source: trunk/src/reglookup.c @ 75

Last change on this file since 75 was 72, checked in by tim, 18 years ago

Added QWORD type support.

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1/*
2 * A utility to read a Windows NT/2K/XP/2K3 registry file, using
3 * Gerald Carter''s regfio interface.
4 *
5 * Copyright (C) 2005-2006 Timothy D. Morgan
6 * Copyright (C) 2002 Richard Sharpe, rsharpe@richardsharpe.com
7 *
8 * This program is free software; you can redistribute it and/or modify
9 * it under the terms of the GNU General Public License as published by
10 * the Free Software Foundation; version 2 of the License.
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, write to the Free Software
19 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. 
20 *
21 * $Id: reglookup.c 72 2006-07-30 20:09:07Z tim $
22 */
23
24
25#include <stdlib.h>
26#include <stdio.h>
27#include <string.h>
28#include <strings.h>
29#include <time.h>
30#include <iconv.h>
31#include "../include/regfio.h"
32#include "../include/void_stack.h"
33
34/* Globals, influenced by command line parameters */
35bool print_verbose = false;
36bool print_security = false;
37bool print_header = true;
38bool path_filter_enabled = false;
39bool type_filter_enabled = false;
40char* path_filter = NULL;
41int type_filter;
42char* registry_file = NULL;
43
44/* Other globals */
45const char* key_special_chars = ",\"\\/";
46const char* subfield_special_chars = ",\"\\|";
47const char* common_special_chars = ",\"\\";
48
49iconv_t conv_desc;
50
51
52void bailOut(int code, char* message)
53{
54  fprintf(stderr, message);
55  exit(code);
56}
57
58
59/* Returns a newly malloc()ed string which contains original buffer,
60 * except for non-printable or special characters are quoted in hex
61 * with the syntax '\xQQ' where QQ is the hex ascii value of the quoted
62 * character.  A null terminator is added, since only ascii, not binary,
63 * is returned.
64 */
65static char* quote_buffer(const unsigned char* str, 
66                          unsigned int len, const char* special)
67{
68  unsigned int i, added_len;
69  unsigned int num_written = 0;
70
71  unsigned int buf_len = sizeof(char)*(len+1);
72  char* ret_val = malloc(buf_len);
73  char* tmp_buf;
74
75  if(ret_val == NULL)
76    return NULL;
77
78  for(i=0; i<len; i++)
79  {
80    if(buf_len <= (num_written+5))
81    {
82      /* Expand the buffer by the memory consumption rate seen so far
83       * times the amount of input left to process.  The expansion is bounded
84       * below by a minimum safety increase, and above by the maximum possible
85       * output string length.  This should minimize both the number of
86       * reallocs() and the amount of wasted memory.
87       */
88      added_len = (len-i)*num_written/(i+1);
89      if((buf_len+added_len) > (len*4+1))
90        buf_len = len*4+1;
91      else
92      {
93        if (added_len < 5)
94          buf_len += 5;
95        else
96          buf_len += added_len;
97      }
98
99      tmp_buf = realloc(ret_val, buf_len);
100      if(tmp_buf == NULL)
101      {
102        free(ret_val);
103        return NULL;
104      }
105      ret_val = tmp_buf;
106    }
107   
108    if(str[i] < 32 || str[i] > 126 || strchr(special, str[i]) != NULL)
109    {
110      num_written += snprintf(ret_val + num_written, buf_len - num_written,
111                              "\\x%.2X", str[i]);
112    }
113    else
114      ret_val[num_written++] = str[i];
115  }
116  ret_val[num_written] = '\0';
117
118  return ret_val;
119}
120
121
122/* Returns a newly malloc()ed string which contains original string,
123 * except for non-printable or special characters are quoted in hex
124 * with the syntax '\xQQ' where QQ is the hex ascii value of the quoted
125 * character.
