[30] | 1 | /* |
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[42] | 2 | * A utility to read a Windows NT/2K/XP/2K3 registry file, using |
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| 3 | * Gerald Carter''s regfio interface. |
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[30] | 4 | * |
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[111] | 5 | * Copyright (C) 2005-2008 Timothy D. Morgan |
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[42] | 6 | * Copyright (C) 2002 Richard Sharpe, rsharpe@richardsharpe.com |
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[30] | 7 | * |
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| 8 | * This program is free software; you can redistribute it and/or modify |
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| 9 | * it under the terms of the GNU General Public License as published by |
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[111] | 10 | * the Free Software Foundation; version 3 of the License. |
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[30] | 11 | * |
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| 12 | * This program is distributed in the hope that it will be useful, |
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| 13 | * but WITHOUT ANY WARRANTY; without even the implied warranty of |
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| 14 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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| 15 | * GNU General Public License for more details. |
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| 16 | * |
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| 17 | * You should have received a copy of the GNU General Public License |
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| 18 | * along with this program; if not, write to the Free Software |
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| 19 | * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. |
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| 20 | * |
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| 21 | * $Id: reglookup.c 111 2008-05-01 04:06:22Z tim $ |
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| 22 | */ |
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| 23 | |
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| 24 | |
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| 25 | #include <stdlib.h> |
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[88] | 26 | #include <sysexits.h> |
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[30] | 27 | #include <stdio.h> |
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| 28 | #include <string.h> |
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[33] | 29 | #include <strings.h> |
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[42] | 30 | #include <time.h> |
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[79] | 31 | #include "../include/regfi.h" |
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[31] | 32 | #include "../include/void_stack.h" |
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[30] | 33 | |
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[40] | 34 | /* Globals, influenced by command line parameters */ |
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| 35 | bool print_verbose = false; |
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| 36 | bool print_security = false; |
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[42] | 37 | bool print_header = true; |
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[40] | 38 | bool path_filter_enabled = false; |
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| 39 | bool type_filter_enabled = false; |
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| 40 | char* path_filter = NULL; |
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| 41 | int type_filter; |
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| 42 | char* registry_file = NULL; |
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| 43 | |
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[42] | 44 | /* Other globals */ |
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[109] | 45 | REGF_FILE* f; |
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[66] | 46 | |
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[40] | 47 | |
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[111] | 48 | /* TODO: a hack to share some functions with reglookup-recover.c. |
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| 49 | * Should move these into a properly library at some point. |
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| 50 | */ |
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| 51 | #include "common.c" |
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[61] | 52 | |
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[38] | 53 | |
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[111] | 54 | void printValue(const REGF_VK_REC* vk, char* prefix) |
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[41] | 55 | { |
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[111] | 56 | char* quoted_value = NULL; |
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| 57 | char* quoted_name = NULL; |
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| 58 | char* conv_error = NULL; |
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| 59 | const char* str_type = NULL; |
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| 60 | uint32 size = vk->data_size; |
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[41] | 61 | |
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[111] | 62 | /* Microsoft's documentation indicates that "available memory" is |
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| 63 | * the limit on value sizes. Annoying. We limit it to 1M which |
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| 64 | * should rarely be exceeded, unless the file is corrupt or |
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| 65 | * malicious. For more info, see: |
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| 66 | * http://msdn2.microsoft.com/en-us/library/ms724872.aspx |
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| 67 | */ |
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| 68 | if(size > VK_MAX_DATA_LENGTH) |
