source: trunk/lib/regfi.c @ 99

Last change on this file since 99 was 99, checked in by tim, 17 years ago

fixed a range_list bug

replaced NK parsing routine

  • Property svn:keywords set to Id
File size: 44.1 KB
Line 
1/*
2 * Branched from Samba project Subversion repository, version #7470:
3 *   http://viewcvs.samba.org/cgi-bin/viewcvs.cgi/trunk/source/registry/regfio.c?rev=7470&view=auto
4 *
5 * Unix SMB/CIFS implementation.
6 * Windows NT registry I/O library
7 *
8 * Copyright (C) 2005-2008 Timothy D. Morgan
9 * Copyright (C) 2005 Gerald (Jerry) Carter
10 *
11 * This program is free software; you can redistribute it and/or modify
12 * it under the terms of the GNU General Public License as published by
13 * the Free Software Foundation; version 2 of the License.
14 *
15 * This program is distributed in the hope that it will be useful,
16 * but WITHOUT ANY WARRANTY; without even the implied warranty of
17 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
18 * GNU General Public License for more details.
19 *
20 * You should have received a copy of the GNU General Public License
21 * along with this program; if not, write to the Free Software
22 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. 
23 *
24 * $Id: regfi.c 99 2008-03-04 00:38:48Z tim $
25 */
26
27#include "../include/regfi.h"
28
29
30/* Registry types mapping */
31const unsigned int regfi_num_reg_types = 12;
32static const char* regfi_type_names[] =
33  {"NONE", "SZ", "EXPAND_SZ", "BINARY", "DWORD", "DWORD_BE", "LINK",
34   "MULTI_SZ", "RSRC_LIST", "RSRC_DESC", "RSRC_REQ_LIST", "QWORD"};
35
36
37/* Returns NULL on error */
38const char* regfi_type_val2str(unsigned int val)
39{
40  if(val == REG_KEY)
41    return "KEY";
42 
43  if(val >= regfi_num_reg_types)
44    return NULL;
45 
46  return regfi_type_names[val];
47}
48
49
50/* Returns -1 on error */
51int regfi_type_str2val(const char* str)
52{
53  int i;
54
55  if(strcmp("KEY", str) == 0)
56    return REG_KEY;
57
58  for(i=0; i < regfi_num_reg_types; i++)
59    if (strcmp(regfi_type_names[i], str) == 0) 
60      return i;
61
62  if(strcmp("DWORD_LE", str) == 0)
63    return REG_DWORD_LE;
64
65  return -1;
66}
67
68
69/* Security descriptor parsing functions  */
70
71const char* regfi_ace_type2str(uint8 type)
72{
73  static const char* map[7] 
74    = {"ALLOW", "DENY", "AUDIT", "ALARM", 
75       "ALLOW CPD", "OBJ ALLOW", "OBJ DENY"};
76  if(type < 7)
77    return map[type];
78  else
79    /* XXX: would be nice to return the unknown integer value. 
80     *      However, as it is a const string, it can't be free()ed later on,
81     *      so that would need to change.
82     */
83    return "UNKNOWN";
84}
85
86
87/* XXX: need a better reference on the meaning of each flag. */
88/* For more info, see:
89 *   http://msdn2.microsoft.com/en-us/library/aa772242.aspx
90 */
91char* regfi_ace_flags2str(uint8 flags)
92{
93  static const char* flag_map[32] = 
94    { "OI", /* Object Inherit */
95      "CI", /* Container Inherit */
96      "NP", /* Non-Propagate */
97      "IO", /* Inherit Only */
98      "IA", /* Inherited ACE */
99      NULL,
100      NULL,
101      NULL,
102    };
103
104  char* ret_val = malloc(35*sizeof(char));
105  char* fo = ret_val;
106  uint32 i;
107  uint8 f;
108
109  if(ret_val == NULL)
110    return NULL;
111
112  fo[0] = '\0';
113  if (!flags)
114    return ret_val;
115
116  for(i=0; i < 8; i++)
117  {
118    f = (1<<i);
119    if((flags & f) && (flag_map[i] != NULL))
120    {
121      strcpy(fo, flag_map[i]);
122      fo += strlen(flag_map[i]);
123      *(fo++) = ' ';
124      flags ^= f;
125    }
126  }
127 
128  /* Any remaining unknown flags are added at the end in hex. */
129  if(flags != 0)
130    sprintf(fo, "0x%.2X ", flags);
131
132  /* Chop off the last space if we've written anything to ret_val */
133  if(fo != ret_val)
134    fo[-1] = '\0';
135
136  /* XXX: what was this old VI flag for??
137     XXX: Is this check right?  0xF == 1|2|4|8, which makes it redundant...
138  if (flags == 0xF) {
139    if (some) strcat(flg_output, " ");
140    some = 1;
141    strcat(flg_output, "VI");
142  }
143  */
144
145  return ret_val;
146}
147
148
149char* regfi_ace_perms2str(uint32 perms)
150{
151  uint32 i, p;
152  /* This is more than is needed by a fair margin. */
153  char* ret_val = malloc(350*sizeof(char));
154  char* r = ret_val;
155
156  /* Each represents one of 32 permissions bits.  NULL is for undefined/reserved bits.
157   * For more information, see:
158   *   http://msdn2.microsoft.com/en-gb/library/aa374892.aspx
159   *   http://msdn2.microsoft.com/en-gb/library/ms724878.aspx
160   */
161  static const char* perm_map[32] = 
162    {/* object-specific permissions (registry keys, in this case) */
163      "QRY_VAL",       /* KEY_QUERY_VALUE */
164      "SET_VAL",       /* KEY_SET_VALUE */
165      "CREATE_KEY",    /* KEY_CREATE_SUB_KEY */
166      "ENUM_KEYS",     /* KEY_ENUMERATE_SUB_KEYS */
167      "NOTIFY",        /* KEY_NOTIFY */
168      "CREATE_LNK",    /* KEY_CREATE_LINK - Reserved for system use. */
169      NULL,
170      NULL,
171      "WOW64_64",      /* KEY_WOW64_64KEY */
172      "WOW64_32",      /* KEY_WOW64_32KEY */
173      NULL,
174      NULL,
175      NULL,
176      NULL,
177      NULL,
178      NULL,
179      /* standard access rights */
180      "DELETE",        /* DELETE */
181      "R_CONT",        /* READ_CONTROL */
182      "W_DAC",         /* WRITE_DAC */
183      "W_OWNER",       /* WRITE_OWNER */
184      "SYNC",          /* SYNCHRONIZE - Shouldn't be set in registries */
185      NULL,
186      NULL,
187      NULL,
188      /* other generic */
189      "SYS_SEC",       /* ACCESS_SYSTEM_SECURITY */
190      "MAX_ALLWD",     /* MAXIMUM_ALLOWED */
191      NULL,
192      NULL,
193      "GEN_A",         /* GENERIC_ALL */
194      "GEN_X",         /* GENERIC_EXECUTE */
195      "GEN_W",         /* GENERIC_WRITE */
196      "GEN_R",         /* GENERIC_READ */
197    };
198
199
200  if(ret_val == NULL)
201    return NULL;
202
203  r[0] = '\0';
204  for(i=0; i < 32; i++)
205  {
206    p = (1<<i);
207    if((perms & p) && (perm_map[i] != NULL))
208    {
209      strcpy(r, perm_map[i]);
210      r += strlen(perm_map[i]);
211      *(r++) = ' ';
212      perms ^= p;
213    }
214  }
215 
216  /* Any remaining unknown permission bits are added at the end in hex. */
217  if(perms != 0)
218    sprintf(r, "0x%.8X ", perms);