126 */
127static char* quote_string(const char* str, const char* special)
128{
129  unsigned int len;
130
131  if(str == NULL)
132    return NULL;
133
134  len = strlen(str);
135  return quote_buffer((const unsigned char*)str, len, special);
136}
137
138
139/*
140 * Convert from UTF-16LE to ASCII.  Accepts a Unicode buffer, uni, and
141 * it's length, uni_max.  Writes ASCII to the buffer ascii, whose size
142 * is ascii_max.  Writes at most (ascii_max-1) bytes to ascii, and null
143 * terminates the string.  Returns the length of the string stored in
144 * ascii.  On error, returns a negative errno code.
145 */
146static int uni_to_ascii(unsigned char* uni, char* ascii, 
147                        unsigned int uni_max, unsigned int ascii_max)
148{
149  char* inbuf = (char*)uni;
150  char* outbuf = ascii;
151  size_t in_len = (size_t)uni_max;
152  size_t out_len = (size_t)(ascii_max-1);
153  int ret;
154
155  /* Set up conversion descriptor. */
156  conv_desc = iconv_open("US-ASCII", "UTF-16LE");
157
158  ret = iconv(conv_desc, &inbuf, &in_len, &outbuf, &out_len);
159  if(ret == -1)
160  {
161    iconv_close(conv_desc);
162    return -errno;
163  }
164  *outbuf = '\0';
165
166  iconv_close(conv_desc); 
167  return strlen(ascii);
168}
169
170
171/*
172 * Convert a data value to a string for display.  Returns NULL on error,
173 * and the string to display if there is no error, or a non-fatal
174 * error.  On any error (fatal or non-fatal) occurs, (*error_msg) will
175 * be set to a newly allocated string, containing an error message.  If
176 * a memory allocation failure occurs while generating the error
177 * message, both the return value and (*error_msg) will be NULL.  It
178 * is the responsibility of the caller to free both a non-NULL return
179 * value, and a non-NULL (*error_msg).
180 */
181static char* data_to_ascii(unsigned char *datap, int len, int type, 
182                           char** error_msg)
183{
184  char* asciip;
185  char* ascii;
186  unsigned char* cur_str;
187  char* cur_ascii;
188  char* cur_quoted;
189  char* tmp_err;
190  const char* str_type;
191  unsigned int i;
192  unsigned int cur_str_len;
193  unsigned int ascii_max, cur_str_max;
194  unsigned int str_rem, cur_str_rem, alen;
195  int ret_err;
196  unsigned short num_nulls;
197
198  *error_msg = NULL;
199
200  switch (type) 
201  {
202  case REG_SZ:
203  case REG_EXPAND_SZ:
204    /* REG_LINK is a symbolic link, stored as a unicode string. */
205  case REG_LINK:
206    ascii_max = sizeof(char)*(len+1);
207    ascii = malloc(ascii_max);
208    if(ascii == NULL)
209      return NULL;
210   
211    /* Sometimes values have binary stored in them.  If the unicode
212     * conversion fails, just quote it raw.