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[41] | 69 | { |
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[111] | 70 | fprintf(stderr, "WARNING: value data size %d larger than " |
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| 71 | "%d, truncating...\n", size, VK_MAX_DATA_LENGTH); |
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| 72 | size = VK_MAX_DATA_LENGTH; |
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[41] | 73 | } |
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[111] | 74 | |
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| 75 | quoted_name = quote_string(vk->valuename, key_special_chars); |
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| 76 | if (quoted_name == NULL) |
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| 77 | { /* Value names are NULL when we're looking at the "(default)" value. |
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| 78 | * Currently we just return a 0-length string to try an eliminate |
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| 79 | * ambiguity with a literal "(default)" value. The data type of a line |
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| 80 | * in the output allows one to differentiate between the parent key and |
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| 81 | * this value. |
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| 82 | */ |
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| 83 | quoted_name = malloc(1*sizeof(char)); |
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| 84 | if(quoted_name == NULL) |
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| 85 | bailOut(EX_OSERR, "ERROR: Could not allocate sufficient memory.\n"); |
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| 86 | quoted_name[0] = '\0'; |
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| 87 | } |
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[41] | 88 | |
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[111] | 89 | quoted_value = data_to_ascii(vk->data, size, vk->type, &conv_error); |
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| 90 | if(quoted_value == NULL) |
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[41] | 91 | { |
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[111] | 92 | if(conv_error == NULL) |
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| 93 | fprintf(stderr, "WARNING: Could not quote value for '%s/%s'. " |
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| 94 | "Memory allocation failure likely.\n", prefix, quoted_name); |
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| 95 | else if(print_verbose) |
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| 96 | fprintf(stderr, "WARNING: Could not quote value for '%s/%s'. " |
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| 97 | "Returned error: %s\n", prefix, quoted_name, conv_error); |
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[41] | 98 | } |
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[111] | 99 | /* XXX: should these always be printed? */ |
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| 100 | else if(conv_error != NULL && print_verbose) |
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| 101 | fprintf(stderr, "VERBOSE: While quoting value for '%s/%s', " |
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| 102 | "warning returned: %s\n", prefix, quoted_name, conv_error); |
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[41] | 103 | |
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[111] | 104 | str_type = regfi_type_val2str(vk->type); |
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| 105 | if(print_security) |
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[41] | 106 | { |
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[111] | 107 | if(str_type == NULL) |
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| 108 | printf("%s/%s,0x%.8X,%s,,,,,\n", prefix, quoted_name, |
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| 109 | vk->type, quoted_value); |
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[66] | 110 | else |
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[111] | 111 | printf("%s/%s,%s,%s,,,,,\n", prefix, quoted_name, |
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| 112 | str_type, quoted_value); |
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[71] | 113 | } |
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[111] | 114 | else |
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| 115 | { |
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| 116 | if(str_type == NULL) |
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| 117 | printf("%s/%s,0x%.8X,%s,\n", prefix, quoted_name, |
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| 118 | vk->type, quoted_value); |
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| 119 | else |
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| 120 | printf("%s/%s,%s,%s,\n", prefix, quoted_name, |
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| 121 | str_type, quoted_value); |
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| 122 | } |
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[42] | 123 | |
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[111] | 124 | if(quoted_value != NULL) |
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| 125 | free(quoted_value); |
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| 126 | if(quoted_name != NULL) |
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| 127 | free(quoted_name); |
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| 128 | if(conv_error != NULL) |
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| 129 | free(conv_error); |
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[41] | 130 | } |
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| 131 | |
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| 132 | |
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[111] | 133 | |
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[83] | 134 | /* XXX: Each chunk must be unquoted after it is split out. |
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| 135 | * Quoting syntax may need to be standardized and pushed into the API |
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| 136 | * to deal with this issue and others. |
