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1 /** |
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2 * XML Security Library (http://www.aleksey.com/xmlsec). |
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3 * |
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4 * Keys. |
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5 * |
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6 * This is free software; see Copyright file in the source |
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7 * distribution for preciese wording. |
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8 * |
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9 * Copyright (C) 2002-2003 Aleksey Sanin <aleksey@aleksey.com> |
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10 * Portion Copyright © 2009 Nokia Corporation and/or its subsidiary(-ies). All rights reserved. |
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11 */ |
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12 #include "xmlsec_globals.h" |
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13 |
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14 #include <stdlib.h> |
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15 #include <string.h> |
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16 |
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17 #include <libxml2_tree.h> |
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18 #include <libxml2_globals.h> |
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19 |
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20 #include "xmlsec_xmlsec.h" |
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21 #include "xmlsec_xmltree.h" |
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22 #include "xmlsec_list.h" |
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23 #include "xmlsec_keys.h" |
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24 #include "xmlsec_keysmngr.h" |
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25 #include "xmlsec_transforms.h" |
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26 #include "xmlsec_keyinfo.h" |
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27 #include "xmlsec_errors.h" |
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28 |
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29 /************************************************************************** |
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30 * |
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31 * xmlSecKeyUseWith |
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32 * |
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33 *************************************************************************/ |
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34 /** |
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35 * xmlSecKeyUseWithInitialize: |
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36 * @keyUseWith: the pointer to information about key application/user. |
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37 * |
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38 * Initializes @keyUseWith object. |
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39 * |
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40 * Returns 0 on success or a negative value if an error occurs. |
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41 */ |
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42 EXPORT_C |
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43 int |
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44 xmlSecKeyUseWithInitialize(xmlSecKeyUseWithPtr keyUseWith) { |
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45 xmlSecAssert2(keyUseWith != NULL, -1); |
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46 |
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47 memset(keyUseWith, 0, sizeof(xmlSecKeyUseWith)); |
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48 return(0); |
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49 } |
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50 |
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51 /** |
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52 * xmlSecKeyUseWithFinalize: |
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53 * @keyUseWith: the pointer to information about key application/user. |
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54 * |
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55 * Finalizes @keyUseWith object. |
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56 */ |
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57 EXPORT_C |
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58 void |
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59 xmlSecKeyUseWithFinalize(xmlSecKeyUseWithPtr keyUseWith) { |
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60 xmlSecAssert(keyUseWith != NULL); |
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61 |
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62 xmlSecKeyUseWithReset(keyUseWith); |
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63 memset(keyUseWith, 0, sizeof(xmlSecKeyUseWith)); |
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64 } |
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65 |
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66 /** |
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67 * xmlSecKeyUseWithReset: |
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68 * @keyUseWith: the pointer to information about key application/user. |
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69 * |
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70 * Resets the @keyUseWith to its state after initialization. |
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71 */ |
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72 EXPORT_C |
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73 void |
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74 xmlSecKeyUseWithReset(xmlSecKeyUseWithPtr keyUseWith) { |
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75 xmlSecAssert(keyUseWith != NULL); |
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76 |
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77 xmlSecKeyUseWithSet(keyUseWith, NULL, NULL); |
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78 } |
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79 |
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80 /** |
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81 * xmlSecKeyUseWithCopy: |
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82 * @dst: the pointer to destination object. |
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83 * @src: the pointer to source object. |
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84 * |
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85 * Copies information from @dst to @src. |
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86 * |
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87 * Returns 0 on success or a negative value if an error occurs. |
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88 */ |
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89 EXPORT_C |
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90 int |
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91 xmlSecKeyUseWithCopy(xmlSecKeyUseWithPtr dst, xmlSecKeyUseWithPtr src) { |
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92 xmlSecAssert2(dst != NULL, -1); |
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93 xmlSecAssert2(src != NULL, -1); |
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94 |
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95 return(xmlSecKeyUseWithSet(dst, src->application, src->identifier)); |
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96 } |
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97 |
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98 /** |
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99 * xmlSecKeyUseWithCreate: |
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100 * @keyUseWith: the pointer to information about key application/user. |
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101 * @application: the application value. |
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102 * @identifier: the identifier value. |
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103 * |
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104 * Creates new xmlSecKeyUseWith object. The caller is responsible for destroying |
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105 * returned object with @xmlSecKeyUseWithDestroy function. |
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106 * |
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107 * Returns pointer to newly created object or NULL if an error occurs. |
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108 */ |
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109 EXPORT_C |
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110 xmlSecKeyUseWithPtr |
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111 xmlSecKeyUseWithCreate(const xmlChar* application, const xmlChar* identifier) { |
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112 xmlSecKeyUseWithPtr keyUseWith; |
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113 int ret; |
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114 |
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115 /* Allocate a new xmlSecKeyUseWith and fill the fields. */ |
