2 * OS X and Netatalk interoperability VFS module for Samba-3.x
4 * Copyright (C) Ralph Boehme, 2013, 2014
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; either version 3 of the License, or
9 * (at your option) any later version.
11 * This program is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
16 * You should have received a copy of the GNU General Public License
17 * along with this program; if not, see <http://www.gnu.org/licenses/>.
21 #include "MacExtensions.h"
22 #include "smbd/smbd.h"
23 #include "system/filesys.h"
24 #include "lib/util/time.h"
25 #include "../lib/crypto/md5.h"
26 #include "system/shmem.h"
27 #include "locking/proto.h"
28 #include "smbd/globals.h"
30 #include "libcli/security/security.h"
31 #include "../libcli/smb/smb2_create_ctx.h"
32 #include "lib/util/sys_rw.h"
33 #include "lib/util/tevent_ntstatus.h"
34 #include "lib/util/tevent_unix.h"
35 #include "offload_token.h"
36 #include "string_replace.h"
39 * Enhanced OS X and Netatalk compatibility
40 * ========================================
42 * This modules takes advantage of vfs_streams_xattr and
43 * vfs_catia. VFS modules vfs_fruit and vfs_streams_xattr must be
44 * loaded in the correct order:
46 * vfs modules = catia fruit streams_xattr
48 * The module intercepts the OS X special streams "AFP_AfpInfo" and
49 * "AFP_Resource" and handles them in a special way. All other named
50 * streams are deferred to vfs_streams_xattr.
52 * The OS X client maps all NTFS illegal characters to the Unicode
53 * private range. This module optionally stores the charcters using
54 * their native ASCII encoding using vfs_catia. If you're not enabling
55 * this feature, you can skip catia from vfs modules.
57 * Finally, open modes are optionally checked against Netatalk AFP
60 * The "AFP_AfpInfo" named stream is a binary blob containing OS X
61 * extended metadata for files and directories. This module optionally
62 * reads and stores this metadata in a way compatible with Netatalk 3
63 * which stores the metadata in an EA "org.netatalk.metadata". Cf
64 * source3/include/MacExtensions.h for a description of the binary
67 * The "AFP_Resource" named stream may be arbitrarily large, thus it
68 * can't be stored in an xattr on most filesystem. ZFS on Solaris is
69 * the only available filesystem where xattrs can be of any size and
70 * the OS supports using the file APIs for xattrs.
72 * The AFP_Resource stream is stored in an AppleDouble file prepending
73 * "._" to the filename. On Solaris with ZFS the stream is optionally
74 * stored in an EA "org.netatalk.resource".
80 * The OS X SMB client sends xattrs as ADS too. For xattr interop with
81 * other protocols you may want to adjust the xattr names the VFS
82 * module vfs_streams_xattr uses for storing ADS's. This defaults to
83 * user.DosStream.ADS_NAME:$DATA and can be changed by specifying
84 * these module parameters:
86 * streams_xattr:prefix = user.
87 * streams_xattr:store_stream_type = false
93 * - log diagnostic if any needed VFS module is not loaded
94 * (eg with lp_vfs_objects())
98 static int vfs_fruit_debug_level
= DBGC_VFS
;
100 static struct global_fruit_config
{
101 bool nego_aapl
; /* client negotiated AAPL */
103 } global_fruit_config
;
106 #define DBGC_CLASS vfs_fruit_debug_level
108 #define FRUIT_PARAM_TYPE_NAME "fruit"
109 #define ADOUBLE_NAME_PREFIX "._"
111 #define NETATALK_META_XATTR "org.netatalk.Metadata"
112 #define NETATALK_RSRC_XATTR "org.netatalk.ResourceFork"
114 #if defined(HAVE_ATTROPEN)
115 #define AFPINFO_EA_NETATALK NETATALK_META_XATTR
116 #define AFPRESOURCE_EA_NETATALK NETATALK_RSRC_XATTR
118 #define AFPINFO_EA_NETATALK "user." NETATALK_META_XATTR
119 #define AFPRESOURCE_EA_NETATALK "user." NETATALK_RSRC_XATTR
122 enum apple_fork
{APPLE_FORK_DATA
, APPLE_FORK_RSRC
};
124 enum fruit_rsrc
{FRUIT_RSRC_STREAM
, FRUIT_RSRC_ADFILE
, FRUIT_RSRC_XATTR
};
125 enum fruit_meta
{FRUIT_META_STREAM
, FRUIT_META_NETATALK
};
126 enum fruit_locking
{FRUIT_LOCKING_NETATALK
, FRUIT_LOCKING_NONE
};
127 enum fruit_encoding
{FRUIT_ENC_NATIVE
, FRUIT_ENC_PRIVATE
};
129 struct fruit_config_data
{
130 enum fruit_rsrc rsrc
;
131 enum fruit_meta meta
;
132 enum fruit_locking locking
;
133 enum fruit_encoding encoding
;
134 bool use_aapl
; /* config from smb.conf */
136 bool readdir_attr_enabled
;
137 bool unix_info_enabled
;
138 bool copyfile_enabled
;
139 bool veto_appledouble
;
141 bool aapl_zero_file_id
;
144 off_t time_machine_max_size
;
147 * Additional options, all enabled by default,
148 * possibly useful for analyzing performance. The associated
149 * operations with each of them may be expensive, so having
150 * the chance to disable them individually gives a chance
151 * tweaking the setup for the particular usecase.
153 bool readdir_attr_rsize
;
154 bool readdir_attr_finder_info
;
155 bool readdir_attr_max_access
;
158 static const struct enum_list fruit_rsrc
[] = {
159 {FRUIT_RSRC_STREAM
, "stream"}, /* pass on to vfs_streams_xattr */
160 {FRUIT_RSRC_ADFILE
, "file"}, /* ._ AppleDouble file */
161 {FRUIT_RSRC_XATTR
, "xattr"}, /* Netatalk compatible xattr (ZFS only) */
165 static const struct enum_list fruit_meta
[] = {
166 {FRUIT_META_STREAM
, "stream"}, /* pass on to vfs_streams_xattr */
167 {FRUIT_META_NETATALK
, "netatalk"}, /* Netatalk compatible xattr */
171 static const struct enum_list fruit_locking
[] = {
172 {FRUIT_LOCKING_NETATALK
, "netatalk"}, /* synchronize locks with Netatalk */
173 {FRUIT_LOCKING_NONE
, "none"},
177 static const struct enum_list fruit_encoding
[] = {
178 {FRUIT_ENC_NATIVE
, "native"}, /* map unicode private chars to ASCII */
179 {FRUIT_ENC_PRIVATE
, "private"}, /* keep unicode private chars */
183 static const char *fruit_catia_maps
=
184 "0x01:0xf001,0x02:0xf002,0x03:0xf003,0x04:0xf004,"
185 "0x05:0xf005,0x06:0xf006,0x07:0xf007,0x08:0xf008,"
186 "0x09:0xf009,0x0a:0xf00a,0x0b:0xf00b,0x0c:0xf00c,"
187 "0x0d:0xf00d,0x0e:0xf00e,0x0f:0xf00f,0x10:0xf010,"
188 "0x11:0xf011,0x12:0xf012,0x13:0xf013,0x14:0xf014,"
189 "0x15:0xf015,0x16:0xf016,0x17:0xf017,0x18:0xf018,"
190 "0x19:0xf019,0x1a:0xf01a,0x1b:0xf01b,0x1c:0xf01c,"
191 "0x1d:0xf01d,0x1e:0xf01e,0x1f:0xf01f,"
192 "0x22:0xf020,0x2a:0xf021,0x3a:0xf022,0x3c:0xf023,"
193 "0x3e:0xf024,0x3f:0xf025,0x5c:0xf026,0x7c:0xf027,"
196 /*****************************************************************************
197 * Defines, functions and data structures that deal with AppleDouble
198 *****************************************************************************/
201 * There are two AppleDouble blobs we deal with:
203 * - ADOUBLE_META - AppleDouble blob used by Netatalk for storing
204 * metadata in an xattr
206 * - ADOUBLE_RSRC - AppleDouble blob used by OS X and Netatalk in
209 typedef enum {ADOUBLE_META
, ADOUBLE_RSRC
} adouble_type_t
;
212 #define AD_VERSION2 0x00020000
213 #define AD_VERSION AD_VERSION2
216 * AppleDouble entry IDs.
218 #define ADEID_DFORK 1
219 #define ADEID_RFORK 2
221 #define ADEID_COMMENT 4
222 #define ADEID_ICONBW 5
223 #define ADEID_ICONCOL 6
224 #define ADEID_FILEI 7
225 #define ADEID_FILEDATESI 8
226 #define ADEID_FINDERI 9
227 #define ADEID_MACFILEI 10
228 #define ADEID_PRODOSFILEI 11
229 #define ADEID_MSDOSFILEI 12
230 #define ADEID_SHORTNAME 13
231 #define ADEID_AFPFILEI 14
234 /* Private Netatalk entries */
235 #define ADEID_PRIVDEV 16
236 #define ADEID_PRIVINO 17
237 #define ADEID_PRIVSYN 18
238 #define ADEID_PRIVID 19
239 #define ADEID_MAX (ADEID_PRIVID + 1)
242 * These are the real ids for the private entries,
243 * as stored in the adouble file
245 #define AD_DEV 0x80444556
246 #define AD_INO 0x80494E4F
247 #define AD_SYN 0x8053594E
248 #define AD_ID 0x8053567E
250 /* Number of actually used entries */
251 #define ADEID_NUM_XATTR 8
252 #define ADEID_NUM_DOT_UND 2
253 #define ADEID_NUM_RSRC_XATTR 1
255 /* AppleDouble magic */
256 #define AD_APPLESINGLE_MAGIC 0x00051600
257 #define AD_APPLEDOUBLE_MAGIC 0x00051607
258 #define AD_MAGIC AD_APPLEDOUBLE_MAGIC
260 /* Sizes of relevant entry bits */
261 #define ADEDLEN_MAGIC 4
262 #define ADEDLEN_VERSION 4
263 #define ADEDLEN_FILLER 16
264 #define AD_FILLER_TAG "Netatalk " /* should be 16 bytes */
265 #define ADEDLEN_NENTRIES 2
266 #define AD_HEADER_LEN (ADEDLEN_MAGIC + ADEDLEN_VERSION + \
267 ADEDLEN_FILLER + ADEDLEN_NENTRIES) /* 26 */
268 #define AD_ENTRY_LEN_EID 4
269 #define AD_ENTRY_LEN_OFF 4
270 #define AD_ENTRY_LEN_LEN 4
271 #define AD_ENTRY_LEN (AD_ENTRY_LEN_EID + AD_ENTRY_LEN_OFF + AD_ENTRY_LEN_LEN)
274 #define ADEDLEN_NAME 255
275 #define ADEDLEN_COMMENT 200
276 #define ADEDLEN_FILEI 16
277 #define ADEDLEN_FINDERI 32
278 #define ADEDLEN_FILEDATESI 16
279 #define ADEDLEN_SHORTNAME 12 /* length up to 8.3 */
280 #define ADEDLEN_AFPFILEI 4
281 #define ADEDLEN_MACFILEI 4
282 #define ADEDLEN_PRODOSFILEI 8
283 #define ADEDLEN_MSDOSFILEI 2
284 #define ADEDLEN_DID 4
285 #define ADEDLEN_PRIVDEV 8
286 #define ADEDLEN_PRIVINO 8
287 #define ADEDLEN_PRIVSYN 8
288 #define ADEDLEN_PRIVID 4
291 #define ADEDOFF_MAGIC 0
292 #define ADEDOFF_VERSION (ADEDOFF_MAGIC + ADEDLEN_MAGIC)
293 #define ADEDOFF_FILLER (ADEDOFF_VERSION + ADEDLEN_VERSION)
294 #define ADEDOFF_NENTRIES (ADEDOFF_FILLER + ADEDLEN_FILLER)
296 #define ADEDOFF_FINDERI_XATTR (AD_HEADER_LEN + \
297 (ADEID_NUM_XATTR * AD_ENTRY_LEN))
298 #define ADEDOFF_COMMENT_XATTR (ADEDOFF_FINDERI_XATTR + ADEDLEN_FINDERI)
299 #define ADEDOFF_FILEDATESI_XATTR (ADEDOFF_COMMENT_XATTR + ADEDLEN_COMMENT)
300 #define ADEDOFF_AFPFILEI_XATTR (ADEDOFF_FILEDATESI_XATTR + \
302 #define ADEDOFF_PRIVDEV_XATTR (ADEDOFF_AFPFILEI_XATTR + ADEDLEN_AFPFILEI)
303 #define ADEDOFF_PRIVINO_XATTR (ADEDOFF_PRIVDEV_XATTR + ADEDLEN_PRIVDEV)
304 #define ADEDOFF_PRIVSYN_XATTR (ADEDOFF_PRIVINO_XATTR + ADEDLEN_PRIVINO)
305 #define ADEDOFF_PRIVID_XATTR (ADEDOFF_PRIVSYN_XATTR + ADEDLEN_PRIVSYN)
307 #define ADEDOFF_FINDERI_DOT_UND (AD_HEADER_LEN + \
308 (ADEID_NUM_DOT_UND * AD_ENTRY_LEN))
309 #define ADEDOFF_RFORK_DOT_UND (ADEDOFF_FINDERI_DOT_UND + ADEDLEN_FINDERI)
311 #define AD_DATASZ_XATTR (AD_HEADER_LEN + \
312 (ADEID_NUM_XATTR * AD_ENTRY_LEN) + \
313 ADEDLEN_FINDERI + ADEDLEN_COMMENT + \
314 ADEDLEN_FILEDATESI + ADEDLEN_AFPFILEI + \
315 ADEDLEN_PRIVDEV + ADEDLEN_PRIVINO + \
316 ADEDLEN_PRIVSYN + ADEDLEN_PRIVID)
318 #if AD_DATASZ_XATTR != 402
319 #error bad size for AD_DATASZ_XATTR
322 #define AD_DATASZ_DOT_UND (AD_HEADER_LEN + \
323 (ADEID_NUM_DOT_UND * AD_ENTRY_LEN) + \
325 #if AD_DATASZ_DOT_UND != 82
326 #error bad size for AD_DATASZ_DOT_UND
330 * Sharemode locks fcntl() offsets
332 #if _FILE_OFFSET_BITS == 64 || defined(HAVE_LARGEFILE)
333 #define AD_FILELOCK_BASE (UINT64_C(0x7FFFFFFFFFFFFFFF) - 9)
335 #define AD_FILELOCK_BASE (UINT32_C(0x7FFFFFFF) - 9)
337 #define BYTELOCK_MAX (AD_FILELOCK_BASE - 1)
339 #define AD_FILELOCK_OPEN_WR (AD_FILELOCK_BASE + 0)
340 #define AD_FILELOCK_OPEN_RD (AD_FILELOCK_BASE + 1)
341 #define AD_FILELOCK_RSRC_OPEN_WR (AD_FILELOCK_BASE + 2)
342 #define AD_FILELOCK_RSRC_OPEN_RD (AD_FILELOCK_BASE + 3)
343 #define AD_FILELOCK_DENY_WR (AD_FILELOCK_BASE + 4)
344 #define AD_FILELOCK_DENY_RD (AD_FILELOCK_BASE + 5)
345 #define AD_FILELOCK_RSRC_DENY_WR (AD_FILELOCK_BASE + 6)
346 #define AD_FILELOCK_RSRC_DENY_RD (AD_FILELOCK_BASE + 7)
347 #define AD_FILELOCK_OPEN_NONE (AD_FILELOCK_BASE + 8)
348 #define AD_FILELOCK_RSRC_OPEN_NONE (AD_FILELOCK_BASE + 9)
350 /* Time stuff we overload the bits a little */
351 #define AD_DATE_CREATE 0
352 #define AD_DATE_MODIFY 4
353 #define AD_DATE_BACKUP 8
354 #define AD_DATE_ACCESS 12
355 #define AD_DATE_MASK (AD_DATE_CREATE | AD_DATE_MODIFY | \
356 AD_DATE_BACKUP | AD_DATE_ACCESS)
357 #define AD_DATE_UNIX (1 << 10)
358 #define AD_DATE_START 0x80000000
359 #define AD_DATE_DELTA 946684800
360 #define AD_DATE_FROM_UNIX(x) (htonl((x) - AD_DATE_DELTA))
361 #define AD_DATE_TO_UNIX(x) (ntohl(x) + AD_DATE_DELTA)
363 #define AD_XATTR_HDR_MAGIC 0x41545452 /* 'ATTR' */
364 #define AD_XATTR_MAX_ENTRIES 1024 /* Some arbitrarily enforced limit */
365 #define AD_XATTR_HDR_SIZE 36
366 #define AD_XATTR_MAX_HDR_SIZE 65536
368 /* Accessor macros */
369 #define ad_getentrylen(ad,eid) ((ad)->ad_eid[(eid)].ade_len)
370 #define ad_getentryoff(ad,eid) ((ad)->ad_eid[(eid)].ade_off)
371 #define ad_setentrylen(ad,eid,len) ((ad)->ad_eid[(eid)].ade_len = (len))
372 #define ad_setentryoff(ad,eid,off) ((ad)->ad_eid[(eid)].ade_off = (off))
375 * Both struct ad_xattr_header and struct ad_xattr_entry describe the in memory
376 * representation as well as the on-disk format.
378 * The ad_xattr_header follows the FinderInfo data in the FinderInfo entry if
379 * the length of the FinderInfo entry is larger then 32 bytes. It is then
380 * preceeded with 2 bytes padding.
382 * Cf: https://opensource.apple.com/source/xnu/xnu-4570.1.46/bsd/vfs/vfs_xattr.c
385 struct ad_xattr_header
{
386 uint32_t adx_magic
; /* ATTR_HDR_MAGIC */
387 uint32_t adx_debug_tag
; /* for debugging == file id of owning file */
388 uint32_t adx_total_size
; /* file offset of end of attribute header + entries + data */
389 uint32_t adx_data_start
; /* file offset to attribute data area */
390 uint32_t adx_data_length
; /* length of attribute data area */
391 uint32_t adx_reserved
[3];
393 uint16_t adx_num_attrs
;
396 /* On-disk entries are aligned on 4 byte boundaries */
397 struct ad_xattr_entry
{
398 uint32_t adx_offset
; /* file offset to data */
399 uint32_t adx_length
; /* size of attribute data */
401 uint8_t adx_namelen
; /* included the NULL terminator */
402 char *adx_name
; /* NULL-terminated UTF-8 name */
411 vfs_handle_struct
*ad_handle
;
414 adouble_type_t ad_type
;
417 struct ad_entry ad_eid
[ADEID_MAX
];
419 struct ad_xattr_header adx_header
;
420 struct ad_xattr_entry
*adx_entries
;
423 struct ad_entry_order
{
424 uint32_t id
, offset
, len
;
427 /* Netatalk AppleDouble metadata xattr */
429 struct ad_entry_order entry_order_meta_xattr
[ADEID_NUM_XATTR
+ 1] = {
430 {ADEID_FINDERI
, ADEDOFF_FINDERI_XATTR
, ADEDLEN_FINDERI
},
431 {ADEID_COMMENT
, ADEDOFF_COMMENT_XATTR
, 0},
432 {ADEID_FILEDATESI
, ADEDOFF_FILEDATESI_XATTR
, ADEDLEN_FILEDATESI
},
433 {ADEID_AFPFILEI
, ADEDOFF_AFPFILEI_XATTR
, ADEDLEN_AFPFILEI
},
434 {ADEID_PRIVDEV
, ADEDOFF_PRIVDEV_XATTR
, 0},
435 {ADEID_PRIVINO
, ADEDOFF_PRIVINO_XATTR
, 0},
436 {ADEID_PRIVSYN
, ADEDOFF_PRIVSYN_XATTR
, 0},
437 {ADEID_PRIVID
, ADEDOFF_PRIVID_XATTR
, 0},
441 /* AppleDouble resource fork file (the ones prefixed by "._") */
443 struct ad_entry_order entry_order_dot_und
[ADEID_NUM_DOT_UND
+ 1] = {
444 {ADEID_FINDERI
, ADEDOFF_FINDERI_DOT_UND
, ADEDLEN_FINDERI
},
445 {ADEID_RFORK
, ADEDOFF_RFORK_DOT_UND
, 0},
450 * Fake AppleDouble entry oder for resource fork xattr. The xattr
451 * isn't an AppleDouble file, it simply contains the resource data,
452 * but in order to be able to use some API calls like ad_getentryoff()
453 * we build a fake/helper struct adouble with this entry order struct.
