1 | // [License]
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2 | // The Ariba-Underlay Copyright
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3 | //
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4 | // Copyright (c) 2008-2009, Institute of Telematics, UniversitÀt Karlsruhe (TH)
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5 | //
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6 | // Institute of Telematics
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7 | // UniversitÀt Karlsruhe (TH)
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8 | // Zirkel 2, 76128 Karlsruhe
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9 | // Germany
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10 | //
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11 | // Redistribution and use in source and binary forms, with or without
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12 | // modification, are permitted provided that the following conditions are
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13 | // met:
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14 | //
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15 | // 1. Redistributions of source code must retain the above copyright
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16 | // notice, this list of conditions and the following disclaimer.
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17 | // 2. Redistributions in binary form must reproduce the above copyright
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18 | // notice, this list of conditions and the following disclaimer in the
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19 | // documentation and/or other materials provided with the distribution.
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20 | //
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21 | // THIS SOFTWARE IS PROVIDED BY THE INSTITUTE OF TELEMATICS ``AS IS'' AND
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22 | // ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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23 | // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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24 | // PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE ARIBA PROJECT OR
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25 | // CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
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26 | // EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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27 | // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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28 | // PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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29 | // LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
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30 | // NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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31 | // SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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32 | //
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33 | // The views and conclusions contained in the software and documentation
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34 | // are those of the authors and should not be interpreted as representing
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35 | // official policies, either expressed or implied, of the Institute of
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36 | // Telematics.
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37 | // [License]
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38 |
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39 | #include "Identifier.h"
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40 | #include "ariba/utility/misc/sha1.h"
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41 |
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42 | namespace ariba {
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43 | namespace utility {
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44 |
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45 | uint Identifier::keyLength = MAX_KEYLENGTH;
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46 |
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47 | uint Identifier::aSize = Identifier::keyLength / (8 * sizeof(mp_limb_t))
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48 | + (Identifier::keyLength % (8 * sizeof(mp_limb_t)) != 0 ? 1 : 0);
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49 |
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50 | mp_limb_t Identifier::GMP_MSB_MASK = (Identifier::keyLength % GMP_LIMB_BITS)
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51 | != 0 ? (((mp_limb_t) 1 << (Identifier::keyLength % GMP_LIMB_BITS)) - 1)
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52 | : (mp_limb_t) -1;
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53 |
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54 | /* virtual serialization */
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55 | vsznDefault(Identifier);
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56 | use_logging_cpp( Identifier );
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57 |
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58 | //--------------------------------------------------------------------
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59 | // constants
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60 | //--------------------------------------------------------------------
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61 |
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62 | // predefined keys
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63 | const Identifier Identifier::UNSPECIFIED_KEY;
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64 | const Identifier Identifier::ZERO((uint32_t) 0);
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65 | const Identifier Identifier::ONE((uint32_t) 1);
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66 |
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67 | // hex crap
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68 | const char* HEX = "0123456789abcdef";
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69 | gmp_randstate_t randstate;
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70 |
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71 | void Identifier::clearAddress() {
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72 | for (int i = 0; i < array_size; i++)
