4 * The contents of this file are subject to the terms of the
5 * Common Development and Distribution License (the "License").
6 * You may not use this file except in compliance with the License.
8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9 * or http://www.opensolaris.org/os/licensing.
10 * See the License for the specific language governing permissions
11 * and limitations under the License.
13 * When distributing Covered Code, include this CDDL HEADER in each
14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15 * If applicable, add the following below this CDDL HEADER, with the
16 * fields enclosed by brackets "[]" replaced with your own identifying
17 * information: Portions Copyright [yyyy] [name of copyright owner]
22 * Copyright (c) 2005, 2010, Oracle and/or its affiliates. All rights reserved.
26 #include <sys/types.h>
27 #include <sys/param.h>
29 #include <sys/systm.h>
30 #include <sys/sysmacros.h>
31 #include <sys/resource.h>
33 #include <sys/vnode.h>
38 #include <sys/cmn_err.h>
39 #include <sys/errno.h>
40 #include <sys/unistd.h>
42 #include <sys/fs/zfs.h>
44 #include <sys/policy.h>
45 #include <sys/zfs_znode.h>
46 #include <sys/zfs_fuid.h>
47 #include <sys/zfs_acl.h>
48 #include <sys/zfs_dir.h>
49 #include <sys/zfs_vfsops.h>
51 #include <sys/dnode.h>
54 #include "fs/fs_subr.h"
56 #define ALLOW ACE_ACCESS_ALLOWED_ACE_TYPE
57 #define DENY ACE_ACCESS_DENIED_ACE_TYPE
58 #define MAX_ACE_TYPE ACE_SYSTEM_ALARM_CALLBACK_OBJECT_ACE_TYPE
59 #define MIN_ACE_TYPE ALLOW
61 #define OWNING_GROUP (ACE_GROUP|ACE_IDENTIFIER_GROUP)
62 #define EVERYONE_ALLOW_MASK (ACE_READ_ACL|ACE_READ_ATTRIBUTES | \
63 ACE_READ_NAMED_ATTRS|ACE_SYNCHRONIZE)
64 #define EVERYONE_DENY_MASK (ACE_WRITE_ACL|ACE_WRITE_OWNER | \
65 ACE_WRITE_ATTRIBUTES|ACE_WRITE_NAMED_ATTRS)
66 #define OWNER_ALLOW_MASK (ACE_WRITE_ACL | ACE_WRITE_OWNER | \
67 ACE_WRITE_ATTRIBUTES|ACE_WRITE_NAMED_ATTRS)
69 #define ZFS_CHECKED_MASKS (ACE_READ_ACL|ACE_READ_ATTRIBUTES|ACE_READ_DATA| \
70 ACE_READ_NAMED_ATTRS|ACE_WRITE_DATA|ACE_WRITE_ATTRIBUTES| \
71 ACE_WRITE_NAMED_ATTRS|ACE_APPEND_DATA|ACE_EXECUTE|ACE_WRITE_OWNER| \
72 ACE_WRITE_ACL|ACE_DELETE|ACE_DELETE_CHILD|ACE_SYNCHRONIZE)
74 #define WRITE_MASK_DATA (ACE_WRITE_DATA|ACE_APPEND_DATA|ACE_WRITE_NAMED_ATTRS)
75 #define WRITE_MASK_ATTRS (ACE_WRITE_ACL|ACE_WRITE_OWNER|ACE_WRITE_ATTRIBUTES| \
76 ACE_DELETE|ACE_DELETE_CHILD)
77 #define WRITE_MASK (WRITE_MASK_DATA|WRITE_MASK_ATTRS)
79 #define OGE_CLEAR (ACE_READ_DATA|ACE_LIST_DIRECTORY|ACE_WRITE_DATA| \
80 ACE_ADD_FILE|ACE_APPEND_DATA|ACE_ADD_SUBDIRECTORY|ACE_EXECUTE)
82 #define OKAY_MASK_BITS (ACE_READ_DATA|ACE_LIST_DIRECTORY|ACE_WRITE_DATA| \
83 ACE_ADD_FILE|ACE_APPEND_DATA|ACE_ADD_SUBDIRECTORY|ACE_EXECUTE)
85 #define ALL_INHERIT (ACE_FILE_INHERIT_ACE|ACE_DIRECTORY_INHERIT_ACE | \
86 ACE_NO_PROPAGATE_INHERIT_ACE|ACE_INHERIT_ONLY_ACE|ACE_INHERITED_ACE)
88 #define RESTRICTED_CLEAR (ACE_WRITE_ACL|ACE_WRITE_OWNER)
90 #define V4_ACL_WIDE_FLAGS (ZFS_ACL_AUTO_INHERIT|ZFS_ACL_DEFAULTED|\
93 #define ZFS_ACL_WIDE_FLAGS (V4_ACL_WIDE_FLAGS|ZFS_ACL_TRIVIAL|ZFS_INHERIT_ACE|\
96 #define ALL_MODE_EXECS (S_IXUSR | S_IXGRP | S_IXOTH)
99 zfs_ace_v0_get_type(void *acep
)
101 return (((zfs_oldace_t
*)acep
)->z_type
);
105 zfs_ace_v0_get_flags(void *acep
)
107 return (((zfs_oldace_t
*)acep
)->z_flags
);
111 zfs_ace_v0_get_mask(void *acep
)
113 return (((zfs_oldace_t
*)acep
)->z_access_mask
);
117 zfs_ace_v0_get_who(void *acep
)
119 return (((zfs_oldace_t
*)acep
)->z_fuid
);
123 zfs_ace_v0_set_type(void *acep
, uint16_t type
)
125 ((zfs_oldace_t
*)acep
)->z_type
= type
;
129 zfs_ace_v0_set_flags(void *acep
, uint16_t flags
)
131 ((zfs_oldace_t
*)acep
)->z_flags
= flags
;
135 zfs_ace_v0_set_mask(void *acep
, uint32_t mask
)
137 ((zfs_oldace_t
*)acep
)->z_access_mask
= mask
;
141 zfs_ace_v0_set_who(void *acep
, uint64_t who
)
143 ((zfs_oldace_t
*)acep
)->z_fuid
= who
;
148 zfs_ace_v0_size(void *acep
)
150 return (sizeof (zfs_oldace_t
));
154 zfs_ace_v0_abstract_size(void)
156 return (sizeof (zfs_oldace_t
));
160 zfs_ace_v0_mask_off(void)
162 return (offsetof(zfs_oldace_t
, z_access_mask
));
167 zfs_ace_v0_data(void *acep
, void **datap
)
173 static acl_ops_t zfs_acl_v0_ops
= {
176 zfs_ace_v0_get_flags
,
177 zfs_ace_v0_set_flags
,
183 zfs_ace_v0_abstract_size
,
189 zfs_ace_fuid_get_type(void *acep
)
191 return (((zfs_ace_hdr_t
*)acep
)->z_type
);
195 zfs_ace_fuid_get_flags(void *acep
)
197 return (((zfs_ace_hdr_t
*)acep
)->z_flags
);
201 zfs_ace_fuid_get_mask(void *acep
)
203 return (((zfs_ace_hdr_t
*)acep
)->z_access_mask
);
207 zfs_ace_fuid_get_who(void *args
)
210 zfs_ace_t
*acep
= args
;
212 entry_type
= acep
->z_hdr
.z_flags
& ACE_TYPE_FLAGS
;
214 if (entry_type
== ACE_OWNER
|| entry_type
== OWNING_GROUP
||
215 entry_type
== ACE_EVERYONE
)
217 return (((zfs_ace_t
*)acep
)->z_fuid
);
221 zfs_ace_fuid_set_type(void *acep
, uint16_t type
)
223 ((zfs_ace_hdr_t
*)acep
)->z_type
= type
;
227 zfs_ace_fuid_set_flags(void *acep
, uint16_t flags
)
229 ((zfs_ace_hdr_t
*)acep
)->z_flags
= flags
;
233 zfs_ace_fuid_set_mask(void *acep
, uint32_t mask
)
235 ((zfs_ace_hdr_t
*)acep
)->z_access_mask
= mask
;
239 zfs_ace_fuid_set_who(void *arg
, uint64_t who
)
241 zfs_ace_t
*acep
= arg
;
243 uint16_t entry_type
= acep
->z_hdr
.z_flags
& ACE_TYPE_FLAGS
;
245 if (entry_type
== ACE_OWNER
|| entry_type
== OWNING_GROUP
||
246 entry_type
== ACE_EVERYONE
)
252 zfs_ace_fuid_size(void *acep
)
254 zfs_ace_hdr_t
*zacep
= acep
;
257 switch (zacep
->z_type
) {
258 case ACE_ACCESS_ALLOWED_OBJECT_ACE_TYPE
:
259 case ACE_ACCESS_DENIED_OBJECT_ACE_TYPE
:
260 case ACE_SYSTEM_AUDIT_OBJECT_ACE_TYPE
:
261 case ACE_SYSTEM_ALARM_OBJECT_ACE_TYPE
:
262 return (sizeof (zfs_object_ace_t
));
266 (((zfs_ace_hdr_t
*)acep
)->z_flags
& ACE_TYPE_FLAGS
);
267 if (entry_type
== ACE_OWNER
||
268 entry_type
== OWNING_GROUP
||
269 entry_type
== ACE_EVERYONE
)
270 return (sizeof (zfs_ace_hdr_t
));
273 return (sizeof (zfs_ace_t
));
278 zfs_ace_fuid_abstract_size(void)
280 return (sizeof (zfs_ace_hdr_t
));
284 zfs_ace_fuid_mask_off(void)
286 return (offsetof(zfs_ace_hdr_t
, z_access_mask
));
290 zfs_ace_fuid_data(void *acep
, void **datap
)
292 zfs_ace_t
*zacep
= acep
;
293 zfs_object_ace_t
*zobjp
;
295 switch (zacep
->z_hdr
.z_type
) {
296 case ACE_ACCESS_ALLOWED_OBJECT_ACE_TYPE
:
297 case ACE_ACCESS_DENIED_OBJECT_ACE_TYPE
:
298 case ACE_SYSTEM_AUDIT_OBJECT_ACE_TYPE
:
299 case ACE_SYSTEM_ALARM_OBJECT_ACE_TYPE
:
301 *datap
= (caddr_t
)zobjp
+ sizeof (zfs_ace_t
);
302 return (sizeof (zfs_object_ace_t
) - sizeof (zfs_ace_t
));
309 static acl_ops_t zfs_acl_fuid_ops
= {
310 zfs_ace_fuid_get_mask
,
311 zfs_ace_fuid_set_mask
,
312 zfs_ace_fuid_get_flags
,
313 zfs_ace_fuid_set_flags
,
314 zfs_ace_fuid_get_type
,
315 zfs_ace_fuid_set_type
,
316 zfs_ace_fuid_get_who
,
317 zfs_ace_fuid_set_who
,
319 zfs_ace_fuid_abstract_size
,
320 zfs_ace_fuid_mask_off
,
325 * The following three functions are provided for compatibility with
326 * older ZPL version in order to determine if the file use to have
327 * an external ACL and what version of ACL previously existed on the
328 * file. Would really be nice to not need this, sigh.
331 zfs_external_acl(znode_t
*zp
)
333 zfs_acl_phys_t acl_phys
;
340 * Need to deal with a potential
341 * race where zfs_sa_upgrade could cause
342 * z_isa_sa to change.
344 * If the lookup fails then the state of z_is_sa should have
348 if ((error
= sa_lookup(zp
->z_sa_hdl
, SA_ZPL_ZNODE_ACL(ZTOZSB(zp
)),
349 &acl_phys
, sizeof (acl_phys
))) == 0)
350 return (acl_phys
.z_acl_extern_obj
);
353 * after upgrade the SA_ZPL_ZNODE_ACL should have been
356 VERIFY(zp
->z_is_sa
&& error
== ENOENT
);
362 * Determine size of ACL in bytes
364 * This is more complicated than it should be since we have to deal
365 * with old external ACLs.
