source: trunk/src/reglookup.c @ 289

Last change on this file since 289 was 261, checked in by tim, 14 years ago

readded windows file descriptor hack
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[30]1/*
[135]2 * A utility to read a Windows NT and later registry files.
[30]3 *
[261]4 * Copyright (C) 2005-2011 Timothy D. Morgan
[170]5 * Copyright (C) 2010 Tobias Mueller (portions of '-i' code)
[42]6 * Copyright (C) 2002 Richard Sharpe, rsharpe@richardsharpe.com
[30]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
[111]10 * the Free Software Foundation; version 3 of the License.
[30]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 261 2011-06-17 00:55:49Z tim $
22 */
23
24
25#include <stdlib.h>
26#include <stdio.h>
27#include <string.h>
[33]28#include <strings.h>
[42]29#include <time.h>
[147]30#include "regfi.h"
31#include "void_stack.h"
[30]32
[40]33/* Globals, influenced by command line parameters */
[170]34bool print_value_mtime = false;
[40]35bool print_verbose = false;
36bool print_security = false;
[42]37bool print_header = true;
[40]38bool path_filter_enabled = false;
39bool type_filter_enabled = false;
40char* path_filter = NULL;
41int type_filter;
[181]42const char* registry_file = NULL;
[40]43
[42]44/* Other globals */
[135]45REGFI_FILE* f;
[66]46
[40]47
[116]48/* XXX: A hack to share some functions with reglookup-recover.c.
[125]49 *      Should move these into a proper library at some point.
[111]50 */
51#include "common.c"
[61]52
[38]53
[249]54static bool keysEqual(const REGFI_NK* x, const REGFI_NK* y)
55{
56  return (x != NULL && y != NULL && x->offset == y->offset);
57}
58
[203]59void printValue(REGFI_ITERATOR* iter, const REGFI_VK* vk, char* prefix)
[41]60{
[249]61  const REGFI_NK* cur_key;
[184]62  const REGFI_DATA* data;
[111]63  char* quoted_value = NULL;
64  char* quoted_name = NULL;
65  char* conv_error = NULL;
66  const char* str_type = NULL;
[170]67  char mtime[20];
68  time_t tmp_time[1];
69  struct tm* tmp_time_s = NULL;
[41]70
[172]71  quoted_name = get_quoted_valuename(vk);
[111]72  if (quoted_name == NULL)
73  { /* Value names are NULL when we're looking at the "(default)" value.
74     * Currently we just return a 0-length string to try an eliminate
75     * ambiguity with a literal "(default)" value.  The data type of a line
76     * in the output allows one to differentiate between the parent key and
77     * this value.
78     */
79    quoted_name = malloc(1*sizeof(char));
80    if(quoted_name == NULL)
[143]81      bailOut(REGLOOKUP_EXIT_OSERR, "ERROR: Could not allocate sufficient memory.\n");
[111]82    quoted_name[0] = '\0';
83  }
[159]84 
[206]85  data = regfi_fetch_data(iter->f, vk);
[41]86
[159]87  printMsgs(iter->f);
88  if(data != NULL)
[41]89  {
[159]90    quoted_value = data_to_ascii(data, &conv_error);
[138]91    if(quoted_value == NULL)
92    {
93      if(conv_error == NULL)
94        fprintf(stderr, "WARN: Could not quote value for '%s/%s'.  "
95                "Memory allocation failure likely.\n", prefix, quoted_name);
96      else
97        fprintf(stderr, "WARN: Could not quote value for '%s/%s'.  "
98                "Returned error: %s\n", prefix, quoted_name, conv_error);
99    }
[159]100    else if(conv_error != NULL)
101      fprintf(stderr, "WARN: While quoting value for '%s/%s', "