456 struct ad_entry_order entry_order_rsrc_xattr
[ADEID_NUM_RSRC_XATTR
+ 1] = {
461 /* Conversion from enumerated id to on-disk AppleDouble id */
462 #define AD_EID_DISK(a) (set_eid[a])
463 static const uint32_t set_eid
[] = {
464 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15,
465 AD_DEV
, AD_INO
, AD_SYN
, AD_ID
469 /* tcon config handle */
470 struct fruit_config_data
*config
;
472 /* Denote stream type, meta or rsrc */
477 * Forward declarations
479 static struct adouble
*ad_init(TALLOC_CTX
*ctx
, vfs_handle_struct
*handle
,
480 adouble_type_t type
);
481 static int ad_set(struct adouble
*ad
, const struct smb_filename
*smb_fname
);
482 static int ad_fset(struct adouble
*ad
, files_struct
*fsp
);
483 static int adouble_path(TALLOC_CTX
*ctx
,
484 const struct smb_filename
*smb_fname__in
,
485 struct smb_filename
**ppsmb_fname_out
);
486 static AfpInfo
*afpinfo_new(TALLOC_CTX
*ctx
);
487 static ssize_t
afpinfo_pack(const AfpInfo
*ai
, char *buf
);
488 static AfpInfo
*afpinfo_unpack(TALLOC_CTX
*ctx
, const void *data
);
492 * Return a pointer to an AppleDouble entry
494 * Returns NULL if the entry is not present
496 static char *ad_get_entry(const struct adouble
*ad
, int eid
)
498 off_t off
= ad_getentryoff(ad
, eid
);
499 size_t len
= ad_getentrylen(ad
, eid
);
501 if (off
== 0 || len
== 0) {
505 return ad
->ad_data
+ off
;
511 static int ad_getdate(const struct adouble
*ad
,
512 unsigned int dateoff
,
515 bool xlate
= (dateoff
& AD_DATE_UNIX
);
518 dateoff
&= AD_DATE_MASK
;
519 p
= ad_get_entry(ad
, ADEID_FILEDATESI
);
524 if (dateoff
> AD_DATE_ACCESS
) {
528 memcpy(date
, p
+ dateoff
, sizeof(uint32_t));
531 *date
= AD_DATE_TO_UNIX(*date
);
539 static int ad_setdate(struct adouble
*ad
, unsigned int dateoff
, uint32_t date
)
541 bool xlate
= (dateoff
& AD_DATE_UNIX
);
544 p
= ad_get_entry(ad
, ADEID_FILEDATESI
);
549 dateoff
&= AD_DATE_MASK
;
551 date
= AD_DATE_FROM_UNIX(date
);
554 if (dateoff
> AD_DATE_ACCESS
) {
558 memcpy(p
+ dateoff
, &date
, sizeof(date
));
565 * Map on-disk AppleDouble id to enumerated id
567 static uint32_t get_eid(uint32_t eid
)
575 return ADEID_PRIVDEV
;
577 return ADEID_PRIVINO
;
579 return ADEID_PRIVSYN
;
590 * Pack AppleDouble structure into data buffer
592 static bool ad_pack(struct adouble
*ad
)
599 bufsize
= talloc_get_size(ad
->ad_data
);
600 if (bufsize
< AD_DATASZ_DOT_UND
) {
601 DBG_ERR("bad buffer size [0x%" PRIx32
"]\n", bufsize
);
605 if (offset
+ ADEDLEN_MAGIC
< offset
||
606 offset
+ ADEDLEN_MAGIC
>= bufsize
) {
609 RSIVAL(ad
->ad_data
, offset
, ad
->ad_magic
);
610 offset
+= ADEDLEN_MAGIC
;
612 if (offset
+ ADEDLEN_VERSION
< offset
||
613 offset
+ ADEDLEN_VERSION
>= bufsize
) {
616 RSIVAL(ad
->ad_data
, offset
, ad
->ad_version
);
617 offset
+= ADEDLEN_VERSION
;
619 if (offset
+ ADEDLEN_FILLER
< offset
||
620 offset
+ ADEDLEN_FILLER
>= bufsize
) {
623 if (ad
->ad_type
== ADOUBLE_RSRC
) {
624 memcpy(ad
->ad_data
+ offset
, AD_FILLER_TAG
, ADEDLEN_FILLER
);
626 offset
+= ADEDLEN_FILLER
;
628 if (offset
+ ADEDLEN_NENTRIES
< offset
||
629 offset
+ ADEDLEN_NENTRIES
>= bufsize
) {
632 offset
+= ADEDLEN_NENTRIES
;
634 for (eid
= 0, nent
= 0; eid
< ADEID_MAX
; eid
++) {
635 if (ad
->ad_eid
[eid
].ade_off
== 0) {
637 * ade_off is also used as indicator whether a
638 * specific entry is used or not
643 if (offset
+ AD_ENTRY_LEN_EID
< offset
||
644 offset
+ AD_ENTRY_LEN_EID
>= bufsize
) {
647 RSIVAL(ad
->ad_data
, offset
, AD_EID_DISK(eid
));
648 offset
+= AD_ENTRY_LEN_EID
;
650 if (offset
+ AD_ENTRY_LEN_OFF
< offset
||
651 offset
+ AD_ENTRY_LEN_OFF
>= bufsize
) {
654 RSIVAL(ad
->ad_data
, offset
, ad
->ad_eid
[eid
].ade_off
);
655 offset
+= AD_ENTRY_LEN_OFF
;
657 if (offset
+ AD_ENTRY_LEN_LEN
< offset
||
658 offset
+ AD_ENTRY_LEN_LEN
>= bufsize
) {
661 RSIVAL(ad
->ad_data
, offset
, ad
->ad_eid
[eid
].ade_len
);
662 offset
+= AD_ENTRY_LEN_LEN
;
667 if (ADEDOFF_NENTRIES
+ 2 >= bufsize
) {
670 RSSVAL(ad
->ad_data
, ADEDOFF_NENTRIES
, nent
);
675 static bool ad_unpack_xattrs(struct adouble
*ad
)
677 struct ad_xattr_header
*h
= &ad
->adx_header
;
678 const char *p
= ad
->ad_data
;
682 if (ad_getentrylen(ad
, ADEID_FINDERI
) <= ADEDLEN_FINDERI
) {
686 /* 2 bytes padding */
687 hoff
= ad_getentryoff(ad
, ADEID_FINDERI
) + ADEDLEN_FINDERI
+ 2;
689 h
->adx_magic
= RIVAL(p
, hoff
+ 0);
690 h
->adx_debug_tag
= RIVAL(p
, hoff
+ 4); /* Not used -> not checked */
691 h
->adx_total_size
= RIVAL(p
, hoff
+ 8);
692 h
->adx_data_start
= RIVAL(p
, hoff
+ 12);
693 h
->adx_data_length
= RIVAL(p
, hoff
+ 16);
694 h
->adx_flags
= RSVAL(p
, hoff
+ 32); /* Not used -> not checked */
695 h
->adx_num_attrs
= RSVAL(p
, hoff
+ 34);
697 if (h
->adx_magic
!= AD_XATTR_HDR_MAGIC
) {
698 DBG_ERR("Bad magic: 0x%" PRIx32
"\n", h
->adx_magic
);
702 if (h
->adx_total_size
> ad_getentryoff(ad
, ADEID_RFORK
)) {
703 DBG_ERR("Bad total size: 0x%" PRIx32
"\n", h
->adx_total_size
);
706 if (h
->adx_total_size
> AD_XATTR_MAX_HDR_SIZE
) {
707 DBG_ERR("Bad total size: 0x%" PRIx32
"\n", h
->adx_total_size
);
711 if (h
->adx_data_start
< (hoff
+ AD_XATTR_HDR_SIZE
)) {
712 DBG_ERR("Bad start: 0x%" PRIx32
"\n", h
->adx_data_start
);
716 if ((h
->adx_data_start
+ h
->adx_data_length
) < h
->adx_data_start
) {
717 DBG_ERR("Bad length: %" PRIu32
"\n", h
->adx_data_length
);
720 if ((h
->adx_data_start
+ h
->adx_data_length
) >
721 ad
->adx_header
.adx_total_size
)
723 DBG_ERR("Bad length: %" PRIu32
"\n", h
->adx_data_length
);
727 if (h
->adx_num_attrs
> AD_XATTR_MAX_ENTRIES
) {
728 DBG_ERR("Bad num xattrs: %" PRIu16
"\n", h
->adx_num_attrs
);
732 if (h
->adx_num_attrs
== 0) {
736 ad
->adx_entries
= talloc_zero_array(
737 ad
, struct ad_xattr_entry
, h
->adx_num_attrs
);
738 if (ad
->adx_entries
== NULL
) {
742 hoff
+= AD_XATTR_HDR_SIZE
;
744 for (i
= 0; i
< h
->adx_num_attrs
; i
++) {
745 struct ad_xattr_entry
*e
= &ad
->adx_entries
[i
];
747 hoff
= (hoff
+ 3) & ~3;
749 e
->adx_offset
= RIVAL(p
, hoff
+ 0);
750 e
->adx_length
= RIVAL(p
, hoff
+ 4);
751 e
->adx_flags
= RSVAL(p
, hoff
+ 8);
752 e
->adx_namelen
= *(p
+ hoff
+ 10);
754 if (e
->adx_offset
>= ad
->adx_header
.adx_total_size
) {
755 DBG_ERR("Bad adx_offset: %" PRIx32
"\n",
760 if ((e
->adx_offset
+ e
->adx_length
) < e
->adx_offset
) {
761 DBG_ERR("Bad adx_length: %" PRIx32
"\n",
766 if ((e
->adx_offset
+ e
->adx_length
) >
767 ad
->adx_header
.adx_total_size
)
769 DBG_ERR("Bad adx_length: %" PRIx32
"\n",
774 if (e
->adx_namelen
== 0) {
775 DBG_ERR("Bad adx_namelen: %" PRIx32
"\n",
779 if ((hoff
+ 11 + e
->adx_namelen
) < hoff
+ 11) {
780 DBG_ERR("Bad adx_namelen: %" PRIx32
"\n",
784 if ((hoff
+ 11 + e
->adx_namelen
) >
785 ad
->adx_header
.adx_data_start
)
787 DBG_ERR("Bad adx_namelen: %" PRIx32
"\n",
792 e
->adx_name
= talloc_strndup(ad
->adx_entries
,
795 if (e
->adx_name
== NULL
) {
799 DBG_DEBUG("xattr [%s] offset [0x%x] size [0x%x]\n",
800 e
->adx_name
, e
->adx_offset
, e
->adx_length
);
801 dump_data(10, (uint8_t *)(ad
->ad_data
+ e
->adx_offset
),
804 hoff
+= 11 + e
->adx_namelen
;
811 * Unpack an AppleDouble blob into a struct adoble
813 static bool ad_unpack(struct adouble
*ad
, const size_t nentries
,
816 size_t bufsize
= talloc_get_size(ad
->ad_data
);
818 uint32_t eid
, len
, off
;
822 * The size of the buffer ad->ad_data is checked when read, so
823 * we wouldn't have to check our own offsets, a few extra
824 * checks won't hurt though. We have to check the offsets we
825 * read from the buffer anyway.
828 if (bufsize
< (AD_HEADER_LEN
+ (AD_ENTRY_LEN
* nentries
))) {
829 DEBUG(1, ("bad size\n"));
833 ad
->ad_magic
= RIVAL(ad
->ad_data
, 0);
834 ad
->ad_version
= RIVAL(ad
->ad_data
, ADEDOFF_VERSION
);
835 if ((ad
->ad_magic
!= AD_MAGIC
) || (ad
->ad_version
!= AD_VERSION
)) {
836 DEBUG(1, ("wrong magic or version\n"));
840 adentries
= RSVAL(ad
->ad_data
, ADEDOFF_NENTRIES
);
841 if (adentries
!= nentries
) {
842 DEBUG(1, ("invalid number of entries: %zu\n",
847 /* now, read in the entry bits */
848 for (i
= 0; i
< adentries
; i
++) {
849 eid
= RIVAL(ad
->ad_data
, AD_HEADER_LEN
+ (i
* AD_ENTRY_LEN
));
851 off
= RIVAL(ad
->ad_data
, AD_HEADER_LEN
+ (i
* AD_ENTRY_LEN
) + 4);
852 len
= RIVAL(ad
->ad_data
, AD_HEADER_LEN
+ (i
* AD_ENTRY_LEN
) + 8);
854 if (!eid
|| eid
>= ADEID_MAX
) {
855 DEBUG(1, ("bogus eid %d\n", eid
));
860 * All entries other than the resource fork are
861 * expected to be read into the ad_data buffer, so
862 * ensure the specified offset is within that bound
864 if ((off
> bufsize
) && (eid
!= ADEID_RFORK
)) {
865 DEBUG(1, ("bogus eid %d: off: %" PRIu32
", len: %" PRIu32
"\n",
871 * All entries besides FinderInfo and resource fork
872 * must fit into the buffer. FinderInfo is special as
873 * it may be larger then the default 32 bytes (if it
874 * contains marshalled xattrs), but we will fixup that
875 * in ad_convert(). And the resource fork is never
876 * accessed directly by the ad_data buf (also see
877 * comment above) anyway.
879 if ((eid
!= ADEID_RFORK
) &&
880 (eid
!= ADEID_FINDERI
) &&
881 ((off
+ len
) > bufsize
)) {
882 DEBUG(1, ("bogus eid %d: off: %" PRIu32
", len: %" PRIu32
"\n",
888 * That would be obviously broken
890 if (off
> filesize
) {
891 DEBUG(1, ("bogus eid %d: off: %" PRIu32
", len: %" PRIu32
"\n",
897 * Check for any entry that has its end beyond the
900 if (off
+ len
< off
) {
901 DEBUG(1, ("offset wrap in eid %d: off: %" PRIu32
902 ", len: %" PRIu32
"\n",
907 if (off
+ len
> filesize
) {
909 * If this is the resource fork entry, we fix
910 * up the length, for any other entry we bail
913 if (eid
!= ADEID_RFORK
) {
914 DEBUG(1, ("bogus eid %d: off: %" PRIu32
915 ", len: %" PRIu32
"\n",
921 * Fixup the resource fork entry by limiting
922 * the size to entryoffset - filesize.
924 len
= filesize
- off
;
925 DEBUG(1, ("Limiting ADEID_RFORK: off: %" PRIu32
926 ", len: %" PRIu32
"\n", off
, len
));
929 ad
->ad_eid
[eid
].ade_off
= off
;
930 ad
->ad_eid
[eid
].ade_len
= len
;
933 ok
= ad_unpack_xattrs(ad
);
941 static bool ad_convert_xattr(struct adouble
*ad
,
942 const struct smb_filename
*smb_fname
,
945 static struct char_mappings
**string_replace_cmaps
= NULL
;
950 if (ad
->adx_header
.adx_num_attrs
== 0) {
954 if (string_replace_cmaps
== NULL
) {
955 const char **mappings
= NULL
;
957 mappings
= str_list_make_v3_const(
958 talloc_tos(), fruit_catia_maps
, NULL
);
959 if (mappings
== NULL
) {
962 string_replace_cmaps
= string_replace_init_map(mappings
);
963 TALLOC_FREE(mappings
);
966 for (i
= 0; i
< ad
->adx_header
.adx_num_attrs
; i
++) {
967 struct ad_xattr_entry
*e
= &ad
->adx_entries
[i
];
968 char *mapped_name
= NULL
;
970 struct smb_filename
*stream_name
= NULL
;
971 files_struct
*fsp
= NULL
;
974 status
= string_replace_allocate(ad
->ad_handle
->conn
,
976 string_replace_cmaps
,
979 vfs_translate_to_windows
);
980 if (!NT_STATUS_IS_OK(status
) &&
981 !NT_STATUS_EQUAL(status
, NT_STATUS_NONE_MAPPED
))
983 DBG_ERR("string_replace_allocate failed\n");
988 mapped_name
= talloc_asprintf(talloc_tos(), ":%s", tmp
);
990 if (mapped_name
== NULL
) {
994 stream_name
= synthetic_smb_fname(talloc_tos(),
995 smb_fname
->base_name
,
999 TALLOC_FREE(mapped_name
);
1000 if (stream_name
== NULL
) {
1001 DBG_ERR("synthetic_smb_fname failed\n");
1005 DBG_DEBUG("stream_name: %s\n", smb_fname_str_dbg(stream_name
));
1007 status
= SMB_VFS_CREATE_FILE(
1008 ad
->ad_handle
->conn
, /* conn */
1010 0, /* root_dir_fid */
1011 stream_name
, /* fname */
1012 FILE_GENERIC_WRITE
, /* access_mask */
1013 FILE_SHARE_READ
| FILE_SHARE_WRITE
, /* share_access */
1014 FILE_OPEN_IF
, /* create_disposition */
1015 0, /* create_options */
1016 0, /* file_attributes */
1017 INTERNAL_OPEN_ONLY
, /* oplock_request */
1019 0, /* allocation_size */
1020 0, /* private_flags */
1025 NULL
, NULL
); /* create context */
1026 TALLOC_FREE(stream_name
);
1027 if (!NT_STATUS_IS_OK(status
)) {
1028 DBG_ERR("SMB_VFS_CREATE_FILE failed\n");
1032 nwritten
= SMB_VFS_PWRITE(fsp
,
1033 map
+ e
->adx_offset
,
1036 if (nwritten
== -1) {
1037 DBG_ERR("SMB_VFS_PWRITE failed\n");
1038 saved_errno
= errno
;
1039 close_file(NULL
, fsp
, ERROR_CLOSE
);
1040 errno
= saved_errno
;
1044 status
= close_file(NULL
, fsp
, NORMAL_CLOSE
);
1045 if (!NT_STATUS_IS_OK(status
)) {
1055 * Convert from Apple's ._ file to Netatalk
1057 * Apple's AppleDouble may contain a FinderInfo entry longer then 32
1058 * bytes containing packed xattrs. Netatalk can't deal with that, so
1059 * we simply discard the packed xattrs.
1061 * @return -1 in case an error occurred, 0 if no conversion was done, 1
1064 static int ad_convert(struct adouble
*ad
,
1065 const struct smb_filename
*smb_fname
,
1069 char *map
= MAP_FAILED
;
1073 origlen
= ad_getentryoff(ad
, ADEID_RFORK
) +
1074 ad_getentrylen(ad
, ADEID_RFORK
);
1076 /* FIXME: direct use of mmap(), vfs_aio_fork does it too */
1077 map
= mmap(NULL
, origlen
, PROT_READ
|PROT_WRITE
, MAP_SHARED
, fd
, 0);
1078 if (map
== MAP_FAILED
) {
1079 DEBUG(2, ("mmap AppleDouble: %s\n", strerror(errno
)));
1084 ok
= ad_convert_xattr(ad
, smb_fname
, map
);
1086 munmap(map
, origlen
);
1090 if (ad_getentrylen(ad
, ADEID_RFORK
) > 0) {
1091 memmove(map
+ ad_getentryoff(ad
, ADEID_FINDERI
) + ADEDLEN_FINDERI
,
1092 map
+ ad_getentryoff(ad
, ADEID_RFORK
),
1093 ad_getentrylen(ad
, ADEID_RFORK
));
1096 ad_setentrylen(ad
, ADEID_FINDERI
, ADEDLEN_FINDERI
);
1097 ad_setentryoff(ad
, ADEID_RFORK
,
1098 ad_getentryoff(ad
, ADEID_FINDERI
) + ADEDLEN_FINDERI
);
1101 * FIXME: direct ftruncate(), but we don't have a fsp for the
1104 rc
= ftruncate(fd
, ad_getentryoff(ad
, ADEID_RFORK
)
1105 + ad_getentrylen(ad
, ADEID_RFORK
));
1108 if (map
!= MAP_FAILED
) {
1109 munmap(map
, origlen
);
1115 * Read and parse Netatalk AppleDouble metadata xattr
1117 static ssize_t
ad_read_meta(struct adouble
*ad
,
1118 const struct smb_filename
*smb_fname
)
1124 DEBUG(10, ("reading meta xattr for %s\n", smb_fname
->base_name
));
1126 ealen
= SMB_VFS_GETXATTR(ad
->ad_handle
->conn
, smb_fname
,
1127 AFPINFO_EA_NETATALK
, ad
->ad_data
,
1133 if (errno
== ENOATTR
) {
1139 DEBUG(2, ("error reading meta xattr: %s\n",
1145 if (ealen
!= AD_DATASZ_XATTR
) {
1146 DEBUG(2, ("bad size %zd\n", ealen
));
1152 /* Now parse entries */
1153 ok
= ad_unpack(ad
, ADEID_NUM_XATTR
, AD_DATASZ_XATTR
);
1155 DEBUG(2, ("invalid AppleDouble metadata xattr\n"));
1161 if (!ad_getentryoff(ad
, ADEID_FINDERI
)
1162 || !ad_getentryoff(ad
, ADEID_COMMENT
)
1163 || !ad_getentryoff(ad
, ADEID_FILEDATESI
)
1164 || !ad_getentryoff(ad
, ADEID_AFPFILEI
)
1165 || !ad_getentryoff(ad
, ADEID_PRIVDEV
)
1166 || !ad_getentryoff(ad
, ADEID_PRIVINO
)
1167 || !ad_getentryoff(ad
, ADEID_PRIVSYN
)
1168 || !ad_getentryoff(ad
, ADEID_PRIVID
)) {
1169 DEBUG(2, ("invalid AppleDouble metadata xattr\n"));
1176 DEBUG(10, ("reading meta xattr for %s, rc: %d\n",
1177 smb_fname
->base_name
, rc
));
1181 if (errno
== EINVAL
) {
1183 removexattr(smb_fname
->base_name
, AFPINFO_EA_NETATALK
);
1191 static int ad_open_rsrc_xattr(const struct smb_filename
*smb_fname
,
1195 #ifdef HAVE_ATTROPEN
1196 /* FIXME: direct Solaris xattr syscall */
1197 return attropen(smb_fname
->base_name
,
1198 AFPRESOURCE_EA_NETATALK
, flags
, mode
);
1205 static int ad_open_rsrc_adouble(const struct smb_filename
*smb_fname
,
1211 struct smb_filename
*adp_smb_fname
= NULL
;
1213 ret
= adouble_path(talloc_tos(), smb_fname
, &adp_smb_fname
);
1218 fd
= open(adp_smb_fname
->base_name
, flags
, mode
);
1219 TALLOC_FREE(adp_smb_fname
);
1224 static int ad_open_rsrc(vfs_handle_struct
*handle
,
1225 const struct smb_filename
*smb_fname
,
1229 struct fruit_config_data
*config
= NULL
;
1232 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
1233 struct fruit_config_data
, return -1);
1235 if (config
->rsrc
== FRUIT_RSRC_XATTR
) {
1236 fd
= ad_open_rsrc_xattr(smb_fname
, flags
, mode
);
1238 fd
= ad_open_rsrc_adouble(smb_fname
, flags
, mode
);
1245 * Here's the deal: for ADOUBLE_META we can do without an fd as we can issue
1246 * path based xattr calls. For ADOUBLE_RSRC however we need a full-fledged fd
1247 * for file IO on the ._ file.
1249 static int ad_open(vfs_handle_struct
*handle
,
1252 const struct smb_filename
*smb_fname
,
1258 DBG_DEBUG("Path [%s] type [%s]\n", smb_fname
->base_name
,
1259 ad
->ad_type
== ADOUBLE_META
? "meta" : "rsrc");
1261 if (ad
->ad_type
== ADOUBLE_META
) {
1265 if ((fsp
!= NULL
) && (fsp
->fh
!= NULL
) && (fsp
->fh
->fd
!= -1)) {
1266 ad
->ad_fd
= fsp
->fh
->fd
;
1267 ad
->ad_opened
= false;
1271 fd
= ad_open_rsrc(handle
, smb_fname
, flags
, mode
);
1275 ad
->ad_opened
= true;
1278 DBG_DEBUG("Path [%s] type [%s] fd [%d]\n",
1279 smb_fname
->base_name
,
1280 ad
->ad_type
== ADOUBLE_META
? "meta" : "rsrc", fd
);
1285 static ssize_t
ad_read_rsrc_xattr(struct adouble
*ad
)
1290 /* FIXME: direct sys_fstat(), don't have an fsp */
1291 ret
= sys_fstat(ad
->ad_fd
, &st
,
1292 lp_fake_directory_create_times(
1293 SNUM(ad
->ad_handle
->conn
)));
1298 ad_setentrylen(ad
, ADEID_RFORK
, st
.st_ex_size
);
1299 return st
.st_ex_size
;
1302 static ssize_t
ad_read_rsrc_adouble(struct adouble
*ad
,
1303 const struct smb_filename
*smb_fname
)
1305 SMB_STRUCT_STAT sbuf
;
1309 struct smb_filename
*stream_name
= NULL
;
1310 files_struct
*fsp
= NULL
;
1315 int saved_errno
= 0;
1319 ret
= sys_fstat(ad
->ad_fd
, &sbuf
, lp_fake_directory_create_times(
1320 SNUM(ad
->ad_handle
->conn
)));
1326 * AppleDouble file header content and size, two cases:
1328 * - without xattrs it is exactly AD_DATASZ_DOT_UND (82) bytes large
1329 * - with embedded xattrs it can be larger, up to AD_XATTR_MAX_HDR_SIZE
1331 * Read as much as we can up to AD_XATTR_MAX_HDR_SIZE.