213     */
214    ret_err = uni_to_ascii(datap, ascii, len, ascii_max);
215    if(ret_err < 0)
216    {
217      tmp_err = strerror(-ret_err);
218      str_type = regfio_type_val2str(type);
219      *error_msg = (char*)malloc(65+strlen(str_type)+strlen(tmp_err)+1);
220      if(*error_msg == NULL)
221      {
222        free(ascii);
223        return NULL;
224      }
225      sprintf(*error_msg, "Unicode conversion failed on %s field; "
226               "printing as binary.  Error: %s", str_type, tmp_err);
227     
228      cur_quoted = quote_buffer(datap, len, common_special_chars);
229    }
230    else
231      cur_quoted = quote_string(ascii, common_special_chars);
232    free(ascii);
233    if(cur_quoted == NULL)
234    {
235      *error_msg = (char*)malloc(27+1);
236      if(*error_msg != NULL)
237        strcpy(*error_msg, "Buffer could not be quoted.");
238    }
239    return cur_quoted;
240    break;
241
242  case REG_DWORD:
243    ascii_max = sizeof(char)*(8+2+1);
244    ascii = malloc(ascii_max);
245    if(ascii == NULL)
246      return NULL;
247
248    snprintf(ascii, ascii_max, "0x%.2X%.2X%.2X%.2X", 
249             datap[0], datap[1], datap[2], datap[3]);
250    return ascii;
251    break;
252
253  case REG_DWORD_BE:
254    ascii_max = sizeof(char)*(8+2+1);
255    ascii = malloc(ascii_max);
256    if(ascii == NULL)
257      return NULL;
258
259    snprintf(ascii, ascii_max, "0x%.2X%.2X%.2X%.2X", 
260             datap[3], datap[2], datap[1], datap[0]);
261    return ascii;
262    break;
263
264  case REG_QWORD:
265    ascii_max = sizeof(char)*(16+2+1);
266    ascii = malloc(ascii_max);
267    if(ascii == NULL)
268      return NULL;
269
270    snprintf(ascii, ascii_max, "0x%.2X%.2X%.2X%.2X%.2X%.2X%.2X%.2X",
271             datap[7], datap[6], datap[5], datap[4],
272             datap[3], datap[2], datap[1], datap[0]);
273    return ascii;
274    break;
275   
276
277  /* XXX: this MULTI_SZ parser is pretty inefficient.  Should be
278   *      redone with fewer malloc calls and better string concatenation.
279   */
280  case REG_MULTI_SZ:
281    ascii_max = sizeof(char)*(len*4+1);
282    cur_str_max = sizeof(char)*(len+1);
283    cur_str = malloc(cur_str_max);
284    cur_ascii = malloc(cur_str_max);
285    ascii = malloc(ascii_max);
286    if(ascii == NULL || cur_str == NULL || cur_ascii == NULL)
287      return NULL;
288
289    /* Reads until it reaches 4 consecutive NULLs,
290     * which is two nulls in unicode, or until it reaches len, or until we
291     * run out of buffer.  The latter should never happen, but we shouldn't
292     * trust our file to have the right lengths/delimiters.
293     */
294    asciip = ascii;
295    num_nulls = 0;
296    str_rem = ascii_max;
297    cur_str_rem = cur_str_max;
298    cur_str_len = 0;
299
300    for(i=0; (i < len) && str_rem > 0; i++)
301    {
302      *(cur_str+cur_str_len) = *(datap+i);
303      if(*(cur_str+cur_str_len) == 0)
304        num_nulls++;
305      else
306        num_nulls = 0;
307      cur_str_len++;
308
309      if(num_nulls == 2)
310      {
311        ret_err = uni_to_ascii(cur_str, cur_ascii, cur_str_len-1, cur_str_max);
312        if(ret_err < 0)
313        {
314          /* XXX: should every sub-field error be enumerated? */
315          if(*error_msg == NULL)
316          {
317            tmp_err = strerror(-ret_err);
318            *error_msg = (char*)malloc(90+strlen(tmp_err)+1);
319            if(*error_msg == NULL)
320            {
321              free(cur_str);
322              free(cur_ascii);
323              free(ascii);
324              return NULL;
325            }
326            sprintf(*error_msg, "Unicode conversion failed on at least one "
327                    "MULTI_SZ sub-field; printing as binary.  Error: %s",
328                    tmp_err);
329          }
330          cur_quoted = quote_buffer(cur_str, cur_str_len-1, 
331                                    subfield_special_chars);
332        }
333        else
334          cur_quoted = quote_string(cur_ascii, subfield_special_chars);
335
336        alen = snprintf(asciip, str_rem, "%s", cur_quoted);
337        asciip += alen;
338        str_rem -= alen;
339        free(cur_quoted);
340
341        if(*(datap+i+1) == 0 && *(datap+i+2) == 0)
342          break;
