traditional permission bits.  Base ACL entries can be changed by the chmod(2) and setacl(2) system calls.

	      (uid.%,mode)    Base ACL entry for the file's owner
	      (%.gid,mode)    Base ACL entry for the file's group
	      (%.%,mode)      Base entry for other users

       (Except where noted, examples are represented in short form notation. See below.)

   Optional ACL entries
       Optional access control list entries contain additional access control information, which the user can set with the setacl(2)  system  call
       to further allow or deny file access.  Up to thirteen additional user/group combinations can be specified.

       For example, the following optional access control list entries can be associated with our file:

	      (mary.admin, rwx)     Grant read, write, and execute access to user mary in group admin.

	      (george.%, ---)	    Deny any access to user george in no specific group.

   ACL Notation
       Supported library calls and commands that manage ACLs recognize three different symbolic representations:

       operator form  For input of entire ACLs and modifications to existing ACLs, in a syntax similar to that used by chmod(1).

       short form     Easier  to  read,  intended  primarily for output.  chacl(1) accepts this form as input so that it can interpret output from
		      lsacl(1).

       long form      A multi-line format useful for greater clarity, and supported only for output.

       For our example file, the base ACL entries could be represented in the three notations as follows:

	      operator form  james.% = rwx, %.admin = rx, %.% = r

	      short form     (james.%,rwx) (%.admin,r-x) (%.%,r--)

	      long form      rwx  james.%
			     r-x  %.admin
			     r--  %.%

       In addition to basic ACL usage, some library calls and commands understand and use a variation of operator and short forms.  See  the  sec-
       tion below on

   ACL Uniqueness
       Entries	are unique in each ACL.  There can only be one (u.g, mode) entry for any pair of u and g values; one (u.%, mode) entry for a given
       value of u; one (%.g, mode) entry for a given value of g; and one (%.%, mode) entry for each file.  For example, an ACL can have a  (23.14,
       mode) entry and a (23.%, mode) entry, but not two (23.14, mode) entries or two (23.%, mode) entries.

   Access Check Algorithm
       ACL entries can be categorized by four levels of specificity.  In access checking, ACLs are compared to the effective user and group IDs in
       this order:

	      (u.g, rwx)     specific user, specific group
	      (u.%, rwx)     specific user, no specific group
	      (%.g, rwx)     no specific user, specific group
	      (%.%, rwx)     no specific user, no specific group

       Once an entry for the combination of a process effective user ID and effective group ID (or any supplementary group ID) is matched, no fur-
       ther  (that is, less specific) entries are checked.  More specific entries that match take precedence over any less specific ones that also
       match.

       If a process has more than one group ID (that is, a non-null supplementary groups list), more than one (u.g, mode)  or  (%.g,  mode)  entry
       might  apply  for  that	process.   If so, the access modes in all matching entries (of the same level of specificity, u.g or %.g) are OR'd
       together.  Access is granted if the resulting mode bits allow it.  Since entries are unique, the order of entries in  each  entry  type	is
       insignificant.

       Because the traditional UNIX permission bits are mapped into base ACL entries, they are included in access checks.

       If  a  request is made for more than one type of access, such as opening a file for both reading and writing, access is granted only if the
       process is allowed all requested types of access.  Note that access can be granted if the process has two groups in its groups list, one of
       which  is  only	allowed read access, and the other of which is only allowed write access.  In other words, even if the requested access is
       not granted by any one entry, it may be granted by a combination of entries due to the process belonging to several groups.

   Operator Form of ACLs (input only)
       user. group operator mode [ operator mode ]... , ...

       Multiple entries are separated by commas, as in chmod(1).  Each entry consists of a user identifier and group identifier followed by one or
       more operators and mode characters, as in the mode syntax accepted by chmod(1).

       The  entire  ACL must be a single argument, and thus should be quoted to the shell if it contains whitespace or special characters.  White-
       space is ignored except within names.  A null ACL is legitimate, and means either "no access" or "no changes", depending on context.

       Each user or group ID may be represented by:

       name	      Valid user or group name.
       number	      Valid numeric ID value.
       "No specific user or group," as appropriate.
       "Current file owner or group," as appropriate;
		      useful for referring to a file's u.% and %.g base ACL entries.

       An operator is always required in each entry.  Operators are:

       Set all bits in the entry to the given mode value.
       Set the indicated mode bits in the entry.
       Clear the indicated mode bits in the entry.

       The mode is represented by an octal value of through or any combination of and can be given in any order (see below).  A null  mode  denies
       access if the operator is or represents "no change" if the operator is or

       Multiple  entries  and  multiple operator-mode parts in an entry are applied in the order specified.  Conflicts do not result in error; the
       last specified entry or operator takes effect.  Entries need not appear in any particular order.