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73 | key[i] = 0;
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74 | isUnspec = false;
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75 | trim();
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76 | }
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77 |
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78 | bool Identifier::setAddress(string address) {
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79 | // TODO
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80 | }
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81 |
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82 | string Identifier::getAddress() const {
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83 | return toString();
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84 | }
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85 |
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86 | //--------------------------------------------------------------------
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87 | // construction and destruction
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88 | //--------------------------------------------------------------------
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89 |
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90 | // default construction: create a unspecified node key
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91 | Identifier::Identifier() {
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92 | seed();
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93 | isUnspec = true;
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94 | trim();
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95 | }
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96 |
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97 | // create a key out of an normal integer
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98 | Identifier::Identifier(uint32_t num) {
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99 | seed();
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100 | clearAddress();
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101 | key[0] = (uint32_t) num;
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102 | trim();
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103 | }
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104 |
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105 | // create a key out of a buffer
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106 | Identifier::Identifier(const unsigned char* buf, uint size) {
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107 | seed();
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108 | int trimSize, offset;
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109 | clearAddress();
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110 | trimSize = (int) std::min((uint) (aSize * sizeof(mp_limb_t)), size);
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111 | offset = aSize * sizeof(mp_limb_t) - trimSize;
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112 | memcpy(((char*) key) + offset, buf, trimSize);
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113 | trim();
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114 | }
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115 |
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116 | // create a key out of an string with the given base
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117 | Identifier::Identifier(const std::string& str, uint base) {
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118 | seed();
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119 |
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120 | if ((base < 2) || (base > 16)) {
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121 | logging_error( "Identifier::Identifier(): Invalid base!" );
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122 | return;
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123 | }
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124 |
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125 | string s(str);
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126 | clearAddress();
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127 |
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128 | for (uint i = 0; i < s.size(); i++) {
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129 | if ((s[i] >= '0') && (s[i] <= '9')) {
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130 | s[i] -= '0';
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131 | } else if ((s[i] >= 'a') && (s[i] <= 'f')) {
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132 | s[i] -= ('a' - 10);
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133 | } else if ((s[i] >= 'A') & (s[i] <= 'F')) {
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134 | s[i] -= ('A' - 10);
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135 | } else {
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136 | logging_error( "Identifier::Identifier(): "
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137 | "Invalid character in string!" );
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138 | return;
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139 | }
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140 | }
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141 |
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142 | mpn_set_str((mp_limb_t*) this->key, (const unsigned char*) s.c_str(),
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143 | str.size(), base);
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144 | trim();
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145 | }
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146 |
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147 | // copy constructor
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148 | Identifier::Identifier(const Identifier& rhs) {
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149 | seed();
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150 | (*this) = rhs;
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151 | }
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152 |
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153 | // default destructur
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154 | Identifier::~Identifier() {
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155 | }
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156 |
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157 | void Identifier::seed(){