1333 size
= sbuf
.st_ex_size
;
1334 if (size
> talloc_array_length(ad
->ad_data
)) {
1335 if (size
> AD_XATTR_MAX_HDR_SIZE
) {
1336 size
= AD_XATTR_MAX_HDR_SIZE
;
1338 p_ad
= talloc_realloc(ad
, ad
->ad_data
, char, size
);
1345 len
= sys_pread(ad
->ad_fd
, ad
->ad_data
,
1346 talloc_array_length(ad
->ad_data
), 0);
1347 if (len
!= talloc_array_length(ad
->ad_data
)) {
1348 DBG_NOTICE("%s %s: bad size: %zd\n",
1349 smb_fname
->base_name
, strerror(errno
), len
);
1353 /* Now parse entries */
1354 ok
= ad_unpack(ad
, ADEID_NUM_DOT_UND
, sbuf
.st_ex_size
);
1356 DBG_ERR("invalid AppleDouble resource %s\n",
1357 smb_fname
->base_name
);
1362 if ((ad_getentryoff(ad
, ADEID_FINDERI
) != ADEDOFF_FINDERI_DOT_UND
)
1363 || (ad_getentrylen(ad
, ADEID_FINDERI
) < ADEDLEN_FINDERI
)
1364 || (ad_getentryoff(ad
, ADEID_RFORK
) < ADEDOFF_RFORK_DOT_UND
)) {
1365 DBG_ERR("invalid AppleDouble resource %s\n",
1366 smb_fname
->base_name
);
1371 if (ad_getentrylen(ad
, ADEID_FINDERI
) == ADEDLEN_FINDERI
) {
1376 * Try to fixup AppleDouble files created by OS X with xattrs
1377 * appended to the ADEID_FINDERI entry. We simply remove the
1378 * xattrs blob, this means any fancy xattr that was stored
1382 ret
= ad_convert(ad
, smb_fname
, ad
->ad_fd
);
1384 DBG_WARNING("Failed to convert [%s]\n", smb_fname
->base_name
);
1390 DBG_WARNING("ad_pack [%s] failed\n", smb_fname
->base_name
);
1394 len
= sys_pwrite(ad
->ad_fd
, ad
->ad_data
, AD_DATASZ_DOT_UND
, 0);
1395 if (len
!= AD_DATASZ_DOT_UND
) {
1396 DBG_ERR("%s: bad size: %zd\n", smb_fname
->base_name
, len
);
1400 p_ad
= ad_get_entry(ad
, ADEID_FINDERI
);
1405 ai
= afpinfo_new(talloc_tos());
1410 memcpy(ai
->afpi_FinderInfo
, p_ad
, ADEDLEN_FINDERI
);
1412 aiblob
= data_blob_talloc(talloc_tos(), NULL
, AFP_INFO_SIZE
);
1413 if (aiblob
.data
== NULL
) {
1418 size
= afpinfo_pack(ai
, (char *)aiblob
.data
);
1420 if (size
!= AFP_INFO_SIZE
) {
1424 stream_name
= synthetic_smb_fname(talloc_tos(),
1425 smb_fname
->base_name
,
1429 if (stream_name
== NULL
) {
1430 data_blob_free(&aiblob
);
1431 DBG_ERR("synthetic_smb_fname failed\n");
1435 DBG_DEBUG("stream_name: %s\n", smb_fname_str_dbg(stream_name
));
1437 status
= SMB_VFS_CREATE_FILE(
1438 ad
->ad_handle
->conn
, /* conn */
1440 0, /* root_dir_fid */
1441 stream_name
, /* fname */
1442 FILE_GENERIC_WRITE
, /* access_mask */
1443 FILE_SHARE_READ
| FILE_SHARE_WRITE
, /* share_access */
1444 FILE_OPEN_IF
, /* create_disposition */
1445 0, /* create_options */
1446 0, /* file_attributes */
1447 INTERNAL_OPEN_ONLY
, /* oplock_request */
1449 0, /* allocation_size */
1450 0, /* private_flags */
1455 NULL
, NULL
); /* create context */
1456 TALLOC_FREE(stream_name
);
1457 if (!NT_STATUS_IS_OK(status
)) {
1458 DBG_ERR("SMB_VFS_CREATE_FILE failed\n");
1462 nwritten
= SMB_VFS_PWRITE(fsp
,
1466 if (nwritten
== -1) {
1467 DBG_ERR("SMB_VFS_PWRITE failed\n");
1468 saved_errno
= errno
;
1469 close_file(NULL
, fsp
, ERROR_CLOSE
);
1470 errno
= saved_errno
;
1474 status
= close_file(NULL
, fsp
, NORMAL_CLOSE
);
1475 if (!NT_STATUS_IS_OK(status
)) {
1484 * Read and parse resource fork, either ._ AppleDouble file or xattr
1486 static ssize_t
ad_read_rsrc(struct adouble
*ad
,
1487 const struct smb_filename
*smb_fname
)
1489 struct fruit_config_data
*config
= NULL
;
1492 SMB_VFS_HANDLE_GET_DATA(ad
->ad_handle
, config
,
1493 struct fruit_config_data
, return -1);
1495 if (config
->rsrc
== FRUIT_RSRC_XATTR
) {
1496 len
= ad_read_rsrc_xattr(ad
);
1498 len
= ad_read_rsrc_adouble(ad
, smb_fname
);
1505 * Read and unpack an AppleDouble metadata xattr or resource
1507 static ssize_t
ad_read(struct adouble
*ad
, const struct smb_filename
*smb_fname
)
1509 switch (ad
->ad_type
) {
1511 return ad_read_meta(ad
, smb_fname
);
1513 return ad_read_rsrc(ad
, smb_fname
);
1519 static int adouble_destructor(struct adouble
*ad
)
1521 if ((ad
->ad_fd
!= -1) && ad
->ad_opened
) {
1529 * Allocate a struct adouble without initialiing it
1531 * The struct is either hang of the fsp extension context or if fsp is
1534 * @param[in] ctx talloc context
1535 * @param[in] handle vfs handle
1536 * @param[in] type type of AppleDouble, ADOUBLE_META or ADOUBLE_RSRC
1538 * @return adouble handle
1540 static struct adouble
*ad_alloc(TALLOC_CTX
*ctx
, vfs_handle_struct
*handle
,
1541 adouble_type_t type
)
1546 struct fruit_config_data
*config
;
1548 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
1549 struct fruit_config_data
, return NULL
);
1553 adsize
= AD_DATASZ_XATTR
;
1556 if (config
->rsrc
== FRUIT_RSRC_ADFILE
) {
1557 adsize
= AD_DATASZ_DOT_UND
;
1564 ad
= talloc_zero(ctx
, struct adouble
);
1571 ad
->ad_data
= talloc_zero_array(ad
, char, adsize
);
1572 if (ad
->ad_data
== NULL
) {
1578 ad
->ad_handle
= handle
;
1580 ad
->ad_magic
= AD_MAGIC
;
1581 ad
->ad_version
= AD_VERSION
;
1584 talloc_set_destructor(ad
, adouble_destructor
);
1594 * Allocate and initialize a new struct adouble
1596 * @param[in] ctx talloc context
1597 * @param[in] handle vfs handle
1598 * @param[in] type type of AppleDouble, ADOUBLE_META or ADOUBLE_RSRC
1600 * @return adouble handle, initialized
1602 static struct adouble
*ad_init(TALLOC_CTX
*ctx
, vfs_handle_struct
*handle
,
1603 adouble_type_t type
)
1606 const struct ad_entry_order
*eid
;
1607 struct adouble
*ad
= NULL
;
1608 struct fruit_config_data
*config
;
1609 time_t t
= time(NULL
);
1611 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
1612 struct fruit_config_data
, return NULL
);
1616 eid
= entry_order_meta_xattr
;
1619 if (config
->rsrc
== FRUIT_RSRC_ADFILE
) {
1620 eid
= entry_order_dot_und
;
1622 eid
= entry_order_rsrc_xattr
;
1629 ad
= ad_alloc(ctx
, handle
, type
);
1635 ad
->ad_eid
[eid
->id
].ade_off
= eid
->offset
;
1636 ad
->ad_eid
[eid
->id
].ade_len
= eid
->len
;
1640 /* put something sane in the date fields */
1641 ad_setdate(ad
, AD_DATE_CREATE
| AD_DATE_UNIX
, t
);
1642 ad_setdate(ad
, AD_DATE_MODIFY
| AD_DATE_UNIX
, t
);
1643 ad_setdate(ad
, AD_DATE_ACCESS
| AD_DATE_UNIX
, t
);
1644 ad_setdate(ad
, AD_DATE_BACKUP
, htonl(AD_DATE_START
));
1652 static struct adouble
*ad_get_internal(TALLOC_CTX
*ctx
,
1653 vfs_handle_struct
*handle
,
1655 const struct smb_filename
*smb_fname
,
1656 adouble_type_t type
)
1660 struct adouble
*ad
= NULL
;
1664 smb_fname
= fsp
->base_fsp
->fsp_name
;
1667 DEBUG(10, ("ad_get(%s) called for %s\n",
1668 type
== ADOUBLE_META
? "meta" : "rsrc",
1669 smb_fname
->base_name
));
1671 ad
= ad_alloc(ctx
, handle
, type
);
1677 /* Try rw first so we can use the fd in ad_convert() */
1680 rc
= ad_open(handle
, ad
, fsp
, smb_fname
, mode
, 0);
1681 if (rc
== -1 && ((errno
== EROFS
) || (errno
== EACCES
))) {
1683 rc
= ad_open(handle
, ad
, fsp
, smb_fname
, mode
, 0);
1686 DBG_DEBUG("ad_open [%s] error [%s]\n",
1687 smb_fname
->base_name
, strerror(errno
));
1692 len
= ad_read(ad
, smb_fname
);
1694 DEBUG(10, ("error reading AppleDouble for %s\n",
1695 smb_fname
->base_name
));
1701 DEBUG(10, ("ad_get(%s) for %s returning %d\n",
1702 type
== ADOUBLE_META
? "meta" : "rsrc",
1703 smb_fname
->base_name
, rc
));
1712 * Return AppleDouble data for a file
1714 * @param[in] ctx talloc context
1715 * @param[in] handle vfs handle
1716 * @param[in] smb_fname pathname to file or directory
1717 * @param[in] type type of AppleDouble, ADOUBLE_META or ADOUBLE_RSRC
1719 * @return talloced struct adouble or NULL on error
1721 static struct adouble
*ad_get(TALLOC_CTX
*ctx
,
1722 vfs_handle_struct
*handle
,
1723 const struct smb_filename
*smb_fname
,
1724 adouble_type_t type
)
1726 return ad_get_internal(ctx
, handle
, NULL
, smb_fname
, type
);
1730 * Return AppleDouble data for a file
1732 * @param[in] ctx talloc context
1733 * @param[in] handle vfs handle
1734 * @param[in] fsp fsp to use for IO
1735 * @param[in] type type of AppleDouble, ADOUBLE_META or ADOUBLE_RSRC
1737 * @return talloced struct adouble or NULL on error
1739 static struct adouble
*ad_fget(TALLOC_CTX
*ctx
, vfs_handle_struct
*handle
,
1740 files_struct
*fsp
, adouble_type_t type
)
1742 return ad_get_internal(ctx
, handle
, fsp
, NULL
, type
);
1746 * Set AppleDouble metadata on a file or directory
1748 * @param[in] ad adouble handle
1750 * @param[in] smb_fname pathname to file or directory
1752 * @return status code, 0 means success
1754 static int ad_set(struct adouble
*ad
, const struct smb_filename
*smb_fname
)
1759 DBG_DEBUG("Path [%s]\n", smb_fname
->base_name
);
1761 if (ad
->ad_type
!= ADOUBLE_META
) {
1762 DBG_ERR("ad_set on [%s] used with ADOUBLE_RSRC\n",
1763 smb_fname
->base_name
);
1772 ret
= SMB_VFS_SETXATTR(ad
->ad_handle
->conn
,
1774 AFPINFO_EA_NETATALK
,
1776 AD_DATASZ_XATTR
, 0);
1778 DBG_DEBUG("Path [%s] ret [%d]\n", smb_fname
->base_name
, ret
);
1784 * Set AppleDouble metadata on a file or directory
1786 * @param[in] ad adouble handle
1787 * @param[in] fsp file handle
1789 * @return status code, 0 means success
1791 static int ad_fset(struct adouble
*ad
, files_struct
*fsp
)
1797 DBG_DEBUG("Path [%s]\n", fsp_str_dbg(fsp
));
1800 || (fsp
->fh
== NULL
)
1801 || (fsp
->fh
->fd
== -1))
1803 smb_panic("bad fsp");
1811 switch (ad
->ad_type
) {
1813 rc
= SMB_VFS_NEXT_SETXATTR(ad
->ad_handle
,
1815 AFPINFO_EA_NETATALK
,
1817 AD_DATASZ_XATTR
, 0);
1821 len
= SMB_VFS_NEXT_PWRITE(ad
->ad_handle
,
1826 if (len
!= AD_DATASZ_DOT_UND
) {
1827 DBG_ERR("short write on %s: %zd", fsp_str_dbg(fsp
), len
);
1837 DBG_DEBUG("Path [%s] rc [%d]\n", fsp_str_dbg(fsp
), rc
);
1842 /*****************************************************************************
1844 *****************************************************************************/
1846 static bool is_afpinfo_stream(const struct smb_filename
*smb_fname
)
1848 if (strncasecmp_m(smb_fname
->stream_name
,
1849 AFPINFO_STREAM_NAME
,
1850 strlen(AFPINFO_STREAM_NAME
)) == 0) {
1856 static bool is_afpresource_stream(const struct smb_filename
*smb_fname
)
1858 if (strncasecmp_m(smb_fname
->stream_name
,
1859 AFPRESOURCE_STREAM_NAME
,
1860 strlen(AFPRESOURCE_STREAM_NAME
)) == 0) {
1867 * Test whether stream is an Apple stream, not used atm
1870 static bool is_apple_stream(const struct smb_filename
*smb_fname
)
1872 if (is_afpinfo_stream(smb_fname
)) {
1875 if (is_afpresource_stream(smb_fname
)) {
1883 * Initialize config struct from our smb.conf config parameters
1885 static int init_fruit_config(vfs_handle_struct
*handle
)
1887 struct fruit_config_data
*config
;
1889 const char *tm_size_str
= NULL
;
1891 config
= talloc_zero(handle
->conn
, struct fruit_config_data
);
1893 DEBUG(1, ("talloc_zero() failed\n"));
1899 * Versions up to Samba 4.5.x had a spelling bug in the
1900 * fruit:resource option calling lp_parm_enum with
1901 * "res*s*ource" (ie two s).
1903 * In Samba 4.6 we accept both the wrong and the correct
1904 * spelling, in Samba 4.7 the bad spelling will be removed.
1906 enumval
= lp_parm_enum(SNUM(handle
->conn
), FRUIT_PARAM_TYPE_NAME
,
1907 "ressource", fruit_rsrc
, FRUIT_RSRC_ADFILE
);
1908 if (enumval
== -1) {
1909 DEBUG(1, ("value for %s: resource type unknown\n",
1910 FRUIT_PARAM_TYPE_NAME
));
1913 config
->rsrc
= (enum fruit_rsrc
)enumval
;
1915 enumval
= lp_parm_enum(SNUM(handle
->conn
), FRUIT_PARAM_TYPE_NAME
,
1916 "resource", fruit_rsrc
, enumval
);
1917 if (enumval
== -1) {
1918 DEBUG(1, ("value for %s: resource type unknown\n",
1919 FRUIT_PARAM_TYPE_NAME
));
1922 config
->rsrc
= (enum fruit_rsrc
)enumval
;
1924 enumval
= lp_parm_enum(SNUM(handle
->conn
), FRUIT_PARAM_TYPE_NAME
,
1925 "metadata", fruit_meta
, FRUIT_META_NETATALK
);
1926 if (enumval
== -1) {
1927 DEBUG(1, ("value for %s: metadata type unknown\n",
1928 FRUIT_PARAM_TYPE_NAME
));
1931 config
->meta
= (enum fruit_meta
)enumval
;
1933 enumval
= lp_parm_enum(SNUM(handle
->conn
), FRUIT_PARAM_TYPE_NAME
,
1934 "locking", fruit_locking
, FRUIT_LOCKING_NONE
);
1935 if (enumval
== -1) {
1936 DEBUG(1, ("value for %s: locking type unknown\n",
1937 FRUIT_PARAM_TYPE_NAME
));
1940 config
->locking
= (enum fruit_locking
)enumval
;
1942 enumval
= lp_parm_enum(SNUM(handle
->conn
), FRUIT_PARAM_TYPE_NAME
,
1943 "encoding", fruit_encoding
, FRUIT_ENC_PRIVATE
);
1944 if (enumval
== -1) {
1945 DEBUG(1, ("value for %s: encoding type unknown\n",
1946 FRUIT_PARAM_TYPE_NAME
));
1949 config
->encoding
= (enum fruit_encoding
)enumval
;
1951 if (config
->rsrc
== FRUIT_RSRC_ADFILE
) {
1952 config
->veto_appledouble
= lp_parm_bool(SNUM(handle
->conn
),
1953 FRUIT_PARAM_TYPE_NAME
,
1958 config
->use_aapl
= lp_parm_bool(
1959 -1, FRUIT_PARAM_TYPE_NAME
, "aapl", true);
1961 config
->time_machine
= lp_parm_bool(
1962 SNUM(handle
->conn
), FRUIT_PARAM_TYPE_NAME
, "time machine", false);
1964 config
->unix_info_enabled
= lp_parm_bool(
1965 -1, FRUIT_PARAM_TYPE_NAME
, "nfs_aces", true);
1967 config
->use_copyfile
= lp_parm_bool(-1, FRUIT_PARAM_TYPE_NAME
,
1970 config
->posix_rename
= lp_parm_bool(
1971 SNUM(handle
->conn
), FRUIT_PARAM_TYPE_NAME
, "posix_rename", true);
1973 config
->aapl_zero_file_id
=
1974 lp_parm_bool(-1, FRUIT_PARAM_TYPE_NAME
, "zero_file_id", true);
1976 config
->readdir_attr_rsize
= lp_parm_bool(
1977 SNUM(handle
->conn
), "readdir_attr", "aapl_rsize", true);
1979 config
->readdir_attr_finder_info
= lp_parm_bool(
1980 SNUM(handle
->conn
), "readdir_attr", "aapl_finder_info", true);
1982 config
->readdir_attr_max_access
= lp_parm_bool(
1983 SNUM(handle
->conn
), "readdir_attr", "aapl_max_access", true);
1985 config
->model
= lp_parm_const_string(
1986 -1, FRUIT_PARAM_TYPE_NAME
, "model", "MacSamba");
1988 tm_size_str
= lp_parm_const_string(
1989 SNUM(handle
->conn
), FRUIT_PARAM_TYPE_NAME
,
1990 "time machine max size", NULL
);
1991 if (tm_size_str
!= NULL
) {
1992 config
->time_machine_max_size
= conv_str_size(tm_size_str
);
1995 SMB_VFS_HANDLE_SET_DATA(handle
, config
,
1996 NULL
, struct fruit_config_data
,
2003 * Prepend "._" to a basename
2004 * Return a new struct smb_filename with stream_name == NULL.
2006 static int adouble_path(TALLOC_CTX
*ctx
,
2007 const struct smb_filename
*smb_fname_in
,
2008 struct smb_filename
**pp_smb_fname_out
)
2012 struct smb_filename
*smb_fname
= cp_smb_filename(ctx
,
2015 if (smb_fname
== NULL
) {
2019 /* We need streamname to be NULL */
2020 TALLOC_FREE(smb_fname
->stream_name
);
2022 /* And we're replacing base_name. */
2023 TALLOC_FREE(smb_fname
->base_name
);
2025 if (!parent_dirname(smb_fname
, smb_fname_in
->base_name
,
2027 TALLOC_FREE(smb_fname
);
2031 smb_fname
->base_name
= talloc_asprintf(smb_fname
,
2032 "%s/._%s", parent
, base
);
2033 if (smb_fname
->base_name
== NULL
) {
2034 TALLOC_FREE(smb_fname
);
2038 *pp_smb_fname_out
= smb_fname
;
2044 * Allocate and initialize an AfpInfo struct
2046 static AfpInfo
*afpinfo_new(TALLOC_CTX
*ctx
)
2048 AfpInfo
*ai
= talloc_zero(ctx
, AfpInfo
);
2052 ai
->afpi_Signature
= AFP_Signature
;
2053 ai
->afpi_Version
= AFP_Version
;
2054 ai
->afpi_BackupTime
= AD_DATE_START
;
2059 * Pack an AfpInfo struct into a buffer
2061 * Buffer size must be at least AFP_INFO_SIZE
2062 * Returns size of packed buffer
2064 static ssize_t
afpinfo_pack(const AfpInfo
*ai
, char *buf
)
2066 memset(buf
, 0, AFP_INFO_SIZE
);
2068 RSIVAL(buf
, 0, ai
->afpi_Signature
);
2069 RSIVAL(buf
, 4, ai
->afpi_Version
);
2070 RSIVAL(buf
, 12, ai
->afpi_BackupTime
);
2071 memcpy(buf
+ 16, ai
->afpi_FinderInfo
, sizeof(ai
->afpi_FinderInfo
));
2073 return AFP_INFO_SIZE
;
2077 * Unpack a buffer into a AfpInfo structure
2079 * Buffer size must be at least AFP_INFO_SIZE
2080 * Returns allocated AfpInfo struct
2082 static AfpInfo
*afpinfo_unpack(TALLOC_CTX
*ctx
, const void *data
)
2084 AfpInfo
*ai
= talloc_zero(ctx
, AfpInfo
);
2089 ai
->afpi_Signature
= RIVAL(data
, 0);
2090 ai
->afpi_Version
= RIVAL(data
, 4);
2091 ai
->afpi_BackupTime
= RIVAL(data
, 12);
2092 memcpy(ai
->afpi_FinderInfo
, (const char *)data
+ 16,
2093 sizeof(ai
->afpi_FinderInfo
));
2095 if (ai
->afpi_Signature
!= AFP_Signature
2096 || ai
->afpi_Version
!= AFP_Version
) {
2097 DEBUG(1, ("Bad AfpInfo signature or version\n"));
2105 * Fake an inode number from the md5 hash of the (xattr) name
2107 static SMB_INO_T
fruit_inode(const SMB_STRUCT_STAT
*sbuf
, const char *sname
)
2110 unsigned char hash
[16];
2114 upper_sname
= talloc_strdup_upper(talloc_tos(), sname
);
2115 SMB_ASSERT(upper_sname
!= NULL
);
2118 MD5Update(&ctx
, (const unsigned char *)&(sbuf
->st_ex_dev
),
2119 sizeof(sbuf
->st_ex_dev
));
2120 MD5Update(&ctx
, (const unsigned char *)&(sbuf
->st_ex_ino
),
2121 sizeof(sbuf
->st_ex_ino
));
2122 MD5Update(&ctx
, (unsigned char *)upper_sname
,
2123 talloc_get_size(upper_sname
)-1);
2124 MD5Final(hash
, &ctx
);
2126 TALLOC_FREE(upper_sname
);
2128 /* Hopefully all the variation is in the lower 4 (or 8) bytes! */
2129 memcpy(&result
, hash
, sizeof(result
));
2131 DEBUG(10, ("fruit_inode \"%s\": ino=0x%llu\n",
2132 sname
, (unsigned long long)result
));
2137 static bool add_fruit_stream(TALLOC_CTX
*mem_ctx
, unsigned int *num_streams
,
2138 struct stream_struct
**streams
,
2139 const char *name
, off_t size
,
2142 struct stream_struct
*tmp
;
2144 tmp
= talloc_realloc(mem_ctx
, *streams
, struct stream_struct
,
2150 tmp
[*num_streams
].name
= talloc_asprintf(tmp
, "%s:$DATA", name
);
2151 if (tmp
[*num_streams
].name
== NULL
) {
2155 tmp
[*num_streams
].size
= size
;
2156 tmp
[*num_streams
].alloc_size
= alloc_size
;
2163 static bool filter_empty_rsrc_stream(unsigned int *num_streams
,
2164 struct stream_struct
**streams
)
2166 struct stream_struct
*tmp
= *streams
;
2169 if (*num_streams
== 0) {
2173 for (i
= 0; i
< *num_streams
; i
++) {
2174 if (strequal_m(tmp
[i
].name
, AFPRESOURCE_STREAM
)) {
2179 if (i
== *num_streams
) {
2183 if (tmp
[i
].size
> 0) {
2187 TALLOC_FREE(tmp
[i
].name
);
2188 if (*num_streams
- 1 > i
) {
2189 memmove(&tmp
[i
], &tmp
[i
+1],
2190 (*num_streams
- i
- 1) * sizeof(struct stream_struct
));
2197 static bool del_fruit_stream(TALLOC_CTX
*mem_ctx
, unsigned int *num_streams
,
2198 struct stream_struct
**streams
,
2201 struct stream_struct
*tmp
= *streams
;
2204 if (*num_streams
== 0) {
2208 for (i
= 0; i
< *num_streams
; i
++) {
2209 if (strequal_m(tmp
[i
].name
, name
)) {
2214 if (i
== *num_streams
) {
2218 TALLOC_FREE(tmp
[i
].name
);
2219 if (*num_streams
- 1 > i
) {
2220 memmove(&tmp
[i
], &tmp
[i
+1],
2221 (*num_streams
- i
- 1) * sizeof(struct stream_struct
));
2228 static bool ad_empty_finderinfo(const struct adouble
*ad
)
2231 char emptybuf
[ADEDLEN_FINDERI
] = {0};
2234 fi
= ad_get_entry(ad
, ADEID_FINDERI
);
2236 DBG_ERR("Missing FinderInfo in struct adouble [%p]\n", ad
);
2240 cmp
= memcmp(emptybuf
, fi
, ADEDLEN_FINDERI
);
2244 static bool ai_empty_finderinfo(const AfpInfo
*ai
)
2247 char emptybuf
[ADEDLEN_FINDERI
] = {0};
2249 cmp
= memcmp(emptybuf
, &ai
->afpi_FinderInfo
[0], ADEDLEN_FINDERI
);
2254 * Update btime with btime from Netatalk
2256 static void update_btime(vfs_handle_struct
*handle
,
2257 struct smb_filename
*smb_fname
)
2260 struct timespec creation_time
= {0};
2262 struct fruit_config_data
*config
= NULL
;
2264 SMB_VFS_HANDLE_GET_DATA(handle
, config
, struct fruit_config_data
,
2267 switch (config
->meta
) {
2268 case FRUIT_META_STREAM
:
2270 case FRUIT_META_NETATALK
:
2274 DBG_ERR("Unexpected meta config [%d]\n", config
->meta
);
2278 ad
= ad_get(talloc_tos(), handle
, smb_fname
, ADOUBLE_META
);
2282 if (ad_getdate(ad
, AD_DATE_UNIX
| AD_DATE_CREATE
, &t
) != 0) {
2288 creation_time
.tv_sec
= convert_uint32_t_to_time_t(t
);
2289 update_stat_ex_create_time(&smb_fname
->st
, creation_time
);
2295 * Map an access mask to a Netatalk single byte byte range lock
2297 static off_t
access_to_netatalk_brl(enum apple_fork fork_type
,
2298 uint32_t access_mask
)
2302 switch (access_mask
) {
2303 case FILE_READ_DATA
:
2304 offset
= AD_FILELOCK_OPEN_RD
;
2307 case FILE_WRITE_DATA
:
2308 case FILE_APPEND_DATA
:
2309 offset
= AD_FILELOCK_OPEN_WR
;
2313 offset
= AD_FILELOCK_OPEN_NONE
;
2317 if (fork_type
== APPLE_FORK_RSRC
) {
2318 if (offset
== AD_FILELOCK_OPEN_NONE
) {
2319 offset
= AD_FILELOCK_RSRC_OPEN_NONE
;
2329 * Map a deny mode to a Netatalk brl
2331 static off_t
denymode_to_netatalk_brl(enum apple_fork fork_type
,
2336 switch (deny_mode
) {
2338 offset
= AD_FILELOCK_DENY_RD
;
2342 offset
= AD_FILELOCK_DENY_WR
;
2346 smb_panic("denymode_to_netatalk_brl: bad deny mode\n");
2349 if (fork_type
== APPLE_FORK_RSRC
) {
2357 * Call fcntl() with an exclusive F_GETLK request in order to
2358 * determine if there's an exisiting shared lock
2360 * @return true if the requested lock was found or any error occurred
2361 * false if the lock was not found
2363 static bool test_netatalk_lock(files_struct
*fsp
, off_t in_offset
)
2366 off_t offset
= in_offset
;
2371 result
= SMB_VFS_GETLOCK(fsp
, &offset
, &len
, &type
, &pid
);
2372 if (result
== false) {
2376 if (type
!= F_UNLCK
) {
2383 static NTSTATUS
fruit_check_access(vfs_handle_struct
*handle
,
2385 uint32_t access_mask
,
2388 NTSTATUS status
= NT_STATUS_OK
;
2389 struct byte_range_lock
*br_lck
= NULL
;
2390 bool open_for_reading
, open_for_writing
, deny_read
, deny_write
;
2392 bool have_read
= false;
2395 /* FIXME: hardcoded data fork, add resource fork */
2396 enum apple_fork fork_type
= APPLE_FORK_DATA
;
2398 DEBUG(10, ("fruit_check_access: %s, am: %s/%s, dm: %s/%s\n",
2400 access_mask
& FILE_READ_DATA
? "READ" :"-",
2401 access_mask
& FILE_WRITE_DATA
? "WRITE" : "-",
2402 deny_mode
& DENY_READ
? "DENY_READ" : "-",
2403 deny_mode
& DENY_WRITE
? "DENY_WRITE" : "-"));
2405 if (fsp
->fh
->fd
== -1) {
2406 return NT_STATUS_OK
;
2409 flags
= fcntl(fsp
->fh
->fd
, F_GETFL
);
2411 DBG_ERR("fcntl get flags [%s] fd [%d] failed [%s]\n",
2412 fsp_str_dbg(fsp
), fsp
->fh
->fd
, strerror(errno
));
2413 return map_nt_error_from_unix(errno
);
2416 if (flags
& (O_RDONLY
|O_RDWR
)) {
2418 * Applying fcntl read locks requires an fd opened for
2419 * reading. This means we won't be applying locks for
2420 * files openend write-only, but what can we do...
