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source: vendor/3.6.9/source4/lib/registry/regf.c

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Last change on this file was 740, checked in by Silvan Scherrer, 13 years ago
Samba Server: update vendor to 3.6.0
File size: 60.5 KB

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1	/*
2	Samba CIFS implementation
3	Registry backend for REGF files
4	Copyright (C) 2005-2007 Jelmer Vernooij, jelmer@samba.org
5	Copyright (C) 2006-2010 Wilco Baan Hofman, wilco@baanhofman.nl
6
7	This program is free software; you can redistribute it and/or modify
8	it under the terms of the GNU General Public License as published by
9	the Free Software Foundation; either version 3 of the License, or
10	(at your option) any later version.
11
12	This program is distributed in the hope that it will be useful,
13	but WITHOUT ANY WARRANTY; without even the implied warranty of
14	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15	GNU General Public License for more details.
16
17	You should have received a copy of the GNU General Public License
18	along with this program. If not, see <http://www.gnu.org/licenses/>. */
19
20	#include "includes.h"
21	#include "system/filesys.h"
22	#include "system/time.h"
23	#include "lib/registry/tdr_regf.h"
24	#include "librpc/gen_ndr/ndr_security.h"
25	#include "librpc/gen_ndr/winreg.h"
26	#include "lib/registry/registry.h"
27	#include "libcli/security/security.h"
28
29
30	static struct hive_operations reg_backend_regf;
31
32	/**
33	* There are several places on the web where the REGF format is explained;
34	*
35	* TODO: Links
36	*/
37
38	/* TODO:
39	* - Return error codes that make more sense
40	* - Locking
41	* - do more things in-memory
42	*/
43
44	/*
45	* Read HBIN blocks into memory
46	*/
47
48	struct regf_data {
49	int fd;
50	struct hbin_block **hbins;
51	struct regf_hdr *header;
52	time_t last_write;
53	};
54
55	static WERROR regf_save_hbin(struct regf_data *data, bool flush);
56
57	struct regf_key_data {
58	struct hive_key key;
59	struct regf_data *hive;
60	uint32_t offset;
61	struct nk_block *nk;
62	};
63
64	static struct hbin_block hbin_by_offset(const struct regf_data data,
65	uint32_t offset, uint32_t *rel_offset)
66	{
67	unsigned int i;
68
69	for (i = 0; data->hbins[i]; i++) {
70	if (offset >= data->hbins[i]->offset_from_first &&
71	offset < data->hbins[i]->offset_from_first+
72	data->hbins[i]->offset_to_next) {
73	if (rel_offset != NULL)
74	*rel_offset = offset - data->hbins[i]->offset_from_first - 0x20;
75	return data->hbins[i];
76	}
77	}
78
79	return NULL;
80	}
81
82	/**
83	* Validate a regf header
84	* For now, do nothing, but we should check the checksum
85	*/
86	static uint32_t regf_hdr_checksum(const uint8_t *buffer)
87	{
88	uint32_t checksum = 0, x;
89	unsigned int i;
90
91	for (i = 0; i < 0x01FB; i+= 4) {
92	x = IVAL(buffer, i);
93	checksum ^= x;
94	}
95
96	return checksum;
97	}
98
99	/**
100	* Obtain the contents of a HBIN block
101	*/
102	static DATA_BLOB hbin_get(const struct regf_data *data, uint32_t offset)
103	{
104	DATA_BLOB ret;
105	struct hbin_block *hbin;
106	uint32_t rel_offset;
107
108	ret.data = NULL;
109	ret.length = 0;
110
111	hbin = hbin_by_offset(data, offset, &rel_offset);
112
113	if (hbin == NULL) {
114	DEBUG(1, ("Can't find HBIN at 0x%04x\n", offset));
115	return ret;
116	}
117
118	ret.length = IVAL(hbin->data, rel_offset);
119	if (!(ret.length & 0x80000000)) {
120	DEBUG(0, ("Trying to use dirty block at 0x%04x\n", offset));
121	return ret;
122	}
123
124	/* remove high bit */
125	ret.length = (ret.length ^ 0xffffffff) + 1;
126
127	ret.length -= 4; /* 4 bytes for the length... */
128	ret.data = hbin->data +
129	(offset - hbin->offset_from_first - 0x20) + 4;
130
131	return ret;
132	}
133
134	static bool hbin_get_tdr(struct regf_data *regf, uint32_t offset,
135	TALLOC_CTX ctx, tdr_pull_fn_t pull_fn, void p)
136	{
137	struct tdr_pull *pull = tdr_pull_init(regf);
138
139	pull->data = hbin_get(regf, offset);
140	if (!pull->data.data) {
141	DEBUG(1, ("Unable to get data at 0x%04x\n", offset));
142	talloc_free(pull);
143	return false;
144	}
145
146	if (NT_STATUS_IS_ERR(pull_fn(pull, ctx, p))) {
147	DEBUG(1, ("Error parsing record at 0x%04x using tdr\n",
148	offset));
149	talloc_free(pull);
150	return false;
151	}
152	talloc_free(pull);
153
154	return true;
155	}
156
157	/* Allocate some new data */
158	static DATA_BLOB hbin_alloc(struct regf_data *data, uint32_t size,
159	uint32_t *offset)
160	{
161	DATA_BLOB ret;
162	uint32_t rel_offset = (uint32_t) -1; /* Relative offset ! */
163	struct hbin_block *hbin = NULL;
164	unsigned int i;
165
166	*offset = 0;
167
168	if (size == 0)
169	return data_blob(NULL, 0);
170
171	size += 4; /* Need to include int32 for the length */
172
173	/* Allocate as a multiple of 8 */
174	size = (size + 7) & ~7;
175
176	ret.data = NULL;
177	ret.length = 0;
178
179	for (i = 0; (hbin = data->hbins[i]); i++) {
180	int j;
181	int32_t my_size;
182	for (j = 0; j < hbin->offset_to_next-0x20; j+= my_size) {
183	my_size = IVALS(hbin->data, j);
184
185	if (my_size == 0x0) {
186	DEBUG(0, ("Invalid zero-length block! File is corrupt.\n"));
187	return ret;
188	}
189
190	if (my_size % 8 != 0) {
191	DEBUG(0, ("Encountered non-aligned block!\n"));
192	}
193
194	if (my_size < 0) { /* Used... */
195	my_size = -my_size;
196	} else if (my_size == size) { /* exact match */
197	rel_offset = j;
198	DEBUG(4, ("Found free block of exact size %d in middle of HBIN\n",
199	size));
200	break;
201	} else if (my_size > size) { /* data will remain */
202	rel_offset = j;
203	/* Split this block and mark the next block as free */
204	SIVAL(hbin->data, rel_offset+size, my_size-size);
205	DEBUG(4, ("Found free block of size %d (needing %d) in middle of HBIN\n",
206	my_size, size));
207	break;
208	}
209	}
210
211	if (rel_offset != -1)
212	break;
213	}
214
215	/* No space available in previous hbins,
216	* allocate new one */
217	if (data->hbins[i] == NULL) {
218	DEBUG(4, ("No space available in other HBINs for block of size %d, allocating new HBIN\n",
219	size));
220
221	/* Add extra hbin block */
222	data->hbins = talloc_realloc(data, data->hbins,
223	struct hbin_block *, i+2);
224	hbin = talloc(data->hbins, struct hbin_block);
225	SMB_ASSERT(hbin != NULL);
226
227	data->hbins[i] = hbin;
228	data->hbins[i+1] = NULL;
229
230	/* Set hbin data */
231	hbin->HBIN_ID = talloc_strdup(hbin, "hbin");
232	hbin->offset_from_first = (i == 0?0:data->hbins[i-1]->offset_from_first+data->hbins[i-1]->offset_to_next);
233	hbin->offset_to_next = 0x1000;
234	hbin->unknown[0] = 0;
235	hbin->unknown[1] = 0;
236	unix_to_nt_time(&hbin->last_change, time(NULL));
237	hbin->block_size = hbin->offset_to_next;
238	hbin->data = talloc_zero_array(hbin, uint8_t, hbin->block_size - 0x20);
239	/* Update the regf header */
240	data->header->last_block += hbin->offset_to_next;
241
242	/* Set the next block to it's proper size and set the
243	* rel_offset for this block */
244	SIVAL(hbin->data, size, hbin->block_size - size - 0x20);
245	rel_offset = 0x0;
246	}
247
248	/* Set size and mark as used */
249	SIVAL(hbin->data, rel_offset, -size);
250
251	ret.data = hbin->data + rel_offset + 0x4; /* Skip past length */
252	ret.length = size - 0x4;
253	if (offset) {
254	uint32_t new_rel_offset;
255	*offset = hbin->offset_from_first + rel_offset + 0x20;
256	SMB_ASSERT(hbin_by_offset(data, *offset, &new_rel_offset) == hbin);
257	SMB_ASSERT(new_rel_offset == rel_offset);
258	}
259
260	return ret;
261	}
262
263	/* Store a data blob. Return the offset at which it was stored */
264	static uint32_t hbin_store (struct regf_data *data, DATA_BLOB blob)
265	{
266	uint32_t ret;
267	DATA_BLOB dest = hbin_alloc(data, blob.length, &ret);
268
269	memcpy(dest.data, blob.data, blob.length);
270
271	/* Make sure that we have no tailing garbage in the block */
272	if (dest.length > blob.length) {
273	memset(dest.data + blob.length, 0, dest.length - blob.length);
274	}
275
276	return ret;
277	}
278
279	static uint32_t hbin_store_tdr(struct regf_data *data,
280	tdr_push_fn_t push_fn, void *p)
281	{
282	struct tdr_push *push = tdr_push_init(data);
283	uint32_t ret;
284
285	if (NT_STATUS_IS_ERR(push_fn(push, p))) {
286	DEBUG(0, ("Error during push\n"));
287	return -1;
288	}
289
290	ret = hbin_store(data, push->data);
291
292	talloc_free(push);
293
294	return ret;
295	}
296
297
298	/* Free existing data */
299	static void hbin_free (struct regf_data *data, uint32_t offset)