368 zfs_acl_znode_info(znode_t
*zp
, int *aclsize
, int *aclcount
,
369 zfs_acl_phys_t
*aclphys
)
371 zfs_sb_t
*zsb
= ZTOZSB(zp
);
376 ASSERT(MUTEX_HELD(&zp
->z_acl_lock
));
378 if ((error
= sa_size(zp
->z_sa_hdl
, SA_ZPL_DACL_ACES(zsb
),
382 if ((error
= sa_lookup(zp
->z_sa_hdl
, SA_ZPL_DACL_COUNT(zsb
),
383 &acl_count
, sizeof (acl_count
))) != 0)
385 *aclcount
= acl_count
;
387 if ((error
= sa_lookup(zp
->z_sa_hdl
, SA_ZPL_ZNODE_ACL(zsb
),
388 aclphys
, sizeof (*aclphys
))) != 0)
391 if (aclphys
->z_acl_version
== ZFS_ACL_VERSION_INITIAL
) {
392 *aclsize
= ZFS_ACL_SIZE(aclphys
->z_acl_size
);
393 *aclcount
= aclphys
->z_acl_size
;
395 *aclsize
= aclphys
->z_acl_size
;
396 *aclcount
= aclphys
->z_acl_count
;
403 zfs_znode_acl_version(znode_t
*zp
)
405 zfs_acl_phys_t acl_phys
;
408 return (ZFS_ACL_VERSION_FUID
);
413 * Need to deal with a potential
414 * race where zfs_sa_upgrade could cause
415 * z_isa_sa to change.
417 * If the lookup fails then the state of z_is_sa should have
420 if ((error
= sa_lookup(zp
->z_sa_hdl
,
421 SA_ZPL_ZNODE_ACL(ZTOZSB(zp
)),
422 &acl_phys
, sizeof (acl_phys
))) == 0)
423 return (acl_phys
.z_acl_version
);
426 * After upgrade SA_ZPL_ZNODE_ACL should have
429 VERIFY(zp
->z_is_sa
&& error
== ENOENT
);
430 return (ZFS_ACL_VERSION_FUID
);
436 zfs_acl_version(int version
)
438 if (version
< ZPL_VERSION_FUID
)
439 return (ZFS_ACL_VERSION_INITIAL
);
441 return (ZFS_ACL_VERSION_FUID
);
445 zfs_acl_version_zp(znode_t
*zp
)
447 return (zfs_acl_version(ZTOZSB(zp
)->z_version
));
451 zfs_acl_alloc(int vers
)
455 aclp
= kmem_zalloc(sizeof (zfs_acl_t
), KM_SLEEP
);
456 list_create(&aclp
->z_acl
, sizeof (zfs_acl_node_t
),
457 offsetof(zfs_acl_node_t
, z_next
));
458 aclp
->z_version
= vers
;
459 if (vers
== ZFS_ACL_VERSION_FUID
)
460 aclp
->z_ops
= zfs_acl_fuid_ops
;
462 aclp
->z_ops
= zfs_acl_v0_ops
;
467 zfs_acl_node_alloc(size_t bytes
)
469 zfs_acl_node_t
*aclnode
;
471 aclnode
= kmem_zalloc(sizeof (zfs_acl_node_t
), KM_SLEEP
);
473 aclnode
->z_acldata
= kmem_alloc(bytes
, KM_SLEEP
);
474 aclnode
->z_allocdata
= aclnode
->z_acldata
;
475 aclnode
->z_allocsize
= bytes
;
476 aclnode
->z_size
= bytes
;
483 zfs_acl_node_free(zfs_acl_node_t
*aclnode
)
485 if (aclnode
->z_allocsize
)
486 kmem_free(aclnode
->z_allocdata
, aclnode
->z_allocsize
);
487 kmem_free(aclnode
, sizeof (zfs_acl_node_t
));
491 zfs_acl_release_nodes(zfs_acl_t
*aclp
)
493 zfs_acl_node_t
*aclnode
;
495 while ((aclnode
= list_head(&aclp
->z_acl
))) {
496 list_remove(&aclp
->z_acl
, aclnode
);
497 zfs_acl_node_free(aclnode
);
499 aclp
->z_acl_count
= 0;
500 aclp
->z_acl_bytes
= 0;
504 zfs_acl_free(zfs_acl_t
*aclp
)
506 zfs_acl_release_nodes(aclp
);
507 list_destroy(&aclp
->z_acl
);
508 kmem_free(aclp
, sizeof (zfs_acl_t
));
512 zfs_acl_valid_ace_type(uint_t type
, uint_t flags
)
519 case ACE_SYSTEM_AUDIT_ACE_TYPE
:
520 case ACE_SYSTEM_ALARM_ACE_TYPE
:
521 entry_type
= flags
& ACE_TYPE_FLAGS
;
522 return (entry_type
== ACE_OWNER
||
523 entry_type
== OWNING_GROUP
||
524 entry_type
== ACE_EVERYONE
|| entry_type
== 0 ||
525 entry_type
== ACE_IDENTIFIER_GROUP
);
527 if (type
>= MIN_ACE_TYPE
&& type
<= MAX_ACE_TYPE
)
534 zfs_ace_valid(umode_t obj_mode
, zfs_acl_t
*aclp
, uint16_t type
, uint16_t iflags
)
537 * first check type of entry
540 if (!zfs_acl_valid_ace_type(type
, iflags
))
544 case ACE_ACCESS_ALLOWED_OBJECT_ACE_TYPE
:
545 case ACE_ACCESS_DENIED_OBJECT_ACE_TYPE
:
546 case ACE_SYSTEM_AUDIT_OBJECT_ACE_TYPE
:
547 case ACE_SYSTEM_ALARM_OBJECT_ACE_TYPE
:
548 if (aclp
->z_version
< ZFS_ACL_VERSION_FUID
)
550 aclp
->z_hints
|= ZFS_ACL_OBJ_ACE
;
554 * next check inheritance level flags
557 if (S_ISDIR(obj_mode
) &&
558 (iflags
& (ACE_FILE_INHERIT_ACE
|ACE_DIRECTORY_INHERIT_ACE
)))
559 aclp
->z_hints
|= ZFS_INHERIT_ACE
;
561 if (iflags
& (ACE_INHERIT_ONLY_ACE
|ACE_NO_PROPAGATE_INHERIT_ACE
)) {
562 if ((iflags
& (ACE_FILE_INHERIT_ACE
|
563 ACE_DIRECTORY_INHERIT_ACE
)) == 0) {
572 zfs_acl_next_ace(zfs_acl_t
*aclp
, void *start
, uint64_t *who
,
573 uint32_t *access_mask
, uint16_t *iflags
, uint16_t *type
)
575 zfs_acl_node_t
*aclnode
;
580 aclnode
= list_head(&aclp
->z_acl
);
584 aclp
->z_next_ace
= aclnode
->z_acldata
;
585 aclp
->z_curr_node
= aclnode
;
586 aclnode
->z_ace_idx
= 0;
589 aclnode
= aclp
->z_curr_node
;
594 if (aclnode
->z_ace_idx
>= aclnode
->z_ace_count
) {
595 aclnode
= list_next(&aclp
->z_acl
, aclnode
);
599 aclp
->z_curr_node
= aclnode
;
600 aclnode
->z_ace_idx
= 0;
601 aclp
->z_next_ace
= aclnode
->z_acldata
;
605 if (aclnode
->z_ace_idx
< aclnode
->z_ace_count
) {
606 void *acep
= aclp
->z_next_ace
;
610 * Make sure we don't overstep our bounds
612 ace_size
= aclp
->z_ops
.ace_size(acep
);
614 if (((caddr_t
)acep
+ ace_size
) >
615 ((caddr_t
)aclnode
->z_acldata
+ aclnode
->z_size
)) {
619 *iflags
= aclp
->z_ops
.ace_flags_get(acep
);
620 *type
= aclp
->z_ops
.ace_type_get(acep
);
621 *access_mask
= aclp
->z_ops
.ace_mask_get(acep
);
622 *who
= aclp
->z_ops
.ace_who_get(acep
);
623 aclp
->z_next_ace
= (caddr_t
)aclp
->z_next_ace
+ ace_size
;
624 aclnode
->z_ace_idx
++;
626 return ((void *)acep
);
633 zfs_ace_walk(void *datap
, uint64_t cookie
, int aclcnt
,
634 uint16_t *flags
, uint16_t *type
, uint32_t *mask
)
636 zfs_acl_t
*aclp
= datap
;
637 zfs_ace_hdr_t
*acep
= (zfs_ace_hdr_t
*)(uintptr_t)cookie
;
640 acep
= zfs_acl_next_ace(aclp
, acep
, &who
, mask
,
642 return ((uint64_t)(uintptr_t)acep
);
646 * Copy ACE to internal ZFS format.
647 * While processing the ACL each ACE will be validated for correctness.
648 * ACE FUIDs will be created later.
651 zfs_copy_ace_2_fuid(zfs_sb_t
*zsb
, umode_t obj_mode
, zfs_acl_t
*aclp
,
652 void *datap
, zfs_ace_t
*z_acl
, uint64_t aclcnt
, size_t *size
,
653 zfs_fuid_info_t
**fuidp
, cred_t
*cr
)
657 zfs_ace_t
*aceptr
= z_acl
;
659 zfs_object_ace_t
*zobjacep
;
660 ace_object_t
*aceobjp
;
662 for (i
= 0; i
!= aclcnt
; i
++) {
663 aceptr
->z_hdr
.z_access_mask
= acep
->a_access_mask
;
664 aceptr
->z_hdr
.z_flags
= acep
->a_flags
;
665 aceptr
->z_hdr
.z_type
= acep
->a_type
;
666 entry_type
= aceptr
->z_hdr
.z_flags
& ACE_TYPE_FLAGS
;
667 if (entry_type
!= ACE_OWNER
&& entry_type
!= OWNING_GROUP
&&
668 entry_type
!= ACE_EVERYONE
) {
669 aceptr
->z_fuid
= zfs_fuid_create(zsb
, acep
->a_who
,
670 cr
, (entry_type
== 0) ?
671 ZFS_ACE_USER
: ZFS_ACE_GROUP
, fuidp
);
675 * Make sure ACE is valid
677 if (zfs_ace_valid(obj_mode
, aclp
, aceptr
->z_hdr
.z_type
,
678 aceptr
->z_hdr
.z_flags
) != B_TRUE
)
681 switch (acep
->a_type
) {
682 case ACE_ACCESS_ALLOWED_OBJECT_ACE_TYPE
:
683 case ACE_ACCESS_DENIED_OBJECT_ACE_TYPE
:
684 case ACE_SYSTEM_AUDIT_OBJECT_ACE_TYPE
:
685 case ACE_SYSTEM_ALARM_OBJECT_ACE_TYPE
:
686 zobjacep
= (zfs_object_ace_t
*)aceptr
;
687 aceobjp
= (ace_object_t
*)acep
;
689 bcopy(aceobjp
->a_obj_type
, zobjacep
->z_object_type
,
690 sizeof (aceobjp
->a_obj_type
));
691 bcopy(aceobjp
->a_inherit_obj_type
,
692 zobjacep
->z_inherit_type
,
693 sizeof (aceobjp
->a_inherit_obj_type
));
694 acep
= (ace_t
*)((caddr_t
)acep
+ sizeof (ace_object_t
));
697 acep
= (ace_t
*)((caddr_t
)acep
+ sizeof (ace_t
));
700 aceptr
= (zfs_ace_t
*)((caddr_t
)aceptr
+
701 aclp
->z_ops
.ace_size(aceptr
));
704 *size
= (caddr_t
)aceptr
- (caddr_t
)z_acl
;
710 * Copy ZFS ACEs to fixed size ace_t layout
713 zfs_copy_fuid_2_ace(zfs_sb_t
*zsb
, zfs_acl_t
*aclp
, cred_t
*cr
,
714 void *datap
, int filter
)
717 uint32_t access_mask
;
718 uint16_t iflags
, type
;
719 zfs_ace_hdr_t
*zacep
= NULL
;
721 ace_object_t
*objacep
;
722 zfs_object_ace_t
*zobjacep
;
726 while ((zacep
= zfs_acl_next_ace(aclp
, zacep
,
727 &who
, &access_mask
, &iflags
, &type
))) {
730 case ACE_ACCESS_ALLOWED_OBJECT_ACE_TYPE
:
731 case ACE_ACCESS_DENIED_OBJECT_ACE_TYPE
:
732 case ACE_SYSTEM_AUDIT_OBJECT_ACE_TYPE
:
733 case ACE_SYSTEM_ALARM_OBJECT_ACE_TYPE
:
737 zobjacep
= (zfs_object_ace_t
*)zacep
;
738 objacep
= (ace_object_t
*)acep
;
739 bcopy(zobjacep
->z_object_type
,
741 sizeof (zobjacep
->z_object_type
));
742 bcopy(zobjacep
->z_inherit_type
,
743 objacep
->a_inherit_obj_type
,
744 sizeof (zobjacep
->z_inherit_type
));
745 ace_size
= sizeof (ace_object_t
);
748 ace_size
= sizeof (ace_t
);
752 entry_type
= (iflags
& ACE_TYPE_FLAGS
);
753 if ((entry_type
!= ACE_OWNER
&&
754 entry_type
!= OWNING_GROUP
&&
755 entry_type
!= ACE_EVERYONE
)) {
756 acep
->a_who
= zfs_fuid_map_id(zsb
, who
,
757 cr
, (entry_type
& ACE_IDENTIFIER_GROUP
) ?