2426 * Check read access and deny read mode
2428 if ((access_mask
& FILE_READ_DATA
) || (deny_mode
& DENY_READ
)) {
2430 open_for_reading
= test_netatalk_lock(
2431 fsp
, access_to_netatalk_brl(fork_type
, FILE_READ_DATA
));
2433 deny_read
= test_netatalk_lock(
2434 fsp
, denymode_to_netatalk_brl(fork_type
, DENY_READ
));
2436 DEBUG(10, ("read: %s, deny_write: %s\n",
2437 open_for_reading
== true ? "yes" : "no",
2438 deny_read
== true ? "yes" : "no"));
2440 if (((access_mask
& FILE_READ_DATA
) && deny_read
)
2441 || ((deny_mode
& DENY_READ
) && open_for_reading
)) {
2442 return NT_STATUS_SHARING_VIOLATION
;
2446 if ((access_mask
& FILE_READ_DATA
) && have_read
) {
2447 off
= access_to_netatalk_brl(fork_type
, FILE_READ_DATA
);
2449 handle
->conn
->sconn
->msg_ctx
, fsp
,
2450 fsp
->op
->global
->open_persistent_id
, 1, off
,
2451 READ_LOCK
, POSIX_LOCK
, false,
2454 if (!NT_STATUS_IS_OK(status
)) {
2457 TALLOC_FREE(br_lck
);
2460 if ((deny_mode
& DENY_READ
) && have_read
) {
2461 off
= denymode_to_netatalk_brl(fork_type
, DENY_READ
);
2463 handle
->conn
->sconn
->msg_ctx
, fsp
,
2464 fsp
->op
->global
->open_persistent_id
, 1, off
,
2465 READ_LOCK
, POSIX_LOCK
, false,
2468 if (!NT_STATUS_IS_OK(status
)) {
2471 TALLOC_FREE(br_lck
);
2476 * Check write access and deny write mode
2478 if ((access_mask
& FILE_WRITE_DATA
) || (deny_mode
& DENY_WRITE
)) {
2480 open_for_writing
= test_netatalk_lock(
2481 fsp
, access_to_netatalk_brl(fork_type
, FILE_WRITE_DATA
));
2483 deny_write
= test_netatalk_lock(
2484 fsp
, denymode_to_netatalk_brl(fork_type
, DENY_WRITE
));
2486 DEBUG(10, ("write: %s, deny_write: %s\n",
2487 open_for_writing
== true ? "yes" : "no",
2488 deny_write
== true ? "yes" : "no"));
2490 if (((access_mask
& FILE_WRITE_DATA
) && deny_write
)
2491 || ((deny_mode
& DENY_WRITE
) && open_for_writing
)) {
2492 return NT_STATUS_SHARING_VIOLATION
;
2496 if ((access_mask
& FILE_WRITE_DATA
) && have_read
) {
2497 off
= access_to_netatalk_brl(fork_type
, FILE_WRITE_DATA
);
2499 handle
->conn
->sconn
->msg_ctx
, fsp
,
2500 fsp
->op
->global
->open_persistent_id
, 1, off
,
2501 READ_LOCK
, POSIX_LOCK
, false,
2504 if (!NT_STATUS_IS_OK(status
)) {
2507 TALLOC_FREE(br_lck
);
2510 if ((deny_mode
& DENY_WRITE
) && have_read
) {
2511 off
= denymode_to_netatalk_brl(fork_type
, DENY_WRITE
);
2513 handle
->conn
->sconn
->msg_ctx
, fsp
,
2514 fsp
->op
->global
->open_persistent_id
, 1, off
,
2515 READ_LOCK
, POSIX_LOCK
, false,
2518 if (!NT_STATUS_IS_OK(status
)) {
2521 TALLOC_FREE(br_lck
);
2525 TALLOC_FREE(br_lck
);
2530 static NTSTATUS
check_aapl(vfs_handle_struct
*handle
,
2531 struct smb_request
*req
,
2532 const struct smb2_create_blobs
*in_context_blobs
,
2533 struct smb2_create_blobs
*out_context_blobs
)
2535 struct fruit_config_data
*config
;
2537 struct smb2_create_blob
*aapl
= NULL
;
2541 DATA_BLOB blob
= data_blob_talloc(req
, NULL
, 0);
2542 uint64_t req_bitmap
, client_caps
;
2543 uint64_t server_caps
= SMB2_CRTCTX_AAPL_UNIX_BASED
;
2547 SMB_VFS_HANDLE_GET_DATA(handle
, config
, struct fruit_config_data
,
2548 return NT_STATUS_UNSUCCESSFUL
);
2550 if (!config
->use_aapl
2551 || in_context_blobs
== NULL
2552 || out_context_blobs
== NULL
) {
2553 return NT_STATUS_OK
;
2556 aapl
= smb2_create_blob_find(in_context_blobs
,
2557 SMB2_CREATE_TAG_AAPL
);
2559 return NT_STATUS_OK
;
2562 if (aapl
->data
.length
!= 24) {
2563 DEBUG(1, ("unexpected AAPL ctxt length: %ju\n",
2564 (uintmax_t)aapl
->data
.length
));
2565 return NT_STATUS_INVALID_PARAMETER
;
2568 cmd
= IVAL(aapl
->data
.data
, 0);
2569 if (cmd
!= SMB2_CRTCTX_AAPL_SERVER_QUERY
) {
2570 DEBUG(1, ("unsupported AAPL cmd: %d\n", cmd
));
2571 return NT_STATUS_INVALID_PARAMETER
;
2574 req_bitmap
= BVAL(aapl
->data
.data
, 8);
2575 client_caps
= BVAL(aapl
->data
.data
, 16);
2577 SIVAL(p
, 0, SMB2_CRTCTX_AAPL_SERVER_QUERY
);
2579 SBVAL(p
, 8, req_bitmap
);
2580 ok
= data_blob_append(req
, &blob
, p
, 16);
2582 return NT_STATUS_UNSUCCESSFUL
;
2585 if (req_bitmap
& SMB2_CRTCTX_AAPL_SERVER_CAPS
) {
2586 if ((client_caps
& SMB2_CRTCTX_AAPL_SUPPORTS_READ_DIR_ATTR
) &&
2587 (handle
->conn
->tcon
->compat
->fs_capabilities
& FILE_NAMED_STREAMS
)) {
2588 server_caps
|= SMB2_CRTCTX_AAPL_SUPPORTS_READ_DIR_ATTR
;
2589 config
->readdir_attr_enabled
= true;
2592 if (config
->use_copyfile
) {
2593 server_caps
|= SMB2_CRTCTX_AAPL_SUPPORTS_OSX_COPYFILE
;
2594 config
->copyfile_enabled
= true;
2598 * The client doesn't set the flag, so we can't check
2599 * for it and just set it unconditionally
2601 if (config
->unix_info_enabled
) {
2602 server_caps
|= SMB2_CRTCTX_AAPL_SUPPORTS_NFS_ACE
;
2605 SBVAL(p
, 0, server_caps
);
2606 ok
= data_blob_append(req
, &blob
, p
, 8);
2608 return NT_STATUS_UNSUCCESSFUL
;
2612 if (req_bitmap
& SMB2_CRTCTX_AAPL_VOLUME_CAPS
) {
2613 int val
= lp_case_sensitive(SNUM(handle
->conn
->tcon
->compat
));
2621 caps
|= SMB2_CRTCTX_AAPL_CASE_SENSITIVE
;
2628 if (config
->time_machine
) {
2629 caps
|= SMB2_CRTCTX_AAPL_FULL_SYNC
;
2634 ok
= data_blob_append(req
, &blob
, p
, 8);
2636 return NT_STATUS_UNSUCCESSFUL
;
2640 if (req_bitmap
& SMB2_CRTCTX_AAPL_MODEL_INFO
) {
2641 ok
= convert_string_talloc(req
,
2642 CH_UNIX
, CH_UTF16LE
,
2643 config
->model
, strlen(config
->model
),
2646 return NT_STATUS_UNSUCCESSFUL
;
2650 SIVAL(p
+ 4, 0, modellen
);
2651 ok
= data_blob_append(req
, &blob
, p
, 8);
2654 return NT_STATUS_UNSUCCESSFUL
;
2657 ok
= data_blob_append(req
, &blob
, model
, modellen
);
2660 return NT_STATUS_UNSUCCESSFUL
;
2664 status
= smb2_create_blob_add(out_context_blobs
,
2666 SMB2_CREATE_TAG_AAPL
,
2668 if (NT_STATUS_IS_OK(status
)) {
2669 global_fruit_config
.nego_aapl
= true;
2670 if (config
->aapl_zero_file_id
) {
2671 aapl_force_zero_file_id(handle
->conn
->sconn
);
2678 static bool readdir_attr_meta_finderi_stream(
2679 struct vfs_handle_struct
*handle
,
2680 const struct smb_filename
*smb_fname
,
2683 struct smb_filename
*stream_name
= NULL
;
2684 files_struct
*fsp
= NULL
;
2689 uint8_t buf
[AFP_INFO_SIZE
];
2691 stream_name
= synthetic_smb_fname(talloc_tos(),
2692 smb_fname
->base_name
,
2693 AFPINFO_STREAM_NAME
,
2694 NULL
, smb_fname
->flags
);
2695 if (stream_name
== NULL
) {
2699 ret
= SMB_VFS_STAT(handle
->conn
, stream_name
);
2704 status
= SMB_VFS_CREATE_FILE(
2705 handle
->conn
, /* conn */
2707 0, /* root_dir_fid */
2708 stream_name
, /* fname */
2709 FILE_READ_DATA
, /* access_mask */
2710 (FILE_SHARE_READ
| FILE_SHARE_WRITE
| /* share_access */
2712 FILE_OPEN
, /* create_disposition*/
2713 0, /* create_options */
2714 0, /* file_attributes */
2715 INTERNAL_OPEN_ONLY
, /* oplock_request */
2717 0, /* allocation_size */
2718 0, /* private_flags */
2723 NULL
, NULL
); /* create context */
2725 TALLOC_FREE(stream_name
);
2727 if (!NT_STATUS_IS_OK(status
)) {
2731 nread
= SMB_VFS_PREAD(fsp
, &buf
[0], AFP_INFO_SIZE
, 0);
2732 if (nread
!= AFP_INFO_SIZE
) {
2733 DBG_ERR("short read [%s] [%zd/%d]\n",
2734 smb_fname_str_dbg(stream_name
), nread
, AFP_INFO_SIZE
);
2739 memcpy(&ai
->afpi_FinderInfo
[0], &buf
[AFP_OFF_FinderInfo
],
2746 close_file(NULL
, fsp
, NORMAL_CLOSE
);
2752 static bool readdir_attr_meta_finderi_netatalk(
2753 struct vfs_handle_struct
*handle
,
2754 const struct smb_filename
*smb_fname
,
2757 struct adouble
*ad
= NULL
;
2760 ad
= ad_get(talloc_tos(), handle
, smb_fname
, ADOUBLE_META
);
2765 p
= ad_get_entry(ad
, ADEID_FINDERI
);
2767 DBG_ERR("No ADEID_FINDERI for [%s]\n", smb_fname
->base_name
);
2772 memcpy(&ai
->afpi_FinderInfo
[0], p
, AFP_FinderSize
);
2777 static bool readdir_attr_meta_finderi(struct vfs_handle_struct
*handle
,
2778 const struct smb_filename
*smb_fname
,
2779 struct readdir_attr_data
*attr_data
)
2781 struct fruit_config_data
*config
= NULL
;
2782 uint32_t date_added
;
2786 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
2787 struct fruit_config_data
,
2790 switch (config
->meta
) {
2791 case FRUIT_META_NETATALK
:
2792 ok
= readdir_attr_meta_finderi_netatalk(
2793 handle
, smb_fname
, &ai
);
2796 case FRUIT_META_STREAM
:
2797 ok
= readdir_attr_meta_finderi_stream(
2798 handle
, smb_fname
, &ai
);
2802 DBG_ERR("Unexpected meta config [%d]\n", config
->meta
);
2807 /* Don't bother with errors, it's likely ENOENT */
2811 if (S_ISREG(smb_fname
->st
.st_ex_mode
)) {
2813 memcpy(&attr_data
->attr_data
.aapl
.finder_info
[0],
2814 &ai
.afpi_FinderInfo
[0], 4);
2816 /* finder_creator */
2817 memcpy(&attr_data
->attr_data
.aapl
.finder_info
[0] + 4,
2818 &ai
.afpi_FinderInfo
[4], 4);
2822 memcpy(&attr_data
->attr_data
.aapl
.finder_info
[0] + 8,
2823 &ai
.afpi_FinderInfo
[8], 2);
2825 /* finder_ext_flags */
2826 memcpy(&attr_data
->attr_data
.aapl
.finder_info
[0] + 10,
2827 &ai
.afpi_FinderInfo
[24], 2);
2830 date_added
= convert_time_t_to_uint32_t(
2831 smb_fname
->st
.st_ex_btime
.tv_sec
- AD_DATE_DELTA
);
2833 RSIVAL(&attr_data
->attr_data
.aapl
.finder_info
[0], 12, date_added
);
2838 static uint64_t readdir_attr_rfork_size_adouble(
2839 struct vfs_handle_struct
*handle
,
2840 const struct smb_filename
*smb_fname
)
2842 struct adouble
*ad
= NULL
;
2843 uint64_t rfork_size
;
2845 ad
= ad_get(talloc_tos(), handle
, smb_fname
,
2851 rfork_size
= ad_getentrylen(ad
, ADEID_RFORK
);
2857 static uint64_t readdir_attr_rfork_size_stream(
2858 struct vfs_handle_struct
*handle
,
2859 const struct smb_filename
*smb_fname
)
2861 struct smb_filename
*stream_name
= NULL
;
2863 uint64_t rfork_size
;
2865 stream_name
= synthetic_smb_fname(talloc_tos(),
2866 smb_fname
->base_name
,
2867 AFPRESOURCE_STREAM_NAME
,
2869 if (stream_name
== NULL
) {
2873 ret
= SMB_VFS_STAT(handle
->conn
, stream_name
);
2875 TALLOC_FREE(stream_name
);
2879 rfork_size
= stream_name
->st
.st_ex_size
;
2880 TALLOC_FREE(stream_name
);
2885 static uint64_t readdir_attr_rfork_size(struct vfs_handle_struct
*handle
,
2886 const struct smb_filename
*smb_fname
)
2888 struct fruit_config_data
*config
= NULL
;
2889 uint64_t rfork_size
;
2891 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
2892 struct fruit_config_data
,
2895 switch (config
->rsrc
) {
2896 case FRUIT_RSRC_ADFILE
:
2897 case FRUIT_RSRC_XATTR
:
2898 rfork_size
= readdir_attr_rfork_size_adouble(handle
,
2902 case FRUIT_META_STREAM
:
2903 rfork_size
= readdir_attr_rfork_size_stream(handle
,
2908 DBG_ERR("Unexpected rsrc config [%d]\n", config
->rsrc
);
2916 static NTSTATUS
readdir_attr_macmeta(struct vfs_handle_struct
*handle
,
2917 const struct smb_filename
*smb_fname
,
2918 struct readdir_attr_data
*attr_data
)
2920 NTSTATUS status
= NT_STATUS_OK
;
2921 struct fruit_config_data
*config
= NULL
;
2924 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
2925 struct fruit_config_data
,
2926 return NT_STATUS_UNSUCCESSFUL
);
2929 /* Ensure we return a default value in the creation_date field */
2930 RSIVAL(&attr_data
->attr_data
.aapl
.finder_info
, 12, AD_DATE_START
);
2933 * Resource fork length
2936 if (config
->readdir_attr_rsize
) {
2937 uint64_t rfork_size
;
2939 rfork_size
= readdir_attr_rfork_size(handle
, smb_fname
);
2940 attr_data
->attr_data
.aapl
.rfork_size
= rfork_size
;
2947 if (config
->readdir_attr_finder_info
) {
2948 ok
= readdir_attr_meta_finderi(handle
, smb_fname
, attr_data
);
2950 status
= NT_STATUS_INTERNAL_ERROR
;
2957 static NTSTATUS
remove_virtual_nfs_aces(struct security_descriptor
*psd
)
2962 if (psd
->dacl
== NULL
) {
2963 return NT_STATUS_OK
;
2966 for (i
= 0; i
< psd
->dacl
->num_aces
; i
++) {
2967 /* MS NFS style mode/uid/gid */
2968 int cmp
= dom_sid_compare_domain(
2969 &global_sid_Unix_NFS
,
2970 &psd
->dacl
->aces
[i
].trustee
);
2972 /* Normal ACE entry. */
2977 * security_descriptor_dacl_del()
2978 * *must* return NT_STATUS_OK as we know
2979 * we have something to remove.
2982 status
= security_descriptor_dacl_del(psd
,
2983 &psd
->dacl
->aces
[i
].trustee
);
2984 if (!NT_STATUS_IS_OK(status
)) {
2985 DBG_WARNING("failed to remove MS NFS style ACE: %s\n",
2991 * security_descriptor_dacl_del() may delete more
2992 * then one entry subsequent to this one if the
2993 * SID matches, but we only need to ensure that
2994 * we stay looking at the same element in the array.
2998 return NT_STATUS_OK
;
3001 /* Search MS NFS style ACE with UNIX mode */
3002 static NTSTATUS
check_ms_nfs(vfs_handle_struct
*handle
,
3004 struct security_descriptor
*psd
,
3009 struct fruit_config_data
*config
= NULL
;
3013 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
3014 struct fruit_config_data
,
3015 return NT_STATUS_UNSUCCESSFUL
);
3017 if (!global_fruit_config
.nego_aapl
) {
3018 return NT_STATUS_OK
;
3020 if (psd
->dacl
== NULL
|| !config
->unix_info_enabled
) {
3021 return NT_STATUS_OK
;
3024 for (i
= 0; i
< psd
->dacl
->num_aces
; i
++) {
3025 if (dom_sid_compare_domain(
3026 &global_sid_Unix_NFS_Mode
,
3027 &psd
->dacl
->aces
[i
].trustee
) == 0) {
3028 *pmode
= (mode_t
)psd
->dacl
->aces
[i
].trustee
.sub_auths
[2];
3029 *pmode
&= (S_IRWXU
| S_IRWXG
| S_IRWXO
);
3032 DEBUG(10, ("MS NFS chmod request %s, %04o\n",
3033 fsp_str_dbg(fsp
), (unsigned)(*pmode
)));
3039 * Remove any incoming virtual ACE entries generated by
3040 * fruit_fget_nt_acl().
3043 return remove_virtual_nfs_aces(psd
);
3046 /****************************************************************************
3048 ****************************************************************************/
3050 static int fruit_connect(vfs_handle_struct
*handle
,
3051 const char *service
,
3055 char *list
= NULL
, *newlist
= NULL
;
3056 struct fruit_config_data
*config
;
3058 DEBUG(10, ("fruit_connect\n"));
3060 rc
= SMB_VFS_NEXT_CONNECT(handle
, service
, user
);
3065 rc
= init_fruit_config(handle
);
3070 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
3071 struct fruit_config_data
, return -1);
3073 if (config
->veto_appledouble
) {
3074 list
= lp_veto_files(talloc_tos(), SNUM(handle
->conn
));
3077 if (strstr(list
, "/" ADOUBLE_NAME_PREFIX
"*/") == NULL
) {
3078 newlist
= talloc_asprintf(
3080 "%s/" ADOUBLE_NAME_PREFIX
"*/",
3082 lp_do_parameter(SNUM(handle
->conn
),
3087 lp_do_parameter(SNUM(handle
->conn
),
3089 "/" ADOUBLE_NAME_PREFIX
"*/");
3095 if (config
->encoding
== FRUIT_ENC_NATIVE
) {
3096 lp_do_parameter(SNUM(handle
->conn
),
3101 if (config
->time_machine
) {
3102 DBG_NOTICE("Enabling durable handles for Time Machine "
3103 "support on [%s]\n", service
);
3104 lp_do_parameter(SNUM(handle
->conn
), "durable handles", "yes");
3105 lp_do_parameter(SNUM(handle
->conn
), "kernel oplocks", "no");
3106 lp_do_parameter(SNUM(handle
->conn
), "kernel share modes", "no");
3107 if (!lp_strict_sync(SNUM(handle
->conn
))) {
3108 DBG_WARNING("Time Machine without strict sync is not "
3111 lp_do_parameter(SNUM(handle
->conn
), "posix locking", "no");
3117 static int fruit_open_meta_stream(vfs_handle_struct
*handle
,
3118 struct smb_filename
*smb_fname
,
3124 char afpinfo_buf
[AFP_INFO_SIZE
];
3125 ssize_t len
, written
;
3129 hostfd
= SMB_VFS_NEXT_OPEN(handle
, smb_fname
, fsp
, flags
, mode
);
3134 if (!(flags
& (O_CREAT
| O_TRUNC
))) {
3138 ai
= afpinfo_new(talloc_tos());
3144 len
= afpinfo_pack(ai
, afpinfo_buf
);
3145 if (len
!= AFP_INFO_SIZE
) {
3150 /* Set fd, needed in SMB_VFS_NEXT_PWRITE() */
3151 fsp
->fh
->fd
= hostfd
;
3153 written
= SMB_VFS_NEXT_PWRITE(handle
, fsp
, afpinfo_buf
,
3156 if (written
!= AFP_INFO_SIZE
) {
3157 DBG_ERR("bad write [%zd/%d]\n", written
, AFP_INFO_SIZE
);
3165 DBG_DEBUG("rc=%d, fd=%d\n", rc
, hostfd
);
3168 int saved_errno
= errno
;
3170 fsp
->fh
->fd
= hostfd
;
3171 SMB_VFS_NEXT_CLOSE(handle
, fsp
);
3174 errno
= saved_errno
;
3179 static int fruit_open_meta_netatalk(vfs_handle_struct
*handle
,
3180 struct smb_filename
*smb_fname
,
3187 struct adouble
*ad
= NULL
;
3190 DBG_DEBUG("Path [%s]\n", smb_fname_str_dbg(smb_fname
));
3193 * Return a valid fd, but ensure any attempt to use it returns an error
3194 * (EPIPE). All operations on the smb_fname or the fsp will use path
3204 if (flags
& (O_CREAT
| O_TRUNC
)) {
3206 * The attribute does not exist or needs to be truncated,
3207 * create an AppleDouble EA
3209 ad
= ad_init(fsp
, handle
, ADOUBLE_META
);
3215 rc
= ad_set(ad
, fsp
->fsp_name
);
3225 DEBUG(10, ("fruit_open meta rc=%d, fd=%d\n", rc
, fakefd
));
3227 int saved_errno
= errno
;
3232 errno
= saved_errno
;
3237 static int fruit_open_meta(vfs_handle_struct
*handle
,
3238 struct smb_filename
*smb_fname
,
3239 files_struct
*fsp
, int flags
, mode_t mode
)
3242 struct fruit_config_data
*config
= NULL
;
3243 struct fio
*fio
= NULL
;
3245 DBG_DEBUG("path [%s]\n", smb_fname_str_dbg(smb_fname
));
3247 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
3248 struct fruit_config_data
, return -1);
3250 switch (config
->meta
) {
3251 case FRUIT_META_STREAM
:
3252 fd
= fruit_open_meta_stream(handle
, smb_fname
,
3256 case FRUIT_META_NETATALK
:
3257 fd
= fruit_open_meta_netatalk(handle
, smb_fname
,
3262 DBG_ERR("Unexpected meta config [%d]\n", config
->meta
);
3266 DBG_DEBUG("path [%s] fd [%d]\n", smb_fname_str_dbg(smb_fname
), fd
);
3272 fio
= VFS_ADD_FSP_EXTENSION(handle
, fsp
, struct fio
, NULL
);
3273 fio
->type
= ADOUBLE_META
;
3274 fio
->config
= config
;
3279 static int fruit_open_rsrc_adouble(vfs_handle_struct
*handle
,
3280 struct smb_filename
*smb_fname
,
3286 struct adouble
*ad
= NULL
;
3287 struct smb_filename
*smb_fname_base
= NULL
;
3288 struct fruit_config_data
*config
= NULL
;
3291 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
3292 struct fruit_config_data
, return -1);
3294 if ((!(flags
& O_CREAT
)) &&
3295 S_ISDIR(fsp
->base_fsp
->fsp_name
->st
.st_ex_mode
))
3297 /* sorry, but directories don't habe a resource fork */
3302 rc
= adouble_path(talloc_tos(), smb_fname
, &smb_fname_base
);
3307 /* Sanitize flags */
3308 if (flags
& O_WRONLY
) {
3309 /* We always need read access for the metadata header too */
3314 hostfd
= SMB_VFS_NEXT_OPEN(handle
, smb_fname_base
, fsp
,
3321 if (flags
& (O_CREAT
| O_TRUNC
)) {
3322 ad
= ad_init(fsp
, handle
, ADOUBLE_RSRC
);
3328 fsp
->fh
->fd
= hostfd
;
3330 rc
= ad_fset(ad
, fsp
);
3341 TALLOC_FREE(smb_fname_base
);
3343 DEBUG(10, ("fruit_open resource fork: rc=%d, fd=%d\n", rc
, hostfd
));
3345 int saved_errno
= errno
;
3348 * BUGBUGBUG -- we would need to call
3349 * fd_close_posix here, but we don't have a
3352 fsp
->fh
->fd
= hostfd
;
3356 errno
= saved_errno
;
3361 static int fruit_open_rsrc_xattr(vfs_handle_struct
*handle
,
3362 struct smb_filename
*smb_fname
,
3367 #ifdef HAVE_ATTROPEN
3370 fd
= attropen(smb_fname
->base_name
,
3371 AFPRESOURCE_EA_NETATALK
,
3386 static int fruit_open_rsrc(vfs_handle_struct
*handle
,
3387 struct smb_filename
*smb_fname
,
3388 files_struct
*fsp
, int flags
, mode_t mode
)
3391 struct fruit_config_data
*config
= NULL
;
3392 struct fio
*fio
= NULL
;
3394 DBG_DEBUG("Path [%s]\n", smb_fname_str_dbg(smb_fname
));
3396 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
3397 struct fruit_config_data
, return -1);
3399 if (((flags
& O_ACCMODE
) == O_RDONLY
)
3400 && (flags
& O_CREAT
)
3401 && !VALID_STAT(fsp
->fsp_name
->st
))
3404 * This means the stream doesn't exist. macOS SMB server fails
3405 * this with NT_STATUS_OBJECT_NAME_NOT_FOUND, so must we. Cf bug
3406 * 12565 and the test for this combination in
3407 * test_rfork_create().