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158 | static bool isSeeded = false;
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159 | if( isSeeded ) return;
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160 |
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161 | gmp_randinit_default( randstate );
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162 | gmp_randseed_ui( randstate, time(NULL) );
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163 |
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164 | isSeeded = true;
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165 | }
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166 |
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167 | //--------------------------------------------------------------------
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168 | // string representations & node key attributes
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169 | //--------------------------------------------------------------------
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170 |
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171 | void Identifier::setKeyLength(uint length) {
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172 | if ((length < 1) || (length > Identifier::keyLength)) {
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173 |
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174 | logging_error( "Identifier::setKeyLength(): length must be <= " <<
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175 | MAX_KEYLENGTH << " and setKeyLength() must not be " <<
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176 | "called twice with different length!" );
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177 | return;
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178 | }
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179 |
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180 | keyLength = length;
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181 |
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182 | aSize = keyLength / (8 * sizeof(mp_limb_t)) + (keyLength % (8
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183 | * sizeof(mp_limb_t)) != 0 ? 1 : 0);
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184 |
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185 | GMP_MSB_MASK = (keyLength % GMP_LIMB_BITS) != 0 ? (((mp_limb_t) 1
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186 | << (keyLength % GMP_LIMB_BITS)) - 1) : (mp_limb_t) -1;
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187 | }
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188 |
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189 | // returns the length in bits
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190 | uint Identifier::getLength() {
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191 | return Identifier::keyLength;
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192 | }
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193 |
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194 | bool Identifier::isUnspecified() const {
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195 | return isUnspec;
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196 | }
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197 |
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198 | std::string Identifier::toString(uint base) const {
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199 | if ((base < 2) || (base > 16)) {
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200 | logging_error( "Identifier::Identifier(): Invalid base!" );
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201 | return "";
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202 | }
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203 |
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204 | if (isUnspec) return std::string("<unspec>");
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205 |
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206 | char temp[80];
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207 | if (base == 16) {
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208 | int k = 0;
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209 | for (int i = (keyLength - 1) / 4; i >= 0; i--, k++) {
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210 | temp[k] = HEX[this->get(4 * i, 4)];
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211 | }
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212 | temp[k] = 0;
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213 | return std::string((const char*) temp);
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214 | } else if (base == 2) {
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215 | int k = 0;
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216 | for (int i = MAX_KEYLENGTH - 1; i >= 0; i -= 1, k++)
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217 | temp[k] = HEX[this->get(i, 1)];
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218 | temp[k] = 0;
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219 | return std::string((const char*) temp);
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220 | }
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221 | //#endif
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222 | #if 0
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223 | size_t log2[33] = {0};
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224 | log2[2] = 1;
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225 | log2[4] = 2;
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226 | log2[8] = 3;
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227 | log2[16] = 4;
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228 | log2[32] = 5;
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229 | size_t sh = (sizeof(mp_limb_t)*8/log2[base]);
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230 | // key[array_size] = ~0;
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231 | mp_size_t last = mpn_get_str((unsigned char*) temp, base,
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232 | (mp_limb_t*) this->key, aSize+1);
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233 | for (int i = 0; i < last-sh; i++) {
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234 | temp[i] = HEX[temp[i+sh]];
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235 | }
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236 | temp[last-sh] = 0;
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237 | return std::string((const char*) temp);
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238 | }