758 ZFS_ACE_GROUP
: ZFS_ACE_USER
);
760 acep
->a_who
= (uid_t
)(int64_t)who
;
762 acep
->a_access_mask
= access_mask
;
763 acep
->a_flags
= iflags
;
765 acep
= (ace_t
*)((caddr_t
)acep
+ ace_size
);
770 zfs_copy_ace_2_oldace(umode_t obj_mode
, zfs_acl_t
*aclp
, ace_t
*acep
,
771 zfs_oldace_t
*z_acl
, int aclcnt
, size_t *size
)
774 zfs_oldace_t
*aceptr
= z_acl
;
776 for (i
= 0; i
!= aclcnt
; i
++, aceptr
++) {
777 aceptr
->z_access_mask
= acep
[i
].a_access_mask
;
778 aceptr
->z_type
= acep
[i
].a_type
;
779 aceptr
->z_flags
= acep
[i
].a_flags
;
780 aceptr
->z_fuid
= acep
[i
].a_who
;
782 * Make sure ACE is valid
784 if (zfs_ace_valid(obj_mode
, aclp
, aceptr
->z_type
,
785 aceptr
->z_flags
) != B_TRUE
)
788 *size
= (caddr_t
)aceptr
- (caddr_t
)z_acl
;
793 * convert old ACL format to new
796 zfs_acl_xform(znode_t
*zp
, zfs_acl_t
*aclp
, cred_t
*cr
)
798 zfs_oldace_t
*oldaclp
;
800 uint16_t type
, iflags
;
801 uint32_t access_mask
;
804 zfs_acl_node_t
*newaclnode
;
806 ASSERT(aclp
->z_version
== ZFS_ACL_VERSION_INITIAL
);
808 * First create the ACE in a contiguous piece of memory
809 * for zfs_copy_ace_2_fuid().
811 * We only convert an ACL once, so this won't happen
814 oldaclp
= kmem_alloc(sizeof (zfs_oldace_t
) * aclp
->z_acl_count
,
817 while ((cookie
= zfs_acl_next_ace(aclp
, cookie
, &who
,
818 &access_mask
, &iflags
, &type
))) {
819 oldaclp
[i
].z_flags
= iflags
;
820 oldaclp
[i
].z_type
= type
;
821 oldaclp
[i
].z_fuid
= who
;
822 oldaclp
[i
++].z_access_mask
= access_mask
;
825 newaclnode
= zfs_acl_node_alloc(aclp
->z_acl_count
*
826 sizeof (zfs_object_ace_t
));
827 aclp
->z_ops
= zfs_acl_fuid_ops
;
828 VERIFY(zfs_copy_ace_2_fuid(ZTOZSB(zp
), ZTOI(zp
)->i_mode
,
829 aclp
, oldaclp
, newaclnode
->z_acldata
, aclp
->z_acl_count
,
830 &newaclnode
->z_size
, NULL
, cr
) == 0);
831 newaclnode
->z_ace_count
= aclp
->z_acl_count
;
832 aclp
->z_version
= ZFS_ACL_VERSION
;
833 kmem_free(oldaclp
, aclp
->z_acl_count
* sizeof (zfs_oldace_t
));
836 * Release all previous ACL nodes
839 zfs_acl_release_nodes(aclp
);
841 list_insert_head(&aclp
->z_acl
, newaclnode
);
843 aclp
->z_acl_bytes
= newaclnode
->z_size
;
844 aclp
->z_acl_count
= newaclnode
->z_ace_count
;
849 * Convert unix access mask to v4 access mask
852 zfs_unix_to_v4(uint32_t access_mask
)
854 uint32_t new_mask
= 0;
856 if (access_mask
& S_IXOTH
)
857 new_mask
|= ACE_EXECUTE
;
858 if (access_mask
& S_IWOTH
)
859 new_mask
|= ACE_WRITE_DATA
;
860 if (access_mask
& S_IROTH
)
861 new_mask
|= ACE_READ_DATA
;
866 zfs_set_ace(zfs_acl_t
*aclp
, void *acep
, uint32_t access_mask
,
867 uint16_t access_type
, uint64_t fuid
, uint16_t entry_type
)
869 uint16_t type
= entry_type
& ACE_TYPE_FLAGS
;
871 aclp
->z_ops
.ace_mask_set(acep
, access_mask
);
872 aclp
->z_ops
.ace_type_set(acep
, access_type
);
873 aclp
->z_ops
.ace_flags_set(acep
, entry_type
);
874 if ((type
!= ACE_OWNER
&& type
!= OWNING_GROUP
&&
875 type
!= ACE_EVERYONE
))
876 aclp
->z_ops
.ace_who_set(acep
, fuid
);
880 * Determine mode of file based on ACL.
881 * Also, create FUIDs for any User/Group ACEs
884 zfs_mode_compute(uint64_t fmode
, zfs_acl_t
*aclp
,
885 uint64_t *pflags
, uint64_t fuid
, uint64_t fgid
)
890 zfs_ace_hdr_t
*acep
= NULL
;
892 uint16_t iflags
, type
;
893 uint32_t access_mask
;
894 boolean_t an_exec_denied
= B_FALSE
;
896 mode
= (fmode
& (S_IFMT
| S_ISUID
| S_ISGID
| S_ISVTX
));
898 while ((acep
= zfs_acl_next_ace(aclp
, acep
, &who
,
899 &access_mask
, &iflags
, &type
))) {
901 if (!zfs_acl_valid_ace_type(type
, iflags
))
904 entry_type
= (iflags
& ACE_TYPE_FLAGS
);
907 * Skip over owner@, group@ or everyone@ inherit only ACEs
909 if ((iflags
& ACE_INHERIT_ONLY_ACE
) &&
910 (entry_type
== ACE_OWNER
|| entry_type
== ACE_EVERYONE
||
911 entry_type
== OWNING_GROUP
))
914 if (entry_type
== ACE_OWNER
|| (entry_type
== 0 &&
916 if ((access_mask
& ACE_READ_DATA
) &&
917 (!(seen
& S_IRUSR
))) {
923 if ((access_mask
& ACE_WRITE_DATA
) &&
924 (!(seen
& S_IWUSR
))) {
930 if ((access_mask
& ACE_EXECUTE
) &&
931 (!(seen
& S_IXUSR
))) {
937 } else if (entry_type
== OWNING_GROUP
||
938 (entry_type
== ACE_IDENTIFIER_GROUP
&& who
== fgid
)) {
939 if ((access_mask
& ACE_READ_DATA
) &&
940 (!(seen
& S_IRGRP
))) {
946 if ((access_mask
& ACE_WRITE_DATA
) &&
947 (!(seen
& S_IWGRP
))) {
953 if ((access_mask
& ACE_EXECUTE
) &&
954 (!(seen
& S_IXGRP
))) {
960 } else if (entry_type
== ACE_EVERYONE
) {
961 if ((access_mask
& ACE_READ_DATA
)) {
962 if (!(seen
& S_IRUSR
)) {
968 if (!(seen
& S_IRGRP
)) {
974 if (!(seen
& S_IROTH
)) {
981 if ((access_mask
& ACE_WRITE_DATA
)) {
982 if (!(seen
& S_IWUSR
)) {
988 if (!(seen
& S_IWGRP
)) {
994 if (!(seen
& S_IWOTH
)) {
1001 if ((access_mask
& ACE_EXECUTE
)) {
1002 if (!(seen
& S_IXUSR
)) {
1004 if (type
== ALLOW
) {
1008 if (!(seen
& S_IXGRP
)) {
1010 if (type
== ALLOW
) {
1014 if (!(seen
& S_IXOTH
)) {
1016 if (type
== ALLOW
) {
1023 * Only care if this IDENTIFIER_GROUP or
1024 * USER ACE denies execute access to someone,
1025 * mode is not affected
1027 if ((access_mask
& ACE_EXECUTE
) && type
== DENY
)
1028 an_exec_denied
= B_TRUE
;
1033 * Failure to allow is effectively a deny, so execute permission
1034 * is denied if it was never mentioned or if we explicitly
1035 * weren't allowed it.
1037 if (!an_exec_denied
&&
1038 ((seen
& ALL_MODE_EXECS
) != ALL_MODE_EXECS
||
1039 (mode
& ALL_MODE_EXECS
) != ALL_MODE_EXECS
))
1040 an_exec_denied
= B_TRUE
;
1043 *pflags
&= ~ZFS_NO_EXECS_DENIED
;
1045 *pflags
|= ZFS_NO_EXECS_DENIED
;
1051 * Read an external acl object. If the intent is to modify, always
1052 * create a new acl and leave any cached acl in place.
1055 zfs_acl_node_read(znode_t
*zp
, boolean_t have_lock
, zfs_acl_t
**aclpp
,
1056 boolean_t will_modify
)
1061 zfs_acl_node_t
*aclnode
;
1062 zfs_acl_phys_t znode_acl
;
1065 boolean_t drop_lock
= B_FALSE
;
1067 ASSERT(MUTEX_HELD(&zp
->z_acl_lock
));
1069 if (zp
->z_acl_cached
&& !will_modify
) {
1070 *aclpp
= zp
->z_acl_cached
;
1075 * close race where znode could be upgrade while trying to
1076 * read the znode attributes.