300	{
301	int32_t size;
302	uint32_t rel_offset;
303	int32_t next_size;
304	struct hbin_block *hbin;
305
306	SMB_ASSERT (offset > 0);
307
308	hbin = hbin_by_offset(data, offset, &rel_offset);
309
310	if (hbin == NULL)
311	return;
312
313	/* Get original size */
314	size = IVALS(hbin->data, rel_offset);
315
316	if (size > 0) {
317	DEBUG(1, ("Trying to free already freed block at 0x%04x\n",
318	offset));
319	return;
320	}
321	/* Mark as unused */
322	size = -size;
323
324	/* If the next block is free, merge into big free block */
325	if (rel_offset + size < hbin->offset_to_next - 0x20) {
326	next_size = IVALS(hbin->data, rel_offset+size);
327	if (next_size > 0) {
328	size += next_size;
329	}
330	}
331
332	/* Write block size */
333	SIVALS(hbin->data, rel_offset, size);
334	}
335
336	/**
337	* Store a data blob data was already stored, but has changed in size
338	* Will try to save it at the current location if possible, otherwise
339	* does a free + store */
340	static uint32_t hbin_store_resize(struct regf_data *data,
341	uint32_t orig_offset, DATA_BLOB blob)
342	{
343	uint32_t rel_offset;
344	struct hbin_block *hbin = hbin_by_offset(data, orig_offset,
345	&rel_offset);
346	int32_t my_size;
347	int32_t orig_size;
348	int32_t needed_size;
349	int32_t possible_size;
350	unsigned int i;
351
352	SMB_ASSERT(orig_offset > 0);
353
354	if (!hbin)
355	return hbin_store(data, blob);
356
357	/* Get original size */
358	orig_size = -IVALS(hbin->data, rel_offset);
359
360	needed_size = blob.length + 4; /* Add int32 containing length */
361	needed_size = (needed_size + 7) & ~7; /* Align */
362
363	/* Fits into current allocated block */
364	if (orig_size >= needed_size) {
365	memcpy(hbin->data + rel_offset + 0x4, blob.data, blob.length);
366	/* If the difference in size is greater than 0x4, split the block
367	* and free/merge it */
368	if (orig_size - needed_size > 0x4) {
369	SIVALS(hbin->data, rel_offset, -needed_size);
370	SIVALS(hbin->data, rel_offset + needed_size,
371	needed_size-orig_size);
372	hbin_free(data, orig_offset + needed_size);
373	}
374	return orig_offset;
375	}
376
377	possible_size = orig_size;
378
379	/* Check if it can be combined with the next few free records */
380	for (i = rel_offset; i < hbin->offset_to_next - 0x20; i += my_size) {
381	if (IVALS(hbin->data, i) < 0) /* Used */
382	break;
383
384	my_size = IVALS(hbin->data, i);
385
386	if (my_size == 0x0) {
387	DEBUG(0, ("Invalid zero-length block! File is corrupt.\n"));
388	break;
389	} else {
390	possible_size += my_size;
391	}
392
393	if (possible_size >= blob.length) {
394	SIVAL(hbin->data, rel_offset, -possible_size);
395	memcpy(hbin->data + rel_offset + 0x4,
396	blob.data, blob.length);
397	return orig_offset;
398	}
399	}
400
401	hbin_free(data, orig_offset);
402	return hbin_store(data, blob);
403	}
404
405	static uint32_t hbin_store_tdr_resize(struct regf_data *regf,
406	tdr_push_fn_t push_fn,
407	uint32_t orig_offset, void *p)
408	{
409	struct tdr_push *push = tdr_push_init(regf);
410	uint32_t ret;
411
412	if (NT_STATUS_IS_ERR(push_fn(push, p))) {
413	DEBUG(0, ("Error during push\n"));
414	return -1;
415	}
416
417	ret = hbin_store_resize(regf, orig_offset, push->data);
418
419	talloc_free(push);
420
421	return ret;
422	}
423
424	static uint32_t regf_create_lh_hash(const char *name)
425	{
426	char *hash_name;
427	uint32_t ret = 0;
428	uint16_t i;
429
430	hash_name = strupper_talloc(NULL, name);
431	for (i = 0; *(hash_name + i) != 0; i++) {
432	ret *= 37;
433	ret += *(hash_name + i);
434	}
435	talloc_free(hash_name);
436	return ret;
437	}
438
439	static WERROR regf_get_info(TALLOC_CTX *mem_ctx,
440	const struct hive_key *key,
441	const char **classname,
442	uint32_t *num_subkeys,
443	uint32_t *num_values,
444	NTTIME *last_mod_time,
445	uint32_t *max_subkeynamelen,
446	uint32_t *max_valnamelen,
447	uint32_t *max_valbufsize)
448	{
449	const struct regf_key_data *private_data =
450	(const struct regf_key_data *)key;
451
452	if (num_subkeys != NULL)
453	*num_subkeys = private_data->nk->num_subkeys;
454
455	if (num_values != NULL)
456	*num_values = private_data->nk->num_values;
457
458	if (classname != NULL) {
459	if (private_data->nk->clsname_offset != -1) {
460	DATA_BLOB data = hbin_get(private_data->hive,
461	private_data->nk->clsname_offset);
462	*classname = talloc_strndup(mem_ctx,
463	(char*)data.data,
464	private_data->nk->clsname_length);
465	W_ERROR_HAVE_NO_MEMORY(*classname);
466	} else
467	*classname = NULL;
468	}
469
470	/* TODO: Last mod time */
471
472	/* TODO: max valnamelen */
473
474	/* TODO: max valbufsize */
475
476	/* TODO: max subkeynamelen */
477
478	return WERR_OK;
479	}
480
481	static struct regf_key_data regf_get_key(TALLOC_CTX ctx,
482	struct regf_data *regf,
483	uint32_t offset)
484	{
485	struct nk_block *nk;
486	struct regf_key_data *ret;
487
488	ret = talloc_zero(ctx, struct regf_key_data);
489	ret->key.ops = &reg_backend_regf;
490	ret->hive = talloc_reference(ret, regf);
491	ret->offset = offset;
492	nk = talloc(ret, struct nk_block);
493	if (nk == NULL)
494	return NULL;
495
496	ret->nk = nk;
497
498	if (!hbin_get_tdr(regf, offset, nk,
499	(tdr_pull_fn_t)tdr_pull_nk_block, nk)) {
500	DEBUG(0, ("Unable to find HBIN data for offset 0x%x\n", offset));
501	return NULL;
502	}
503
504	if (strcmp(nk->header, "nk") != 0) {
505	DEBUG(0, ("Expected nk record, got %s\n", nk->header));
506	talloc_free(ret);
507	return NULL;
508	}
509
510	return ret;
511	}
512
513
514	static WERROR regf_get_value(TALLOC_CTX ctx, struct hive_key key,
515	uint32_t idx, const char **name,
516	uint32_t data_type, DATA_BLOB data)
517	{
518	const struct regf_key_data *private_data =
519	(const struct regf_key_data *)key;
520	struct vk_block *vk;
521	struct regf_data *regf = private_data->hive;
522	uint32_t vk_offset;
523	DATA_BLOB tmp;
524
525	if (idx >= private_data->nk->num_values)
526	return WERR_NO_MORE_ITEMS;
527
528	tmp = hbin_get(regf, private_data->nk->values_offset);
529	if (!tmp.data) {
530	DEBUG(0, ("Unable to find value list at 0x%x\n",
531	private_data->nk->values_offset));
532	return WERR_GENERAL_FAILURE;
533	}
534
535	if (tmp.length < private_data->nk->num_values * 4) {
536	DEBUG(1, ("Value counts mismatch\n"));
537	}
538
539	vk_offset = IVAL(tmp.data, idx * 4);
540
541	vk = talloc(NULL, struct vk_block);
542	W_ERROR_HAVE_NO_MEMORY(vk);
543
544	if (!hbin_get_tdr(regf, vk_offset, vk,
545	(tdr_pull_fn_t)tdr_pull_vk_block, vk)) {
546	DEBUG(0, ("Unable to get VK block at 0x%x\n", vk_offset));
547	talloc_free(vk);
548	return WERR_GENERAL_FAILURE;
549	}
550
551	/* FIXME: name character set ?*/
552	if (name != NULL) {
553	*name = talloc_strndup(ctx, vk->data_name, vk->name_length);
554	W_ERROR_HAVE_NO_MEMORY(*name);
555	}
556
557	if (data_type != NULL)
558	*data_type = vk->data_type;
559
560	if (vk->data_length & 0x80000000) {
561	/* this is data of type "REG_DWORD" or "REG_DWORD_BIG_ENDIAN" */
562	data->data = talloc_size(ctx, sizeof(uint32_t));
563	W_ERROR_HAVE_NO_MEMORY(data->data);
564	SIVAL(data->data, 0, vk->data_offset);
565	data->length = sizeof(uint32_t);
566	} else {
567	*data = hbin_get(regf, vk->data_offset);
568	}
569
570	if (data->length < vk->data_length) {
571	DEBUG(1, ("Read data less than indicated data length!\n"));
572	}
573
574	talloc_free(vk);
575
576	return WERR_OK;
577	}
578
579	static WERROR regf_get_value_by_name(TALLOC_CTX *mem_ctx,
580	struct hive_key key, const char name,
581	uint32_t type, DATA_BLOB data)
582	{
583	unsigned int i;
584	const char *vname;
585	WERROR error;
586
587	/* FIXME: Do binary search? Is this list sorted at all? */
588
589	for (i = 0; W_ERROR_IS_OK(error = regf_get_value(mem_ctx, key, i,
590	&vname, type, data));
591	i++) {
592	if (!strcmp(vname, name))
593	return WERR_OK;
594	}
595
596	if (W_ERROR_EQUAL(error, WERR_NO_MORE_ITEMS))
597	return WERR_BADFILE;
598
599	return error;
600	}
601
602
603	static WERROR regf_get_subkey_by_index(TALLOC_CTX *ctx,
604	const struct hive_key *key,
605	uint32_t idx, const char **name,
606	const char **classname,
607	NTTIME *last_mod_time)
608	{
609	DATA_BLOB data;
610	struct regf_key_data *ret;
611	const struct regf_key_data private_data = (const struct regf_key_data )key;
612	struct nk_block *nk = private_data->nk;
613	uint32_t key_off=0;
614
615	if (idx >= nk->num_subkeys)
616	return WERR_NO_MORE_ITEMS;
617
618	/* Make sure that we don't crash if the key is empty */
619	if (nk->subkeys_offset == -1) {
620	return WERR_NO_MORE_ITEMS;