[138]102              "warning returned: %s\n", prefix, quoted_name, conv_error);
[228]103    regfi_free_record(iter->f, data);
[138]104  }
[41]105
[170]106  if(print_value_mtime)
107  {
[249]108    cur_key = regfi_iterator_cur_key(iter);
[251]109    *tmp_time = regfi_nt2unix_time(cur_key->mtime);
[170]110    tmp_time_s = gmtime(tmp_time);
111    strftime(mtime, sizeof(mtime), "%Y-%m-%d %H:%M:%S", tmp_time_s);
[249]112    regfi_free_record(iter->f, cur_key);
[170]113  }
114  else
115    mtime[0] = '\0';
116
[111]117  str_type = regfi_type_val2str(vk->type);
118  if(print_security)
[41]119  {
[111]120    if(str_type == NULL)
[170]121      printf("%s/%s,0x%.8X,%s,%s,,,,\n", prefix, quoted_name,
122             vk->type, quoted_value, mtime);
[66]123    else
[170]124      printf("%s/%s,%s,%s,%s,,,,\n", prefix, quoted_name,
125             str_type, quoted_value, mtime);
[71]126  }
[111]127  else
128  {
129    if(str_type == NULL)
[170]130      printf("%s/%s,0x%.8X,%s,%s\n", prefix, quoted_name,
131             vk->type, quoted_value, mtime);
[111]132    else
[170]133      printf("%s/%s,%s,%s,%s\n", prefix, quoted_name,
134             str_type, quoted_value, mtime);
[111]135  }
[42]136
[111]137  if(quoted_value != NULL)
138    free(quoted_value);
139  if(quoted_name != NULL)
140    free(quoted_name);
141  if(conv_error != NULL)
142    free(conv_error);
[41]143}
144
145
[81]146char** splitPath(const char* s)
[30]147{
[81]148  char** ret_val;
[38]149  const char* cur = s;
[33]150  char* next = NULL;
[38]151  char* copy;
[168]152  uint32_t ret_cur = 0;
[38]153
[135]154  ret_val = (char**)malloc((REGFI_MAX_DEPTH+1+1)*sizeof(char**));
[81]155  if (ret_val == NULL)
[38]156    return NULL;
[81]157  ret_val[0] = NULL;
158
159  /* We return a well-formed, 0-length, path even when input is icky. */
[37]160  if (s == NULL)
[81]161    return ret_val;
[38]162 
163  while((next = strchr(cur, '/')) != NULL)
[33]164  {
[38]165    if ((next-cur) > 0)
166    {
167      copy = (char*)malloc((next-cur+1)*sizeof(char));
168      if(copy == NULL)
[143]169        bailOut(REGLOOKUP_EXIT_OSERR, "ERROR: Memory allocation problem.\n");
[38]170         
171      memcpy(copy, cur, next-cur);
172      copy[next-cur] = '\0';
[81]173      ret_val[ret_cur++] = copy;
[135]174      if(ret_cur < (REGFI_MAX_DEPTH+1+1))
[81]175        ret_val[ret_cur] = NULL;
176      else
[143]177        bailOut(REGLOOKUP_EXIT_DATAERR, "ERROR: Registry maximum depth exceeded.\n");
[38]178    }
179    cur = next+1;
[33]180  }
[81]181
182  /* Grab last element, if path doesn't end in '/'. */
[33]183  if(strlen(cur) > 0)
[38]184  {
185    copy = strdup(cur);
[81]186    ret_val[ret_cur++] = copy;
[135]187    if(ret_cur < (REGFI_MAX_DEPTH+1+1))
[81]188      ret_val[ret_cur] = NULL;
189    else
[143]190      bailOut(REGLOOKUP_EXIT_DATAERR, "ERROR: Registry maximum depth exceeded.\n");
[38]191  }
[33]192
193  return ret_val;
194}
195
[81]196
[83]197void freePath(char** path)
198{
[168]199  uint32_t i;
[83]200
201  if(path == NULL)
202    return;
203
204  for(i=0; path[i] != NULL; i++)
205    free(path[i]);
206
207  free(path);
208}
209
210
[249]211/* Returns a quoted path of the current iterator's position */
[81]212char* iter2Path(REGFI_ITERATOR* i)
[33]213{
[249]214  const REGFI_NK** path;
215  uint32_t k;
[168]216  uint32_t buf_left = 127;