219
220  /* Chop off the last space if we've written anything to ret_val */
221  if(r != ret_val)
222    r[-1] = '\0';
223
224  return ret_val;
225}
226
227
228char* regfi_sid2str(DOM_SID* sid)
229{
230  uint32 i, size = MAXSUBAUTHS*11 + 24;
231  uint32 left = size;
232  uint8 comps = sid->num_auths;
233  char* ret_val = malloc(size);
234 
235  if(ret_val == NULL)
236    return NULL;
237
238  if(comps > MAXSUBAUTHS)
239    comps = MAXSUBAUTHS;
240
241  left -= sprintf(ret_val, "S-%u-%u", sid->sid_rev_num, sid->id_auth[5]);
242
243  for (i = 0; i < comps; i++) 
244    left -= snprintf(ret_val+(size-left), left, "-%u", sid->sub_auths[i]);
245
246  return ret_val;
247}
248
249
250char* regfi_get_acl(SEC_ACL* acl)
251{
252  uint32 i, extra, size = 0;
253  const char* type_str;
254  char* flags_str;
255  char* perms_str;
256  char* sid_str;
257  char* ace_delim = "";
258  char* ret_val = NULL;
259  char* tmp_val = NULL;
260  bool failed = false;
261  char field_delim = ':';
262
263  for (i = 0; i < acl->num_aces && !failed; i++)
264  {
265    sid_str = regfi_sid2str(&acl->ace[i].trustee);
266    type_str = regfi_ace_type2str(acl->ace[i].type);
267    perms_str = regfi_ace_perms2str(acl->ace[i].info.mask);
268    flags_str = regfi_ace_flags2str(acl->ace[i].flags);
269   
270    if(flags_str != NULL && perms_str != NULL 
271       && type_str != NULL && sid_str != NULL)
272    {
273      /* XXX: this is slow */
274      extra = strlen(sid_str) + strlen(type_str) 
275        + strlen(perms_str) + strlen(flags_str)+5;
276      tmp_val = realloc(ret_val, size+extra);
277
278      if(tmp_val == NULL)
279      {
280        free(ret_val);
281        failed = true;
282      }
283      else
284      {
285        ret_val = tmp_val;
286        size += snprintf(ret_val+size, extra, "%s%s%c%s%c%s%c%s",
287                         ace_delim,sid_str,
288                         field_delim,type_str,
289                         field_delim,perms_str,
290                         field_delim,flags_str);
291        ace_delim = "|";
292      }
293    }
294    else
295      failed = true;
296
297    if(sid_str != NULL)
298      free(sid_str);
299    if(sid_str != NULL)
300      free(perms_str);
301    if(sid_str != NULL)
302      free(flags_str);
303  }
304
305  return ret_val;
306}
307
308
309char* regfi_get_sacl(SEC_DESC *sec_desc)
310{
311  if (sec_desc->sacl)
312    return regfi_get_acl(sec_desc->sacl);
313  else
314    return NULL;
315}
316
317
318char* regfi_get_dacl(SEC_DESC *sec_desc)
319{
320  if (sec_desc->dacl)
321    return regfi_get_acl(sec_desc->dacl);
322  else
323    return NULL;
324}
325
326
327char* regfi_get_owner(SEC_DESC *sec_desc)
328{
329  return regfi_sid2str(sec_desc->owner_sid);
330}
331
332
333char* regfi_get_group(SEC_DESC *sec_desc)
334{
335  return regfi_sid2str(sec_desc->grp_sid);
336}
337
338
339/*******************************************************************
340 Input a randon offset and receive the correpsonding HBIN
341 block for it
342*******************************************************************/
343static bool hbin_contains_offset( REGF_HBIN *hbin, uint32 offset )
344{
345  if ( !hbin )
346    return false;
347       
348  if ( (offset > hbin->first_hbin_off) && (offset < (hbin->first_hbin_off+hbin->block_size)) )
349    return true;
350               
351  return false;
352}
353
354
355/*******************************************************************
356 Input a randon offset and receive the correpsonding HBIN
357 block for it
358*******************************************************************/
359static REGF_HBIN* lookup_hbin_block( REGF_FILE *file, uint32 offset )
360{
361  REGF_HBIN *hbin = NULL;
362  uint32 block_off;
363
364  /* start with the open list */
365
366  for ( hbin=file->block_list; hbin; hbin=hbin->next ) {
367    /* DEBUG(10,("lookup_hbin_block: address = 0x%x [0x%x]\n", hbin->file_off, (uint32)hbin ));*/
368    if ( hbin_contains_offset( hbin, offset ) )
369      return hbin;
370  }
371       
372  if ( !hbin ) {
373    /* start at the beginning */
374
375    block_off = REGF_BLOCKSIZE;
376    do {
377      /* cleanup before the next round */
378      if ( hbin )
379      {
380        if(hbin->ps.is_dynamic)
381          SAFE_FREE(hbin->ps.data_p);
382        hbin->ps.is_dynamic = false;
383        hbin->ps.buffer_size = 0;
384        hbin->ps.data_offset = 0;
385      }
386
387      hbin = regfi_parse_hbin(file, block_off, true, false);
388
389      if ( hbin ) 
390        block_off = hbin->file_off + hbin->block_size;
391
392    } while ( hbin && !hbin_contains_offset( hbin, offset ) );
393  }
394
395  if ( hbin )
396    /* XXX: this kind of caching needs to be re-evaluated */
397    DLIST_ADD( file->block_list, hbin );
398
399  return hbin;
400}
401
402
403/*******************************************************************
404 *******************************************************************/
405static bool prs_hash_rec( const char *desc, prs_struct *ps, int depth, REGF_HASH_REC *hash )
406{
407  depth++;
408
409  if ( !prs_uint32( "nk_off", ps, depth, &hash->nk_off ))
410    return false;
411  if ( !prs_uint8s("keycheck", ps, depth, hash->keycheck, sizeof( hash->keycheck )) )
412    return false;
413       
414  return true;
415}
416
417
418/*******************************************************************
419 *******************************************************************/
420static bool hbin_prs_lf_records(const char *desc, REGF_HBIN *hbin, 
421                                int depth, REGF_NK_REC *nk)
422{
423  int i;
424  REGF_LF_REC *lf = &nk->subkeys;
425  uint32 data_size, start_off, end_off;
426
427  depth++;
428
429  /* check if we have anything to do first */
430       
431  if ( nk->num_subkeys == 0 )
432    return true;
433
434  /* move to the LF record */
435
436  if ( !prs_set_offset( &hbin->ps, nk->subkeys_off + HBIN_MAGIC_SIZE - hbin->first_hbin_off ) )
437    return false;
438
439  /* backup and get the data_size */
440       
441  if ( !prs_set_offset( &hbin->ps, hbin->ps.data_offset-sizeof(uint32)) )
442    return false;
443  start_off = hbin->ps.data_offset;
444  if ( !prs_uint32( "cell_size", &hbin->ps, depth, &lf->cell_size ))
445    return false;
446
447  if(!prs_uint8s("header", &hbin->ps, depth, 
448                 lf->header, sizeof(lf->header)))
449    return false;
450               
