vfs_xattr.c source code [xnu/bsd/vfs/vfs_xattr.c]

1	/*
2	* Copyright (c) 2004-2012 Apple Inc. All rights reserved.
3	*
4	* @APPLE_OSREFERENCE_LICENSE_HEADER_START@
5	*
6	* This file contains Original Code and/or Modifications of Original Code
7	* as defined in and that are subject to the Apple Public Source License
8	* Version 2.0 (the 'License'). You may not use this file except in
9	* compliance with the License. The rights granted to you under the License
10	* may not be used to create, or enable the creation or redistribution of,
11	* unlawful or unlicensed copies of an Apple operating system, or to
12	* circumvent, violate, or enable the circumvention or violation of, any
13	* terms of an Apple operating system software license agreement.
14	*
15	* Please obtain a copy of the License at
16	* http://www.opensource.apple.com/apsl/ and read it before using this file.
17	*
18	* The Original Code and all software distributed under the License are
19	* distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
20	* EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
21	* INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
22	* FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
23	* Please see the License for the specific language governing rights and
24	* limitations under the License.
25	*
26	* @APPLE_OSREFERENCE_LICENSE_HEADER_END@
27	*/
28	/*
29	* NOTICE: This file was modified by SPARTA, Inc. in 2005 to introduce
30	* support for mandatory and extensible security protections. This notice
31	* is included in support of clause 2.2 (b) of the Apple Public License,
32	* Version 2.0.
33	*/
34
35	#include <sys/param.h>
36
37	#include <sys/fcntl.h>
38	#include <sys/fsevents.h>
39	#include <sys/kernel.h>
40	#include <sys/kauth.h>
41	#include <sys/malloc.h>
42	#include <sys/mount_internal.h>
43	#include <sys/namei.h>
44	#include <sys/proc_internal.h>
45	#include <sys/stat.h>
46	#include <sys/uio.h>
47	#include <sys/utfconv.h>
48	#include <sys/vnode.h>
49	#include <sys/vnode_internal.h>
50	#include <sys/xattr.h>
51
52	#include <libkern/OSByteOrder.h>
53	#include <vm/vm_kern.h>
54
55	#if CONFIG_MACF
56	#include <security/mac_framework.h>
57	#endif
58
59
60	#if NAMEDSTREAMS
61
62	static int shadow_sequence;
63
64	/*
65	* We use %p to prevent loss of precision for pointers on varying architectures.
66	*/
67
68	#define SHADOW_NAME_FMT ".vfs_rsrc_stream_%p%08x%p"
69	#define SHADOW_DIR_FMT ".vfs_rsrc_streams_%p%x"
70	#define SHADOW_DIR_CONTAINER "/var/run"
71
72	#define MAKE_SHADOW_NAME(VP, NAME) \
73	snprintf((NAME), sizeof((NAME)), (SHADOW_NAME_FMT), \
74	((void*)(VM_KERNEL_ADDRPERM(VP))), \
75	(VP)->v_id, \
76	((void*)(VM_KERNEL_ADDRPERM((VP)->v_data))))
77
78	/ The full path to the shadow directory /
79	#define MAKE_SHADOW_DIRNAME(VP, NAME) \
80	snprintf((NAME), sizeof((NAME)), (SHADOW_DIR_CONTAINER "/" SHADOW_DIR_FMT), \
81	((void*)(VM_KERNEL_ADDRPERM(VP))), shadow_sequence)
82
83	/ The shadow directory as a 'leaf' entry /
84	#define MAKE_SHADOW_DIR_LEAF(VP, NAME) \
85	snprintf((NAME), sizeof((NAME)), (SHADOW_DIR_FMT), \
86	((void*)(VM_KERNEL_ADDRPERM(VP))), shadow_sequence)
87
88	static int default_getnamedstream(vnode_t vp, vnode_t svpp, const* char name, enum* nsoperation op, vfs_context_t context);
89
90	static int default_makenamedstream(vnode_t vp, vnode_t svpp, const* char *name, vfs_context_t context);
91
92	static int default_removenamedstream(vnode_t vp, const char *name, vfs_context_t context);
93
94	static int getshadowfile(vnode_t vp, vnode_t svpp, int* makestream, size_t rsrcsize, int* *creator, vfs_context_t context);
95
96	static int get_shadow_dir(vnode_t *sdvpp);
97
98	#endif /* NAMEDSTREAMS */
99
100	/*
101	* Default xattr support routines.
102	*/
103
104	static int default_getxattr(vnode_t vp, const char name, uio_t uio, size_t size, int options,
105	vfs_context_t context);
106	static int default_setxattr(vnode_t vp, const char name, uio_t uio, int* options,
107	vfs_context_t context);
108	static int default_listxattr(vnode_t vp, uio_t uio, size_t size, int* options,
109	vfs_context_t context);
110	static int default_removexattr(vnode_t vp, const char name, int* options,
111	vfs_context_t context);
112
113	/*
114	* Retrieve the data of an extended attribute.
115	*/
116	int
117	vn_getxattr(vnode_t vp, const char name, uio_t uio, size_t size,
118	int options, vfs_context_t context)
119	{
120	int error;
121
122	if (!XATTR_VNODE_SUPPORTED(vp)) {
123	return (EPERM);
124	}
125	#if NAMEDSTREAMS
126	/ getxattr calls are not allowed for streams. /
127	if (vp->v_flag & VISNAMEDSTREAM) {
128	error = EPERM;
129	goto out;
130	}
131	#endif
132	/*
133	* Non-kernel request need extra checks performed.
134	*
135	* The XATTR_NOSECURITY flag implies a kernel request.
136	*/
137	if (!(options & XATTR_NOSECURITY)) {
138	#if CONFIG_MACF
139	error = mac_vnode_check_getextattr(context, vp, name, uio);
140	if (error)
141	goto out;
142	#endif /* MAC */
143	if ((error = xattr_validatename(name))) {
144	goto out;
145	}
146	if ((error = vnode_authorize(vp, NULL, KAUTH_VNODE_READ_EXTATTRIBUTES, context))) {
147	goto out;
148	}
149	/ The offset can only be non-zero for resource forks. /
150	if (uio != NULL && uio_offset(uio) != `0` &&
151	bcmp(name, XATTR_RESOURCEFORK_NAME, sizeof(XATTR_RESOURCEFORK_NAME)) != `0`) {
152	error = EINVAL;
153	goto out;
154	}
155	}
156
157	/ The offset can only be non-zero for resource forks. /
158	if (uio != NULL && uio_offset(uio) != `0` &&
159	bcmp(name, XATTR_RESOURCEFORK_NAME, sizeof(XATTR_RESOURCEFORK_NAME)) != `0`) {
160	error = EINVAL;
161	goto out;
162	}
163
164	error = VNOP_GETXATTR(vp, name, uio, size, options, context);
165	if (error == ENOTSUP && !(options & XATTR_NODEFAULT)) {
166	/*
167	* A filesystem may keep some EAs natively and return ENOTSUP for others.
168	*/
169	error = default_getxattr(vp, name, uio, size, options, context);
170	}
171	out:
172	return (error);
173	}
174
175	/*
176	* Set the data of an extended attribute.
177	*/
178	int
179	vn_setxattr(vnode_t vp, const char name, uio_t uio, int* options, vfs_context_t context)
180	{
181	int error;
182
183	if (!XATTR_VNODE_SUPPORTED(vp)) {
184	return (EPERM);
185	}
186	#if NAMEDSTREAMS
187	/ setxattr calls are not allowed for streams. /
188	if (vp->v_flag & VISNAMEDSTREAM) {
189	error = EPERM;
190	goto out;
191	}
192	#endif
193	if ((options & (XATTR_REPLACE\|XATTR_CREATE)) == (XATTR_REPLACE\|XATTR_CREATE)) {
194	return (EINVAL);
195	}
196	if ((error = xattr_validatename(name))) {
197	return (error);
198	}
199	if (!(options & XATTR_NOSECURITY)) {
200	#if CONFIG_MACF
201	error = mac_vnode_check_setextattr(context, vp, name, uio);
202	if (error)
203	goto out;
204	#endif /* MAC */
205	error = vnode_authorize(vp, NULL, KAUTH_VNODE_WRITE_EXTATTRIBUTES, context);
206	if (error)
207	goto out;
208	}
209	/ The offset can only be non-zero for resource forks. /
210	if (uio_offset(uio) != `0` &&
211	bcmp(name, XATTR_RESOURCEFORK_NAME, sizeof(XATTR_RESOURCEFORK_NAME)) != `0` ) {
212	error = EINVAL;
213	goto out;
214	}
215
216	error = VNOP_SETXATTR(vp, name, uio, options, context);
217	#ifdef DUAL_EAS
218	/*
219	* An EJUSTRETURN is from a filesystem which keeps this xattr
220	* natively as well as in a dot-underscore file. In this case the
221	* EJUSTRETURN means the filesytem has done nothing, but identifies the
222	* EA as one which may be represented natively and/or in a DU, and
223	* since XATTR_CREATE or XATTR_REPLACE was specified, only up here in
224	* in vn_setxattr can we do the getxattrs needed to ascertain whether
225	* the XATTR_{CREATE,REPLACE} should yield an error.
226	*/
227	if (error == EJUSTRETURN) {
228	int native = `0`, dufile = `0`;
229	size_t sz; / not used /
230
231	native = VNOP_GETXATTR(vp, name, NULL, &sz, `0`, context) ? `0` : `1`;
232	dufile = default_getxattr(vp, name, NULL, &sz, `0`, context) ? `0` : `1`;
233	if (options & XATTR_CREATE && (native \|\| dufile)) {
234	error = EEXIST;
235	goto out;
236	}
237	if (options & XATTR_REPLACE && !(native \|\| dufile)) {
238	error = ENOATTR;
239	goto out;
240	}
241	/*
242	* Having determined no CREATE/REPLACE error should result, we
243	* zero those bits, so both backing stores get written to.
244	*/
245	options &= ~(XATTR_CREATE \| XATTR_REPLACE);
246	error = VNOP_SETXATTR(vp, name, uio, options, context);
247	/ the mainline path here is to have error==ENOTSUP ... /
248	}
249	#endif /* DUAL_EAS */
250	if (error == ENOTSUP && !(options & XATTR_NODEFAULT)) {
251	/*
252	* A filesystem may keep some EAs natively and return ENOTSUP for others.
253	*/
254	error = default_setxattr(vp, name, uio, options, context);
255	}
256	#if CONFIG_MACF
257	if ((error == `0`) && !(options & XATTR_NOSECURITY)) {
258	mac_vnode_notify_setextattr(context, vp, name, uio);
259	if (vfs_flags(vnode_mount(vp)) & MNT_MULTILABEL)
260	mac_vnode_label_update_extattr(vnode_mount(vp), vp, name);
261	}
262	#endif
263	out:
264	return (error);
265	}
266
267	/*
268	* Remove an extended attribute.
269	*/
270	int
271	vn_removexattr(vnode_t vp, const char * name, int options, vfs_context_t context)
272	{
273	int error;
274
275	if (!XATTR_VNODE_SUPPORTED(vp)) {
276	return (EPERM);
277	}
278	#if NAMEDSTREAMS
279	/ removexattr calls are not allowed for streams. /
280	if (vp->v_flag & VISNAMEDSTREAM) {
281	error = EPERM;
282	goto out;
283	}
284	#endif
285	if ((error = xattr_validatename(name))) {
286	return (error);
287	}
288	if (!(options & XATTR_NOSECURITY)) {
289	#if CONFIG_MACF
290	error = mac_vnode_check_deleteextattr(context, vp, name);
291	if (error)
292	goto out;
293	#endif /* MAC */
294	error = vnode_authorize(vp, NULL, KAUTH_VNODE_WRITE_EXTATTRIBUTES, context);
295	if (error)
296	goto out;
297	}
298	error = VNOP_REMOVEXATTR(vp, name, options, context);
299	if (error == ENOTSUP && !(options & XATTR_NODEFAULT)) {
300	/*
301	* A filesystem may keep some EAs natively and return ENOTSUP for others.
302	*/
303	error = default_removexattr(vp, name, options, context);
304	#ifdef DUAL_EAS
305	} else if (error == EJUSTRETURN) {
306	/*
307	* EJUSTRETURN is from a filesystem which keeps this xattr natively as well
308	* as in a dot-underscore file. EJUSTRETURN means the filesytem did remove
309	* a native xattr, so failure to find it in a DU file during
310	* default_removexattr should not be considered an error.
311	*/
312	error = default_removexattr(vp, name, options, context);
313	if (error == ENOATTR)
314	error = `0`;
315	#endif /* DUAL_EAS */
316	}
317	#if CONFIG_MACF
318	if ((error == `0`) && !(options & XATTR_NOSECURITY)) {
319	mac_vnode_notify_deleteextattr(context, vp, name);
320	if (vfs_flags(vnode_mount(vp)) & MNT_MULTILABEL)
321	mac_vnode_label_update_extattr(vnode_mount(vp), vp, name);
322	}
323	#endif
324	out:
325	return (error);
326	}
327
328	/*
329	* Retrieve the list of extended attribute names.
330	*/
331	int
332	vn_listxattr(vnode_t vp, uio_t uio, size_t size, int* options, vfs_context_t context)
333	{
334	int error;
335
336	if (!XATTR_VNODE_SUPPORTED(vp)) {
337	return (EPERM);
338	}
339	#if NAMEDSTREAMS
340	/ listxattr calls are not allowed for streams. /
341	if (vp->v_flag & VISNAMEDSTREAM) {
342	return (EPERM);
343	}
344	#endif
345
346	if (!(options & XATTR_NOSECURITY)) {
347	#if CONFIG_MACF
348	error = mac_vnode_check_listextattr(context, vp);
349	if (error)
350	goto out;
351	#endif /* MAC */
352
353	error = vnode_authorize(vp, NULL, KAUTH_VNODE_READ_EXTATTRIBUTES, context);
354	if (error)
355	goto out;
356	}
357
358	error = VNOP_LISTXATTR(vp, uio, size, options, context);
359	if (error == ENOTSUP && !(options & XATTR_NODEFAULT)) {
360	/*
361	* A filesystem may keep some but not all EAs natively, in which case
362	* the native EA names will have been uiomove-d out (or *size updated)
363	* and the default_listxattr here will finish the job.
364	*/
365	error = default_listxattr(vp, uio, size, options, context);
366	}
367	out:
368	return (error);
369	}
370
371	int
372	xattr_validatename(const char *name)
373	{
374	int namelen;
375
376	if (name == NULL \|\| name[`0`] == `'\0'`) {
377	return (EINVAL);
378	}
379	namelen = strlen(name);
380	if (name[namelen] != `'\0'`)
381	return (ENAMETOOLONG);
382
383	if (utf8_validatestr((const unsigned char *)name, namelen) != `0`)
384	return (EINVAL);
385
386	return (`0`);
387	}
388
389
390	/*
391	* Determine whether an EA is a protected system attribute.
392	*/
393	int
394	xattr_protected(const char *attrname)
395	{
396	return(!strncmp(attrname, "com.apple.system.", `17`));
397	}
398
399
400	static void
401	vnode_setasnamedstream_internal(vnode_t vp, vnode_t svp)
402	{
403	uint32_t streamflags = VISNAMEDSTREAM;
404
405	if ((vp->v_mount->mnt_kern_flag & MNTK_NAMED_STREAMS) == `0`) {
406	streamflags \|= VISSHADOW;
407	}
408
409	/ Tag the vnode. /
410	vnode_lock_spin(svp);
411	svp->v_flag \|= streamflags;
412	vnode_unlock(svp);
413
414	/ Tag the parent so we know to flush credentials for streams on setattr /
415	vnode_lock_spin(vp);
416	vp->v_lflag \|= VL_HASSTREAMS;
417	vnode_unlock(vp);
418
419	/ Make the file it's parent.*
420	* Note: This parent link helps us distinguish vnodes for
421	* shadow stream files from vnodes for resource fork on file
422	* systems that support namedstream natively (both have
423	* VISNAMEDSTREAM set) by allowing access to mount structure
424	* for checking MNTK_NAMED_STREAMS bit at many places in the
425	* code.
426	*/
427	vnode_update_identity(svp, vp, NULL, `0`, `0`, VNODE_UPDATE_NAMEDSTREAM_PARENT);
428
429	return;
430	}
431
432	errno_t
433	vnode_setasnamedstream(vnode_t vp, vnode_t svp)
434	{
435	if ((vp->v_mount->mnt_kern_flag & MNTK_NAMED_STREAMS) == `0`)
436	return (EINVAL);
437
438	vnode_setasnamedstream_internal(vp, svp);
439	return (`0`);
440	}
441
442	#if NAMEDSTREAMS
443
444	/*
445	* Obtain a named stream from vnode vp.