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| 137 | */ |
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[81] | 138 | char** splitPath(const char* s) |
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[30] | 139 | { |
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[81] | 140 | char** ret_val; |
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[38] | 141 | const char* cur = s; |
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[33] | 142 | char* next = NULL; |
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[38] | 143 | char* copy; |
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[81] | 144 | uint32 ret_cur = 0; |
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[38] | 145 | |
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[81] | 146 | ret_val = (char**)malloc((REGF_MAX_DEPTH+1+1)*sizeof(char**)); |
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| 147 | if (ret_val == NULL) |
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[38] | 148 | return NULL; |
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[81] | 149 | ret_val[0] = NULL; |
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| 150 | |
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| 151 | /* We return a well-formed, 0-length, path even when input is icky. */ |
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[37] | 152 | if (s == NULL) |
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[81] | 153 | return ret_val; |
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[38] | 154 | |
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| 155 | while((next = strchr(cur, '/')) != NULL) |
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[33] | 156 | { |
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[38] | 157 | if ((next-cur) > 0) |
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| 158 | { |
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| 159 | copy = (char*)malloc((next-cur+1)*sizeof(char)); |
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| 160 | if(copy == NULL) |
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[88] | 161 | bailOut(EX_OSERR, "ERROR: Memory allocation problem.\n"); |
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[38] | 162 | |
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| 163 | memcpy(copy, cur, next-cur); |
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| 164 | copy[next-cur] = '\0'; |
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[81] | 165 | ret_val[ret_cur++] = copy; |
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| 166 | if(ret_cur < (REGF_MAX_DEPTH+1+1)) |
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| 167 | ret_val[ret_cur] = NULL; |
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| 168 | else |
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[88] | 169 | bailOut(EX_DATAERR, "ERROR: Registry maximum depth exceeded.\n"); |
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[38] | 170 | } |
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| 171 | cur = next+1; |
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[33] | 172 | } |
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[81] | 173 | |
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| 174 | /* Grab last element, if path doesn't end in '/'. */ |
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[33] | 175 | if(strlen(cur) > 0) |
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[38] | 176 | { |
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| 177 | copy = strdup(cur); |
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[81] | 178 | ret_val[ret_cur++] = copy; |
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| 179 | if(ret_cur < (REGF_MAX_DEPTH+1+1)) |
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| 180 | ret_val[ret_cur] = NULL; |
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| 181 | else |
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[88] | 182 | bailOut(EX_DATAERR, "ERROR: Registry maximum depth exceeded.\n"); |
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[38] | 183 | } |
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[33] | 184 | |
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| 185 | return ret_val; |
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| 186 | } |
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| 187 | |
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[81] | 188 | |
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[83] | 189 | void freePath(char** path) |
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| 190 | { |
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| 191 | uint32 i; |
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| 192 | |
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| 193 | if(path == NULL) |
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| 194 | return; |
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| 195 | |
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| 196 | for(i=0; path[i] != NULL; i++) |
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| 197 | free(path[i]); |
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| 198 | |
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| 199 | free(path); |
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| 200 | } |
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| 201 | |
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| 202 | |
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[81] | 203 | /* Returns a quoted path from an iterator's stack */ |
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| 204 | /* XXX: Some way should be found to integrate this into regfi's API |
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| 205 | * The problem is that the escaping is sorta reglookup-specific. |
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| 206 | */ |
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| 207 | char* iter2Path(REGFI_ITERATOR* i) |
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[33] | 208 | { |
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[81] | 209 | const REGFI_ITER_POSITION* cur; |
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[37] | 210 | uint32 buf_left = 127; |