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116 keyUseWith = (xmlSecKeyUseWithPtr)xmlMalloc(sizeof(xmlSecKeyUseWith)); |
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117 if(keyUseWith == NULL) { |
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118 xmlSecError(XMLSEC_ERRORS_HERE, |
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119 NULL, |
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120 NULL, |
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121 XMLSEC_ERRORS_R_MALLOC_FAILED, |
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122 "sizeof(xmlSecKeyUseWith)=%d", |
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123 sizeof(xmlSecKeyUseWith)); |
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124 return(NULL); |
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125 } |
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126 memset(keyUseWith, 0, sizeof(xmlSecKeyUseWith)); |
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127 |
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128 ret = xmlSecKeyUseWithInitialize(keyUseWith); |
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129 if(ret < 0) { |
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130 xmlSecError(XMLSEC_ERRORS_HERE, |
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131 NULL, |
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132 "xmlSecKeyUseWithInitialize", |
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133 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
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134 XMLSEC_ERRORS_NO_MESSAGE); |
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135 xmlSecKeyUseWithDestroy(keyUseWith); |
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136 return(NULL); |
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137 } |
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138 |
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139 ret = xmlSecKeyUseWithSet(keyUseWith, application, identifier); |
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140 if(ret < 0) { |
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141 xmlSecError(XMLSEC_ERRORS_HERE, |
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142 NULL, |
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143 "xmlSecKeyUseWithSet", |
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144 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
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145 XMLSEC_ERRORS_NO_MESSAGE); |
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146 xmlSecKeyUseWithDestroy(keyUseWith); |
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147 return(NULL); |
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148 } |
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149 |
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150 return(keyUseWith); |
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151 } |
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152 |
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153 /** |
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154 * xmlSecKeyUseWithDuplicate: |
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155 * @keyUseWith: the pointer to information about key application/user. |
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156 * |
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157 * Duplicates @keyUseWith object. The caller is responsible for destroying |
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158 * returned object with @xmlSecKeyUseWithDestroy function. |
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159 * |
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160 * Returns pointer to newly created object or NULL if an error occurs. |
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161 */ |
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162 EXPORT_C |
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163 xmlSecKeyUseWithPtr |
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164 xmlSecKeyUseWithDuplicate(xmlSecKeyUseWithPtr keyUseWith) { |
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165 int ret; |
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166 |
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167 xmlSecKeyUseWithPtr newKeyUseWith; |
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168 |
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169 xmlSecAssert2(keyUseWith != NULL, NULL); |
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170 |
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171 newKeyUseWith = xmlSecKeyUseWithCreate(NULL, NULL); |
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172 if(newKeyUseWith == NULL) { |
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173 xmlSecError(XMLSEC_ERRORS_HERE, |
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174 NULL, |
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175 "xmlSecKeyUseWithCreate", |
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176 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
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177 XMLSEC_ERRORS_NO_MESSAGE); |
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178 return(NULL); |
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179 } |
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180 |
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181 ret = xmlSecKeyUseWithCopy(newKeyUseWith, keyUseWith); |
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182 if(ret < 0) { |
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183 xmlSecError(XMLSEC_ERRORS_HERE, |
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184 NULL, |
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185 "xmlSecKeyUseWithCopy", |
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186 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
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187 XMLSEC_ERRORS_NO_MESSAGE); |
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188 xmlSecKeyUseWithDestroy(keyUseWith); |
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189 return(NULL); |
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190 } |
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191 |
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192 return(newKeyUseWith); |
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193 } |
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194 |
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195 /** |
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196 * xmlSecKeyUseWithDestroy: |
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197 * @keyUseWith: the pointer to information about key application/user. |
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198 * |
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199 * Destroys @keyUseWith created with @xmlSecKeyUseWithCreate or @xmlSecKeyUseWithDuplicate |
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200 * functions. |
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201 */ |
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202 EXPORT_C |
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203 void |
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204 xmlSecKeyUseWithDestroy(xmlSecKeyUseWithPtr keyUseWith) { |
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205 xmlSecAssert(keyUseWith != NULL); |
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206 |
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207 xmlSecKeyUseWithFinalize(keyUseWith); |
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208 xmlFree(keyUseWith); |
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209 } |
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210 |
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211 /** |
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212 * xmlSecKeyUseWithSet: |
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213 * @keyUseWith: the pointer to information about key application/user. |
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214 * @application: the new application value. |
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215 * @identifier: the new identifier value. |
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216 * |
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217 * Sets @application and @identifier in the @keyUseWith. |
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218 * |
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219 * Returns 0 on success or a negative value if an error occurs. |
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220 */ |
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221 EXPORT_C |
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222 int |
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223 xmlSecKeyUseWithSet(xmlSecKeyUseWithPtr keyUseWith, const xmlChar* application, const xmlChar* identifier) { |
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224 xmlSecAssert2(keyUseWith != NULL, -1); |
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225 |
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226 if(keyUseWith->application != NULL) { |
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227 xmlFree(keyUseWith->application); |
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228 keyUseWith->application = NULL; |