3413 switch (config
->rsrc
) {
3414 case FRUIT_RSRC_STREAM
:
3415 fd
= SMB_VFS_NEXT_OPEN(handle
, smb_fname
, fsp
, flags
, mode
);
3418 case FRUIT_RSRC_ADFILE
:
3419 fd
= fruit_open_rsrc_adouble(handle
, smb_fname
,
3423 case FRUIT_RSRC_XATTR
:
3424 fd
= fruit_open_rsrc_xattr(handle
, smb_fname
,
3429 DBG_ERR("Unexpected rsrc config [%d]\n", config
->rsrc
);
3433 DBG_DEBUG("Path [%s] fd [%d]\n", smb_fname_str_dbg(smb_fname
), fd
);
3439 fio
= VFS_ADD_FSP_EXTENSION(handle
, fsp
, struct fio
, NULL
);
3440 fio
->type
= ADOUBLE_RSRC
;
3441 fio
->config
= config
;
3446 static int fruit_open(vfs_handle_struct
*handle
,
3447 struct smb_filename
*smb_fname
,
3448 files_struct
*fsp
, int flags
, mode_t mode
)
3452 DBG_DEBUG("Path [%s]\n", smb_fname_str_dbg(smb_fname
));
3454 if (!is_ntfs_stream_smb_fname(smb_fname
)) {
3455 return SMB_VFS_NEXT_OPEN(handle
, smb_fname
, fsp
, flags
, mode
);
3458 if (is_afpinfo_stream(smb_fname
)) {
3459 fd
= fruit_open_meta(handle
, smb_fname
, fsp
, flags
, mode
);
3460 } else if (is_afpresource_stream(smb_fname
)) {
3461 fd
= fruit_open_rsrc(handle
, smb_fname
, fsp
, flags
, mode
);
3463 fd
= SMB_VFS_NEXT_OPEN(handle
, smb_fname
, fsp
, flags
, mode
);
3466 DBG_DEBUG("Path [%s] fd [%d]\n", smb_fname_str_dbg(smb_fname
), fd
);
3471 static int fruit_rename(struct vfs_handle_struct
*handle
,
3472 const struct smb_filename
*smb_fname_src
,
3473 const struct smb_filename
*smb_fname_dst
)
3476 struct fruit_config_data
*config
= NULL
;
3477 struct smb_filename
*src_adp_smb_fname
= NULL
;
3478 struct smb_filename
*dst_adp_smb_fname
= NULL
;
3480 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
3481 struct fruit_config_data
, return -1);
3483 if (!VALID_STAT(smb_fname_src
->st
)) {
3484 DBG_ERR("Need valid stat for [%s]\n",
3485 smb_fname_str_dbg(smb_fname_src
));
3489 rc
= SMB_VFS_NEXT_RENAME(handle
, smb_fname_src
, smb_fname_dst
);
3494 if ((config
->rsrc
!= FRUIT_RSRC_ADFILE
) ||
3495 (!S_ISREG(smb_fname_src
->st
.st_ex_mode
)))
3500 rc
= adouble_path(talloc_tos(), smb_fname_src
, &src_adp_smb_fname
);
3505 rc
= adouble_path(talloc_tos(), smb_fname_dst
, &dst_adp_smb_fname
);
3510 DBG_DEBUG("%s -> %s\n",
3511 smb_fname_str_dbg(src_adp_smb_fname
),
3512 smb_fname_str_dbg(dst_adp_smb_fname
));
3514 rc
= SMB_VFS_NEXT_RENAME(handle
, src_adp_smb_fname
, dst_adp_smb_fname
);
3515 if (errno
== ENOENT
) {
3520 TALLOC_FREE(src_adp_smb_fname
);
3521 TALLOC_FREE(dst_adp_smb_fname
);
3525 static int fruit_unlink_meta_stream(vfs_handle_struct
*handle
,
3526 const struct smb_filename
*smb_fname
)
3528 return SMB_VFS_NEXT_UNLINK(handle
, smb_fname
);
3531 static int fruit_unlink_meta_netatalk(vfs_handle_struct
*handle
,
3532 const struct smb_filename
*smb_fname
)
3534 return SMB_VFS_REMOVEXATTR(handle
->conn
,
3536 AFPINFO_EA_NETATALK
);
3539 static int fruit_unlink_meta(vfs_handle_struct
*handle
,
3540 const struct smb_filename
*smb_fname
)
3542 struct fruit_config_data
*config
= NULL
;
3545 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
3546 struct fruit_config_data
, return -1);
3548 switch (config
->meta
) {
3549 case FRUIT_META_STREAM
:
3550 rc
= fruit_unlink_meta_stream(handle
, smb_fname
);
3553 case FRUIT_META_NETATALK
:
3554 rc
= fruit_unlink_meta_netatalk(handle
, smb_fname
);
3558 DBG_ERR("Unsupported meta config [%d]\n", config
->meta
);
3565 static int fruit_unlink_rsrc_stream(vfs_handle_struct
*handle
,
3566 const struct smb_filename
*smb_fname
,
3571 if (!force_unlink
) {
3572 struct smb_filename
*smb_fname_cp
= NULL
;
3575 smb_fname_cp
= cp_smb_filename(talloc_tos(), smb_fname
);
3576 if (smb_fname_cp
== NULL
) {
3581 * 0 byte resource fork streams are not listed by
3582 * vfs_streaminfo, as a result stream cleanup/deletion of file
3583 * deletion doesn't remove the resourcefork stream.
3586 ret
= SMB_VFS_NEXT_STAT(handle
, smb_fname_cp
);
3588 TALLOC_FREE(smb_fname_cp
);
3589 DBG_ERR("stat [%s] failed [%s]\n",
3590 smb_fname_str_dbg(smb_fname_cp
), strerror(errno
));
3594 size
= smb_fname_cp
->st
.st_ex_size
;
3595 TALLOC_FREE(smb_fname_cp
);
3598 /* OS X ignores resource fork stream delete requests */
3603 ret
= SMB_VFS_NEXT_UNLINK(handle
, smb_fname
);
3604 if ((ret
!= 0) && (errno
== ENOENT
) && force_unlink
) {
3611 static int fruit_unlink_rsrc_adouble(vfs_handle_struct
*handle
,
3612 const struct smb_filename
*smb_fname
,
3616 struct adouble
*ad
= NULL
;
3617 struct smb_filename
*adp_smb_fname
= NULL
;
3619 if (!force_unlink
) {
3620 ad
= ad_get(talloc_tos(), handle
, smb_fname
,
3629 * 0 byte resource fork streams are not listed by
3630 * vfs_streaminfo, as a result stream cleanup/deletion of file
3631 * deletion doesn't remove the resourcefork stream.
3634 if (ad_getentrylen(ad
, ADEID_RFORK
) > 0) {
3635 /* OS X ignores resource fork stream delete requests */
3643 rc
= adouble_path(talloc_tos(), smb_fname
, &adp_smb_fname
);
3648 rc
= SMB_VFS_NEXT_UNLINK(handle
, adp_smb_fname
);
3649 TALLOC_FREE(adp_smb_fname
);
3650 if ((rc
!= 0) && (errno
== ENOENT
) && force_unlink
) {
3657 static int fruit_unlink_rsrc_xattr(vfs_handle_struct
*handle
,
3658 const struct smb_filename
*smb_fname
,
3662 * OS X ignores resource fork stream delete requests, so nothing to do
3663 * here. Removing the file will remove the xattr anyway, so we don't
3664 * have to take care of removing 0 byte resource forks that could be
3670 static int fruit_unlink_rsrc(vfs_handle_struct
*handle
,
3671 const struct smb_filename
*smb_fname
,
3674 struct fruit_config_data
*config
= NULL
;
3677 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
3678 struct fruit_config_data
, return -1);
3680 switch (config
->rsrc
) {
3681 case FRUIT_RSRC_STREAM
:
3682 rc
= fruit_unlink_rsrc_stream(handle
, smb_fname
, force_unlink
);
3685 case FRUIT_RSRC_ADFILE
:
3686 rc
= fruit_unlink_rsrc_adouble(handle
, smb_fname
, force_unlink
);
3689 case FRUIT_RSRC_XATTR
:
3690 rc
= fruit_unlink_rsrc_xattr(handle
, smb_fname
, force_unlink
);
3694 DBG_ERR("Unsupported rsrc config [%d]\n", config
->rsrc
);
3701 static int fruit_unlink(vfs_handle_struct
*handle
,
3702 const struct smb_filename
*smb_fname
)
3705 struct fruit_config_data
*config
= NULL
;
3706 struct smb_filename
*rsrc_smb_fname
= NULL
;
3708 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
3709 struct fruit_config_data
, return -1);
3711 if (is_afpinfo_stream(smb_fname
)) {
3712 return fruit_unlink_meta(handle
, smb_fname
);
3713 } else if (is_afpresource_stream(smb_fname
)) {
3714 return fruit_unlink_rsrc(handle
, smb_fname
, false);
3715 } if (is_ntfs_stream_smb_fname(smb_fname
)) {
3716 return SMB_VFS_NEXT_UNLINK(handle
, smb_fname
);
3720 * A request to delete the base file. Because 0 byte resource
3721 * fork streams are not listed by fruit_streaminfo,
3722 * delete_all_streams() can't remove 0 byte resource fork
3723 * streams, so we have to cleanup this here.
3725 rsrc_smb_fname
= synthetic_smb_fname(talloc_tos(),
3726 smb_fname
->base_name
,
3727 AFPRESOURCE_STREAM_NAME
,
3730 if (rsrc_smb_fname
== NULL
) {
3734 rc
= fruit_unlink_rsrc(handle
, rsrc_smb_fname
, true);
3735 if ((rc
!= 0) && (errno
!= ENOENT
)) {
3736 DBG_ERR("Forced unlink of [%s] failed [%s]\n",
3737 smb_fname_str_dbg(rsrc_smb_fname
), strerror(errno
));
3738 TALLOC_FREE(rsrc_smb_fname
);
3741 TALLOC_FREE(rsrc_smb_fname
);
3743 return SMB_VFS_NEXT_UNLINK(handle
, smb_fname
);
3746 static int fruit_chmod(vfs_handle_struct
*handle
,
3747 const struct smb_filename
*smb_fname
,
3751 struct fruit_config_data
*config
= NULL
;
3752 struct smb_filename
*smb_fname_adp
= NULL
;
3754 rc
= SMB_VFS_NEXT_CHMOD(handle
, smb_fname
, mode
);
3759 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
3760 struct fruit_config_data
, return -1);
3762 if (config
->rsrc
!= FRUIT_RSRC_ADFILE
) {
3766 if (!VALID_STAT(smb_fname
->st
)) {
3770 if (!S_ISREG(smb_fname
->st
.st_ex_mode
)) {
3774 rc
= adouble_path(talloc_tos(), smb_fname
, &smb_fname_adp
);
3779 DEBUG(10, ("fruit_chmod: %s\n", smb_fname_adp
->base_name
));
3781 rc
= SMB_VFS_NEXT_CHMOD(handle
, smb_fname_adp
, mode
);
3782 if (errno
== ENOENT
) {
3786 TALLOC_FREE(smb_fname_adp
);
3790 static int fruit_chown(vfs_handle_struct
*handle
,
3791 const struct smb_filename
*smb_fname
,
3796 struct fruit_config_data
*config
= NULL
;
3797 struct smb_filename
*adp_smb_fname
= NULL
;
3799 rc
= SMB_VFS_NEXT_CHOWN(handle
, smb_fname
, uid
, gid
);
3804 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
3805 struct fruit_config_data
, return -1);
3807 if (config
->rsrc
!= FRUIT_RSRC_ADFILE
) {
3811 if (!VALID_STAT(smb_fname
->st
)) {
3815 if (!S_ISREG(smb_fname
->st
.st_ex_mode
)) {
3819 rc
= adouble_path(talloc_tos(), smb_fname
, &adp_smb_fname
);
3824 DEBUG(10, ("fruit_chown: %s\n", adp_smb_fname
->base_name
));
3826 rc
= SMB_VFS_NEXT_CHOWN(handle
, adp_smb_fname
, uid
, gid
);
3827 if (errno
== ENOENT
) {
3832 TALLOC_FREE(adp_smb_fname
);
3836 static int fruit_rmdir(struct vfs_handle_struct
*handle
,
3837 const struct smb_filename
*smb_fname
)
3841 struct fruit_config_data
*config
;
3843 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
3844 struct fruit_config_data
, return -1);
3846 if (config
->rsrc
!= FRUIT_RSRC_ADFILE
) {
3851 * Due to there is no way to change bDeleteVetoFiles variable
3852 * from this module, need to clean up ourselves
3855 dh
= SMB_VFS_OPENDIR(handle
->conn
, smb_fname
, NULL
, 0);
3860 while ((de
= SMB_VFS_READDIR(handle
->conn
, dh
, NULL
)) != NULL
) {
3862 struct adouble
*ad
= NULL
;
3864 struct smb_filename
*ad_smb_fname
= NULL
;
3867 match
= strncmp(de
->d_name
,
3868 ADOUBLE_NAME_PREFIX
,
3869 strlen(ADOUBLE_NAME_PREFIX
));
3874 p
= talloc_asprintf(talloc_tos(), "%s/%s",
3875 smb_fname
->base_name
, de
->d_name
);
3877 DBG_ERR("talloc_asprintf failed\n");
3881 ad_smb_fname
= synthetic_smb_fname(talloc_tos(), p
,
3885 if (ad_smb_fname
== NULL
) {
3886 DBG_ERR("synthetic_smb_fname failed\n");
3891 * Check whether it's a valid AppleDouble file, if
3892 * yes, delete it, ignore it otherwise.
3894 ad
= ad_get(talloc_tos(), handle
, ad_smb_fname
, ADOUBLE_RSRC
);
3896 TALLOC_FREE(ad_smb_fname
);
3902 ret
= SMB_VFS_NEXT_UNLINK(handle
, ad_smb_fname
);
3904 DBG_ERR("Deleting [%s] failed\n",
3905 smb_fname_str_dbg(ad_smb_fname
));
3907 TALLOC_FREE(ad_smb_fname
);
3912 SMB_VFS_CLOSEDIR(handle
->conn
, dh
);
3914 return SMB_VFS_NEXT_RMDIR(handle
, smb_fname
);
3917 static ssize_t
fruit_pread_meta_stream(vfs_handle_struct
*handle
,
3918 files_struct
*fsp
, void *data
,
3919 size_t n
, off_t offset
)
3924 nread
= SMB_VFS_NEXT_PREAD(handle
, fsp
, data
, n
, offset
);
3930 DBG_ERR("Removing [%s] after short read [%zd]\n",
3931 fsp_str_dbg(fsp
), nread
);
3933 ret
= SMB_VFS_NEXT_UNLINK(handle
, fsp
->fsp_name
);
3935 DBG_ERR("Removing [%s] failed\n", fsp_str_dbg(fsp
));
3943 static ssize_t
fruit_pread_meta_adouble(vfs_handle_struct
*handle
,
3944 files_struct
*fsp
, void *data
,
3945 size_t n
, off_t offset
)
3948 struct adouble
*ad
= NULL
;
3949 char afpinfo_buf
[AFP_INFO_SIZE
];
3953 ai
= afpinfo_new(talloc_tos());
3958 ad
= ad_fget(talloc_tos(), handle
, fsp
, ADOUBLE_META
);
3964 p
= ad_get_entry(ad
, ADEID_FINDERI
);
3966 DBG_ERR("No ADEID_FINDERI for [%s]\n", fsp_str_dbg(fsp
));
3971 memcpy(&ai
->afpi_FinderInfo
[0], p
, ADEDLEN_FINDERI
);
3973 nread
= afpinfo_pack(ai
, afpinfo_buf
);
3974 if (nread
!= AFP_INFO_SIZE
) {
3979 memcpy(data
, afpinfo_buf
, n
);
3987 static ssize_t
fruit_pread_meta(vfs_handle_struct
*handle
,
3988 files_struct
*fsp
, void *data
,
3989 size_t n
, off_t offset
)
3991 struct fio
*fio
= (struct fio
*)VFS_FETCH_FSP_EXTENSION(handle
, fsp
);
3996 * OS X has a off-by-1 error in the offset calculation, so we're
3997 * bug compatible here. It won't hurt, as any relevant real
3998 * world read requests from the AFP_AfpInfo stream will be
3999 * offset=0 n=60. offset is ignored anyway, see below.