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| 211 | uint32 buf_len = buf_left+1; |
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| 212 | uint32 name_len = 0; |
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| 213 | uint32 grow_amt; |
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[81] | 214 | char* buf; |
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[31] | 215 | char* new_buf; |
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[66] | 216 | char* name; |
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[81] | 217 | const char* cur_name; |
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[31] | 218 | void_stack_iterator* iter; |
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| 219 | |
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| 220 | buf = (char*)malloc((buf_len)*sizeof(char)); |
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| 221 | if (buf == NULL) |
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| 222 | return NULL; |
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[54] | 223 | buf[0] = '\0'; |
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[30] | 224 | |
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[81] | 225 | iter = void_stack_iterator_new(i->key_positions); |
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[31] | 226 | if (iter == NULL) |
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[30] | 227 | { |
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[31] | 228 | free(buf); |
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| 229 | return NULL; |
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[30] | 230 | } |
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| 231 | |
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[33] | 232 | /* skip root element */ |
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[81] | 233 | if(void_stack_size(i->key_positions) < 1) |
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| 234 | { |
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| 235 | buf[0] = '/'; |
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| 236 | buf[1] = '\0'; |
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| 237 | return buf; |
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| 238 | } |
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[33] | 239 | cur = void_stack_iterator_next(iter); |
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| 240 | |
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[81] | 241 | do |
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[31] | 242 | { |
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[81] | 243 | cur = void_stack_iterator_next(iter); |
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| 244 | if (cur == NULL) |
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| 245 | cur_name = i->cur_key->keyname; |
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| 246 | else |
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| 247 | cur_name = cur->nk->keyname; |
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| 248 | |
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[33] | 249 | buf[buf_len-buf_left-1] = '/'; |
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| 250 | buf_left -= 1; |
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[81] | 251 | name = quote_string(cur_name, key_special_chars); |
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[66] | 252 | name_len = strlen(name); |
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[31] | 253 | if(name_len+1 > buf_left) |
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| 254 | { |
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[37] | 255 | grow_amt = (uint32)(buf_len/2); |
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[31] | 256 | buf_len += name_len+1+grow_amt-buf_left; |
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| 257 | if((new_buf = realloc(buf, buf_len)) == NULL) |
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| 258 | { |
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| 259 | free(buf); |
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| 260 | free(iter); |
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| 261 | return NULL; |
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| 262 | } |
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| 263 | buf = new_buf; |
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| 264 | buf_left = grow_amt + name_len + 1; |
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| 265 | } |
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[66] | 266 | strncpy(buf+(buf_len-buf_left-1), name, name_len); |
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[31] | 267 | buf_left -= name_len; |
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| 268 | buf[buf_len-buf_left-1] = '\0'; |
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[66] | 269 | free(name); |
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[81] | 270 | } while(cur != NULL); |
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[30] | 271 | |
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[31] | 272 | return buf; |
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| 273 | } |
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[30] | 274 | |
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[31] | 275 | |
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[81] | 276 | void printValueList(REGFI_ITERATOR* i, char* prefix) |
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[32] | 277 | { |
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[84] | 278 | const REGF_VK_REC* value; |
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[80] | 279 | |
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| 280 | value = regfi_iterator_first_value(i); |
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| 281 | while(value != NULL) |
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[81] | 282 | { |
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| 283 | if(!type_filter_enabled || (value->type == type_filter)) |
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[80] | 284 | printValue(value, prefix); |
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[81] | 285 | value = regfi_iterator_next_value(i); |
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| 286 | } |