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229 } |
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230 if(keyUseWith->identifier != NULL) { |
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231 xmlFree(keyUseWith->identifier); |
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232 keyUseWith->identifier = NULL; |
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233 } |
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234 |
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235 if(application != NULL) { |
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236 keyUseWith->application = xmlStrdup(application); |
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237 if(keyUseWith->application == NULL) { |
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238 xmlSecError(XMLSEC_ERRORS_HERE, |
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239 NULL, |
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240 NULL, |
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241 XMLSEC_ERRORS_R_MALLOC_FAILED, |
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242 "xmlStrlen(application)=%d", |
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243 xmlStrlen(application)); |
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244 return(-1); |
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245 } |
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246 } |
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247 if(identifier != NULL) { |
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248 keyUseWith->identifier = xmlStrdup(identifier); |
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249 if(keyUseWith->identifier == NULL) { |
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250 xmlSecError(XMLSEC_ERRORS_HERE, |
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251 NULL, |
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252 NULL, |
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253 XMLSEC_ERRORS_R_MALLOC_FAILED, |
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254 "xmlStrlen(identifier)=%d", |
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255 xmlStrlen(identifier)); |
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256 return(-1); |
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257 } |
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258 } |
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259 |
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260 return(0); |
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261 } |
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262 |
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263 /** |
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264 * xmlSecKeyUseWithDebugDump: |
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265 * @keyUseWith: the pointer to information about key application/user. |
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266 * @output: the pointer to output FILE. |
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267 * |
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268 * Prints xmlSecKeyUseWith debug information to a file @output. |
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269 */ |
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270 EXPORT_C |
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271 void |
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272 xmlSecKeyUseWithDebugDump(xmlSecKeyUseWithPtr keyUseWith, FILE* output) { |
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273 xmlSecAssert(keyUseWith != NULL); |
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274 xmlSecAssert(output != NULL); |
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275 |
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276 fprintf(output, "=== KeyUseWith: application=\"%s\",identifier=\"%s\"\n", |
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277 (keyUseWith->application) ? keyUseWith->application : BAD_CAST "", |
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278 (keyUseWith->identifier) ? keyUseWith->identifier : BAD_CAST ""); |
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279 } |
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280 |
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281 /** |
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282 * xmlSecKeyUseWithDebugXmlDump: |
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283 * @keyUseWith: the pointer to information about key application/user. |
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284 * @output: the pointer to output FILE. |
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285 * |
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286 * Prints xmlSecKeyUseWith debug information to a file @output in XML format. |
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287 */ |
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288 EXPORT_C |
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289 void |
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290 xmlSecKeyUseWithDebugXmlDump(xmlSecKeyUseWithPtr keyUseWith, FILE* output) { |
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291 xmlSecAssert(keyUseWith != NULL); |
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292 xmlSecAssert(output != NULL); |
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293 |
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294 fprintf(output, "<KeyUseWith>\n"); |
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295 fprintf(output, "<Application>%s</Application>", |
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296 (keyUseWith->application) ? keyUseWith->application : BAD_CAST ""); |
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297 fprintf(output, "<Identifier>%s</Identifier>", |
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298 (keyUseWith->identifier) ? keyUseWith->identifier : BAD_CAST ""); |
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299 fprintf(output, "</KeyUseWith>\n"); |
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300 } |
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301 |
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302 /*********************************************************************** |
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303 * |
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304 * KeyUseWith list |
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305 * |
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306 **********************************************************************/ |
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307 static xmlSecPtrListKlass xmlSecKeyUseWithPtrListKlass = { |
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308 BAD_CAST "key-use-with-list", |
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309 (xmlSecPtrDuplicateItemMethod)xmlSecKeyUseWithDuplicate, /* xmlSecPtrDuplicateItemMethod duplicateItem; */ |
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310 (xmlSecPtrDestroyItemMethod)xmlSecKeyUseWithDestroy, /* xmlSecPtrDestroyItemMethod destroyItem; */ |
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311 (xmlSecPtrDebugDumpItemMethod)xmlSecKeyUseWithDebugDump, /* xmlSecPtrDebugDumpItemMethod debugDumpItem; */ |
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312 (xmlSecPtrDebugDumpItemMethod)xmlSecKeyUseWithDebugXmlDump, /* xmlSecPtrDebugDumpItemMethod debugXmlDumpItem; */ |
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313 }; |
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314 |
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315 /** |
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316 * xmlSecKeyUseWithPtrListGetKlass: |
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317 * |
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318 * The key data list klass. |
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319 * |
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320 * Returns pointer to the key data list klass. |
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321 */ |
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322 EXPORT_C |
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323 xmlSecPtrListId |
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324 xmlSecKeyUseWithPtrListGetKlass(void) { |
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325 return(&xmlSecKeyUseWithPtrListKlass); |
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326 } |
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327 |
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328 /************************************************************************** |
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329 * |
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330 * xmlSecKeyReq - what key are we looking for? |
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331 * |
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332 *************************************************************************/ |
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333 /** |
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334 * xmlSecKeyReqInitialize: |
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335 * @keyReq: the pointer to key requirements object. |
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336 * |
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337 * Initialize key requirements object. Caller is responsible for |