446	*/
447	errno_t
448	vnode_getnamedstream(vnode_t vp, vnode_t svpp, const* char name, enum* nsoperation op, int flags, vfs_context_t context)
449	{
450	int error;
451
452	if (vp->v_mount->mnt_kern_flag & MNTK_NAMED_STREAMS) {
453	error = VNOP_GETNAMEDSTREAM(vp, svpp, name, op, flags, context);
454	} else {
455	if (flags)
456	error = ENOTSUP;
457	else
458	error = default_getnamedstream(vp, svpp, name, op, context);
459	}
460
461	if (error == `0`) {
462	vnode_setasnamedstream_internal(vp, *svpp);
463	}
464
465	return (error);
466	}
467
468	/*
469	* Make a named stream for vnode vp.
470	*/
471	errno_t
472	vnode_makenamedstream(vnode_t vp, vnode_t svpp, const* char name, int* flags, vfs_context_t context)
473	{
474	int error;
475
476	if (vp->v_mount->mnt_kern_flag & MNTK_NAMED_STREAMS)
477	error = VNOP_MAKENAMEDSTREAM(vp, svpp, name, flags, context);
478	else
479	error = default_makenamedstream(vp, svpp, name, context);
480
481	if (error == `0`) {
482	vnode_setasnamedstream_internal(vp, *svpp);
483	}
484
485	return (error);
486	}
487
488	/*
489	* Remove a named stream from vnode vp.
490	*/
491	errno_t
492	vnode_removenamedstream(vnode_t vp, vnode_t svp, const char name, int* flags, vfs_context_t context)
493	{
494	int error;
495
496	if (vp->v_mount->mnt_kern_flag & MNTK_NAMED_STREAMS)
497	error = VNOP_REMOVENAMEDSTREAM(vp, svp, name, flags, context);
498	else
499	error = default_removenamedstream(vp, name, context);
500
501	return (error);
502	}
503
504	#define NS_IOBUFSIZE (128 * 1024)
505
506	/*
507	* Release a named stream shadow file.
508	*
509	* Note: This function is called from two places where we do not need
510	* to check if the vnode has any references held before deleting the
511	* shadow file. Once from vclean() when the vnode is being reclaimed
512	* and we do not hold any references on the vnode. Second time from
513	* default_getnamedstream() when we get an error during shadow stream
514	* file initialization so that other processes who are waiting for the
515	* shadow stream file initialization by the creator will get opportunity
516	* to create and initialize the file again.
517	*/
518	errno_t
519	vnode_relenamedstream(vnode_t vp, vnode_t svp) {
520	vnode_t dvp;
521	struct componentname cn;
522	char tmpname[`80`];
523	errno_t err;
524
525	/*
526	* We need to use the kernel context here. If we used the supplied
527	* VFS context we have no clue whether or not it originated from userland
528	* where it could be subject to a chroot jail. We need to ensure that all
529	* filesystem access to shadow files is done on the same FS regardless of
530	* userland process restrictions.
531	*/
532	vfs_context_t kernelctx = vfs_context_kernel();
533
534	cache_purge(svp);
535
536	vnode_lock(svp);
537	MAKE_SHADOW_NAME(vp, tmpname);
538	vnode_unlock(svp);
539
540	cn.cn_nameiop = DELETE;
541	cn.cn_flags = ISLASTCN;
542	cn.cn_context = kernelctx;
543	cn.cn_pnbuf = tmpname;
544	cn.cn_pnlen = sizeof(tmpname);
545	cn.cn_nameptr = cn.cn_pnbuf;
546	cn.cn_namelen = strlen(tmpname);
547
548	/*
549	* Obtain the vnode for the shadow files directory. Make sure to
550	* use the kernel ctx as described above.
551	*/
552	err = get_shadow_dir(&dvp);
553	if (err != `0`) {
554	return err;
555	}
556
557	(void) VNOP_REMOVE(dvp, svp, &cn, `0`, kernelctx);
558	vnode_put(dvp);
559
560	return (`0`);
561	}
562
563	/*
564	* Flush a named stream shadow file.
565	*
566	* 'vp' represents the AppleDouble file.
567	* 'svp' represents the shadow file.
568	*/
569	errno_t
570	vnode_flushnamedstream(vnode_t vp, vnode_t svp, vfs_context_t context)
571	{
572	struct vnode_attr va;
573	uio_t auio = NULL;
574	caddr_t bufptr = NULL;
575	size_t bufsize = `0`;
576	size_t offset;
577	size_t iosize;
578	size_t datasize;
579	int error;
580	/*
581	* The kernel context must be used for all I/O to the shadow file
582	* and its namespace operations
583	*/
584	vfs_context_t kernelctx = vfs_context_kernel();
585
586	/ The supplied context is used for access to the AD file itself /
587
588	VATTR_INIT(&va);
589	VATTR_WANTED(&va, va_data_size);
590	if (VNOP_GETATTR(svp, &va, context) != `0` \|\|
591	!VATTR_IS_SUPPORTED(&va, va_data_size)) {
592	return (`0`);
593	}
594	datasize = va.va_data_size;
595	if (datasize == `0`) {
596	(void) default_removexattr(vp, XATTR_RESOURCEFORK_NAME, `0`, context);
597	return (`0`);
598	}
599
600	iosize = bufsize = MIN(datasize, NS_IOBUFSIZE);
601	if (kmem_alloc(kernel_map, (vm_offset_t *)&bufptr, bufsize, VM_KERN_MEMORY_FILE)) {
602	return (ENOMEM);
603	}
604	auio = uio_create(`1`, `0`, UIO_SYSSPACE, UIO_READ);
605	offset = `0`;
606
607	/*
608	* Copy the shadow stream file data into the resource fork.
609	*/
610	error = VNOP_OPEN(svp, `0`, kernelctx);
611	if (error) {
612	printf("vnode_flushnamedstream: err %d opening file\n", error);
613	goto out;
614	}
615	while (offset < datasize) {
616	iosize = MIN(datasize - offset, iosize);
617
618	uio_reset(auio, offset, UIO_SYSSPACE, UIO_READ);
619	uio_addiov(auio, (uintptr_t)bufptr, iosize);
620	error = VNOP_READ(svp, auio, `0`, kernelctx);
621	if (error) {
622	break;
623	}
624	/ Since there's no truncate xattr we must remove the resource fork. /
625	if (offset == `0`) {
626	error = default_removexattr(vp, XATTR_RESOURCEFORK_NAME, `0`, context);
627	if ((error != `0`) && (error != ENOATTR)) {
628	break;
629	}
630	}
631	uio_reset(auio, offset, UIO_SYSSPACE, UIO_WRITE);
632	uio_addiov(auio, (uintptr_t)bufptr, iosize);
633	error = vn_setxattr(vp, XATTR_RESOURCEFORK_NAME, auio, XATTR_NOSECURITY, context);
634	if (error) {
635	break;
636	}
637	offset += iosize;
638	}
639
640	/ close shadowfile /
641	(void) VNOP_CLOSE(svp, `0`, kernelctx);
642	out:
643	if (bufptr) {
644	kmem_free(kernel_map, (vm_offset_t)bufptr, bufsize);
645	}
646	if (auio) {
647	uio_free(auio);
648	}
649	return (error);
650	}
651
652
653	/*
654	* Verify that the vnode 'vp' is a vnode that lives in the shadow
655	* directory. We can't just query the parent pointer directly since
656	* the shadowfile is hooked up to the actual file it's a stream for.
657	*/
658	errno_t vnode_verifynamedstream(vnode_t vp) {
659	int error;
660	struct vnode *shadow_dvp = NULL;
661	struct vnode *shadowfile = NULL;
662	struct componentname cn;
663
664	/*
665	* We need to use the kernel context here. If we used the supplied
666	* VFS context we have no clue whether or not it originated from userland
667	* where it could be subject to a chroot jail. We need to ensure that all
668	* filesystem access to shadow files is done on the same FS regardless of
669	* userland process restrictions.
670	*/
671	vfs_context_t kernelctx = vfs_context_kernel();
672	char tmpname[`80`];
673
674
675	/ Get the shadow directory vnode /
676	error = get_shadow_dir(&shadow_dvp);
677	if (error) {
678	return error;
679	}
680
681	/ Re-generate the shadow name in the buffer /
682	MAKE_SHADOW_NAME (vp, tmpname);
683
684	/ Look up item in shadow dir /
685	bzero(&cn, sizeof(cn));
686	cn.cn_nameiop = LOOKUP;
687	cn.cn_flags = ISLASTCN \| CN_ALLOWRSRCFORK;
688	cn.cn_context = kernelctx;
689	cn.cn_pnbuf = tmpname;
690	cn.cn_pnlen = sizeof(tmpname);
691	cn.cn_nameptr = cn.cn_pnbuf;
692	cn.cn_namelen = strlen(tmpname);
693
694	if (VNOP_LOOKUP (shadow_dvp, &shadowfile, &cn, kernelctx) == `0`) {
695	/ is the pointer the same? /
696	if (shadowfile == vp) {
697	error = `0`;
698	}
699	else {
700	error = EPERM;
701	}
702	/ drop the iocount acquired /
703	vnode_put (shadowfile);
704	}
705
706	/ Drop iocount on shadow dir /
707	vnode_put (shadow_dvp);
708	return error;
709	}
710
711	/*
712	* Access or create the shadow file as needed.
713	*
714	* 'makestream' with non-zero value means that we need to guarantee we were the
715	* creator of the shadow file.
716	*
717	* 'context' is the user supplied context for the original VFS operation that
718	* caused us to need a shadow file.
719	*
720	* int pointed to by 'creator' is nonzero if we created the shadowfile.
721	*/
722	static int
723	getshadowfile(vnode_t vp, vnode_t svpp, int* makestream, size_t *rsrcsize,
724	int *creator, vfs_context_t context)
725	{
726	vnode_t dvp = NULLVP;
727	vnode_t svp = NULLVP;
728	struct componentname cn;
729	struct vnode_attr va;
730	char tmpname[`80`];
731	size_t datasize = `0`;
732	int error = `0`;
733	int retries = `0`;
734	vfs_context_t kernelctx = vfs_context_kernel();
735
736	retry_create:
737	*creator = `0`;
738	/ Establish a unique file name. /
739	MAKE_SHADOW_NAME(vp, tmpname);
740	bzero(&cn, sizeof(cn));
741	cn.cn_nameiop = LOOKUP;
742	cn.cn_flags = ISLASTCN;
743	cn.cn_context = context;
744	cn.cn_pnbuf = tmpname;
745	cn.cn_pnlen = sizeof(tmpname);
746	cn.cn_nameptr = cn.cn_pnbuf;
747	cn.cn_namelen = strlen(tmpname);
748
749	/ Pick up uid, gid, mode and date from original file. /
750	VATTR_INIT(&va);
751	VATTR_WANTED(&va, va_uid);
752	VATTR_WANTED(&va, va_gid);
753	VATTR_WANTED(&va, va_mode);
754	VATTR_WANTED(&va, va_create_time);
755	VATTR_WANTED(&va, va_modify_time);
756	if (VNOP_GETATTR(vp, &va, context) != `0` \|\|
757	!VATTR_IS_SUPPORTED(&va, va_uid) \|\|
758	!VATTR_IS_SUPPORTED(&va, va_gid) \|\|
759	!VATTR_IS_SUPPORTED(&va, va_mode)) {
760	va.va_uid = KAUTH_UID_NONE;
761	va.va_gid = KAUTH_GID_NONE;
762	va.va_mode = S_IRUSR \| S_IWUSR;
763	}
764	va.va_vaflags = VA_EXCLUSIVE;
765	VATTR_SET(&va, va_type, VREG);
766	/ We no longer change the access, but we still hide it. /
767	VATTR_SET(&va, va_flags, UF_HIDDEN);
768
769	/ Obtain the vnode for the shadow files directory. /
770	if (get_shadow_dir(&dvp) != `0`) {
771	error = ENOTDIR;
772	goto out;
773	}
774	if (!makestream) {
775	/ See if someone else already has it open. /
776	if (VNOP_LOOKUP(dvp, &svp, &cn, kernelctx) == `0`) {
777	/ Double check existence by asking for size. /
778	VATTR_INIT(&va);
779	VATTR_WANTED(&va, va_data_size);
780	if (VNOP_GETATTR(svp, &va, context) == `0` &&
781	VATTR_IS_SUPPORTED(&va, va_data_size)) {
782	goto out; / OK to use. /
783	}
784	}
785
786	/*
787	* Otherwise make sure the resource fork data exists.
788	* Use the supplied context for accessing the AD file.
789	*/
790	error = vn_getxattr(vp, XATTR_RESOURCEFORK_NAME, NULL, &datasize,
791	XATTR_NOSECURITY, context);
792	/*
793	* To maintain binary compatibility with legacy Carbon
794	* emulated resource fork support, if the resource fork
795	* doesn't exist but the Finder Info does, then act as
796	* if an empty resource fork is present (see 4724359).
797	*/
798	if ((error == ENOATTR) &&
799	(vn_getxattr(vp, XATTR_FINDERINFO_NAME, NULL, &datasize,
800	XATTR_NOSECURITY, context) == `0`)) {
801	datasize = `0`;
802	error = `0`;
803	} else {
804	if (error) {
805	goto out;
806	}
807
808	/ If the resource fork exists, its size is expected to be non-zero. /
809	if (datasize == `0`) {
810	error = ENOATTR;
811	goto out;
812	}
813	}
814	}
815	/ Create the shadow stream file. /
816	error = VNOP_CREATE(dvp, &svp, &cn, &va, kernelctx);
817	if (error == `0`) {
818	vnode_recycle(svp);
819	*creator = `1`;
820	}
821	else if ((error == EEXIST) && !makestream) {
822	error = VNOP_LOOKUP(dvp, &svp, &cn, kernelctx);
823	}
824	else if ((error == ENOENT) && !makestream) {
825	/*
826	* We could have raced with a rmdir on the shadow directory
827	* post-lookup. Retry from the beginning, 1x only, to
828	* try and see if we need to re-create the shadow directory
829	* in get_shadow_dir.
830	*/
831	if (retries == `0`) {
832	retries++;
833	if (dvp) {
834	vnode_put (dvp);
835	dvp = NULLVP;
836	}
837	if (svp) {
838	vnode_put (svp);
839	svp = NULLVP;
840	}
841	goto retry_create;
842	}
843	/ Otherwise, just error out normally below /
844	}
845
846	out:
847	if (dvp) {
848	vnode_put(dvp);
849	}
850	if (error) {
851	/ On errors, clean up shadow stream file. /
852	if (svp) {
853	vnode_put(svp);
854	svp = NULLVP;
855	}
856	}
857	*svpp = svp;
858	if (rsrcsize) {
859	*rsrcsize = datasize;
860	}
861	return (error);
862	}
863
864
865	static int
866	default_getnamedstream(vnode_t vp, vnode_t svpp, const* char name, enum* nsoperation op, vfs_context_t context)
867	{
868	vnode_t svp = NULLVP;
869	uio_t auio = NULL;
870	caddr_t bufptr = NULL;
871	size_t bufsize = `0`;
872	size_t datasize = `0`;
873	int creator;
874	int error;
875
876	/ need the kernel context for accessing the shadowfile /
877	vfs_context_t kernelctx = vfs_context_kernel();
878
879	/*
880	* Only the "com.apple.ResourceFork" stream is supported here.
881	*/
882	if (bcmp(name, XATTR_RESOURCEFORK_NAME, sizeof(XATTR_RESOURCEFORK_NAME)) != `0`) {
883	*svpp = NULLVP;
884	return (ENOATTR);
885	}
886	retry:
887	/*
888	* Obtain a shadow file for the resource fork I/O.
889	*
890	* Need to pass along the supplied context so that getshadowfile
891	* can access the AD file as needed, using it.
892	*/
893	error = getshadowfile(vp, &svp, `0`, &datasize, &creator, context);
894	if (error) {
895	*svpp = NULLVP;
896	return (error);
897	}
898
899	/*
900	* The creator of the shadow file provides its file data,
901	* all other threads should wait until its ready. In order to
902	* prevent a deadlock during error codepaths, we need to check if the
903	* vnode is being created, or if it has failed out. Regardless of success or
904	* failure, we set the VISSHADOW bit on the vnode, so we check that
905	* if the vnode's flags don't have VISNAMEDSTREAM set. If it doesn't,
906	* then we can infer the creator isn't done yet. If it's there, but
907	* VISNAMEDSTREAM is not set, then we can infer it errored out and we should
908	* try again.