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[33] | 287 | } |
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| 288 | |
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[37] | 289 | |
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[109] | 290 | void printKey(REGFI_ITERATOR* i, char* full_path) |
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[33] | 291 | { |
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[43] | 292 | static char empty_str[1] = ""; |
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[42] | 293 | char* owner = NULL; |
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| 294 | char* group = NULL; |
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| 295 | char* sacl = NULL; |
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| 296 | char* dacl = NULL; |
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| 297 | char mtime[20]; |
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| 298 | time_t tmp_time[1]; |
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| 299 | struct tm* tmp_time_s = NULL; |
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[109] | 300 | const REGF_SK_REC* sk; |
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| 301 | const REGF_NK_REC* k = regfi_iterator_cur_key(i); |
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[42] | 302 | |
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[43] | 303 | *tmp_time = nt_time_to_unix(&k->mtime); |
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| 304 | tmp_time_s = gmtime(tmp_time); |
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| 305 | strftime(mtime, sizeof(mtime), "%Y-%m-%d %H:%M:%S", tmp_time_s); |
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| 306 | |
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[109] | 307 | if(print_security && (sk=regfi_iterator_cur_sk(i))) |
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[43] | 308 | { |
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[109] | 309 | owner = regfi_get_owner(sk->sec_desc); |
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| 310 | group = regfi_get_group(sk->sec_desc); |
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| 311 | sacl = regfi_get_sacl(sk->sec_desc); |
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| 312 | dacl = regfi_get_dacl(sk->sec_desc); |
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[43] | 313 | if(owner == NULL) |
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| 314 | owner = empty_str; |
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| 315 | if(group == NULL) |
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| 316 | group = empty_str; |
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| 317 | if(sacl == NULL) |
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| 318 | sacl = empty_str; |
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| 319 | if(dacl == NULL) |
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| 320 | dacl = empty_str; |
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| 321 | |
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[66] | 322 | printf("%s,KEY,,%s,%s,%s,%s,%s\n", full_path, mtime, |
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[43] | 323 | owner, group, sacl, dacl); |
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| 324 | |
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| 325 | if(owner != empty_str) |
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| 326 | free(owner); |
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| 327 | if(group != empty_str) |
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| 328 | free(group); |
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| 329 | if(sacl != empty_str) |
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| 330 | free(sacl); |
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| 331 | if(dacl != empty_str) |
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| 332 | free(dacl); |
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| 333 | } |
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| 334 | else |
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[66] | 335 | printf("%s,KEY,,%s\n", full_path, mtime); |
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[43] | 336 | } |
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| 337 | |
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| 338 | |
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[81] | 339 | void printKeyTree(REGFI_ITERATOR* iter) |
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[43] | 340 | { |
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[84] | 341 | const REGF_NK_REC* root = NULL; |
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| 342 | const REGF_NK_REC* cur = NULL; |
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| 343 | const REGF_NK_REC* sub = NULL; |
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[43] | 344 | char* path = NULL; |
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[78] | 345 | int key_type = regfi_type_str2val("KEY"); |
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[81] | 346 | bool print_this = true; |
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| 347 | |
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| 348 | root = cur = regfi_iterator_cur_key(iter); |
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| 349 | sub = regfi_iterator_first_subkey(iter); |
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[43] | 350 | |
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[81] | 351 | if(root == NULL) |
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[88] | 352 | bailOut(EX_DATAERR, "ERROR: root cannot be NULL.\n"); |
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[81] | 353 | |
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| 354 | do |
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[31] | 355 | { |
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[81] | 356 | if(print_this) |
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[54] | 357 | { |
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[81] | 358 | path = iter2Path(iter); |
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| 359 | if(path == NULL) |
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[88] | 360 | bailOut(EX_OSERR, "ERROR: Could not construct iterator's path.\n"); |