4001 if ((offset
< 0) || (offset
>= AFP_INFO_SIZE
+ 1)) {
4005 /* Yes, macOS always reads from offset 0 */
4007 to_return
= MIN(n
, AFP_INFO_SIZE
);
4009 switch (fio
->config
->meta
) {
4010 case FRUIT_META_STREAM
:
4011 nread
= fruit_pread_meta_stream(handle
, fsp
, data
,
4015 case FRUIT_META_NETATALK
:
4016 nread
= fruit_pread_meta_adouble(handle
, fsp
, data
,
4021 DBG_ERR("Unexpected meta config [%d]\n", fio
->config
->meta
);
4028 static ssize_t
fruit_pread_rsrc_stream(vfs_handle_struct
*handle
,
4029 files_struct
*fsp
, void *data
,
4030 size_t n
, off_t offset
)
4032 return SMB_VFS_NEXT_PREAD(handle
, fsp
, data
, n
, offset
);
4035 static ssize_t
fruit_pread_rsrc_xattr(vfs_handle_struct
*handle
,
4036 files_struct
*fsp
, void *data
,
4037 size_t n
, off_t offset
)
4039 return SMB_VFS_NEXT_PREAD(handle
, fsp
, data
, n
, offset
);
4042 static ssize_t
fruit_pread_rsrc_adouble(vfs_handle_struct
*handle
,
4043 files_struct
*fsp
, void *data
,
4044 size_t n
, off_t offset
)
4046 struct adouble
*ad
= NULL
;
4049 ad
= ad_fget(talloc_tos(), handle
, fsp
, ADOUBLE_RSRC
);
4054 nread
= SMB_VFS_NEXT_PREAD(handle
, fsp
, data
, n
,
4055 offset
+ ad_getentryoff(ad
, ADEID_RFORK
));
4061 static ssize_t
fruit_pread_rsrc(vfs_handle_struct
*handle
,
4062 files_struct
*fsp
, void *data
,
4063 size_t n
, off_t offset
)
4065 struct fio
*fio
= (struct fio
*)VFS_FETCH_FSP_EXTENSION(handle
, fsp
);
4073 switch (fio
->config
->rsrc
) {
4074 case FRUIT_RSRC_STREAM
:
4075 nread
= fruit_pread_rsrc_stream(handle
, fsp
, data
, n
, offset
);
4078 case FRUIT_RSRC_ADFILE
:
4079 nread
= fruit_pread_rsrc_adouble(handle
, fsp
, data
, n
, offset
);
4082 case FRUIT_RSRC_XATTR
:
4083 nread
= fruit_pread_rsrc_xattr(handle
, fsp
, data
, n
, offset
);
4087 DBG_ERR("Unexpected rsrc config [%d]\n", fio
->config
->rsrc
);
4094 static ssize_t
fruit_pread(vfs_handle_struct
*handle
,
4095 files_struct
*fsp
, void *data
,
4096 size_t n
, off_t offset
)
4098 struct fio
*fio
= (struct fio
*)VFS_FETCH_FSP_EXTENSION(handle
, fsp
);
4101 DBG_DEBUG("Path [%s] offset=%"PRIdMAX
", size=%zd\n",
4102 fsp_str_dbg(fsp
), (intmax_t)offset
, n
);
4105 return SMB_VFS_NEXT_PREAD(handle
, fsp
, data
, n
, offset
);
4108 if (fio
->type
== ADOUBLE_META
) {
4109 nread
= fruit_pread_meta(handle
, fsp
, data
, n
, offset
);
4111 nread
= fruit_pread_rsrc(handle
, fsp
, data
, n
, offset
);
4114 DBG_DEBUG("Path [%s] nread [%zd]\n", fsp_str_dbg(fsp
), nread
);
4118 static bool fruit_must_handle_aio_stream(struct fio
*fio
)
4124 if ((fio
->type
== ADOUBLE_META
) &&
4125 (fio
->config
->meta
== FRUIT_META_NETATALK
))
4130 if ((fio
->type
== ADOUBLE_RSRC
) &&
4131 (fio
->config
->rsrc
== FRUIT_RSRC_ADFILE
))
4139 struct fruit_pread_state
{
4141 struct vfs_aio_state vfs_aio_state
;
4144 static void fruit_pread_done(struct tevent_req
*subreq
);
4146 static struct tevent_req
*fruit_pread_send(
4147 struct vfs_handle_struct
*handle
,
4148 TALLOC_CTX
*mem_ctx
,
4149 struct tevent_context
*ev
,
4150 struct files_struct
*fsp
,
4152 size_t n
, off_t offset
)
4154 struct tevent_req
*req
= NULL
;
4155 struct tevent_req
*subreq
= NULL
;
4156 struct fruit_pread_state
*state
= NULL
;
4157 struct fio
*fio
= (struct fio
*)VFS_FETCH_FSP_EXTENSION(handle
, fsp
);
4159 req
= tevent_req_create(mem_ctx
, &state
,
4160 struct fruit_pread_state
);
4165 if (fruit_must_handle_aio_stream(fio
)) {
4166 state
->nread
= SMB_VFS_PREAD(fsp
, data
, n
, offset
);
4167 if (state
->nread
!= n
) {
4168 if (state
->nread
!= -1) {
4171 tevent_req_error(req
, errno
);
4172 return tevent_req_post(req
, ev
);
4174 tevent_req_done(req
);
4175 return tevent_req_post(req
, ev
);
4178 subreq
= SMB_VFS_NEXT_PREAD_SEND(state
, ev
, handle
, fsp
,
4180 if (tevent_req_nomem(req
, subreq
)) {
4181 return tevent_req_post(req
, ev
);
4183 tevent_req_set_callback(subreq
, fruit_pread_done
, req
);
4187 static void fruit_pread_done(struct tevent_req
*subreq
)
4189 struct tevent_req
*req
= tevent_req_callback_data(
4190 subreq
, struct tevent_req
);
4191 struct fruit_pread_state
*state
= tevent_req_data(
4192 req
, struct fruit_pread_state
);
4194 state
->nread
= SMB_VFS_PREAD_RECV(subreq
, &state
->vfs_aio_state
);
4195 TALLOC_FREE(subreq
);
4197 if (tevent_req_error(req
, state
->vfs_aio_state
.error
)) {
4200 tevent_req_done(req
);
4203 static ssize_t
fruit_pread_recv(struct tevent_req
*req
,
4204 struct vfs_aio_state
*vfs_aio_state
)
4206 struct fruit_pread_state
*state
= tevent_req_data(
4207 req
, struct fruit_pread_state
);
4209 if (tevent_req_is_unix_error(req
, &vfs_aio_state
->error
)) {
4213 *vfs_aio_state
= state
->vfs_aio_state
;
4214 return state
->nread
;
4217 static ssize_t
fruit_pwrite_meta_stream(vfs_handle_struct
*handle
,
4218 files_struct
*fsp
, const void *data
,
4219 size_t n
, off_t offset
)
4225 ai
= afpinfo_unpack(talloc_tos(), data
);
4230 nwritten
= SMB_VFS_NEXT_PWRITE(handle
, fsp
, data
, n
, offset
);
4231 if (nwritten
!= n
) {
4235 if (!ai_empty_finderinfo(ai
)) {
4239 ok
= set_delete_on_close(
4242 handle
->conn
->session_info
->security_token
,
4243 handle
->conn
->session_info
->unix_token
);
4245 DBG_ERR("set_delete_on_close on [%s] failed\n",
4253 static ssize_t
fruit_pwrite_meta_netatalk(vfs_handle_struct
*handle
,
4254 files_struct
*fsp
, const void *data
,
4255 size_t n
, off_t offset
)
4257 struct adouble
*ad
= NULL
;
4263 ai
= afpinfo_unpack(talloc_tos(), data
);
4268 ad
= ad_fget(talloc_tos(), handle
, fsp
, ADOUBLE_META
);
4270 ad
= ad_init(talloc_tos(), handle
, ADOUBLE_META
);
4275 p
= ad_get_entry(ad
, ADEID_FINDERI
);
4277 DBG_ERR("No ADEID_FINDERI for [%s]\n", fsp_str_dbg(fsp
));
4282 memcpy(p
, &ai
->afpi_FinderInfo
[0], ADEDLEN_FINDERI
);
4284 ret
= ad_fset(ad
, fsp
);
4286 DBG_ERR("ad_pwrite [%s] failed\n", fsp_str_dbg(fsp
));
4293 if (!ai_empty_finderinfo(ai
)) {
4297 ok
= set_delete_on_close(
4300 handle
->conn
->session_info
->security_token
,
4301 handle
->conn
->session_info
->unix_token
);
4303 DBG_ERR("set_delete_on_close on [%s] failed\n",
4311 static ssize_t
fruit_pwrite_meta(vfs_handle_struct
*handle
,
4312 files_struct
*fsp
, const void *data
,
4313 size_t n
, off_t offset
)
4315 struct fio
*fio
= (struct fio
*)VFS_FETCH_FSP_EXTENSION(handle
, fsp
);
4319 * Writing an all 0 blob to the metadata stream
4320 * results in the stream being removed on a macOS
4321 * server. This ensures we behave the same and it
4322 * verified by the "delete AFP_AfpInfo by writing all
4325 if (n
!= AFP_INFO_SIZE
|| offset
!= 0) {
4326 DBG_ERR("unexpected offset=%jd or size=%jd\n",
4327 (intmax_t)offset
, (intmax_t)n
);
4331 switch (fio
->config
->meta
) {
4332 case FRUIT_META_STREAM
:
4333 nwritten
= fruit_pwrite_meta_stream(handle
, fsp
, data
,
4337 case FRUIT_META_NETATALK
:
4338 nwritten
= fruit_pwrite_meta_netatalk(handle
, fsp
, data
,
4343 DBG_ERR("Unexpected meta config [%d]\n", fio
->config
->meta
);
4350 static ssize_t
fruit_pwrite_rsrc_stream(vfs_handle_struct
*handle
,
4351 files_struct
*fsp
, const void *data
,
4352 size_t n
, off_t offset
)
4354 return SMB_VFS_NEXT_PWRITE(handle
, fsp
, data
, n
, offset
);
4357 static ssize_t
fruit_pwrite_rsrc_xattr(vfs_handle_struct
*handle
,
4358 files_struct
*fsp
, const void *data
,
4359 size_t n
, off_t offset
)
4361 return SMB_VFS_NEXT_PWRITE(handle
, fsp
, data
, n
, offset
);
4364 static ssize_t
fruit_pwrite_rsrc_adouble(vfs_handle_struct
*handle
,
4365 files_struct
*fsp
, const void *data
,
4366 size_t n
, off_t offset
)
4368 struct adouble
*ad
= NULL
;
4372 ad
= ad_fget(talloc_tos(), handle
, fsp
, ADOUBLE_RSRC
);
4374 DBG_ERR("ad_get [%s] failed\n", fsp_str_dbg(fsp
));
4378 nwritten
= SMB_VFS_NEXT_PWRITE(handle
, fsp
, data
, n
,
4379 offset
+ ad_getentryoff(ad
, ADEID_RFORK
));
4380 if (nwritten
!= n
) {
4381 DBG_ERR("Short write on [%s] [%zd/%zd]\n",
4382 fsp_str_dbg(fsp
), nwritten
, n
);
4387 if ((n
+ offset
) > ad_getentrylen(ad
, ADEID_RFORK
)) {
4388 ad_setentrylen(ad
, ADEID_RFORK
, n
+ offset
);
4389 ret
= ad_fset(ad
, fsp
);
4391 DBG_ERR("ad_pwrite [%s] failed\n", fsp_str_dbg(fsp
));
4401 static ssize_t
fruit_pwrite_rsrc(vfs_handle_struct
*handle
,
4402 files_struct
*fsp
, const void *data
,
4403 size_t n
, off_t offset
)
4405 struct fio
*fio
= (struct fio
*)VFS_FETCH_FSP_EXTENSION(handle
, fsp
);
4408 switch (fio
->config
->rsrc
) {
4409 case FRUIT_RSRC_STREAM
:
4410 nwritten
= fruit_pwrite_rsrc_stream(handle
, fsp
, data
, n
, offset
);
4413 case FRUIT_RSRC_ADFILE
:
4414 nwritten
= fruit_pwrite_rsrc_adouble(handle
, fsp
, data
, n
, offset
);
4417 case FRUIT_RSRC_XATTR
:
4418 nwritten
= fruit_pwrite_rsrc_xattr(handle
, fsp
, data
, n
, offset
);
4422 DBG_ERR("Unexpected rsrc config [%d]\n", fio
->config
->rsrc
);
4429 static ssize_t
fruit_pwrite(vfs_handle_struct
*handle
,
4430 files_struct
*fsp
, const void *data
,
4431 size_t n
, off_t offset
)
4433 struct fio
*fio
= (struct fio
*)VFS_FETCH_FSP_EXTENSION(handle
, fsp
);
4436 DBG_DEBUG("Path [%s] offset=%"PRIdMAX
", size=%zd\n",
4437 fsp_str_dbg(fsp
), (intmax_t)offset
, n
);
4440 return SMB_VFS_NEXT_PWRITE(handle
, fsp
, data
, n
, offset
);
4443 if (fio
->type
== ADOUBLE_META
) {
4444 nwritten
= fruit_pwrite_meta(handle
, fsp
, data
, n
, offset
);
4446 nwritten
= fruit_pwrite_rsrc(handle
, fsp
, data
, n
, offset
);
4449 DBG_DEBUG("Path [%s] nwritten=%zd\n", fsp_str_dbg(fsp
), nwritten
);
4453 struct fruit_pwrite_state
{
4455 struct vfs_aio_state vfs_aio_state
;
4458 static void fruit_pwrite_done(struct tevent_req
*subreq
);
4460 static struct tevent_req
*fruit_pwrite_send(
4461 struct vfs_handle_struct
*handle
,
4462 TALLOC_CTX
*mem_ctx
,
4463 struct tevent_context
*ev
,
4464 struct files_struct
*fsp
,
4466 size_t n
, off_t offset
)
4468 struct tevent_req
*req
= NULL
;
4469 struct tevent_req
*subreq
= NULL
;
4470 struct fruit_pwrite_state
*state
= NULL
;
4471 struct fio
*fio
= (struct fio
*)VFS_FETCH_FSP_EXTENSION(handle
, fsp
);
4473 req
= tevent_req_create(mem_ctx
, &state
,
4474 struct fruit_pwrite_state
);
4479 if (fruit_must_handle_aio_stream(fio
)) {
4480 state
->nwritten
= SMB_VFS_PWRITE(fsp
, data
, n
, offset
);
4481 if (state
->nwritten
!= n
) {
4482 if (state
->nwritten
!= -1) {
4485 tevent_req_error(req
, errno
);
4486 return tevent_req_post(req
, ev
);
4488 tevent_req_done(req
);
4489 return tevent_req_post(req
, ev
);
4492 subreq
= SMB_VFS_NEXT_PWRITE_SEND(state
, ev
, handle
, fsp
,
4494 if (tevent_req_nomem(req
, subreq
)) {
4495 return tevent_req_post(req
, ev
);
4497 tevent_req_set_callback(subreq
, fruit_pwrite_done
, req
);
4501 static void fruit_pwrite_done(struct tevent_req
*subreq
)
4503 struct tevent_req
*req
= tevent_req_callback_data(
4504 subreq
, struct tevent_req
);
4505 struct fruit_pwrite_state
*state
= tevent_req_data(
4506 req
, struct fruit_pwrite_state
);
4508 state
->nwritten
= SMB_VFS_PWRITE_RECV(subreq
, &state
->vfs_aio_state
);
4509 TALLOC_FREE(subreq
);
4511 if (tevent_req_error(req
, state
->vfs_aio_state
.error
)) {
4514 tevent_req_done(req
);
4517 static ssize_t
fruit_pwrite_recv(struct tevent_req
*req
,
4518 struct vfs_aio_state
*vfs_aio_state
)
4520 struct fruit_pwrite_state
*state
= tevent_req_data(
4521 req
, struct fruit_pwrite_state
);
4523 if (tevent_req_is_unix_error(req
, &vfs_aio_state
->error
)) {
4527 *vfs_aio_state
= state
->vfs_aio_state
;
4528 return state
->nwritten
;
4532 * Helper to stat/lstat the base file of an smb_fname.
4534 static int fruit_stat_base(vfs_handle_struct
*handle
,
4535 struct smb_filename
*smb_fname
,
4538 char *tmp_stream_name
;
4541 tmp_stream_name
= smb_fname
->stream_name
;
4542 smb_fname
->stream_name
= NULL
;
4544 rc
= SMB_VFS_NEXT_STAT(handle
, smb_fname
);
4546 rc
= SMB_VFS_NEXT_LSTAT(handle
, smb_fname
);
4548 smb_fname
->stream_name
= tmp_stream_name
;
4552 static int fruit_stat_meta_stream(vfs_handle_struct
*handle
,
4553 struct smb_filename
*smb_fname
,
4559 ret
= SMB_VFS_NEXT_STAT(handle
, smb_fname
);
4561 ret
= SMB_VFS_NEXT_LSTAT(handle
, smb_fname
);
4567 static int fruit_stat_meta_netatalk(vfs_handle_struct
*handle
,
4568 struct smb_filename
*smb_fname
,
4571 struct adouble
*ad
= NULL
;
4573 ad
= ad_get(talloc_tos(), handle
, smb_fname
, ADOUBLE_META
);
4575 DBG_INFO("fruit_stat_meta %s: %s\n",
4576 smb_fname_str_dbg(smb_fname
), strerror(errno
));
4582 /* Populate the stat struct with info from the base file. */
4583 if (fruit_stat_base(handle
, smb_fname
, follow_links
) == -1) {
4586 smb_fname
->st
.st_ex_size
= AFP_INFO_SIZE
;
4587 smb_fname
->st
.st_ex_ino
= fruit_inode(&smb_fname
->st
,
4588 smb_fname
->stream_name
);
4592 static int fruit_stat_meta(vfs_handle_struct
*handle
,
4593 struct smb_filename
*smb_fname
,
4596 struct fruit_config_data
*config
= NULL
;
4599 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
4600 struct fruit_config_data
, return -1);
4602 switch (config
->meta
) {
4603 case FRUIT_META_STREAM
:
4604 ret
= fruit_stat_meta_stream(handle
, smb_fname
, follow_links
);
4607 case FRUIT_META_NETATALK
:
4608 ret
= fruit_stat_meta_netatalk(handle
, smb_fname
, follow_links
);
4612 DBG_ERR("Unexpected meta config [%d]\n", config
->meta
);
4619 static int fruit_stat_rsrc_netatalk(vfs_handle_struct
*handle
,
4620 struct smb_filename
*smb_fname
,
4623 struct adouble
*ad
= NULL
;
4626 ad
= ad_get(talloc_tos(), handle
, smb_fname
, ADOUBLE_RSRC
);
4632 /* Populate the stat struct with info from the base file. */
4633 ret
= fruit_stat_base(handle
, smb_fname
, follow_links
);
4639 smb_fname
->st
.st_ex_size
= ad_getentrylen(ad
, ADEID_RFORK
);
4640 smb_fname
->st
.st_ex_ino
= fruit_inode(&smb_fname
->st
,
4641 smb_fname
->stream_name
);
4646 static int fruit_stat_rsrc_stream(vfs_handle_struct
*handle
,
4647 struct smb_filename
*smb_fname
,
4653 ret
= SMB_VFS_NEXT_STAT(handle
, smb_fname
);
4655 ret
= SMB_VFS_NEXT_LSTAT(handle
, smb_fname
);
4661 static int fruit_stat_rsrc_xattr(vfs_handle_struct
*handle
,
4662 struct smb_filename
*smb_fname
,
4665 #ifdef HAVE_ATTROPEN
4669 /* Populate the stat struct with info from the base file. */
4670 ret
= fruit_stat_base(handle
, smb_fname
, follow_links
);
4675 fd
= attropen(smb_fname
->base_name
,
4676 AFPRESOURCE_EA_NETATALK
,
4682 ret
= sys_fstat(fd
, &smb_fname
->st
, false);
4685 DBG_ERR("fstat [%s:%s] failed\n", smb_fname
->base_name
,
4686 AFPRESOURCE_EA_NETATALK
);
4692 smb_fname
->st
.st_ex_ino
= fruit_inode(&smb_fname
->st
,
4693 smb_fname
->stream_name
);
4703 static int fruit_stat_rsrc(vfs_handle_struct
*handle
,
4704 struct smb_filename
*smb_fname
,
4707 struct fruit_config_data
*config
= NULL
;
4710 DBG_DEBUG("Path [%s]\n", smb_fname_str_dbg(smb_fname
));
4712 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
4713 struct fruit_config_data
, return -1);
4715 switch (config
->rsrc
) {
4716 case FRUIT_RSRC_STREAM
:
4717 ret
= fruit_stat_rsrc_stream(handle
, smb_fname
, follow_links
);
4720 case FRUIT_RSRC_XATTR
:
4721 ret
= fruit_stat_rsrc_xattr(handle
, smb_fname
, follow_links
);
4724 case FRUIT_RSRC_ADFILE
:
4725 ret
= fruit_stat_rsrc_netatalk(handle
, smb_fname
, follow_links
);
4729 DBG_ERR("Unexpected rsrc config [%d]\n", config
->rsrc
);
4736 static int fruit_stat(vfs_handle_struct
*handle
,
4737 struct smb_filename
*smb_fname
)
4741 DEBUG(10, ("fruit_stat called for %s\n",
4742 smb_fname_str_dbg(smb_fname
)));
4744 if (!is_ntfs_stream_smb_fname(smb_fname
)
4745 || is_ntfs_default_stream_smb_fname(smb_fname
)) {
4746 rc
= SMB_VFS_NEXT_STAT(handle
, smb_fname
);
4748 update_btime(handle
, smb_fname
);
4754 * Note if lp_posix_paths() is true, we can never
4755 * get here as is_ntfs_stream_smb_fname() is
4756 * always false. So we never need worry about
4757 * not following links here.
4760 if (is_afpinfo_stream(smb_fname
)) {
4761 rc
= fruit_stat_meta(handle
, smb_fname
, true);
4762 } else if (is_afpresource_stream(smb_fname
)) {
4763 rc
= fruit_stat_rsrc(handle
, smb_fname
, true);
4765 return SMB_VFS_NEXT_STAT(handle
, smb_fname
);
4769 update_btime(handle
, smb_fname
);
4770 smb_fname
->st
.st_ex_mode
&= ~S_IFMT
;
4771 smb_fname
->st
.st_ex_mode
|= S_IFREG
;
4772 smb_fname
->st
.st_ex_blocks
=
4773 smb_fname
->st
.st_ex_size
/ STAT_ST_BLOCKSIZE
+ 1;
4778 static int fruit_lstat(vfs_handle_struct
*handle
,
4779 struct smb_filename
*smb_fname
)
4783 DEBUG(10, ("fruit_lstat called for %s\n",
4784 smb_fname_str_dbg(smb_fname
)));
4786 if (!is_ntfs_stream_smb_fname(smb_fname
)
4787 || is_ntfs_default_stream_smb_fname(smb_fname
)) {
4788 rc
= SMB_VFS_NEXT_LSTAT(handle
, smb_fname
);
4790 update_btime(handle
, smb_fname
);
4795 if (is_afpinfo_stream(smb_fname
)) {
4796 rc
= fruit_stat_meta(handle
, smb_fname
, false);
4797 } else if (is_afpresource_stream(smb_fname
)) {
4798 rc
= fruit_stat_rsrc(handle
, smb_fname
, false);
4800 return SMB_VFS_NEXT_LSTAT(handle
, smb_fname
);
4804 update_btime(handle
, smb_fname
);
4805 smb_fname
->st
.st_ex_mode
&= ~S_IFMT
;
4806 smb_fname
->st
.st_ex_mode
|= S_IFREG
;
4807 smb_fname
->st
.st_ex_blocks
=
4808 smb_fname
->st
.st_ex_size
/ STAT_ST_BLOCKSIZE
+ 1;
4813 static int fruit_fstat_meta_stream(vfs_handle_struct
*handle
,
4815 SMB_STRUCT_STAT
*sbuf
)
4817 return SMB_VFS_NEXT_FSTAT(handle
, fsp
, sbuf
);
4820 static int fruit_fstat_meta_netatalk(vfs_handle_struct
*handle
,
4822 SMB_STRUCT_STAT
*sbuf
)
4826 ret
= fruit_stat_base(handle
, fsp
->base_fsp
->fsp_name
, false);
4831 *sbuf
= fsp
->base_fsp
->fsp_name
->st
;
4832 sbuf
->st_ex_size
= AFP_INFO_SIZE
;
4833 sbuf
->st_ex_ino
= fruit_inode(sbuf
, fsp
->fsp_name
->stream_name
);
4838 static int fruit_fstat_meta(vfs_handle_struct
*handle
,
4840 SMB_STRUCT_STAT
*sbuf
,
4845 DBG_DEBUG("Path [%s]\n", fsp_str_dbg(fsp
));
4847 switch (fio
->config
->meta
) {
4848 case FRUIT_META_STREAM
:
4849 ret
= fruit_fstat_meta_stream(handle
, fsp
, sbuf
);
4852 case FRUIT_META_NETATALK
:
4853 ret
= fruit_fstat_meta_netatalk(handle
, fsp
, sbuf
);
4857 DBG_ERR("Unexpected meta config [%d]\n", fio
->config
->meta
);
4861 DBG_DEBUG("Path [%s] ret [%d]\n", fsp_str_dbg(fsp
), ret
);
4865 static int fruit_fstat_rsrc_xattr(vfs_handle_struct
*handle
,
4867 SMB_STRUCT_STAT
*sbuf
)
4869 return SMB_VFS_NEXT_FSTAT(handle
, fsp
, sbuf
);
4872 static int fruit_fstat_rsrc_stream(vfs_handle_struct
*handle
,
4874 SMB_STRUCT_STAT
*sbuf
)
4876 return SMB_VFS_NEXT_FSTAT(handle
, fsp
, sbuf
);
4879 static int fruit_fstat_rsrc_adouble(vfs_handle_struct
*handle
,
4881 SMB_STRUCT_STAT
*sbuf
)
4883 struct adouble
*ad
= NULL
;
4886 /* Populate the stat struct with info from the base file. */
4887 ret
= fruit_stat_base(handle
, fsp
->base_fsp
->fsp_name
, false);
4892 ad
= ad_get(talloc_tos(), handle
,
4893 fsp
->base_fsp
->fsp_name
,
4896 DBG_ERR("ad_get [%s] failed [%s]\n",
4897 fsp_str_dbg(fsp
), strerror(errno
));
4901 *sbuf
= fsp
->base_fsp
->fsp_name
->st
;
4902 sbuf
->st_ex_size
= ad_getentrylen(ad
, ADEID_RFORK
);
4903 sbuf
->st_ex_ino
= fruit_inode(sbuf
, fsp
->fsp_name
->stream_name
);
4909 static int fruit_fstat_rsrc(vfs_handle_struct
*handle
, files_struct
*fsp
,
4910 SMB_STRUCT_STAT
*sbuf
, struct fio
*fio
)
4914 switch (fio
->config
->rsrc
) {
4915 case FRUIT_RSRC_STREAM
:
4916 ret
= fruit_fstat_rsrc_stream(handle
, fsp
, sbuf
);
4919 case FRUIT_RSRC_ADFILE
:
4920 ret
= fruit_fstat_rsrc_adouble(handle
, fsp
, sbuf
);
4923 case FRUIT_RSRC_XATTR
:
4924 ret
= fruit_fstat_rsrc_xattr(handle
, fsp
, sbuf
);
4928 DBG_ERR("Unexpected rsrc config [%d]\n", fio
->config
->rsrc
);
4935 static int fruit_fstat(vfs_handle_struct
*handle
, files_struct
*fsp
,
4936 SMB_STRUCT_STAT
*sbuf
)
4938 struct fio
*fio
= (struct fio
*)VFS_FETCH_FSP_EXTENSION(handle
, fsp
);
4942 return SMB_VFS_NEXT_FSTAT(handle
, fsp
, sbuf
);
4945 DBG_DEBUG("Path [%s]\n", fsp_str_dbg(fsp
));
4947 if (fio
->type
== ADOUBLE_META
) {
4948 rc
= fruit_fstat_meta(handle
, fsp
, sbuf
, fio
);
4950 rc