1078 * But this could only happen if the file isn't already an SA
1081 if (!zp
->z_is_sa
&& !have_lock
) {
1082 mutex_enter(&zp
->z_lock
);
1085 version
= zfs_znode_acl_version(zp
);
1087 if ((error
= zfs_acl_znode_info(zp
, &aclsize
,
1088 &acl_count
, &znode_acl
)) != 0) {
1092 aclp
= zfs_acl_alloc(version
);
1094 aclp
->z_acl_count
= acl_count
;
1095 aclp
->z_acl_bytes
= aclsize
;
1097 aclnode
= zfs_acl_node_alloc(aclsize
);
1098 aclnode
->z_ace_count
= aclp
->z_acl_count
;
1099 aclnode
->z_size
= aclsize
;
1102 if (znode_acl
.z_acl_extern_obj
) {
1103 error
= dmu_read(ZTOZSB(zp
)->z_os
,
1104 znode_acl
.z_acl_extern_obj
, 0, aclnode
->z_size
,
1105 aclnode
->z_acldata
, DMU_READ_PREFETCH
);
1107 bcopy(znode_acl
.z_ace_data
, aclnode
->z_acldata
,
1111 error
= sa_lookup(zp
->z_sa_hdl
, SA_ZPL_DACL_ACES(ZTOZSB(zp
)),
1112 aclnode
->z_acldata
, aclnode
->z_size
);
1117 zfs_acl_node_free(aclnode
);
1118 /* convert checksum errors into IO errors */
1119 if (error
== ECKSUM
)
1124 list_insert_head(&aclp
->z_acl
, aclnode
);
1128 zp
->z_acl_cached
= aclp
;
1131 mutex_exit(&zp
->z_lock
);
1137 zfs_acl_data_locator(void **dataptr
, uint32_t *length
, uint32_t buflen
,
1138 boolean_t start
, void *userdata
)
1140 zfs_acl_locator_cb_t
*cb
= (zfs_acl_locator_cb_t
*)userdata
;
1143 cb
->cb_acl_node
= list_head(&cb
->cb_aclp
->z_acl
);
1145 cb
->cb_acl_node
= list_next(&cb
->cb_aclp
->z_acl
,
1148 *dataptr
= cb
->cb_acl_node
->z_acldata
;
1149 *length
= cb
->cb_acl_node
->z_size
;
1153 zfs_acl_chown_setattr(znode_t
*zp
)
1158 ASSERT(MUTEX_HELD(&zp
->z_lock
));
1159 ASSERT(MUTEX_HELD(&zp
->z_acl_lock
));
1161 if ((error
= zfs_acl_node_read(zp
, B_TRUE
, &aclp
, B_FALSE
)) == 0)
1162 zp
->z_mode
= zfs_mode_compute(zp
->z_mode
, aclp
,
1163 &zp
->z_pflags
, zp
->z_uid
, zp
->z_gid
);
1168 acl_trivial_access_masks(mode_t mode
, uint32_t *allow0
, uint32_t *deny1
,
1169 uint32_t *deny2
, uint32_t *owner
, uint32_t *group
, uint32_t *everyone
)
1171 *deny1
= *deny2
= *allow0
= *group
= 0;
1173 if (!(mode
& S_IRUSR
) && (mode
& (S_IRGRP
|S_IROTH
)))
1174 *deny1
|= ACE_READ_DATA
;
1175 if (!(mode
& S_IWUSR
) && (mode
& (S_IWGRP
|S_IWOTH
)))
1176 *deny1
|= ACE_WRITE_DATA
;
1177 if (!(mode
& S_IXUSR
) && (mode
& (S_IXGRP
|S_IXOTH
)))
1178 *deny1
|= ACE_EXECUTE
;
1180 if (!(mode
& S_IRGRP
) && (mode
& S_IROTH
))
1181 *deny2
= ACE_READ_DATA
;
1182 if (!(mode
& S_IWGRP
) && (mode
& S_IWOTH
))
1183 *deny2
|= ACE_WRITE_DATA
;
1184 if (!(mode
& S_IXGRP
) && (mode
& S_IXOTH
))
1185 *deny2
|= ACE_EXECUTE
;
1187 if ((mode
& S_IRUSR
) && (!(mode
& S_IRGRP
) && (mode
& S_IROTH
)))
1188 *allow0
|= ACE_READ_DATA
;
1189 if ((mode
& S_IWUSR
) && (!(mode
& S_IWGRP
) && (mode
& S_IWOTH
)))
1190 *allow0
|= ACE_WRITE_DATA
;
1191 if ((mode
& S_IXUSR
) && (!(mode
& S_IXGRP
) && (mode
& S_IXOTH
)))
1192 *allow0
|= ACE_EXECUTE
;
1194 *owner
= ACE_WRITE_ATTRIBUTES
|ACE_WRITE_OWNER
|ACE_WRITE_ACL
|
1195 ACE_WRITE_NAMED_ATTRS
|ACE_READ_ACL
|ACE_READ_ATTRIBUTES
|
1196 ACE_READ_NAMED_ATTRS
|ACE_SYNCHRONIZE
;
1198 *owner
|= ACE_READ_DATA
;
1200 *owner
|= ACE_WRITE_DATA
|ACE_APPEND_DATA
;
1202 *owner
|= ACE_EXECUTE
;
1204 *group
= ACE_READ_ACL
|ACE_READ_ATTRIBUTES
| ACE_READ_NAMED_ATTRS
|
1207 *group
|= ACE_READ_DATA
;
1209 *group
|= ACE_WRITE_DATA
|ACE_APPEND_DATA
;
1211 *group
|= ACE_EXECUTE
;
1213 *everyone
= ACE_READ_ACL
|ACE_READ_ATTRIBUTES
| ACE_READ_NAMED_ATTRS
|
1216 *everyone
|= ACE_READ_DATA
;
1218 *everyone
|= ACE_WRITE_DATA
|ACE_APPEND_DATA
;
1220 *everyone
|= ACE_EXECUTE
;
1225 * determine whether an ace_t acl is trivial
1227 * Trivialness implies that the acl is composed of only
1228 * owner, group, everyone entries. ACL can't
1229 * have read_acl denied, and write_owner/write_acl/write_attributes
1230 * can only be owner@ entry.
1233 ace_trivial_common(void *acep
, int aclcnt
,
1234 uint64_t (*walk
)(void *, uint64_t, int aclcnt
,
1235 uint16_t *, uint16_t *, uint32_t *))
1240 uint64_t cookie
= 0;
1242 while ((cookie
= walk(acep
, cookie
, aclcnt
, &flags
, &type
, &mask
))) {
1243 switch (flags
& ACE_TYPE_FLAGS
) {
1245 case ACE_GROUP
|ACE_IDENTIFIER_GROUP
:
1252 if (flags
& (ACE_FILE_INHERIT_ACE
|
1253 ACE_DIRECTORY_INHERIT_ACE
|ACE_NO_PROPAGATE_INHERIT_ACE
|
1254 ACE_INHERIT_ONLY_ACE
))
1258 * Special check for some special bits
1260 * Don't allow anybody to deny reading basic
1261 * attributes or a files ACL.
1263 if ((mask
& (ACE_READ_ACL
|ACE_READ_ATTRIBUTES
)) &&
1264 (type
== ACE_ACCESS_DENIED_ACE_TYPE
))
1268 * Delete permissions are never set by default
1270 if (mask
& (ACE_DELETE
|ACE_DELETE_CHILD
))
1273 * only allow owner@ to have
1274 * write_acl/write_owner/write_attributes/write_xattr/
1276 if (type
== ACE_ACCESS_ALLOWED_ACE_TYPE
&&
1277 (!(flags
& ACE_OWNER
) && (mask
&
1278 (ACE_WRITE_OWNER
|ACE_WRITE_ACL
| ACE_WRITE_ATTRIBUTES
|
1279 ACE_WRITE_NAMED_ATTRS
))))
1288 * common code for setting ACLs.
1290 * This function is called from zfs_mode_update, zfs_perm_init, and zfs_setacl.
1291 * zfs_setacl passes a non-NULL inherit pointer (ihp) to indicate that it's
1292 * already checked the acl and knows whether to inherit.
1295 zfs_aclset_common(znode_t
*zp
, zfs_acl_t
*aclp
, cred_t
*cr
, dmu_tx_t
*tx
)
1298 zfs_sb_t
*zsb
= ZTOZSB(zp
);
1299 dmu_object_type_t otype
;
1300 zfs_acl_locator_cb_t locate
= { 0 };
1302 sa_bulk_attr_t bulk
[5];
1308 mode
= zfs_mode_compute(mode
, aclp
, &zp
->z_pflags
,
1309 zp
->z_uid
, zp
->z_gid
);
1312 SA_ADD_BULK_ATTR(bulk
, count
, SA_ZPL_MODE(zsb
), NULL
,
1313 &mode
, sizeof (mode
));
1314 SA_ADD_BULK_ATTR(bulk
, count
, SA_ZPL_FLAGS(zsb
), NULL
,
1315 &zp
->z_pflags
, sizeof (zp
->z_pflags
));
1316 SA_ADD_BULK_ATTR(bulk
, count
, SA_ZPL_CTIME(zsb
), NULL
,
1317 &ctime
, sizeof (ctime
));
1319 if (zp
->z_acl_cached
) {
1320 zfs_acl_free(zp
->z_acl_cached
);
1321 zp
->z_acl_cached
= NULL
;
1327 if (!zsb
->z_use_fuids
) {
1328 otype
= DMU_OT_OLDACL
;
1330 if ((aclp
->z_version
== ZFS_ACL_VERSION_INITIAL
) &&
1331 (zsb
->z_version
>= ZPL_VERSION_FUID
))
1332 zfs_acl_xform(zp
, aclp
, cr
);
1333 ASSERT(aclp
->z_version
>= ZFS_ACL_VERSION_FUID
);
1338 * Arrgh, we have to handle old on disk format
1339 * as well as newer (preferred) SA format.
1342 if (zp
->z_is_sa
) { /* the easy case, just update the ACL attribute */
1343 locate
.cb_aclp
= aclp
;
1344 SA_ADD_BULK_ATTR(bulk
, count
, SA_ZPL_DACL_ACES(zsb
),
1345 zfs_acl_data_locator
, &locate
, aclp
->z_acl_bytes
);
1346 SA_ADD_BULK_ATTR(bulk
, count
, SA_ZPL_DACL_COUNT(zsb
),
1347 NULL
, &aclp
->z_acl_count
, sizeof (uint64_t));
1348 } else { /* Painful legacy way */
1349 zfs_acl_node_t
*aclnode
;
1351 zfs_acl_phys_t acl_phys
;
1354 if ((error
= sa_lookup(zp
->z_sa_hdl
, SA_ZPL_ZNODE_ACL(zsb
),
1355 &acl_phys
, sizeof (acl_phys
))) != 0)
1358 aoid
= acl_phys
.z_acl_extern_obj
;
1360 if (aclp
->z_acl_bytes
> ZFS_ACE_SPACE
) {
1362 * If ACL was previously external and we are now
1363 * converting to new ACL format then release old
1364 * ACL object and create a new one.
1367 aclp
->z_version
!= acl_phys
.z_acl_version
) {
1368 error
= dmu_object_free(zsb
->z_os
, aoid
, tx
);
1374 aoid
= dmu_object_alloc(zsb
->z_os
,
1375 otype
, aclp
->z_acl_bytes
,
1376 otype
== DMU_OT_ACL
?
1377 DMU_OT_SYSACL
: DMU_OT_NONE
,
1378 otype
== DMU_OT_ACL
?
1379 DN_MAX_BONUSLEN
: 0, tx
);
1381 (void) dmu_object_set_blocksize(zsb
->z_os
,
1382 aoid
, aclp
->z_acl_bytes
, 0, tx
);
1384 acl_phys
.z_acl_extern_obj
= aoid
;
1385 for (aclnode
= list_head(&aclp
->z_acl
); aclnode
;
1386 aclnode
= list_next(&aclp
->z_acl
, aclnode
)) {
1387 if (aclnode
->z_ace_count
== 0)
1389 dmu_write(zsb
->z_os
, aoid
, off
,
1390 aclnode
->z_size
, aclnode
->z_acldata
, tx
);
1391 off
+= aclnode
->z_size
;
1394 void *start
= acl_phys
.z_ace_data
;
1396 * Migrating back embedded?
1398 if (acl_phys
.z_acl_extern_obj
) {
1399 error
= dmu_object_free(zsb
->z_os
,
1400 acl_phys
.z_acl_extern_obj
, tx
);
1403 acl_phys
.z_acl_extern_obj
= 0;
1406 for (aclnode
= list_head(&aclp
->z_acl
); aclnode
;
1407 aclnode
= list_next(&aclp
->z_acl
, aclnode
)) {
1408 if (aclnode
->z_ace_count
== 0)
1410 bcopy(aclnode
->z_acldata
, start
,
1412 start
= (caddr_t
)start
+ aclnode
->z_size
;
1416 * If Old version then swap count/bytes to match old
1417 * layout of znode_acl_phys_t.
1419 if (aclp
->z_version
== ZFS_ACL_VERSION_INITIAL
) {
1420 acl_phys
.z_acl_size
= aclp
->z_acl_count
;
1421 acl_phys
.z_acl_count
= aclp
->z_acl_bytes
;
1423 acl_phys
.z_acl_size
= aclp
->z_acl_bytes
;
1424 acl_phys
.z_acl_count
= aclp
->z_acl_count
;
1426 acl_phys
.z_acl_version
= aclp
->z_version
;
1428 SA_ADD_BULK_ATTR(bulk
, count
, SA_ZPL_ZNODE_ACL(zsb
), NULL
,
1429 &acl_phys
, sizeof (acl_phys
));
1433 * Replace ACL wide bits, but first clear them.