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338 * cleaning it with #xmlSecKeyReqFinalize function. |
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339 * |
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340 * Returns 0 on success or a negative value if an error occurs. |
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341 */ |
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342 EXPORT_C |
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343 int |
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344 xmlSecKeyReqInitialize(xmlSecKeyReqPtr keyReq) { |
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345 int ret; |
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346 |
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347 xmlSecAssert2(keyReq != NULL, -1); |
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348 |
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349 memset(keyReq, 0, sizeof(xmlSecKeyReq)); |
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350 |
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351 keyReq->keyUsage = xmlSecKeyUsageAny; /* by default you can do whatever you want with the key */ |
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352 ret = xmlSecPtrListInitialize(&keyReq->keyUseWithList, xmlSecKeyUseWithPtrListId); |
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353 if(ret < 0) { |
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354 xmlSecError(XMLSEC_ERRORS_HERE, |
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355 NULL, |
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356 "xmlSecPtrListInitialize", |
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357 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
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358 XMLSEC_ERRORS_NO_MESSAGE); |
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359 return(-1); |
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360 } |
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361 |
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362 |
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363 return(0); |
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364 } |
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365 |
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366 /** |
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367 * xmlSecKeyReqFinalize: |
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368 * @keyReq: the pointer to key requirements object. |
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369 * |
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370 * Cleans the key requirements object initialized with #xmlSecKeyReqInitialize |
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371 * function. |
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372 */ |
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373 EXPORT_C |
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374 void |
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375 xmlSecKeyReqFinalize(xmlSecKeyReqPtr keyReq) { |
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376 xmlSecAssert(keyReq != NULL); |
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377 |
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378 xmlSecPtrListFinalize(&keyReq->keyUseWithList); |
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379 memset(keyReq, 0, sizeof(xmlSecKeyReq)); |
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380 } |
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381 |
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382 /** |
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383 * xmlSecKeyReqReset: |
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384 * @keyReq: the pointer to key requirements object. |
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385 * |
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386 * Resets key requirements object for new key search. |
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387 */ |
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388 EXPORT_C |
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389 void |
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390 xmlSecKeyReqReset(xmlSecKeyReqPtr keyReq) { |
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391 xmlSecAssert(keyReq != NULL); |
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392 |
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393 xmlSecPtrListEmpty(&keyReq->keyUseWithList); |
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394 keyReq->keyId = NULL; |
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395 keyReq->keyType = 0; |
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396 keyReq->keyUsage = xmlSecKeyUsageAny; |
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397 keyReq->keyBitsSize = 0; |
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398 } |
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399 |
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400 /** |
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401 * xmlSecKeyReqCopy: |
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402 * @dst: the pointer to destination object. |
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403 * @src: the pointer to source object. |
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404 * |
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405 * Copies key requirements from @src object to @dst object. |
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406 * |
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407 * Returns 0 on success and a negative value if an error occurs. |
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408 */ |
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409 EXPORT_C |
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410 int |
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411 xmlSecKeyReqCopy(xmlSecKeyReqPtr dst, xmlSecKeyReqPtr src) { |
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412 int ret; |
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413 |
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414 xmlSecAssert2(dst != NULL, -1); |
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415 xmlSecAssert2(src != NULL, -1); |
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416 |
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417 dst->keyId = src->keyId; |
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418 dst->keyType = src->keyType; |
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419 dst->keyUsage = src->keyUsage; |
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420 dst->keyBitsSize = src->keyBitsSize; |
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421 |
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422 ret = xmlSecPtrListCopy(&dst->keyUseWithList, &src->keyUseWithList); |
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423 if(ret < 0) { |
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424 xmlSecError(XMLSEC_ERRORS_HERE, |
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425 NULL, |
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426 "xmlSecPtrListCopy", |
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427 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
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428 XMLSEC_ERRORS_NO_MESSAGE); |
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429 return(-1); |
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430 } |
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431 |
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432 return(0); |
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433 } |
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434 |
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435 /** |
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436 * xmlSecKeyReqMatchKey: |
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437 * @keyReq: the pointer to key requirements object. |
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438 * @key: the pointer to key. |
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439 * |
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440 * Checks whether @key matches key requirements @keyReq. |
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441 * |
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442 * Returns 1 if key matches requirements, 0 if not and a negative value |
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443 * if an error occurs. |
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444 */ |
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445 EXPORT_C |
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446 int |
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447 xmlSecKeyReqMatchKey(xmlSecKeyReqPtr keyReq, xmlSecKeyPtr key) { |
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448 xmlSecAssert2(keyReq != NULL, -1); |
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449 xmlSecAssert2(xmlSecKeyIsValid(key), -1); |
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450 |
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451 if((keyReq->keyType != xmlSecKeyDataTypeUnknown) && ((xmlSecKeyGetType(key) & keyReq->keyType) == 0)) { |
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452 return(0); |
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453 } |