       Note that chmod(1) allows only or to refer symbolically to the file owner, group, other, or all users, respectively.  Since ACLs work  with
       arbitrary user and group identifiers, @ is provided as a convenience.

       The exact syntax is:

	      acl  ::=	[entry[,entry]...]
	      entry  ::=  id . id op mode [op mode]...
	      id  ::=  name | number | % | @
	      op  ::=  = | + | -
	      mode  ::=  0..7 | [char[char]...]
	      char  ::=  r | w | x

   Short Form of ACLs (input and output)
       (user . group, mode) ...

       Short form differs from operator form in several ways:

       o      Entries are surrounded by parentheses rather than being separated by commas.

       o      Each  entry  specifies the mode, including all mode bits.  It is not possible to change the mode value with and operators.  However,
	      the comma functions like the operator in operator form.

       o      For clarity, hyphens represent unset permission bits in the output of the mode field and are allowed in input.  This  resembles  the
	      mode output style used by ls(1).

       Multiple entries are concatenated.  For consistency with operator form, a dot (.)  is used to separate user and group IDs.

       On  output,  no	whitespace  is printed except in names (if any).  ID numbers are printed if no matching names are known.  Either ID can be
       printed as for "no specific user or group."  The mode is represented as <r|-><w|-><x|->, that is, it always has	three  characters,  padded
       with  hyphens  for  unset  mode bits.  If the ACL is read from the system, entries are ordered by specificity, then by numeric values of ID
       parts.

       On input, the entire ACL must be a single argument, and thus should be quoted to the shell if it contains whitespace or special characters.
       Whitespace is ignored except within names.  A null ACL is legitimate, and means either "no access" or "no changes", depending on context.

       User and group IDs are represented as in operator form.

       The  mode  is  represented  by an octal value of through or any combination of and (ignored) can be given in any order (see below).  A null
       mode denies access.

       Redundancy does not result in error; the last entry for any user-ID/group-ID combination takes effect.  Entries need not appear in any par-
       ticular order.

       The exact syntax is:

	      acl  ::=	[entry[entry]...]
	      entry  ::=  (id.id,mode)
	      id  ::=  name | number | % | @
	      mode  ::=  0..7 | [char[char]...]
	      char  ::=  r | w | x | -

   Long Form of ACLs (output only)
       mode user . group

       Each  entry  occupies a single line of output.  The mode appears first in a fixed-width field, using hyphens (for unset mode bits) for easy
       vertical scanning.  Each user and group ID is shown as a name if known, a number if unknown, or for "no specific user or  group."   Entries
       are ordered from most to least specific, then by numeric values of ID parts.

       Note that every ACL printed has at least three entries, the base ACL entries (that is, uid.%, %.gid, and %.%).

       The exact syntax is:

	      acl  ::=	entry[<newline>entry]...
	      entry  ::=  mode<space>id.id
	      mode  ::=  <r|-><w|-><x|->
	      id  ::=  name | number | %

   ACL Patterns
       Some library calls and commands recognize and use ACL patterns instead of exact ACLs to allow operations on all entries that match the pat-
       terns.  ACL syntax is extended in the following ways:

       wildcard user and group IDs
		      A user or group name of (wildcard) matches the user or group ID in any entry, including (no specific user or group).

       mode bits on, off, or ignored
		      For operator-form input, the operators and are applied as follows:

		      entry mode value matches this mode value exactly
		      these bits turned on in entry mode value
		      these bits turned off in entry mode value

		      When only and operators are used, commands ignore the values of unspecified mode bits.

		      Short-form patterns treat the mode identically to the operator in operator form.

       wildcard mode values
		      A mode of (wildcard) in operator or short form input (for example, "ajs.%=*" or "(ajs.%,*)") matches any	mode  value,  pro-
		      vided  no other mode value is given in a operator-form entry.  Also, the mode part of an entry can be omitted altogether for
		      the same effect.

       entries not combined
		      Entries with matching user and group ID values are not combined.	Each entry specified is  applied  separately  by  commands
		      that accept patterns.

   ACL Operations Supported
       The  system  calls  setacl(2)  and getacl(2) allow setting or getting the entire ACL for a file in the form of an array of acl_entry struc-
       tures.  To check access rights to a file, see access(2) and getaccess(2).

       Various library calls are provided to manage ACLs:

       acltostr(3C)	 Convert acl_entry arrays to printable strings.

       strtoacl(3C)	 Parse and convert ACL strings to acl_entry arrays.

       strtoaclpat(3C)	 Parse and convert ACL pattern strings to acl_entry_patt arrays.

       setaclentry(3C)
       fsetaclentry	 Add, modify, or delete a single ACL entry in one file's ACL.

       cpacl(3C)
       fcpacl		 Copy an ACL and file miscellaneous mode bits (see chmod(2)) from one file to another, transfer ownership if  needed  (see
			 below), and handle remote files correctly.

       chownacl(3C)	 Change the file owner and/or group represented in an ACL, that is, transfer ownership (see below).

