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@ -275,8 +275,13 @@ namespace crypto |
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void ElGamalEncrypt (const uint8_t * key, const uint8_t * data, uint8_t * encrypted, bool zeroPadding) |
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void ElGamalEncrypt (const uint8_t * key, const uint8_t * data, uint8_t * encrypted, bool zeroPadding) |
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{ |
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{ |
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BN_CTX * ctx = BN_CTX_new (); |
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BN_CTX * ctx = BN_CTX_new (); |
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BN_CTX_start (ctx); |
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// everything, but a, because a might come from table
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BIGNUM * k = BN_CTX_get (ctx); |
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BIGNUM * y = BN_CTX_get (ctx); |
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BIGNUM * b1 = BN_CTX_get (ctx); |
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BIGNUM * b = BN_CTX_get (ctx); |
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// select random k
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// select random k
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BIGNUM * k = BN_new (); |
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#if defined(__x86_64__) |
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#if defined(__x86_64__) |
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BN_rand (k, ELGAMAL_FULL_EXPONENT_NUM_BITS, -1, 1); // full exponent for x64
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BN_rand (k, ELGAMAL_FULL_EXPONENT_NUM_BITS, -1, 1); // full exponent for x64
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#else |
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#else |
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@ -292,23 +297,18 @@ namespace crypto |
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BN_mod_exp (a, elgg, k, elgp, ctx); |
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BN_mod_exp (a, elgg, k, elgp, ctx); |
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} |
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} |
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BIGNUM * y = BN_new (); |
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// restore y from key
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BN_bin2bn (key, 256, y); |
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BN_bin2bn (key, 256, y); |
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// calculate b1
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// calculate b1
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BIGNUM * b1 = BN_new (); |
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BN_mod_exp (b1, y, k, elgp, ctx); |
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BN_mod_exp (b1, y, k, elgp, ctx); |
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BN_free (y); |
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BN_free (k); |
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// create m
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// create m
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uint8_t m[255]; |
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uint8_t m[255]; |
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m[0] = 0xFF; |
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m[0] = 0xFF; |
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memcpy (m+33, data, 222); |
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memcpy (m+33, data, 222); |
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SHA256 (m+33, 222, m+1); |
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SHA256 (m+33, 222, m+1); |
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// calculate b = b1*m mod p
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// calculate b = b1*m mod p
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BIGNUM * b = BN_new (); |
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BN_bin2bn (m, 255, b); |
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BN_bin2bn (m, 255, b); |
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BN_mod_mul (b, b1, b, elgp, ctx); |
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BN_mod_mul (b, b1, b, elgp, ctx); |
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BN_free (b1); |
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// copy a and b
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// copy a and b
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if (zeroPadding) |
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if (zeroPadding) |
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{ |
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{ |
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@ -322,8 +322,8 @@ namespace crypto |
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bn2buf (a, encrypted, 256); |
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bn2buf (a, encrypted, 256); |
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bn2buf (b, encrypted + 256, 256); |
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bn2buf (b, encrypted + 256, 256); |
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} |
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} |
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BN_free (b); |
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BN_free (a); |
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BN_free (a); |
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BN_CTX_end (ctx); |
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BN_CTX_free (ctx); |
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BN_CTX_free (ctx); |
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} |
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} |
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