909	*/
910	if (!creator) {
911	vnode_lock(svp);
912	if (svp->v_flag & VISNAMEDSTREAM) {
913	/ data is ready, go use it /
914	vnode_unlock(svp);
915	goto out;
916	} else {
917	/ It's not ready, wait for it (sleep using v_parent as channel) /
918	if ((svp->v_flag & VISSHADOW)) {
919	/*
920	* No VISNAMEDSTREAM, but we did see VISSHADOW, indicating that the other
921	* thread is done with this vnode. Just unlock the vnode and try again
922	*/
923	vnode_unlock(svp);
924	}
925	else {
926	/ Otherwise, sleep if the shadow file is not created yet /
927	msleep((caddr_t)&svp->v_parent, &svp->v_lock, PINOD \| PDROP,
928	"getnamedstream", NULL);
929	}
930	vnode_put(svp);
931	svp = NULLVP;
932	goto retry;
933	}
934	}
935
936	/*
937	* Copy the real resource fork data into shadow stream file.
938	*/
939	if (op == NS_OPEN && datasize != `0`) {
940	size_t offset;
941	size_t iosize;
942
943	iosize = bufsize = MIN(datasize, NS_IOBUFSIZE);
944	if (kmem_alloc(kernel_map, (vm_offset_t *)&bufptr, bufsize, VM_KERN_MEMORY_FILE)) {
945	error = ENOMEM;
946	goto out;
947	}
948
949	auio = uio_create(`1`, `0`, UIO_SYSSPACE, UIO_READ);
950	offset = `0`;
951
952	/ open the shadow file /
953	error = VNOP_OPEN(svp, `0`, kernelctx);
954	if (error) {
955	goto out;
956	}
957	while (offset < datasize) {
958	size_t tmpsize;
959
960	iosize = MIN(datasize - offset, iosize);
961
962	uio_reset(auio, offset, UIO_SYSSPACE, UIO_READ);
963	uio_addiov(auio, (uintptr_t)bufptr, iosize);
964	/ use supplied ctx for AD file /
965	error = vn_getxattr(vp, XATTR_RESOURCEFORK_NAME, auio, &tmpsize,
966	XATTR_NOSECURITY, context);
967	if (error) {
968	break;
969	}
970
971	uio_reset(auio, offset, UIO_SYSSPACE, UIO_WRITE);
972	uio_addiov(auio, (uintptr_t)bufptr, iosize);
973	/ kernel context for writing shadowfile /
974	error = VNOP_WRITE(svp, auio, `0`, kernelctx);
975	if (error) {
976	break;
977	}
978	offset += iosize;
979	}
980
981	/ close shadow file /
982	(void) VNOP_CLOSE(svp, `0`, kernelctx);
983	}
984	out:
985	/ Wake up anyone waiting for svp file content /
986	if (creator) {
987	if (error == `0`) {
988	vnode_lock(svp);
989	/ VISSHADOW would be set later on anyway, so we set it now /
990	svp->v_flag \|= (VISNAMEDSTREAM \| VISSHADOW);
991	wakeup((caddr_t)&svp->v_parent);
992	vnode_unlock(svp);
993	} else {
994	/ On post create errors, get rid of the shadow file. This*
995	* way if there is another process waiting for initialization
996	* of the shadowfile by the current process will wake up and
997	* retry by creating and initializing the shadow file again.
998	* Also add the VISSHADOW bit here to indicate we're done operating
999	* on this vnode.
1000	*/
1001	(void)vnode_relenamedstream(vp, svp);
1002	vnode_lock (svp);
1003	svp->v_flag \|= VISSHADOW;
1004	wakeup((caddr_t)&svp->v_parent);
1005	vnode_unlock(svp);
1006	}
1007	}
1008
1009	if (bufptr) {
1010	kmem_free(kernel_map, (vm_offset_t)bufptr, bufsize);
1011	}
1012	if (auio) {
1013	uio_free(auio);
1014	}
1015	if (error) {
1016	/ On errors, clean up shadow stream file. /
1017	if (svp) {
1018	vnode_put(svp);
1019	svp = NULLVP;
1020	}
1021	}
1022	*svpp = svp;
1023	return (error);
1024	}
1025
1026	static int
1027	default_makenamedstream(vnode_t vp, vnode_t svpp, const* char *name, vfs_context_t context)
1028	{
1029	int creator;
1030	int error;
1031
1032	/*
1033	* Only the "com.apple.ResourceFork" stream is supported here.
1034	*/
1035	if (bcmp(name, XATTR_RESOURCEFORK_NAME, sizeof(XATTR_RESOURCEFORK_NAME)) != `0`) {
1036	*svpp = NULLVP;
1037	return (ENOATTR);
1038	}
1039
1040	/ Supply the context to getshadowfile so it can manipulate the AD file /
1041	error = getshadowfile(vp, svpp, `1`, NULL, &creator, context);
1042
1043	/*
1044	* Wake up any waiters over in default_getnamedstream().
1045	*/
1046	if ((error == `0`) && (*svpp != NULL) && creator) {
1047	vnode_t svp = *svpp;
1048
1049	vnode_lock(svp);
1050	/ If we're the creator, mark it as a named stream /
1051	svp->v_flag \|= (VISNAMEDSTREAM \| VISSHADOW);
1052	/ Wakeup any waiters on the v_parent channel /
1053	wakeup((caddr_t)&svp->v_parent);
1054	vnode_unlock(svp);
1055
1056	}
1057
1058	return (error);
1059	}
1060
1061	static int
1062	default_removenamedstream(vnode_t vp, const char *name, vfs_context_t context)
1063	{
1064	/*
1065	* Only the "com.apple.ResourceFork" stream is supported here.
1066	*/
1067	if (bcmp(name, XATTR_RESOURCEFORK_NAME, sizeof(XATTR_RESOURCEFORK_NAME)) != `0`) {
1068	return (ENOATTR);
1069	}
1070	/*
1071	* XXX - what about other opened instances?
1072	*/
1073	return default_removexattr(vp, XATTR_RESOURCEFORK_NAME, `0`, context);
1074	}
1075
1076	static int
1077	get_shadow_dir(vnode_t *sdvpp) {
1078	vnode_t dvp = NULLVP;
1079	vnode_t sdvp = NULLVP;
1080	struct componentname cn;
1081	struct vnode_attr va;
1082	char tmpname[`80`];
1083	uint32_t tmp_fsid;
1084	int error;
1085	vfs_context_t kernelctx = vfs_context_kernel();
1086
1087	bzero(tmpname, sizeof(tmpname));
1088	MAKE_SHADOW_DIRNAME(rootvnode, tmpname);
1089	/*
1090	* Look up the shadow directory to ensure that it still exists.
1091	* By looking it up, we get an iocounted dvp to use, and avoid some coherency issues
1092	* in caching it when multiple threads may be trying to manipulate the pointers.
1093	*
1094	* Make sure to use the kernel context. We want a singular view of
1095	* the shadow dir regardless of chrooted processes.
1096	*/
1097	error = vnode_lookup(tmpname, `0`, &sdvp, kernelctx);
1098	if (error == `0`) {
1099	/*
1100	* If we get here, then we have successfully looked up the shadow dir,
1101	* and it has an iocount from the lookup. Return the vp in the output argument.
1102	*/
1103	*sdvpp = sdvp;
1104	return (`0`);
1105	}
1106	/ In the failure case, no iocount is acquired /
1107	sdvp = NULLVP;
1108	bzero (tmpname, sizeof(tmpname));
1109
1110	/*
1111	* Obtain the vnode for "/var/run" directory using the kernel
1112	* context.
1113	*
1114	* This is defined in the SHADOW_DIR_CONTAINER macro
1115	*/
1116	if (vnode_lookup(SHADOW_DIR_CONTAINER, `0`, &dvp, kernelctx) != `0`) {
1117	error = ENOTSUP;
1118	goto out;
1119	}
1120
1121	/*
1122	* Create the shadow stream directory.
1123	* 'dvp' below suggests the parent directory so
1124	* we only need to provide the leaf entry name
1125	*/
1126	MAKE_SHADOW_DIR_LEAF(rootvnode, tmpname);
1127	bzero(&cn, sizeof(cn));
1128	cn.cn_nameiop = LOOKUP;
1129	cn.cn_flags = ISLASTCN;
1130	cn.cn_context = kernelctx;
1131	cn.cn_pnbuf = tmpname;
1132	cn.cn_pnlen = sizeof(tmpname);
1133	cn.cn_nameptr = cn.cn_pnbuf;
1134	cn.cn_namelen = strlen(tmpname);
1135
1136	/*
1137	* owned by root, only readable by root, hidden
1138	*/
1139	VATTR_INIT(&va);
1140	VATTR_SET(&va, va_uid, `0`);
1141	VATTR_SET(&va, va_gid, `0`);
1142	VATTR_SET(&va, va_mode, S_IRUSR \| S_IXUSR);
1143	VATTR_SET(&va, va_type, VDIR);
1144	VATTR_SET(&va, va_flags, UF_HIDDEN);
1145	va.va_vaflags = VA_EXCLUSIVE;
1146
1147	error = VNOP_MKDIR(dvp, &sdvp, &cn, &va, kernelctx);
1148
1149	/*
1150	* There can be only one winner for an exclusive create.
1151	*/
1152	if (error == EEXIST) {
1153	/ loser has to look up directory /
1154	error = VNOP_LOOKUP(dvp, &sdvp, &cn, kernelctx);
1155	if (error == `0`) {
1156	/ Make sure its in fact a directory /
1157	if (sdvp->v_type != VDIR) {
1158	goto baddir;
1159	}
1160	/ Obtain the fsid for /var/run directory /
1161	VATTR_INIT(&va);
1162	VATTR_WANTED(&va, va_fsid);
1163	if (VNOP_GETATTR(dvp, &va, kernelctx) != `0` \|\|
1164	!VATTR_IS_SUPPORTED(&va, va_fsid)) {
1165	goto baddir;
1166	}
1167	tmp_fsid = va.va_fsid;
1168
1169	VATTR_INIT(&va);
1170	VATTR_WANTED(&va, va_uid);
1171	VATTR_WANTED(&va, va_gid);
1172	VATTR_WANTED(&va, va_mode);
1173	VATTR_WANTED(&va, va_fsid);
1174	VATTR_WANTED(&va, va_dirlinkcount);
1175	VATTR_WANTED(&va, va_acl);
1176	/ Provide defaults for attrs that may not be supported /
1177	va.va_dirlinkcount = `1`;
1178	va.va_acl = (kauth_acl_t) KAUTH_FILESEC_NONE;
1179
1180	if (VNOP_GETATTR(sdvp, &va, kernelctx) != `0` \|\|
1181	!VATTR_IS_SUPPORTED(&va, va_uid) \|\|
1182	!VATTR_IS_SUPPORTED(&va, va_gid) \|\|
1183	!VATTR_IS_SUPPORTED(&va, va_mode) \|\|
1184	!VATTR_IS_SUPPORTED(&va, va_fsid)) {
1185	goto baddir;
1186	}
1187	/*
1188	* Make sure its what we want:
1189	* - owned by root
1190	* - not writable by anyone
1191	* - on same file system as /var/run
1192	* - not a hard-linked directory
1193	* - no ACLs (they might grant write access)
1194	*/
1195	if ((va.va_uid != `0`) \|\| (va.va_gid != `0`) \|\|
1196	(va.va_mode & (S_IWUSR \| S_IRWXG \| S_IRWXO)) \|\|
1197	(va.va_fsid != tmp_fsid) \|\|
1198	(va.va_dirlinkcount != `1`) \|\|
1199	(va.va_acl != (kauth_acl_t) KAUTH_FILESEC_NONE)) {
1200	goto baddir;
1201	}
1202	}
1203	}
1204	out:
1205	if (dvp) {
1206	vnode_put(dvp);
1207	}
1208	if (error) {
1209	/ On errors, clean up shadow stream directory. /
1210	if (sdvp) {
1211	vnode_put(sdvp);
1212	sdvp = NULLVP;
1213	}
1214	}
1215	*sdvpp = sdvp;
1216	return (error);
1217
1218	baddir:
1219	/ This is not the dir we're looking for, move along /
1220	++shadow_sequence; / try something else next time /
1221	error = ENOTDIR;
1222	goto out;
1223	}
1224	#endif /* NAMEDSTREAMS */
1225
1226
1227	#if CONFIG_APPLEDOUBLE
1228	/*
1229	* Default Implementation (Non-native EA)
1230	*/
1231
1232
1233	/*
1234	Typical "._" AppleDouble Header File layout:
1235	------------------------------------------------------------
1236	MAGIC 0x00051607
1237	VERSION 0x00020000
1238	FILLER 0
1239	COUNT 2
1240	.-- AD ENTRY[0] Finder Info Entry (must be first)
1241	.--+-- AD ENTRY[1] Resource Fork Entry (must be last)
1242	\| '-> FINDER INFO
1243	\| ///////////// Fixed Size Data (32 bytes)
1244	\| EXT ATTR HDR
1245	\| /////////////
1246	\| ATTR ENTRY[0] --.
1247	\| ATTR ENTRY[1] --+--.
1248	\| ATTR ENTRY[2] --+--+--.
1249	\| ... \| \| \|
1250	\| ATTR ENTRY[N] --+--+--+--.
1251	\| ATTR DATA 0 <-' \| \| \|
1252	\| //////////// \| \| \|
1253	\| ATTR DATA 1 <----' \| \|
1254	\| ///////////// \| \|
1255	\| ATTR DATA 2 <-------' \|
1256	\| ///////////// \|
1257	\| ... \|
1258	\| ATTR DATA N <----------'
1259	\| /////////////
1260	\| Attribute Free Space
1261	\|
1262	'----> RESOURCE FORK
1263	///////////// Variable Sized Data
1264	/////////////
1265	/////////////
1266	/////////////
1267	/////////////
1268	/////////////
1269	...
1270	/////////////
1271
1272	------------------------------------------------------------
1273
1274	NOTE: The EXT ATTR HDR, ATTR ENTRY's and ATTR DATA's are
1275	stored as part of the Finder Info. The length in the Finder
1276	Info AppleDouble entry includes the length of the extended
1277	attribute header, attribute entries, and attribute data.
1278	*/
1279
1280
1281	/*
1282	* On Disk Data Structures
1283	*
1284	* Note: Motorola 68K alignment and big-endian.
1285	*
1286	* See RFC 1740 for additional information about the AppleDouble file format.
1287	*
1288	*/
1289
1290	#define ADH_MAGIC 0x00051607
1291	#define ADH_VERSION 0x00020000
1292	#define ADH_MACOSX "Mac OS X "
1293
1294	/*
1295	* AppleDouble Entry ID's
1296	*/
1297	#define AD_DATA 1 /* Data fork */
1298	#define AD_RESOURCE 2 /* Resource fork */
1299	#define AD_REALNAME 3 /* File�s name on home file system */
1300	#define AD_COMMENT 4 /* Standard Mac comment */
1301	#define AD_ICONBW 5 /* Mac black & white icon */
1302	#define AD_ICONCOLOR 6 /* Mac color icon */
1303	#define AD_UNUSED 7 /* Not used */
1304	#define AD_FILEDATES 8 /* File dates; create, modify, etc */
1305	#define AD_FINDERINFO 9 /* Mac Finder info & extended info */
1306	#define AD_MACINFO 10 /* Mac file info, attributes, etc */
1307	#define AD_PRODOSINFO 11 /* Pro-DOS file info, attrib., etc */
1308	#define AD_MSDOSINFO 12 /* MS-DOS file info, attributes, etc */
1309	#define AD_AFPNAME 13 /* Short name on AFP server */
1310	#define AD_AFPINFO 14 /* AFP file info, attrib., etc */
1311	#define AD_AFPDIRID 15 /* AFP directory ID */
1312	#define AD_ATTRIBUTES AD_FINDERINFO
1313
1314
1315	#define ATTR_FILE_PREFIX "._"
1316	#define ATTR_HDR_MAGIC 0x41545452 /* 'ATTR' */
1317
1318	#define ATTR_BUF_SIZE 4096 /* default size of the attr file and how much we'll grow by */
1319
1320	/ Implementation Limits /
1321	#define ATTR_MAX_SIZE AD_XATTR_MAXSIZE
1322	#define ATTR_MAX_HDR_SIZE 65536
1323	/*
1324	* Note: ATTR_MAX_HDR_SIZE is the largest attribute header
1325	* size supported (including the attribute entries). All of
1326	* the attribute entries must reside within this limit. If
1327	* any of the attribute data crosses the ATTR_MAX_HDR_SIZE
1328	* boundry, then all of the attribute data I/O is performed
1329	* separately from the attribute header I/O.