343        else
344        {
345          if(str_rem > 0)
346          {
347            asciip[0] = '|';
348            asciip[1] = '\0';
349            asciip++;
350            str_rem--;
351          }
352          memset(cur_str, 0, cur_str_max);
353          cur_str_len = 0;
354          num_nulls = 0;
355          /* To eliminate leading nulls in subsequent strings. */
356          i++;
357        }
358      }
359    }
360    *asciip = 0;
361    free(cur_str);
362    free(cur_ascii);
363    return ascii;
364    break;
365
366  /* XXX: Dont know what to do with these yet, just print as binary... */
367  case REG_NONE:
368  case REG_RESOURCE_LIST:
369  case REG_FULL_RESOURCE_DESCRIPTOR:
370  case REG_RESOURCE_REQUIREMENTS_LIST:
371
372  case REG_BINARY:
373    return quote_buffer(datap, len, common_special_chars);
374    break;
375  }
376
377
378  /* Invalid type */
379  *error_msg = (char*)malloc(33+11+1);
380  if(*error_msg != NULL)
381    sprintf(*error_msg, "Unrecognized registry data type: %d", type);
382
383  return NULL;
384}
385
386
387void_stack* path2Stack(const char* s)
388{
389  void_stack* ret_val;
390  void_stack* rev_ret = void_stack_new(1024);
391  const char* cur = s;
392  char* next = NULL;
393  char* copy;
394
395  if (rev_ret == NULL)
396    return NULL;
397  if (s == NULL)
398    return rev_ret;
399 
400  while((next = strchr(cur, '/')) != NULL)
401  {
402    if ((next-cur) > 0)
403    {
404      copy = (char*)malloc((next-cur+1)*sizeof(char));
405      if(copy == NULL)
406        bailOut(2, "ERROR: Memory allocation problem.\n");
407         
408      memcpy(copy, cur, next-cur);
409      copy[next-cur] = '\0';
410      void_stack_push(rev_ret, copy);
411    }
412    cur = next+1;
413  }
414  if(strlen(cur) > 0)
415  {
416    copy = strdup(cur);
417    void_stack_push(rev_ret, copy);
418  }
419
420  ret_val = void_stack_copy_reverse(rev_ret);
421  void_stack_destroy(rev_ret);
422
423  return ret_val;
424}
425
426/* Returns a quoted path from an nk_stack */
427char* stack2Path(void_stack* nk_stack)
428{
429  const REGF_NK_REC* cur;
430  uint32 buf_left = 127;
431  uint32 buf_len = buf_left+1;
432  uint32 name_len = 0;
433  uint32 grow_amt;
434  char* buf; 
435  char* new_buf;
436  char* name;
437  void_stack_iterator* iter;
438 
439  buf = (char*)malloc((buf_len)*sizeof(char));
440  if (buf == NULL)
441    return NULL;
442  buf[0] = '\0';
443
444  iter = void_stack_iterator_new(nk_stack);
445  if (iter == NULL)
446  {
447    free(buf);
448    return NULL;
449  }
450
451  /* skip root element */
452  cur = void_stack_iterator_next(iter);
453
454  while((cur = void_stack_iterator_next(iter)) != NULL)
455  {
456    buf[buf_len-buf_left-1] = '/';
457    buf_left -= 1;
458    name = quote_string(cur->keyname, key_special_chars);
459    name_len = strlen(name);
460    if(name_len+1 > buf_left)
461    {
462      grow_amt = (uint32)(buf_len/2);
463      buf_len += name_len+1+grow_amt-buf_left;
464      if((new_buf = realloc(buf, buf_len)) == NULL)
465      {
466        free(buf);
467        free(iter);
468        return NULL;
469      }
470      buf = new_buf;
471      buf_left = grow_amt + name_len + 1;
472    }
473    strncpy(buf+(buf_len-buf_left-1), name, name_len);
474    buf_left -= name_len;
475    buf[buf_len-buf_left-1] = '\0';
476    free(name);
477  }
478
479  return buf;
480}
481
482
483void printValue(REGF_VK_REC* vk, char* prefix)
484{
485  uint32 size;
486  uint8 tmp_buf[4];
487  char* quoted_value = NULL;
488  char* quoted_name = NULL;
489  char* conv_error = NULL;
490
491  /* Thanks Microsoft for making this process so straight-forward!!! */
492  size = (vk->data_size & ~VK_DATA_IN_OFFSET);
493  if(vk->data_size & VK_DATA_IN_OFFSET)
494  {
495    tmp_buf[0] = (uint8)((vk->data_off >> 3) & 0xFF);
496    tmp_buf[1] = (uint8)((vk->data_off >> 2) & 0xFF);
497    tmp_buf[2] = (uint8)((vk->data_off >> 1) & 0xFF);
498    tmp_buf[3] = (uint8)(vk->data_off & 0xFF);
499    if(size > 4)
500      size = 4;
501    quoted_value = data_to_ascii(tmp_buf, 4, vk->type, &conv_error);
502  }
503  else
504  {
505    /* XXX: This is a safety hack.  No data fields have yet been found
506     * larger, but length limits are probably better got from fields
507     * in the registry itself, within reason.