1435 zp
->z_pflags
&= ~ZFS_ACL_WIDE_FLAGS
;
1437 zp
->z_pflags
|= aclp
->z_hints
;
1439 if (ace_trivial_common(aclp
, 0, zfs_ace_walk
) == 0)
1440 zp
->z_pflags
|= ZFS_ACL_TRIVIAL
;
1442 zfs_tstamp_update_setup(zp
, STATE_CHANGED
, NULL
, ctime
, B_TRUE
);
1443 return (sa_bulk_update(zp
->z_sa_hdl
, bulk
, count
, tx
));
1447 zfs_acl_chmod(zfs_sb_t
*zsb
, uint64_t mode
, zfs_acl_t
*aclp
)
1451 int new_count
, new_bytes
;
1454 uint16_t iflags
, type
;
1455 uint32_t access_mask
;
1456 zfs_acl_node_t
*newnode
;
1457 size_t abstract_size
= aclp
->z_ops
.ace_abstract_size();
1459 uint32_t owner
, group
, everyone
;
1460 uint32_t deny1
, deny2
, allow0
;
1462 new_count
= new_bytes
= 0;
1464 acl_trivial_access_masks((mode_t
)mode
, &allow0
, &deny1
, &deny2
,
1465 &owner
, &group
, &everyone
);
1467 newnode
= zfs_acl_node_alloc((abstract_size
* 6) + aclp
->z_acl_bytes
);
1469 zacep
= newnode
->z_acldata
;
1471 zfs_set_ace(aclp
, zacep
, allow0
, ALLOW
, -1, ACE_OWNER
);
1472 zacep
= (void *)((uintptr_t)zacep
+ abstract_size
);
1474 new_bytes
+= abstract_size
;
1476 zfs_set_ace(aclp
, zacep
, deny1
, DENY
, -1, ACE_OWNER
);
1477 zacep
= (void *)((uintptr_t)zacep
+ abstract_size
);
1479 new_bytes
+= abstract_size
;
1482 zfs_set_ace(aclp
, zacep
, deny2
, DENY
, -1, OWNING_GROUP
);
1483 zacep
= (void *)((uintptr_t)zacep
+ abstract_size
);
1485 new_bytes
+= abstract_size
;
1488 while ((acep
= zfs_acl_next_ace(aclp
, acep
, &who
, &access_mask
,
1490 uint16_t inherit_flags
;
1492 entry_type
= (iflags
& ACE_TYPE_FLAGS
);
1493 inherit_flags
= (iflags
& ALL_INHERIT
);
1495 if ((entry_type
== ACE_OWNER
|| entry_type
== ACE_EVERYONE
||
1496 (entry_type
== OWNING_GROUP
)) &&
1497 ((inherit_flags
& ACE_INHERIT_ONLY_ACE
) == 0)) {
1501 if ((type
!= ALLOW
&& type
!= DENY
) ||
1502 (inherit_flags
& ACE_INHERIT_ONLY_ACE
)) {
1504 aclp
->z_hints
|= ZFS_INHERIT_ACE
;
1506 case ACE_ACCESS_ALLOWED_OBJECT_ACE_TYPE
:
1507 case ACE_ACCESS_DENIED_OBJECT_ACE_TYPE
:
1508 case ACE_SYSTEM_AUDIT_OBJECT_ACE_TYPE
:
1509 case ACE_SYSTEM_ALARM_OBJECT_ACE_TYPE
:
1510 aclp
->z_hints
|= ZFS_ACL_OBJ_ACE
;
1516 * Limit permissions to be no greater than
1519 if (zsb
->z_acl_inherit
== ZFS_ACL_RESTRICTED
) {
1520 if (!(mode
& S_IRGRP
))
1521 access_mask
&= ~ACE_READ_DATA
;
1522 if (!(mode
& S_IWGRP
))
1524 ~(ACE_WRITE_DATA
|ACE_APPEND_DATA
);
1525 if (!(mode
& S_IXGRP
))
1526 access_mask
&= ~ACE_EXECUTE
;
1528 ~(ACE_WRITE_OWNER
|ACE_WRITE_ACL
|
1529 ACE_WRITE_ATTRIBUTES
|ACE_WRITE_NAMED_ATTRS
);
1532 zfs_set_ace(aclp
, zacep
, access_mask
, type
, who
, iflags
);
1533 ace_size
= aclp
->z_ops
.ace_size(acep
);
1534 zacep
= (void *)((uintptr_t)zacep
+ ace_size
);
1536 new_bytes
+= ace_size
;
1538 zfs_set_ace(aclp
, zacep
, owner
, 0, -1, ACE_OWNER
);
1539 zacep
= (void *)((uintptr_t)zacep
+ abstract_size
);
1540 zfs_set_ace(aclp
, zacep
, group
, 0, -1, OWNING_GROUP
);
1541 zacep
= (void *)((uintptr_t)zacep
+ abstract_size
);
1542 zfs_set_ace(aclp
, zacep
, everyone
, 0, -1, ACE_EVERYONE
);
1545 new_bytes
+= abstract_size
* 3;
1546 zfs_acl_release_nodes(aclp
);
1547 aclp
->z_acl_count
= new_count
;
1548 aclp
->z_acl_bytes
= new_bytes
;
1549 newnode
->z_ace_count
= new_count
;
1550 newnode
->z_size
= new_bytes
;
1551 list_insert_tail(&aclp
->z_acl
, newnode
);
1555 zfs_acl_chmod_setattr(znode_t
*zp
, zfs_acl_t
**aclp
, uint64_t mode
)
1557 mutex_enter(&zp
->z_acl_lock
);
1558 mutex_enter(&zp
->z_lock
);
1559 *aclp
= zfs_acl_alloc(zfs_acl_version_zp(zp
));
1560 (*aclp
)->z_hints
= zp
->z_pflags
& V4_ACL_WIDE_FLAGS
;
1561 zfs_acl_chmod(ZTOZSB(zp
), mode
, *aclp
);
1562 mutex_exit(&zp
->z_lock
);
1563 mutex_exit(&zp
->z_acl_lock
);
1568 * strip off write_owner and write_acl
1571 zfs_restricted_update(zfs_sb_t
*zsb
, zfs_acl_t
*aclp
, void *acep
)
1573 uint32_t mask
= aclp
->z_ops
.ace_mask_get(acep
);
1575 if ((zsb
->z_acl_inherit
== ZFS_ACL_RESTRICTED
) &&
1576 (aclp
->z_ops
.ace_type_get(acep
) == ALLOW
)) {
1577 mask
&= ~RESTRICTED_CLEAR
;
1578 aclp
->z_ops
.ace_mask_set(acep
, mask
);
1583 * Should ACE be inherited?
1586 zfs_ace_can_use(umode_t obj_mode
, uint16_t acep_flags
)
1588 int iflags
= (acep_flags
& 0xf);
1590 if (S_ISDIR(obj_mode
) && (iflags
& ACE_DIRECTORY_INHERIT_ACE
))
1592 else if (iflags
& ACE_FILE_INHERIT_ACE
)
1593 return (!(S_ISDIR(obj_mode
) &&
1594 (iflags
& ACE_NO_PROPAGATE_INHERIT_ACE
)));
1599 * inherit inheritable ACEs from parent
1602 zfs_acl_inherit(zfs_sb_t
*zsb
, umode_t obj_mode
, zfs_acl_t
*paclp
,
1603 uint64_t mode
, boolean_t
*need_chmod
)
1607 zfs_acl_node_t
*aclnode
;
1608 zfs_acl_t
*aclp
= NULL
;
1610 uint32_t access_mask
;
1611 uint16_t iflags
, newflags
, type
;
1613 void *data1
, *data2
;
1614 size_t data1sz
, data2sz
;
1615 boolean_t vdir
= S_ISDIR(obj_mode
);
1616 boolean_t vreg
= S_ISREG(obj_mode
);
1617 boolean_t passthrough
, passthrough_x
, noallow
;
1620 zsb
->z_acl_inherit
== ZFS_ACL_PASSTHROUGH_X
;
1621 passthrough
= passthrough_x
||
1622 zsb
->z_acl_inherit
== ZFS_ACL_PASSTHROUGH
;
1624 zsb
->z_acl_inherit
== ZFS_ACL_NOALLOW
;
1626 *need_chmod
= B_TRUE
;
1628 aclp
= zfs_acl_alloc(paclp
->z_version
);
1629 if (zsb
->z_acl_inherit
== ZFS_ACL_DISCARD
|| S_ISLNK(obj_mode
))
1631 while ((pacep
= zfs_acl_next_ace(paclp
, pacep
, &who
,
1632 &access_mask
, &iflags
, &type
))) {
1635 * don't inherit bogus ACEs
1637 if (!zfs_acl_valid_ace_type(type
, iflags
))
1640 if (noallow
&& type
== ALLOW
)
1643 ace_size
= aclp
->z_ops
.ace_size(pacep
);
1645 if (!zfs_ace_can_use(obj_mode
, iflags
))
1649 * If owner@, group@, or everyone@ inheritable
1650 * then zfs_acl_chmod() isn't needed.
1653 ((iflags
& (ACE_OWNER
|ACE_EVERYONE
)) ||
1654 ((iflags
& OWNING_GROUP
) ==
1655 OWNING_GROUP
)) && (vreg
|| (vdir
&& (iflags
&
1656 ACE_DIRECTORY_INHERIT_ACE
)))) {
1657 *need_chmod
= B_FALSE
;
1660 if (!vdir
&& passthrough_x
&&
1661 ((mode
& (S_IXUSR
| S_IXGRP
| S_IXOTH
)) == 0)) {
1662 access_mask
&= ~ACE_EXECUTE
;
1665 aclnode
= zfs_acl_node_alloc(ace_size
);
1666 list_insert_tail(&aclp
->z_acl
, aclnode
);
1667 acep
= aclnode
->z_acldata
;
1669 zfs_set_ace(aclp
, acep
, access_mask
, type
,
1670 who
, iflags
|ACE_INHERITED_ACE
);
1673 * Copy special opaque data if any
1675 if ((data1sz
= paclp
->z_ops
.ace_data(pacep
, &data1
)) != 0) {
1676 VERIFY((data2sz
= aclp
->z_ops
.ace_data(acep
,
1677 &data2
)) == data1sz
);
1678 bcopy(data1
, data2
, data2sz
);
1681 aclp
->z_acl_count
++;
1682 aclnode
->z_ace_count
++;
1683 aclp
->z_acl_bytes
+= aclnode
->z_size
;
1684 newflags
= aclp
->z_ops
.ace_flags_get(acep
);
1687 aclp
->z_hints
|= ZFS_INHERIT_ACE
;
1689 if ((iflags
& ACE_NO_PROPAGATE_INHERIT_ACE
) || !vdir
) {
1690 newflags
&= ~ALL_INHERIT
;
1691 aclp
->z_ops
.ace_flags_set(acep
,
1692 newflags
|ACE_INHERITED_ACE
);
1693 zfs_restricted_update(zsb
, aclp
, acep
);
1700 * If only FILE_INHERIT is set then turn on
1703 if ((iflags
& (ACE_FILE_INHERIT_ACE
|
1704 ACE_DIRECTORY_INHERIT_ACE
)) == ACE_FILE_INHERIT_ACE
) {
1705 newflags
|= ACE_INHERIT_ONLY_ACE
;
1706 aclp
->z_ops
.ace_flags_set(acep
,
1707 newflags
|ACE_INHERITED_ACE
);
1709 newflags
&= ~ACE_INHERIT_ONLY_ACE
;
1710 aclp
->z_ops
.ace_flags_set(acep
,
1711 newflags
|ACE_INHERITED_ACE
);
1718 * Create file system object initial permissions
1719 * including inheritable ACEs.
1722 zfs_acl_ids_create(znode_t
*dzp
, int flag
, vattr_t
*vap
, cred_t
*cr
,
1723 vsecattr_t
*vsecp
, zfs_acl_ids_t
*acl_ids
)
1726 zfs_sb_t
*zsb
= ZTOZSB(dzp
);
1730 #endif /* HAVE_KSID */
1731 boolean_t need_chmod
= B_TRUE
;
1732 boolean_t inherited
= B_FALSE
;
1734 bzero(acl_ids
, sizeof (zfs_acl_ids_t
));
1735 acl_ids
->z_mode
= vap
->va_mode
;
1738 if ((error
= zfs_vsec_2_aclp(zsb
, vap
->va_mode
, vsecp
,
1739 cr
, &acl_ids
->z_fuidp
, &acl_ids
->z_aclp
)) != 0)
1742 acl_ids
->z_fuid
= vap
->va_uid
;
1743 acl_ids
->z_fgid
= vap
->va_gid
;
1746 * Determine uid and gid.