451  if ( !prs_uint16( "num_keys", &hbin->ps, depth, &lf->num_keys))
452    return false;
453
454  if ( hbin->ps.io ) {
455    if ( !(lf->hashes = (REGF_HASH_REC*)zcalloc(sizeof(REGF_HASH_REC), lf->num_keys )) )
456      return false;
457  }
458
459  for ( i=0; i<lf->num_keys; i++ ) {
460    if ( !prs_hash_rec( "hash_rec", &hbin->ps, depth, &lf->hashes[i] ) )
461      return false;
462  }
463
464  end_off = hbin->ps.data_offset;
465
466  /* data_size must be divisible by 8 and large enough to hold the original record */
467
468  data_size = ((start_off - end_off) & 0xfffffff8 );
469  /*  if ( data_size > lf->cell_size )*/
470    /*DEBUG(10,("Encountered reused record (0x%x < 0x%x)\n", data_size, lf->cell_size));*/
471
472  return true;
473}
474
475
476/*******************************************************************
477 *******************************************************************/
478static bool hbin_prs_sk_rec( const char *desc, REGF_HBIN *hbin, int depth, REGF_SK_REC *sk )
479{
480  prs_struct *ps = &hbin->ps;
481  uint16 tag = 0xFFFF;
482  uint32 data_size, start_off, end_off;
483
484
485  depth++;
486
487  if ( !prs_set_offset( &hbin->ps, sk->sk_off + HBIN_MAGIC_SIZE - hbin->first_hbin_off ) )
488    return false;
489
490  /* backup and get the data_size */
491       
492  if ( !prs_set_offset( &hbin->ps, hbin->ps.data_offset-sizeof(uint32)) )
493    return false;
494  start_off = hbin->ps.data_offset;
495  if ( !prs_uint32( "cell_size", &hbin->ps, depth, &sk->cell_size ))
496    return false;
497
498  if (!prs_uint8s("header", ps, depth, sk->header, sizeof(sk->header)))
499    return false;
500  if ( !prs_uint16( "tag", ps, depth, &tag))
501    return false;
502
503  if ( !prs_uint32( "prev_sk_off", ps, depth, &sk->prev_sk_off))
504    return false;
505  if ( !prs_uint32( "next_sk_off", ps, depth, &sk->next_sk_off))
506    return false;
507  if ( !prs_uint32( "ref_count", ps, depth, &sk->ref_count))
508    return false;
509  if ( !prs_uint32( "size", ps, depth, &sk->size))
510    return false;
511
512  if ( !sec_io_desc( "sec_desc", &sk->sec_desc, ps, depth )) 
513    return false;
514
515  end_off = hbin->ps.data_offset;
516
517  /* data_size must be divisible by 8 and large enough to hold the original record */
518
519  data_size = ((start_off - end_off) & 0xfffffff8 );
520  /*  if ( data_size > sk->cell_size )*/
521    /*DEBUG(10,("Encountered reused record (0x%x < 0x%x)\n", data_size, sk->cell_size));*/
522
523  return true;
524}
525
526
527/*******************************************************************
528 *******************************************************************/
529static bool hbin_prs_vk_rec( const char *desc, REGF_HBIN *hbin, int depth, 
530                             REGF_VK_REC *vk, REGF_FILE *file )
531{
532  uint32 offset;
533  uint16 name_length;
534  prs_struct *ps = &hbin->ps;
535  uint32 data_size, start_off, end_off;
536
537  depth++;
538
539  /* backup and get the data_size */
540       
541  if ( !prs_set_offset( &hbin->ps, hbin->ps.data_offset-sizeof(uint32)) )
542    return false;
543  start_off = hbin->ps.data_offset;
544  if ( !prs_uint32( "cell_size", &hbin->ps, depth, &vk->cell_size ))
545    return false;
546
547  if ( !prs_uint8s("header", ps, depth, vk->header, sizeof( vk->header )) )
548    return false;
549
550  if ( !hbin->ps.io )
551    name_length = strlen(vk->valuename);
552
553  if ( !prs_uint16( "name_length", ps, depth, &name_length ))
554    return false;
555  if ( !prs_uint32( "data_size", ps, depth, &vk->data_size ))
556    return false;
557  if ( !prs_uint32( "data_off", ps, depth, &vk->data_off ))
558    return false;
559  if ( !prs_uint32( "type", ps, depth, &vk->type))
560    return false;
561  if ( !prs_uint16( "flag", ps, depth, &vk->flag))
562    return false;
563
564  offset = ps->data_offset;
565  offset += 2;  /* skip 2 bytes */
566  prs_set_offset( ps, offset );
567
568  /* get the name */
569
570  if ( vk->flag&VK_FLAG_NAME_PRESENT ) {
571
572    if ( hbin->ps.io ) {
573      if ( !(vk->valuename = (char*)zcalloc(sizeof(char), name_length+1 )))
574        return false;
575    }
576    if ( !prs_uint8s("name", ps, depth, 
577                     (uint8*)vk->valuename, name_length) )
578      return false;
579  }
580
581  end_off = hbin->ps.data_offset;
582
583  /* get the data if necessary */
584
585  if ( vk->data_size != 0 ) 
586  {
587    /* the data is stored in the offset if the size <= 4 */
588    if ( !(vk->data_size & VK_DATA_IN_OFFSET) ) 
589    {
590      REGF_HBIN *hblock = hbin;
591      uint32 data_rec_size;
592
593      if ( hbin->ps.io ) 
594      {
595        if ( !(vk->data = (uint8*)zcalloc(sizeof(uint8), vk->data_size) ) )
596          return false;
597      }
598
599      /* this data can be in another hbin */
600      if ( !hbin_contains_offset( hbin, vk->data_off ) ) 
601      {
602        if ( !(hblock = lookup_hbin_block( file, vk->data_off )) )
603          return false;
604      }
605      if (!(prs_set_offset(&hblock->ps, 
606                           (vk->data_off
607                            + HBIN_MAGIC_SIZE
608                            - hblock->first_hbin_off)
609                           - sizeof(uint32))))
610      { return false; }
611
612      if ( !hblock->ps.io ) 
613      {
614        data_rec_size = ( (vk->data_size+sizeof(uint32)) & 0xfffffff8 ) + 8;
615        data_rec_size = ( data_rec_size - 1 ) ^ 0xFFFFFFFF;
616      }
617      if ( !prs_uint32( "data_rec_size", &hblock->ps, depth, &data_rec_size ))
618        return false;
619      if(!prs_uint8s("data", &hblock->ps, depth, 
620                     vk->data, vk->data_size))
621        return false;
622
623    }
624    else 
625    {
626      if(!(vk->data = zcalloc(sizeof(uint8), 4)))
627        return false;
628      SIVAL( vk->data, 0, vk->data_off );
629    }
630               
631  }
632
633  /* data_size must be divisible by 8 and large enough to hold the original record */
634
635  data_size = ((start_off - end_off ) & 0xfffffff8 );
636  /* XXX: should probably print a warning here */
637  /*if ( data_size !=  vk->cell_size )
638    DEBUG(10,("prs_vk_rec: data_size check failed (0x%x < 0x%x)\n", data_size, vk->cell_size));*/
639
640  return true;
641}
642
643
644/*******************************************************************
645 read a VK record which is contained in the HBIN block stored
646 in the prs_struct *ps.