621	}
622
623	data = hbin_get(private_data->hive, nk->subkeys_offset);
624	if (!data.data) {
625	DEBUG(0, ("Unable to find subkey list at 0x%x\n",
626	nk->subkeys_offset));
627	return WERR_GENERAL_FAILURE;
628	}
629
630	if (!strncmp((char *)data.data, "li", 2)) {
631	struct li_block li;
632	struct tdr_pull *pull = tdr_pull_init(private_data->hive);
633
634	DEBUG(10, ("Subkeys in LI list\n"));
635	pull->data = data;
636
637	if (NT_STATUS_IS_ERR(tdr_pull_li_block(pull, nk, &li))) {
638	DEBUG(0, ("Error parsing LI list\n"));
639	talloc_free(pull);
640	return WERR_GENERAL_FAILURE;
641	}
642	talloc_free(pull);
643	SMB_ASSERT(!strncmp(li.header, "li", 2));
644
645	if (li.key_count != nk->num_subkeys) {
646	DEBUG(0, ("Subkey counts don't match\n"));
647	return WERR_GENERAL_FAILURE;
648	}
649	key_off = li.nk_offset[idx];
650
651	} else if (!strncmp((char *)data.data, "lf", 2)) {
652	struct lf_block lf;
653	struct tdr_pull *pull = tdr_pull_init(private_data->hive);
654
655	DEBUG(10, ("Subkeys in LF list\n"));
656	pull->data = data;
657
658	if (NT_STATUS_IS_ERR(tdr_pull_lf_block(pull, nk, &lf))) {
659	DEBUG(0, ("Error parsing LF list\n"));
660	talloc_free(pull);
661	return WERR_GENERAL_FAILURE;
662	}
663	talloc_free(pull);
664	SMB_ASSERT(!strncmp(lf.header, "lf", 2));
665
666	if (lf.key_count != nk->num_subkeys) {
667	DEBUG(0, ("Subkey counts don't match\n"));
668	return WERR_GENERAL_FAILURE;
669	}
670
671	key_off = lf.hr[idx].nk_offset;
672	} else if (!strncmp((char *)data.data, "lh", 2)) {
673	struct lh_block lh;
674	struct tdr_pull *pull = tdr_pull_init(private_data->hive);
675
676	DEBUG(10, ("Subkeys in LH list\n"));
677	pull->data = data;
678
679	if (NT_STATUS_IS_ERR(tdr_pull_lh_block(pull, nk, &lh))) {
680	DEBUG(0, ("Error parsing LH list\n"));
681	talloc_free(pull);
682	return WERR_GENERAL_FAILURE;
683	}
684	talloc_free(pull);
685	SMB_ASSERT(!strncmp(lh.header, "lh", 2));
686
687	if (lh.key_count != nk->num_subkeys) {
688	DEBUG(0, ("Subkey counts don't match\n"));
689	return WERR_GENERAL_FAILURE;
690	}
691	key_off = lh.hr[idx].nk_offset;
692	} else if (!strncmp((char *)data.data, "ri", 2)) {
693	struct ri_block ri;
694	struct tdr_pull *pull = tdr_pull_init(ctx);
695	uint16_t i;
696	uint16_t sublist_count = 0;
697
698	DEBUG(10, ("Subkeys in RI list\n"));
699	pull->data = data;
700
701	if (NT_STATUS_IS_ERR(tdr_pull_ri_block(pull, nk, &ri))) {
702	DEBUG(0, ("Error parsing RI list\n"));
703	talloc_free(pull);
704	return WERR_GENERAL_FAILURE;
705	}
706	SMB_ASSERT(!strncmp(ri.header, "ri", 2));
707
708	for (i = 0; i < ri.key_count; i++) {
709	DATA_BLOB list_data;
710
711	/* Get sublist data blob */
712	list_data = hbin_get(private_data->hive, ri.offset[i]);
713	if (!list_data.data) {
714	DEBUG(0, ("Error getting RI list."));
715	talloc_free(pull);
716	return WERR_GENERAL_FAILURE;
717	}
718
719	pull->data = list_data;
720
721	if (!strncmp((char *)list_data.data, "li", 2)) {
722	struct li_block li;
723
724	DEBUG(10, ("Subkeys in RI->LI list\n"));
725
726	if (NT_STATUS_IS_ERR(tdr_pull_li_block(pull,
727	nk,
728	&li))) {
729	DEBUG(0, ("Error parsing LI list from RI\n"));
730	talloc_free(pull);
731	return WERR_GENERAL_FAILURE;
732	}
733	SMB_ASSERT(!strncmp(li.header, "li", 2));
734
735	/* Advance to next sublist if necessary */
736	if (idx >= sublist_count + li.key_count) {
737	sublist_count += li.key_count;
738	continue;
739	}
740	key_off = li.nk_offset[idx - sublist_count];
741	sublist_count += li.key_count;
742	break;
743	} else if (!strncmp((char *)list_data.data, "lh", 2)) {
744	struct lh_block lh;
745
746	DEBUG(10, ("Subkeys in RI->LH list\n"));
747
748	if (NT_STATUS_IS_ERR(tdr_pull_lh_block(pull,
749	nk,
750	&lh))) {
751	DEBUG(0, ("Error parsing LH list from RI\n"));
752	talloc_free(pull);
753	return WERR_GENERAL_FAILURE;
754	}
755	SMB_ASSERT(!strncmp(lh.header, "lh", 2));
756
757	/* Advance to next sublist if necessary */
758	if (idx >= sublist_count + lh.key_count) {
759	sublist_count += lh.key_count;
760	continue;
761	}
762	key_off = lh.hr[idx - sublist_count].nk_offset;
763	sublist_count += lh.key_count;
764	break;
765	} else {
766	DEBUG(0,("Unknown sublist in ri block\n"));
767	talloc_free(pull);
768
769	return WERR_GENERAL_FAILURE;
770	}
771
772	}
773	talloc_free(pull);
774
775
776	if (idx > sublist_count) {
777	return WERR_NO_MORE_ITEMS;
778	}
779
780	} else {
781	DEBUG(0, ("Unknown type for subkey list (0x%04x): %c%c\n",
782	nk->subkeys_offset, data.data[0], data.data[1]));
783	return WERR_GENERAL_FAILURE;
784	}
785
786	ret = regf_get_key (ctx, private_data->hive, key_off);
787
788	if (classname != NULL) {
789	if (ret->nk->clsname_offset != -1) {
790	DATA_BLOB db = hbin_get(ret->hive,
791	ret->nk->clsname_offset);
792	*classname = talloc_strndup(ctx,
793	(char*)db.data,
794	ret->nk->clsname_length);
795	W_ERROR_HAVE_NO_MEMORY(*classname);
796	} else
797	*classname = NULL;
798	}
799
800	if (last_mod_time != NULL)
801	*last_mod_time = ret->nk->last_change;
802
803	if (name != NULL)
804	*name = talloc_steal(ctx, ret->nk->key_name);
805
806	talloc_free(ret);
807
808	return WERR_OK;
809	}
810
811	static WERROR regf_match_subkey_by_name(TALLOC_CTX *ctx,
812	const struct hive_key *key,
813	uint32_t offset,
814	const char name, uint32_t ret)
815	{
816	DATA_BLOB subkey_data;
817	struct nk_block subkey;
818	struct tdr_pull *pull;
819	const struct regf_key_data *private_data =
820	(const struct regf_key_data *)key;
821
822	subkey_data = hbin_get(private_data->hive, offset);
823	if (!subkey_data.data) {
824	DEBUG(0, ("Unable to retrieve subkey HBIN\n"));
825	return WERR_GENERAL_FAILURE;
826	}
827
828	pull = tdr_pull_init(ctx);
829
830	pull->data = subkey_data;
831
832	if (NT_STATUS_IS_ERR(tdr_pull_nk_block(pull, ctx, &subkey))) {
833	DEBUG(0, ("Error parsing NK structure.\n"));
834	talloc_free(pull);
835	return WERR_GENERAL_FAILURE;
836	}
837	talloc_free(pull);
838
839	if (strncmp(subkey.header, "nk", 2)) {
840	DEBUG(0, ("Not an NK structure.\n"));
841	return WERR_GENERAL_FAILURE;
842	}
843
844	if (!strcasecmp(subkey.key_name, name)) {
845	*ret = offset;
846	} else {
847	*ret = 0;
848	}
849	return WERR_OK;
850	}
851
852	static WERROR regf_get_subkey_by_name(TALLOC_CTX *ctx,
853	const struct hive_key *key,
854	const char *name,
855	struct hive_key **ret)
856	{
857	DATA_BLOB data;
858	const struct regf_key_data *private_data =
859	(const struct regf_key_data *)key;
860	struct nk_block *nk = private_data->nk;
861	uint32_t key_off = 0;
862
863	/* Make sure that we don't crash if the key is empty */
864	if (nk->subkeys_offset == -1) {
865	return WERR_BADFILE;
866	}
867
868	data = hbin_get(private_data->hive, nk->subkeys_offset);
869	if (!data.data) {
870	DEBUG(0, ("Unable to find subkey list\n"));
871	return WERR_GENERAL_FAILURE;
872	}
873
874	if (!strncmp((char *)data.data, "li", 2)) {
875	struct li_block li;
876	struct tdr_pull *pull = tdr_pull_init(ctx);
877	uint16_t i;
878
879	DEBUG(10, ("Subkeys in LI list\n"));
880	pull->data = data;
881
882	if (NT_STATUS_IS_ERR(tdr_pull_li_block(pull, nk, &li))) {
883	DEBUG(0, ("Error parsing LI list\n"));
884	talloc_free(pull);
885	return WERR_GENERAL_FAILURE;
886	}
887	talloc_free(pull);
888	SMB_ASSERT(!strncmp(li.header, "li", 2));
889
890	if (li.key_count != nk->num_subkeys) {
891	DEBUG(0, ("Subkey counts don't match\n"));
892	return WERR_GENERAL_FAILURE;
893	}
894
895	for (i = 0; i < li.key_count; i++) {
896	W_ERROR_NOT_OK_RETURN(regf_match_subkey_by_name(nk, key,
897	li.nk_offset[i],
898	name,
899	&key_off));
900	if (key_off != 0)
901	break;
902	}
903	if (key_off == 0)
904	return WERR_BADFILE;
905	} else if (!strncmp((char *)data.data, "lf", 2)) {
906	struct lf_block lf;
907	struct tdr_pull *pull = tdr_pull_init(ctx);
908	uint16_t i;
909
910	DEBUG(10, ("Subkeys in LF list\n"));
911	pull->data = data;
912
913	if (NT_STATUS_IS_ERR(tdr_pull_lf_block(pull, nk, &lf))) {
914	DEBUG(0, ("Error parsing LF list\n"));
915	talloc_free(pull);
916	return WERR_GENERAL_FAILURE;
917	}
918	talloc_free(pull);
919	SMB_ASSERT(!strncmp(lf.header, "lf", 2));
920
921	if (lf.key_count != nk->num_subkeys) {
922	DEBUG(0, ("Subkey counts don't match\n"));
923	return WERR_GENERAL_FAILURE;
924	}
925
926	for (i = 0; i < lf.key_count; i++) {
927	if (strncmp(lf.hr[i].hash, name, 4)) {
928	continue;
929	}
930	W_ERROR_NOT_OK_RETURN(regf_match_subkey_by_name(nk,
931	key,
932	lf.hr[i].nk_offset,
933	name,
934	&key_off));
935	if (key_off != 0)
936	break;
937	}
938	if (key_off == 0)
939	return WERR_BADFILE;