217  uint32_t buf_len = buf_left+1;
218  uint32_t name_len = 0;
219  uint32_t grow_amt;
[81]220  char* buf;
[31]221  char* new_buf;
[66]222  char* name;
[31]223 
224  buf = (char*)malloc((buf_len)*sizeof(char));
225  if (buf == NULL)
226    return NULL;
[54]227  buf[0] = '\0';
[30]228
[252]229  path = regfi_iterator_ancestry(i);
[249]230  if(path == NULL)
[30]231  {
[31]232    free(buf);
233    return NULL;
[30]234  }
235
[249]236  for(k=0; path[k] != NULL; k++)
[81]237  {
[249]238    /* skip root element's name */
239    if(k == 0)
240    {
241      buf[0] = '/';
242      buf[1] = '\0';
243    }
[81]244    else
[249]245    {
246      name = get_quoted_keyname(path[k]);
[81]247
[249]248      buf[buf_len-buf_left-1] = '/';
249      buf_left -= 1;
250      name_len = strlen(name);
251      if(name_len+1 > buf_left)
[31]252      {
[249]253        grow_amt = (uint32_t)(buf_len/2);
254        buf_len += name_len+1+grow_amt-buf_left;
255        if((new_buf = realloc(buf, buf_len)) == NULL)
256        {
257          regfi_free_record(i->f, path);
258          free(name);
259          free(buf);
260          return NULL;
261        }
262        buf = new_buf;
263        buf_left = grow_amt + name_len + 1;
[31]264      }
[249]265      strncpy(buf+(buf_len-buf_left-1), name, name_len);
266      buf_left -= name_len;
267      buf[buf_len-buf_left-1] = '\0';
268      free(name);
[31]269    }
[249]270  }
[30]271
[249]272  regfi_free_record(i->f, path);
[31]273  return buf;
274}
[30]275
[31]276
[137]277void printValueList(REGFI_ITERATOR* iter, char* prefix)
[32]278{
[203]279  const REGFI_VK* value;
[80]280
[199]281  regfi_iterator_first_value(iter);
282  while((value = regfi_iterator_cur_value(iter)) != NULL)
[81]283  {
284    if(!type_filter_enabled || (value->type == type_filter))
[159]285      printValue(iter, value, prefix);
[228]286    regfi_free_record(iter->f, value);
[199]287    regfi_iterator_next_value(iter);
[138]288    printMsgs(iter->f);
[81]289  }
[33]290}
291
[37]292
[137]293void printKey(REGFI_ITERATOR* iter, char* full_path)
[33]294{
[43]295  static char empty_str[1] = "";
[42]296  char* owner = NULL;
297  char* group = NULL;
298  char* sacl = NULL;
299  char* dacl = NULL;
[178]300  char mtime[24];
[125]301  char* quoted_classname;
[203]302  const REGFI_SK* sk;
303  const REGFI_NK* key = regfi_iterator_cur_key(iter);
[184]304  const REGFI_CLASSNAME* classname;
[42]305
[251]306  formatTime(key->mtime, mtime);
[43]307
[206]308  if(print_security && (sk=regfi_fetch_sk(iter->f, key)))
[43]309  {
[109]310    owner = regfi_get_owner(sk->sec_desc);
311    group = regfi_get_group(sk->sec_desc);
312    sacl = regfi_get_sacl(sk->sec_desc);
313    dacl = regfi_get_dacl(sk->sec_desc);
[228]314    regfi_free_record(iter->f, sk);
[184]315
[43]316    if(owner == NULL)
317      owner = empty_str;
318    if(group == NULL)
319      group = empty_str;
320    if(sacl == NULL)
321      sacl = empty_str;
322    if(dacl == NULL)
323      dacl = empty_str;
324
[206]325    classname = regfi_fetch_classname(iter->f, key);
[160]326    printMsgs(iter->f);
327    if(classname != NULL)
[126]328    {
[160]329      if(classname->interpreted == NULL)
[126]330      {
[160]331        fprintf(stderr, "WARN: Could not convert class name"
332                " charset for key '%s'.  Quoting raw...\n", full_path);