508     */
509    if(size > 16384)
510    {
511      fprintf(stderr, "WARNING: key size %d larger than "
512              "16384, truncating...\n", size);
513      size = 16384;
514    }
515
516    quoted_value = data_to_ascii(vk->data, vk->data_size, 
517                                 vk->type, &conv_error);
518  }
519 
520  /* XXX: Sometimes value names can be NULL in registry.  Need to
521   *      figure out why and when, and generate the appropriate output
522   *      for that condition.
523   */
524  quoted_name = quote_string(vk->valuename, common_special_chars);
525
526  if(quoted_value == NULL)
527  {
528    if(conv_error == NULL)
529      fprintf(stderr, "WARNING: Could not quote value for '%s/%s'.  "
530              "Memory allocation failure likely.\n", prefix, quoted_name);
531    else
532      fprintf(stderr, "WARNING: Could not quote value for '%s/%s'.  "
533              "Returned error: %s\n", prefix, quoted_name, conv_error);
534  }
535  /* XXX: should these always be printed? */
536  else if(conv_error != NULL && print_verbose)
537      fprintf(stderr, "VERBOSE: While quoting value for '%s/%s', "
538              "warning returned: %s\n", prefix, quoted_name, conv_error);
539
540  if(print_security)
541    printf("%s/%s,%s,%s,,,,,\n", prefix, quoted_name,
542           regfio_type_val2str(vk->type), quoted_value);
543  else
544    printf("%s/%s,%s,%s,\n", prefix, quoted_name,
545           regfio_type_val2str(vk->type), quoted_value);
546 
547  if(quoted_value != NULL)
548    free(quoted_value);
549  if(quoted_name != NULL)
550    free(quoted_name);
551  if(conv_error != NULL)
552    free(conv_error);
553}
554
555
556void printValueList(REGF_NK_REC* nk, char* prefix)
557{
558  uint32 i;
559 
560  for(i=0; i < nk->num_values; i++)
561    if(!type_filter_enabled || (nk->values[i].type == type_filter))
562      printValue(nk->values+i, prefix);
563}
564
565
566void printKey(REGF_NK_REC* k, char* full_path)
567{
568  static char empty_str[1] = "";
569  char* owner = NULL;
570  char* group = NULL;
571  char* sacl = NULL;
572  char* dacl = NULL;
573  char mtime[20];
574  time_t tmp_time[1];
575  struct tm* tmp_time_s = NULL;
576
577  *tmp_time = nt_time_to_unix(&k->mtime);
578  tmp_time_s = gmtime(tmp_time);
579  strftime(mtime, sizeof(mtime), "%Y-%m-%d %H:%M:%S", tmp_time_s);
580
581  if(print_security)
582  {
583    owner = regfio_get_owner(k->sec_desc->sec_desc);
584    group = regfio_get_group(k->sec_desc->sec_desc);
585    sacl = regfio_get_sacl(k->sec_desc->sec_desc);
586    dacl = regfio_get_dacl(k->sec_desc->sec_desc);
587    if(owner == NULL)
588      owner = empty_str;
589    if(group == NULL)
590      group = empty_str;
591    if(sacl == NULL)
592      sacl = empty_str;
593    if(dacl == NULL)
594      dacl = empty_str;
595
596    printf("%s,KEY,,%s,%s,%s,%s,%s\n", full_path, mtime, 
597           owner, group, sacl, dacl);
598
599    if(owner != empty_str)
600      free(owner);
601    if(group != empty_str)
602      free(group);
603    if(sacl != empty_str)