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454 if((keyReq->keyUsage != xmlSecKeyDataUsageUnknown) && ((keyReq->keyUsage & key->usage) == 0)) { |
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455 return(0); |
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456 } |
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457 |
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458 return(xmlSecKeyReqMatchKeyValue(keyReq, xmlSecKeyGetValue(key))); |
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459 } |
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460 |
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461 /** |
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462 * xmlSecKeyReqMatchKeyValue: |
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463 * @keyReq: the pointer to key requirements. |
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464 * @value: the pointer to key value. |
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465 * |
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466 * Checks whether @keyValue matches key requirements @keyReq. |
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467 * |
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468 * Returns 1 if key value matches requirements, 0 if not and a negative value |
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469 * if an error occurs. |
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470 */ |
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471 EXPORT_C |
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472 int |
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473 xmlSecKeyReqMatchKeyValue(xmlSecKeyReqPtr keyReq, xmlSecKeyDataPtr value) { |
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474 xmlSecAssert2(keyReq != NULL, -1); |
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475 xmlSecAssert2(value != NULL, -1); |
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476 |
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477 if((keyReq->keyId != xmlSecKeyDataIdUnknown) && |
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478 (!xmlSecKeyDataCheckId(value, keyReq->keyId))) { |
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479 |
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480 return(0); |
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481 } |
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482 if((keyReq->keyBitsSize > 0) && |
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483 (xmlSecKeyDataGetSize(value) > 0) && |
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484 (xmlSecKeyDataGetSize(value) < keyReq->keyBitsSize)) { |
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485 |
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486 return(0); |
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487 } |
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488 return(1); |
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489 } |
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490 |
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491 /** |
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492 * xmlSecKeyReqDebugDump: |
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493 * @keyReq: the pointer to key requirements object. |
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494 * @output: the pointer to output FILE. |
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495 * |
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496 * Prints debug information about @keyReq into @output. |
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497 */ |
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498 EXPORT_C |
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499 void |
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500 xmlSecKeyReqDebugDump(xmlSecKeyReqPtr keyReq, FILE* output) { |
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501 xmlSecAssert(keyReq != NULL); |
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502 xmlSecAssert(output != NULL); |
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503 |
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504 fprintf(output, "=== KeyReq:\n"); |
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505 fprintf(output, "==== keyId: %s\n", |
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506 (xmlSecKeyDataKlassGetName(keyReq->keyId)) ? |
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507 xmlSecKeyDataKlassGetName(keyReq->keyId) : |
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508 BAD_CAST "NULL"); |
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509 fprintf(output, "==== keyType: 0x%08x\n", keyReq->keyType); |
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510 fprintf(output, "==== keyUsage: 0x%08x\n", keyReq->keyUsage); |
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511 fprintf(output, "==== keyBitsSize: %d\n", keyReq->keyBitsSize); |
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512 xmlSecPtrListDebugDump(&(keyReq->keyUseWithList), output); |
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513 } |
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514 |
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515 /** |
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516 * xmlSecKeyReqDebugXmlDump: |
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517 * @keyReq: the pointer to key requirements object. |
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518 * @output: the pointer to output FILE. |
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519 * |
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520 * Prints debug information about @keyReq into @output in XML format. |
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521 */ |
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522 EXPORT_C |
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523 void |
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524 xmlSecKeyReqDebugXmlDump(xmlSecKeyReqPtr keyReq, FILE* output) { |
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525 xmlSecAssert(keyReq != NULL); |
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526 xmlSecAssert(output != NULL); |
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527 |
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528 fprintf(output, "<KeyReq>\n"); |
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529 fprintf(output, "<KeyId>%s</KeyId>\n", |
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530 (xmlSecKeyDataKlassGetName(keyReq->keyId)) ? |
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531 xmlSecKeyDataKlassGetName(keyReq->keyId) : |
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532 BAD_CAST "NULL"); |
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533 fprintf(output, "<KeyType>0x%08x</KeyType>\n", keyReq->keyType); |
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534 fprintf(output, "<KeyUsage>0x%08x</KeyUsage>\n", keyReq->keyUsage); |
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535 fprintf(output, "<KeyBitsSize>%d</KeyBitsSize>\n", keyReq->keyBitsSize); |
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536 xmlSecPtrListDebugXmlDump(&(keyReq->keyUseWithList), output); |
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537 fprintf(output, "</KeyReq>\n"); |
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538 } |
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539 |
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540 |
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541 /************************************************************************** |
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542 * |
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543 * xmlSecKey |
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544 * |
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545 *************************************************************************/ |
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546 /** |
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547 * xmlSecKeyCreate: |
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548 * |
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549 * Allocates and initializes new key. Caller is responsible for |
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550 * freeing returned object with #xmlSecKeyDestroy function. |
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551 * |
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552 * Returns the pointer to newly allocated @xmlSecKey structure |
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553 * or NULL if an error occurs. |
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554 */ |
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555 EXPORT_C |
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556 xmlSecKeyPtr |
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557 xmlSecKeyCreate(void) { |
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558 xmlSecKeyPtr key; |
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559 |
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560 /* Allocate a new xmlSecKey and fill the fields. */ |
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561 key = (xmlSecKeyPtr)xmlMalloc(sizeof(xmlSecKey)); |
|
562 if(key == NULL) { |
|
563 xmlSecError(XMLSEC_ERRORS_HERE, |
|
564 NULL, |
|
565 NULL, |
|
566 XMLSEC_ERRORS_R_MALLOC_FAILED, |
|
567 "sizeof(xmlSecKey)=%d", |
|
568 sizeof(xmlSecKey)); |
|
569 return(NULL); |