333        quoted_classname = quote_buffer(classname->raw, classname->size,
334                                        key_special_chars);
[126]335      }
[160]336      else
337        quoted_classname = quote_string(classname->interpreted, 
338                                        key_special_chars);
339
340      if(quoted_classname == NULL)
[126]341      {
[160]342        fprintf(stderr, "ERROR: Could not quote classname"
343                " for key '%s' due to unknown error.\n", full_path);
344        quoted_classname = empty_str;
[126]345      }
346    }
[125]347    else
348      quoted_classname = empty_str;
[228]349    regfi_free_record(iter->f, classname);
[43]350
[138]351    printMsgs(iter->f);
[125]352    printf("%s,KEY,,%s,%s,%s,%s,%s,%s\n", full_path, mtime, 
353           owner, group, sacl, dacl, quoted_classname);
354
[43]355    if(owner != empty_str)
356      free(owner);
357    if(group != empty_str)
358      free(group);
359    if(sacl != empty_str)
360      free(sacl);
361    if(dacl != empty_str)
362      free(dacl);
[125]363    if(quoted_classname != empty_str)
364      free(quoted_classname);
[43]365  }
366  else
[66]367    printf("%s,KEY,,%s\n", full_path, mtime);
[184]368
[228]369  regfi_free_record(iter->f, key);
[43]370}
371
372
[81]373void printKeyTree(REGFI_ITERATOR* iter)
[43]374{
[203]375  const REGFI_NK* root = NULL;
376  const REGFI_NK* cur = NULL;
377  const REGFI_NK* sub = NULL;
[43]378  char* path = NULL;
[78]379  int key_type = regfi_type_str2val("KEY");
[81]380  bool print_this = true;
381
[249]382  root = regfi_iterator_cur_key(iter);
[252]383  cur = root = regfi_reference_record(iter->f, root);
[199]384  regfi_iterator_first_subkey(iter);
385  sub = regfi_iterator_cur_subkey(iter);
[138]386  printMsgs(iter->f);
[137]387
[81]388  if(root == NULL)
[143]389    bailOut(REGLOOKUP_EXIT_DATAERR, "ERROR: root cannot be NULL.\n");
[81]390 
391  do
[31]392  {
[81]393    if(print_this)
[54]394    {
[81]395      path = iter2Path(iter);
396      if(path == NULL)
[143]397        bailOut(REGLOOKUP_EXIT_OSERR, "ERROR: Could not construct iterator's path.\n");
[137]398
[81]399      if(!type_filter_enabled || (key_type == type_filter))
[109]400        printKey(iter, path);
[81]401      if(!type_filter_enabled || (key_type != type_filter))
402        printValueList(iter, path);
403     
404      free(path);
[54]405    }
[66]406   
[81]407    if(sub == NULL)
[31]408    {
[249]409      if(!keysEqual(cur, root))
[31]410      {
[228]411        regfi_free_record(iter->f, cur);
[249]412        cur = NULL;
[81]413        /* We're done with this sub-tree, going up and hitting other branches. */
414        if(!regfi_iterator_up(iter))
[137]415        {
[138]416          printMsgs(iter->f);
[143]417          bailOut(REGLOOKUP_EXIT_DATAERR, "ERROR: could not traverse iterator upward.\n");
[137]418        }
419
[81]420        cur = regfi_iterator_cur_key(iter);
421        if(cur == NULL)
[137]422        {
[138]423          printMsgs(iter->f);
[143]424          bailOut(REGLOOKUP_EXIT_DATAERR, "ERROR: unexpected NULL for key.\n");
[137]425        }
[150]426       
[199]427        regfi_iterator_next_subkey(iter);
428        sub = regfi_iterator_cur_subkey(iter);
[66]429      }
[81]430      print_this = false;
[31]431    }
[81]432    else
433    { /* We have unexplored sub-keys. 