1330	*
1331	* In particular, all of the attr_entry structures must lie
1332	* completely within the first ATTR_MAX_HDR_SIZE bytes of the
1333	* AppleDouble file. However, the attribute data (i.e. the
1334	* contents of the extended attributes) may extend beyond the
1335	* first ATTR_MAX_HDR_SIZE bytes of the file. Note that this
1336	* limit is to allow the implementation to optimize by reading
1337	* the first ATTR_MAX_HDR_SIZE bytes of the file.
1338	*/
1339
1340
1341	#define FINDERINFOSIZE 32
1342
1343	typedef struct apple_double_entry {
1344	u_int32_t type; / entry type: see list, 0 invalid /
1345	u_int32_t offset; / entry data offset from the beginning of the file. /
1346	u_int32_t length; / entry data length in bytes. /
1347	} __attribute__((aligned(`2`), packed)) apple_double_entry_t;
1348
1349
1350	typedef struct apple_double_header {
1351	u_int32_t magic; / == ADH_MAGIC /
1352	u_int32_t version; / format version: 2 = 0x00020000 /
1353	u_int32_t filler[`4`];
1354	u_int16_t numEntries; / number of entries which follow /
1355	apple_double_entry_t entries[`2`]; / 'finfo' & 'rsrc' always exist /
1356	u_int8_t finfo[FINDERINFOSIZE]; / Must start with Finder Info (32 bytes) /
1357	u_int8_t pad[`2`]; / get better alignment inside attr_header /
1358	} __attribute__((aligned(`2`), packed)) apple_double_header_t;
1359
1360	#define ADHDRSIZE (4+4+16+2)
1361
1362	/ Entries are aligned on 4 byte boundaries /
1363	typedef struct attr_entry {
1364	u_int32_t offset; / file offset to data /
1365	u_int32_t length; / size of attribute data /
1366	u_int16_t flags;
1367	u_int8_t namelen;
1368	u_int8_t name[`1`]; / NULL-terminated UTF-8 name (up to 128 bytes max) /
1369	} __attribute__((aligned(`2`), packed)) attr_entry_t;
1370
1371
1372	/ Header + entries must fit into 64K. Data may extend beyond 64K. /
1373	typedef struct attr_header {
1374	apple_double_header_t appledouble;
1375	u_int32_t magic; / == ATTR_HDR_MAGIC /
1376	u_int32_t debug_tag; / for debugging == file id of owning file /
1377	u_int32_t total_size; / file offset of end of attribute header + entries + data /
1378	u_int32_t data_start; / file offset to attribute data area /
1379	u_int32_t data_length; / length of attribute data area /
1380	u_int32_t reserved[`3`];
1381	u_int16_t flags;
1382	u_int16_t num_attrs;
1383	} __attribute__((aligned(`2`), packed)) attr_header_t;
1384
1385
1386	/ Empty Resource Fork Header /
1387	typedef struct rsrcfork_header {
1388	u_int32_t fh_DataOffset;
1389	u_int32_t fh_MapOffset;
1390	u_int32_t fh_DataLength;
1391	u_int32_t fh_MapLength;
1392	u_int8_t systemData[`112`];
1393	u_int8_t appData[`128`];
1394	u_int32_t mh_DataOffset;
1395	u_int32_t mh_MapOffset;
1396	u_int32_t mh_DataLength;
1397	u_int32_t mh_MapLength;
1398	u_int32_t mh_Next;
1399	u_int16_t mh_RefNum;
1400	u_int8_t mh_Attr;
1401	u_int8_t mh_InMemoryAttr;
1402	u_int16_t mh_Types;
1403	u_int16_t mh_Names;
1404	u_int16_t typeCount;
1405	} __attribute__((aligned(`2`), packed)) rsrcfork_header_t;
1406
1407	#define RF_FIRST_RESOURCE 256
1408	#define RF_NULL_MAP_LENGTH 30
1409	#define RF_EMPTY_TAG "This resource fork intentionally left blank "
1410
1411	/ Runtime information about the attribute file. /
1412	typedef struct attr_info {
1413	vfs_context_t context;
1414	vnode_t filevp;
1415	size_t filesize;
1416	size_t iosize;
1417	u_int8_t *rawdata;
1418	size_t rawsize; / minimum of filesize or ATTR_MAX_HDR_SIZE /
1419	apple_double_header_t *filehdr;
1420	apple_double_entry_t *finderinfo;
1421	apple_double_entry_t *rsrcfork;
1422	attr_header_t *attrhdr;
1423	attr_entry_t *attr_entry;
1424	u_int8_t readonly;
1425	u_int8_t emptyfinderinfo;
1426	} attr_info_t;
1427
1428
1429	#define ATTR_SETTING 1
1430
1431	#define ATTR_ALIGN 3L /* Use four-byte alignment */
1432
1433	#define ATTR_ENTRY_LENGTH(namelen) \
1434	((sizeof(attr_entry_t) - 1 + (namelen) + ATTR_ALIGN) & (~ATTR_ALIGN))
1435
1436	#define ATTR_NEXT(ae) \
1437	(attr_entry_t )((u_int8_t )(ae) + ATTR_ENTRY_LENGTH((ae)->namelen))
1438
1439	#define ATTR_VALID(ae, ai) \
1440	((u_int8_t *)ATTR_NEXT(ae) <= ((ai).rawdata + (ai).rawsize))
1441
1442	#define SWAP16(x) OSSwapBigToHostInt16((x))
1443	#define SWAP32(x) OSSwapBigToHostInt32((x))
1444	#define SWAP64(x) OSSwapBigToHostInt64((x))
1445
1446
1447	static u_int32_t emptyfinfo[`8`] = {`0`};
1448
1449
1450	/*
1451	* Local support routines
1452	*/
1453	static void close_xattrfile(vnode_t xvp, int fileflags, vfs_context_t context);
1454
1455	static int open_xattrfile(vnode_t vp, int fileflags, vnode_t *xvpp, vfs_context_t context);
1456
1457	static int create_xattrfile(vnode_t xvp, u_int32_t fileid, vfs_context_t context);
1458
1459	static int remove_xattrfile(vnode_t xvp, vfs_context_t context);
1460
1461	static int get_xattrinfo(vnode_t xvp, int setting, attr_info_t *ainfop, vfs_context_t context);
1462
1463	static void rel_xattrinfo(attr_info_t *ainfop);
1464
1465	static int write_xattrinfo(attr_info_t *ainfop);
1466
1467	static void init_empty_resource_fork(rsrcfork_header_t * rsrcforkhdr);
1468
1469	static int lock_xattrfile(vnode_t xvp, short locktype, vfs_context_t context);
1470
1471	static int unlock_xattrfile(vnode_t xvp, vfs_context_t context);
1472
1473
1474	#if BYTE_ORDER == LITTLE_ENDIAN
1475	static void swap_adhdr(apple_double_header_t *adh);
1476	static void swap_attrhdr(attr_header_t ah, attr_info_t info);
1477
1478	#else
1479	#define swap_adhdr(x)
1480	#define swap_attrhdr(x, y)
1481	#endif
1482
1483	static int check_and_swap_attrhdr(attr_header_t ah, attr_info_t ainfop);
1484	static int shift_data_down(vnode_t xvp, off_t start, size_t len, off_t delta, vfs_context_t context);
1485	static int shift_data_up(vnode_t xvp, off_t start, size_t len, off_t delta, vfs_context_t context);
1486
1487
1488	/*
1489	* Sanity check and swap the header of an AppleDouble file. Assumes the buffer
1490	* is in big endian (as it would exist on disk). Verifies the following:
1491	* - magic field
1492	* - version field
1493	* - number of entries
1494	* - that each entry fits within the file size
1495	*
1496	* If the header is invalid, ENOATTR is returned.
1497	*
1498	* NOTE: Does not attempt to validate the extended attributes header that
1499	* may be embedded in the Finder Info entry.
1500	*/
1501	static int check_and_swap_apple_double_header(attr_info_t *ainfop)
1502	{
1503	int i, j;
1504	u_int32_t header_end;
1505	u_int32_t entry_end;
1506	size_t rawsize;
1507	apple_double_header_t *header;
1508
1509	rawsize = ainfop->rawsize;
1510	header = (apple_double_header_t *) ainfop->rawdata;
1511
1512	/ Is the file big enough to contain an AppleDouble header? /
1513	if (rawsize < offsetof(apple_double_header_t, entries))
1514	return ENOATTR;
1515
1516	/ Swap the AppleDouble header fields to native order /
1517	header->magic = SWAP32(header->magic);
1518	header->version = SWAP32(header->version);
1519	header->numEntries = SWAP16(header->numEntries);
1520
1521	/ Sanity check the AppleDouble header fields /
1522	if (header->magic != ADH_MAGIC \|\|
1523	header->version != ADH_VERSION \|\|
1524	header->numEntries < `1` \|\|
1525	header->numEntries > `15`) {
1526	return ENOATTR;
1527	}
1528
1529	/ Calculate where the entries[] array ends /
1530	header_end = offsetof(apple_double_header_t, entries) +
1531	header->numEntries * sizeof(apple_double_entry_t);
1532
1533	/ Is the file big enough to contain the AppleDouble entries? /
1534	if (rawsize < header_end) {
1535	return ENOATTR;
1536	}
1537
1538	/ Swap and sanity check each AppleDouble entry /
1539	for (i=`0`; i<header->numEntries; i++) {
1540	/ Swap the per-entry fields to native order /
1541	header->entries[i].type = SWAP32(header->entries[i].type);
1542	header->entries[i].offset = SWAP32(header->entries[i].offset);
1543	header->entries[i].length = SWAP32(header->entries[i].length);
1544
1545	entry_end = header->entries[i].offset + header->entries[i].length;
1546
1547	/*
1548	* Does the entry's content start within the header itself,
1549	* did the addition overflow, or does the entry's content
1550	* extend past the end of the file?
1551	*/
1552	if (header->entries[i].offset < header_end \|\|
1553	entry_end < header->entries[i].offset \|\|
1554	entry_end > ainfop->filesize) {
1555	return ENOATTR;
1556	}
1557
1558	/*
1559	* Does the current entry's content overlap with a previous
1560	* entry's content?
1561	*
1562	* Yes, this is O(N**2), and there are more efficient algorithms
1563	* for testing pairwise overlap of N ranges when N is large.
1564	* But we have already ensured N < 16, and N is almost always 2.
1565	* So there's no point in using a more complex algorithm.
1566	*/
1567
1568	for (j=`0`; j<i; j++) {
1569	if (entry_end > header->entries[j].offset &&
1570	header->entries[j].offset + header->entries[j].length > header->entries[i].offset) {
1571	return ENOATTR;
1572	}
1573	}
1574	}
1575
1576	return `0`;
1577	}
1578
1579
1580
1581	/*
1582	* Retrieve the data of an extended attribute.
1583	*/
1584	static int
1585	default_getxattr(vnode_t vp, const char name, uio_t uio, size_t size,
1586	__unused int options, vfs_context_t context)
1587	{
1588	vnode_t xvp = NULL;
1589	attr_info_t ainfo;
1590	attr_header_t *header;
1591	attr_entry_t *entry;
1592	u_int8_t *attrdata;
1593	size_t datalen;
1594	int namelen;
1595	int isrsrcfork;
1596	int fileflags;
1597	int i;
1598	int error;
1599
1600	fileflags = FREAD;
1601	if (strcmp(name, XATTR_RESOURCEFORK_NAME) == `0`) {
1602	isrsrcfork = `1`;
1603	/*
1604	* Open the file locked (shared) since the Carbon
1605	* File Manager may have the Apple Double file open
1606	* and could be changing the resource fork.
1607	*/
1608	fileflags \|= O_SHLOCK;
1609	} else {
1610	isrsrcfork = `0`;
1611	}
1612
1613	if ((error = open_xattrfile(vp, fileflags, &xvp, context))) {
1614	return (error);
1615	}
1616	if ((error = get_xattrinfo(xvp, `0`, &ainfo, context))) {
1617	close_xattrfile(xvp, fileflags, context);
1618	return (error);
1619	}
1620
1621	/ Get the Finder Info. /
1622	if (strcmp(name, XATTR_FINDERINFO_NAME) == `0`) {
1623
1624	if (ainfo.finderinfo == NULL \|\| ainfo.emptyfinderinfo) {
1625	error = ENOATTR;
1626	} else if (uio == NULL) {
1627	*size = FINDERINFOSIZE;
1628	error = `0`;
1629	} else if (uio_offset(uio) != `0`) {
1630	error = EINVAL;
1631	} else if (uio_resid(uio) < FINDERINFOSIZE) {
1632	error = ERANGE;
1633	} else {
1634	attrdata = (u_int8_t*)ainfo.filehdr + ainfo.finderinfo->offset;
1635	error = uiomove((caddr_t)attrdata, FINDERINFOSIZE, uio);
1636	}
1637	goto out;
1638	}
1639
1640	/ Read the Resource Fork. /
1641	if (isrsrcfork) {
1642	if (!vnode_isreg(vp)) {
1643	error = EPERM;
1644	} else if (ainfo.rsrcfork == NULL) {
1645	error = ENOATTR;
1646	} else if (uio == NULL) {
1647	*size = (size_t)ainfo.rsrcfork->length;
1648	} else {
1649	uio_setoffset(uio, uio_offset(uio) + ainfo.rsrcfork->offset);
1650	error = VNOP_READ(xvp, uio, `0`, context);
1651	if (error == `0`)
1652	uio_setoffset(uio, uio_offset(uio) - ainfo.rsrcfork->offset);
1653	}
1654	goto out;
1655	}
1656
1657	if (ainfo.attrhdr == NULL \|\| ainfo.attr_entry == NULL) {
1658	error = ENOATTR;
1659	goto out;
1660	}
1661	if (uio_offset(uio) != `0`) {
1662	error = EINVAL;
1663	goto out;
1664	}
1665	error = ENOATTR;
1666	namelen = strlen(name) + `1`;
1667	header = ainfo.attrhdr;
1668	entry = ainfo.attr_entry;
1669	/*
1670	* Search for attribute name in the header.
1671	*/
1672	for (i = `0`; i < header->num_attrs && ATTR_VALID(entry, ainfo); i++) {
1673	if (strncmp((const char *)entry->name, name, namelen) == `0`) {
1674	datalen = (size_t)entry->length;
1675	if (uio == NULL) {
1676	*size = datalen;
1677	error = `0`;
1678	break;
1679	}
1680	if (uio_resid(uio) < (user_ssize_t)datalen) {
1681	error = ERANGE;
1682	break;
1683	}
1684	if (entry->offset + datalen < ATTR_MAX_HDR_SIZE) {
1685	attrdata = ((u_int8_t *)header + entry->offset);
1686	error = uiomove((caddr_t)attrdata, datalen, uio);
1687	} else {
1688	uio_setoffset(uio, entry->offset);
1689	error = VNOP_READ(xvp, uio, `0`, context);
1690	uio_setoffset(uio, `0`);
1691	}
1692	break;
1693	}
1694	entry = ATTR_NEXT(entry);
1695	}
1696	out:
1697	rel_xattrinfo(&ainfo);
1698	close_xattrfile(xvp, fileflags, context);
1699
1700	return (error);
1701	}
1702
1703	/*
1704	* Set the data of an extended attribute.
1705	*/
1706	static int
1707	default_setxattr(vnode_t vp, const char name, uio_t uio, int* options, vfs_context_t context)
1708	{
1709	vnode_t xvp = NULL;
1710	attr_info_t ainfo;
1711	attr_header_t *header;
1712	attr_entry_t *entry;
1713	attr_entry_t *lastentry;
1714	u_int8_t *attrdata;
1715	size_t datalen;
1716	size_t entrylen;
1717	size_t datafreespace;
1718	int namelen;
1719	int found = `0`;
1720	int i;
1721	int splitdata;
1722	int fileflags;
1723	int error;
1724	char finfo[FINDERINFOSIZE];
1725
1726	datalen = uio_resid(uio);
1727	namelen = strlen(name) + `1`;
1728	entrylen = ATTR_ENTRY_LENGTH(namelen);
1729
1730	/*
1731	* By convention, Finder Info that is all zeroes is equivalent to not
1732	* having a Finder Info EA. So if we're trying to set the Finder Info
1733	* to all zeroes, then delete it instead. If a file didn't have an
1734	* AppleDouble file before, this prevents creating an AppleDouble file
1735	* with no useful content.