|
570 } |
|
571 memset(key, 0, sizeof(xmlSecKey)); |
|
572 key->usage = xmlSecKeyUsageAny; |
|
573 return(key); |
|
574 } |
|
575 |
|
576 /** |
|
577 * xmlSecKeyEmpty: |
|
578 * @key: the pointer to key. |
|
579 * |
|
580 * Clears the @key data. |
|
581 */ |
|
582 EXPORT_C |
|
583 void |
|
584 xmlSecKeyEmpty(xmlSecKeyPtr key) { |
|
585 xmlSecAssert(key != NULL); |
|
586 |
|
587 if(key->value != NULL) { |
|
588 xmlSecKeyDataDestroy(key->value); |
|
589 } |
|
590 if(key->name != NULL) { |
|
591 xmlFree(key->name); |
|
592 } |
|
593 if(key->dataList != NULL) { |
|
594 xmlSecPtrListDestroy(key->dataList); |
|
595 } |
|
596 |
|
597 memset(key, 0, sizeof(xmlSecKey)); |
|
598 } |
|
599 |
|
600 /** |
|
601 * xmlSecKeyDestroy: |
|
602 * @key: the pointer to key. |
|
603 * |
|
604 * Destroys the key created using #xmlSecKeyCreate function. |
|
605 */ |
|
606 EXPORT_C |
|
607 void |
|
608 xmlSecKeyDestroy(xmlSecKeyPtr key) { |
|
609 xmlSecAssert(key != NULL); |
|
610 |
|
611 xmlSecKeyEmpty(key); |
|
612 xmlFree(key); |
|
613 } |
|
614 |
|
615 /** |
|
616 * xmlSecKeyCopy: |
|
617 * @keyDst: the destination key. |
|
618 * @keySrc: the source key. |
|
619 * |
|
620 * Copies key data from @keySrc to @keyDst. |
|
621 * |
|
622 * Returns 0 on success or a negative value if an error occurs. |
|
623 */ |
|
624 EXPORT_C |
|
625 int |
|
626 xmlSecKeyCopy(xmlSecKeyPtr keyDst, xmlSecKeyPtr keySrc) { |
|
627 xmlSecAssert2(keyDst != NULL, -1); |
|
628 xmlSecAssert2(keySrc != NULL, -1); |
|
629 |
|
630 /* empty destination */ |
|
631 xmlSecKeyEmpty(keyDst); |
|
632 |
|
633 /* copy everything */ |
|
634 if(keySrc->name != NULL) { |
|
635 keyDst->name = xmlStrdup(keySrc->name); |
|
636 if(keyDst->name == NULL) { |
|
637 xmlSecError(XMLSEC_ERRORS_HERE, |
|
638 NULL, |
|
639 NULL, |
|
640 XMLSEC_ERRORS_R_STRDUP_FAILED, |
|
641 "len=%d", xmlStrlen(keySrc->name)); |
|
642 return(-1); |
|
643 } |
|
644 } |
|
645 |
|
646 if(keySrc->value != NULL) { |
|
647 keyDst->value = xmlSecKeyDataDuplicate(keySrc->value); |
|
648 if(keyDst->value == NULL) { |
|
649 xmlSecError(XMLSEC_ERRORS_HERE, |
|
650 NULL, |
|
651 "xmlSecKeyDataDuplicate", |
|
652 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
653 XMLSEC_ERRORS_NO_MESSAGE); |
|
654 return(-1); |
|
655 } |
|
656 } |
|
657 |
|
658 if(keySrc->dataList != NULL) { |
|
659 keyDst->dataList = xmlSecPtrListDuplicate(keySrc->dataList); |
|
660 if(keyDst->dataList == NULL) { |
|
661 xmlSecError(XMLSEC_ERRORS_HERE, |
|
662 NULL, |
|
663 "xmlSecPtrListDuplicate", |
|
664 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
665 XMLSEC_ERRORS_NO_MESSAGE); |
|
666 return(-1); |
|
667 } |
|
668 } |
|
669 |
|
670 keyDst->usage = keySrc->usage; |
|
671 keyDst->notValidBefore = keySrc->notValidBefore; |
|
672 keyDst->notValidAfter = keySrc->notValidAfter; |
|
673 return(0); |
|
674 } |
|
675 |
|
676 /** |
|
677 * xmlSecKeyDuplicate: |
|
678 * @key: the pointer to the #xmlSecKey structure. |
|
679 * |
|
680 * Creates a duplicate of the given @key. |
|
681 * |
|
682 * Returns the pointer to newly allocated #xmlSecKey structure |
|
683 * or NULL if an error occurs. |
|
684 */ |
|
685 EXPORT_C |
|
686 xmlSecKeyPtr |
|
687 xmlSecKeyDuplicate(xmlSecKeyPtr key) { |
|
688 xmlSecKeyPtr newKey; |
|
689 int ret; |
|
690 |
|
691 xmlSecAssert2(key != NULL, NULL); |
|
692 |
|
693 newKey = xmlSecKeyCreate(); |
|
694 if(newKey == NULL) { |
|
695 xmlSecError(XMLSEC_ERRORS_HERE, |
|
696 NULL, |
|
697 "xmlSecKeyCreate", |
|
698 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
699 XMLSEC_ERRORS_NO_MESSAGE); |
|
700 return(NULL); |
|
701 } |
|
702 |
|
703 ret = xmlSecKeyCopy(newKey, key); |
|
704 if(ret < 0) { |
|
705 xmlSecError(XMLSEC_ERRORS_HERE, |
|
706 NULL, |
|
707 "xmlSecKeyCopy", |
|
708 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
709 XMLSEC_ERRORS_NO_MESSAGE); |
|
710 xmlSecKeyDestroy(newKey); |
|
711 return(NULL); |
|
712 } |
|
713 |
|
714 return(newKey); |
|
715 } |
|
716 |
|
717 /** |
|
718 * xmlSecKeyMatch: |
|
719 * @key: the pointer to key. |
|
720 * @name: the pointer to key name (may be NULL). |
|
721 * @keyReq: the pointer to key requirements. |
|
722 * |
|
723 * Checks whether the @key matches the given criteria. |
|
724 * |
|
725 * Returns 1 if the key satisfies the given criteria or 0 otherwise. |
|
726 */ |
|
727 EXPORT_C |
|
728 int |
|
729 xmlSecKeyMatch(xmlSecKeyPtr key, const xmlChar *name, xmlSecKeyReqPtr keyReq) { |
|
730 xmlSecAssert2(xmlSecKeyIsValid(key), -1); |
|
731 xmlSecAssert2(keyReq != NULL, -1); |
|
732 |
|
733 if((name != NULL) && (!xmlStrEqual(xmlSecKeyGetName(key), name))) { |
|
734 return(0); |
|
735 } |
|
736 return(xmlSecKeyReqMatchKey(keyReq, key)); |
|
737 } |
|
738 |
|
739 /** |
|
740 * xmlSecKeyGetType: |
|
741 * @key: the pointer to key. |
|
742 * |
|
743 * Gets @key type. |
|
744 * |
|
745 * Returns key type. |
|
746 */ |
|
747 EXPORT_C |
|
748 xmlSecKeyDataType |
|
749 xmlSecKeyGetType(xmlSecKeyPtr key) { |
|
750 xmlSecKeyDataPtr data; |
|
751 |
|
752 xmlSecAssert2(key != NULL, xmlSecKeyDataTypeUnknown); |
|
753 |
|
754 data = xmlSecKeyGetValue(key); |
|
755 if(data == NULL) { |
|
756 return(xmlSecKeyDataTypeUnknown); |
|
757 } |
|
758 return(xmlSecKeyDataGetType(data)); |
|
759 } |
|
760 |
|
761 /** |
|
762 * xmlSecKeyGetName: |
|
763 * @key: the pointer to key. |
|
764 * |
|
765 * Gets key name (see also #xmlSecKeySetName function). |
|
766 * |
|
767 * Returns key name. |
|
768 */ |
|
769 EXPORT_C |
|
770 const xmlChar* |
|
771 xmlSecKeyGetName(xmlSecKeyPtr key) { |
|
772 xmlSecAssert2(key != NULL, NULL); |
|
773 |
|
774 return(key->name); |
|
775 } |
|
776 |
|
777 /** |
|
778 * xmlSecKeySetName: |
|
779 * @key: the pointer to key. |
|
780 * @name: the new key name. |
|
781 * |
|
782 * Sets key name (see also #xmlSecKeyGetName function). |
|
783 * |
|
784 * Returns 0 on success or a negative value if an error occurs. |
|
785 */ |
|
786 EXPORT_C |
|
787 int |
|
788 xmlSecKeySetName(xmlSecKeyPtr key, const xmlChar* name) { |
|
789 xmlSecAssert2(key != NULL, -1); |
|
790 |
|
791 if(key->name != NULL) { |
|
792 xmlFree(key->name); |
|
793 key->name = NULL; |
|
794 } |
|
795 |
|
796 if(name != NULL) { |
|
797 key->name = xmlStrdup(name); |
|
798 if(key->name == NULL) { |
|
799 xmlSecError(XMLSEC_ERRORS_HERE, |
|
800 NULL, |
|
801 NULL, |
|
802 XMLSEC_ERRORS_R_STRDUP_FAILED, |
|
803 "len=%d", xmlStrlen(name)); |
|
804 return(-1); |
|
805 } |
|
806 } |
|
807 |
|
808 return(0); |
|
809 } |
|
810 |
|
811 /** |
|
812 * xmlSecKeyGetValue: |
|
813 * @key: the pointer to key. |
|
814 * |
|
815 * Gets key value (see also #xmlSecKeySetValue function). |
|
816 * |
|
817 * Returns key value (crypto material). |
|
818 */ |
|
819 EXPORT_C |
|
820 xmlSecKeyDataPtr |
|
821 xmlSecKeyGetValue(xmlSecKeyPtr key) { |
|
822 xmlSecAssert2(key != NULL, NULL); |
|
823 |
|
824 return(key->value); |
|
825 } |
|
826 |
|
827 /** |
|
828 * xmlSecKeySetValue: |
|
829 * @key: the pointer to key. |
|
830 * @value: the new value. |
|
831 * |
|
832 * Sets key value (see also #xmlSecKeyGetValue function). |
|
833 * |
|
834 * Returns 0 on success or a negative value if an error occurs. |
|
835 */ |
|
836 EXPORT_C |
|
837 int |
|
838 xmlSecKeySetValue(xmlSecKeyPtr key, xmlSecKeyDataPtr value) { |
|
839 xmlSecAssert2(key != NULL, -1); |
|
840 |
|
841 if(key->value != NULL) { |
|
842 xmlSecKeyDataDestroy(key->value); |
|
843 key->value = NULL; |
|
844 } |
|
845 key->value = value; |
|
846 |
|
847 return(0); |
|
848 } |
|
849 |
|
850 /** |
|
851 * xmlSecKeyGetData: |
|
852 * @key: the pointer to key. |
|
853 * @dataId: the requested data klass. |
|
854 * |
|
855 * Gets key's data. |
|
856 * |
|
857 * Returns additional data associated with the @key (see also |
|
858 * #xmlSecKeyAdoptData function). |
|
859 */ |
|
860 EXPORT_C |
|
861 xmlSecKeyDataPtr |
|
862 xmlSecKeyGetData(xmlSecKeyPtr key, xmlSecKeyDataId dataId) { |
|
863 |
|
864 xmlSecAssert2(key != NULL, NULL); |
|
865 xmlSecAssert2(dataId != xmlSecKeyDataIdUnknown, NULL); |
|
866 |
|
867 /* special cases */ |
|
868 if(dataId == xmlSecKeyDataValueId) { |
|
869 return(key->value); |
|
870 } else if(key->dataList != NULL) { |
|
871 xmlSecKeyDataPtr tmp; |
|
872 xmlSecSize pos, size; |
|
873 |
|
874 size = xmlSecPtrListGetSize(key->dataList); |
|
875 for(pos = 0; pos < size; ++pos) { |
|
876 tmp = (xmlSecKeyDataPtr)xmlSecPtrListGetItem(key->dataList, pos); |
|
877 if((tmp != NULL) && (tmp->id == dataId)) { |
|
878 return(tmp); |
|
879 } |
|
880 } |
|
881 } |
|
882 return(NULL); |
|
883 } |
|
884 |
|
885 /** |
|
886 * xmlSecKeyEnsureData: |
|
887 * @key: the pointer to key. |
|
888 * @dataId: the requested data klass. |
|
889 * |
|
890 * If necessary, creates key data of @dataId klass and adds to @key. |
|
891 * |
|
892 * Returns pointer to key data or NULL if an error occurs. |
|
893 */ |
|
894 EXPORT_C |
|
895 xmlSecKeyDataPtr |
|
896 xmlSecKeyEnsureData(xmlSecKeyPtr key, xmlSecKeyDataId dataId) { |
|
897 xmlSecKeyDataPtr data; |
|
898 int ret; |
|
899 |
|
900 xmlSecAssert2(key != NULL, NULL); |
|
901 xmlSecAssert2(dataId != xmlSecKeyDataIdUnknown, NULL); |
|
902 |
|
903 data = xmlSecKeyGetData(key, dataId); |
|
904 if(data != NULL) { |
|
905 return(data); |
|
906 } |
|
907 |
|
908 data = xmlSecKeyDataCreate(dataId); |
|
909 if(data == NULL) { |
|
910 xmlSecError(XMLSEC_ERRORS_HERE, |
|
911 NULL, |
|
912 "xmlSecKeyDataCreate", |
|
913 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
914 "dataId=%s", |
|
915 xmlSecErrorsSafeString(xmlSecKeyDataKlassGetName(dataId))); |
|
916 return(NULL); |
|