       The following commands are available to manage ACLs and permissions:

       chacl(1) 	 Add,  modify,	or  delete  individual	entries or all optional entries in ACLs on one or more files, remove all access to
			 files, or incorporate ACLs into permission bits.

       lsacl(1) 	 List ACLs on files.

       chmod(1) 	 Change permission bits and other file miscellaneous mode bits.

       ls(1)		 In long form, list permission bits and other file attributes.

       find(1)		 Find files according to their attributes, including ACLs.

       getaccess(1)	 List access rights to file(s).

   ACL Interaction with stat, chmod, and chown
       stat    The st_mode field summarizes the caller's access rights to the file.  It differs from file permission bits only if the file has one
	       or  more  optional entries applicable to the caller.  The st_basemode field provides the file's actual permission bits.	The st_acl
	       field indicates the presence of optional ACL entries in the file's ACL.

	       The st_mode field contains a user-dependent summary, so that programs ignorant of ACLs that  use  stat(2)  and  chmod(2)  are  more
	       likely  to produce expected results, and so that stat(2) provides reasonable information about remote files over NFS.  The st_base-
	       mode and st_acl fields are useful only for local files.

       chmod   For conformance with IEEE Standard POSIX 1003.1-1988, chmod(2) deletes any optional entries in a file's ACL.  Unfortunately,  since
	       chmod(2) is used to set file miscellaneous mode bits as well as permission bits, extra effort is required in some cases to preserve
	       a file's ACL.

       chown   If the new owner and/or group of a file does not already have an optional (u.%, mode) and/or (%.g, mode) entry in the  file's  ACL,
	       it inherits the old owner's and/or group's file access permission bits and base ACL entry:

		   (id1,mode1) -> (id2,mode1)

	       This  is  the  traditional  behavior.   However, if the new owner and/or group of a file already has an optional (u.%, mode) and/or
	       (%.g, mode) entry in the file's ACL, the ACL does not change:

		   (id1, mode1) -> (id1, mode1)
		   (id2, mode2) -> (id2, mode2)

	       Existing access information in the ACL is preserved.  However, because the old optional ACL entry becomes the new  base	ACL  entry
	       and vice versa, the file's access permission bits change.

	       Transferring  ownership	of ACLs by chown(2) allows a file to be transferred to a different user or group, or copied by a different
	       user or group than the owner (using cpacl(3C) or chownacl(3C)), and later returned to the  original  owner  or  group  without  net
	       changes to its ACL.  The extra complexity is necessary because:

	       o    ACLs  are a backward-compatible superset of permission bits (which are coupled to file owner and group IDs), not a replacement
		    for them.

	       o    it enables users and programs that deal with ACLs to do so simply, rather than with a combination of permission bits  and  ACL
		    entries.   Also,  the  access  check algorithm is simpler and more symmetrical; permission bits do not "eclipse" or "mask" ACL
		    entries.

EXAMPLES
   Operator Form
       The following sets the entry to restrict "other" users to only reading the file.

       The following allows user "bill" in any group to write the file, assuming that no restrictive entry is more specific than  the  entry  (for
       example, a entry that denies writing).

       The following ACL specification contains two entries.  The first one deletes write and adds read capability to the entry for user 12, group
       4.  The second entry denies access for any unspecified user in any unspecified group.

       The following pair of entries sets the u.% entry for the file's owner to allow both read and execute and results in adding write  and  exe-
       cute capabilities for "other" users (the "%.%" entry).  Note that a mode character is purposely repeated for illustration purposes.

   Short Form
       Here  is a typical ACL as it might be printed.  It allows user to read or execute the file while in group it denies user access to the file
       while in group it allows user in any group (except to only read the file; any other user in group may read or execute  the  file;  and  any
       other user may only read the file.

       The following allows "other" users to only read the file.

       The following sets write-only access for user in any group.

       The following sets the entry for user 12 in group 4 to allow read and write.

       The  following  sets  the  base	ACL entry for the file's owner to allow both read and execute, and sets write and execute capabilities for
       "other" users (the "%.%" entry).

   Long Form
       Here is the same ACL as in an earlier example, printed in long form.

	      r-x  jpc.adm
	      ---  ajs.trux
	      r--  jpc.%
	      r-x  %.bin
	      r--  %.%

   ACL Patterns
       The following command locates files whose ACLs contain an entry that allows read access and denies write access to some user/group combina-
       tion.