647*******************************************************************/
648static bool hbin_prs_vk_records(const char *desc, REGF_HBIN *hbin, 
649                                int depth, REGF_NK_REC *nk, REGF_FILE *file)
650{
651  int i;
652  uint32 record_size;
653
654  depth++;
655 
656  /* check if we have anything to do first */
657  if(nk->num_values == 0)
658    return true;
659       
660  if(hbin->ps.io)
661  {
662    if (!(nk->values = (REGF_VK_REC*)zcalloc(sizeof(REGF_VK_REC), 
663                                              nk->num_values )))
664      return false;
665  }
666 
667  /* convert the offset to something relative to this HBIN block */
668  if (!prs_set_offset(&hbin->ps, 
669                      nk->values_off
670                      + HBIN_MAGIC_SIZE
671                      - hbin->first_hbin_off
672                      - sizeof(uint32)))
673  { return false; }
674
675  if ( !hbin->ps.io ) 
676  { 
677    record_size = ( ( nk->num_values * sizeof(uint32) ) & 0xfffffff8 ) + 8;
678    record_size = (record_size - 1) ^ 0xFFFFFFFF;
679  }
680
681  if ( !prs_uint32( "record_size", &hbin->ps, depth, &record_size ) )
682    return false;
683       
684  for ( i=0; i<nk->num_values; i++ ) 
685  {
686    if ( !prs_uint32( "vk_off", &hbin->ps, depth, &nk->values[i].rec_off ) )
687      return false;
688  }
689
690  for ( i=0; i<nk->num_values; i++ ) 
691  {
692    REGF_HBIN *sub_hbin = hbin;
693    uint32 new_offset;
694       
695    if ( !hbin_contains_offset( hbin, nk->values[i].rec_off ) ) 
696    {
697      sub_hbin = lookup_hbin_block( file, nk->values[i].rec_off );
698      if ( !sub_hbin ) 
699        return false;
700    }
701       
702    new_offset = nk->values[i].rec_off
703      + HBIN_MAGIC_SIZE
704      - sub_hbin->first_hbin_off;
705
706    if (!prs_set_offset(&sub_hbin->ps, new_offset))
707      return false;
708    if (!hbin_prs_vk_rec("vk_rec", sub_hbin, depth, &nk->values[i], file))
709      return false;
710  }
711
712  return true;
713}
714
715
716/*******************************************************************
717 *******************************************************************/
718static REGF_SK_REC* find_sk_record_by_offset( REGF_FILE *file, uint32 offset )
719{
720  REGF_SK_REC *p_sk;
721 
722  for ( p_sk=file->sec_desc_list; p_sk; p_sk=p_sk->next ) {
723    if ( p_sk->sk_off == offset ) 
724      return p_sk;
725  }
726 
727  return NULL;
728}
729
730
731/*******************************************************************
732 *******************************************************************/
733static REGF_SK_REC* find_sk_record_by_sec_desc( REGF_FILE *file, SEC_DESC *sd )
734{
735  REGF_SK_REC *p;
736
737  for ( p=file->sec_desc_list; p; p=p->next ) {
738    if ( sec_desc_equal( p->sec_desc, sd ) )
739      return p;
740  }
741
742  /* failure */
743
744  return NULL;
745}
746
747
748/*******************************************************************
749 *******************************************************************/
750static REGF_NK_REC* hbin_prs_key(REGF_FILE *file, REGF_HBIN *hbin)
751{
752  REGF_HBIN* sub_hbin;
753  REGF_NK_REC* nk;
754  uint32 nk_cell_offset;
755  uint32 nk_max_length;
756  int depth = 0;
757
758  depth++;
759
760  /* get the initial nk record */
761  nk_cell_offset = hbin->file_off + hbin->ps.data_offset - sizeof(uint32);
762  nk_max_length = hbin->block_size - hbin->ps.data_offset + sizeof(uint32);
763  if ((nk = regfi_parse_nk(file, nk_cell_offset, nk_max_length, true)) == NULL)
764    return NULL;
765
766  /* fill in values */
767  if ( nk->num_values && (nk->values_off!=REGF_OFFSET_NONE) ) 
768  {
769    sub_hbin = hbin;
770    if ( !hbin_contains_offset( hbin, nk->values_off ) ) 
771    {
772      sub_hbin = lookup_hbin_block( file, nk->values_off );
773      if ( !sub_hbin ) 
774      {
775        /*DEBUG(0,("hbin_prs_key: Failed to find HBIN block containing value_list_offset [0x%x]\n",
776          nk->values_off));*/
777        return NULL;
778      }
779    }
780               
781    if(!hbin_prs_vk_records("vk_rec", sub_hbin, depth, nk, file))
782      return NULL;
783  }
784               
785  /* now get subkeys */
786  if ( nk->num_subkeys && (nk->subkeys_off!=REGF_OFFSET_NONE) ) 
787  {
788    sub_hbin = hbin;
789    if ( !hbin_contains_offset( hbin, nk->subkeys_off ) ) 
790    {
791      sub_hbin = lookup_hbin_block( file, nk->subkeys_off );
792      if ( !sub_hbin ) 
793      {
794        /*DEBUG(0,("hbin_prs_key: Failed to find HBIN block containing subkey_offset [0x%x]\n",
795          nk->subkeys_off));*/
796        return NULL;
797      }
798    }
799               
800    if (!hbin_prs_lf_records("lf_rec", sub_hbin, depth, nk))
801      return NULL;
802  }
803
804  /* get the to the security descriptor.  First look if we have already parsed it */
805       
806  if ((nk->sk_off!=REGF_OFFSET_NONE) 
807      && !(nk->sec_desc = find_sk_record_by_offset( file, nk->sk_off )))
808  {
809    sub_hbin = hbin;
810    if (!hbin_contains_offset(hbin, nk->sk_off))
811    {
812      sub_hbin = lookup_hbin_block( file, nk->sk_off );
813      if ( !sub_hbin ) 
814      {
815        free(nk);
816        /*DEBUG(0,("hbin_prs_key: Failed to find HBIN block containing sk_offset [0x%x]\n",
817          nk->subkeys_off));*/
818        return NULL;
819      }
820    }
821   
822    if ( !(nk->sec_desc = (REGF_SK_REC*)zalloc(sizeof(REGF_SK_REC) )) )
823      return NULL;
824    nk->sec_desc->sk_off = nk->sk_off;
825    if ( !hbin_prs_sk_rec( "sk_rec", sub_hbin, depth, nk->sec_desc ))
826      return NULL;
827                       
828    /* add to the list of security descriptors (ref_count has been read from the files) */
829
830    nk->sec_desc->sk_off = nk->sk_off;
831    /* XXX: this kind of caching needs to be re-evaluated */
832    DLIST_ADD( file->sec_desc_list, nk->sec_desc );
833  }
834 
835  return nk;
836}
837
838
839/*******************************************************************
840 *******************************************************************/
841static bool next_record( REGF_HBIN *hbin, const char *hdr, bool *eob )
842{
843  uint8 header[REC_HDR_SIZE] = "";
844  uint32 record_size;
845  uint32 curr_off, block_size;
846  bool found = false;
847  prs_struct *ps = &hbin->ps;
848       
849  curr_off = ps->data_offset;
850  if ( curr_off == 0 )
851    prs_set_offset( ps, HBIN_HEADER_REC_SIZE+4 );
852
853  /* assume that the current offset is at the reacord header
854     and we need to backup to read the record size */
855  curr_off -= sizeof(uint32);
856
857  block_size = ps->buffer_size;
858  record_size = 0;
859  while ( !found ) 
860  {
861    curr_off = curr_off+record_size;
862    if ( curr_off >= block_size ) 
863      break;
864
865    if ( !prs_set_offset( &hbin->ps, curr_off) )
866      return false;
867
868    if ( !prs_uint32( "record_size", ps, 0, &record_size ) )
869      return false;
870    if ( !prs_uint8s("header", ps, 0, header, REC_HDR_SIZE ) )
871      return false;
872
873    if ( record_size & 0x80000000 ) {
874      /* absolute_value(record_size) */
875      record_size = (record_size ^ 0xffffffff) + 1;
876    }
877
878    if ( memcmp( header, hdr, REC_HDR_SIZE ) == 0 ) {
879      found = true;
880      curr_off += sizeof(uint32);
881    }
882  } 
883
884  /* mark prs_struct as done ( at end ) if no more SK records */
885  /* mark end-of-block as true */       
886  if ( !found )
887  {
888    prs_set_offset( &hbin->ps, hbin->ps.buffer_size );
889    *eob = true;
890    return false;
891  }
892
893  if (!prs_set_offset(ps, curr_off))
894    return false;
895
896  return true;
897}
898
899
900/*******************************************************************
901 *******************************************************************/
902static REGF_NK_REC* next_nk_record(REGF_FILE *file, REGF_HBIN *hbin, bool *eob)
903{
904  REGF_NK_REC* ret_val;
905  if(next_record(hbin, "nk", eob)
906     && (ret_val = hbin_prs_key(file, hbin)) != NULL)
907    return ret_val;
908
909fprintf(stderr, "ACK!");
910  return NULL;
911}
912
913
914/*******************************************************************
915 * Open the registry file and then read in the REGF block to get the
916 * first hbin offset.