434       * Let's move down and print this first sub-tree out.
435       */
[228]436      regfi_free_record(iter->f, cur);
[249]437      cur = NULL;
[81]438      if(!regfi_iterator_down(iter))
[137]439      {
[138]440        printMsgs(iter->f);
[143]441        bailOut(REGLOOKUP_EXIT_DATAERR, "ERROR: could not traverse iterator downward.\n");
[137]442      }
[81]443
[150]444      cur = regfi_iterator_cur_key(iter);
[228]445      regfi_free_record(iter->f, sub);
[199]446      regfi_iterator_first_subkey(iter);
447      sub = regfi_iterator_cur_subkey(iter);
[81]448      print_this = true;
449    }
[138]450    printMsgs(iter->f);
[249]451  } while(!(keysEqual(cur, root) && (sub == NULL)));
452  if(cur != NULL)
453    regfi_free_record(iter->f, cur);
[228]454  regfi_free_record(iter->f, root);
[81]455
[54]456  if(print_verbose)
[138]457    fprintf(stderr, "INFO: Finished printing key tree.\n");
[30]458}
459
[81]460
[140]461/* XXX: What if there is BOTH a value AND a key with that name??
462 *      What if there are multiple keys/values with the same name??
463 */
[33]464/*
[80]465 * Returns 0 if path was not found.
466 * Returns 1 if path was found as value.
467 * Returns 2 if path was found as key.
[33]468 * Returns less than 0 on other error.
469 */
[80]470int retrievePath(REGFI_ITERATOR* iter, char** path)
[33]471{
[203]472  const REGFI_VK* value;
[81]473  char* tmp_path_joined;
474  const char** tmp_path;
[168]475  uint32_t i;
[80]476 
477  if(path == NULL)
[33]478    return -1;
479
[80]480  /* One extra for any value at the end, and one more for NULL */
[135]481  tmp_path = (const char**)malloc(sizeof(const char**)*(REGFI_MAX_DEPTH+1+1));
[80]482  if(tmp_path == NULL)
[33]483    return -2;
484
[80]485  /* Strip any potential value name at end of path */
486  for(i=0; 
[136]487      (path[i] != NULL) && (path[i+1] != NULL) && (i < REGFI_MAX_DEPTH+1);
[80]488      i++)
[136]489  { tmp_path[i] = path[i]; }
[80]490  tmp_path[i] = NULL;
491
[54]492  if(print_verbose)
[138]493    fprintf(stderr, "INFO: Attempting to retrieve specified path: %s\n",
[54]494            path_filter);
495
[82]496  /* Special check for '/' path filter */
497  if(path[0] == NULL)
498  {
499    if(print_verbose)
[138]500      fprintf(stderr, "INFO: Found final path element as root key.\n");
[136]501    free(tmp_path);
[82]502    return 2;
503  }
504
[252]505  if(!regfi_iterator_descend(iter, tmp_path))
[33]506  {
[138]507    printMsgs(iter->f);
[80]508    free(tmp_path);
509    return 0;
[33]510  }
511
[80]512  if(regfi_iterator_find_value(iter, path[i]))
513  {
514    if(print_verbose)
[138]515      fprintf(stderr, "INFO: Found final path element as value.\n");
[33]516
[80]517    value = regfi_iterator_cur_value(iter);
[138]518    printMsgs(iter->f);
[81]519    tmp_path_joined = iter2Path(iter);
[54]520
[80]521    if((value == NULL) || (tmp_path_joined == NULL))
[143]522      bailOut(REGLOOKUP_EXIT_OSERR, "ERROR: Unexpected error before printValue.\n");