= fruit_fstat_rsrc(handle
, fsp
, sbuf
, fio
);
4954 sbuf
->st_ex_mode
&= ~S_IFMT
;
4955 sbuf
->st_ex_mode
|= S_IFREG
;
4956 sbuf
->st_ex_blocks
= sbuf
->st_ex_size
/ STAT_ST_BLOCKSIZE
+ 1;
4959 DBG_DEBUG("Path [%s] rc [%d] size [%"PRIdMAX
"]\n",
4960 fsp_str_dbg(fsp
), rc
, (intmax_t)sbuf
->st_ex_size
);
4964 static NTSTATUS
delete_invalid_meta_stream(
4965 vfs_handle_struct
*handle
,
4966 const struct smb_filename
*smb_fname
,
4967 TALLOC_CTX
*mem_ctx
,
4968 unsigned int *pnum_streams
,
4969 struct stream_struct
**pstreams
)
4971 struct smb_filename
*sname
= NULL
;
4975 ok
= del_fruit_stream(mem_ctx
, pnum_streams
, pstreams
, AFPINFO_STREAM
);
4977 return NT_STATUS_INTERNAL_ERROR
;
4980 sname
= synthetic_smb_fname(talloc_tos(),
4981 smb_fname
->base_name
,
4982 AFPINFO_STREAM_NAME
,
4984 if (sname
== NULL
) {
4985 return NT_STATUS_NO_MEMORY
;
4988 ret
= SMB_VFS_NEXT_UNLINK(handle
, sname
);
4991 DBG_ERR("Removing [%s] failed\n", smb_fname_str_dbg(sname
));
4992 return map_nt_error_from_unix(errno
);
4995 return NT_STATUS_OK
;
4998 static NTSTATUS
fruit_streaminfo_meta_stream(
4999 vfs_handle_struct
*handle
,
5000 struct files_struct
*fsp
,
5001 const struct smb_filename
*smb_fname
,
5002 TALLOC_CTX
*mem_ctx
,
5003 unsigned int *pnum_streams
,
5004 struct stream_struct
**pstreams
)
5006 struct stream_struct
*stream
= *pstreams
;
5007 unsigned int num_streams
= *pnum_streams
;
5008 struct smb_filename
*sname
= NULL
;
5009 char *full_name
= NULL
;
5011 struct share_mode_lock
*lck
= NULL
;
5012 struct file_id id
= {0};
5013 bool delete_on_close_set
;
5019 for (i
= 0; i
< num_streams
; i
++) {
5020 if (strequal_m(stream
[i
].name
, AFPINFO_STREAM
)) {
5025 if (i
== num_streams
) {
5026 return NT_STATUS_OK
;
5029 if (stream
[i
].size
!= AFP_INFO_SIZE
) {
5030 DBG_ERR("Removing invalid AFPINFO_STREAM size [%jd] from [%s]\n",
5031 (intmax_t)stream
[i
].size
, smb_fname_str_dbg(smb_fname
));
5033 return delete_invalid_meta_stream(handle
, smb_fname
, mem_ctx
,
5034 pnum_streams
, pstreams
);
5038 * Now check if there's a delete-on-close pending on the stream. If so,
5039 * hide the stream. This behaviour was verified against a macOS 10.12
5043 sname
= synthetic_smb_fname(talloc_tos(),
5044 smb_fname
->base_name
,
5045 AFPINFO_STREAM_NAME
,
5047 if (sname
== NULL
) {
5048 status
= NT_STATUS_NO_MEMORY
;
5052 ret
= SMB_VFS_NEXT_STAT(handle
, sname
);
5054 status
= map_nt_error_from_unix(errno
);
5058 id
= SMB_VFS_NEXT_FILE_ID_CREATE(handle
, &sname
->st
);
5060 lck
= get_existing_share_mode_lock(talloc_tos(), id
);
5062 status
= NT_STATUS_OK
;
5066 full_name
= talloc_asprintf(talloc_tos(),
5070 if (full_name
== NULL
) {
5071 status
= NT_STATUS_NO_MEMORY
;
5075 status
= file_name_hash(handle
->conn
, full_name
, &name_hash
);
5076 if (!NT_STATUS_IS_OK(status
)) {
5080 delete_on_close_set
= is_delete_on_close_set(lck
, name_hash
);
5081 if (delete_on_close_set
) {
5082 ok
= del_fruit_stream(mem_ctx
,
5087 status
= NT_STATUS_INTERNAL_ERROR
;
5092 status
= NT_STATUS_OK
;
5097 TALLOC_FREE(full_name
);
5101 static NTSTATUS
fruit_streaminfo_meta_netatalk(
5102 vfs_handle_struct
*handle
,
5103 struct files_struct
*fsp
,
5104 const struct smb_filename
*smb_fname
,
5105 TALLOC_CTX
*mem_ctx
,
5106 unsigned int *pnum_streams
,
5107 struct stream_struct
**pstreams
)
5109 struct stream_struct
*stream
= *pstreams
;
5110 unsigned int num_streams
= *pnum_streams
;
5111 struct adouble
*ad
= NULL
;
5116 /* Remove the Netatalk xattr from the list */
5117 ok
= del_fruit_stream(mem_ctx
, pnum_streams
, pstreams
,
5118 ":" NETATALK_META_XATTR
":$DATA");
5120 return NT_STATUS_NO_MEMORY
;
5124 * Check if there's a AFPINFO_STREAM from the VFS streams
5125 * backend and if yes, remove it from the list
5127 for (i
= 0; i
< num_streams
; i
++) {
5128 if (strequal_m(stream
[i
].name
, AFPINFO_STREAM
)) {
5133 if (i
< num_streams
) {
5134 DBG_WARNING("Unexpected AFPINFO_STREAM on [%s]\n",
5135 smb_fname_str_dbg(smb_fname
));
5137 ok
= del_fruit_stream(mem_ctx
, pnum_streams
, pstreams
,
5140 return NT_STATUS_INTERNAL_ERROR
;
5144 ad
= ad_get(talloc_tos(), handle
, smb_fname
, ADOUBLE_META
);
5146 return NT_STATUS_OK
;
5149 is_fi_empty
= ad_empty_finderinfo(ad
);
5153 return NT_STATUS_OK
;
5156 ok
= add_fruit_stream(mem_ctx
, pnum_streams
, pstreams
,
5157 AFPINFO_STREAM_NAME
, AFP_INFO_SIZE
,
5158 smb_roundup(handle
->conn
, AFP_INFO_SIZE
));
5160 return NT_STATUS_NO_MEMORY
;
5163 return NT_STATUS_OK
;
5166 static NTSTATUS
fruit_streaminfo_meta(vfs_handle_struct
*handle
,
5167 struct files_struct
*fsp
,
5168 const struct smb_filename
*smb_fname
,
5169 TALLOC_CTX
*mem_ctx
,
5170 unsigned int *pnum_streams
,
5171 struct stream_struct
**pstreams
)
5173 struct fruit_config_data
*config
= NULL
;
5176 SMB_VFS_HANDLE_GET_DATA(handle
, config
, struct fruit_config_data
,
5177 return NT_STATUS_INTERNAL_ERROR
);
5179 switch (config
->meta
) {
5180 case FRUIT_META_NETATALK
:
5181 status
= fruit_streaminfo_meta_netatalk(handle
, fsp
, smb_fname
,
5182 mem_ctx
, pnum_streams
,
5186 case FRUIT_META_STREAM
:
5187 status
= fruit_streaminfo_meta_stream(handle
, fsp
, smb_fname
,
5188 mem_ctx
, pnum_streams
,
5193 return NT_STATUS_INTERNAL_ERROR
;
5199 static NTSTATUS
fruit_streaminfo_rsrc_stream(
5200 vfs_handle_struct
*handle
,
5201 struct files_struct
*fsp
,
5202 const struct smb_filename
*smb_fname
,
5203 TALLOC_CTX
*mem_ctx
,
5204 unsigned int *pnum_streams
,
5205 struct stream_struct
**pstreams
)
5209 ok
= filter_empty_rsrc_stream(pnum_streams
, pstreams
);
5211 DBG_ERR("Filtering resource stream failed\n");
5212 return NT_STATUS_INTERNAL_ERROR
;
5214 return NT_STATUS_OK
;
5217 static NTSTATUS
fruit_streaminfo_rsrc_xattr(
5218 vfs_handle_struct
*handle
,
5219 struct files_struct
*fsp
,
5220 const struct smb_filename
*smb_fname
,
5221 TALLOC_CTX
*mem_ctx
,
5222 unsigned int *pnum_streams
,
5223 struct stream_struct
**pstreams
)
5227 ok
= filter_empty_rsrc_stream(pnum_streams
, pstreams
);
5229 DBG_ERR("Filtering resource stream failed\n");
5230 return NT_STATUS_INTERNAL_ERROR
;
5232 return NT_STATUS_OK
;
5235 static NTSTATUS
fruit_streaminfo_rsrc_adouble(
5236 vfs_handle_struct
*handle
,
5237 struct files_struct
*fsp
,
5238 const struct smb_filename
*smb_fname
,
5239 TALLOC_CTX
*mem_ctx
,
5240 unsigned int *pnum_streams
,
5241 struct stream_struct
**pstreams
)
5243 struct stream_struct
*stream
= *pstreams
;
5244 unsigned int num_streams
= *pnum_streams
;
5245 struct adouble
*ad
= NULL
;
5251 * Check if there's a AFPRESOURCE_STREAM from the VFS streams backend
5252 * and if yes, remove it from the list
5254 for (i
= 0; i
< num_streams
; i
++) {
5255 if (strequal_m(stream
[i
].name
, AFPRESOURCE_STREAM
)) {
5260 if (i
< num_streams
) {
5261 DBG_WARNING("Unexpected AFPRESOURCE_STREAM on [%s]\n",
5262 smb_fname_str_dbg(smb_fname
));
5264 ok
= del_fruit_stream(mem_ctx
, pnum_streams
, pstreams
,
5265 AFPRESOURCE_STREAM
);
5267 return NT_STATUS_INTERNAL_ERROR
;
5271 ad
= ad_get(talloc_tos(), handle
, smb_fname
, ADOUBLE_RSRC
);
5273 return NT_STATUS_OK
;
5276 rlen
= ad_getentrylen(ad
, ADEID_RFORK
);
5280 return NT_STATUS_OK
;
5283 ok
= add_fruit_stream(mem_ctx
, pnum_streams
, pstreams
,
5284 AFPRESOURCE_STREAM_NAME
, rlen
,
5285 smb_roundup(handle
->conn
, rlen
));
5287 return NT_STATUS_NO_MEMORY
;
5290 return NT_STATUS_OK
;
5293 static NTSTATUS
fruit_streaminfo_rsrc(vfs_handle_struct
*handle
,
5294 struct files_struct
*fsp
,
5295 const struct smb_filename
*smb_fname
,
5296 TALLOC_CTX
*mem_ctx
,
5297 unsigned int *pnum_streams
,
5298 struct stream_struct
**pstreams
)
5300 struct fruit_config_data
*config
= NULL
;
5303 SMB_VFS_HANDLE_GET_DATA(handle
, config
, struct fruit_config_data
,
5304 return NT_STATUS_INTERNAL_ERROR
);
5306 switch (config
->rsrc
) {
5307 case FRUIT_RSRC_STREAM
:
5308 status
= fruit_streaminfo_rsrc_stream(handle
, fsp
, smb_fname
,
5309 mem_ctx
, pnum_streams
,
5313 case FRUIT_RSRC_XATTR
:
5314 status
= fruit_streaminfo_rsrc_xattr(handle
, fsp
, smb_fname
,
5315 mem_ctx
, pnum_streams
,
5319 case FRUIT_RSRC_ADFILE
:
5320 status
= fruit_streaminfo_rsrc_adouble(handle
, fsp
, smb_fname
,
5321 mem_ctx
, pnum_streams
,
5326 return NT_STATUS_INTERNAL_ERROR
;
5332 static NTSTATUS
fruit_streaminfo(vfs_handle_struct
*handle
,
5333 struct files_struct
*fsp
,
5334 const struct smb_filename
*smb_fname
,
5335 TALLOC_CTX
*mem_ctx
,
5336 unsigned int *pnum_streams
,
5337 struct stream_struct
**pstreams
)
5339 struct fruit_config_data
*config
= NULL
;
5342 SMB_VFS_HANDLE_GET_DATA(handle
, config
, struct fruit_config_data
,
5343 return NT_STATUS_UNSUCCESSFUL
);
5345 DBG_DEBUG("Path [%s]\n", smb_fname_str_dbg(smb_fname
));
5347 status
= SMB_VFS_NEXT_STREAMINFO(handle
, fsp
, smb_fname
, mem_ctx
,
5348 pnum_streams
, pstreams
);
5349 if (!NT_STATUS_IS_OK(status
)) {
5353 status
= fruit_streaminfo_meta(handle
, fsp
, smb_fname
,
5354 mem_ctx
, pnum_streams
, pstreams
);
5355 if (!NT_STATUS_IS_OK(status
)) {
5359 status
= fruit_streaminfo_rsrc(handle
, fsp
, smb_fname
,
5360 mem_ctx
, pnum_streams
, pstreams
);
5361 if (!NT_STATUS_IS_OK(status
)) {
5365 return NT_STATUS_OK
;
5368 static int fruit_ntimes(vfs_handle_struct
*handle
,
5369 const struct smb_filename
*smb_fname
,
5370 struct smb_file_time
*ft
)
5373 struct adouble
*ad
= NULL
;
5374 struct fruit_config_data
*config
= NULL
;
5376 SMB_VFS_HANDLE_GET_DATA(handle
, config
, struct fruit_config_data
,
5379 if ((config
->meta
!= FRUIT_META_NETATALK
) ||
5380 null_timespec(ft
->create_time
))
5382 return SMB_VFS_NEXT_NTIMES(handle
, smb_fname
, ft
);
5385 DEBUG(10,("set btime for %s to %s\n", smb_fname_str_dbg(smb_fname
),
5386 time_to_asc(convert_timespec_to_time_t(ft
->create_time
))));
5388 ad
= ad_get(talloc_tos(), handle
, smb_fname
, ADOUBLE_META
);
5393 ad_setdate(ad
, AD_DATE_CREATE
| AD_DATE_UNIX
,
5394 convert_time_t_to_uint32_t(ft
->create_time
.tv_sec
));
5396 rc
= ad_set(ad
, smb_fname
);
5402 DEBUG(1, ("fruit_ntimes: %s\n", smb_fname_str_dbg(smb_fname
)));
5405 return SMB_VFS_NEXT_NTIMES(handle
, smb_fname
, ft
);
5408 static int fruit_fallocate(struct vfs_handle_struct
*handle
,
5409 struct files_struct
*fsp
,
5414 struct fio
*fio
= (struct fio
*)VFS_FETCH_FSP_EXTENSION(handle
, fsp
);
5417 return SMB_VFS_NEXT_FALLOCATE(handle
, fsp
, mode
, offset
, len
);
5420 /* Let the pwrite code path handle it. */
5425 static int fruit_ftruncate_rsrc_xattr(struct vfs_handle_struct
*handle
,
5426 struct files_struct
*fsp
,
5430 return SMB_VFS_FREMOVEXATTR(fsp
, AFPRESOURCE_EA_NETATALK
);
5433 #ifdef HAVE_ATTROPEN
5434 return SMB_VFS_NEXT_FTRUNCATE(handle
, fsp
, offset
);
5439 static int fruit_ftruncate_rsrc_adouble(struct vfs_handle_struct
*handle
,
5440 struct files_struct
*fsp
,
5444 struct adouble
*ad
= NULL
;
5447 ad
= ad_fget(talloc_tos(), handle
, fsp
, ADOUBLE_RSRC
);
5449 DBG_DEBUG("ad_get [%s] failed [%s]\n",
5450 fsp_str_dbg(fsp
), strerror(errno
));
5454 ad_off
= ad_getentryoff(ad
, ADEID_RFORK
);
5456 rc
= ftruncate(fsp
->fh
->fd
, offset
+ ad_off
);
5462 ad_setentrylen(ad
, ADEID_RFORK
, offset
);
5464 rc
= ad_fset(ad
, fsp
);
5466 DBG_ERR("ad_fset [%s] failed [%s]\n",
5467 fsp_str_dbg(fsp
), strerror(errno
));
5476 static int fruit_ftruncate_rsrc_stream(struct vfs_handle_struct
*handle
,
5477 struct files_struct
*fsp
,
5481 return SMB_VFS_NEXT_UNLINK(handle
, fsp
->fsp_name
);
5484 return SMB_VFS_NEXT_FTRUNCATE(handle
, fsp
, offset
);
5487 static int fruit_ftruncate_rsrc(struct vfs_handle_struct
*handle
,
5488 struct files_struct
*fsp
,
5491 struct fio
*fio
= (struct fio
*)VFS_FETCH_FSP_EXTENSION(handle
, fsp
);
5494 switch (fio
->config
->rsrc
) {
5495 case FRUIT_RSRC_XATTR
:
5496 ret
= fruit_ftruncate_rsrc_xattr(handle
, fsp
, offset
);
5499 case FRUIT_RSRC_ADFILE
:
5500 ret
= fruit_ftruncate_rsrc_adouble(handle
, fsp
, offset
);
5503 case FRUIT_RSRC_STREAM
:
5504 ret
= fruit_ftruncate_rsrc_stream(handle
, fsp
, offset
);
5508 DBG_ERR("Unexpected rsrc config [%d]\n", fio
->config
->rsrc
);
5516 static int fruit_ftruncate_meta(struct vfs_handle_struct
*handle
,
5517 struct files_struct
*fsp
,
5521 DBG_WARNING("ftruncate %s to %jd",
5522 fsp_str_dbg(fsp
), (intmax_t)offset
);
5523 /* OS X returns NT_STATUS_ALLOTTED_SPACE_EXCEEDED */
5528 /* OS X returns success but does nothing */
5529 DBG_INFO("ignoring ftruncate %s to %jd\n",
5530 fsp_str_dbg(fsp
), (intmax_t)offset
);
5534 static int fruit_ftruncate(struct vfs_handle_struct
*handle
,
5535 struct files_struct
*fsp
,
5538 struct fio
*fio
= (struct fio
*)VFS_FETCH_FSP_EXTENSION(handle
, fsp
);
5541 DBG_DEBUG("Path [%s] offset [%"PRIdMAX
"]\n", fsp_str_dbg(fsp
),
5545 return SMB_VFS_NEXT_FTRUNCATE(handle
, fsp
, offset
);
5548 if (fio
->type
== ADOUBLE_META
) {
5549 ret
= fruit_ftruncate_meta(handle
, fsp
, offset
);
5551 ret
= fruit_ftruncate_rsrc(handle
, fsp
, offset
);
5554 DBG_DEBUG("Path [%s] result [%d]\n", fsp_str_dbg(fsp
), ret
);
5558 static NTSTATUS
fruit_create_file(vfs_handle_struct
*handle
,
5559 struct smb_request
*req
,
5560 uint16_t root_dir_fid
,
5561 struct smb_filename
*smb_fname
,
5562 uint32_t access_mask
,
5563 uint32_t share_access
,
5564 uint32_t create_disposition
,
5565 uint32_t create_options
,
5566 uint32_t file_attributes
,
5567 uint32_t oplock_request
,
5568 struct smb2_lease
*lease
,
5569 uint64_t allocation_size
,
5570 uint32_t private_flags
,
5571 struct security_descriptor
*sd
,
5572 struct ea_list
*ea_list
,
5573 files_struct
**result
,
5575 const struct smb2_create_blobs
*in_context_blobs
,
5576 struct smb2_create_blobs
*out_context_blobs
)
5579 struct fruit_config_data
*config
= NULL
;
5580 files_struct
*fsp
= NULL
;
5582 status
= check_aapl(handle
, req
, in_context_blobs
, out_context_blobs
);
5583 if (!NT_STATUS_IS_OK(status
)) {
5587 SMB_VFS_HANDLE_GET_DATA(handle
, config
, struct fruit_config_data
,
5588 return NT_STATUS_UNSUCCESSFUL
);
5590 status
= SMB_VFS_NEXT_CREATE_FILE(
5591 handle
, req
, root_dir_fid
, smb_fname
,
5592 access_mask
, share_access
,
5593 create_disposition
, create_options
,
5594 file_attributes
, oplock_request
,
5596 allocation_size
, private_flags
,
5597 sd
, ea_list
, result
,
5598 pinfo
, in_context_blobs
, out_context_blobs
);
5599 if (!NT_STATUS_IS_OK(status
)) {
5605 if (global_fruit_config
.nego_aapl
) {
5606 if (config
->posix_rename
&& fsp
->is_directory
) {
5608 * Enable POSIX directory rename behaviour
5610 fsp
->posix_flags
|= FSP_POSIX_FLAGS_RENAME
;
5615 * If this is a plain open for existing files, opening an 0
5616 * byte size resource fork MUST fail with
5617 * NT_STATUS_OBJECT_NAME_NOT_FOUND.
5619 * Cf the vfs_fruit torture tests in test_rfork_create().
5621 if (is_afpresource_stream(fsp
->fsp_name
) &&
5622 create_disposition
== FILE_OPEN
)
5624 if (fsp
->fsp_name
->st
.st_ex_size
== 0) {
5625 status
= NT_STATUS_OBJECT_NAME_NOT_FOUND
;
5630 if (is_ntfs_stream_smb_fname(smb_fname
)
5631 || fsp
->is_directory
) {
5635 if (config
->locking
== FRUIT_LOCKING_NETATALK
) {
5636 status
= fruit_check_access(
5639 map_share_mode_to_deny_mode(share_access
, 0));
5640 if (!NT_STATUS_IS_OK(status
)) {
5648 DEBUG(10, ("fruit_create_file: %s\n", nt_errstr(status
)));
5651 close_file(req
, fsp
, ERROR_CLOSE
);
5652 *result
= fsp
= NULL
;
5658 static NTSTATUS
fruit_readdir_attr(struct vfs_handle_struct
*handle
,
5659 const struct smb_filename
*fname
,
5660 TALLOC_CTX
*mem_ctx
,
5661 struct readdir_attr_data
**pattr_data
)
5663 struct fruit_config_data
*config
= NULL
;
5664 struct readdir_attr_data
*attr_data
;
5667 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
5668 struct fruit_config_data
,
5669 return NT_STATUS_UNSUCCESSFUL
);
5671 if (!global_fruit_config
.nego_aapl
) {
5672 return SMB_VFS_NEXT_READDIR_ATTR(handle
, fname
, mem_ctx
, pattr_data
);
5675 DEBUG(10, ("fruit_readdir_attr %s\n", fname
->base_name
));
5677 *pattr_data
= talloc_zero(mem_ctx
, struct readdir_attr_data
);
5678 if (*pattr_data
== NULL
) {
5679 return NT_STATUS_UNSUCCESSFUL
;
5681 attr_data
= *pattr_data
;
5682 attr_data
->type
= RDATTR_AAPL
;
5685 * Mac metadata: compressed FinderInfo, resource fork length
5688 status
= readdir_attr_macmeta(handle
, fname
, attr_data
);
5689 if (!NT_STATUS_IS_OK(status
)) {
5691 * Error handling is tricky: if we return failure from
5692 * this function, the corresponding directory entry
5693 * will to be passed to the client, so we really just
5694 * want to error out on fatal errors.
5696 if (!NT_STATUS_EQUAL(status
, NT_STATUS_ACCESS_DENIED
)) {
5704 if (config
->unix_info_enabled
) {
5705 attr_data
->attr_data
.aapl
.unix_mode
= fname
->st
.st_ex_mode
;
5711 if (!config
->readdir_attr_max_access
) {
5712 attr_data
->attr_data
.aapl
.max_access
= FILE_GENERIC_ALL
;
5714 status
= smbd_calculate_access_mask(
5718 SEC_FLAG_MAXIMUM_ALLOWED
,
5719 &attr_data
->attr_data
.aapl
.max_access
);
5720 if (!NT_STATUS_IS_OK(status
)) {
5725 return NT_STATUS_OK
;
5728 DEBUG(1, ("fruit_readdir_attr %s, error: %s\n",
5729 fname
->base_name
, nt_errstr(status
)));
5730 TALLOC_FREE(*pattr_data
);
5734 static NTSTATUS
fruit_fget_nt_acl(vfs_handle_struct
*handle
,
5736 uint32_t security_info
,
5737 TALLOC_CTX
*mem_ctx
,
5738 struct security_descriptor
**ppdesc
)
5741 struct security_ace ace
;
5743 struct fruit_config_data
*config
;
5745 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
5746 struct fruit_config_data
,
5747 return NT_STATUS_UNSUCCESSFUL
);
5749 status
= SMB_VFS_NEXT_FGET_NT_ACL(handle
, fsp
, security_info
,
5751 if (!NT_STATUS_IS_OK(status
)) {
5756 * Add MS NFS style ACEs with uid, gid and mode
5758 if (!global_fruit_config
.nego_aapl
) {
5759 return NT_STATUS_OK
;
5761 if (!config
->unix_info_enabled
) {
5762 return NT_STATUS_OK
;
5765 /* First remove any existing ACE's with NFS style mode/uid/gid SIDs. */
5766 status
= remove_virtual_nfs_aces(*ppdesc
);
5767 if (!NT_STATUS_IS_OK(status
)) {
5768 DBG_WARNING("failed to remove MS NFS style ACEs\n");
5772 /* MS NFS style mode */
5773 sid_compose(&sid
, &global_sid_Unix_NFS_Mode
, fsp
->fsp_name
->st
.st_ex_mode
);
5774 init_sec_ace(&ace
, &sid
, SEC_ACE_TYPE_ACCESS_DENIED
, 0, 0);
5775 status
= security_descriptor_dacl_add(*ppdesc
, &ace
);
5776 if (!NT_STATUS_IS_OK(status
)) {
5777 DEBUG(1,("failed to add MS NFS style ACE\n"));
5781 /* MS NFS style uid */
5782 sid_compose(&sid
, &global_sid_Unix_NFS_Users
, fsp
->fsp_name
->st
.st_ex_uid
);
5783 init_sec_ace(&ace
, &sid
, SEC_ACE_TYPE_ACCESS_DENIED
, 0, 0);
5784 status
= security_descriptor_dacl_add(*ppdesc
, &ace
);
5785 if (!NT_STATUS_IS_OK(status
)) {
5786 DEBUG(1,("failed to add MS NFS style ACE\n"));
5790 /* MS NFS style gid */
5791 sid_compose(&sid
, &global_sid_Unix_NFS_Groups
, fsp
->fsp_name
->st
.st_ex_gid
);
5792 init_sec_ace(&ace
, &sid
, SEC_ACE_TYPE_ACCESS_DENIED
, 0, 0);
5793 status
= security_descriptor_dacl_add(*ppdesc
, &ace
);
5794 if (!NT_STATUS_IS_OK(status
)) {
5795 DEBUG(1,("failed to add MS NFS style ACE\n"));
5799 return NT_STATUS_OK
;
5802 static NTSTATUS
fruit_fset_nt_acl(vfs_handle_struct
*handle
,
5804 uint32_t security_info_sent
,
5805 const struct security_descriptor
*orig_psd
)
5809 mode_t ms_nfs_mode
= 0;
5811 struct security_descriptor
*psd
= NULL
;
5812 uint32_t orig_num_aces
= 0;
5814 if (orig_psd
->dacl
!= NULL
) {
5815 orig_num_aces
= orig_psd
->dacl
->num_aces
;
5818 psd
= security_descriptor_copy(talloc_tos(), orig_psd
);
5820 return NT_STATUS_NO_MEMORY
;
5823 DBG_DEBUG("fruit_fset_nt_acl: %s\n", fsp_str_dbg(fsp
));
5825 status
= check_ms_nfs(handle
, fsp
, psd
, &ms_nfs_mode
, &do_chmod
);
5826 if (!NT_STATUS_IS_OK(status
)) {
5827 DEBUG(1, ("fruit_fset_nt_acl: check_ms_nfs failed%s\n", fsp_str_dbg(fsp
)));
5833 * If only ms_nfs ACE entries were sent, ensure we set the DACL
5834 * sent/present flags correctly now we've removed them.