1736	*
1737	* If neither XATTR_CREATE nor XATTR_REPLACE were specified, we check
1738	* for all zeroes Finder Info before opening the AppleDouble file.
1739	* But if either of those options were specified, we need to open the
1740	* AppleDouble file to see whether there was already Finder Info (so we
1741	* can return an error if needed); this case is handled further below.
1742	*
1743	* NOTE: this copies the Finder Info data into the "finfo" local.
1744	*/
1745	if (bcmp(name, XATTR_FINDERINFO_NAME, sizeof(XATTR_FINDERINFO_NAME)) == `0`) {
1746	/*
1747	* TODO: check the XATTR_CREATE and XATTR_REPLACE flags.
1748	* That means we probably have to open_xattrfile and get_xattrinfo.
1749	*/
1750	if (uio_offset(uio) != `0` \|\| datalen != FINDERINFOSIZE) {
1751	return EINVAL;
1752	}
1753	error = uiomove(finfo, datalen, uio);
1754	if (error)
1755	return error;
1756	if ((options & (XATTR_CREATE\|XATTR_REPLACE)) == `0` &&
1757	bcmp(finfo, emptyfinfo, FINDERINFOSIZE) == `0`) {
1758	error = default_removexattr(vp, name, `0`, context);
1759	if (error == ENOATTR)
1760	error = `0`;
1761	return error;
1762	}
1763	}
1764
1765	start:
1766	/*
1767	* Open the file locked since setting an attribute
1768	* can change the layout of the Apple Double file.
1769	*/
1770	fileflags = FREAD \| FWRITE \| O_EXLOCK;
1771	if ((error = open_xattrfile(vp, O_CREAT \| fileflags, &xvp, context))) {
1772	return (error);
1773	}
1774	if ((error = get_xattrinfo(xvp, ATTR_SETTING, &ainfo, context))) {
1775	close_xattrfile(xvp, fileflags, context);
1776	return (error);
1777	}
1778
1779	/ Set the Finder Info. /
1780	if (bcmp(name, XATTR_FINDERINFO_NAME, sizeof(XATTR_FINDERINFO_NAME)) == `0`) {
1781	if (ainfo.finderinfo && !ainfo.emptyfinderinfo) {
1782	/ attr exists and "create" was specified? /
1783	if (options & XATTR_CREATE) {
1784	error = EEXIST;
1785	goto out;
1786	}
1787	} else {
1788	/ attr doesn't exists and "replace" was specified? /
1789	if (options & XATTR_REPLACE) {
1790	error = ENOATTR;
1791	goto out;
1792	}
1793	}
1794	if (options != `0` && bcmp(finfo, emptyfinfo, FINDERINFOSIZE) == `0`) {
1795	/*
1796	* Setting the Finder Info to all zeroes is equivalent to
1797	* removing it. Close the xattr file and let
1798	* default_removexattr do the work (including deleting
1799	* the xattr file if there are no other xattrs).
1800	*
1801	* Note that we have to handle the case where the
1802	* Finder Info was already all zeroes, and we ignore
1803	* ENOATTR.
1804	*
1805	* The common case where options == 0 was handled above.
1806	*/
1807	rel_xattrinfo(&ainfo);
1808	close_xattrfile(xvp, fileflags, context);
1809	error = default_removexattr(vp, name, `0`, context);
1810	if (error == ENOATTR)
1811	error = `0`;
1812	return error;
1813	}
1814	if (ainfo.finderinfo) {
1815	attrdata = (u_int8_t *)ainfo.filehdr + ainfo.finderinfo->offset;
1816	bcopy(finfo, attrdata, datalen);
1817	ainfo.iosize = sizeof(attr_header_t);
1818	error = write_xattrinfo(&ainfo);
1819	goto out;
1820	}
1821	error = ENOATTR;
1822	goto out;
1823	}
1824
1825	/ Write the Resource Fork. /
1826	if (bcmp(name, XATTR_RESOURCEFORK_NAME, sizeof(XATTR_RESOURCEFORK_NAME)) == `0`) {
1827	u_int32_t endoffset;
1828
1829	if (!vnode_isreg(vp)) {
1830	error = EPERM;
1831	goto out;
1832	}
1833	/ Make sure we have a rsrc fork pointer.. /
1834	if (ainfo.rsrcfork == NULL) {
1835	error = ENOATTR;
1836	goto out;
1837	}
1838	if (ainfo.rsrcfork) {
1839	if (ainfo.rsrcfork->length != `0`) {
1840	if (options & XATTR_CREATE) {
1841	/ attr exists, and create specified ? /
1842	error = EEXIST;
1843	goto out;
1844	}
1845	}
1846	else {
1847	/ Zero length AD rsrc fork /
1848	if (options & XATTR_REPLACE) {
1849	/ attr doesn't exist (0-length), but replace specified ? /
1850	error = ENOATTR;
1851	goto out;
1852	}
1853	}
1854	}
1855	else {
1856	/ We can't do much if we somehow didn't get an AD rsrc pointer /
1857	error = ENOATTR;
1858	goto out;
1859	}
1860
1861	endoffset = uio_resid(uio) + uio_offset(uio); / new size /
1862	uio_setoffset(uio, uio_offset(uio) + ainfo.rsrcfork->offset);
1863	error = VNOP_WRITE(xvp, uio, `0`, context);
1864	if (error)
1865	goto out;
1866	uio_setoffset(uio, uio_offset(uio) - ainfo.rsrcfork->offset);
1867	if (endoffset > ainfo.rsrcfork->length) {
1868	ainfo.rsrcfork->length = endoffset;
1869	ainfo.iosize = sizeof(attr_header_t);
1870	error = write_xattrinfo(&ainfo);
1871	goto out;
1872	}
1873	goto out;
1874	}
1875
1876	if (datalen > ATTR_MAX_SIZE) {
1877	return (E2BIG); / EINVAL instead ? /
1878	}
1879
1880	if (ainfo.attrhdr == NULL) {
1881	error = ENOATTR;
1882	goto out;
1883	}
1884	header = ainfo.attrhdr;
1885	entry = ainfo.attr_entry;
1886
1887	/ Check if data area crosses the maximum header size. /
1888	if ((header->data_start + header->data_length + entrylen + datalen) > ATTR_MAX_HDR_SIZE)
1889	splitdata = `1`; / do data I/O separately /
1890	else
1891	splitdata = `0`;
1892
1893	/*
1894	* See if attribute already exists.
1895	*/
1896	for (i = `0`; i < header->num_attrs && ATTR_VALID(entry, ainfo); i++) {
1897	if (strncmp((const char *)entry->name, name, namelen) == `0`) {
1898	found = `1`;
1899	break;
1900	}
1901	entry = ATTR_NEXT(entry);
1902	}
1903
1904	if (found) {
1905	if (options & XATTR_CREATE) {
1906	error = EEXIST;
1907	goto out;
1908	}
1909	if (datalen == entry->length) {
1910	if (splitdata) {
1911	uio_setoffset(uio, entry->offset);
1912	error = VNOP_WRITE(xvp, uio, `0`, context);
1913	uio_setoffset(uio, `0`);
1914	if (error) {
1915	printf("setxattr: VNOP_WRITE error %d\n", error);
1916	}
1917	} else {
1918	attrdata = (u_int8_t *)header + entry->offset;
1919	error = uiomove((caddr_t)attrdata, datalen, uio);
1920	if (error)
1921	goto out;
1922	ainfo.iosize = ainfo.attrhdr->data_start + ainfo.attrhdr->data_length;
1923	error = write_xattrinfo(&ainfo);
1924	if (error) {
1925	printf("setxattr: write_xattrinfo error %d\n", error);
1926	}
1927	}
1928	goto out;
1929	} else {
1930	/*
1931	* Brute force approach - just remove old entry and set new entry.
1932	*/
1933	found = `0`;
1934	rel_xattrinfo(&ainfo);
1935	close_xattrfile(xvp, fileflags, context);
1936	error = default_removexattr(vp, name, options, context);
1937	if (error) {
1938	return (error);
1939	}
1940	/ Clear XATTR_REPLACE option since we just removed the attribute. /
1941	options &= ~XATTR_REPLACE;
1942	goto start; / start over /
1943	}
1944
1945	}
1946
1947	if (options & XATTR_REPLACE) {
1948	error = ENOATTR; / nothing there to replace /
1949	goto out;
1950	}
1951	/ Check if header size limit has been reached. /
1952	if ((header->data_start + entrylen) > ATTR_MAX_HDR_SIZE) {
1953	error = ENOSPC;
1954	goto out;
1955	}
1956
1957	datafreespace = header->total_size - (header->data_start + header->data_length);
1958
1959	/ Check if we need more space. /
1960	if ((datalen + entrylen) > datafreespace) {
1961	size_t growsize;
1962
1963	growsize = roundup((datalen + entrylen) - datafreespace, ATTR_BUF_SIZE);
1964
1965	/ Clip roundup size when we can still fit in ATTR_MAX_HDR_SIZE. /
1966	if (!splitdata && (header->total_size + growsize) > ATTR_MAX_HDR_SIZE) {
1967	growsize = ATTR_MAX_HDR_SIZE - header->total_size;
1968	}
1969
1970	ainfo.filesize += growsize;
1971	error = vnode_setsize(xvp, ainfo.filesize, `0`, context);
1972	if (error) {
1973	printf("setxattr: VNOP_TRUNCATE error %d\n", error);
1974	}
1975	if (error)
1976	goto out;
1977
1978	/*
1979	* Move the resource fork out of the way.
1980	*/
1981	if (ainfo.rsrcfork) {
1982	if (ainfo.rsrcfork->length != `0`) {
1983	shift_data_down(xvp,
1984	ainfo.rsrcfork->offset,
1985	ainfo.rsrcfork->length,
1986	growsize, context);
1987	}
1988	ainfo.rsrcfork->offset += growsize;
1989	}
1990	ainfo.finderinfo->length += growsize;
1991	header->total_size += growsize;
1992	}
1993
1994	/ Make space for a new entry. /
1995	if (splitdata) {
1996	shift_data_down(xvp,
1997	header->data_start,
1998	header->data_length,
1999	entrylen, context);
2000	} else {
2001	bcopy((u_int8_t *)header + header->data_start,
2002	(u_int8_t *)header + header->data_start + entrylen,
2003	header->data_length);
2004	}
2005	header->data_start += entrylen;
2006
2007	/ Fix up entry data offsets. /
2008	lastentry = entry;
2009	for (entry = ainfo.attr_entry; entry != lastentry && ATTR_VALID(entry, ainfo); entry = ATTR_NEXT(entry)) {
2010	entry->offset += entrylen;
2011	}
2012
2013	/*
2014	* If the attribute data area is entirely within
2015	* the header buffer, then just update the buffer,
2016	* otherwise we'll write it separately to the file.
2017	*/
2018	if (splitdata) {
2019	off_t offset;
2020
2021	/ Write new attribute data after the end of existing data. /
2022	offset = header->data_start + header->data_length;
2023	uio_setoffset(uio, offset);
2024	error = VNOP_WRITE(xvp, uio, `0`, context);
2025	uio_setoffset(uio, `0`);
2026	if (error) {
2027	printf("setxattr: VNOP_WRITE error %d\n", error);
2028	goto out;
2029	}
2030	} else {
2031	attrdata = (u_int8_t *)header + header->data_start + header->data_length;
2032
2033	error = uiomove((caddr_t)attrdata, datalen, uio);
2034	if (error) {
2035	printf("setxattr: uiomove error %d\n", error);
2036	goto out;
2037	}
2038	}
2039
2040	/ Create the attribute entry. /
2041	lastentry->length = datalen;
2042	lastentry->offset = header->data_start + header->data_length;
2043	lastentry->namelen = namelen;
2044	lastentry->flags = `0`;
2045	bcopy(name, &lastentry->name[`0`], namelen);
2046
2047	/ Update the attributes header. /
2048	header->num_attrs++;
2049	header->data_length += datalen;
2050
2051	if (splitdata) {
2052	/ Only write the entries, since the data was written separately. /
2053	ainfo.iosize = ainfo.attrhdr->data_start;
2054	} else {
2055	/ The entry and data are both in the header; write them together. /
2056	ainfo.iosize = ainfo.attrhdr->data_start + ainfo.attrhdr->data_length;
2057	}
2058	error = write_xattrinfo(&ainfo);
2059	if (error) {
2060	printf("setxattr: write_xattrinfo error %d\n", error);
2061	}
2062
2063	out:
2064	rel_xattrinfo(&ainfo);
2065	close_xattrfile(xvp, fileflags, context);
2066
2067	/ Touch the change time if we changed an attribute. /
2068	if (error == `0`) {
2069	struct vnode_attr va;
2070
2071	/ Re-write the mtime to cause a ctime change. /
2072	VATTR_INIT(&va);
2073	VATTR_WANTED(&va, va_modify_time);
2074	if (vnode_getattr(vp, &va, context) == `0`) {
2075	VATTR_INIT(&va);
2076	VATTR_SET(&va, va_modify_time, va.va_modify_time);
2077	(void) vnode_setattr(vp, &va, context);
2078	}
2079	}
2080
2081	post_event_if_success(vp, error, NOTE_ATTRIB);
2082
2083	return (error);
2084	}
2085
2086
2087	/*
2088	* Remove an extended attribute.
2089	*/
2090	static int
2091	default_removexattr(vnode_t vp, const char name, __unused int* options, vfs_context_t context)
2092	{
2093	vnode_t xvp = NULL;
2094	attr_info_t ainfo;
2095	attr_header_t *header;
2096	attr_entry_t *entry;
2097	attr_entry_t *oldslot;
2098	u_int8_t *attrdata;
2099	u_int32_t dataoff;
2100	size_t datalen;
2101	size_t entrylen;
2102	int namelen;
2103	int found = `0`, lastone = `0`;
2104	int i;
2105	int splitdata;
2106	int attrcount = `0`;
2107	int isrsrcfork;
2108	int fileflags;
2109	int error;
2110
2111	fileflags = FREAD \| FWRITE;
2112	if (strncmp(name, XATTR_RESOURCEFORK_NAME, sizeof(XATTR_RESOURCEFORK_NAME)) == `0`) {
2113	isrsrcfork = `1`;
2114	/*
2115	* Open the file locked (exclusive) since the Carbon
2116	* File Manager may have the Apple Double file open
2117	* and could be changing the resource fork.
2118	*/
2119	fileflags \|= O_EXLOCK;
2120	} else {
2121	isrsrcfork = `0`;
2122	}
2123
2124	if ((error = open_xattrfile(vp, fileflags, &xvp, context))) {
2125	return (error);
2126	}
2127	if ((error = get_xattrinfo(xvp, `0`, &ainfo, context))) {
2128	close_xattrfile(xvp, fileflags, context);
2129	return (error);
2130	}
2131	if (ainfo.attrhdr)
2132	attrcount += ainfo.attrhdr->num_attrs;
2133	if (ainfo.rsrcfork)
2134	++attrcount;
2135	if (ainfo.finderinfo && !ainfo.emptyfinderinfo)
2136	++attrcount;
2137
2138	/ Clear the Finder Info. /
2139	if (strncmp(name, XATTR_FINDERINFO_NAME, sizeof(XATTR_FINDERINFO_NAME)) == `0`) {
2140	if (ainfo.finderinfo == NULL \|\| ainfo.emptyfinderinfo) {
2141	error = ENOATTR;
2142	goto out;
2143	}
2144	/ On removal of last attribute the ._ file is removed. /
2145	if (--attrcount == `0`)
2146	goto out;
2147	attrdata = (u_int8_t *)ainfo.filehdr + ainfo.finderinfo->offset;
2148	bzero((caddr_t)attrdata, FINDERINFOSIZE);
2149	ainfo.iosize = sizeof(attr_header_t);
2150	error = write_xattrinfo(&ainfo);
2151	goto out;
2152	}
2153
2154	/ Clear the Resource Fork. /
2155	if (isrsrcfork) {
2156	if (!vnode_isreg(vp)) {
2157	error = EPERM;
2158	goto out;
2159	}
2160	if (ainfo.rsrcfork == NULL \|\| ainfo.rsrcfork->length == `0`) {
2161	error = ENOATTR;
2162	goto out;
2163	}
2164	/ On removal of last attribute the ._ file is removed. /
2165	if (--attrcount == `0`)
2166	goto out;
2167	/*
2168	* XXX
2169	* If the resource fork isn't the last AppleDouble
2170	* entry then the space needs to be reclaimed by
2171	* shifting the entries after the resource fork.