940	} else if (!strncmp((char *)data.data, "lh", 2)) {
941	struct lh_block lh;
942	struct tdr_pull *pull = tdr_pull_init(ctx);
943	uint16_t i;
944	uint32_t hash;
945
946	DEBUG(10, ("Subkeys in LH list\n"));
947	pull->data = data;
948
949	if (NT_STATUS_IS_ERR(tdr_pull_lh_block(pull, nk, &lh))) {
950	DEBUG(0, ("Error parsing LH list\n"));
951	talloc_free(pull);
952	return WERR_GENERAL_FAILURE;
953	}
954	talloc_free(pull);
955	SMB_ASSERT(!strncmp(lh.header, "lh", 2));
956
957	if (lh.key_count != nk->num_subkeys) {
958	DEBUG(0, ("Subkey counts don't match\n"));
959	return WERR_GENERAL_FAILURE;
960	}
961
962	hash = regf_create_lh_hash(name);
963	for (i = 0; i < lh.key_count; i++) {
964	if (lh.hr[i].base37 != hash) {
965	continue;
966	}
967	W_ERROR_NOT_OK_RETURN(regf_match_subkey_by_name(nk,
968	key,
969	lh.hr[i].nk_offset,
970	name,
971	&key_off));
972	if (key_off != 0)
973	break;
974	}
975	if (key_off == 0)
976	return WERR_BADFILE;
977	} else if (!strncmp((char *)data.data, "ri", 2)) {
978	struct ri_block ri;
979	struct tdr_pull *pull = tdr_pull_init(ctx);
980	uint16_t i, j;
981
982	DEBUG(10, ("Subkeys in RI list\n"));
983	pull->data = data;
984
985	if (NT_STATUS_IS_ERR(tdr_pull_ri_block(pull, nk, &ri))) {
986	DEBUG(0, ("Error parsing RI list\n"));
987	talloc_free(pull);
988	return WERR_GENERAL_FAILURE;
989	}
990	SMB_ASSERT(!strncmp(ri.header, "ri", 2));
991
992	for (i = 0; i < ri.key_count; i++) {
993	DATA_BLOB list_data;
994
995	/* Get sublist data blob */
996	list_data = hbin_get(private_data->hive, ri.offset[i]);
997	if (list_data.data == NULL) {
998	DEBUG(0, ("Error getting RI list."));
999	talloc_free(pull);
1000	return WERR_GENERAL_FAILURE;
1001	}
1002
1003	pull->data = list_data;
1004
1005	if (!strncmp((char *)list_data.data, "li", 2)) {
1006	struct li_block li;
1007
1008	if (NT_STATUS_IS_ERR(tdr_pull_li_block(pull,
1009	nk,
1010	&li))) {
1011	DEBUG(0, ("Error parsing LI list from RI\n"));
1012	talloc_free(pull);
1013	return WERR_GENERAL_FAILURE;
1014	}
1015	SMB_ASSERT(!strncmp(li.header, "li", 2));
1016
1017	for (j = 0; j < li.key_count; j++) {
1018	W_ERROR_NOT_OK_RETURN(regf_match_subkey_by_name(nk, key,
1019	li.nk_offset[j],
1020	name,
1021	&key_off));
1022	if (key_off)
1023	break;
1024	}
1025	} else if (!strncmp((char *)list_data.data, "lh", 2)) {
1026	struct lh_block lh;
1027	uint32_t hash;
1028
1029	if (NT_STATUS_IS_ERR(tdr_pull_lh_block(pull,
1030	nk,
1031	&lh))) {
1032	DEBUG(0, ("Error parsing LH list from RI\n"));
1033	talloc_free(pull);
1034	return WERR_GENERAL_FAILURE;
1035	}
1036	SMB_ASSERT(!strncmp(lh.header, "lh", 2));
1037
1038	hash = regf_create_lh_hash(name);
1039	for (j = 0; j < lh.key_count; j++) {
1040	if (lh.hr[j].base37 != hash) {
1041	continue;
1042	}
1043	W_ERROR_NOT_OK_RETURN(regf_match_subkey_by_name(nk, key,
1044	lh.hr[j].nk_offset,
1045	name,
1046	&key_off));
1047	if (key_off)
1048	break;
1049	}
1050	}
1051	if (key_off)
1052	break;
1053	}
1054	talloc_free(pull);
1055	if (!key_off)
1056	return WERR_BADFILE;
1057	} else {
1058	DEBUG(0, ("Unknown subkey list type.\n"));
1059	return WERR_GENERAL_FAILURE;
1060	}
1061
1062	ret = (struct hive_key )regf_get_key(ctx, private_data->hive,
1063	key_off);
1064	return WERR_OK;
1065	}
1066
1067	static WERROR regf_set_sec_desc(struct hive_key *key,
1068	const struct security_descriptor *sec_desc)
1069	{
1070	const struct regf_key_data *private_data =
1071	(const struct regf_key_data *)key;
1072	struct sk_block cur_sk, sk, new_sk;
1073	struct regf_data *regf = private_data->hive;
1074	struct nk_block root;
1075	DATA_BLOB data;
1076	uint32_t sk_offset, cur_sk_offset;
1077	bool update_cur_sk = false;
1078
1079	/* Get the root nk */
1080	hbin_get_tdr(regf, regf->header->data_offset, regf,
1081	(tdr_pull_fn_t) tdr_pull_nk_block, &root);
1082
1083	/* Push the security descriptor to a blob */
1084	if (!NDR_ERR_CODE_IS_SUCCESS(ndr_push_struct_blob(&data, regf,
1085	sec_desc, (ndr_push_flags_fn_t)ndr_push_security_descriptor))) {
1086	DEBUG(0, ("Unable to push security descriptor\n"));
1087	return WERR_GENERAL_FAILURE;
1088	}
1089
1090	/* Get the current security descriptor for the key */
1091	if (!hbin_get_tdr(regf, private_data->nk->sk_offset, regf,
1092	(tdr_pull_fn_t) tdr_pull_sk_block, &cur_sk)) {
1093	DEBUG(0, ("Unable to find security descriptor for current key\n"));
1094	return WERR_BADFILE;
1095	}
1096	/* If there's no change, change nothing. */
1097	if (memcmp(data.data, cur_sk.sec_desc,
1098	MIN(data.length, cur_sk.rec_size)) == 0) {
1099	return WERR_OK;
1100	}
1101
1102	/* Delete the current sk if only this key is using it */
1103	if (cur_sk.ref_cnt == 1) {
1104	/* Get the previous security descriptor for the key */
1105	if (!hbin_get_tdr(regf, cur_sk.prev_offset, regf,
1106	(tdr_pull_fn_t) tdr_pull_sk_block, &sk)) {
1107	DEBUG(0, ("Unable to find prev security descriptor for current key\n"));
1108	return WERR_BADFILE;
1109	}
1110	/* Change and store the previous security descriptor */
1111	sk.next_offset = cur_sk.next_offset;
1112	hbin_store_tdr_resize(regf, (tdr_push_fn_t) tdr_push_sk_block,
1113	cur_sk.prev_offset, &sk);
1114
1115	/* Get the next security descriptor for the key */
1116	if (!hbin_get_tdr(regf, cur_sk.next_offset, regf,
1117	(tdr_pull_fn_t) tdr_pull_sk_block, &sk)) {
1118	DEBUG(0, ("Unable to find next security descriptor for current key\n"));
1119	return WERR_BADFILE;
1120	}
1121	/* Change and store the next security descriptor */
1122	sk.prev_offset = cur_sk.prev_offset;
1123	hbin_store_tdr_resize(regf, (tdr_push_fn_t) tdr_push_sk_block,
1124	cur_sk.next_offset, &sk);
1125
1126	hbin_free(regf, private_data->nk->sk_offset);
1127	} else {
1128	/* This key will no longer be referring to this sk */
1129	cur_sk.ref_cnt--;
1130	update_cur_sk = true;
1131	}
1132
1133	sk_offset = root.sk_offset;
1134
1135	do {
1136	cur_sk_offset = sk_offset;
1137	if (!hbin_get_tdr(regf, sk_offset, regf,
1138	(tdr_pull_fn_t) tdr_pull_sk_block, &sk)) {
1139	DEBUG(0, ("Unable to find security descriptor\n"));
1140	return WERR_BADFILE;
1141	}
1142	if (memcmp(data.data, sk.sec_desc, MIN(data.length, sk.rec_size)) == 0) {
1143	private_data->nk->sk_offset = sk_offset;
1144	sk.ref_cnt++;
1145	hbin_store_tdr_resize(regf,
1146	(tdr_push_fn_t) tdr_push_sk_block,
1147	sk_offset, &sk);
1148	hbin_store_tdr_resize(regf,
1149	(tdr_push_fn_t) tdr_push_nk_block,
1150	private_data->offset,
1151	private_data->nk);
1152	return WERR_OK;
1153	}
1154	sk_offset = sk.next_offset;
1155	} while (sk_offset != root.sk_offset);
1156
1157	ZERO_STRUCT(new_sk);
1158	new_sk.header = "sk";
1159	new_sk.prev_offset = cur_sk_offset;
1160	new_sk.next_offset = root.sk_offset;
1161	new_sk.ref_cnt = 1;
1162	new_sk.rec_size = data.length;
1163	new_sk.sec_desc = data.data;
1164
1165	sk_offset = hbin_store_tdr(regf,
1166	(tdr_push_fn_t) tdr_push_sk_block,
1167	&new_sk);
1168	if (sk_offset == -1) {
1169	DEBUG(0, ("Error storing sk block\n"));
1170	return WERR_GENERAL_FAILURE;
1171	}
1172	private_data->nk->sk_offset = sk_offset;
1173
1174	if (update_cur_sk) {
1175	hbin_store_tdr_resize(regf,
1176	(tdr_push_fn_t) tdr_push_sk_block,
1177	private_data->nk->sk_offset, &cur_sk);
1178	}
1179
1180	/* Get the previous security descriptor for the key */
1181	if (!hbin_get_tdr(regf, new_sk.prev_offset, regf,
1182	(tdr_pull_fn_t) tdr_pull_sk_block, &sk)) {
1183	DEBUG(0, ("Unable to find security descriptor for previous key\n"));
1184	return WERR_BADFILE;
1185	}
1186	/* Change and store the previous security descriptor */
1187	sk.next_offset = sk_offset;
1188	hbin_store_tdr_resize(regf,
1189	(tdr_push_fn_t) tdr_push_sk_block,
1190	cur_sk.prev_offset, &sk);
1191
1192	/* Get the next security descriptor for the key (always root, as we append) */
1193	if (!hbin_get_tdr(regf, new_sk.next_offset, regf,
1194	(tdr_pull_fn_t) tdr_pull_sk_block, &sk)) {
1195	DEBUG(0, ("Unable to find security descriptor for current key\n"));
1196	return WERR_BADFILE;
1197	}
1198	/* Change and store the next security descriptor (always root, as we append) */
1199	sk.prev_offset = sk_offset;
1200	hbin_store_tdr_resize(regf,
1201	(tdr_push_fn_t) tdr_push_sk_block,
1202	root.sk_offset, &sk);
1203
1204
1205	/* Store the nk. */
1206	hbin_store_tdr_resize(regf,
1207	(tdr_push_fn_t) tdr_push_sk_block,
1208	private_data->offset, private_data->nk);
1209	return WERR_OK;
1210	}
1211
1212	static WERROR regf_get_sec_desc(TALLOC_CTX ctx, const struct hive_key key,
1213	struct security_descriptor **sd)
1214	{