1748 if ((flag
& IS_ROOT_NODE
) || zsb
->z_replay
||
1749 ((flag
& IS_XATTR
) && (S_ISDIR(vap
->va_mode
)))) {
1750 acl_ids
->z_fuid
= zfs_fuid_create(zsb
, (uint64_t)vap
->va_uid
,
1751 cr
, ZFS_OWNER
, &acl_ids
->z_fuidp
);
1752 acl_ids
->z_fgid
= zfs_fuid_create(zsb
, (uint64_t)vap
->va_gid
,
1753 cr
, ZFS_GROUP
, &acl_ids
->z_fuidp
);
1756 acl_ids
->z_fuid
= zfs_fuid_create_cred(zsb
, ZFS_OWNER
,
1757 cr
, &acl_ids
->z_fuidp
);
1758 acl_ids
->z_fgid
= 0;
1759 if (vap
->va_mask
& AT_GID
) {
1760 acl_ids
->z_fgid
= zfs_fuid_create(zsb
,
1761 (uint64_t)vap
->va_gid
,
1762 cr
, ZFS_GROUP
, &acl_ids
->z_fuidp
);
1764 if (acl_ids
->z_fgid
!= dzp
->z_gid
&&
1765 !groupmember(vap
->va_gid
, cr
) &&
1766 secpolicy_vnode_create_gid(cr
) != 0)
1767 acl_ids
->z_fgid
= 0;
1769 if (acl_ids
->z_fgid
== 0) {
1770 if (dzp
->z_mode
& S_ISGID
) {
1774 acl_ids
->z_fgid
= dzp
->z_gid
;
1775 gid
= zfs_fuid_map_id(zsb
, acl_ids
->z_fgid
,
1778 if (zsb
->z_use_fuids
&&
1779 IS_EPHEMERAL(acl_ids
->z_fgid
)) {
1780 domain
= zfs_fuid_idx_domain(
1782 FUID_INDEX(acl_ids
->z_fgid
));
1783 rid
= FUID_RID(acl_ids
->z_fgid
);
1784 zfs_fuid_node_add(&acl_ids
->z_fuidp
,
1786 FUID_INDEX(acl_ids
->z_fgid
),
1787 acl_ids
->z_fgid
, ZFS_GROUP
);
1790 acl_ids
->z_fgid
= zfs_fuid_create_cred(zsb
,
1791 ZFS_GROUP
, cr
, &acl_ids
->z_fuidp
);
1796 #endif /* HAVE_KSID */
1799 * If we're creating a directory, and the parent directory has the
1800 * set-GID bit set, set in on the new directory.
1801 * Otherwise, if the user is neither privileged nor a member of the
1802 * file's new group, clear the file's set-GID bit.
1805 if (!(flag
& IS_ROOT_NODE
) && (dzp
->z_mode
& S_ISGID
) &&
1806 (S_ISDIR(vap
->va_mode
))) {
1807 acl_ids
->z_mode
|= S_ISGID
;
1809 if ((acl_ids
->z_mode
& S_ISGID
) &&
1810 secpolicy_vnode_setids_setgids(cr
, gid
) != 0)
1811 acl_ids
->z_mode
&= ~S_ISGID
;
1814 if (acl_ids
->z_aclp
== NULL
) {
1815 mutex_enter(&dzp
->z_acl_lock
);
1816 mutex_enter(&dzp
->z_lock
);
1817 if (!(flag
& IS_ROOT_NODE
) && (S_ISDIR(ZTOI(dzp
)->i_mode
) &&
1818 (dzp
->z_pflags
& ZFS_INHERIT_ACE
)) &&
1819 !(dzp
->z_pflags
& ZFS_XATTR
)) {
1820 VERIFY(0 == zfs_acl_node_read(dzp
, B_TRUE
,
1822 acl_ids
->z_aclp
= zfs_acl_inherit(zsb
,
1823 vap
->va_mode
, paclp
, acl_ids
->z_mode
, &need_chmod
);
1827 zfs_acl_alloc(zfs_acl_version_zp(dzp
));
1828 acl_ids
->z_aclp
->z_hints
|= ZFS_ACL_TRIVIAL
;
1830 mutex_exit(&dzp
->z_lock
);
1831 mutex_exit(&dzp
->z_acl_lock
);
1833 acl_ids
->z_aclp
->z_hints
|= S_ISDIR(vap
->va_mode
) ?
1834 ZFS_ACL_AUTO_INHERIT
: 0;
1835 zfs_acl_chmod(zsb
, acl_ids
->z_mode
, acl_ids
->z_aclp
);
1839 if (inherited
|| vsecp
) {
1840 acl_ids
->z_mode
= zfs_mode_compute(acl_ids
->z_mode
,
1841 acl_ids
->z_aclp
, &acl_ids
->z_aclp
->z_hints
,
1842 acl_ids
->z_fuid
, acl_ids
->z_fgid
);
1843 if (ace_trivial_common(acl_ids
->z_aclp
, 0, zfs_ace_walk
) == 0)
1844 acl_ids
->z_aclp
->z_hints
|= ZFS_ACL_TRIVIAL
;
1851 * Free ACL and fuid_infop, but not the acl_ids structure
1854 zfs_acl_ids_free(zfs_acl_ids_t
*acl_ids
)
1856 if (acl_ids
->z_aclp
)
1857 zfs_acl_free(acl_ids
->z_aclp
);
1858 if (acl_ids
->z_fuidp
)
1859 zfs_fuid_info_free(acl_ids
->z_fuidp
);
1860 acl_ids
->z_aclp
= NULL
;
1861 acl_ids
->z_fuidp
= NULL
;
1865 zfs_acl_ids_overquota(zfs_sb_t
*zsb
, zfs_acl_ids_t
*acl_ids
)
1867 return (zfs_fuid_overquota(zsb
, B_FALSE
, acl_ids
->z_fuid
) ||
1868 zfs_fuid_overquota(zsb
, B_TRUE
, acl_ids
->z_fgid
));
1872 * Retrieve a files ACL
1875 zfs_getacl(znode_t
*zp
, vsecattr_t
*vsecp
, boolean_t skipaclchk
, cred_t
*cr
)
1883 mask
= vsecp
->vsa_mask
& (VSA_ACE
| VSA_ACECNT
|
1884 VSA_ACE_ACLFLAGS
| VSA_ACE_ALLTYPES
);
1889 if ((error
= zfs_zaccess(zp
, ACE_READ_ACL
, 0, skipaclchk
, cr
)))
1892 mutex_enter(&zp
->z_acl_lock
);
1894 error
= zfs_acl_node_read(zp
, B_FALSE
, &aclp
, B_FALSE
);
1896 mutex_exit(&zp
->z_acl_lock
);
1901 * Scan ACL to determine number of ACEs
1903 if ((zp
->z_pflags
& ZFS_ACL_OBJ_ACE
) && !(mask
& VSA_ACE_ALLTYPES
)) {
1906 uint32_t access_mask
;
1907 uint16_t type
, iflags
;
1909 while ((zacep
= zfs_acl_next_ace(aclp
, zacep
,
1910 &who
, &access_mask
, &iflags
, &type
))) {
1912 case ACE_ACCESS_ALLOWED_OBJECT_ACE_TYPE
:
1913 case ACE_ACCESS_DENIED_OBJECT_ACE_TYPE
:
1914 case ACE_SYSTEM_AUDIT_OBJECT_ACE_TYPE
:
1915 case ACE_SYSTEM_ALARM_OBJECT_ACE_TYPE
:
1922 vsecp
->vsa_aclcnt
= count
;
1924 count
= (int)aclp
->z_acl_count
;
1926 if (mask
& VSA_ACECNT
) {
1927 vsecp
->vsa_aclcnt
= count
;
1930 if (mask
& VSA_ACE
) {
1933 aclsz
= count
* sizeof (ace_t
) +
1934 sizeof (ace_object_t
) * largeace
;
1936 vsecp
->vsa_aclentp
= kmem_alloc(aclsz
, KM_SLEEP
);
1937 vsecp
->vsa_aclentsz
= aclsz
;
1939 if (aclp
->z_version
== ZFS_ACL_VERSION_FUID
)
1940 zfs_copy_fuid_2_ace(ZTOZSB(zp
), aclp
, cr
,
1941 vsecp
->vsa_aclentp
, !(mask
& VSA_ACE_ALLTYPES
));
1943 zfs_acl_node_t
*aclnode
;
1944 void *start
= vsecp
->vsa_aclentp
;
1946 for (aclnode
= list_head(&aclp
->z_acl
); aclnode
;
1947 aclnode
= list_next(&aclp
->z_acl
, aclnode
)) {
1948 bcopy(aclnode
->z_acldata
, start
,
1950 start
= (caddr_t
)start
+ aclnode
->z_size
;
1952 ASSERT((caddr_t
)start
- (caddr_t
)vsecp
->vsa_aclentp
==
1956 if (mask
& VSA_ACE_ACLFLAGS
) {
1957 vsecp
->vsa_aclflags
= 0;
1958 if (zp
->z_pflags
& ZFS_ACL_DEFAULTED
)
1959 vsecp
->vsa_aclflags
|= ACL_DEFAULTED
;
1960 if (zp
->z_pflags
& ZFS_ACL_PROTECTED
)
1961 vsecp
->vsa_aclflags
|= ACL_PROTECTED
;
1962 if (zp
->z_pflags
& ZFS_ACL_AUTO_INHERIT
)
1963 vsecp
->vsa_aclflags
|= ACL_AUTO_INHERIT
;
1966 mutex_exit(&zp
->z_acl_lock
);
1972 zfs_vsec_2_aclp(zfs_sb_t
*zsb
, umode_t obj_mode
,
1973 vsecattr_t
*vsecp
, cred_t
*cr
, zfs_fuid_info_t
**fuidp
, zfs_acl_t
**zaclp
)
1976 zfs_acl_node_t
*aclnode
;
1977 int aclcnt
= vsecp
->vsa_aclcnt
;
1980 if (vsecp
->vsa_aclcnt
> MAX_ACL_ENTRIES
|| vsecp
->vsa_aclcnt
<= 0)
1983 aclp
= zfs_acl_alloc(zfs_acl_version(zsb
->z_version
));
1986 aclnode
= zfs_acl_node_alloc(aclcnt
* sizeof (zfs_object_ace_t
));
1987 if (aclp
->z_version
== ZFS_ACL_VERSION_INITIAL
) {
1988 if ((error
= zfs_copy_ace_2_oldace(obj_mode
, aclp
,
1989 (ace_t
*)vsecp
->vsa_aclentp
, aclnode
->z_acldata
,
1990 aclcnt
, &aclnode
->z_size
)) != 0) {
1992 zfs_acl_node_free(aclnode
);
1996 if ((error
= zfs_copy_ace_2_fuid(zsb
, obj_mode
, aclp
,
1997 vsecp
->vsa_aclentp
, aclnode
->z_acldata
, aclcnt
,
1998 &aclnode
->z_size
, fuidp
, cr
)) != 0) {
2000 zfs_acl_node_free(aclnode
);
2004 aclp
->z_acl_bytes
= aclnode
->z_size
;
2005 aclnode
->z_ace_count
= aclcnt
;
2006 aclp
->z_acl_count
= aclcnt
;
2007 list_insert_head(&aclp
->z_acl
, aclnode
);
2010 * If flags are being set then add them to z_hints
2012 if (vsecp
->vsa_mask
& VSA_ACE_ACLFLAGS
) {
2013 if (vsecp
->vsa_aclflags
& ACL_PROTECTED
)
2014 aclp
->z_hints
|= ZFS_ACL_PROTECTED
;
2015 if (vsecp
->vsa_aclflags
& ACL_DEFAULTED
)
2016 aclp
->z_hints
|= ZFS_ACL_DEFAULTED
;
2017 if (vsecp
->vsa_aclflags
& ACL_AUTO_INHERIT
)
2018 aclp
->z_hints
|= ZFS_ACL_AUTO_INHERIT
;
2030 zfs_setacl(znode_t
*zp
, vsecattr_t
*vsecp
, boolean_t skipaclchk
, cred_t
*cr
)
2032 zfs_sb_t
*zsb
= ZTOZSB(zp
);
2033 zilog_t
*zilog
= zsb
->z_log
;
2034 ulong_t mask
= vsecp
->vsa_mask
& (VSA_ACE
| VSA_ACECNT
);
2038 zfs_fuid_info_t
*fuidp
= NULL
;
2039 boolean_t fuid_dirtied
;
2045 if (zp
->z_pflags
& ZFS_IMMUTABLE
)
2048 if ((error
= zfs_zaccess(zp
, ACE_WRITE_ACL
, 0, skipaclchk
, cr
)))
2051 error
= zfs_vsec_2_aclp(zsb
, ZTOI(zp
)->i_mode
, vsecp
, cr
, &fuidp
,
2057 * If ACL wide flags aren't being set then preserve any
2060 if (!(vsecp
->vsa_mask
& VSA_ACE_ACLFLAGS
)) {
2062 (zp
->z_pflags
& V4_ACL_WIDE_FLAGS
);
2065 mutex_enter(&zp
->z_acl_lock
);
2066 mutex_enter(&zp
->z_lock
);
2068 tx
= dmu_tx_create(zsb
->z_os
);
2070 dmu_tx_hold_sa(tx
, zp
->z_sa_hdl
, B_TRUE
);
2072 fuid_dirtied
= zsb
->z_fuid_dirty
;
2074 zfs_fuid_txhold(zsb
, tx
);
2077 * If old version and ACL won't fit in bonus and we aren't
2078 * upgrading then take out necessary DMU holds
2081 if ((acl_obj
= zfs_external_acl(zp
)) != 0) {
2082 if (zsb
->z_version
>= ZPL_VERSION_FUID
&&
2083 zfs_znode_acl_version(zp
) <= ZFS_ACL_VERSION_INITIAL
) {
2084 dmu_tx_hold_free(tx
, acl_obj
, 0,
2086 dmu_tx_hold_write(tx
, DMU_NEW_OBJECT
, 0,
2089 dmu_tx_hold_write(tx
, acl_obj
, 0, aclp
->z_acl_bytes
);
2091 } else if (!zp
->z_is_sa
&& aclp
->z_acl_bytes
> ZFS_ACE_SPACE
) {
2092 dmu_tx_hold_write(tx
, DMU_NEW_OBJECT
, 0, aclp
->z_acl_bytes
);
2095 zfs_sa_upgrade_txholds(tx
, zp
);
2096 error
= dmu_tx_assign(tx
, TXG_NOWAIT
);
2098 mutex_exit(&zp
->z_acl_lock
);
2099 mutex_exit(&zp
->z_lock
);
2101 if (error
== ERESTART
) {
2111 error
= zfs_aclset_common(zp
, aclp
, cr
, tx
);
2113 ASSERT(zp
->z_acl_cached
== NULL
);
2114 zp
->z_acl_cached
= aclp
;
2117 zfs_fuid_sync(zsb
, tx
);
2119 zfs_log_acl(zilog
, tx
, zp
, vsecp
, fuidp
);
2122 zfs_fuid_info_free(fuidp
);
2125 mutex_exit(&zp
->z_lock
);
2126 mutex_exit(&zp
->z_acl_lock
);
2132 * Check accesses of interest (AoI) against attributes of the dataset
2133 * such as read-only. Returns zero if no AoI conflict with dataset
2134 * attributes, otherwise an appropriate errno is returned.