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[81] | 361 | |
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| 362 | if(!type_filter_enabled || (key_type == type_filter)) |
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[109] | 363 | printKey(iter, path); |
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[81] | 364 | if(!type_filter_enabled || (key_type != type_filter)) |
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| 365 | printValueList(iter, path); |
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| 366 | |
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| 367 | free(path); |
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[54] | 368 | } |
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[66] | 369 | |
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[81] | 370 | if(sub == NULL) |
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[31] | 371 | { |
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[81] | 372 | if(cur != root) |
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[31] | 373 | { |
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[81] | 374 | /* We're done with this sub-tree, going up and hitting other branches. */ |
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| 375 | if(!regfi_iterator_up(iter)) |
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[88] | 376 | bailOut(EX_DATAERR, "ERROR: could not traverse iterator upward.\n"); |
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[81] | 377 | |
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| 378 | cur = regfi_iterator_cur_key(iter); |
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| 379 | if(cur == NULL) |
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[88] | 380 | bailOut(EX_DATAERR, "ERROR: unexpected NULL for key.\n"); |
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[81] | 381 | |
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| 382 | sub = regfi_iterator_next_subkey(iter); |
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[66] | 383 | } |
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[81] | 384 | print_this = false; |
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[31] | 385 | } |
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[81] | 386 | else |
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| 387 | { /* We have unexplored sub-keys. |
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| 388 | * Let's move down and print this first sub-tree out. |
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| 389 | */ |
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| 390 | if(!regfi_iterator_down(iter)) |
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[88] | 391 | bailOut(EX_DATAERR, "ERROR: could not traverse iterator downward.\n"); |
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[81] | 392 | |
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| 393 | cur = sub; |
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| 394 | sub = regfi_iterator_first_subkey(iter); |
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| 395 | print_this = true; |
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| 396 | } |
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| 397 | } while(!((cur == root) && (sub == NULL))); |
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| 398 | |
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[54] | 399 | if(print_verbose) |
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| 400 | fprintf(stderr, "VERBOSE: Finished printing key tree.\n"); |
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[30] | 401 | } |
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| 402 | |
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[81] | 403 | |
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[97] | 404 | /* XXX: what if there is BOTH a value AND a key with that name?? */ |
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[33] | 405 | /* |
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[80] | 406 | * Returns 0 if path was not found. |
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| 407 | * Returns 1 if path was found as value. |
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| 408 | * Returns 2 if path was found as key. |
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[33] | 409 | * Returns less than 0 on other error. |
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| 410 | */ |
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[80] | 411 | int retrievePath(REGFI_ITERATOR* iter, char** path) |
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[33] | 412 | { |
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[84] | 413 | const REGF_VK_REC* value; |
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[81] | 414 | char* tmp_path_joined; |
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| 415 | const char** tmp_path; |
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[80] | 416 | uint32 i; |
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| 417 | |
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| 418 | if(path == NULL) |
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[33] | 419 | return -1; |
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| 420 | |
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[80] | 421 | /* One extra for any value at the end, and one more for NULL */ |
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[81] | 422 | tmp_path = (const char**)malloc(sizeof(const char**)*(REGF_MAX_DEPTH+1+1)); |
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[80] | 423 | if(tmp_path == NULL) |
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[33] | 424 | return -2; |
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| 425 | |
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[80] | 426 | /* Strip any potential value name at end of path */ |
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| 427 | for(i=0; |
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| 428 | (path[i] != NULL) && (path[i+1] != NULL) |
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| 429 | && (i < REGF_MAX_DEPTH+1+1); |
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| 430 | i++) |
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| 431 | tmp_path[i] = path[i]; |