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239 | #endif
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240 | }
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241 |
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242 | //--------------------------------------------------------------------
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243 | // operators
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244 | //--------------------------------------------------------------------
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245 |
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246 | // assignment operator
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247 | Identifier& Identifier::operator=(const Identifier& rhs) {
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248 | isUnspec = rhs.isUnspec;
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249 | memcpy(key, rhs.key, aSize * sizeof(mp_limb_t));
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250 | return *this;
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251 | }
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252 |
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253 | // sub one prefix operator
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254 | Identifier& Identifier::operator--() {
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255 | return (*this -= ONE);
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256 | }
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257 |
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258 | // sub one postfix operator
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259 | Identifier Identifier::operator--(int) {
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260 | Identifier clone = *this;
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261 | *this -= ONE;
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262 | return clone;
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263 | }
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264 |
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265 | // add one prefix operator
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266 | Identifier& Identifier::operator++() {
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267 | return (*this += ONE);
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268 | }
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269 |
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270 | // sub one postfix operator
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271 | Identifier Identifier::operator++(int) {
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272 | Identifier clone = *this;
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273 | *this += ONE;
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274 | return clone;
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275 | }
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276 |
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277 | // add assign operator
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278 | Identifier& Identifier::operator+=(const Identifier& rhs) {
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279 | mpn_add_n((mp_limb_t*) key, (mp_limb_t*) key, (mp_limb_t*) rhs.key, aSize);
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280 | trim();
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281 | isUnspec = false;
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282 | return *this;
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283 | }
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284 |
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285 | // sub assign operator
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286 | Identifier& Identifier::operator-=(const Identifier& rhs) {
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287 | mpn_sub_n((mp_limb_t*) key, (mp_limb_t*) key, (mp_limb_t*) rhs.key, aSize);
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288 | trim();
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289 | isUnspec = false;
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290 | return *this;
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291 | }
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292 |
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293 | // add operator
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294 | Identifier Identifier::operator+(const Identifier& rhs) const {
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295 | Identifier result = *this;
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296 | result += rhs;
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297 | return result;
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298 | }
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299 |
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300 | // sub operator
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301 | Identifier Identifier::operator-(const Identifier& rhs) const {
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302 | Identifier result = *this;
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303 | result -= rhs;
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304 | return result;
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305 | }
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306 |
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307 | // compare operators
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308 | bool Identifier::operator<(const Identifier& compKey) const {
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309 | return compareTo(compKey) < 0;
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310 | }
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311 | bool Identifier::operator>(const Identifier& compKey) const {
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312 | return compareTo(compKey) > 0;
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313 | }
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314 | bool Identifier::operator<=(const Identifier& compKey) const {
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315 | return compareTo(compKey) <= 0;
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316 | }
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317 | bool Identifier::operator>=(const Identifier& compKey) const {
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318 | return compareTo(compKey) >= 0;
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319 | }
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320 | bool Identifier::operator==(const Identifier& compKey) const {