2137 zfs_zaccess_dataset_check(znode_t
*zp
, uint32_t v4_mode
)
2139 if ((v4_mode
& WRITE_MASK
) && (zfs_is_readonly(ZTOZSB(zp
))) &&
2140 (!S_ISDEV(ZTOI(zp
)->i_mode
) ||
2141 (S_ISDEV(ZTOI(zp
)->i_mode
) && (v4_mode
& WRITE_MASK_ATTRS
)))) {
2146 * Only check for READONLY on non-directories.
2148 if ((v4_mode
& WRITE_MASK_DATA
) &&
2149 ((!S_ISDIR(ZTOI(zp
)->i_mode
) &&
2150 (zp
->z_pflags
& (ZFS_READONLY
| ZFS_IMMUTABLE
))) ||
2151 (S_ISDIR(ZTOI(zp
)->i_mode
) &&
2152 (zp
->z_pflags
& ZFS_IMMUTABLE
)))) {
2156 if ((v4_mode
& (ACE_DELETE
| ACE_DELETE_CHILD
)) &&
2157 (zp
->z_pflags
& ZFS_NOUNLINK
)) {
2161 if (((v4_mode
& (ACE_READ_DATA
|ACE_EXECUTE
)) &&
2162 (zp
->z_pflags
& ZFS_AV_QUARANTINED
))) {
2170 * The primary usage of this function is to loop through all of the
2171 * ACEs in the znode, determining what accesses of interest (AoI) to
2172 * the caller are allowed or denied. The AoI are expressed as bits in
2173 * the working_mode parameter. As each ACE is processed, bits covered
2174 * by that ACE are removed from the working_mode. This removal
2175 * facilitates two things. The first is that when the working mode is
2176 * empty (= 0), we know we've looked at all the AoI. The second is
2177 * that the ACE interpretation rules don't allow a later ACE to undo
2178 * something granted or denied by an earlier ACE. Removing the
2179 * discovered access or denial enforces this rule. At the end of
2180 * processing the ACEs, all AoI that were found to be denied are
2181 * placed into the working_mode, giving the caller a mask of denied
2182 * accesses. Returns:
2183 * 0 if all AoI granted
2184 * EACCESS if the denied mask is non-zero
2185 * other error if abnormal failure (e.g., IO error)
2187 * A secondary usage of the function is to determine if any of the
2188 * AoI are granted. If an ACE grants any access in
2189 * the working_mode, we immediately short circuit out of the function.
2190 * This mode is chosen by setting anyaccess to B_TRUE. The
2191 * working_mode is not a denied access mask upon exit if the function
2192 * is used in this manner.
2195 zfs_zaccess_aces_check(znode_t
*zp
, uint32_t *working_mode
,
2196 boolean_t anyaccess
, cred_t
*cr
)
2198 zfs_sb_t
*zsb
= ZTOZSB(zp
);
2201 uid_t uid
= crgetuid(cr
);
2203 uint16_t type
, iflags
;
2204 uint16_t entry_type
;
2205 uint32_t access_mask
;
2206 uint32_t deny_mask
= 0;
2207 zfs_ace_hdr_t
*acep
= NULL
;
2212 zfs_fuid_map_ids(zp
, cr
, &fowner
, &gowner
);
2214 mutex_enter(&zp
->z_acl_lock
);
2216 error
= zfs_acl_node_read(zp
, B_FALSE
, &aclp
, B_FALSE
);
2218 mutex_exit(&zp
->z_acl_lock
);
2222 ASSERT(zp
->z_acl_cached
);
2224 while ((acep
= zfs_acl_next_ace(aclp
, acep
, &who
, &access_mask
,
2226 uint32_t mask_matched
;
2228 if (!zfs_acl_valid_ace_type(type
, iflags
))
2231 if (S_ISDIR(ZTOI(zp
)->i_mode
) &&
2232 (iflags
& ACE_INHERIT_ONLY_ACE
))
2235 /* Skip ACE if it does not affect any AoI */
2236 mask_matched
= (access_mask
& *working_mode
);
2240 entry_type
= (iflags
& ACE_TYPE_FLAGS
);
2244 switch (entry_type
) {
2252 case ACE_IDENTIFIER_GROUP
:
2253 checkit
= zfs_groupmember(zsb
, who
, cr
);
2261 if (entry_type
== 0) {
2264 newid
= zfs_fuid_map_id(zsb
, who
, cr
,
2266 if (newid
!= IDMAP_WK_CREATOR_OWNER_UID
&&
2271 mutex_exit(&zp
->z_acl_lock
);
2278 DTRACE_PROBE3(zfs__ace__denies
,
2280 zfs_ace_hdr_t
*, acep
,
2281 uint32_t, mask_matched
);
2282 deny_mask
|= mask_matched
;
2284 DTRACE_PROBE3(zfs__ace__allows
,
2286 zfs_ace_hdr_t
*, acep
,
2287 uint32_t, mask_matched
);
2289 mutex_exit(&zp
->z_acl_lock
);
2293 *working_mode
&= ~mask_matched
;
2297 if (*working_mode
== 0)
2301 mutex_exit(&zp
->z_acl_lock
);
2303 /* Put the found 'denies' back on the working mode */
2305 *working_mode
|= deny_mask
;
2307 } else if (*working_mode
) {
2315 * Return true if any access whatsoever granted, we don't actually
2316 * care what access is granted.
2319 zfs_has_access(znode_t
*zp
, cred_t
*cr
)
2321 uint32_t have
= ACE_ALL_PERMS
;
2323 if (zfs_zaccess_aces_check(zp
, &have
, B_TRUE
, cr
) != 0) {
2326 owner
= zfs_fuid_map_id(ZTOZSB(zp
), zp
->z_uid
, cr
, ZFS_OWNER
);
2327 return (secpolicy_vnode_any_access(cr
, ZTOI(zp
), owner
) == 0);
2333 zfs_zaccess_common(znode_t
*zp
, uint32_t v4_mode
, uint32_t *working_mode
,
2334 boolean_t
*check_privs
, boolean_t skipaclchk
, cred_t
*cr
)
2336 zfs_sb_t
*zsb
= ZTOZSB(zp
);
2339 *working_mode
= v4_mode
;
2340 *check_privs
= B_TRUE
;
2343 * Short circuit empty requests
2345 if (v4_mode
== 0 || zsb
->z_replay
) {
2350 if ((err
= zfs_zaccess_dataset_check(zp
, v4_mode
)) != 0) {
2351 *check_privs
= B_FALSE
;
2356 * The caller requested that the ACL check be skipped. This
2357 * would only happen if the caller checked VOP_ACCESS() with a
2358 * 32 bit ACE mask and already had the appropriate permissions.
2365 return (zfs_zaccess_aces_check(zp
, working_mode
, B_FALSE
, cr
));
2369 zfs_zaccess_append(znode_t
*zp
, uint32_t *working_mode
, boolean_t
*check_privs
,
2372 if (*working_mode
!= ACE_WRITE_DATA
)
2375 return (zfs_zaccess_common(zp
, ACE_APPEND_DATA
, working_mode
,
2376 check_privs
, B_FALSE
, cr
));
2380 zfs_fastaccesschk_execute(znode_t
*zdp
, cred_t
*cr
)
2382 boolean_t owner
= B_FALSE
;
2383 boolean_t groupmbr
= B_FALSE
;
2385 uid_t uid
= crgetuid(cr
);
2388 if (zdp
->z_pflags
& ZFS_AV_QUARANTINED
)
2391 is_attr
= ((zdp
->z_pflags
& ZFS_XATTR
) &&
2392 (S_ISDIR(ZTOI(zdp
)->i_mode
)));
2397 mutex_enter(&zdp
->z_acl_lock
);
2399 if (zdp
->z_pflags
& ZFS_NO_EXECS_DENIED
) {
2400 mutex_exit(&zdp
->z_acl_lock
);
2404 if (FUID_INDEX(zdp
->z_uid
) != 0 || FUID_INDEX(zdp
->z_gid
) != 0) {
2405 mutex_exit(&zdp
->z_acl_lock
);
2409 if (uid
== zdp
->z_uid
) {
2411 if (zdp
->z_mode
& S_IXUSR
) {
2412 mutex_exit(&zdp
->z_acl_lock
);
2415 mutex_exit(&zdp
->z_acl_lock
);
2419 if (groupmember(zdp
->z_gid
, cr
)) {
2421 if (zdp
->z_mode
& S_IXGRP
) {
2422 mutex_exit(&zdp
->z_acl_lock
);
2425 mutex_exit(&zdp
->z_acl_lock
);
2429 if (!owner
&& !groupmbr
) {
2430 if (zdp
->z_mode
& S_IXOTH
) {
2431 mutex_exit(&zdp
->z_acl_lock
);
2436 mutex_exit(&zdp
->z_acl_lock
);
2439 DTRACE_PROBE(zfs__fastpath__execute__access__miss
);
2440 ZFS_ENTER(ZTOZSB(zdp
));
2441 error
= zfs_zaccess(zdp
, ACE_EXECUTE
, 0, B_FALSE
, cr
);
2442 ZFS_EXIT(ZTOZSB(zdp
));
2447 * Determine whether Access should be granted/denied.