917 } |
|
918 |
|
919 ret = xmlSecKeyAdoptData(key, data); |
|
920 if(ret < 0) { |
|
921 xmlSecError(XMLSEC_ERRORS_HERE, |
|
922 NULL, |
|
923 "xmlSecKeyAdoptData", |
|
924 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
925 "dataId=%s", |
|
926 xmlSecErrorsSafeString(xmlSecKeyDataKlassGetName(dataId))); |
|
927 xmlSecKeyDataDestroy(data); |
|
928 return(NULL); |
|
929 } |
|
930 |
|
931 return(data); |
|
932 } |
|
933 |
|
934 /** |
|
935 * xmlSecKeyAdoptData: |
|
936 * @key: the pointer to key. |
|
937 * @data: the pointer to key data. |
|
938 * |
|
939 * Adds @data to the @key. The @data object will be destroyed |
|
940 * by @key. |
|
941 * |
|
942 * Returns 0 on success or a negative value otherwise. |
|
943 */ |
|
944 EXPORT_C |
|
945 int |
|
946 xmlSecKeyAdoptData(xmlSecKeyPtr key, xmlSecKeyDataPtr data) { |
|
947 xmlSecKeyDataPtr tmp; |
|
948 xmlSecSize pos, size; |
|
949 |
|
950 xmlSecAssert2(key != NULL, -1); |
|
951 xmlSecAssert2(xmlSecKeyDataIsValid(data), -1); |
|
952 |
|
953 /* special cases */ |
|
954 if(data->id == xmlSecKeyDataValueId) { |
|
955 if(key->value != NULL) { |
|
956 xmlSecKeyDataDestroy(key->value); |
|
957 } |
|
958 key->value = data; |
|
959 return(0); |
|
960 } |
|
961 |
|
962 if(key->dataList == NULL) { |
|
963 key->dataList = xmlSecPtrListCreate(xmlSecKeyDataListId); |
|
964 if(key->dataList == NULL) { |
|
965 xmlSecError(XMLSEC_ERRORS_HERE, |
|
966 NULL, |
|
967 "xmlSecPtrListCreate", |
|
968 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
969 XMLSEC_ERRORS_NO_MESSAGE); |
|
970 return(-1); |
|
971 } |
|
972 } |
|
973 |
|
974 |
|
975 size = xmlSecPtrListGetSize(key->dataList); |
|
976 for(pos = 0; pos < size; ++pos) { |
|
977 tmp = (xmlSecKeyDataPtr)xmlSecPtrListGetItem(key->dataList, pos); |
|
978 if((tmp != NULL) && (tmp->id == data->id)) { |
|
979 return(xmlSecPtrListSet(key->dataList, data, pos)); |
|
980 } |
|
981 } |
|
982 |
|
983 return(xmlSecPtrListAdd(key->dataList, data)); |
|
984 } |
|
985 |
|
986 /** |
|
987 * xmlSecKeyDebugDump: |
|
988 * @key: the pointer to key. |
|
989 * @output: the pointer to output FILE. |
|
990 * |
|
991 * Prints the information about the @key to the @output. |
|
992 */ |
|
993 EXPORT_C |
|
994 void |
|
995 xmlSecKeyDebugDump(xmlSecKeyPtr key, FILE *output) { |
|
996 xmlSecAssert(xmlSecKeyIsValid(key)); |
|
997 xmlSecAssert(output != NULL); |
|
998 |
|
999 fprintf(output, "== KEY\n"); |
|
1000 fprintf(output, "=== method: %s\n", |
|
1001 (key->value->id->dataNodeName != NULL) ? |
|
1002 (char*)(key->value->id->dataNodeName) : "NULL"); |
|
1003 |
|
1004 fprintf(output, "=== key type: "); |
|
1005 if((xmlSecKeyGetType(key) & xmlSecKeyDataTypeSymmetric) != 0) { |
|
1006 fprintf(output, "Symmetric\n"); |
|
1007 } else if((xmlSecKeyGetType(key) & xmlSecKeyDataTypePrivate) != 0) { |
|
1008 fprintf(output, "Private\n"); |
|
1009 } else if((xmlSecKeyGetType(key) & xmlSecKeyDataTypePublic) != 0) { |
|
1010 fprintf(output, "Public\n"); |
|
1011 } else { |
|
1012 fprintf(output, "Unknown\n"); |
|
1013 } |
|
1014 |
|
1015 if(key->name != NULL) { |
|
1016 fprintf(output, "=== key name: %s\n", key->name); |
|
1017 } |
|
1018 fprintf(output, "=== key usage: %d\n", key->usage); |
|
1019 if(key->notValidBefore < key->notValidAfter) { |
|
1020 fprintf(output, "=== key not valid before: %ld\n", (unsigned long)key->notValidBefore); |
|
1021 fprintf(output, "=== key not valid after: %ld\n", (unsigned long)key->notValidAfter); |
|
1022 } |
|
1023 if(key->value != NULL) { |
|
1024 xmlSecKeyDataDebugDump(key->value, output); |
|
1025 } |
|
1026 if(key->dataList != NULL) { |
|
1027 xmlSecPtrListDebugDump(key->dataList, output); |
|
1028 } |
|
1029 } |
|
1030 |
|
1031 /** |
|
1032 * xmlSecKeyDebugXmlDump: |
|
1033 * @key: the pointer to key. |
|
1034 * @output: the pointer to output FILE. |
|
1035 * |
|
1036 * Prints the information about the @key to the @output in XML format. |
|
1037 */ |
|
1038 EXPORT_C |
|
1039 void |
|
1040 xmlSecKeyDebugXmlDump(xmlSecKeyPtr key, FILE *output) { |
|
1041 xmlSecAssert(xmlSecKeyIsValid(key)); |
|
1042 xmlSecAssert(output != NULL); |
|
1043 |
|
1044 fprintf(output, "<KeyInfo>\n"); |
|
1045 if(key->value->id->dataNodeName != NULL) { |
|
1046 fprintf(output, "<KeyMethod>%s</KeyMethod>\n", |
|
1047 key->value->id->dataNodeName); |
|
1048 } |
|
1049 |
|
1050 fprintf(output, "<KeyType>"); |
|
1051 if((xmlSecKeyGetType(key) & xmlSecKeyDataTypeSymmetric) != 0) { |
|
1052 fprintf(output, "Symmetric\n"); |
|
1053 } else if((xmlSecKeyGetType(key) & xmlSecKeyDataTypePrivate) != 0) { |
|
1054 fprintf(output, "Private\n"); |
|
1055 } else if((xmlSecKeyGetType(key) & xmlSecKeyDataTypePublic) != 0) { |
|
1056 fprintf(output, "Public\n"); |
|
1057 } else { |
|
1058 fprintf(output, "Unknown\n"); |
|
1059 } |
|
1060 fprintf(output, "</KeyType>\n"); |
|
1061 |
|
1062 if(key->name != NULL) { |
|
1063 fprintf(output, "<KeyName>%s</KeyName>\n", key->name); |
|
1064 } |
|
1065 if(key->notValidBefore < key->notValidAfter) { |
|
1066 fprintf(output, "<KeyValidity notValidBefore=\"%ld\" notValidAfter=\"%ld\"/>\n", |
|
1067 (unsigned long)key->notValidBefore, |
|
1068 (unsigned long)key->notValidAfter); |
|
1069 } |
|
1070 |
|
1071 if(key->value != NULL) { |
|
1072 xmlSecKeyDataDebugXmlDump(key->value, output); |
|
1073 } |
|
1074 if(key->dataList != NULL) { |
|
1075 xmlSecPtrListDebugXmlDump(key->dataList, output); |
|
1076 } |
|
1077 |
|
1078 fprintf(output, "</KeyInfo>\n"); |
|
1079 } |
|
1080 |
|
1081 /** |
|
1082 * xmlSecKeyGenerate: |
|
1083 * @dataId: the requested key klass (rsa, dsa, aes, ...). |
|
1084 * @sizeBits: the new key size (in bits!). |
|
1085 * @type: the new key type (session, permanent, ...). |
|
1086 * |
|
1087 * Generates new key of requested klass @dataId and @type. |
|
1088 * |
|
1089 * Returns pointer to newly created key or NULL if an error occurs. |
|
1090 */ |
|
1091 EXPORT_C |
|
1092 xmlSecKeyPtr |
|
1093 xmlSecKeyGenerate(xmlSecKeyDataId dataId, xmlSecSize sizeBits, xmlSecKeyDataType type) { |
|
1094 xmlSecKeyPtr key; |
|
1095 xmlSecKeyDataPtr data; |
|
1096 int ret; |
|
1097 |
|
1098 xmlSecAssert2(dataId != xmlSecKeyDataIdUnknown, NULL); |
|
1099 |
|
1100 data = xmlSecKeyDataCreate(dataId); |
|
1101 if(data == NULL) { |
|
1102 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1103 xmlSecErrorsSafeString(xmlSecKeyDataKlassGetName(dataId)), |
|
1104 "xmlSecKeyDataCreate", |
|
1105 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1106 XMLSEC_ERRORS_NO_MESSAGE); |
|
1107 return(NULL); |
|
1108 } |
|
1109 |
|
1110 ret = xmlSecKeyDataGenerate(data, sizeBits, type); |
|
1111 if(ret < 0) { |
|
1112 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1113 xmlSecErrorsSafeString(xmlSecKeyDataKlassGetName(dataId)), |
|
1114 "xmlSecKeyDataGenerate", |
|
1115 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1116 "size=%d;type=%d", sizeBits, type); |
|
1117 xmlSecKeyDataDestroy(data); |
|
1118 return(NULL); |
|
1119 } |
|
1120 |
|
1121 key = xmlSecKeyCreate(); |
|
1122 if(key == NULL) { |
|
1123 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1124 xmlSecErrorsSafeString(xmlSecKeyDataKlassGetName(dataId)), |
|
1125 "xmlSecKeyCreate", |
|
1126 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1127 XMLSEC_ERRORS_NO_MESSAGE); |
|
1128 xmlSecKeyDataDestroy(data); |
|
1129 return(NULL); |
|
1130 } |
|
1131 |
|
1132 ret = xmlSecKeySetValue(key, data); |
|
1133 if(ret < 0) { |
|
1134 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1135 xmlSecErrorsSafeString(xmlSecKeyDataKlassGetName(dataId)), |
|
1136 "xmlSecKeySetValue", |
|
1137 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1138 XMLSEC_ERRORS_NO_MESSAGE); |
|
1139 xmlSecKeyDataDestroy(data); |
|
1140 xmlSecKeyDestroy(key); |
|
1141 return(NULL); |
|
1142 } |
|
1143 |
|
1144 return(key); |
|
1145 } |
|
1146 |
|
1147 /** |
|
1148 * xmlSecKeyGenerateByName: |
|
1149 * @name: the requested key klass name (rsa, dsa, aes, ...). |
|
1150 * @sizeBits: the new key size (in bits!). |
|
1151 * @type: the new key type (session, permanent, ...). |
|
1152 * |
|
1153 * Generates new key of requested @klass and @type. |
|
1154 * |
|
1155 * Returns pointer to newly created key or NULL if an error occurs. |
|
1156 */ |
|
1157 EXPORT_C |
|
1158 xmlSecKeyPtr |
|
1159 xmlSecKeyGenerateByName(const xmlChar* name, xmlSecSize sizeBits, xmlSecKeyDataType type) { |
|
1160 xmlSecKeyDataId dataId; |
|
1161 |
|
1162 xmlSecAssert2(name != NULL, NULL); |
|
1163 |
|
1164 dataId = xmlSecKeyDataIdListFindByName(xmlSecKeyDataIdsGet(), name, xmlSecKeyDataUsageAny); |
|
1165 if(dataId == xmlSecKeyDataIdUnknown) { |
|
1166 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1167 NULL, |
|
1168 xmlSecErrorsSafeString(name), |
|
1169 XMLSEC_ERRORS_R_KEY_DATA_NOT_FOUND, |
|
1170 XMLSEC_ERRORS_NO_MESSAGE); |
|
1171 return(NULL); |
|
1172 } |
|
1173 |
|
1174 return(xmlSecKeyGenerate(dataId, sizeBits, type)); |
|
1175 } |
|
1176 |
|
1177 /** |
|
1178 * xmlSecKeyReadBuffer: |
|
1179 * @dataId: the key value data klass. |
|
1180 * @buffer: the buffer that contains the binary data. |
|
1181 * |
|
1182 * Reads the key value of klass @dataId from a buffer. |
|
1183 * |
|
1184 * Returns pointer to newly created key or NULL if an error occurs. |
|
1185 */ |
|
1186 EXPORT_C |
|
1187 xmlSecKeyPtr |
|
1188 xmlSecKeyReadBuffer(xmlSecKeyDataId dataId, xmlSecBuffer* buffer) { |
|
1189 xmlSecKeyInfoCtx keyInfoCtx; |
|
1190 xmlSecKeyPtr key; |
|
1191 int ret; |
|
1192 |
|
1193 xmlSecAssert2(dataId != xmlSecKeyDataIdUnknown, NULL); |
|
1194 xmlSecAssert2(buffer != NULL, NULL); |