917 *******************************************************************/
918REGF_FILE* regfi_open(const char* filename)
919{
920  REGF_FILE* rb;
921  int fd;
922  int flags = O_RDONLY;
923
924  /* open an existing file */
925  if ((fd = open(filename, flags)) == -1) 
926  {
927    /* DEBUG(0,("regfi_open: failure to open %s (%s)\n", filename, strerror(errno)));*/
928    return NULL;
929  }
930 
931  /* read in an existing file */
932  if ((rb = regfi_parse_regf(fd, true)) == NULL) 
933  {
934    /* DEBUG(0,("regfi_open: Failed to read initial REGF block\n"));*/
935    close(fd);
936    return NULL;
937  }
938 
939  rb->hbins = range_list_new();
940  rb->unalloc_cells = range_list_new();
941  if((rb->hbins == NULL) || (rb->unalloc_cells == NULL))
942  {
943    close(fd);
944    free(rb);
945    return NULL;
946  }
947
948  /* success */
949  return rb;
950}
951
952
953/*******************************************************************
954 *******************************************************************/
955int regfi_close( REGF_FILE *file )
956{
957  int fd;
958
959  /* nothing to do if there is no open file */
960  if ((file == NULL) || (file->fd == -1))
961    return 0;
962
963  fd = file->fd;
964  file->fd = -1;
965  range_list_free(file->hbins);
966  range_list_free(file->unalloc_cells);
967  free(file);
968
969  return close( fd );
970}
971
972
973/******************************************************************************
974 * There should be only *one* root key in the registry file based
975 * on my experience.  --jerry
976 *****************************************************************************/
977REGF_NK_REC* regfi_rootkey( REGF_FILE *file )
978{
979  REGF_NK_REC *nk;
980  REGF_HBIN   *hbin;
981  uint32      offset = REGF_BLOCKSIZE;
982  bool        found = false;
983  bool        eob;
984 
985  if(!file)
986    return NULL;
987
988  /* scan through the file on HBIN block at a time looking
989     for an NK record with a type == 0x002c.
990     Normally this is the first nk record in the first hbin
991     block (but I'm not assuming that for now) */
992       
993  while((hbin = regfi_parse_hbin(file, offset, true, false))) 
994  {
995    eob = false;
996
997    while(!eob) 
998    {
999      if((nk = next_nk_record(file, hbin, &eob)) != NULL) 
1000      {
1001        if ( nk->key_type == NK_TYPE_ROOTKEY ) 
1002        {
1003          found = true;
1004          break;
1005        }
1006      }
1007      if(hbin->ps.is_dynamic)
1008        SAFE_FREE(hbin->ps.data_p);
1009      hbin->ps.is_dynamic = false;
1010      hbin->ps.buffer_size = 0;
1011      hbin->ps.data_offset = 0;
1012    }
1013               
1014    if(found) 
1015      break;
1016
1017    offset += hbin->block_size;
1018  }
1019 
1020  if (!found) {
1021    /*DEBUG(0,("regfi_rootkey: corrupt registry file ?  No root key record located\n"));*/
1022    return NULL;
1023  }
1024
1025  /* XXX: this kind of caching needs to be re-evaluated */
1026  DLIST_ADD( file->block_list, hbin );
1027
1028  return nk;
1029}
1030
1031
1032/******************************************************************************
1033 *****************************************************************************/
1034void regfi_key_free(REGF_NK_REC* nk)
1035{
1036  uint32 i;
1037 
1038  if((nk->values != NULL) && (nk->values_off!=REGF_OFFSET_NONE))
1039  {
1040    for(i=0; i < nk->num_values; i++)
1041    {
1042      if(nk->values[i].valuename != NULL)
1043        free(nk->values[i].valuename);
1044      if(nk->values[i].data != NULL)
1045        free(nk->values[i].data);
1046    }
1047    free(nk->values);
1048  }
1049
1050  if(nk->keyname != NULL)
1051    free(nk->keyname);
1052  if(nk->classname != NULL)
1053    free(nk->classname);
1054
1055  /* XXX: not freeing hbin because these are cached.  This needs to be reviewed. */
1056  /* XXX: not freeing sec_desc because these are cached.  This needs to be reviewed. */
1057  free(nk);
1058}
1059
1060
1061/******************************************************************************
1062 *****************************************************************************/
1063REGFI_ITERATOR* regfi_iterator_new(REGF_FILE* fh)
1064{
1065  REGF_NK_REC* root;
1066  REGFI_ITERATOR* ret_val = (REGFI_ITERATOR*)malloc(sizeof(REGFI_ITERATOR));
1067  if(ret_val == NULL)
1068    return NULL;
1069
1070  root = regfi_rootkey(fh);
1071  if(root == NULL)
1072  {
1073    free(ret_val);
1074    return NULL;
1075  }
1076
1077  ret_val->key_positions = void_stack_new(REGF_MAX_DEPTH);
1078  if(ret_val->key_positions == NULL)
1079  {
1080    free(ret_val);
1081    free(root);
1082    return NULL;
1083  }
1084
1085  ret_val->f = fh;
1086  ret_val->cur_key = root;
1087  ret_val->cur_subkey = 0;
1088  ret_val->cur_value = 0;
1089
1090  return ret_val;
1091}
1092
1093
1094/******************************************************************************
1095 *****************************************************************************/
1096void regfi_iterator_free(REGFI_ITERATOR* i)
1097{
1098  REGFI_ITER_POSITION* cur;
1099
1100  if(i->cur_key != NULL)
1101    regfi_key_free(i->cur_key);
1102
1103  while((cur = (REGFI_ITER_POSITION*)void_stack_pop(i->key_positions)) != NULL)
1104  {
1105    regfi_key_free(cur->nk);
1106    free(cur);
1107  }
1108 
1109  free(i);
1110}
1111
1112
1113
1114/******************************************************************************
1115 *****************************************************************************/
1116/* XXX: some way of indicating reason for failure should be added. */
1117bool regfi_iterator_down(REGFI_ITERATOR* i)
1118{
1119  REGF_NK_REC* subkey;
1120  REGFI_ITER_POSITION* pos;
1121
1122  pos = (REGFI_ITER_POSITION*)malloc(sizeof(REGFI_ITER_POSITION));
1123  if(pos == NULL)
1124    return false;
1125
1126  subkey = (REGF_NK_REC*)regfi_iterator_cur_subkey(i);