5837 if (orig_num_aces
!= 0) {
5839 * Are there any ACE's left ?
5841 if (psd
->dacl
->num_aces
== 0) {
5842 /* No - clear the DACL sent/present flags. */
5843 security_info_sent
&= ~SECINFO_DACL
;
5844 psd
->type
&= ~SEC_DESC_DACL_PRESENT
;
5848 status
= SMB_VFS_NEXT_FSET_NT_ACL(handle
, fsp
, security_info_sent
, psd
);
5849 if (!NT_STATUS_IS_OK(status
)) {
5850 DEBUG(1, ("fruit_fset_nt_acl: SMB_VFS_NEXT_FSET_NT_ACL failed%s\n", fsp_str_dbg(fsp
)));
5856 if (fsp
->fh
->fd
!= -1) {
5857 result
= SMB_VFS_FCHMOD(fsp
, ms_nfs_mode
);
5859 result
= SMB_VFS_CHMOD(fsp
->conn
,
5865 DEBUG(1, ("chmod: %s, result: %d, %04o error %s\n", fsp_str_dbg(fsp
),
5866 result
, (unsigned)ms_nfs_mode
,
5868 status
= map_nt_error_from_unix(errno
);
5875 return NT_STATUS_OK
;
5878 static struct vfs_offload_ctx
*fruit_offload_ctx
;
5880 struct fruit_offload_read_state
{
5881 struct vfs_handle_struct
*handle
;
5882 struct tevent_context
*ev
;
5888 static void fruit_offload_read_done(struct tevent_req
*subreq
);
5890 static struct tevent_req
*fruit_offload_read_send(
5891 TALLOC_CTX
*mem_ctx
,
5892 struct tevent_context
*ev
,
5893 struct vfs_handle_struct
*handle
,
5900 struct tevent_req
*req
= NULL
;
5901 struct tevent_req
*subreq
= NULL
;
5902 struct fruit_offload_read_state
*state
= NULL
;
5904 req
= tevent_req_create(mem_ctx
, &state
,
5905 struct fruit_offload_read_state
);
5909 *state
= (struct fruit_offload_read_state
) {
5916 subreq
= SMB_VFS_NEXT_OFFLOAD_READ_SEND(mem_ctx
, ev
, handle
, fsp
,
5917 fsctl
, ttl
, offset
, to_copy
);
5918 if (tevent_req_nomem(subreq
, req
)) {
5919 return tevent_req_post(req
, ev
);
5921 tevent_req_set_callback(subreq
, fruit_offload_read_done
, req
);
5925 static void fruit_offload_read_done(struct tevent_req
*subreq
)
5927 struct tevent_req
*req
= tevent_req_callback_data(
5928 subreq
, struct tevent_req
);
5929 struct fruit_offload_read_state
*state
= tevent_req_data(
5930 req
, struct fruit_offload_read_state
);
5933 status
= SMB_VFS_NEXT_OFFLOAD_READ_RECV(subreq
,
5937 TALLOC_FREE(subreq
);
5938 if (tevent_req_nterror(req
, status
)) {
5942 if (state
->fsctl
!= FSCTL_SRV_REQUEST_RESUME_KEY
) {
5943 tevent_req_done(req
);
5947 status
= vfs_offload_token_ctx_init(state
->fsp
->conn
->sconn
->client
,
5948 &fruit_offload_ctx
);
5949 if (tevent_req_nterror(req
, status
)) {
5953 status
= vfs_offload_token_db_store_fsp(fruit_offload_ctx
,
5956 if (tevent_req_nterror(req
, status
)) {
5960 tevent_req_done(req
);
5964 static NTSTATUS
fruit_offload_read_recv(struct tevent_req
*req
,
5965 struct vfs_handle_struct
*handle
,
5966 TALLOC_CTX
*mem_ctx
,
5969 struct fruit_offload_read_state
*state
= tevent_req_data(
5970 req
, struct fruit_offload_read_state
);
5973 if (tevent_req_is_nterror(req
, &status
)) {
5974 tevent_req_received(req
);
5978 token
->length
= state
->token
.length
;
5979 token
->data
= talloc_move(mem_ctx
, &state
->token
.data
);
5981 tevent_req_received(req
);
5982 return NT_STATUS_OK
;
5985 struct fruit_offload_write_state
{
5986 struct vfs_handle_struct
*handle
;
5988 struct files_struct
*src_fsp
;
5989 struct files_struct
*dst_fsp
;
5993 static void fruit_offload_write_done(struct tevent_req
*subreq
);
5994 static struct tevent_req
*fruit_offload_write_send(struct vfs_handle_struct
*handle
,
5995 TALLOC_CTX
*mem_ctx
,
5996 struct tevent_context
*ev
,
5999 off_t transfer_offset
,
6000 struct files_struct
*dest_fsp
,
6004 struct tevent_req
*req
, *subreq
;
6005 struct fruit_offload_write_state
*state
;
6007 struct fruit_config_data
*config
;
6008 off_t src_off
= transfer_offset
;
6009 files_struct
*src_fsp
= NULL
;
6010 off_t to_copy
= num
;
6011 bool copyfile_enabled
= false;
6013 DEBUG(10,("soff: %ju, doff: %ju, len: %ju\n",
6014 (uintmax_t)src_off
, (uintmax_t)dest_off
, (uintmax_t)num
));
6016 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
6017 struct fruit_config_data
,
6020 req
= tevent_req_create(mem_ctx
, &state
,
6021 struct fruit_offload_write_state
);
6025 state
->handle
= handle
;
6026 state
->dst_fsp
= dest_fsp
;
6029 case FSCTL_SRV_COPYCHUNK
:
6030 case FSCTL_SRV_COPYCHUNK_WRITE
:
6031 copyfile_enabled
= config
->copyfile_enabled
;
6038 * Check if this a OS X copyfile style copychunk request with
6039 * a requested chunk count of 0 that was translated to a
6040 * offload_write_send VFS call overloading the parameters src_off
6041 * = dest_off = num = 0.
6043 if (copyfile_enabled
&& num
== 0 && src_off
== 0 && dest_off
== 0) {
6044 status
= vfs_offload_token_db_fetch_fsp(
6045 fruit_offload_ctx
, token
, &src_fsp
);
6046 if (tevent_req_nterror(req
, status
)) {
6047 return tevent_req_post(req
, ev
);
6049 state
->src_fsp
= src_fsp
;
6051 status
= vfs_stat_fsp(src_fsp
);
6052 if (tevent_req_nterror(req
, status
)) {
6053 return tevent_req_post(req
, ev
);
6056 to_copy
= src_fsp
->fsp_name
->st
.st_ex_size
;
6057 state
->is_copyfile
= true;
6060 subreq
= SMB_VFS_NEXT_OFFLOAD_WRITE_SEND(handle
,
6069 if (tevent_req_nomem(subreq
, req
)) {
6070 return tevent_req_post(req
, ev
);
6073 tevent_req_set_callback(subreq
, fruit_offload_write_done
, req
);
6077 static void fruit_offload_write_done(struct tevent_req
*subreq
)
6079 struct tevent_req
*req
= tevent_req_callback_data(
6080 subreq
, struct tevent_req
);
6081 struct fruit_offload_write_state
*state
= tevent_req_data(
6082 req
, struct fruit_offload_write_state
);
6084 unsigned int num_streams
= 0;
6085 struct stream_struct
*streams
= NULL
;
6087 struct smb_filename
*src_fname_tmp
= NULL
;
6088 struct smb_filename
*dst_fname_tmp
= NULL
;
6090 status
= SMB_VFS_NEXT_OFFLOAD_WRITE_RECV(state
->handle
,
6093 TALLOC_FREE(subreq
);
6094 if (tevent_req_nterror(req
, status
)) {
6098 if (!state
->is_copyfile
) {
6099 tevent_req_done(req
);
6104 * Now copy all remaining streams. We know the share supports
6105 * streams, because we're in vfs_fruit. We don't do this async
6106 * because streams are few and small.
6108 status
= vfs_streaminfo(state
->handle
->conn
, state
->src_fsp
,
6109 state
->src_fsp
->fsp_name
,
6110 req
, &num_streams
, &streams
);
6111 if (tevent_req_nterror(req
, status
)) {
6115 if (num_streams
== 1) {
6116 /* There is always one stream, ::$DATA. */
6117 tevent_req_done(req
);
6121 for (i
= 0; i
< num_streams
; i
++) {
6122 DEBUG(10, ("%s: stream: '%s'/%zu\n",
6123 __func__
, streams
[i
].name
, (size_t)streams
[i
].size
));
6125 src_fname_tmp
= synthetic_smb_fname(
6127 state
->src_fsp
->fsp_name
->base_name
,
6130 state
->src_fsp
->fsp_name
->flags
);
6131 if (tevent_req_nomem(src_fname_tmp
, req
)) {
6135 if (is_ntfs_default_stream_smb_fname(src_fname_tmp
)) {
6136 TALLOC_FREE(src_fname_tmp
);
6140 dst_fname_tmp
= synthetic_smb_fname(
6142 state
->dst_fsp
->fsp_name
->base_name
,
6145 state
->dst_fsp
->fsp_name
->flags
);
6146 if (tevent_req_nomem(dst_fname_tmp
, req
)) {
6147 TALLOC_FREE(src_fname_tmp
);
6151 status
= copy_file(req
,
6152 state
->handle
->conn
,
6155 OPENX_FILE_CREATE_IF_NOT_EXIST
,
6157 if (!NT_STATUS_IS_OK(status
)) {
6158 DEBUG(1, ("%s: copy %s to %s failed: %s\n", __func__
,
6159 smb_fname_str_dbg(src_fname_tmp
),
6160 smb_fname_str_dbg(dst_fname_tmp
),
6161 nt_errstr(status
)));
6162 TALLOC_FREE(src_fname_tmp
);
6163 TALLOC_FREE(dst_fname_tmp
);
6164 tevent_req_nterror(req
, status
);
6168 TALLOC_FREE(src_fname_tmp
);
6169 TALLOC_FREE(dst_fname_tmp
);
6172 TALLOC_FREE(streams
);
6173 TALLOC_FREE(src_fname_tmp
);
6174 TALLOC_FREE(dst_fname_tmp
);
6175 tevent_req_done(req
);
6178 static NTSTATUS
fruit_offload_write_recv(struct vfs_handle_struct
*handle
,
6179 struct tevent_req
*req
,
6182 struct fruit_offload_write_state
*state
= tevent_req_data(
6183 req
, struct fruit_offload_write_state
);
6186 if (tevent_req_is_nterror(req
, &status
)) {
6187 DEBUG(1, ("server side copy chunk failed: %s\n",
6188 nt_errstr(status
)));
6190 tevent_req_received(req
);
6194 *copied
= state
->copied
;
6195 tevent_req_received(req
);
6197 return NT_STATUS_OK
;
6200 static char *fruit_get_bandsize_line(char **lines
, int numlines
)
6203 static bool re_initialized
= false;
6207 if (!re_initialized
) {
6208 ret
= regcomp(&re
, "^[[:blank:]]*<key>band-size</key>$", 0);
6212 re_initialized
= true;
6215 for (i
= 0; i
< numlines
; i
++) {
6216 regmatch_t matches
[1];
6218 ret
= regexec(&re
, lines
[i
], 1, matches
, 0);
6221 * Check if the match was on the last line, sa we want
6222 * the subsequent line.
6224 if (i
+ 1 == numlines
) {
6227 return lines
[i
+ 1];
6229 if (ret
!= REG_NOMATCH
) {
6237 static bool fruit_get_bandsize_from_line(char *line
, size_t *_band_size
)
6240 static bool re_initialized
= false;
6241 regmatch_t matches
[2];
6246 if (!re_initialized
) {
6249 "<integer>\\([[:digit:]]*\\)</integer>$",
6254 re_initialized
= true;
6257 ret
= regexec(&re
, line
, 2, matches
, 0);
6259 DBG_ERR("regex failed [%s]\n", line
);
6263 line
[matches
[1].rm_eo
] = '\0';
6265 ok
= conv_str_u64(&line
[matches
[1].rm_so
], &band_size
);
6269 *_band_size
= (size_t)band_size
;
6274 * This reads and parses an Info.plist from a TM sparsebundle looking for the
6275 * "band-size" key and value.
6277 static bool fruit_get_bandsize(vfs_handle_struct
*handle
,
6281 #define INFO_PLIST_MAX_SIZE 64*1024
6283 struct smb_filename
*smb_fname
= NULL
;
6284 files_struct
*fsp
= NULL
;
6285 uint8_t *file_data
= NULL
;
6286 char **lines
= NULL
;
6287 char *band_size_line
= NULL
;
6288 size_t plist_file_size
;
6295 plist
= talloc_asprintf(talloc_tos(),
6297 handle
->conn
->connectpath
,
6299 if (plist
== NULL
) {
6304 smb_fname
= synthetic_smb_fname(talloc_tos(), plist
, NULL
, NULL
, 0);
6305 if (smb_fname
== NULL
) {
6310 ret
= SMB_VFS_NEXT_LSTAT(handle
, smb_fname
);
6312 DBG_INFO("Ignoring Sparsebundle without Info.plist [%s]\n", dir
);
6317 plist_file_size
= smb_fname
->st
.st_ex_size
;
6319 if (plist_file_size
> INFO_PLIST_MAX_SIZE
) {
6320 DBG_INFO("%s is too large, ignoring\n", plist
);
6325 status
= SMB_VFS_NEXT_CREATE_FILE(
6328 0, /* root_dir_fid */
6329 smb_fname
, /* fname */
6330 FILE_GENERIC_READ
, /* access_mask */
6331 FILE_SHARE_READ
| FILE_SHARE_WRITE
, /* share_access */
6332 FILE_OPEN
, /* create_disposition */
6333 0, /* create_options */
6334 0, /* file_attributes */
6335 INTERNAL_OPEN_ONLY
, /* oplock_request */
6337 0, /* allocation_size */
6338 0, /* private_flags */
6343 NULL
, NULL
); /* create context */
6344 if (!NT_STATUS_IS_OK(status
)) {
6345 DBG_INFO("Opening [%s] failed [%s]\n",
6346 smb_fname_str_dbg(smb_fname
), nt_errstr(status
));
6351 file_data
= talloc_array(talloc_tos(), uint8_t, plist_file_size
);
6352 if (file_data
== NULL
) {
6357 nread
= SMB_VFS_NEXT_PREAD(handle
, fsp
, file_data
, plist_file_size
, 0);
6358 if (nread
!= plist_file_size
) {
6359 DBG_ERR("Short read on [%s]: %zu/%zd\n",
6360 fsp_str_dbg(fsp
), nread
, plist_file_size
);
6366 status
= close_file(NULL
, fsp
, NORMAL_CLOSE
);
6368 if (!NT_STATUS_IS_OK(status
)) {
6369 DBG_ERR("close_file failed: %s\n", nt_errstr(status
));
6374 lines
= file_lines_parse((char *)file_data
,
6378 if (lines
== NULL
) {
6383 band_size_line
= fruit_get_bandsize_line(lines
, numlines
);
6384 if (band_size_line
== NULL
) {
6385 DBG_ERR("Didn't find band-size key in [%s]\n",
6386 smb_fname_str_dbg(smb_fname
));
6391 ok
= fruit_get_bandsize_from_line(band_size_line
, band_size
);
6393 DBG_ERR("fruit_get_bandsize_from_line failed\n");
6397 DBG_DEBUG("Parsed band-size [%zu] for [%s]\n", *band_size
, plist
);
6401 status
= close_file(NULL
, fsp
, NORMAL_CLOSE
);
6402 if (!NT_STATUS_IS_OK(status
)) {
6403 DBG_ERR("close_file failed: %s\n", nt_errstr(status
));
6408 TALLOC_FREE(smb_fname
);
6409 TALLOC_FREE(file_data
);
6414 struct fruit_disk_free_state
{
6418 static bool fruit_get_num_bands(vfs_handle_struct
*handle
,
6423 struct smb_filename
*bands_dir
= NULL
;
6425 struct dirent
*e
= NULL
;
6429 path
= talloc_asprintf(talloc_tos(),
6431 handle
->conn
->connectpath
,
6437 bands_dir
= synthetic_smb_fname(talloc_tos(),
6443 if (bands_dir
== NULL
) {
6447 d
= SMB_VFS_NEXT_OPENDIR(handle
, bands_dir
, NULL
, 0);
6449 TALLOC_FREE(bands_dir
);
6455 for (e
= SMB_VFS_NEXT_READDIR(handle
, d
, NULL
);
6457 e
= SMB_VFS_NEXT_READDIR(handle
, d
, NULL
))
6459 if (ISDOT(e
->d_name
) || ISDOTDOT(e
->d_name
)) {
6465 ret
= SMB_VFS_NEXT_CLOSEDIR(handle
, d
);
6467 TALLOC_FREE(bands_dir
);
6471 DBG_DEBUG("%zu bands in [%s]\n", nbands
, smb_fname_str_dbg(bands_dir
));
6473 TALLOC_FREE(bands_dir
);
6479 static bool fruit_tmsize_do_dirent(vfs_handle_struct
*handle
,
6480 struct fruit_disk_free_state
*state
,
6485 size_t sparsebundle_strlen
= strlen("sparsebundle");
6486 size_t bandsize
= 0;
6490 p
= strstr(e
->d_name
, "sparsebundle");
6495 if (p
[sparsebundle_strlen
] != '\0') {
6499 DBG_DEBUG("Processing sparsebundle [%s]\n", e
->d_name
);
6501 ok
= fruit_get_bandsize(handle
, e
->d_name
, &bandsize
);
6504 * Beware of race conditions: this may be an uninitialized
6505 * Info.plist that a client is just creating. We don't want let
6506 * this to trigger complete failure.
6508 DBG_ERR("Processing sparsebundle [%s] failed\n", e
->d_name
);
6512 ok
= fruit_get_num_bands(handle
, e
->d_name
, &nbands
);
6515 * Beware of race conditions: this may be a backup sparsebundle
6516 * in an early stage lacking a bands subdirectory. We don't want
6517 * let this to trigger complete failure.
6519 DBG_ERR("Processing sparsebundle [%s] failed\n", e
->d_name
);
6523 if (bandsize
> SIZE_MAX
/nbands
) {
6524 DBG_ERR("tmsize overflow: bandsize [%zu] nbands [%zu]\n",
6528 tm_size
= bandsize
* nbands
;
6530 if (state
->total_size
+ tm_size
< state
->total_size
) {
6531 DBG_ERR("tmsize overflow: bandsize [%zu] nbands [%zu]\n",
6536 state
->total_size
+= tm_size
;
6538 DBG_DEBUG("[%s] tm_size [%jd] total_size [%jd]\n",
6539 e
->d_name
, (intmax_t)tm_size
, (intmax_t)state
->total_size
);
6545 * Calculate used size of a TimeMachine volume
6547 * This assumes that the volume is used only for TimeMachine.
6549 * - readdir(basedir of share), then
6550 * - for every element that matches regex "^\(.*\)\.sparsebundle$" :
6551 * - parse "\1.sparsebundle/Info.plist" and read the band-size XML key
6552 * - count band files in "\1.sparsebundle/bands/"
6553 * - calculate used size of all bands: band_count * band_size
6555 static uint64_t fruit_disk_free(vfs_handle_struct
*handle
,
6556 const struct smb_filename
*smb_fname
,
6561 struct fruit_config_data
*config
= NULL
;
6562 struct fruit_disk_free_state state
= {0};
6564 struct dirent
*e
= NULL
;
6570 SMB_VFS_HANDLE_GET_DATA(handle
, config
,
6571 struct fruit_config_data
,
6574 if (!config
->time_machine
||
6575 config
->time_machine_max_size
== 0)
6577 return SMB_VFS_NEXT_DISK_FREE(handle
,
6584 d
= SMB_VFS_NEXT_OPENDIR(handle
, smb_fname
, NULL
, 0);
6589 for (e
= SMB_VFS_NEXT_READDIR(handle
, d
, NULL
);
6591 e
= SMB_VFS_NEXT_READDIR(handle
, d
, NULL
))
6593 ok
= fruit_tmsize_do_dirent(handle
, &state
, e
);
6595 SMB_VFS_NEXT_CLOSEDIR(handle
, d
);
6600 ret
= SMB_VFS_NEXT_CLOSEDIR(handle
, d
);
6605 dsize
= config
->time_machine_max_size
/ 512;
6606 dfree
= dsize
- (state
.total_size
/ 512);
6607 if (dfree
> dsize
) {
6617 static struct vfs_fn_pointers vfs_fruit_fns
= {
6618 .connect_fn
= fruit_connect
,
6619 .disk_free_fn
= fruit_disk_free
,
6621 /* File operations */
6622 .chmod_fn
= fruit_chmod
,
6623 .chown_fn
= fruit_chown
,
6624 .unlink_fn
= fruit_unlink
,
6625 .rename_fn
= fruit_rename
,
6626 .rmdir_fn
= fruit_rmdir
,
6627 .open_fn
= fruit_open
,
6628 .pread_fn
= fruit_pread
,
6629 .pwrite_fn
= fruit_pwrite
,
6630 .pread_send_fn
= fruit_pread_send
,
6631 .pread_recv_fn
= fruit_pread_recv
,
6632 .pwrite_send_fn
= fruit_pwrite_send
,
6633 .pwrite_recv_fn
= fruit_pwrite_recv
,
6634 .stat_fn
= fruit_stat
,
6635 .lstat_fn
= fruit_lstat
,
6636 .fstat_fn
= fruit_fstat
,
6637 .streaminfo_fn
= fruit_streaminfo
,
6638 .ntimes_fn
= fruit_ntimes
,
6639 .ftruncate_fn
= fruit_ftruncate
,
6640 .fallocate_fn
= fruit_fallocate
,
6641 .create_file_fn
= fruit_create_file
,
6642 .readdir_attr_fn
= fruit_readdir_attr
,
6643 .offload_read_send_fn
= fruit_offload_read_send
,
6644 .offload_read_recv_fn
= fruit_offload_read_recv
,
6645 .offload_write_send_fn
= fruit_offload_write_send
,
6646 .offload_write_recv_fn
= fruit_offload_write_recv
,
6648 /* NT ACL operations */
6649 .fget_nt_acl_fn
= fruit_fget_nt_acl
,
6650 .fset_nt_acl_fn
= fruit_fset_nt_acl
,
6654 NTSTATUS
vfs_fruit_init(TALLOC_CTX
*ctx
)
6656 NTSTATUS ret
= smb_register_vfs(SMB_VFS_INTERFACE_VERSION
, "fruit",
6658 if (!NT_STATUS_IS_OK(ret
)) {
6662 vfs_fruit_debug_level
= debug_add_class("fruit");
6663 if (vfs_fruit_debug_level
== -1) {
6664 vfs_fruit_debug_level
= DBGC_VFS
;
6665 DEBUG(0, ("%s: Couldn't register custom debugging class!\n",
6668 DEBUG(10, ("%s: Debug class number of '%s': %d\n",
6669 "vfs_fruit_init","fruit",vfs_fruit_debug_level
));