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321 |
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322 | if( this->isUnspecified() && compKey.isUnspecified() )
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323 | return true;
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324 | else
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325 | return compareTo(compKey) == 0;
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326 | }
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327 | bool Identifier::operator!=(const Identifier& compKey) const {
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328 | return compareTo(compKey) != 0;
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329 | }
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330 |
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331 | // bitwise xor
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332 | Identifier Identifier::operator^(const Identifier& rhs) const {
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333 | Identifier result = *this;
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334 | for (uint i = 0; i < aSize; i++) {
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335 | result.key[i] ^= rhs.key[i];
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336 | }
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337 |
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338 | return result;
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339 | }
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340 |
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341 | // bitwise or
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342 | Identifier Identifier::operator|(const Identifier& rhs) const {
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343 | Identifier result = *this;
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344 | for (uint i = 0; i < aSize; i++) {
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345 | result.key[i] |= rhs.key[i];
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346 | }
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347 |
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348 | return result;
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349 | }
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350 |
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351 | // bitwise and
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352 | Identifier Identifier::operator&(const Identifier& rhs) const {
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353 | Identifier result = *this;
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354 | for (uint i = 0; i < aSize; i++) {
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355 | result.key[i] &= rhs.key[i];
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356 | }
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357 |
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358 | return result;
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359 | }
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360 |
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361 | // complement
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362 | Identifier Identifier::operator~() const {
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363 | Identifier result = *this;
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364 | for (uint i = 0; i < aSize; i++) {
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365 | result.key[i] = ~key[i];
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366 | }
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367 | result.trim();
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368 |
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369 | return result;
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370 | }
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371 |
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372 | // bitwise shift right
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373 | Identifier Identifier::operator>>(uint num) const {
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374 | Identifier result = ZERO;
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375 | int i = num / GMP_LIMB_BITS;
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376 |
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377 | num %= GMP_LIMB_BITS;
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378 |
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379 | if (i >= (int) aSize) return result;
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380 |
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381 | for (int j = 0; j < (int) aSize - i; j++) {
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382 | result.key[j] = key[j + i];
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383 | }
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384 | mpn_rshift(result.key, result.key, aSize, num);
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385 | result.isUnspec = false;
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386 | result.trim();
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387 |
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388 | return result;
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389 | }
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390 |
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391 | // bitwise shift left
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392 | Identifier Identifier::operator<<(uint num) const {
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393 | Identifier result = ZERO;
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394 | int i = num / GMP_LIMB_BITS;
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395 |
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396 | num %= GMP_LIMB_BITS;
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397 |
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398 | if (i >= (int) aSize) return result;
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399 |
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400 | for (int j = 0; j < (int) aSize - i; j++) {
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401 | result.key[j + i] = key[j];
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402 | }
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403 | mpn_lshift(result.key, result.key, aSize, num);
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404 | result.isUnspec = false;
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405 | result.trim();
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406 |