1215	const struct regf_key_data *private_data =
1216	(const struct regf_key_data *)key;
1217	struct sk_block sk;
1218	struct regf_data *regf = private_data->hive;
1219	DATA_BLOB data;
1220
1221	if (!hbin_get_tdr(regf, private_data->nk->sk_offset, ctx,
1222	(tdr_pull_fn_t) tdr_pull_sk_block, &sk)) {
1223	DEBUG(0, ("Unable to find security descriptor\n"));
1224	return WERR_GENERAL_FAILURE;
1225	}
1226
1227	if (strcmp(sk.header, "sk") != 0) {
1228	DEBUG(0, ("Expected 'sk', got '%s'\n", sk.header));
1229	return WERR_GENERAL_FAILURE;
1230	}
1231
1232	*sd = talloc(ctx, struct security_descriptor);
1233	W_ERROR_HAVE_NO_MEMORY(*sd);
1234
1235	data.data = sk.sec_desc;
1236	data.length = sk.rec_size;
1237	if (!NDR_ERR_CODE_IS_SUCCESS(ndr_pull_struct_blob(&data, ctx, *sd,
1238	(ndr_pull_flags_fn_t)ndr_pull_security_descriptor))) {
1239	DEBUG(0, ("Error parsing security descriptor\n"));
1240	return WERR_GENERAL_FAILURE;
1241	}
1242
1243	return WERR_OK;
1244	}
1245
1246	static WERROR regf_sl_add_entry(struct regf_data *regf, uint32_t list_offset,
1247	const char *name,
1248	uint32_t key_offset, uint32_t *ret)
1249	{
1250	DATA_BLOB data;
1251
1252	/* Create a new key if necessary */
1253	if (list_offset == -1) {
1254	if (regf->header->version.major != 1) {
1255	DEBUG(0, ("Can't store keys in unknown registry format\n"));
1256	return WERR_NOT_SUPPORTED;
1257	}
1258	if (regf->header->version.minor < 3) {
1259	/* Store LI */
1260	struct li_block li;
1261	ZERO_STRUCT(li);
1262	li.header = "li";
1263	li.key_count = 1;
1264
1265	li.nk_offset = talloc_array(regf, uint32_t, 1);
1266	W_ERROR_HAVE_NO_MEMORY(li.nk_offset);
1267	li.nk_offset[0] = key_offset;
1268
1269	*ret = hbin_store_tdr(regf,
1270	(tdr_push_fn_t) tdr_push_li_block,
1271	&li);
1272
1273	talloc_free(li.nk_offset);
1274	} else if (regf->header->version.minor == 3 \|\|
1275	regf->header->version.minor == 4) {
1276	/* Store LF */
1277	struct lf_block lf;
1278	ZERO_STRUCT(lf);
1279	lf.header = "lf";
1280	lf.key_count = 1;
1281
1282	lf.hr = talloc_array(regf, struct hash_record, 1);
1283	W_ERROR_HAVE_NO_MEMORY(lf.hr);
1284	lf.hr[0].nk_offset = key_offset;
1285	lf.hr[0].hash = talloc_strndup(lf.hr, name, 4);
1286	W_ERROR_HAVE_NO_MEMORY(lf.hr[0].hash);
1287
1288	*ret = hbin_store_tdr(regf,
1289	(tdr_push_fn_t) tdr_push_lf_block,
1290	&lf);
1291
1292	talloc_free(lf.hr);
1293	} else if (regf->header->version.minor == 5) {
1294	/* Store LH */
1295	struct lh_block lh;
1296	ZERO_STRUCT(lh);
1297	lh.header = "lh";
1298	lh.key_count = 1;
1299
1300	lh.hr = talloc_array(regf, struct lh_hash, 1);
1301	W_ERROR_HAVE_NO_MEMORY(lh.hr);
1302	lh.hr[0].nk_offset = key_offset;
1303	lh.hr[0].base37 = regf_create_lh_hash(name);
1304
1305	*ret = hbin_store_tdr(regf,
1306	(tdr_push_fn_t) tdr_push_lh_block,
1307	&lh);
1308
1309	talloc_free(lh.hr);
1310	}
1311	return WERR_OK;
1312	}
1313
1314	data = hbin_get(regf, list_offset);
1315	if (!data.data) {
1316	DEBUG(0, ("Unable to find subkey list\n"));
1317	return WERR_BADFILE;
1318	}
1319
1320	if (!strncmp((char *)data.data, "li", 2)) {
1321	struct tdr_pull *pull = tdr_pull_init(regf);
1322	struct li_block li;
1323	struct nk_block sub_nk;
1324	int32_t i, j;
1325
1326	pull->data = data;
1327
1328	if (NT_STATUS_IS_ERR(tdr_pull_li_block(pull, regf, &li))) {
1329	DEBUG(0, ("Error parsing LI list\n"));
1330	talloc_free(pull);
1331	return WERR_BADFILE;
1332	}
1333	talloc_free(pull);
1334
1335	if (strncmp(li.header, "li", 2) != 0) {
1336	abort();
1337	DEBUG(0, ("LI header corrupt\n"));
1338	return WERR_BADFILE;
1339	}
1340
1341	/*
1342	* Find the position to store the pointer
1343	* Extensive testing reveils that at least on windows 7 subkeys
1344	* MUST be stored in alphabetical order
1345	*/
1346	for (i = 0; i < li.key_count; i++) {
1347	/* Get the nk */
1348	hbin_get_tdr(regf, li.nk_offset[i], regf,
1349	(tdr_pull_fn_t) tdr_pull_nk_block, &sub_nk);
1350	if (strcasecmp(name, sub_nk.key_name) < 0) {
1351	break;
1352	}
1353	}
1354
1355	li.nk_offset = talloc_realloc(regf, li.nk_offset,
1356	uint32_t, li.key_count+1);
1357	W_ERROR_HAVE_NO_MEMORY(li.nk_offset);
1358
1359	/* Move everything behind this offset */
1360	for (j = li.key_count - 1; j >= i; j--) {
1361	li.nk_offset[j+1] = li.nk_offset[j];
1362	}
1363
1364	li.nk_offset[i] = key_offset;
1365	li.key_count++;
1366	*ret = hbin_store_tdr_resize(regf,
1367	(tdr_push_fn_t)tdr_push_li_block,
1368	list_offset, &li);
1369
1370	talloc_free(li.nk_offset);
1371	} else if (!strncmp((char *)data.data, "lf", 2)) {
1372	struct tdr_pull *pull = tdr_pull_init(regf);
1373	struct lf_block lf;
1374	struct nk_block sub_nk;
1375	int32_t i, j;
1376
1377	pull->data = data;
1378
1379	if (NT_STATUS_IS_ERR(tdr_pull_lf_block(pull, regf, &lf))) {
1380	DEBUG(0, ("Error parsing LF list\n"));
1381	talloc_free(pull);
1382	return WERR_BADFILE;
1383	}
1384	talloc_free(pull);
1385	SMB_ASSERT(!strncmp(lf.header, "lf", 2));
1386
1387	/*
1388	* Find the position to store the hash record
1389	* Extensive testing reveils that at least on windows 7 subkeys
1390	* MUST be stored in alphabetical order
1391	*/
1392	for (i = 0; i < lf.key_count; i++) {
1393	/* Get the nk */
1394	hbin_get_tdr(regf, lf.hr[i].nk_offset, regf,
1395	(tdr_pull_fn_t) tdr_pull_nk_block, &sub_nk);
1396	if (strcasecmp(name, sub_nk.key_name) < 0) {
1397	break;
1398	}
1399	}
1400
1401	lf.hr = talloc_realloc(regf, lf.hr, struct hash_record,
1402	lf.key_count+1);
1403	W_ERROR_HAVE_NO_MEMORY(lf.hr);
1404
1405	/* Move everything behind this hash record */
1406	for (j = lf.key_count - 1; j >= i; j--) {
1407	lf.hr[j+1] = lf.hr[j];
1408	}
1409
1410	lf.hr[i].nk_offset = key_offset;
1411	lf.hr[i].hash = talloc_strndup(lf.hr, name, 4);
1412	W_ERROR_HAVE_NO_MEMORY(lf.hr[lf.key_count].hash);
1413	lf.key_count++;
1414	*ret = hbin_store_tdr_resize(regf,
1415	(tdr_push_fn_t)tdr_push_lf_block,
1416	list_offset, &lf);
1417
1418	talloc_free(lf.hr);
1419	} else if (!strncmp((char *)data.data, "lh", 2)) {
1420	struct tdr_pull *pull = tdr_pull_init(regf);
1421	struct lh_block lh;
1422	struct nk_block sub_nk;
1423	int32_t i, j;
1424
1425	pull->data = data;
1426
1427	if (NT_STATUS_IS_ERR(tdr_pull_lh_block(pull, regf, &lh))) {
1428	DEBUG(0, ("Error parsing LH list\n"));
1429	talloc_free(pull);
1430	return WERR_BADFILE;
1431	}
1432	talloc_free(pull);
1433	SMB_ASSERT(!strncmp(lh.header, "lh", 2));
1434
1435	/*
1436	* Find the position to store the hash record
1437	* Extensive testing reveils that at least on windows 7 subkeys
1438	* MUST be stored in alphabetical order
1439	*/
1440	for (i = 0; i < lh.key_count; i++) {
1441	/* Get the nk */
1442	hbin_get_tdr(regf, lh.hr[i].nk_offset, regf,
1443	(tdr_pull_fn_t) tdr_pull_nk_block, &sub_nk);
1444	if (strcasecmp(name, sub_nk.key_name) < 0) {
1445	break;
1446	}
1447	}
1448
1449	lh.hr = talloc_realloc(regf, lh.hr, struct lh_hash,
1450	lh.key_count+1);
1451	W_ERROR_HAVE_NO_MEMORY(lh.hr);
1452
1453	/* Move everything behind this hash record */
1454	for (j = lh.key_count - 1; j >= i; j--) {
1455	lh.hr[j+1] = lh.hr[j];
1456	}
1457
1458	lh.hr[i].nk_offset = key_offset;
1459	lh.hr[i].base37 = regf_create_lh_hash(name);
1460	lh.key_count++;
1461	*ret = hbin_store_tdr_resize(regf,
1462	(tdr_push_fn_t)tdr_push_lh_block,
1463	list_offset, &lh);
1464
1465	talloc_free(lh.hr);
1466	} else if (!strncmp((char *)data.data, "ri", 2)) {
1467	/* FIXME */
1468	DEBUG(0, ("Adding to 'ri' subkey list is not supported yet.\n"));
1469	return WERR_NOT_SUPPORTED;
1470	} else {
1471	DEBUG(0, ("Cannot add to unknown subkey list\n"));
1472	return WERR_BADFILE;
1473	}
1474
1475	return WERR_OK;
1476	}
1477
1478	static WERROR regf_sl_del_entry(struct regf_data *regf, uint32_t list_offset,
1479	uint32_t key_offset, uint32_t *ret)
1480	{
1481	DATA_BLOB data;
1482
1483	data = hbin_get(regf, list_offset);
1484	if (!data.data) {
1485	DEBUG(0, ("Unable to find subkey list\n"));
1486	return WERR_BADFILE;
1487	}
1488
1489	if (strncmp((char *)data.data, "li", 2) == 0) {
1490	struct li_block li;
1491	struct tdr_pull *pull = tdr_pull_init(regf);
1492	uint16_t i;
1493	bool found_offset = false;
1494
1495	DEBUG(10, ("Subkeys in LI list\n"));
1496
1497	pull->data = data;
1498
1499	if (NT_STATUS_IS_ERR(tdr_pull_li_block(pull, regf, &li))) {
1500	DEBUG(0, ("Error parsing LI list\n"));
1501	talloc_free(pull);
1502	return WERR_BADFILE;
1503	}
1504	talloc_free(pull);
1505
1506	SMB_ASSERT(!strncmp(li.header, "li", 2));
1507
1508	for (i = 0; i < li.key_count; i++) {
1509	if (found_offset) {