604      free(sacl);
605    if(dacl != empty_str)
606      free(dacl);
607  }
608  else
609    printf("%s,KEY,,%s\n", full_path, mtime);
610}
611
612
613void printKeyTree(REGF_FILE* f, void_stack* nk_stack, const char* prefix)
614{
615  REGF_NK_REC* cur = NULL;
616  REGF_NK_REC* sub = NULL;
617  char* path = NULL;
618  char* val_path = NULL;
619  uint32 val_path_len = 0;
620  uint32 path_len = 0;
621  uint32 prefix_len = strlen(prefix);
622  int key_type = regfio_type_str2val("KEY");
623 
624  if((cur = (REGF_NK_REC*)void_stack_cur(nk_stack)) != NULL)
625  {
626    cur->subkey_index = 0;
627    path = stack2Path(nk_stack);
628
629    if(print_verbose)
630    {
631      if(prefix[0] == '\0')
632        fprintf(stderr, "VERBOSE: Printing key tree under path: /\n");
633      else
634        fprintf(stderr, "VERBOSE: Printing key tree under path: %s\n",
635                prefix);
636    }
637
638    path_len = strlen(path);
639    val_path_len = prefix_len+path_len;
640    val_path = (char*)malloc(val_path_len+1+1);
641    if(val_path == NULL)
642      bailOut(2, "ERROR: Could not allocate val_path.\n");
643
644    strcpy(val_path, prefix);
645    strcpy(val_path+prefix_len, path);
646    if(val_path[0] == '\0')
647    {
648      val_path[0] = '/';
649      val_path[1] = '\0';
650    }
651    if(!type_filter_enabled || (key_type == type_filter))
652      printKey(cur, val_path);
653    if(!type_filter_enabled || (key_type != type_filter))
654      printValueList(cur, val_path);
655   
656    while((cur = (REGF_NK_REC*)void_stack_cur(nk_stack)) != NULL)
657    {
658      if((sub = regfio_fetch_subkey(f, cur)) == NULL)
659      {
660        sub = void_stack_pop(nk_stack);
661        /* XXX: This is just a shallow free.  Need to write deep free
662         * routines to replace the Samba code for this.
663         */ 
664        if(sub != NULL)
665          free(sub);
666      }
667      else
668      {
669        sub->subkey_index = 0;
670        void_stack_push(nk_stack, sub);
671        path = stack2Path(nk_stack);
672        if(path != NULL)
673        {
674          path_len = strlen(path);
675          if(val_path_len < prefix_len+path_len)
676          {
677            val_path_len = prefix_len+path_len;
678            val_path = (char*)realloc(val_path, val_path_len+1);
679            if(val_path == NULL)
680              bailOut(2, "ERROR: Could not reallocate val_path.\n");
681          }
682          strcpy(val_path, prefix);
683          strcpy(val_path+prefix_len, path);
684          if(!type_filter_enabled || (key_type == type_filter))
685            printKey(sub, val_path);
686          if(!type_filter_enabled || (key_type != type_filter))
687            printValueList(sub, val_path);
688        }
689      }
690    }
691  }
692  if(val_path != NULL)
693    free(val_path);
694  if(print_verbose)
695    fprintf(stderr, "VERBOSE: Finished printing key tree.\n");
696}
697
698
699/*
700 * Returns 0 if path was found.
701 * Returns 1 if path was not found.
702 * Returns less than 0 on other error.