[54]523
[121]524    if(!type_filter_enabled || (value->type == type_filter))
[159]525      printValue(iter, value, tmp_path_joined);
[54]526
[228]527    regfi_free_record(iter->f, value);
[80]528    free(tmp_path);
529    free(tmp_path_joined);
530    return 1;
[33]531  }
[80]532  else if(regfi_iterator_find_subkey(iter, path[i]))
[33]533  {
[138]534    printMsgs(iter->f);
[80]535    if(print_verbose)
[138]536      fprintf(stderr, "INFO: Found final path element as key.\n");
[82]537
538    if(!regfi_iterator_down(iter))
[137]539    {
[138]540      printMsgs(iter->f);
[143]541      bailOut(REGLOOKUP_EXIT_DATAERR, "ERROR: Unexpected error on traversing path filter key.\n");
[137]542    }
[82]543
[80]544    return 2;
[33]545  }
[138]546  printMsgs(iter->f);
[33]547
[54]548  if(print_verbose)
[138]549    fprintf(stderr, "INFO: Could not find last element of path.\n");
[54]550
[80]551  return 0;
[33]552}
553
554
[37]555static void usage(void)
556{
[61]557  fprintf(stderr, "Usage: reglookup [-v] [-s]"
[40]558          " [-p <PATH_FILTER>] [-t <TYPE_FILTER>]"
[39]559          " <REGISTRY_FILE>\n");
[233]560  fprintf(stderr, "Version: %s\n", regfi_version());
[39]561  fprintf(stderr, "Options:\n");
562  fprintf(stderr, "\t-v\t sets verbose mode.\n");
[47]563  fprintf(stderr, "\t-h\t enables header row. (default)\n");
564  fprintf(stderr, "\t-H\t disables header row.\n");
[44]565  fprintf(stderr, "\t-s\t enables security descriptor output.\n");
566  fprintf(stderr, "\t-S\t disables security descriptor output. (default)\n");
[40]567  fprintf(stderr, "\t-p\t restrict output to elements below this path.\n");
568  fprintf(stderr, "\t-t\t restrict results to this specific data type.\n");
[170]569  fprintf(stderr, "\t-i\t includes parent key modification times with child values.\n");
[37]570  fprintf(stderr, "\n");
571}
572
573
[30]574int main(int argc, char** argv)
575{
[80]576  char** path = NULL;
577  REGFI_ITERATOR* iter;
[178]578  int retr_path_ret, fd;
[168]579  uint32_t argi, arge;
[31]580
[37]581  /* Process command line arguments */
[30]582  if(argc < 2)
583  {
[37]584    usage();
[143]585    bailOut(REGLOOKUP_EXIT_USAGE, "ERROR: Requires at least one argument.\n");
[30]586  }
[37]587 
[44]588  arge = argc-1;
589  for(argi = 1; argi < arge; argi++)
[37]590  {
[40]591    if (strcmp("-p", argv[argi]) == 0)
[37]592    {
[44]593      if(++argi >= arge)
[37]594      {
595        usage();
[143]596        bailOut(REGLOOKUP_EXIT_USAGE, "ERROR: '-p' option requires parameter.\n");
[37]597      }
[40]598      if((path_filter = strdup(argv[argi])) == NULL)
[143]599        bailOut(REGLOOKUP_EXIT_OSERR, "ERROR: Memory allocation problem.\n");
[38]600
[40]601      path_filter_enabled = true;
[37]602    }
603    else if (strcmp("-t", argv[argi]) == 0)
604    {
[44]605      if(++argi >= arge)
[37]606      {
607        usage();
[143]608        bailOut(REGLOOKUP_EXIT_USAGE, "ERROR: '-t' option requires parameter.\n");
[37]609      }