1510	li.nk_offset[i-1] = li.nk_offset[i];
1511	}
1512	if (li.nk_offset[i] == key_offset) {
1513	found_offset = true;
1514	continue;
1515	}
1516	}
1517	if (!found_offset) {
1518	DEBUG(2, ("Subkey not found\n"));
1519	return WERR_BADFILE;
1520	}
1521	li.key_count--;
1522
1523	/* If the there are no entries left, free the subkey list */
1524	if (li.key_count == 0) {
1525	hbin_free(regf, list_offset);
1526	*ret = -1;
1527	}
1528
1529	/* Store li block */
1530	*ret = hbin_store_tdr_resize(regf,
1531	(tdr_push_fn_t) tdr_push_li_block,
1532	list_offset, &li);
1533	} else if (strncmp((char *)data.data, "lf", 2) == 0) {
1534	struct lf_block lf;
1535	struct tdr_pull *pull = tdr_pull_init(regf);
1536	uint16_t i;
1537	bool found_offset = false;
1538
1539	DEBUG(10, ("Subkeys in LF list\n"));
1540
1541	pull->data = data;
1542
1543	if (NT_STATUS_IS_ERR(tdr_pull_lf_block(pull, regf, &lf))) {
1544	DEBUG(0, ("Error parsing LF list\n"));
1545	talloc_free(pull);
1546	return WERR_BADFILE;
1547	}
1548	talloc_free(pull);
1549
1550	SMB_ASSERT(!strncmp(lf.header, "lf", 2));
1551
1552	for (i = 0; i < lf.key_count; i++) {
1553	if (found_offset) {
1554	lf.hr[i-1] = lf.hr[i];
1555	continue;
1556	}
1557	if (lf.hr[i].nk_offset == key_offset) {
1558	found_offset = 1;
1559	continue;
1560	}
1561	}
1562	if (!found_offset) {
1563	DEBUG(2, ("Subkey not found\n"));
1564	return WERR_BADFILE;
1565	}
1566	lf.key_count--;
1567
1568	/* If the there are no entries left, free the subkey list */
1569	if (lf.key_count == 0) {
1570	hbin_free(regf, list_offset);
1571	*ret = -1;
1572	return WERR_OK;
1573	}
1574
1575	/* Store lf block */
1576	*ret = hbin_store_tdr_resize(regf,
1577	(tdr_push_fn_t) tdr_push_lf_block,
1578	list_offset, &lf);
1579	} else if (strncmp((char *)data.data, "lh", 2) == 0) {
1580	struct lh_block lh;
1581	struct tdr_pull *pull = tdr_pull_init(regf);
1582	uint16_t i;
1583	bool found_offset = false;
1584
1585	DEBUG(10, ("Subkeys in LH list\n"));
1586
1587	pull->data = data;
1588
1589	if (NT_STATUS_IS_ERR(tdr_pull_lh_block(pull, regf, &lh))) {
1590	DEBUG(0, ("Error parsing LF list\n"));
1591	talloc_free(pull);
1592	return WERR_BADFILE;
1593	}
1594	talloc_free(pull);
1595
1596	SMB_ASSERT(!strncmp(lh.header, "lh", 2));
1597
1598	for (i = 0; i < lh.key_count; i++) {
1599	if (found_offset) {
1600	lh.hr[i-1] = lh.hr[i];
1601	continue;
1602	}
1603	if (lh.hr[i].nk_offset == key_offset) {
1604	found_offset = 1;
1605	continue;
1606	}
1607	}
1608	if (!found_offset) {
1609	DEBUG(0, ("Subkey not found\n"));
1610	return WERR_BADFILE;
1611	}
1612	lh.key_count--;
1613
1614	/* If the there are no entries left, free the subkey list */
1615	if (lh.key_count == 0) {
1616	hbin_free(regf, list_offset);
1617	*ret = -1;
1618	return WERR_OK;
1619	}
1620
1621	/* Store lh block */
1622	*ret = hbin_store_tdr_resize(regf,
1623	(tdr_push_fn_t) tdr_push_lh_block,
1624	list_offset, &lh);
1625	} else if (strncmp((char *)data.data, "ri", 2) == 0) {
1626	/* FIXME */
1627	DEBUG(0, ("Sorry, deletion from ri block is not supported yet.\n"));
1628	return WERR_NOT_SUPPORTED;
1629	} else {
1630	DEBUG (0, ("Unknown header found in subkey list.\n"));
1631	return WERR_BADFILE;
1632	}
1633	return WERR_OK;
1634	}
1635
1636	static WERROR regf_del_value(TALLOC_CTX mem_ctx, struct hive_key key,
1637	const char *name)
1638	{
1639	struct regf_key_data private_data = (struct regf_key_data )key;
1640	struct regf_data *regf = private_data->hive;
1641	struct nk_block *nk = private_data->nk;
1642	struct vk_block vk;
1643	uint32_t vk_offset;
1644	bool found_offset = false;
1645	DATA_BLOB values;
1646	unsigned int i;
1647
1648	if (nk->values_offset == -1) {
1649	return WERR_BADFILE;
1650	}
1651
1652	values = hbin_get(regf, nk->values_offset);
1653
1654	for (i = 0; i < nk->num_values; i++) {
1655	if (found_offset) {
1656	((uint32_t )values.data)[i-1] = ((uint32_t ) values.data)[i];
1657	} else {
1658	vk_offset = IVAL(values.data, i * 4);
1659	if (!hbin_get_tdr(regf, vk_offset, private_data,
1660	(tdr_pull_fn_t)tdr_pull_vk_block,
1661	&vk)) {
1662	DEBUG(0, ("Unable to get VK block at %d\n",
1663	vk_offset));
1664	return WERR_BADFILE;
1665	}
1666	if (strcmp(vk.data_name, name) == 0) {
1667	hbin_free(regf, vk_offset);
1668	found_offset = true;
1669	}
1670	}
1671	}
1672	if (!found_offset) {
1673	return WERR_BADFILE;
1674	} else {
1675	nk->num_values--;
1676	values.length = (nk->num_values)*4;
1677	}
1678
1679	/* Store values list and nk */
1680	if (nk->num_values == 0) {
1681	hbin_free(regf, nk->values_offset);
1682	nk->values_offset = -1;
1683	} else {
1684	nk->values_offset = hbin_store_resize(regf,
1685	nk->values_offset,
1686	values);
1687	}
1688	hbin_store_tdr_resize(regf, (tdr_push_fn_t) tdr_push_nk_block,
1689	private_data->offset, nk);
1690
1691	return regf_save_hbin(private_data->hive, 0);
1692	}
1693
1694
1695	static WERROR regf_del_key(TALLOC_CTX mem_ctx, const struct hive_key parent,
1696	const char *name)
1697	{
1698	const struct regf_key_data *private_data =
1699	(const struct regf_key_data *)parent;
1700	struct regf_key_data *key;
1701	struct nk_block *parent_nk;
1702	WERROR error;
1703
1704	SMB_ASSERT(private_data);
1705
1706	parent_nk = private_data->nk;
1707
1708	if (parent_nk->subkeys_offset == -1) {
1709	DEBUG(4, ("Subkey list is empty, this key cannot contain subkeys.\n"));
1710	return WERR_BADFILE;
1711	}
1712
1713	/* Find the key */
1714	if (!W_ERROR_IS_OK(regf_get_subkey_by_name(parent_nk, parent, name,
1715	(struct hive_key **)&key))) {
1716	DEBUG(2, ("Key '%s' not found\n", name));
1717	return WERR_BADFILE;
1718	}
1719
1720	if (key->nk->subkeys_offset != -1) {
1721	char *sk_name;
1722	struct hive_key sk = (struct hive_key )key;
1723	unsigned int i = key->nk->num_subkeys;
1724	while (i--) {
1725	/* Get subkey information. */
1726	error = regf_get_subkey_by_index(parent_nk, sk, 0,
1727	(const char **)&sk_name,
1728	NULL, NULL);
1729	if (!W_ERROR_IS_OK(error)) {
1730	DEBUG(0, ("Can't retrieve subkey by index.\n"));
1731	return error;
1732	}
1733
1734	/* Delete subkey. */
1735	error = regf_del_key(NULL, sk, sk_name);
1736	if (!W_ERROR_IS_OK(error)) {
1737	DEBUG(0, ("Can't delete key '%s'.\n", sk_name));
1738	return error;
1739	}
1740
1741	talloc_free(sk_name);
1742	}
1743	}
1744
1745	if (key->nk->values_offset != -1) {
1746	char *val_name;
1747	struct hive_key sk = (struct hive_key )key;
1748	DATA_BLOB data;
1749	unsigned int i = key->nk->num_values;
1750	while (i--) {
1751	/* Get value information. */
1752	error = regf_get_value(parent_nk, sk, 0,
1753	(const char **)&val_name,
1754	NULL, &data);
1755	if (!W_ERROR_IS_OK(error)) {
1756	DEBUG(0, ("Can't retrieve value by index.\n"));
1757	return error;
1758	}
1759
1760	/* Delete value. */
1761	error = regf_del_value(NULL, sk, val_name);
1762	if (!W_ERROR_IS_OK(error)) {
1763	DEBUG(0, ("Can't delete value '%s'.\n", val_name));
1764	return error;
1765	}
1766
1767	talloc_free(val_name);
1768	}
1769	}
1770
1771	/* Delete it from the subkey list. */
1772	error = regf_sl_del_entry(private_data->hive, parent_nk->subkeys_offset,
1773	key->offset, &parent_nk->subkeys_offset);
1774	if (!W_ERROR_IS_OK(error)) {
1775	DEBUG(0, ("Can't store new subkey list for parent key. Won't delete.\n"));
1776	return error;
1777	}
1778
1779	/* Re-store parent key */
1780	parent_nk->num_subkeys--;
1781	hbin_store_tdr_resize(private_data->hive,
1782	(tdr_push_fn_t) tdr_push_nk_block,
1783	private_data->offset, parent_nk);
1784
1785	if (key->nk->clsname_offset != -1) {
1786	hbin_free(private_data->hive, key->nk->clsname_offset);
1787	}
1788	hbin_free(private_data->hive, key->offset);
1789
1790	return regf_save_hbin(private_data->hive, 0);
1791	}
1792
1793	static WERROR regf_add_key(TALLOC_CTX ctx, const struct hive_key parent,
1794	const char name, const char classname,
1795	struct security_descriptor *sec_desc,
1796	struct hive_key **ret)
1797	{
1798	const struct regf_key_data *private_data =
1799	(const struct regf_key_data *)parent;
1800	struct nk_block *parent_nk = private_data->nk, nk;
1801	struct nk_block *root;
1802	struct regf_data *regf = private_data->hive;
1803	uint32_t offset;
1804	WERROR error;
1805
1806	nk.header = "nk";
1807	nk.type = REG_SUB_KEY;
1808	unix_to_nt_time(&nk.last_change, time(NULL));
1809	nk.uk1 = 0;
1810	nk.parent_offset = private_data->offset;
1811	nk.num_subkeys = 0;
1812	nk.uk2 = 0;
1813	nk.subkeys_offset = -1;
1814	nk.unknown_offset = -1;
1815	nk.num_values = 0;
1816	nk.values_offset = -1;
1817	memset(nk.unk3, 0, sizeof(nk.unk3));