       The  following  matches entries for any user in group and for user in any group, regardless of the entries' mode values.  Matching optional
       ACL entries are deleted and mode values in matching base ACL entries are set to zero:

       The following matches all entries, deleting optional entries and setting mode values of base ACL entries to zero:

HEADERS
   Header <sys/acl.h>
       The header file defines the following constants to govern the numbers of entries per ACL:

	      maximum number of entries per ACL, including base entries
	      number of base entries
	      number of optional entries

       The ACL entry structure is also defined, and includes the following members:

	      aclid_t	 uid;	  /* user ID */
	      aclid_t	 gid;	  /* group ID */
	      aclmode_t  mode;	  /* see <unistd.h> */

       The header also defines the types and

       Non-specific user and group ID values:

	      non-specific user ID
	      non-specific group ID

       A special nentries value is used with setacl(2) to delete optional entries.

   Header <sys/getaccess.h>
       The header defines constants for use with getaccess(2).

       Special parameter values for uid:

	      use effective user ID
	      use real user ID
	      use saved user ID

       Special parameter values for ngroups:

	      process's effective gid
	      process's real gid
	      process's saved gid
	      process's supplementary groups only
	      process's eff gid plus supp groups
	      process's real gid plus supp groups
	      process's saved gid plus supp groups

   Header <acllib.h>
       The header file defines several constants for use with ACL support library calls.

       Symbolic forms of ACLs for acltostr():

       Magic values for various calls:

	  ACL_FILEOWNER   file's owner ID
	  ACL_FILEGROUP   file's group ID
	  ACL_ANYUSER	  wildcard user ID
	  ACL_ANYGROUP	  wildcard group ID
	  MODE_DEL	  delete one ACL entry

       Mask for valid mode bits in ACL entries:

       The header also defines the ACL pattern entry structure, which includes the following members:

	      aclid_t	    uid;       /* user ID */
	      aclid_t	    gid;       /* group ID */
	      aclmode_t     onmode;    /* mode bits that must be on */
	      aclmode_t     offmode;   /* mode bits that must be off */

WARNINGS
       ACLs are intended for use on ordinary files and directories.  Optional ACL entries are not recommended on files	that  are  manipulated	by
       certain	system	utilities,  such as terminal special files and LP scheduler control files.  These utilities might delete optional entries,
       including those whose intent is restrictive, without warning as a consequence of calling chmod(2), thereby increasing access unexpectedly.

       Most, but not all, supported utilities are able to handle ACLs correctly.  However, only the  fbackup(1M)  and  frecover(1M)  file  archive
       utilities  handle  access  control  lists  properly.   When  using  programs (such as archive programs ar(1), cpio(1), ftio(1), tar(1), and
       dump(1M)) unable to handle ACLs on files with optional ACL entries, note the Access Control List information included on  their	respective
       reference pages, to avoid loss of data.

       If  a user name is defined in the file or a group name is defined in the file as or @, or for patterns, *, ACL syntax cannot reference that
       name as itself because the symbols have other meanings.	However, such users or groups can still be referenced by their ID  numbers.   User
       and/or group names must not include the following characters:

	      Do not use in user names.
	      Do not use in group names.
	      Do not use in group names.
	      Do not use for operator form input of group names.
	      Do not use for short form or for operator form patterns.
	      Do not use for short form patterns.

       It  is  possible  to  specify an ACL pattern using the @ (file owner or group) or (wildcard) symbols so that it cannot match certain files,
       perhaps depending on their ownership, by giving two entries, one with specific values and the other using @ or which are equivalent  for  a
       file but contain different mode values.	For example:

       cannot match a file owned by

DEPENDENCIES
       NFS  NFS does not support ACLs on remote files.	Individual manual entries specify the behavior of various system calls, library calls, and
	    commands under these circumstances.  Be careful when transferring a file with optional entries over a network or when  manipulating  a
	    remote file because optional entries may be silently deleted.

AUTHOR
       The access control list design described here was developed by HP.

FILES
       Header file that supports   setacl(2) and getacl(2).
       Header file that supports   getaccess(2).
       Header file that supports   ACL library calls.
       Defines user names and user and group
				   ID values.
       Defines group names.

SEE ALSO
       chacl(1),  chmod(1),  cp(1),  find(1),  getaccess(1),  ln(1),  ls(1), lsacl(1), mv(1), rm(1), fbackup(1M), frecover(1M), fsck(1M), fsdb(1M)
       access(2), chmod(2), chown(2), creat(2), getaccess(2),  getacl(2),  mknod(2),  open(2),	setacl(2),  stat(2),  acltostr(3C),  chownacl(3C),
       cpacl(3C), setaclentry(3C), strtoacl(3C), group(4), passwd(4), privgrp(4), aclv(5).

																	    acl(5)