[78]610      if((type_filter = regfi_type_str2val(argv[argi])) < 0)
[40]611      {
612        fprintf(stderr, "ERROR: Invalid type specified: %s.\n", argv[argi]);
[143]613        bailOut(REGLOOKUP_EXIT_USAGE, "");
[40]614      }
[37]615      type_filter_enabled = true;
616    }
[47]617    else if (strcmp("-h", argv[argi]) == 0)
618      print_header = true;
619    else if (strcmp("-H", argv[argi]) == 0)
620      print_header = false;
[37]621    else if (strcmp("-s", argv[argi]) == 0)
622      print_security = true;
[44]623    else if (strcmp("-S", argv[argi]) == 0)
624      print_security = false;
[37]625    else if (strcmp("-v", argv[argi]) == 0)
626      print_verbose = true;
[170]627    else if (strcmp("-i", argv[argi]) == 0)
628      print_value_mtime = true;
[44]629    else
[37]630    {
[38]631      usage();
[37]632      fprintf(stderr, "ERROR: Unrecognized option: %s\n", argv[argi]);
[143]633      bailOut(REGLOOKUP_EXIT_USAGE, "");
[37]634    }
635  }
[181]636  registry_file = argv[argi];
[30]637
[182]638  if(print_verbose)
[185]639    regfi_log_set_mask(REGFI_LOG_INFO|REGFI_LOG_WARN|REGFI_LOG_ERROR);
[182]640
[178]641  fd = openHive(registry_file);
642  if(fd < 0)
[37]643  {
644    fprintf(stderr, "ERROR: Couldn't open registry file: %s\n", registry_file);
[143]645    bailOut(REGLOOKUP_EXIT_NOINPUT, "");
[37]646  }
[182]647   
[206]648  /* XXX: add command line option to choose output encoding */
649  f = regfi_alloc(fd, REGFI_ENCODING_ASCII);
[178]650  if(f == NULL)
651  {
652    close(fd);
653    bailOut(REGLOOKUP_EXIT_NOINPUT, "ERROR: Failed to create REGFI_FILE structure.\n");
654  }
655
[206]656  iter = regfi_iterator_new(f);
[80]657  if(iter == NULL)
[158]658  {
659    printMsgs(f);
[143]660    bailOut(REGLOOKUP_EXIT_OSERR, "ERROR: Couldn't create registry iterator.\n");
[158]661  }
[30]662
[81]663  if(print_header)
664  {
665    if(print_security)
[125]666      printf("PATH,TYPE,VALUE,MTIME,OWNER,GROUP,SACL,DACL,CLASS\n");
[81]667    else
668      printf("PATH,TYPE,VALUE,MTIME\n");
669  }
670
[80]671  if(path_filter_enabled && path_filter != NULL)
672    path = splitPath(path_filter);
[81]673
[80]674  if(path != NULL)
[33]675  {
[80]676    retr_path_ret = retrievePath(iter, path);
[138]677    printMsgs(iter->f);
[83]678    freePath(path);
679
[80]680    if(retr_path_ret == 0)
[141]681      fprintf(stderr, "WARN: Specified path '%s' not found.\n", path_filter);
[80]682    else if (retr_path_ret == 2)
[81]683      printKeyTree(iter);
[93]684    else if(retr_path_ret < 0)
685    {
686      fprintf(stderr, "ERROR: retrievePath() returned %d.\n", 
687              retr_path_ret);
[143]688      bailOut(REGLOOKUP_EXIT_DATAERR,
689              "ERROR: Unknown error occurred in retrieving path.\n");
[93]690    }
[33]691  }
[37]692  else
[81]693    printKeyTree(iter);
[31]694
[80]695  regfi_iterator_free(iter);
[178]696  regfi_free(f);
697  close(fd);
[30]698
699  return 0;
700}
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