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407 | return result;
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408 | }
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409 |
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410 | // get bit
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411 | IdentifierBit Identifier::operator[](uint n) {
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412 | return IdentifierBit(get(n, 1), n, this);
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413 | }
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414 |
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415 | Identifier& Identifier::setBitAt(uint pos, bool value) {
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416 | mp_limb_t digit = 1;
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417 | digit = digit << (pos % GMP_LIMB_BITS);
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418 |
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419 | if (value) {
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420 | key[pos / GMP_LIMB_BITS] |= digit;
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421 | } else {
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422 | //key[pos / GMP_LIMB_BITS] = key[pos / GMP_LIMB_BITS] & ~digit;
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423 | key[pos / GMP_LIMB_BITS] &= ~digit;
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424 | }
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425 |
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426 | return *this;
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427 | }
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428 | ;
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429 |
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430 | //--------------------------------------------------------------------
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431 | // additional math
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432 | //--------------------------------------------------------------------
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433 |
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434 | // returns a sub integer
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435 | uint32_t Identifier::get(uint p, uint n) const {
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436 | int i = p / GMP_LIMB_BITS, // index of starting bit
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437 | f = p % GMP_LIMB_BITS, // position of starting bit
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438 | f2 = f + n - GMP_LIMB_BITS; // how many bits to take from next index
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439 |
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440 | if (p + n > Identifier::keyLength) {
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441 | logging_error( "Identifier::get: Invalid range (index too large!)" );
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442 | return 0;
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443 | }
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444 |
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445 | return ((key[i] >> f) | // get the bits of key[i]
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446 | (f2 > 0 ? (key[i + 1] << (GMP_LIMB_BITS - f)) : 0)) & // the extra bits from key[i+1]
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447 | (((uint32_t) (~0)) >> (GMP_LIMB_BITS - n)); // delete unused bits
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448 | }
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449 |
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450 | // fill suffix with random bits
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451 | Identifier Identifier::randomSuffix(uint pos) const {
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452 | Identifier newKey = *this;
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453 | int i = pos / GMP_LIMB_BITS, j = pos % GMP_LIMB_BITS;
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454 | mp_limb_t m = ((mp_limb_t) 1 << j) - 1;
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455 | mp_limb_t rnd;
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456 |
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457 | mpn_random(&rnd, 1);
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458 | newKey.key[i] &= ~m;
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459 | newKey.key[i] |= (rnd & m);
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460 | mpn_random(newKey.key, i);
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461 | newKey.trim();
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462 |
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463 | return newKey;
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464 | }
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465 |
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466 | // fill prefix with random bits
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467 | Identifier Identifier::randomPrefix(uint pos) const {
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468 | Identifier newKey = *this;
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469 | int i = pos / GMP_LIMB_BITS, j = pos % GMP_LIMB_BITS;
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470 | mp_limb_t m = ((mp_limb_t) 1 << j) - 1;
|
---|
471 | mp_limb_t rnd;
|
---|
472 |
|
---|
473 | mpn_random(&rnd, 1);
|
---|
474 |
|
---|
475 | newKey.key[i] &= m;
|
---|
476 | newKey.key[i] |= (rnd & ~m);
|
---|
477 | for (int k = aSize - 1; k != i; k--) {
|
---|
478 | mpn_random(&newKey.key[k], 1);
|
---|
479 | }
|
---|
480 | newKey.trim();
|
---|
481 |
|
---|
482 | return newKey;
|
---|
483 | }
|
---|
484 |
|
---|
485 | // calculate shared prefix length
|
---|
486 | uint Identifier::sharedPrefixLength(const Identifier& compKey) const {
|
---|
487 | if (compareTo(compKey) == 0) return keyLength;
|
---|
488 |
|
---|
489 | uint length = 0;
|
---|
490 | int i;
|
---|
491 | uint j;
|
---|
492 | bool msb = true;
|
---|
493 |
|
---|
494 | // count equal limbs first:
|
---|
495 | for (i = aSize - 1; i >= 0; --i) {
|
---|
496 | if (this->key[i] != compKey.key[i]) {
|
---|
497 | // XOR first differing limb for easy counting of the bits:
|
---|
498 | mp_limb_t d = this->key[i] ^ compKey.key[i];
|
---|
499 | if (msb) d <<= (GMP_LIMB_BITS - (keyLength % GMP_LIMB_BITS));
|
---|
500 | for (j = GMP_LIMB_BITS - 1; d >>= 1; --j)
|
---|
501 | ;
|
---|
502 | length += j;
|
---|
503 | break;
|
---|
504 | }
|
---|
505 | length += GMP_LIMB_BITS;
|
---|
506 | msb = false;
|
---|
507 | }
|
---|
508 |
|
---|
509 | return length;