1127  if(subkey == NULL)
1128  {
1129    free(pos);
1130    return false;
1131  }
1132
1133  pos->nk = i->cur_key;
1134  pos->cur_subkey = i->cur_subkey;
1135  if(!void_stack_push(i->key_positions, pos))
1136  {
1137    free(pos);
1138    regfi_key_free(subkey);
1139    return false;
1140  }
1141
1142  i->cur_key = subkey;
1143  i->cur_subkey = 0;
1144  i->cur_value = 0;
1145
1146  return true;
1147}
1148
1149
1150/******************************************************************************
1151 *****************************************************************************/
1152bool regfi_iterator_up(REGFI_ITERATOR* i)
1153{
1154  REGFI_ITER_POSITION* pos;
1155
1156  pos = (REGFI_ITER_POSITION*)void_stack_pop(i->key_positions);
1157  if(pos == NULL)
1158    return false;
1159
1160  regfi_key_free(i->cur_key);
1161  i->cur_key = pos->nk;
1162  i->cur_subkey = pos->cur_subkey;
1163  i->cur_value = 0;
1164  free(pos);
1165
1166  return true;
1167}
1168
1169
1170/******************************************************************************
1171 *****************************************************************************/
1172bool regfi_iterator_to_root(REGFI_ITERATOR* i)
1173{
1174  while(regfi_iterator_up(i))
1175    continue;
1176
1177  return true;
1178}
1179
1180
1181/******************************************************************************
1182 *****************************************************************************/
1183bool regfi_iterator_find_subkey(REGFI_ITERATOR* i, const char* subkey_name)
1184{
1185  REGF_NK_REC* subkey;
1186  bool found = false;
1187  uint32 old_subkey = i->cur_subkey;
1188 
1189  if(subkey_name == NULL)
1190    return false;
1191
1192  /* XXX: this alloc/free of each sub key might be a bit excessive */
1193  subkey = (REGF_NK_REC*)regfi_iterator_first_subkey(i);
1194  while((subkey != NULL) && (found == false))
1195  {
1196    if(subkey->keyname != NULL 
1197       && strcasecmp(subkey->keyname, subkey_name) == 0)
1198      found = true;
1199    else
1200    {
1201      regfi_key_free(subkey);
1202      subkey = (REGF_NK_REC*)regfi_iterator_next_subkey(i);
1203    }
1204  }
1205
1206  if(found == false)
1207  {
1208    i->cur_subkey = old_subkey;
1209    return false;
1210  }
1211
1212  regfi_key_free(subkey);
1213  return true;
1214}
1215
1216
1217/******************************************************************************
1218 *****************************************************************************/
1219bool regfi_iterator_walk_path(REGFI_ITERATOR* i, const char** path)
1220{
1221  uint32 x;
1222  if(path == NULL)
1223    return false;
1224
1225  for(x=0; 
1226      ((path[x] != NULL) && regfi_iterator_find_subkey(i, path[x])
1227       && regfi_iterator_down(i));
1228      x++)
1229  { continue; }
1230
1231  if(path[x] == NULL)
1232    return true;
1233 
1234  /* XXX: is this the right number of times? */
1235  for(; x > 0; x--)
1236    regfi_iterator_up(i);
1237 
1238  return false;
1239}
1240
1241
1242/******************************************************************************
1243 *****************************************************************************/
1244const REGF_NK_REC* regfi_iterator_cur_key(REGFI_ITERATOR* i)
1245{
1246  return i->cur_key;
1247}
1248
1249
1250/******************************************************************************
1251 *****************************************************************************/
1252const REGF_NK_REC* regfi_iterator_first_subkey(REGFI_ITERATOR* i)
1253{
1254  i->cur_subkey = 0;
1255  return regfi_iterator_cur_subkey(i);
1256}
1257
1258
1259/******************************************************************************
1260 *****************************************************************************/
1261const REGF_NK_REC* regfi_iterator_cur_subkey(REGFI_ITERATOR* i)
1262{
1263  REGF_NK_REC* subkey;
1264  REGF_HBIN* hbin;
1265  uint32 nk_offset;
1266
1267  /* see if there is anything left to report */
1268  if (!(i->cur_key) || (i->cur_key->subkeys_off==REGF_OFFSET_NONE)
1269      || (i->cur_subkey >= i->cur_key->num_subkeys))
1270    return NULL;
1271
1272  nk_offset = i->cur_key->subkeys.hashes[i->cur_subkey].nk_off;
1273
1274  /* find the HBIN block which should contain the nk record */
1275  hbin = lookup_hbin_block(i->f, nk_offset);
1276  if(!hbin)
1277  {
1278    /* XXX: should print out some kind of error message every time here */
1279    /*DEBUG(0,("hbin_prs_key: Failed to find HBIN block containing offset [0x%x]\n",
1280      i->cur_key->subkeys.hashes[i->cur_subkey].nk_off));*/
1281    return NULL;
1282  }
1283 
1284  if(!prs_set_offset(&hbin->ps, 
1285                     HBIN_MAGIC_SIZE + nk_offset - hbin->first_hbin_off))
1286    return NULL;
1287               
1288  if((subkey = hbin_prs_key(i->f, hbin)) == NULL)
1289    return NULL;
1290
1291  return subkey;
1292}
1293
1294
1295/******************************************************************************
1296 *****************************************************************************/
1297/* XXX: some way of indicating reason for failure should be added. */
1298const REGF_NK_REC* regfi_iterator_next_subkey(REGFI_ITERATOR* i)
1299{
1300  const REGF_NK_REC* subkey;
1301
1302  i->cur_subkey++;
1303  subkey = regfi_iterator_cur_subkey(i);
1304
1305  if(subkey == NULL)
1306    i->cur_subkey--;
1307
1308  return subkey;
1309}
1310
1311
1312/******************************************************************************
1313 *****************************************************************************/
1314bool regfi_iterator_find_value(REGFI_ITERATOR* i, const char* value_name)
1315{
1316  const REGF_VK_REC* cur;
1317  bool found = false;
1318
1319  /* XXX: cur->valuename can be NULL in the registry. 
1320   *      Should we allow for a way to search for that?