703 */
704int retrievePath(REGF_FILE* f, void_stack* nk_stack,
705                 void_stack* path_stack)
706{
707  REGF_NK_REC* sub = NULL; 
708  REGF_NK_REC* cur = NULL;
709  void_stack* sub_nk_stack;
710  char* prefix;
711  char* cur_str = NULL;
712  char* path = NULL;
713  char* name;
714  uint16 path_depth;
715  uint32 i, prefix_len;
716  bool found_cur = true;
717  if(path_stack == NULL)
718    return -1;
719
720  path_depth = void_stack_size(path_stack);
721  if(path_depth < 1)
722    return -2;
723
724  if(void_stack_size(nk_stack) < 1)
725    return -3;
726  cur = (REGF_NK_REC*)void_stack_cur(nk_stack);
727
728  if(print_verbose)
729    fprintf(stderr, "VERBOSE: Beginning retrieval of specified path: %s\n", 
730            path_filter);
731
732  while(void_stack_size(path_stack) > 1)
733  {
734    /* Search key records only */
735    cur_str = (char*)void_stack_pop(path_stack);
736
737    found_cur = false;
738    while(!found_cur &&
739          (sub = regfio_fetch_subkey(f, cur)) != NULL)
740    {
741      if(strcasecmp(sub->keyname, cur_str) == 0)
742      {
743        cur = sub;
744        void_stack_push(nk_stack, sub);
745        found_cur = true;
746      }
747    }
748    if(print_verbose && !found_cur)
749      fprintf(stderr, "VERBOSE: Could not find KEY '%s' in specified path.\n", 
750              cur_str);
751
752    free(cur_str);
753    if(!found_cur)
754      return 1;
755  }
756
757  /* Last round, search value and key records */
758  cur_str = (char*)void_stack_pop(path_stack);
759
760  if(print_verbose)
761    fprintf(stderr, "VERBOSE: Searching values for last component"
762                    " of specified path.\n");
763
764  for(i=0; (i < cur->num_values); i++)
765  {
766    /* XXX: Not sure when/why this can be NULL, but it's happened. */
767    if(sub->values[i].valuename != NULL 
768       && strcasecmp(sub->values[i].valuename, cur_str) == 0)
769    {
770      path = stack2Path(nk_stack);
771
772      if(print_verbose)
773        fprintf(stderr, "VERBOSE: Found final path element as value.\n");
774
775      if(!type_filter_enabled || (sub->values[i].type == type_filter))
776        printValue(&sub->values[i], path);
777      if(path != NULL)
778        free(path);
779
780      return 0;
781    }
782  }
783
784  if(print_verbose)
785    fprintf(stderr, "VERBOSE: Searching keys for last component"
786                    " of specified path.\n");
787
788  while((sub = regfio_fetch_subkey(f, cur)) != NULL)
789  {
790    if(strcasecmp(sub->keyname, cur_str) == 0)
791    {
792      sub_nk_stack = void_stack_new(1024);
793      void_stack_push(sub_nk_stack, sub);
794      prefix = stack2Path(nk_stack);
795      prefix_len = strlen(prefix);
796      prefix = realloc(prefix, prefix_len+strlen(sub->keyname)+2);
797      if(prefix == NULL)
798        return -1;
799      name = quote_string(sub->keyname, key_special_chars);
800      strcat(prefix, "/");
801      strcat(prefix, name);
802      free(name);
803
804      if(print_verbose)
805        fprintf(stderr, "VERBOSE: Found final path element as key.\n");
806
807      printKeyTree(f, sub_nk_stack, prefix);
808
809      return 0;
810    }
811  }
812
813  if(print_verbose)
814    fprintf(stderr, "VERBOSE: Could not find last element of path.\n");
815
816  return 1;
817}
818
819
820static void usage(void)
821{
822  fprintf(stderr, "Usage: reglookup [-v] [-s]"
823          " [-p <PATH_FILTER>] [-t <TYPE_FILTER>]"
824          " <REGISTRY_FILE>\n");
825  fprintf(stderr, "Version: 0.3.0\n");