|
1195 |
|
1196 /* create key data */ |
|
1197 key = xmlSecKeyCreate(); |
|
1198 if(key == NULL) { |
|
1199 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1200 xmlSecErrorsSafeString(xmlSecKeyDataKlassGetName(dataId)), |
|
1201 "xmlSecKeyCreate", |
|
1202 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1203 XMLSEC_ERRORS_NO_MESSAGE); |
|
1204 return(NULL); |
|
1205 } |
|
1206 |
|
1207 ret = xmlSecKeyInfoCtxInitialize(&keyInfoCtx, NULL); |
|
1208 if(ret < 0) { |
|
1209 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1210 xmlSecErrorsSafeString(xmlSecKeyDataKlassGetName(dataId)), |
|
1211 "xmlSecKeyInfoCtxInitialize", |
|
1212 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1213 XMLSEC_ERRORS_NO_MESSAGE); |
|
1214 xmlSecKeyDestroy(key); |
|
1215 return(NULL); |
|
1216 } |
|
1217 |
|
1218 keyInfoCtx.keyReq.keyType = xmlSecKeyDataTypeAny; |
|
1219 ret = xmlSecKeyDataBinRead(dataId, key, |
|
1220 xmlSecBufferGetData(buffer), |
|
1221 xmlSecBufferGetSize(buffer), |
|
1222 &keyInfoCtx); |
|
1223 if(ret < 0) { |
|
1224 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1225 xmlSecErrorsSafeString(xmlSecKeyDataKlassGetName(dataId)), |
|
1226 "xmlSecKeyDataBinRead", |
|
1227 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1228 XMLSEC_ERRORS_NO_MESSAGE); |
|
1229 xmlSecKeyInfoCtxFinalize(&keyInfoCtx); |
|
1230 xmlSecKeyDestroy(key); |
|
1231 return(NULL); |
|
1232 } |
|
1233 xmlSecKeyInfoCtxFinalize(&keyInfoCtx); |
|
1234 |
|
1235 return(key); |
|
1236 } |
|
1237 |
|
1238 /** |
|
1239 * xmlSecKeyReadBinaryFile: |
|
1240 * @dataId: the key value data klass. |
|
1241 * @filename: the key binary filename. |
|
1242 * |
|
1243 * Reads the key value of klass @dataId from a binary file @filename. |
|
1244 * |
|
1245 * Returns pointer to newly created key or NULL if an error occurs. |
|
1246 */ |
|
1247 EXPORT_C |
|
1248 xmlSecKeyPtr |
|
1249 xmlSecKeyReadBinaryFile(xmlSecKeyDataId dataId, const char* filename) { |
|
1250 xmlSecKeyPtr key; |
|
1251 xmlSecBuffer buffer; |
|
1252 int ret; |
|
1253 |
|
1254 xmlSecAssert2(dataId != xmlSecKeyDataIdUnknown, NULL); |
|
1255 xmlSecAssert2(filename != NULL, NULL); |
|
1256 |
|
1257 /* read file to buffer */ |
|
1258 ret = xmlSecBufferInitialize(&buffer, 0); |
|
1259 if(ret < 0) { |
|
1260 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1261 xmlSecErrorsSafeString(xmlSecKeyDataKlassGetName(dataId)), |
|
1262 "xmlSecBufferInitialize", |
|
1263 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1264 XMLSEC_ERRORS_NO_MESSAGE); |
|
1265 return(NULL); |
|
1266 } |
|
1267 |
|
1268 ret = xmlSecBufferReadFile(&buffer, filename); |
|
1269 if(ret < 0) { |
|
1270 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1271 xmlSecErrorsSafeString(xmlSecKeyDataKlassGetName(dataId)), |
|
1272 "xmlSecBufferReadFile", |
|
1273 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1274 "filename=%s", |
|
1275 xmlSecErrorsSafeString(filename)); |
|
1276 xmlSecBufferFinalize(&buffer); |
|
1277 return(NULL); |
|
1278 } |
|
1279 |
|
1280 key = xmlSecKeyReadBuffer(dataId, &buffer); |
|
1281 if(key == NULL) { |
|
1282 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1283 xmlSecErrorsSafeString(xmlSecKeyDataKlassGetName(dataId)), |
|
1284 "xmlSecKeyReadBuffer", |
|
1285 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1286 "filename=%s", |
|
1287 xmlSecErrorsSafeString(filename)); |
|
1288 xmlSecBufferFinalize(&buffer); |
|
1289 return(NULL); |
|
1290 } |
|
1291 |
|
1292 xmlSecBufferFinalize(&buffer); |
|
1293 return (key); |
|
1294 } |
|
1295 |
|
1296 /** |
|
1297 * xmlSecKeyReadMemory: |
|
1298 * @dataId: the key value data klass. |
|
1299 * @data: the memory containing the key |
|
1300 * @dataSize: the size of the memory block |
|
1301 * |
|
1302 * Reads the key value of klass @dataId from a memory block @data. |
|
1303 * |
|
1304 * Returns pointer to newly created key or NULL if an error occurs. |
|
1305 */ |
|
1306 EXPORT_C |
|
1307 xmlSecKeyPtr |
|
1308 xmlSecKeyReadMemory(xmlSecKeyDataId dataId, const xmlSecByte* data, xmlSecSize dataSize) { |
|
1309 xmlSecBuffer buffer; |
|
1310 xmlSecKeyPtr key; |
|
1311 int ret; |
|
1312 |
|
1313 xmlSecAssert2(dataId != xmlSecKeyDataIdUnknown, NULL); |
|
1314 xmlSecAssert2(data != NULL, NULL); |
|
1315 xmlSecAssert2(dataSize > 0, NULL); |
|
1316 |
|
1317 /* read file to buffer */ |
|
1318 ret = xmlSecBufferInitialize(&buffer, 0); |
|
1319 if(ret < 0) { |
|
1320 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1321 xmlSecErrorsSafeString(xmlSecKeyDataKlassGetName(dataId)), |
|
1322 "xmlSecBufferInitialize", |
|
1323 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1324 XMLSEC_ERRORS_NO_MESSAGE); |
|
1325 return(NULL); |
|
1326 } |
|
1327 |
|
1328 if (xmlSecBufferAppend(&buffer, data, dataSize) < 0) { |
|
1329 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1330 xmlSecErrorsSafeString(xmlSecKeyDataKlassGetName(dataId)), |
|
1331 "xmlSecBufferAppend", |
|
1332 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1333 XMLSEC_ERRORS_NO_MESSAGE); |
|
1334 xmlSecBufferFinalize(&buffer); |
|
1335 return(NULL); |
|
1336 } |
|
1337 |
|
1338 key = xmlSecKeyReadBuffer(dataId, &buffer); |
|
1339 if(key == NULL) { |
|
1340 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1341 xmlSecErrorsSafeString(xmlSecKeyDataKlassGetName(dataId)), |
|
1342 "xmlSecKeyReadBuffer", |
|
1343 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1344 XMLSEC_ERRORS_NO_MESSAGE); |
|
1345 xmlSecBufferFinalize(&buffer); |
|
1346 return(NULL); |
|
1347 } |
|
1348 |
|
1349 xmlSecBufferFinalize(&buffer); |
|
1350 return (key); |
|
1351 } |
|
1352 |
|
1353 /** |
|
1354 * xmlSecKeysMngrGetKey: |
|
1355 * @keyInfoNode: the pointer to <dsig:KeyInfo/> node. |
|
1356 * @keyInfoCtx: the pointer to <dsig:KeyInfo/> node processing context. |
|
1357 * |
|
1358 * Reads the <dsig:KeyInfo/> node @keyInfoNode and extracts the key. |
|
1359 * |
|
1360 * Returns the pointer to key or NULL if the key is not found or |
|
1361 * an error occurs. |
|
1362 */ |
|
1363 EXPORT_C |
|
1364 xmlSecKeyPtr |
|
1365 xmlSecKeysMngrGetKey(xmlNodePtr keyInfoNode, xmlSecKeyInfoCtxPtr keyInfoCtx) { |
|
1366 xmlSecKeyPtr key; |
|
1367 xmlSecKeyPtr tempkey; |
|
1368 int ret; |
|
1369 const xmlChar* keyname; |
|
1370 |
|
1371 xmlSecAssert2(keyInfoCtx != NULL, NULL); |
|
1372 |
|
1373 |
|
1374 /* first try to read data from <dsig:KeyInfo/> node */ |
|
1375 key = xmlSecKeyCreate(); |
|
1376 if(key == NULL) { |
|
1377 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1378 NULL, |
|
1379 "xmlSecKeyCreate", |
|
1380 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1381 XMLSEC_ERRORS_NO_MESSAGE); |
|
1382 return(NULL); |
|
1383 } |
|
1384 |
|
1385 if(keyInfoNode != NULL) { |
|
1386 ret = xmlSecKeyInfoNodeRead(keyInfoNode, key, keyInfoCtx); |
|
1387 if(ret < 0) { |
|
1388 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1389 NULL, |
|
1390 "xmlSecKeyInfoNodeRead", |
|
1391 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1392 "node=%s", |
|
1393 xmlSecErrorsSafeString(xmlSecNodeGetName(keyInfoNode))); |
|
1394 xmlSecKeyDestroy(key); |
|
1395 return(NULL); |
|
1396 } |
|
1397 |
|
1398 if((xmlSecKeyGetValue(key) != NULL) && |
|
1399 (xmlSecKeyMatch(key, NULL, &(keyInfoCtx->keyReq)) != 0)) { |
|
1400 return(key); |
|
1401 } |
|
1402 } |
|
1403 tempkey=xmlSecKeyDuplicate(key); |
|
1404 if(tempkey == NULL) |
|
1405 { |
|
1406 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1407 NULL, |
|
1408 "xmlSecKeysMngrFindKey", |
|
1409 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1410 XMLSEC_ERRORS_NO_MESSAGE); |
|
1411 return(NULL); |
|
1412 } |
|
1413 keyname=xmlSecKeyGetName(tempkey); |
|
1414 xmlSecKeyDestroy(key); |
|
1415 |
|
1416 /* if we have keys manager, try it */ |
|
1417 if(keyInfoCtx->keysMngr != NULL) { |
|
1418 key = xmlSecKeysMngrFindKey(keyInfoCtx->keysMngr, keyname /*NULL*/, keyInfoCtx); |
|
1419 xmlSecKeyDestroy(tempkey); |
|
1420 if(key == NULL) { |
|
1421 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1422 NULL, |
|
1423 "xmlSecKeysMngrFindKey", |
|
1424 XMLSEC_ERRORS_R_XMLSEC_FAILED, |
|
1425 XMLSEC_ERRORS_NO_MESSAGE); |
|
1426 return(NULL); |
|
1427 } |
|
1428 if(xmlSecKeyGetValue(key) != NULL) { |
|
1429 return(key); |
|
1430 } |
|
1431 xmlSecKeyDestroy(key); |
|
1432 } |
|
1433 |
|
1434 xmlSecError(XMLSEC_ERRORS_HERE, |
|
1435 NULL, |
|
1436 NULL, |
|
1437 XMLSEC_ERRORS_R_KEY_NOT_FOUND, |
|
1438 XMLSEC_ERRORS_NO_MESSAGE); |
|
1439 return(NULL); |
|
1440 } |
|
1441 |
|
1442 /*********************************************************************** |
|
1443 * |
|
1444 * Keys list |
|
1445 * |
|
1446 **********************************************************************/ |
|
1447 static xmlSecPtrListKlass xmlSecKeyPtrListKlass = { |
|
1448 BAD_CAST "keys-list", |
|
1449 (xmlSecPtrDuplicateItemMethod)xmlSecKeyDuplicate, /* xmlSecPtrDuplicateItemMethod duplicateItem; */ |
|
1450 (xmlSecPtrDestroyItemMethod)xmlSecKeyDestroy, /* xmlSecPtrDestroyItemMethod destroyItem; */ |
|
1451 (xmlSecPtrDebugDumpItemMethod)xmlSecKeyDebugDump, /* xmlSecPtrDebugDumpItemMethod debugDumpItem; */ |
|
1452 (xmlSecPtrDebugDumpItemMethod)xmlSecKeyDebugXmlDump,/* xmlSecPtrDebugDumpItemMethod debugXmlDumpItem; */ |
|
1453 }; |
|
1454 |
|
1455 /** |
|
1456 * xmlSecKeyPtrListGetKlass: |
|
1457 * |
|
1458 * The keys list klass. |
|
1459 * |
|
1460 * Returns keys list id. |
|
1461 */ |
|
1462 EXPORT_C |
|
1463 xmlSecPtrListId |
|
1464 xmlSecKeyPtrListGetKlass(void) { |
|
1465 return(&xmlSecKeyPtrListKlass); |
|
1466 } |
|
1467 |