1321   */
1322  if(value_name == NULL)
1323    return false;
1324
1325  cur = regfi_iterator_first_value(i);
1326  while((cur != NULL) && (found == false))
1327  {
1328    if((cur->valuename != NULL)
1329       && (strcasecmp(cur->valuename, value_name) == 0))
1330      found = true;
1331    else
1332      cur = regfi_iterator_next_value(i);
1333  }
1334
1335  return found;
1336}
1337
1338
1339/******************************************************************************
1340 *****************************************************************************/
1341const REGF_VK_REC* regfi_iterator_first_value(REGFI_ITERATOR* i)
1342{
1343  i->cur_value = 0;
1344  return regfi_iterator_cur_value(i);
1345}
1346
1347
1348/******************************************************************************
1349 *****************************************************************************/
1350const REGF_VK_REC* regfi_iterator_cur_value(REGFI_ITERATOR* i)
1351{
1352  REGF_VK_REC* ret_val = NULL;
1353  if(i->cur_value < i->cur_key->num_values)
1354    ret_val = &(i->cur_key->values[i->cur_value]);
1355
1356  return ret_val;
1357}
1358
1359
1360/******************************************************************************
1361 *****************************************************************************/
1362const REGF_VK_REC* regfi_iterator_next_value(REGFI_ITERATOR* i)
1363{
1364  const REGF_VK_REC* ret_val;
1365
1366  i->cur_value++;
1367  ret_val = regfi_iterator_cur_value(i);
1368  if(ret_val == NULL)
1369    i->cur_value--;
1370
1371  return ret_val;
1372}
1373
1374
1375
1376/****************/
1377/* Experimental */
1378/****************/
1379/*
1380typedef struct {
1381  uint32 offset;
1382  uint32 size;
1383} REGFI_CELL_INFO;
1384
1385typedef struct {
1386  uint32 count
1387  REGFI_CELL_INFO** cells;
1388} REGFI_CELL_LIST;
1389*/
1390
1391
1392/*******************************************************************
1393 * Computes the checksum of the registry file header.
1394 * buffer must be at least the size of an regf header (4096 bytes).
1395 *******************************************************************/
1396static uint32 regfi_compute_header_checksum(uint8* buffer)
1397{
1398  uint32 checksum, x;
1399  int i;
1400
1401  /* XOR of all bytes 0x0000 - 0x01FB */
1402
1403  checksum = x = 0;
1404 
1405  for ( i=0; i<0x01FB; i+=4 ) {
1406    x = IVAL(buffer, i );
1407    checksum ^= x;
1408  }
1409 
1410  return checksum;
1411}
1412
1413
1414/*******************************************************************
1415 * TODO: add way to return more detailed error information.
1416 *******************************************************************/
1417REGF_FILE* regfi_parse_regf(int fd, bool strict)
1418{
1419  uint8 file_header[REGF_BLOCKSIZE];
1420  uint32 ret, length;
1421  uint32 file_length;
1422  struct stat sbuf;
1423  REGF_FILE* ret_val;
1424
1425  /* Determine file length.  Must be at least big enough
1426   * for the header and one hbin.
1427   */
1428  if (fstat(fd, &sbuf) == -1)
1429    return NULL;
1430  file_length = sbuf.st_size;
1431  if(file_length < REGF_BLOCKSIZE+REGF_ALLOC_BLOCK)
1432    return NULL;
1433
1434  ret_val = (REGF_FILE*)zalloc(sizeof(REGF_FILE));
1435  if(ret_val == NULL)
1436    return NULL;
1437
1438  ret_val->fd = fd;
1439  ret_val->file_length = file_length;
1440
1441  length = REGF_BLOCKSIZE;
1442  if((ret = regfi_read(fd, file_header, &length)) != 0 
1443     || length != REGF_BLOCKSIZE)
1444  {
1445    free(ret_val);
1446    return NULL;
1447  }
1448
1449  ret_val->checksum = IVAL(file_header, 0x1FC);
1450  ret_val->computed_checksum = regfi_compute_header_checksum(file_header);
1451  if (strict && (ret_val->checksum != ret_val->computed_checksum))
1452  {
1453    free(ret_val);
1454    return NULL;
1455  }
1456
1457  memcpy(ret_val->magic, file_header, 4);
1458  if(strict && (memcmp(ret_val->magic, "regf", 4) != 0))
1459  {
1460    free(ret_val);
1461    return NULL;
1462  }
1463 
1464  ret_val->unknown1 = IVAL(file_header, 0x4);
1465  ret_val->unknown2 = IVAL(file_header, 0x8);
1466
1467  ret_val->mtime.low = IVAL(file_header, 0xC);
1468  ret_val->mtime.high = IVAL(file_header, 0x10);
1469
1470  ret_val->unknown3 = IVAL(file_header, 0x14);
1471  ret_val->unknown4 = IVAL(file_header, 0x18);
1472  ret_val->unknown5 = IVAL(file_header, 0x1C);
1473  ret_val->unknown6 = IVAL(file_header, 0x20);
1474 
1475  ret_val->data_offset = IVAL(file_header, 0x24);
1476  ret_val->last_block = IVAL(file_header, 0x28);
1477
1478  ret_val->unknown7 = IVAL(file_header, 0x2C);
1479
1480  return ret_val;
1481}
1482
1483
1484
1485/*******************************************************************
1486 * Given real file offset, read and parse the hbin at that location
1487 * along with it's associated cells.  If save_unalloc is true, a list
1488 * of unallocated cell offsets will be stored in TODO.
1489 *******************************************************************/
1490/* TODO: Need a way to return types of errors.  Also need to free
1491 *       the hbin/ps when an error occurs.
1492 */
1493REGF_HBIN* regfi_parse_hbin(REGF_FILE* file, uint32 offset, 
1494                            bool strict, bool save_unalloc)
1495{
1496  REGF_HBIN *hbin;
1497  uint8 hbin_header[HBIN_HEADER_REC_SIZE];
1498  uint32 length, curr_off;
1499  int32 cell_len;
1500  bool is_unalloc;
1501 
1502  if(offset >= file->file_length)
1503    return NULL;
1504
1505  if(lseek(file->fd, offset, SEEK_SET) == -1)
1506    return NULL;
1507
1508  length = HBIN_HEADER_REC_SIZE;
1509  if((regfi_read(file->fd, hbin_header, &length) != 0) 
1510     || length != HBIN_HEADER_REC_SIZE)
1511    return NULL;
1512
1513
1514  if(lseek(file->fd, offset, SEEK_SET) == -1)
1515    return NULL;
1516
1517  if(!(hbin = (REGF_HBIN*)zalloc(sizeof(REGF_HBIN)))) 
1518    return NULL;
1519  hbin->file_off = offset;
1520
1521  memcpy(hbin->magic, hbin_header, 4);
1522  if(strict && (memcmp(hbin->magic, "hbin", 4) != 0))
1523  {
1524    free(hbin);
1525    return NULL;
1526  }
1527
1528  hbin->first_hbin_off = IVAL(hbin_header, 0x4);
1529  hbin->block_size = IVAL(hbin_header, 0x8);
1530  /* this should be the same thing as hbin->block_size but just in case */
1531  hbin->next_block = IVAL(hbin_header, 0x1C);
1532
1533
1534  /* Ensure the block size is a multiple of 0x1000 and doesn't run off
1535   * the end of the file.
1536   */
1537  /* TODO: This may need to be relaxed for dealing with
1538   *       partial or corrupt files. */
1539  if((offset + hbin->block_size > file->file_length)
1540     || (hbin->block_size & 0xFFFFF000) != hbin->block_size)
1541  {
1542    free(hbin);
1543    return NULL;
1544  }
1545
1546  /* TODO: need to get rid of this, but currently lots depends on the
1547   * ps structure.