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[33] | 432 | |
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[80] | 433 | tmp_path[i] = NULL; |
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| 434 | |
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[54] | 435 | if(print_verbose) |
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[80] | 436 | fprintf(stderr, "VERBOSE: Attempting to retrieve specified path: %s\n", |
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[54] | 437 | path_filter); |
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| 438 | |
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[82] | 439 | /* Special check for '/' path filter */ |
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| 440 | if(path[0] == NULL) |
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| 441 | { |
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| 442 | if(print_verbose) |
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| 443 | fprintf(stderr, "VERBOSE: Found final path element as root key.\n"); |
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| 444 | return 2; |
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| 445 | } |
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| 446 | |
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[80] | 447 | if(!regfi_iterator_walk_path(iter, tmp_path)) |
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[33] | 448 | { |
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[80] | 449 | free(tmp_path); |
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| 450 | return 0; |
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[33] | 451 | } |
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| 452 | |
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[80] | 453 | if(regfi_iterator_find_value(iter, path[i])) |
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| 454 | { |
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| 455 | if(print_verbose) |
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| 456 | fprintf(stderr, "VERBOSE: Found final path element as value.\n"); |
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[33] | 457 | |
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[80] | 458 | value = regfi_iterator_cur_value(iter); |
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[81] | 459 | tmp_path_joined = iter2Path(iter); |
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[54] | 460 | |
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[80] | 461 | if((value == NULL) || (tmp_path_joined == NULL)) |
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[88] | 462 | bailOut(EX_OSERR, "ERROR: Unexpected error before printValue.\n"); |
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[54] | 463 | |
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[80] | 464 | printValue(value, tmp_path_joined); |
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[54] | 465 | |
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[80] | 466 | free(tmp_path); |
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| 467 | free(tmp_path_joined); |
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| 468 | return 1; |
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[33] | 469 | } |
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[80] | 470 | else if(regfi_iterator_find_subkey(iter, path[i])) |
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[33] | 471 | { |
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[80] | 472 | if(print_verbose) |
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| 473 | fprintf(stderr, "VERBOSE: Found final path element as key.\n"); |
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[82] | 474 | |
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| 475 | if(!regfi_iterator_down(iter)) |
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[88] | 476 | bailOut(EX_DATAERR, "ERROR: Unexpected error on traversing path filter key.\n"); |
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[82] | 477 | |
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[80] | 478 | return 2; |
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[33] | 479 | } |
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| 480 | |
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[54] | 481 | if(print_verbose) |
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| 482 | fprintf(stderr, "VERBOSE: Could not find last element of path.\n"); |
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| 483 | |
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[80] | 484 | return 0; |
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[33] | 485 | } |
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| 486 | |
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| 487 | |
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[37] | 488 | static void usage(void) |
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| 489 | { |
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[61] | 490 | fprintf(stderr, "Usage: reglookup [-v] [-s]" |
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[40] | 491 | " [-p <PATH_FILTER>] [-t <TYPE_FILTER>]" |
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[39] | 492 | " <REGISTRY_FILE>\n"); |
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[111] | 493 | fprintf(stderr, "Version: %s\n", REGLOOKUP_VERSION); |
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[39] | 494 | fprintf(stderr, "Options:\n"); |
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| 495 | fprintf(stderr, "\t-v\t sets verbose mode.\n"); |
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[47] | 496 | fprintf(stderr, "\t-h\t enables header row. (default)\n"); |
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| 497 | fprintf(stderr, "\t-H\t disables header row.\n"); |
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[44] | 498 | fprintf(stderr, "\t-s\t enables security descriptor output.\n"); |
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| 499 | fprintf(stderr, "\t-S\t disables security descriptor output. (default)\n"); |
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[40] | 500 | fprintf(stderr, "\t-p\t restrict output to elements below this path.\n"); |