2172	*/
2173	if ((ainfo.rsrcfork->offset + ainfo.rsrcfork->length) == ainfo.filesize) {
2174	ainfo.filesize -= ainfo.rsrcfork->length;
2175	error = vnode_setsize(xvp, ainfo.filesize, `0`, context);
2176	}
2177	if (error == `0`) {
2178	ainfo.rsrcfork->length = `0`;
2179	ainfo.iosize = sizeof(attr_header_t);
2180	error = write_xattrinfo(&ainfo);
2181	}
2182	goto out;
2183	}
2184
2185	if (ainfo.attrhdr == NULL) {
2186	error = ENOATTR;
2187	goto out;
2188	}
2189	namelen = strlen(name) + `1`;
2190	header = ainfo.attrhdr;
2191	entry = ainfo.attr_entry;
2192
2193	/*
2194	* See if this attribute exists.
2195	*/
2196	for (i = `0`; i < header->num_attrs && ATTR_VALID(entry, ainfo); i++) {
2197	if (strncmp((const char *)entry->name, name, namelen) == `0`) {
2198	found = `1`;
2199	if ((i+`1`) == header->num_attrs)
2200	lastone = `1`;
2201	break;
2202	}
2203	entry = ATTR_NEXT(entry);
2204	}
2205	if (!found) {
2206	error = ENOATTR;
2207	goto out;
2208	}
2209	/ On removal of last attribute the ._ file is removed. /
2210	if (--attrcount == `0`)
2211	goto out;
2212
2213	datalen = entry->length;
2214	dataoff = entry->offset;
2215	entrylen = ATTR_ENTRY_LENGTH(namelen);
2216	if ((header->data_start + header->data_length) > ATTR_MAX_HDR_SIZE)
2217	splitdata = `1`;
2218	else
2219	splitdata = `0`;
2220
2221	/ Remove the attribute entry. /
2222	if (!lastone) {
2223	bcopy((u_int8_t )entry + entrylen, (u_int8_t )entry,
2224	((size_t)header + header->data_start) - ((size_t)entry + entrylen));
2225	}
2226
2227	/ Adjust the attribute data. /
2228	if (splitdata) {
2229	shift_data_up(xvp,
2230	header->data_start,
2231	dataoff - header->data_start,
2232	entrylen,
2233	context);
2234	if (!lastone) {
2235	shift_data_up(xvp,
2236	dataoff + datalen,
2237	(header->data_start + header->data_length) - (dataoff + datalen),
2238	datalen + entrylen,
2239	context);
2240	}
2241	/ XXX write zeros to freed space ? /
2242	ainfo.iosize = ainfo.attrhdr->data_start - entrylen;
2243	} else {
2244
2245
2246	bcopy((u_int8_t *)header + header->data_start,
2247	(u_int8_t *)header + header->data_start - entrylen,
2248	dataoff - header->data_start);
2249	if (!lastone) {
2250	bcopy((u_int8_t *)header + dataoff + datalen,
2251	(u_int8_t *)header + dataoff - entrylen,
2252	(header->data_start + header->data_length) - (dataoff + datalen));
2253	}
2254	bzero (((u_int8_t *)header + header->data_start + header->data_length) - (datalen + entrylen), (datalen + entrylen));
2255	ainfo.iosize = ainfo.attrhdr->data_start + ainfo.attrhdr->data_length;
2256	}
2257
2258	/ Adjust the header values and entry offsets. /
2259	header->num_attrs--;
2260	header->data_start -= entrylen;
2261	header->data_length -= datalen;
2262
2263	oldslot = entry;
2264	entry = ainfo.attr_entry;
2265	for (i = `0`; i < header->num_attrs && ATTR_VALID(entry, ainfo); i++) {
2266	entry->offset -= entrylen;
2267	if (entry >= oldslot)
2268	entry->offset -= datalen;
2269	entry = ATTR_NEXT(entry);
2270	}
2271	error = write_xattrinfo(&ainfo);
2272	if (error) {
2273	printf("removexattr: write_xattrinfo error %d\n", error);
2274	}
2275	out:
2276	rel_xattrinfo(&ainfo);
2277
2278	/ When there are no more attributes remove the ._ file. /
2279	if (attrcount == `0`) {
2280	if (fileflags & O_EXLOCK)
2281	(void) unlock_xattrfile(xvp, context);
2282	VNOP_CLOSE(xvp, fileflags, context);
2283	vnode_rele(xvp);
2284	error = remove_xattrfile(xvp, context);
2285	vnode_put(xvp);
2286	} else {
2287	close_xattrfile(xvp, fileflags, context);
2288	}
2289	/ Touch the change time if we changed an attribute. /
2290	if (error == `0`) {
2291	struct vnode_attr va;
2292
2293	/ Re-write the mtime to cause a ctime change. /
2294	VATTR_INIT(&va);
2295	VATTR_WANTED(&va, va_modify_time);
2296	if (vnode_getattr(vp, &va, context) == `0`) {
2297	VATTR_INIT(&va);
2298	VATTR_SET(&va, va_modify_time, va.va_modify_time);
2299	(void) vnode_setattr(vp, &va, context);
2300	}
2301	}
2302
2303	post_event_if_success(vp, error, NOTE_ATTRIB);
2304
2305	return (error);
2306
2307	}
2308
2309
2310	/*
2311	* Retrieve the list of extended attribute names.
2312	*/
2313	static int
2314	default_listxattr(vnode_t vp, uio_t uio, size_t size, __unused int* options, vfs_context_t context)
2315	{
2316	vnode_t xvp = NULL;
2317	attr_info_t ainfo;
2318	attr_entry_t *entry;
2319	int i, count;
2320	int error;
2321
2322	/*
2323	* We do not zero "*size" here as we don't want to stomp a size set when
2324	* VNOP_LISTXATTR processed any native EAs. That size is initially zeroed by the
2325	* system call layer, up in listxattr or flistxattr.
2326	*/
2327
2328	if ((error = open_xattrfile(vp, FREAD, &xvp, context))) {
2329	if (error == ENOATTR)
2330	error = `0`;
2331	return (error);
2332	}
2333	if ((error = get_xattrinfo(xvp, `0`, &ainfo, context))) {
2334	if (error == ENOATTR)
2335	error = `0`;
2336	close_xattrfile(xvp, FREAD, context);
2337	return (error);
2338	}
2339
2340	/ Check for Finder Info. /
2341	if (ainfo.finderinfo && !ainfo.emptyfinderinfo) {
2342	if (uio == NULL) {
2343	size += sizeof*(XATTR_FINDERINFO_NAME);
2344	} else if (uio_resid(uio) < (user_ssize_t)sizeof(XATTR_FINDERINFO_NAME)) {
2345	error = ERANGE;
2346	goto out;
2347	} else {
2348	error = uiomove(XATTR_FINDERINFO_NAME,
2349	sizeof(XATTR_FINDERINFO_NAME), uio);
2350	if (error) {
2351	error = ERANGE;
2352	goto out;
2353	}
2354	}
2355	}
2356
2357	/ Check for Resource Fork. /
2358	if (vnode_isreg(vp) && ainfo.rsrcfork) {
2359	if (uio == NULL) {
2360	size += sizeof*(XATTR_RESOURCEFORK_NAME);
2361	} else if (uio_resid(uio) < (user_ssize_t)sizeof(XATTR_RESOURCEFORK_NAME)) {
2362	error = ERANGE;
2363	goto out;
2364	} else {
2365	error = uiomove(XATTR_RESOURCEFORK_NAME,
2366	sizeof(XATTR_RESOURCEFORK_NAME), uio);
2367	if (error) {
2368	error = ERANGE;
2369	goto out;
2370	}
2371	}
2372	}
2373
2374	/ Check for attributes. /
2375	if (ainfo.attrhdr) {
2376	count = ainfo.attrhdr->num_attrs;
2377	for (i = `0`, entry = ainfo.attr_entry; i < count && ATTR_VALID(entry, ainfo); i++) {
2378	if (xattr_protected((const char *)entry->name) \|\|
2379	((entry->namelen < XATTR_MAXNAMELEN) &&
2380	(entry->name[entry->namelen] == `'\0'`) &&
2381	(xattr_validatename((const char *)entry->name) != `0`))) {
2382	entry = ATTR_NEXT(entry);
2383	continue;
2384	}
2385	if (uio == NULL) {
2386	*size += entry->namelen;
2387	entry = ATTR_NEXT(entry);
2388	continue;
2389	}
2390	if (uio_resid(uio) < entry->namelen) {
2391	error = ERANGE;
2392	break;
2393	}
2394	error = uiomove((caddr_t) entry->name, entry->namelen, uio);
2395	if (error) {
2396	if (error != EFAULT)
2397	error = ERANGE;
2398	break;
2399	}
2400	entry = ATTR_NEXT(entry);
2401	}
2402	}
2403	out:
2404	rel_xattrinfo(&ainfo);
2405	close_xattrfile(xvp, FREAD, context);
2406
2407	return (error);
2408	}
2409
2410	static int
2411	open_xattrfile(vnode_t vp, int fileflags, vnode_t *xvpp, vfs_context_t context)
2412	{
2413	vnode_t xvp = NULLVP;
2414	vnode_t dvp = NULLVP;
2415	struct vnode_attr va;
2416	struct nameidata nd;
2417	char smallname[`64`];
2418	char *filename = NULL;
2419	const char *basename = NULL;
2420	size_t len;
2421	errno_t error;
2422	int opened = `0`;
2423	int referenced = `0`;
2424
2425	if (vnode_isvroot(vp) && vnode_isdir(vp)) {
2426	/*
2427	* For the root directory use "._." to hold the attributes.
2428	*/
2429	filename = &smallname[`0`];
2430	snprintf(filename, sizeof(smallname), "%s%s", ATTR_FILE_PREFIX, ".");
2431	dvp = vp; / the "._." file resides in the root dir /
2432	goto lookup;
2433	}
2434	if ( (dvp = vnode_getparent(vp)) == NULLVP) {
2435	error = ENOATTR;
2436	goto out;
2437	}
2438	if ( (basename = vnode_getname(vp)) == NULL) {
2439	error = ENOATTR;
2440	goto out;
2441	}
2442
2443	/ "._" Attribute files cannot have attributes /
2444	if (vp->v_type == VREG && strlen(basename) > `2` &&
2445	basename[`0`] == `'.'` && basename[`1`] == `'_'`) {
2446	error = EPERM;
2447	goto out;
2448	}
2449	filename = &smallname[`0`];
2450	len = snprintf(filename, sizeof(smallname), "%s%s", ATTR_FILE_PREFIX, basename);
2451	if (len >= sizeof(smallname)) {
2452	len++; / snprintf result doesn't include '\0' /
2453	MALLOC(filename, char *, len, M_TEMP, M_WAITOK);
2454	len = snprintf(filename, len, "%s%s", ATTR_FILE_PREFIX, basename);
2455	}
2456	/*
2457	* Note that the lookup here does not authorize. Since we are looking
2458	* up in the same directory that we already have the file vnode in,
2459	* we must have been given the file vnode legitimately. Read/write
2460	* access has already been authorized in layers above for calls from
2461	* userspace, and the authorization code using this path to read
2462	* file security from the EA must always get access
2463	*/
2464	lookup:
2465	NDINIT(&nd, LOOKUP, OP_OPEN, LOCKLEAF \| NOFOLLOW \| USEDVP \| DONOTAUTH,
2466	UIO_SYSSPACE, CAST_USER_ADDR_T(filename), context);
2467	nd.ni_dvp = dvp;
2468
2469	if (fileflags & O_CREAT) {
2470	nd.ni_cnd.cn_nameiop = CREATE;
2471	#if CONFIG_TRIGGERS
2472	nd.ni_op = OP_LINK;
2473	#endif
2474	if (dvp != vp) {
2475	nd.ni_cnd.cn_flags \|= LOCKPARENT;
2476	}
2477	if ( (error = namei(&nd))) {
2478	nd.ni_dvp = NULLVP;
2479	error = ENOATTR;
2480	goto out;
2481	}
2482	if ( (xvp = nd.ni_vp) == NULLVP) {
2483	uid_t uid;
2484	gid_t gid;
2485	mode_t umode;
2486
2487	/*
2488	* Pick up uid/gid/mode from target file.
2489	*/
2490	VATTR_INIT(&va);
2491	VATTR_WANTED(&va, va_uid);
2492	VATTR_WANTED(&va, va_gid);
2493	VATTR_WANTED(&va, va_mode);
2494	if (VNOP_GETATTR(vp, &va, context) == `0` &&
2495	VATTR_IS_SUPPORTED(&va, va_uid) &&
2496	VATTR_IS_SUPPORTED(&va, va_gid) &&
2497	VATTR_IS_SUPPORTED(&va, va_mode)) {
2498	uid = va.va_uid;
2499	gid = va.va_gid;
2500	umode = va.va_mode & (S_IRUSR\|S_IWUSR\|S_IRGRP\|S_IWGRP\|S_IROTH\|S_IWOTH);
2501	} else / fallback values / {
2502	uid = KAUTH_UID_NONE;
2503	gid = KAUTH_GID_NONE;
2504	umode = S_IRUSR\|S_IWUSR\|S_IRGRP\|S_IROTH;
2505	}
2506
2507	VATTR_INIT(&va);
2508	VATTR_SET(&va, va_type, VREG);
2509	VATTR_SET(&va, va_mode, umode);
2510	if (uid != KAUTH_UID_NONE)
2511	VATTR_SET(&va, va_uid, uid);
2512	if (gid != KAUTH_GID_NONE)
2513	VATTR_SET(&va, va_gid, gid);
2514
2515	error = vn_create(dvp, &nd.ni_vp, &nd, &va,
2516	VN_CREATE_NOAUTH \| VN_CREATE_NOINHERIT \| VN_CREATE_NOLABEL,
2517	`0`, NULL,
2518	context);
2519	if (error)
2520	error = ENOATTR;
2521	else
2522	xvp = nd.ni_vp;
2523	}
2524	nameidone(&nd);
2525	if (dvp != vp) {
2526	vnode_put(dvp); / drop iocount from LOCKPARENT request above /
2527	}
2528	if (error)
2529	goto out;
2530	} else {
2531	if ((error = namei(&nd))) {
2532	nd.ni_dvp = NULLVP;
2533	error = ENOATTR;
2534	goto out;
2535	}
2536	xvp = nd.ni_vp;
2537	nameidone(&nd);
2538	}
2539	nd.ni_dvp = NULLVP;
2540
2541	if (xvp->v_type != VREG) {
2542	error = ENOATTR;
2543	goto out;
2544	}
2545	/*
2546	* Owners must match.