1818	nk.clsname_offset = -1; /* FIXME: fill in */
1819	nk.clsname_length = 0;
1820	nk.key_name = name;
1821
1822	/* Get the security descriptor of the root key */
1823	root = talloc_zero(ctx, struct nk_block);
1824	W_ERROR_HAVE_NO_MEMORY(root);
1825
1826	if (!hbin_get_tdr(regf, regf->header->data_offset, root,
1827	(tdr_pull_fn_t)tdr_pull_nk_block, root)) {
1828	DEBUG(0, ("Unable to find HBIN data for offset 0x%x\n",
1829	regf->header->data_offset));
1830	return WERR_GENERAL_FAILURE;
1831	}
1832	nk.sk_offset = root->sk_offset;
1833	talloc_free(root);
1834
1835	/* Store the new nk key */
1836	offset = hbin_store_tdr(regf, (tdr_push_fn_t) tdr_push_nk_block, &nk);
1837
1838	error = regf_sl_add_entry(regf, parent_nk->subkeys_offset, name, offset,
1839	&parent_nk->subkeys_offset);
1840	if (!W_ERROR_IS_OK(error)) {
1841	hbin_free(regf, offset);
1842	return error;
1843	}
1844
1845	parent_nk->num_subkeys++;
1846
1847	/* Since the subkey offset of the parent can change, store it again */
1848	hbin_store_tdr_resize(regf, (tdr_push_fn_t) tdr_push_nk_block,
1849	nk.parent_offset, parent_nk);
1850
1851	ret = (struct hive_key )regf_get_key(ctx, regf, offset);
1852
1853	DEBUG(9, ("Storing key %s\n", name));
1854	return regf_save_hbin(private_data->hive, 0);
1855	}
1856
1857	static WERROR regf_set_value(struct hive_key key, const char name,
1858	uint32_t type, const DATA_BLOB data)
1859	{
1860	struct regf_key_data private_data = (struct regf_key_data )key;
1861	struct regf_data *regf = private_data->hive;
1862	struct nk_block *nk = private_data->nk;
1863	struct vk_block vk;
1864	uint32_t i;
1865	uint32_t tmp_vk_offset, vk_offset, old_vk_offset = (uint32_t) -1;
1866	DATA_BLOB values;
1867
1868	ZERO_STRUCT(vk);
1869
1870	/* find the value offset, if it exists */
1871	if (nk->values_offset != -1) {
1872	values = hbin_get(regf, nk->values_offset);
1873
1874	for (i = 0; i < nk->num_values; i++) {
1875	tmp_vk_offset = IVAL(values.data, i * 4);
1876	if (!hbin_get_tdr(regf, tmp_vk_offset, private_data,
1877	(tdr_pull_fn_t)tdr_pull_vk_block,
1878	&vk)) {
1879	DEBUG(0, ("Unable to get VK block at 0x%x\n",
1880	tmp_vk_offset));
1881	return WERR_GENERAL_FAILURE;
1882	}
1883	if (strcmp(vk.data_name, name) == 0) {
1884	old_vk_offset = tmp_vk_offset;
1885	break;
1886	}
1887	}
1888	}
1889
1890	/* If it's new, create the vk struct, if it's old, free the old data. */
1891	if (old_vk_offset == -1) {
1892	vk.header = "vk";
1893	vk.name_length = strlen(name);
1894	if (name != NULL && name[0] != 0) {
1895	vk.flag = 1;
1896	vk.data_name = name;
1897	} else {
1898	vk.data_name = NULL;
1899	vk.flag = 0;
1900	}
1901	} else {
1902	/* Free data, if any */
1903	if (!(vk.data_length & 0x80000000)) {
1904	hbin_free(regf, vk.data_offset);
1905	}
1906	}
1907
1908	/* Set the type and data */
1909	vk.data_length = data.length;
1910	vk.data_type = type;
1911	if ((type == REG_DWORD) \|\| (type == REG_DWORD_BIG_ENDIAN)) {
1912	if (vk.data_length != sizeof(uint32_t)) {
1913	DEBUG(0, ("DWORD or DWORD_BIG_ENDIAN value with size other than 4 byte!\n"));
1914	return WERR_NOT_SUPPORTED;
1915	}
1916	vk.data_length \|= 0x80000000;
1917	vk.data_offset = IVAL(data.data, 0);
1918	} else {
1919	/* Store data somewhere */
1920	vk.data_offset = hbin_store(regf, data);
1921	}
1922	if (old_vk_offset == -1) {
1923	/* Store new vk */
1924	vk_offset = hbin_store_tdr(regf,
1925	(tdr_push_fn_t) tdr_push_vk_block,
1926	&vk);
1927	} else {
1928	/* Store vk at offset */
1929	vk_offset = hbin_store_tdr_resize(regf,
1930	(tdr_push_fn_t) tdr_push_vk_block,
1931	old_vk_offset ,&vk);
1932	}
1933
1934	/* Re-allocate the value list */
1935	if (nk->values_offset == -1) {
1936	nk->values_offset = hbin_store_tdr(regf,
1937	(tdr_push_fn_t) tdr_push_uint32,
1938	&vk_offset);
1939	nk->num_values = 1;
1940	} else {
1941
1942	/* Change if we're changing, otherwise we're adding the value */
1943	if (old_vk_offset != -1) {
1944	/* Find and overwrite the offset. */
1945	for (i = 0; i < nk->num_values; i++) {
1946	if (IVAL(values.data, i * 4) == old_vk_offset) {
1947	SIVAL(values.data, i * 4, vk_offset);
1948	break;
1949	}
1950	}
1951	} else {
1952	/* Create a new value list */
1953	DATA_BLOB value_list;
1954
1955	value_list.length = (nk->num_values+1)*4;
1956	value_list.data = (uint8_t *)talloc_array(private_data,
1957	uint32_t,
1958	nk->num_values+1);
1959	W_ERROR_HAVE_NO_MEMORY(value_list.data);
1960	memcpy(value_list.data, values.data, nk->num_values * 4);
1961
1962	SIVAL(value_list.data, nk->num_values * 4, vk_offset);
1963	nk->num_values++;
1964	nk->values_offset = hbin_store_resize(regf,
1965	nk->values_offset,
1966	value_list);
1967	}
1968
1969	}
1970	hbin_store_tdr_resize(regf,
1971	(tdr_push_fn_t) tdr_push_nk_block,
1972	private_data->offset, nk);
1973	return regf_save_hbin(private_data->hive, 0);
1974	}
1975
1976	static WERROR regf_save_hbin(struct regf_data *regf, bool flush)
1977	{
1978	struct tdr_push *push = tdr_push_init(regf);
1979	unsigned int i;
1980
1981	W_ERROR_HAVE_NO_MEMORY(push);
1982
1983	/* Only write once every 5 seconds, or when flush is set */
1984	if (!flush && regf->last_write + 5 >= time(NULL)) {
1985	return WERR_OK;
1986	}
1987
1988	regf->last_write = time(NULL);
1989
1990	if (lseek(regf->fd, 0, SEEK_SET) == -1) {
1991	DEBUG(0, ("Error lseeking in regf file\n"));
1992	return WERR_GENERAL_FAILURE;
1993	}
1994
1995	/* Recompute checksum */
1996	if (NT_STATUS_IS_ERR(tdr_push_regf_hdr(push, regf->header))) {
1997	DEBUG(0, ("Failed to push regf header\n"));
1998	return WERR_GENERAL_FAILURE;
1999	}
2000	regf->header->chksum = regf_hdr_checksum(push->data.data);
2001	talloc_free(push);
2002
2003	if (NT_STATUS_IS_ERR(tdr_push_to_fd(regf->fd,
2004	(tdr_push_fn_t)tdr_push_regf_hdr,
2005	regf->header))) {
2006	DEBUG(0, ("Error writing registry file header\n"));
2007	return WERR_GENERAL_FAILURE;
2008	}
2009
2010	if (lseek(regf->fd, 0x1000, SEEK_SET) == -1) {
2011	DEBUG(0, ("Error lseeking to 0x1000 in regf file\n"));
2012	return WERR_GENERAL_FAILURE;
2013	}
2014
2015	for (i = 0; regf->hbins[i]; i++) {
2016	if (NT_STATUS_IS_ERR(tdr_push_to_fd(regf->fd,
2017	(tdr_push_fn_t)tdr_push_hbin_block,
2018	regf->hbins[i]))) {
2019	DEBUG(0, ("Error writing HBIN block\n"));
2020	return WERR_GENERAL_FAILURE;
2021	}
2022	}
2023
2024	return WERR_OK;
2025	}
2026
2027	WERROR reg_create_regf_file(TALLOC_CTX *parent_ctx,
2028	const char *location,
2029	int minor_version, struct hive_key **key)
2030	{
2031	struct regf_data *regf;
2032	struct regf_hdr *regf_hdr;
2033	struct nk_block nk;
2034	struct sk_block sk;
2035	WERROR error;
2036	DATA_BLOB data;
2037	struct security_descriptor *sd;
2038	uint32_t sk_offset;
2039
2040	regf = (struct regf_data *)talloc_zero(NULL, struct regf_data);
2041
2042	W_ERROR_HAVE_NO_MEMORY(regf);
2043
2044	DEBUG(5, ("Attempting to create registry file\n"));
2045
2046	/* Get the header */
2047	regf->fd = creat(location, 0644);
2048
2049	if (regf->fd == -1) {
2050	DEBUG(0,("Could not create file: %s, %s\n", location,
2051	strerror(errno)));
2052	talloc_free(regf);
2053	return WERR_GENERAL_FAILURE;
2054	}
2055
2056	regf_hdr = talloc_zero(regf, struct regf_hdr);
2057	W_ERROR_HAVE_NO_MEMORY(regf_hdr);
2058	regf_hdr->REGF_ID = "regf";
2059	unix_to_nt_time(&regf_hdr->modtime, time(NULL));
2060	regf_hdr->version.major = 1;
2061	regf_hdr->version.minor = minor_version;
2062	regf_hdr->last_block = 0x1000; /* Block size */
2063	regf_hdr->description = talloc_strdup(regf_hdr,
2064	"Registry created by Samba 4");
2065	W_ERROR_HAVE_NO_MEMORY(regf_hdr->description);
2066	regf_hdr->chksum = 0;
2067
2068	regf->header = regf_hdr;
2069
2070	/* Create all hbin blocks */
2071	regf->hbins = talloc_array(regf, struct hbin_block *, 1);
2072	W_ERROR_HAVE_NO_MEMORY(regf->hbins);
2073	regf->hbins[0] = NULL;
2074
2075	nk.header = "nk";
2076	nk.type = REG_ROOT_KEY;
2077	unix_to_nt_time(&nk.last_change, time(NULL));
2078	nk.uk1 = 0;
2079	nk.parent_offset = -1;
2080	nk.num_subkeys = 0;
2081	nk.uk2 = 0;
2082	nk.subkeys_offset = -1;
2083	nk.unknown_offset = -1;
2084	nk.num_values = 0;
2085	nk.values_offset = -1;
2086	memset(nk.unk3, 0, 5);
2087	nk.clsname_offset = -1;
2088	nk.clsname_length = 0;
2089	nk.sk_offset = 0x80;
2090	nk.key_name = "SambaRootKey";
2091
2092	/*
2093	* It should be noted that changing the key_name to something shorter
2094	* creates a shorter nk block, which makes the position of the sk block
2095	* change. All Windows registries I've seen have the sk at 0x80.