1548   */
1549  if(!prs_init(&hbin->ps, hbin->block_size, file->mem_ctx, UNMARSHALL))
1550  {
1551    free(hbin);
1552    return NULL;
1553  }
1554  length = hbin->block_size;
1555  if((regfi_read(file->fd, (uint8*)hbin->ps.data_p, &length) != 0) 
1556     || length != hbin->block_size)
1557  {
1558    free(hbin);
1559    return NULL;
1560  }
1561
1562
1563  if(save_unalloc)
1564  {
1565    cell_len = 0;
1566    curr_off = HBIN_HEADER_REC_SIZE;
1567    while ( curr_off < hbin->block_size ) 
1568    {
1569      is_unalloc = false;
1570      cell_len = IVALS(hbin->ps.data_p, curr_off);
1571      if(cell_len > 0)
1572        is_unalloc = true;
1573      else
1574        cell_len = -1*cell_len;
1575
1576      if((cell_len == 0) || ((cell_len & 0xFFFFFFFC) != cell_len))
1577        /* TODO: should report an error here. */
1578        break;
1579
1580      /* for some reason the record_size of the last record in
1581         an hbin block can extend past the end of the block
1582         even though the record fits within the remaining
1583         space....aaarrrgggghhhhhh */ 
1584      if(curr_off + cell_len >= hbin->block_size)
1585        cell_len = hbin->block_size - curr_off;
1586
1587      if(is_unalloc)
1588        range_list_add(file->unalloc_cells, hbin->file_off+curr_off, 
1589          cell_len, NULL);
1590
1591      curr_off = curr_off+cell_len;
1592    }
1593  }
1594
1595  /* TODO: need to get rid of this, but currently lots depends on the
1596   * ps structure.
1597   */
1598  if(!prs_set_offset(&hbin->ps, file->data_offset+HBIN_MAGIC_SIZE))
1599    return NULL;
1600
1601  return hbin;
1602}
1603
1604
1605REGF_NK_REC* regfi_parse_nk(REGF_FILE* file, uint32 offset, 
1606                            uint32 max_size, bool strict)
1607{
1608  uint8 nk_header[REGFI_NK_MIN_LENGTH];
1609  REGF_NK_REC* ret_val;
1610  uint32 length;
1611  if(lseek(file->fd, offset, SEEK_SET) == -1)
1612    return NULL;
1613
1614  length = REGFI_NK_MIN_LENGTH;
1615  if((regfi_read(file->fd, nk_header, &length) != 0)
1616     || length != REGFI_NK_MIN_LENGTH)
1617    return NULL;
1618 
1619  /* A bit of validation before bothering to allocate memory */
1620  if(strict && ((nk_header[0x4] != 'n') || (nk_header[0x5] != 'k')))
1621    return NULL;
1622
1623  ret_val = (REGF_NK_REC*)zalloc(sizeof(REGF_NK_REC));
1624  if(ret_val == NULL)
1625    return NULL;
1626
1627  ret_val->offset = offset;
1628  ret_val->cell_size = IVAL(nk_header, 0x0);
1629  if(ret_val->cell_size > max_size)
1630    ret_val->cell_size = max_size & 0xFFFFFFF8;
1631  if((ret_val->cell_size < REGFI_NK_MIN_LENGTH) 
1632     || (strict && ret_val->cell_size != (ret_val->cell_size & 0xFFFFFFF8)))
1633  {
1634    free(ret_val);
1635    return NULL;
1636  }
1637
1638  ret_val->header[0] = nk_header[0x4];
1639  ret_val->header[1] = nk_header[0x5];
1640  ret_val->key_type = SVAL(nk_header, 0x6);
1641  if(strict && ((ret_val->key_type != NK_TYPE_NORMALKEY) 
1642                && (ret_val->key_type != NK_TYPE_ROOTKEY) 
1643                && (ret_val->key_type != NK_TYPE_LINKKEY)))
1644  {
1645    free(ret_val);
1646    return NULL;
1647  }
1648 
1649  ret_val->mtime.low = IVAL(nk_header, 0x8);
1650  ret_val->mtime.high = IVAL(nk_header, 0xC);
1651 
1652  ret_val->unknown1 = IVAL(nk_header, 0x10);
1653  ret_val->parent_off = IVAL(nk_header, 0x14);
1654  ret_val->num_subkeys = IVAL(nk_header, 0x18);
1655  ret_val->unknown2 = IVAL(nk_header, 0x1C);
1656  ret_val->subkeys_off = IVAL(nk_header, 0x20);
1657  ret_val->unknown3 = IVAL(nk_header, 0x24);
1658  ret_val->num_values = IVAL(nk_header, 0x28);
1659  ret_val->values_off = IVAL(nk_header, 0x2C);
1660  ret_val->sk_off = IVAL(nk_header, 0x30);
1661  /* TODO: currently we do nothing with class names.  Need to investigate. */
1662  ret_val->classname_off = IVAL(nk_header, 0x34);
1663
1664  ret_val->max_bytes_subkeyname = IVAL(nk_header, 0x38);
1665  ret_val->max_bytes_subkeyclassname = IVAL(nk_header, 0x3C);
1666  ret_val->max_bytes_valuename = IVAL(nk_header, 0x40);
1667  ret_val->max_bytes_value = IVAL(nk_header, 0x44);
1668  ret_val->unk_index = IVAL(nk_header, 0x48);
1669
1670  ret_val->name_length = SVAL(nk_header, 0x4C);
1671  ret_val->classname_length = SVAL(nk_header, 0x4E);
1672
1673  if(ret_val->name_length + REGFI_NK_MIN_LENGTH > ret_val->cell_size)
1674    ret_val->name_length = ret_val->cell_size - REGFI_NK_MIN_LENGTH;
1675
1676  ret_val->keyname = (char*)zalloc(sizeof(char)*(ret_val->name_length+1));
1677  if(ret_val->keyname == NULL)
1678  {
1679    free(ret_val);
1680    return NULL;
1681  }
1682
1683  /* Don't need to seek, should be at the right offset */
1684  length = ret_val->name_length;
1685  if((regfi_read(file->fd, ret_val->keyname, &length) != 0)
1686     || length != ret_val->name_length)
1687  {
1688    free(ret_val->keyname);
1689    free(ret_val);
1690    return NULL;
1691  }
1692  ret_val->keyname[ret_val->name_length] = '\0';
1693
1694  return ret_val;
1695}
1696
1697
1698
1699/*****************************************************************************
1700 * This function is just like read(2), except that it continues to
1701 * re-try reading from the file descriptor if EINTR or EAGAIN is received. 
1702 * regfi_read will attempt to read length bytes from fd and write them to buf.
1703 *
1704 * On success, 0 is returned.  Upon failure, an errno code is returned.
1705 *
1706 * The number of bytes successfully read is returned through the length
1707 * parameter by reference.  If both the return value and length parameter are
1708 * returned as 0, then EOF was encountered immediately
1709 *****************************************************************************/
1710uint32 regfi_read(int fd, uint8* buf, uint32* length)
1711{
1712  uint32 rsize = 0;
1713  uint32 rret = 0;
1714
1715  do
1716  {
1717    rret = read(fd, buf + rsize, *length - rsize);
1718    if(rret > 0)
1719      rsize += rret;
1720  }while(*length - rsize > 0 
1721         && (rret > 0 || (rret == -1 && (errno == EAGAIN || errno == EINTR))));
1722 
1723  *length = rsize;
1724  if (rret == -1 && errno != EINTR && errno != EAGAIN)
1725    return errno;
1726
1727  return 0;
1728}
Note: See TracBrowser for help on using the repository browser.