2547	*/
2548	VATTR_INIT(&va);
2549	VATTR_WANTED(&va, va_uid);
2550	if (VNOP_GETATTR(vp, &va, context) == `0` && VATTR_IS_SUPPORTED(&va, va_uid)) {
2551	uid_t owner = va.va_uid;
2552
2553	VATTR_INIT(&va);
2554	VATTR_WANTED(&va, va_uid);
2555	if (VNOP_GETATTR(xvp, &va, context) == `0` && (owner != va.va_uid)) {
2556	error = ENOATTR; / don't use this "._" file /
2557	goto out;
2558	}
2559	}
2560
2561	if ( (error = VNOP_OPEN(xvp, fileflags & ~(O_EXLOCK \| O_SHLOCK), context))) {
2562	error = ENOATTR;
2563	goto out;
2564	}
2565	opened = `1`;
2566
2567	if ((error = vnode_ref(xvp))) {
2568	goto out;
2569	}
2570	referenced = `1`;
2571
2572	/ If create was requested, make sure file header exists. /
2573	if (fileflags & O_CREAT) {
2574	VATTR_INIT(&va);
2575	VATTR_WANTED(&va, va_data_size);
2576	VATTR_WANTED(&va, va_fileid);
2577	VATTR_WANTED(&va, va_nlink);
2578	if ( (error = vnode_getattr(xvp, &va, context)) != `0`) {
2579	error = EPERM;
2580	goto out;
2581	}
2582
2583	/ If the file is empty then add a default header. /
2584	if (va.va_data_size == `0`) {
2585	/ Don't adopt hard-linked "._" files. /
2586	if (VATTR_IS_SUPPORTED(&va, va_nlink) && va.va_nlink > `1`) {
2587	error = EPERM;
2588	goto out;
2589	}
2590	if ( (error = create_xattrfile(xvp, (u_int32_t)va.va_fileid, context)))
2591	goto out;
2592	}
2593	}
2594	/ Apply file locking if requested. /
2595	if (fileflags & (O_EXLOCK \| O_SHLOCK)) {
2596	short locktype;
2597
2598	locktype = (fileflags & O_EXLOCK) ? F_WRLCK : F_RDLCK;
2599	error = lock_xattrfile(xvp, locktype, context);
2600	if (error)
2601	error = ENOATTR;
2602	}
2603	out:
2604	if (error) {
2605	if (xvp != NULLVP) {
2606	if (opened) {
2607	(void) VNOP_CLOSE(xvp, fileflags, context);
2608	}
2609
2610	if (fileflags & O_CREAT) {
2611	/ Delete the xattr file if we encountered any errors /
2612	(void) remove_xattrfile (xvp, context);
2613	}
2614
2615	if (referenced) {
2616	(void) vnode_rele(xvp);
2617	}
2618	(void) vnode_put(xvp);
2619	xvp = NULLVP;
2620	}
2621	if ((error == ENOATTR) && (fileflags & O_CREAT)) {
2622	error = EPERM;
2623	}
2624	}
2625	/ Release resources after error-handling /
2626	if (dvp && (dvp != vp)) {
2627	vnode_put(dvp);
2628	}
2629	if (basename) {
2630	vnode_putname(basename);
2631	}
2632	if (filename && filename != &smallname[`0`]) {
2633	FREE(filename, M_TEMP);
2634	}
2635
2636	xvpp = xvp; /* return a referenced vnode /
2637	return (error);
2638	}
2639
2640	static void
2641	close_xattrfile(vnode_t xvp, int fileflags, vfs_context_t context)
2642	{
2643	// if (fileflags & FWRITE)
2644	// (void) VNOP_FSYNC(xvp, MNT_WAIT, context);
2645
2646	if (fileflags & (O_EXLOCK \| O_SHLOCK))
2647	(void) unlock_xattrfile(xvp, context);
2648
2649	(void) VNOP_CLOSE(xvp, fileflags, context);
2650	(void) vnode_rele(xvp);
2651	(void) vnode_put(xvp);
2652	}
2653
2654	static int
2655	remove_xattrfile(vnode_t xvp, vfs_context_t context)
2656	{
2657	vnode_t dvp;
2658	struct nameidata nd;
2659	char *path = NULL;
2660	int pathlen;
2661	int error = `0`;
2662
2663	MALLOC_ZONE(path, char *, MAXPATHLEN, M_NAMEI, M_WAITOK);
2664	if (path == NULL)
2665	return ENOMEM;
2666
2667	pathlen = MAXPATHLEN;
2668	error = vn_getpath(xvp, path, &pathlen);
2669	if (error) {
2670	FREE_ZONE(path, MAXPATHLEN, M_NAMEI);
2671	return (error);
2672	}
2673
2674	NDINIT(&nd, DELETE, OP_UNLINK, LOCKPARENT \| NOFOLLOW \| DONOTAUTH,
2675	UIO_SYSSPACE, CAST_USER_ADDR_T(path), context);
2676	error = namei(&nd);
2677	FREE_ZONE(path, MAXPATHLEN, M_NAMEI);
2678	if (error) {
2679	return (error);
2680	}
2681	dvp = nd.ni_dvp;
2682	xvp = nd.ni_vp;
2683
2684	error = VNOP_REMOVE(dvp, xvp, &nd.ni_cnd, `0`, context);
2685	nameidone(&nd);
2686	vnode_put(dvp);
2687	vnode_put(xvp);
2688
2689	return (error);
2690	}
2691
2692	/*
2693	* Read in and parse the AppleDouble header and entries, and the extended
2694	* attribute header and entries if any. Populates the fields of ainfop
2695	* based on the headers and entries found.
2696	*
2697	* The basic idea is to:
2698	* - Read in up to ATTR_MAX_HDR_SIZE bytes of the start of the file. All
2699	* AppleDouble entries, the extended attribute header, and extended
2700	* attribute entries must lie within this part of the file; the rest of
2701	* the AppleDouble handling code assumes this. Plus it allows us to
2702	* somewhat optimize by doing a smaller number of larger I/Os.
2703	* - Swap and sanity check the AppleDouble header (including the AppleDouble
2704	* entries).
2705	* - Find the Finder Info and Resource Fork entries, if any.
2706	* - If we're going to be writing, try to make sure the Finder Info entry has
2707	* room to store the extended attribute header, plus some space for extended
2708	* attributes.
2709	* - Swap and sanity check the extended attribute header and entries (if any).
2710	*/
2711	static int
2712	get_xattrinfo(vnode_t xvp, int setting, attr_info_t *ainfop, vfs_context_t context)
2713	{
2714	uio_t auio = NULL;
2715	void * buffer = NULL;
2716	apple_double_header_t *filehdr;
2717	struct vnode_attr va;
2718	size_t iosize;
2719	int i;
2720	int error;
2721
2722	bzero(ainfop, sizeof(attr_info_t));
2723	ainfop->filevp = xvp;
2724	ainfop->context = context;
2725	VATTR_INIT(&va);
2726	VATTR_WANTED(&va, va_data_size);
2727	VATTR_WANTED(&va, va_fileid);
2728	if ((error = vnode_getattr(xvp, &va, context))) {
2729	goto bail;
2730	}
2731	ainfop->filesize = va.va_data_size;
2732
2733	/ When setting attributes, allow room for the header to grow. /
2734	if (setting)
2735	iosize = ATTR_MAX_HDR_SIZE;
2736	else
2737	iosize = MIN(ATTR_MAX_HDR_SIZE, ainfop->filesize);
2738
2739	if (iosize == `0`) {
2740	error = ENOATTR;
2741	goto bail;
2742	}
2743	ainfop->iosize = iosize;
2744	MALLOC(buffer, void *, iosize, M_TEMP, M_WAITOK);
2745	if (buffer == NULL){
2746	error = ENOMEM;
2747	goto bail;
2748	}
2749
2750	auio = uio_create(`1`, `0`, UIO_SYSSPACE, UIO_READ);
2751	uio_addiov(auio, (uintptr_t)buffer, iosize);
2752
2753	/ Read the file header. /
2754	error = VNOP_READ(xvp, auio, `0`, context);
2755	if (error) {
2756	goto bail;
2757	}
2758	ainfop->rawsize = iosize - uio_resid(auio);
2759	ainfop->rawdata = (u_int8_t *)buffer;
2760
2761	filehdr = (apple_double_header_t *)buffer;
2762
2763	error = check_and_swap_apple_double_header(ainfop);
2764	if (error)
2765	goto bail;
2766
2767	ainfop->filehdr = filehdr; / valid AppleDouble header /
2768
2769	/ rel_xattrinfo is responsible for freeing the header buffer /
2770	buffer = NULL;
2771
2772	/ Find the Finder Info and Resource Fork entries, if any /
2773	for (i = `0`; i < filehdr->numEntries; ++i) {
2774	if (filehdr->entries[i].type == AD_FINDERINFO &&
2775	filehdr->entries[i].length >= FINDERINFOSIZE) {
2776	/ We found the Finder Info entry. /
2777	ainfop->finderinfo = &filehdr->entries[i];
2778
2779	/*
2780	* Is the Finder Info "empty" (all zeroes)? If so,
2781	* we'll pretend like the Finder Info extended attribute
2782	* does not exist.
2783	*
2784	* Note: we have to make sure the Finder Info is
2785	* contained within the buffer we have already read,
2786	* to avoid accidentally accessing a bogus address.
2787	* If it is outside the buffer, we just assume the
2788	* Finder Info is non-empty.
2789	*/
2790	if (ainfop->finderinfo->offset + FINDERINFOSIZE <= ainfop->rawsize &&
2791	bcmp((u_int8_t)ainfop->filehdr + ainfop->finderinfo->offset, emptyfinfo, sizeof*(emptyfinfo)) == `0`) {
2792	ainfop->emptyfinderinfo = `1`;
2793	}
2794	}
2795	if (filehdr->entries[i].type == AD_RESOURCE) {
2796	/*
2797	* Ignore zero-length resource forks when getting. If setting,
2798	* we need to remember the resource fork entry so it can be
2799	* updated once the new content has been written.
2800	*/
2801	if (filehdr->entries[i].length == `0` && !setting)
2802	continue;
2803
2804	/*
2805	* Check to see if any "empty" resource fork is ours (i.e. is ignorable).
2806	*
2807	* The "empty" resource headers we created have a system data tag of:
2808	* "This resource fork intentionally left blank "
2809	*/
2810	if (filehdr->entries[i].length == sizeof(rsrcfork_header_t) && !setting) {
2811	uio_t rf_uio;
2812	u_int8_t systemData[`64`];
2813	int rf_err;
2814
2815
2816	/ Read the system data which starts at byte 16 /
2817	rf_uio = uio_create(`1`, `0`, UIO_SYSSPACE, UIO_READ);
2818	uio_addiov(rf_uio, (uintptr_t)systemData, sizeof(systemData));
2819	uio_setoffset(rf_uio, filehdr->entries[i].offset + `16`);
2820	rf_err = VNOP_READ(xvp, rf_uio, `0`, context);
2821	uio_free(rf_uio);
2822
2823	if (rf_err != `0` \|\|
2824	bcmp(systemData, RF_EMPTY_TAG, sizeof(RF_EMPTY_TAG)) == `0`) {
2825	continue; / skip this resource fork /
2826	}
2827	}
2828	ainfop->rsrcfork = &filehdr->entries[i];
2829	if (i != (filehdr->numEntries - `1`)) {
2830	printf("get_xattrinfo: resource fork not last entry\n");
2831	ainfop->readonly = `1`;
2832	}
2833	continue;
2834	}
2835	}
2836
2837	/*
2838	* See if this file looks like it is laid out correctly to contain
2839	* extended attributes. If so, then do the following:
2840	*
2841	* - If we're going to be writing, try to make sure the Finder Info
2842	* entry has room to store the extended attribute header, plus some
2843	* space for extended attributes.
2844	*
2845	* - Swap and sanity check the extended attribute header and entries
2846	* (if any).
2847	*/
2848	if (filehdr->numEntries == `2` &&
2849	ainfop->finderinfo == &filehdr->entries[`0`] &&
2850	ainfop->rsrcfork == &filehdr->entries[`1`] &&
2851	ainfop->finderinfo->offset == offsetof(apple_double_header_t, finfo)) {
2852	attr_header_t *attrhdr;
2853	attrhdr = (attr_header_t *)filehdr;
2854	/*
2855	* If we're going to be writing, try to make sure the Finder
2856	* Info entry has room to store the extended attribute header,
2857	* plus some space for extended attributes.
2858	*/
2859	if (setting && ainfop->finderinfo->length == FINDERINFOSIZE) {
2860	size_t delta;
2861	size_t writesize;
2862
2863	delta = ATTR_BUF_SIZE - (filehdr->entries[`0`].offset + FINDERINFOSIZE);
2864	if (ainfop->rsrcfork && filehdr->entries[`1`].length) {
2865	/ Make some room before existing resource fork. /
2866	shift_data_down(xvp,
2867	filehdr->entries[`1`].offset,
2868	filehdr->entries[`1`].length,
2869	delta, context);
2870	writesize = sizeof(attr_header_t);
2871	} else {
2872	/ Create a new, empty resource fork. /
2873	rsrcfork_header_t *rsrcforkhdr;
2874
2875	vnode_setsize(xvp, filehdr->entries[`1`].offset + delta, `0`, context);
2876
2877	/ Steal some space for an empty RF header. /
2878	delta -= sizeof(rsrcfork_header_t);
2879
2880	bzero(&attrhdr->appledouble.pad[`0`], delta);
2881	rsrcforkhdr = (rsrcfork_header_t )((char* *)filehdr + filehdr->entries[`1`].offset + delta);
2882
2883	/ Fill in Empty Resource Fork Header. /
2884	init_empty_resource_fork(rsrcforkhdr);
2885
2886	filehdr->entries[`1`].length = sizeof(rsrcfork_header_t);
2887	writesize = ATTR_BUF_SIZE;
2888	}
2889	filehdr->entries[`0`].length += delta;
2890	filehdr->entries[`1`].offset += delta;
2891
2892	/ Fill in Attribute Header. /
2893	attrhdr->magic = ATTR_HDR_MAGIC;
2894	attrhdr->debug_tag = (u_int32_t)va.va_fileid;
2895	attrhdr->total_size = filehdr->entries[`1`].offset;
2896	attrhdr->data_start = sizeof(attr_header_t);
2897	attrhdr->data_length = `0`;
2898	attrhdr->reserved[`0`] = `0`;
2899	attrhdr->reserved[`1`] = `0`;
2900	attrhdr->reserved[`2`] = `0`;
2901	attrhdr->flags = `0`;
2902	attrhdr->num_attrs = `0`;
2903
2904	/ Push out new header /
2905	uio_reset(auio, `0`, UIO_SYSSPACE, UIO_WRITE);
2906	uio_addiov(auio, (uintptr_t)filehdr, writesize);
2907
2908	swap_adhdr(filehdr); / to big endian /
2909	swap_attrhdr(attrhdr, ainfop); / to big endian /
2910	error = VNOP_WRITE(xvp, auio, `0`, context);
2911	swap_adhdr(filehdr); / back to native /
2912	/ The attribute header gets swapped below. /
2913	}
2914	}
2915	/*
2916	* Swap and sanity check the extended attribute header and
2917	* entries (if any). The Finder Info content must be big enough
2918	* to include the extended attribute header; if not, we just
2919	* ignore it.
2920	*
2921	* Note that we're passing the offset + length (i.e. the end)
2922	* of the Finder Info instead of rawsize to validate_attrhdr.
2923	* This ensures that all extended attributes lie within the
2924	* Finder Info content according to the AppleDouble entry.
2925	*
2926	* Sets ainfop->attrhdr and ainfop->attr_entry if a valid
2927	* header was found.