2448 * The least priv subsytem is always consulted as a basic privilege
2449 * can define any form of access.
2452 zfs_zaccess(znode_t
*zp
, int mode
, int flags
, boolean_t skipaclchk
, cred_t
*cr
)
2454 uint32_t working_mode
;
2457 boolean_t check_privs
;
2459 znode_t
*check_zp
= zp
;
2463 is_attr
= ((zp
->z_pflags
& ZFS_XATTR
) && S_ISDIR(ZTOI(zp
)->i_mode
));
2466 * If attribute then validate against base file
2471 if ((error
= sa_lookup(zp
->z_sa_hdl
,
2472 SA_ZPL_PARENT(ZTOZSB(zp
)), &parent
,
2473 sizeof (parent
))) != 0)
2476 if ((error
= zfs_zget(ZTOZSB(zp
),
2477 parent
, &xzp
)) != 0) {
2484 * fixup mode to map to xattr perms
2487 if (mode
& (ACE_WRITE_DATA
|ACE_APPEND_DATA
)) {
2488 mode
&= ~(ACE_WRITE_DATA
|ACE_APPEND_DATA
);
2489 mode
|= ACE_WRITE_NAMED_ATTRS
;
2492 if (mode
& (ACE_READ_DATA
|ACE_EXECUTE
)) {
2493 mode
&= ~(ACE_READ_DATA
|ACE_EXECUTE
);
2494 mode
|= ACE_READ_NAMED_ATTRS
;
2498 owner
= zfs_fuid_map_id(ZTOZSB(zp
), zp
->z_uid
, cr
, ZFS_OWNER
);
2500 * Map the bits required to the standard inode flags
2501 * S_IRUSR|S_IWUSR|S_IXUSR in the needed_bits. Map the bits
2502 * mapped by working_mode (currently missing) in missing_bits.
2503 * Call secpolicy_vnode_access2() with (needed_bits & ~checkmode),
2508 working_mode
= mode
;
2509 if ((working_mode
& (ACE_READ_ACL
|ACE_READ_ATTRIBUTES
)) &&
2510 owner
== crgetuid(cr
))
2511 working_mode
&= ~(ACE_READ_ACL
|ACE_READ_ATTRIBUTES
);
2513 if (working_mode
& (ACE_READ_DATA
|ACE_READ_NAMED_ATTRS
|
2514 ACE_READ_ACL
|ACE_READ_ATTRIBUTES
|ACE_SYNCHRONIZE
))
2515 needed_bits
|= S_IRUSR
;
2516 if (working_mode
& (ACE_WRITE_DATA
|ACE_WRITE_NAMED_ATTRS
|
2517 ACE_APPEND_DATA
|ACE_WRITE_ATTRIBUTES
|ACE_SYNCHRONIZE
))
2518 needed_bits
|= S_IWUSR
;
2519 if (working_mode
& ACE_EXECUTE
)
2520 needed_bits
|= S_IXUSR
;
2522 if ((error
= zfs_zaccess_common(check_zp
, mode
, &working_mode
,
2523 &check_privs
, skipaclchk
, cr
)) == 0) {
2526 return (secpolicy_vnode_access2(cr
, ZTOI(zp
), owner
,
2527 needed_bits
, needed_bits
));
2530 if (error
&& !check_privs
) {
2536 if (error
&& (flags
& V_APPEND
)) {
2537 error
= zfs_zaccess_append(zp
, &working_mode
, &check_privs
, cr
);
2540 if (error
&& check_privs
) {
2541 mode_t checkmode
= 0;
2544 * First check for implicit owner permission on
2545 * read_acl/read_attributes
2549 ASSERT(working_mode
!= 0);
2551 if ((working_mode
& (ACE_READ_ACL
|ACE_READ_ATTRIBUTES
) &&
2552 owner
== crgetuid(cr
)))
2553 working_mode
&= ~(ACE_READ_ACL
|ACE_READ_ATTRIBUTES
);
2555 if (working_mode
& (ACE_READ_DATA
|ACE_READ_NAMED_ATTRS
|
2556 ACE_READ_ACL
|ACE_READ_ATTRIBUTES
|ACE_SYNCHRONIZE
))
2557 checkmode
|= S_IRUSR
;
2558 if (working_mode
& (ACE_WRITE_DATA
|ACE_WRITE_NAMED_ATTRS
|
2559 ACE_APPEND_DATA
|ACE_WRITE_ATTRIBUTES
|ACE_SYNCHRONIZE
))
2560 checkmode
|= S_IWUSR
;
2561 if (working_mode
& ACE_EXECUTE
)
2562 checkmode
|= S_IXUSR
;
2564 error
= secpolicy_vnode_access2(cr
, ZTOI(check_zp
), owner
,
2565 needed_bits
& ~checkmode
, needed_bits
);
2567 if (error
== 0 && (working_mode
& ACE_WRITE_OWNER
))
2568 error
= secpolicy_vnode_chown(cr
, owner
);
2569 if (error
== 0 && (working_mode
& ACE_WRITE_ACL
))
2570 error
= secpolicy_vnode_setdac(cr
, owner
);
2572 if (error
== 0 && (working_mode
&
2573 (ACE_DELETE
|ACE_DELETE_CHILD
)))
2574 error
= secpolicy_vnode_remove(cr
);
2576 if (error
== 0 && (working_mode
& ACE_SYNCHRONIZE
)) {
2577 error
= secpolicy_vnode_chown(cr
, owner
);
2581 * See if any bits other than those already checked
2582 * for are still present. If so then return EACCES
2584 if (working_mode
& ~(ZFS_CHECKED_MASKS
)) {
2588 } else if (error
== 0) {
2589 error
= secpolicy_vnode_access2(cr
, ZTOI(zp
), owner
,
2590 needed_bits
, needed_bits
);
2601 * Translate traditional unix S_IRUSR/S_IWUSR/S_IXUSR mode into
2602 * native ACL format and call zfs_zaccess()
2605 zfs_zaccess_rwx(znode_t
*zp
, mode_t mode
, int flags
, cred_t
*cr
)
2607 return (zfs_zaccess(zp
, zfs_unix_to_v4(mode
>> 6), flags
, B_FALSE
, cr
));
2611 * Access function for secpolicy_vnode_setattr
2614 zfs_zaccess_unix(znode_t
*zp
, mode_t mode
, cred_t
*cr
)
2616 int v4_mode
= zfs_unix_to_v4(mode
>> 6);
2618 return (zfs_zaccess(zp
, v4_mode
, 0, B_FALSE
, cr
));
2622 zfs_delete_final_check(znode_t
*zp
, znode_t
*dzp
,
2623 mode_t available_perms
, cred_t
*cr
)
2628 downer
= zfs_fuid_map_id(ZTOZSB(dzp
), dzp
->z_uid
, cr
, ZFS_OWNER
);
2630 error
= secpolicy_vnode_access2(cr
, ZTOI(dzp
),
2631 downer
, available_perms
, S_IWUSR
|S_IXUSR
);
2634 error
= zfs_sticky_remove_access(dzp
, zp
, cr
);
2640 * Determine whether Access should be granted/deny, without
2641 * consulting least priv subsystem.
2644 * The following chart is the recommended NFSv4 enforcement for
2645 * ability to delete an object.
2647 * -------------------------------------------------------
2648 * | Parent Dir | Target Object Permissions |
2650 * -------------------------------------------------------
2651 * | | ACL Allows | ACL Denies| Delete |
2652 * | | Delete | Delete | unspecified|
2653 * -------------------------------------------------------
2654 * | ACL Allows | Permit | Permit | Permit |
2655 * | DELETE_CHILD | |
2656 * -------------------------------------------------------
2657 * | ACL Denies | Permit | Deny | Deny |
2658 * | DELETE_CHILD | | | |
2659 * -------------------------------------------------------
2660 * | ACL specifies | | | |
2661 * | only allow | Permit | Permit | Permit |
2662 * | write and | | | |
2664 * -------------------------------------------------------
2665 * | ACL denies | | | |
2666 * | write and | Permit | Deny | Deny |
2668 * -------------------------------------------------------
2671 * No search privilege, can't even look up file?
2675 zfs_zaccess_delete(znode_t
*dzp
, znode_t
*zp
, cred_t
*cr
)
2677 uint32_t dzp_working_mode
= 0;
2678 uint32_t zp_working_mode
= 0;
2679 int dzp_error
, zp_error
;
2680 mode_t available_perms
;
2681 boolean_t dzpcheck_privs
= B_TRUE
;
2682 boolean_t zpcheck_privs
= B_TRUE
;
2685 * We want specific DELETE permissions to
2686 * take precedence over WRITE/EXECUTE. We don't
2687 * want an ACL such as this to mess us up.
2688 * user:joe:write_data:deny,user:joe:delete:allow
2690 * However, deny permissions may ultimately be overridden
2691 * by secpolicy_vnode_access().
2693 * We will ask for all of the necessary permissions and then
2694 * look at the working modes from the directory and target object
2695 * to determine what was found.
2698 if (zp
->z_pflags
& (ZFS_IMMUTABLE
| ZFS_NOUNLINK
))
2703 * If the directory permissions allow the delete, we are done.
2705 if ((dzp_error
= zfs_zaccess_common(dzp
, ACE_DELETE_CHILD
,
2706 &dzp_working_mode
, &dzpcheck_privs
, B_FALSE
, cr
)) == 0)
2710 * If target object has delete permission then we are done
2712 if ((zp_error
= zfs_zaccess_common(zp
, ACE_DELETE
, &zp_working_mode
,
2713 &zpcheck_privs
, B_FALSE
, cr
)) == 0)
2716 ASSERT(dzp_error
&& zp_error
);
2718 if (!dzpcheck_privs
)
2726 * If directory returns EACCES then delete_child was denied
2727 * due to deny delete_child. In this case send the request through
2728 * secpolicy_vnode_remove(). We don't use zfs_delete_final_check()
2729 * since that *could* allow the delete based on write/execute permission
2730 * and we want delete permissions to override write/execute.
2733 if (dzp_error
== EACCES
)
2734 return (secpolicy_vnode_remove(cr
));
2738 * only need to see if we have write/execute on directory.
2741 dzp_error
= zfs_zaccess_common(dzp
, ACE_EXECUTE
|ACE_WRITE_DATA
,
2742 &dzp_working_mode
, &dzpcheck_privs
, B_FALSE
, cr
);
2744 if (dzp_error
!= 0 && !dzpcheck_privs
)
2751 available_perms
= (dzp_working_mode
& ACE_WRITE_DATA
) ? 0 : S_IWUSR
;
2752 available_perms
|= (dzp_working_mode
& ACE_EXECUTE
) ? 0 : S_IXUSR
;
2754 return (zfs_delete_final_check(zp
, dzp
, available_perms
, cr
));
2759 zfs_zaccess_rename(znode_t
*sdzp
, znode_t
*szp
, znode_t
*tdzp
,
2760 znode_t
*tzp
, cred_t
*cr
)
2765 if (szp
->z_pflags
& ZFS_AV_QUARANTINED
)
2768 add_perm
= S_ISDIR(ZTOI(szp
)->i_mode
) ?
2769 ACE_ADD_SUBDIRECTORY
: ACE_ADD_FILE
;
2772 * Rename permissions are combination of delete permission +
2773 * add file/subdir permission.
2777 * first make sure we do the delete portion.
2779 * If that succeeds then check for add_file/add_subdir permissions
2782 if ((error
= zfs_zaccess_delete(sdzp
, szp
, cr
)))
2786 * If we have a tzp, see if we can delete it?
2789 if ((error
= zfs_zaccess_delete(tdzp
, tzp
, cr
)))
2794 * Now check for add permissions
2796 error
= zfs_zaccess(tdzp
, add_perm
, 0, B_FALSE
, cr
);