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| 501 | fprintf(stderr, "\t-t\t restrict results to this specific data type.\n"); |
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[37] | 502 | fprintf(stderr, "\n"); |
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| 503 | } |
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| 504 | |
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| 505 | |
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[30] | 506 | int main(int argc, char** argv) |
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| 507 | { |
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[80] | 508 | char** path = NULL; |
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| 509 | REGFI_ITERATOR* iter; |
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[33] | 510 | int retr_path_ret; |
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[44] | 511 | uint32 argi, arge; |
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[31] | 512 | |
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[37] | 513 | /* Process command line arguments */ |
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[30] | 514 | if(argc < 2) |
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| 515 | { |
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[37] | 516 | usage(); |
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[88] | 517 | bailOut(EX_USAGE, "ERROR: Requires at least one argument.\n"); |
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[30] | 518 | } |
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[37] | 519 | |
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[44] | 520 | arge = argc-1; |
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| 521 | for(argi = 1; argi < arge; argi++) |
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[37] | 522 | { |
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[40] | 523 | if (strcmp("-p", argv[argi]) == 0) |
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[37] | 524 | { |
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[44] | 525 | if(++argi >= arge) |
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[37] | 526 | { |
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| 527 | usage(); |
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[88] | 528 | bailOut(EX_USAGE, "ERROR: '-p' option requires parameter.\n"); |
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[37] | 529 | } |
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[40] | 530 | if((path_filter = strdup(argv[argi])) == NULL) |
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[88] | 531 | bailOut(EX_OSERR, "ERROR: Memory allocation problem.\n"); |
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[38] | 532 | |
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[40] | 533 | path_filter_enabled = true; |
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[37] | 534 | } |
---|
| 535 | else if (strcmp("-t", argv[argi]) == 0) |
---|
| 536 | { |
---|
[44] | 537 | if(++argi >= arge) |
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[37] | 538 | { |
---|
| 539 | usage(); |
---|
[88] | 540 | bailOut(EX_USAGE, "ERROR: '-t' option requires parameter.\n"); |
---|
[37] | 541 | } |
---|
[78] | 542 | if((type_filter = regfi_type_str2val(argv[argi])) < 0) |
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[40] | 543 | { |
---|
| 544 | fprintf(stderr, "ERROR: Invalid type specified: %s.\n", argv[argi]); |
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[88] | 545 | bailOut(EX_USAGE, ""); |
---|
[40] | 546 | } |
---|
[37] | 547 | type_filter_enabled = true; |
---|
| 548 | } |
---|
[47] | 549 | else if (strcmp("-h", argv[argi]) == 0) |
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| 550 | print_header = true; |
---|
| 551 | else if (strcmp("-H", argv[argi]) == 0) |
---|
| 552 | print_header = false; |
---|
[37] | 553 | else if (strcmp("-s", argv[argi]) == 0) |
---|
| 554 | print_security = true; |
---|
[44] | 555 | else if (strcmp("-S", argv[argi]) == 0) |
---|
| 556 | print_security = false; |
---|
[37] | 557 | else if (strcmp("-v", argv[argi]) == 0) |
---|
| 558 | print_verbose = true; |
---|
[44] | 559 | else |
---|
[37] | 560 | { |
---|
[38] | 561 | usage(); |
---|
[37] | 562 | fprintf(stderr, "ERROR: Unrecognized option: %s\n", argv[argi]); |
---|
[88] | 563 | bailOut(EX_USAGE, ""); |
---|
[37] | 564 | } |
---|
| 565 | } |
---|
[44] | 566 | if((registry_file = strdup(argv[argi])) == NULL) |
---|
[88] | 567 | bailOut(EX_OSERR, "ERROR: Memory allocation problem.\n"); |
---|
[30] | 568 | |
---|
[110] | 569 | f = regfi_open(registry_file); |
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[37] | 570 | if(f == NULL) |
---|
| 571 | { |
---|
| 572 | fprintf(stderr, "ERROR: Couldn't open registry file: %s\n", registry_file); |
---|
[88] | 573 | bailOut(EX_NOINPUT, ""); |
---|
[37] | 574 | } |
---|
[38] | 575 | |
---|
[80] | 576 | iter = regfi_iterator_new(f); |
---|
| 577 | if(iter == NULL) |
---|
[88] | 578 | bailOut(EX_OSERR, "ERROR: Couldn't create registry iterator.\n"); |
---|
[30] | 579 | |
---|
[81] | 580 | if(print_header) |
---|
| 581 | { |
---|
| 582 | if(print_security) |
---|
| 583 | printf("PATH,TYPE,VALUE,MTIME,OWNER,GROUP,SACL,DACL\n"); |
---|
| 584 | else |
---|
| 585 | printf("PATH,TYPE,VALUE,MTIME\n"); |
---|
| 586 | } |
---|
| 587 | |
---|
[80] | 588 | if(path_filter_enabled && path_filter != NULL) |
---|
| 589 | path = splitPath(path_filter); |
---|
[81] | 590 | |
---|
[80] | 591 | if(path != NULL) |
---|
[33] | 592 | { |
---|
[80] | 593 | retr_path_ret = retrievePath(iter, path); |
---|
[83] | 594 | freePath(path); |
---|
| 595 | |
---|
[80] | 596 | if(retr_path_ret == 0) |
---|
| 597 | fprintf(stderr, "WARNING: specified path not found.\n"); |
---|
| 598 | else if (retr_path_ret == 2) |
---|
[81] | 599 | printKeyTree(iter); |
---|
[93] | 600 | else if(retr_path_ret < 0) |
---|
| 601 | { |
---|
| 602 | fprintf(stderr, "ERROR: retrievePath() returned %d.\n", |
---|
| 603 | retr_path_ret); |
---|
| 604 | bailOut(EX_DATAERR,"ERROR: Unknown error occurred in retrieving path.\n"); |
---|
| 605 | } |
---|
[33] | 606 | } |
---|
[37] | 607 | else |
---|
[81] | 608 | printKeyTree(iter); |
---|
[31] | 609 | |
---|
[80] | 610 | regfi_iterator_free(iter); |
---|
[78] | 611 | regfi_close(f); |
---|
[30] | 612 | |
---|
| 613 | return 0; |
---|
| 614 | } |
---|