2928	*/
2929	if (ainfop->finderinfo &&
2930	ainfop->finderinfo == &filehdr->entries[`0`] &&
2931	ainfop->finderinfo->length >= (sizeof(attr_header_t) - sizeof(apple_double_header_t))) {
2932	attr_header_t attrhdr = (attr_header_t)filehdr;
2933
2934	if ((error = check_and_swap_attrhdr(attrhdr, ainfop)) == `0`) {
2935	ainfop->attrhdr = attrhdr; / valid attribute header /
2936	/ First attr_entry starts immediately following attribute header /
2937	ainfop->attr_entry = (attr_entry_t *)&attrhdr[`1`];
2938	}
2939	}
2940
2941	error = `0`;
2942	bail:
2943	if (auio != NULL)
2944	uio_free(auio);
2945	if (buffer != NULL)
2946	FREE(buffer, M_TEMP);
2947	return (error);
2948	}
2949
2950
2951	static int
2952	create_xattrfile(vnode_t xvp, u_int32_t fileid, vfs_context_t context)
2953	{
2954	attr_header_t *xah;
2955	rsrcfork_header_t *rsrcforkhdr;
2956	void * buffer;
2957	uio_t auio;
2958	int rsrcforksize;
2959	int error;
2960
2961	MALLOC(buffer, void *, ATTR_BUF_SIZE, M_TEMP, M_WAITOK);
2962	bzero(buffer, ATTR_BUF_SIZE);
2963
2964	xah = (attr_header_t *)buffer;
2965	auio = uio_create(`1`, `0`, UIO_SYSSPACE, UIO_WRITE);
2966	uio_addiov(auio, (uintptr_t)buffer, ATTR_BUF_SIZE);
2967	rsrcforksize = sizeof(rsrcfork_header_t);
2968	rsrcforkhdr = (rsrcfork_header_t ) ((char* *)buffer + ATTR_BUF_SIZE - rsrcforksize);
2969
2970	/ Fill in Apple Double Header. /
2971	xah->appledouble.magic = SWAP32 (ADH_MAGIC);
2972	xah->appledouble.version = SWAP32 (ADH_VERSION);
2973	xah->appledouble.numEntries = SWAP16 (`2`);
2974	xah->appledouble.entries[`0`].type = SWAP32 (AD_FINDERINFO);
2975	xah->appledouble.entries[`0`].offset = SWAP32 (offsetof(apple_double_header_t, finfo));
2976	xah->appledouble.entries[`0`].length = SWAP32 (ATTR_BUF_SIZE - offsetof(apple_double_header_t, finfo) - rsrcforksize);
2977	xah->appledouble.entries[`1`].type = SWAP32 (AD_RESOURCE);
2978	xah->appledouble.entries[`1`].offset = SWAP32 (ATTR_BUF_SIZE - rsrcforksize);
2979	xah->appledouble.entries[`1`].length = SWAP32 (rsrcforksize);
2980	bcopy(ADH_MACOSX, xah->appledouble.filler, sizeof(xah->appledouble.filler));
2981
2982	/ Fill in Attribute Header. /
2983	xah->magic = SWAP32 (ATTR_HDR_MAGIC);
2984	xah->debug_tag = SWAP32 (fileid);
2985	xah->total_size = SWAP32 (ATTR_BUF_SIZE - rsrcforksize);
2986	xah->data_start = SWAP32 (sizeof(attr_header_t));
2987
2988	/ Fill in Empty Resource Fork Header. /
2989	init_empty_resource_fork(rsrcforkhdr);
2990
2991	/ Push it out. /
2992	error = VNOP_WRITE(xvp, auio, IO_UNIT, context);
2993
2994	/ Did we write out the full uio? /
2995	if (uio_resid(auio) > `0`) {
2996	error = ENOSPC;
2997	}
2998
2999	uio_free(auio);
3000	FREE(buffer, M_TEMP);
3001
3002	return (error);
3003	}
3004
3005	static void
3006	init_empty_resource_fork(rsrcfork_header_t * rsrcforkhdr)
3007	{
3008	bzero(rsrcforkhdr, sizeof(rsrcfork_header_t));
3009	rsrcforkhdr->fh_DataOffset = SWAP32 (RF_FIRST_RESOURCE);
3010	rsrcforkhdr->fh_MapOffset = SWAP32 (RF_FIRST_RESOURCE);
3011	rsrcforkhdr->fh_MapLength = SWAP32 (RF_NULL_MAP_LENGTH);
3012	rsrcforkhdr->mh_DataOffset = SWAP32 (RF_FIRST_RESOURCE);
3013	rsrcforkhdr->mh_MapOffset = SWAP32 (RF_FIRST_RESOURCE);
3014	rsrcforkhdr->mh_MapLength = SWAP32 (RF_NULL_MAP_LENGTH);
3015	rsrcforkhdr->mh_Types = SWAP16 (RF_NULL_MAP_LENGTH - `2` );
3016	rsrcforkhdr->mh_Names = SWAP16 (RF_NULL_MAP_LENGTH);
3017	rsrcforkhdr->typeCount = SWAP16 (-`1`);
3018	bcopy(RF_EMPTY_TAG, rsrcforkhdr->systemData, sizeof(RF_EMPTY_TAG));
3019	}
3020
3021	static void
3022	rel_xattrinfo(attr_info_t *ainfop)
3023	{
3024	FREE(ainfop->filehdr, M_TEMP);
3025	bzero(ainfop, sizeof(attr_info_t));
3026	}
3027
3028	static int
3029	write_xattrinfo(attr_info_t *ainfop)
3030	{
3031	uio_t auio;
3032	int error;
3033
3034	auio = uio_create(`1`, `0`, UIO_SYSSPACE, UIO_WRITE);
3035	uio_addiov(auio, (uintptr_t)ainfop->filehdr, ainfop->iosize);
3036
3037	swap_adhdr(ainfop->filehdr);
3038	if (ainfop->attrhdr != NULL) {
3039	swap_attrhdr(ainfop->attrhdr, ainfop);
3040	}
3041
3042	error = VNOP_WRITE(ainfop->filevp, auio, `0`, ainfop->context);
3043
3044	swap_adhdr(ainfop->filehdr);
3045	if (ainfop->attrhdr != NULL) {
3046	swap_attrhdr(ainfop->attrhdr, ainfop);
3047	}
3048	uio_free(auio);
3049
3050	return (error);
3051	}
3052
3053	#if BYTE_ORDER == LITTLE_ENDIAN
3054	/*
3055	* Endian swap apple double header
3056	*/
3057	static void
3058	swap_adhdr(apple_double_header_t *adh)
3059	{
3060	int count;
3061	int i;
3062
3063	count = (adh->magic == ADH_MAGIC) ? adh->numEntries : SWAP16(adh->numEntries);
3064
3065	adh->magic = SWAP32 (adh->magic);
3066	adh->version = SWAP32 (adh->version);
3067	adh->numEntries = SWAP16 (adh->numEntries);
3068
3069	for (i = `0`; i < count; i++) {
3070	adh->entries[i].type = SWAP32 (adh->entries[i].type);
3071	adh->entries[i].offset = SWAP32 (adh->entries[i].offset);
3072	adh->entries[i].length = SWAP32 (adh->entries[i].length);
3073	}
3074	}
3075
3076	/*
3077	* Endian swap extended attributes header
3078	*/
3079	static void
3080	swap_attrhdr(attr_header_t ah, attr_info_t info)
3081	{
3082	attr_entry_t *ae;
3083	int count;
3084	int i;
3085
3086	count = (ah->magic == ATTR_HDR_MAGIC) ? ah->num_attrs : SWAP16(ah->num_attrs);
3087
3088	ah->magic = SWAP32 (ah->magic);
3089	ah->debug_tag = SWAP32 (ah->debug_tag);
3090	ah->total_size = SWAP32 (ah->total_size);
3091	ah->data_start = SWAP32 (ah->data_start);
3092	ah->data_length = SWAP32 (ah->data_length);
3093	ah->flags = SWAP16 (ah->flags);
3094	ah->num_attrs = SWAP16 (ah->num_attrs);
3095
3096	ae = (attr_entry_t *)(&ah[`1`]);
3097	for (i = `0`; i < count && ATTR_VALID(ae, *info); i++, ae = ATTR_NEXT(ae)) {
3098	ae->offset = SWAP32 (ae->offset);
3099	ae->length = SWAP32 (ae->length);
3100	ae->flags = SWAP16 (ae->flags);
3101	}
3102	}
3103	#endif
3104
3105	/*
3106	* Validate and swap the attributes header contents, and each attribute's
3107	* attr_entry_t.
3108	*
3109	* Note: Assumes the caller has verified that the Finder Info content is large
3110	* enough to contain the attr_header structure itself. Therefore, we can
3111	* swap the header fields before sanity checking them.
3112	*/
3113	static int
3114	check_and_swap_attrhdr(attr_header_t ah, attr_info_t ainfop)
3115	{
3116	attr_entry_t *ae;
3117	u_int8_t *buf_end;
3118	u_int32_t end;
3119	int count;
3120	int i;
3121
3122	if (ah == NULL)
3123	return EINVAL;
3124
3125	if (SWAP32(ah->magic) != ATTR_HDR_MAGIC)
3126	return EINVAL;
3127
3128	/ Swap the basic header fields /
3129	ah->magic = SWAP32(ah->magic);
3130	ah->debug_tag = SWAP32 (ah->debug_tag);
3131	ah->total_size = SWAP32 (ah->total_size);
3132	ah->data_start = SWAP32 (ah->data_start);
3133	ah->data_length = SWAP32 (ah->data_length);
3134	ah->flags = SWAP16 (ah->flags);
3135	ah->num_attrs = SWAP16 (ah->num_attrs);
3136
3137	/*
3138	* Make sure the total_size fits within the Finder Info area, and the
3139	* extended attribute data area fits within total_size.
3140	*/
3141	end = ah->data_start + ah->data_length;
3142	if (ah->total_size > ainfop->finderinfo->offset + ainfop->finderinfo->length \|\|
3143	end < ah->data_start \|\|
3144	end > ah->total_size) {
3145	return EINVAL;
3146	}
3147
3148	/*
3149	* Make sure each of the attr_entry_t's fits within total_size.
3150	*/
3151	buf_end = ainfop->rawdata + ah->total_size;
3152	count = ah->num_attrs;
3153	ae = (attr_entry_t *)(&ah[`1`]);
3154
3155	for (i=`0`; i<count; i++) {
3156	/ Make sure the fixed-size part of this attr_entry_t fits. /
3157	if ((u_int8_t *) &ae[`1`] > buf_end)
3158	return EINVAL;
3159
3160	/ Make sure the variable-length name fits (+1 is for NUL terminator) /
3161	/ TODO: Make sure namelen matches strnlen(name,namelen+1)? /
3162	if (&ae->name[ae->namelen+`1`] > buf_end)
3163	return EINVAL;
3164
3165	/ Swap the attribute entry fields /
3166	ae->offset = SWAP32(ae->offset);
3167	ae->length = SWAP32(ae->length);
3168	ae->flags = SWAP16(ae->flags);
3169
3170	/ Make sure the attribute content fits. /
3171	end = ae->offset + ae->length;
3172	if (end < ae->offset \|\| end > ah->total_size)
3173	return EINVAL;
3174
3175	ae = ATTR_NEXT(ae);
3176	}
3177
3178	/*
3179	* TODO: Make sure the contents of attributes don't overlap the header
3180	* and don't overlap each other. The hard part is that we don't know
3181	* what the actual header size is until we have looped over all of the
3182	* variable-sized attribute entries.
3183	*
3184	* XXX Is there any guarantee that attribute entries are stored in
3185	* XXX order sorted by the contents' file offset? If so, that would
3186	* XXX make the pairwise overlap check much easier.
3187	*/
3188
3189	return `0`;
3190	}
3191
3192	//
3193	// "start" & "end" are byte offsets in the file.
3194	// "to" is the byte offset we want to move the
3195	// data to. "to" should be > "start".
3196	//
3197	// we do the copy backwards to avoid problems if
3198	// there's an overlap.
3199	//
3200	static int
3201	shift_data_down(vnode_t xvp, off_t start, size_t len, off_t delta, vfs_context_t context)
3202	{
3203	int ret, iolen;
3204	size_t chunk, orig_chunk;
3205	char *buff;
3206	off_t pos;
3207	kauth_cred_t ucred = vfs_context_ucred(context);
3208	proc_t p = vfs_context_proc(context);
3209
3210	if (delta == `0` \|\| len == `0`) {
3211	return `0`;
3212	}
3213
3214	chunk = `4096`;
3215	if (len < chunk) {
3216	chunk = len;
3217	}
3218	orig_chunk = chunk;
3219
3220	if (kmem_alloc(kernel_map, (vm_offset_t *)&buff, chunk, VM_KERN_MEMORY_FILE)) {
3221	return ENOMEM;
3222	}
3223
3224	for(pos=start+len-chunk; pos >= start; pos-=chunk) {
3225	ret = vn_rdwr(UIO_READ, xvp, buff, chunk, pos, UIO_SYSSPACE, IO_NODELOCKED\|IO_NOAUTH, ucred, &iolen, p);
3226	if (iolen != `0`) {
3227	printf("xattr:shift_data: error reading data @ %lld (read %d of %lu) (%d)\n",
3228	pos, ret, chunk, ret);
3229	break;
3230	}
3231
3232	ret = vn_rdwr(UIO_WRITE, xvp, buff, chunk, pos + delta, UIO_SYSSPACE, IO_NODELOCKED\|IO_NOAUTH, ucred, &iolen, p);
3233	if (iolen != `0`) {
3234	printf("xattr:shift_data: error writing data @ %lld (wrote %d of %lu) (%d)\n",
3235	pos+delta, ret, chunk, ret);
3236	break;
3237	}
3238
3239	if ((pos - (off_t)chunk) < start) {
3240	chunk = pos - start;
3241
3242	if (chunk == `0`) { // we're all done
3243	break;
3244	}
3245	}
3246	}
3247	kmem_free(kernel_map, (vm_offset_t)buff, orig_chunk);
3248
3249	return `0`;
3250	}
3251
3252
3253	static int
3254	shift_data_up(vnode_t xvp, off_t start, size_t len, off_t delta, vfs_context_t context)
3255	{
3256	int ret, iolen;
3257	size_t chunk, orig_chunk;
3258	char *buff;
3259	off_t pos;
3260	off_t end;
3261	kauth_cred_t ucred = vfs_context_ucred(context);
3262	proc_t p = vfs_context_proc(context);
3263
3264	if (delta == `0` \|\| len == `0`) {
3265	return `0`;
3266	}
3267
3268	chunk = `4096`;
3269	if (len < chunk) {
3270	chunk = len;
3271	}
3272	orig_chunk = chunk;
3273	end = start + len;
3274
3275	if (kmem_alloc(kernel_map, (vm_offset_t *)&buff, chunk, VM_KERN_MEMORY_FILE)) {
3276	return ENOMEM;
3277	}
3278
3279	for(pos = start; pos < end; pos += chunk) {
3280	ret = vn_rdwr(UIO_READ, xvp, buff, chunk, pos, UIO_SYSSPACE, IO_NODELOCKED\|IO_NOAUTH, ucred, &iolen, p);
3281	if (iolen != `0`) {
3282	printf("xattr:shift_data: error reading data @ %lld (read %d of %lu) (%d)\n",
3283	pos, ret, chunk, ret);
3284	break;
3285	}
3286
3287	ret = vn_rdwr(UIO_WRITE, xvp, buff, chunk, pos - delta, UIO_SYSSPACE, IO_NODELOCKED\|IO_NOAUTH, ucred, &iolen, p);
3288	if (iolen != `0`) {
3289	printf("xattr:shift_data: error writing data @ %lld (wrote %d of %lu) (%d)\n",
3290	pos+delta, ret, chunk, ret);
3291	break;
3292	}
3293
3294	if ((pos + (off_t)chunk) > end) {
3295	chunk = end - pos;
3296
3297	if (chunk == `0`) { // we're all done
3298	break;
3299	}
3300	}
3301	}
3302	kmem_free(kernel_map, (vm_offset_t)buff, orig_chunk);
3303
3304	return `0`;
3305	}
3306
3307	static int
3308	lock_xattrfile(vnode_t xvp, short locktype, vfs_context_t context)
3309	{
3310	struct flock lf;
3311	int error;
3312
3313	lf.l_whence = SEEK_SET;
3314	lf.l_start = `0`;
3315	lf.l_len = `0`;
3316	lf.l_type = locktype; / F_WRLCK or F_RDLCK /
3317	/ Note: id is just a kernel address that's not a proc /
3318	error = VNOP_ADVLOCK(xvp, (caddr_t)xvp, F_SETLK, &lf, F_FLOCK\|F_WAIT, context, NULL);
3319	return (error == ENOTSUP ? `0` : error);
3320	}
3321
3322	int
3323	unlock_xattrfile(vnode_t xvp, vfs_context_t context)
3324	{
3325	struct flock lf;
3326	int error;
3327
3328	lf.l_whence = SEEK_SET;
3329	lf.l_start = `0`;
3330	lf.l_len = `0`;
3331	lf.l_type = F_UNLCK;
3332	/ Note: id is just a kernel address that's not a proc /
3333	error = VNOP_ADVLOCK(xvp, (caddr_t)xvp, F_UNLCK, &lf, F_FLOCK, context, NULL);
3334	return (error == ENOTSUP ? `0` : error);
3335	}
3336
3337	#else /* CONFIG_APPLEDOUBLE */
3338
3339
3340	static int
3341	default_getxattr(__unused vnode_t vp, __unused const char *name,
3342	__unused uio_t uio, __unused size_t size, __unused int* options,
3343	__unused vfs_context_t context)
3344	{
3345	return (ENOTSUP);
3346	}
3347
3348	static int
3349	default_setxattr(__unused vnode_t vp, __unused const char *name,
3350	__unused uio_t uio, __unused int options, __unused vfs_context_t context)
3351	{
3352	return (ENOTSUP);
3353	}
3354
3355	static int
3356	default_listxattr(__unused vnode_t vp,
3357	__unused uio_t uio, __unused size_t size, __unused int* options,
3358	__unused vfs_context_t context)
3359	{
3360	return (ENOTSUP);
3361	}
3362
3363	static int
3364	default_removexattr(__unused vnode_t vp, __unused const char *name,
3365	__unused int options, __unused vfs_context_t context)
3366	{
3367	return (ENOTSUP);
3368	}
3369
3370	#endif /* CONFIG_APPLEDOUBLE */
3371

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