2096	* I therefore recommend that our regf files share that offset -- Wilco
2097	*/
2098
2099	/* Create a security descriptor. */
2100	sd = security_descriptor_dacl_create(regf,
2101	0,
2102	NULL, NULL,
2103	SID_NT_AUTHENTICATED_USERS,
2104	SEC_ACE_TYPE_ACCESS_ALLOWED,
2105	SEC_GENERIC_ALL,
2106	SEC_ACE_FLAG_OBJECT_INHERIT,
2107	NULL);
2108
2109	/* Push the security descriptor to a blob */
2110	if (!NDR_ERR_CODE_IS_SUCCESS(ndr_push_struct_blob(&data, regf,
2111	sd, (ndr_push_flags_fn_t)ndr_push_security_descriptor))) {
2112	DEBUG(0, ("Unable to push security descriptor\n"));
2113	return WERR_GENERAL_FAILURE;
2114	}
2115
2116	ZERO_STRUCT(sk);
2117	sk.header = "sk";
2118	sk.prev_offset = 0x80;
2119	sk.next_offset = 0x80;
2120	sk.ref_cnt = 1;
2121	sk.rec_size = data.length;
2122	sk.sec_desc = data.data;
2123
2124	/* Store the new nk key */
2125	regf->header->data_offset = hbin_store_tdr(regf,
2126	(tdr_push_fn_t)tdr_push_nk_block,
2127	&nk);
2128	/* Store the sk block */
2129	sk_offset = hbin_store_tdr(regf,
2130	(tdr_push_fn_t) tdr_push_sk_block,
2131	&sk);
2132	if (sk_offset != 0x80) {
2133	DEBUG(0, ("Error storing sk block, should be at 0x80, stored at 0x%x\n", nk.sk_offset));
2134	return WERR_GENERAL_FAILURE;
2135	}
2136
2137
2138	key = (struct hive_key )regf_get_key(parent_ctx, regf,
2139	regf->header->data_offset);
2140
2141	error = regf_save_hbin(regf, 1);
2142	if (!W_ERROR_IS_OK(error)) {
2143	return error;
2144	}
2145
2146	/* We can drop our own reference now that key will have created one /
2147	talloc_unlink(NULL, regf);
2148
2149	return WERR_OK;
2150	}
2151
2152	static WERROR regf_flush_key(struct hive_key *key)
2153	{
2154	struct regf_key_data private_data = (struct regf_key_data )key;
2155	struct regf_data *regf = private_data->hive;
2156	WERROR error;
2157
2158	error = regf_save_hbin(regf, 1);
2159	if (!W_ERROR_IS_OK(error)) {
2160	DEBUG(0, ("Failed to flush regf to disk\n"));
2161	return error;
2162	}
2163
2164	return WERR_OK;
2165	}
2166
2167	static int regf_destruct(struct regf_data *regf)
2168	{
2169	WERROR error;
2170
2171	/* Write to disk */
2172	error = regf_save_hbin(regf, 1);
2173	if (!W_ERROR_IS_OK(error)) {
2174	DEBUG(0, ("Failed to flush registry to disk\n"));
2175	return -1;
2176	}
2177
2178	/* Close file descriptor */
2179	close(regf->fd);
2180
2181	return 0;
2182	}
2183
2184	WERROR reg_open_regf_file(TALLOC_CTX parent_ctx, const char location,
2185	struct hive_key **key)
2186	{
2187	struct regf_data *regf;
2188	struct regf_hdr *regf_hdr;
2189	struct tdr_pull *pull;
2190	unsigned int i;
2191
2192	regf = (struct regf_data *)talloc_zero(parent_ctx, struct regf_data);
2193	W_ERROR_HAVE_NO_MEMORY(regf);
2194
2195	talloc_set_destructor(regf, regf_destruct);
2196
2197	DEBUG(5, ("Attempting to load registry file\n"));
2198
2199	/* Get the header */
2200	regf->fd = open(location, O_RDWR);
2201
2202	if (regf->fd == -1) {
2203	DEBUG(0,("Could not load file: %s, %s\n", location,
2204	strerror(errno)));
2205	talloc_free(regf);
2206	return WERR_GENERAL_FAILURE;
2207	}
2208
2209	pull = tdr_pull_init(regf);
2210
2211	pull->data.data = (uint8_t*)fd_load(regf->fd, &pull->data.length, 0, regf);
2212
2213	if (pull->data.data == NULL) {
2214	DEBUG(0, ("Error reading data\n"));
2215	talloc_free(regf);
2216	return WERR_GENERAL_FAILURE;
2217	}
2218
2219	regf_hdr = talloc(regf, struct regf_hdr);
2220	W_ERROR_HAVE_NO_MEMORY(regf_hdr);
2221
2222	if (NT_STATUS_IS_ERR(tdr_pull_regf_hdr(pull, regf_hdr, regf_hdr))) {
2223	talloc_free(regf);
2224	return WERR_GENERAL_FAILURE;
2225	}
2226
2227	regf->header = regf_hdr;
2228
2229	if (strcmp(regf_hdr->REGF_ID, "regf") != 0) {
2230	DEBUG(0, ("Unrecognized NT registry header id: %s, %s\n",
2231	regf_hdr->REGF_ID, location));
2232	talloc_free(regf);
2233	return WERR_GENERAL_FAILURE;
2234	}
2235
2236	/* Validate the header ... */
2237	if (regf_hdr_checksum(pull->data.data) != regf_hdr->chksum) {
2238	DEBUG(0, ("Registry file checksum error: %s: %d,%d\n",
2239	location, regf_hdr->chksum,
2240	regf_hdr_checksum(pull->data.data)));
2241	talloc_free(regf);
2242	return WERR_GENERAL_FAILURE;
2243	}
2244
2245	pull->offset = 0x1000;
2246
2247	i = 0;
2248	/* Read in all hbin blocks */
2249	regf->hbins = talloc_array(regf, struct hbin_block *, 1);
2250	W_ERROR_HAVE_NO_MEMORY(regf->hbins);
2251
2252	regf->hbins[0] = NULL;
2253
2254	while (pull->offset < pull->data.length &&
2255	pull->offset <= regf->header->last_block) {
2256	struct hbin_block *hbin = talloc(regf->hbins,
2257	struct hbin_block);
2258
2259	W_ERROR_HAVE_NO_MEMORY(hbin);
2260
2261	if (NT_STATUS_IS_ERR(tdr_pull_hbin_block(pull, hbin, hbin))) {
2262	DEBUG(0, ("[%d] Error parsing HBIN block\n", i));
2263	talloc_free(regf);
2264	return WERR_FOOBAR;
2265	}
2266
2267	if (strcmp(hbin->HBIN_ID, "hbin") != 0) {
2268	DEBUG(0, ("[%d] Expected 'hbin', got '%s'\n",
2269	i, hbin->HBIN_ID));
2270	talloc_free(regf);
2271	return WERR_FOOBAR;
2272	}
2273
2274	regf->hbins[i] = hbin;
2275	i++;
2276	regf->hbins = talloc_realloc(regf, regf->hbins,
2277	struct hbin_block *, i+2);
2278	regf->hbins[i] = NULL;
2279	}
2280
2281	talloc_free(pull);
2282
2283	DEBUG(1, ("%d HBIN blocks read\n", i));
2284
2285	key = (struct hive_key )regf_get_key(parent_ctx, regf,
2286	regf->header->data_offset);
2287
2288	/* We can drop our own reference now that key will have created one /
2289	talloc_unlink(parent_ctx, regf);
2290
2291	return WERR_OK;
2292	}
2293
2294	static struct hive_operations reg_backend_regf = {
2295	.name = "regf",
2296	.get_key_info = regf_get_info,
2297	.enum_key = regf_get_subkey_by_index,
2298	.get_key_by_name = regf_get_subkey_by_name,
2299	.get_value_by_name = regf_get_value_by_name,
2300	.enum_value = regf_get_value,
2301	.get_sec_desc = regf_get_sec_desc,
2302	.set_sec_desc = regf_set_sec_desc,
2303	.add_key = regf_add_key,
2304	.set_value = regf_set_value,
2305	.del_key = regf_del_key,
2306	.delete_value = regf_del_value,
2307	.flush_key = regf_flush_key
2308	};

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