|
---|
510 | }
|
---|
511 |
|
---|
512 | // calculate log of base 2
|
---|
513 | int Identifier::log_2() const {
|
---|
514 | int16_t i = aSize - 1;
|
---|
515 |
|
---|
516 | while (i >= 0 && key[i] == 0) {
|
---|
517 | i--;
|
---|
518 | }
|
---|
519 |
|
---|
520 | if (i < 0) {
|
---|
521 | return -1;
|
---|
522 | }
|
---|
523 |
|
---|
524 | mp_limb_t j = key[i];
|
---|
525 | i *= GMP_LIMB_BITS;
|
---|
526 | while (j != 0) {
|
---|
527 | j >>= 1;
|
---|
528 | i++;
|
---|
529 | }
|
---|
530 |
|
---|
531 | return i - 1;
|
---|
532 | }
|
---|
533 |
|
---|
534 | // returns a simple hash of the key
|
---|
535 | size_t Identifier::hash() const {
|
---|
536 | return (size_t) key[0];
|
---|
537 | }
|
---|
538 |
|
---|
539 | // returns true, if this key is element of the interval (keyA, keyB)
|
---|
540 | bool Identifier::isBetween(const Identifier& keyA, const Identifier& keyB) const {
|
---|
541 | if (isUnspec || keyA.isUnspec || keyB.isUnspec) return false;
|
---|
542 |
|
---|
543 | if (*this == keyA) return false;
|
---|
544 | else if (keyA < keyB) return ((*this > keyA) && (*this < keyB));
|
---|
545 | else return ((*this > keyA) || (*this < keyB));
|
---|
546 | }
|
---|
547 |
|
---|
548 | // returns true, if this key is element of the interval (keyA, keyB]
|
---|
549 | bool Identifier::isBetweenR(const Identifier& keyA, const Identifier& keyB) const {
|
---|
550 | if (isUnspec || keyA.isUnspec || keyB.isUnspec) return false;
|
---|
551 |
|
---|
552 | if ((keyA == keyB) && (*this == keyA)) return true;
|
---|
553 | else if (keyA <= keyB) return ((*this > keyA) && (*this <= keyB));
|
---|
554 | else return ((*this > keyA) || (*this <= keyB));
|
---|
555 | }
|
---|
556 |
|
---|
557 | // returns true, if this key is element of the interval [keyA, keyB)
|
---|
558 | bool Identifier::isBetweenL(const Identifier& keyA, const Identifier& keyB) const {
|
---|
559 | if (isUnspec || keyA.isUnspec || keyB.isUnspec) return false;
|
---|
560 |
|
---|
561 | if ((keyA == keyB) && (*this == keyA)) return true;
|
---|
562 | else if (keyA <= keyB) return ((*this >= keyA) && (*this < keyB));
|
---|
563 | else return ((*this >= keyA) || (*this < keyB));
|
---|
564 | }
|
---|
565 |
|
---|
566 | // returns true, if this key is element of the interval [keyA, keyB]
|
---|
567 | bool Identifier::isBetweenLR(const Identifier& keyA, const Identifier& keyB) const {
|
---|
568 | if (isUnspec || keyA.isUnspec || keyB.isUnspec) return false;
|
---|
569 |
|
---|
570 | if ((keyA == keyB) && (*this == keyA)) return true;
|
---|
571 | else if (keyA <= keyB) return ((*this >= keyA) && (*this <= keyB));
|
---|
572 | else return ((*this >= keyA) || (*this <= keyB));
|
---|
573 | }
|
---|
574 |
|
---|
575 | //----------------------------------------------------------------------
|
---|
576 | // statics and globals
|
---|
577 | //----------------------------------------------------------------------
|
---|
578 |
|
---|
579 | // default console output
|
---|
580 | std::ostream& operator<<(std::ostream& os, const Identifier& c) {
|
---|
581 | os << c.toString(16);
|
---|
582 | return os;
|
---|
583 | }
|
---|
584 | ;
|
---|
585 |
|
---|
586 | // returns a key filled with bit 1
|
---|
587 | Identifier Identifier::max() {
|
---|
588 | Identifier newKey;
|
---|
589 |
|
---|
590 | for (uint i = 0; i < aSize; i++) {
|
---|
591 | newKey.key[i] = ~0;
|
---|
592 | }
|
---|
593 | newKey.isUnspec = false;
|
---|
594 | newKey.trim();
|
---|
595 |
|
---|
596 | return newKey;
|
---|
597 | }
|
---|
598 |
|
---|
599 | // generate random number
|
---|
600 | Identifier Identifier::random() {
|
---|
601 | Identifier newKey = ZERO;
|
---|
602 |
|
---|
603 | //as mpn_random has no seeding function
|
---|
604 | // we mess aroung here a little to achive some randomness
|
---|
605 | // using the rand function that _is_ seeded in the
|
---|
606 | // StartupWrapper::initSystem function
|
---|
607 |
|
---|
608 | Identifier keyRandom = ZERO;
|
---|
609 | mpn_random(keyRandom.key, aSize);
|
---|
610 | Identifier keyrnd( rand() );
|
---|
611 | mpn_mul_1( newKey.key, keyRandom.key, aSize, *keyrnd.key );
|
---|
612 |
|
---|
613 | newKey.trim();
|
---|
614 | return newKey;
|
---|
615 | }
|
---|
616 |
|
---|
617 | Identifier Identifier::sha1(const string& input) {
|
---|
618 | Identifier newKey;
|
---|
619 | newKey.clearAddress();
|
---|
620 | uint8_t temp[40];
|
---|
621 | for (int i=0; i<40; i++) temp[i] = 0;
|
---|
622 | const char* c_str = input.c_str();
|
---|
623 |
|
---|
624 | CSHA1 sha;
|
---|
625 | sha.Reset();
|
---|
626 | sha.Update( (uint8_t*)c_str, (uint32_t)input.size() );
|
---|
627 | sha.Final();
|
---|
628 | sha.GetHash(temp);
|
---|
629 | mpn_set_str(newKey.key, (const uint8_t*)temp,
|
---|
630 | (int)aSize * sizeof(mp_limb_t), 256);
|
---|
631 | newKey.isUnspec = false;
|
---|
632 | newKey.trim();
|
---|
633 |
|
---|
634 | return newKey;
|
---|
635 | }
|
---|
636 |
|
---|
637 | Identifier Identifier::sha1(const uint8_t* value, size_t length ) {
|
---|
638 | Identifier newKey;
|
---|
639 | uint8_t temp[40];
|
---|
640 | for (int i=0; i<40; i++) temp[i] = 0;
|
---|
641 |
|
---|
642 | CSHA1 sha;
|
---|
643 | sha.Reset();
|
---|
644 | sha.Update( const_cast<uint8_t*>(value), (uint32_t)length );
|
---|
645 | sha.Final();
|
---|
646 | sha.GetHash(temp);
|
---|
647 | mpn_set_str( newKey.key, (const uint8_t*)temp, (int)aSize * sizeof(mp_limb_t), 256);
|
---|
648 | newKey.isUnspec = false;
|
---|
649 | newKey.trim();
|
---|
650 | return newKey;
|
---|
651 | }
|
---|
652 |
|
---|
653 | // generate a key=2**exponent
|
---|
654 | Identifier Identifier::pow2(uint exponent) {
|
---|
655 | Identifier newKey = ZERO;
|
---|
656 |
|
---|
657 | newKey.key[exponent / GMP_LIMB_BITS] = (mp_limb_t) 1 << (exponent
|
---|
658 | % GMP_LIMB_BITS);
|
---|
659 |
|
---|
660 | return newKey;
|
---|
661 | }
|
---|
662 |
|
---|
663 | //--------------------------------------------------------------------
|
---|
664 | // private methods (mostly inlines)
|
---|
665 | //--------------------------------------------------------------------
|
---|
666 |
|
---|
667 | // trims a key after each operation
|
---|
668 | inline void Identifier::trim() {
|
---|
669 | key[array_size] = ~0;
|
---|
670 | key[array_size - 1] &= GMP_MSB_MASK;
|
---|
671 | }
|
---|
672 |
|
---|
673 | // compares this key to any other
|
---|
674 | int Identifier::compareTo(const Identifier& compKey) const {
|
---|
675 |
|
---|
676 | if( compKey.isUnspec == false && isUnspec == false )
|
---|
677 | return mpn_cmp( key, compKey.key, aSize );
|
---|
678 | else if( compKey.isUnspec == true && isUnspec == true )
|
---|
679 | return 0;
|
---|
680 | else
|
---|
681 | return -1;
|
---|
682 | }
|
---|
683 |
|
---|
684 | }} // namespace ariba, common
|
---|