826  fprintf(stderr, "Options:\n");
827  fprintf(stderr, "\t-v\t sets verbose mode.\n");
828  fprintf(stderr, "\t-h\t enables header row. (default)\n");
829  fprintf(stderr, "\t-H\t disables header row.\n");
830  fprintf(stderr, "\t-s\t enables security descriptor output.\n");
831  fprintf(stderr, "\t-S\t disables security descriptor output. (default)\n");
832  fprintf(stderr, "\t-p\t restrict output to elements below this path.\n");
833  fprintf(stderr, "\t-t\t restrict results to this specific data type.\n");
834  fprintf(stderr, "\n");
835}
836
837
838int main(int argc, char** argv)
839{
840  void_stack* nk_stack;
841  void_stack* path_stack;
842  REGF_FILE* f;
843  REGF_NK_REC* root;
844  int retr_path_ret;
845  uint32 argi, arge;
846
847  /* Process command line arguments */
848  if(argc < 2)
849  {
850    usage();
851    bailOut(1, "ERROR: Requires at least one argument.\n");
852  }
853 
854  arge = argc-1;
855  for(argi = 1; argi < arge; argi++)
856  {
857    if (strcmp("-p", argv[argi]) == 0)
858    {
859      if(++argi >= arge)
860      {
861        usage();
862        bailOut(1, "ERROR: '-p' option requires parameter.\n");
863      }
864      if((path_filter = strdup(argv[argi])) == NULL)
865        bailOut(2, "ERROR: Memory allocation problem.\n");
866
867      path_filter_enabled = true;
868    }
869    else if (strcmp("-t", argv[argi]) == 0)
870    {
871      if(++argi >= arge)
872      {
873        usage();
874        bailOut(1, "ERROR: '-t' option requires parameter.\n");
875      }
876      if((type_filter = regfio_type_str2val(argv[argi])) < 0)
877      {
878        fprintf(stderr, "ERROR: Invalid type specified: %s.\n", argv[argi]);
879        bailOut(1, "");
880      }
881      type_filter_enabled = true;
882    }
883    else if (strcmp("-h", argv[argi]) == 0)
884      print_header = true;
885    else if (strcmp("-H", argv[argi]) == 0)
886      print_header = false;
887    else if (strcmp("-s", argv[argi]) == 0)
888      print_security = true;
889    else if (strcmp("-S", argv[argi]) == 0)
890      print_security = false;
891    else if (strcmp("-v", argv[argi]) == 0)
892      print_verbose = true;
893    else
894    {
895      usage();
896      fprintf(stderr, "ERROR: Unrecognized option: %s\n", argv[argi]);
897      bailOut(1, "");
898    }
899  }
900  if((registry_file = strdup(argv[argi])) == NULL)
901    bailOut(2, "ERROR: Memory allocation problem.\n");
902
903  f = regfio_open(registry_file);
904  if(f == NULL)
905  {
906    fprintf(stderr, "ERROR: Couldn't open registry file: %s\n", registry_file);
907    bailOut(3, "");
908  }
909
910  root = regfio_rootkey(f);
911  nk_stack = void_stack_new(1024);
912
913  if(void_stack_push(nk_stack, root))
914  {
915    if(print_header)
916    {
917      if(print_security)
918        printf("PATH,TYPE,VALUE,MTIME,OWNER,GROUP,SACL,DACL\n");
919      else
920        printf("PATH,TYPE,VALUE,MTIME\n");
921    }
922
923    path_stack = path2Stack(path_filter);
924    if(void_stack_size(path_stack) < 1)
925      printKeyTree(f, nk_stack, "");
926    else
927    {
928      retr_path_ret = retrievePath(f, nk_stack, path_stack);
929      if(retr_path_ret == 1)
930        fprintf(stderr, "WARNING: specified path not found.\n");
931      else if(retr_path_ret != 0)
932        bailOut(4, "ERROR:\n");
933    }
934  }
935  else
936    bailOut(2, "ERROR: Memory allocation problem.\n");
937
938  void_stack_destroy_deep(nk_stack);
939  regfio_close(f);
940
941  return 0;
942}
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