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I want a C++ version of the following Java code.

BigInteger x = new BigInteger("00afd72b5835ad22ea5d68279ffac0b6527c1ab0fb31f1e646f728d75cbd3ae65d", 16);
BigInteger y = x.multiply(BigInteger.valueOf(-1));

//prints y = ff5028d4a7ca52dd15a297d860053f49ad83e54f04ce0e19b908d728a342c519a3
System.out.println("y = " + new String(Hex.encode(y.toByteArray())));

And here is my attempt at a solution.

BIGNUM* x = BN_new();
BN_CTX* ctx = BN_CTX_new();
std::vector<unsigned char> xBytes = hexStringToBytes(“00afd72b5835ad22ea5d68279ffac0b6527c1ab0fb31f1e646f728d75cbd3ae65d");
BN_bin2bn(&xBytes[0], xBytes.size(), x);

BIGNUM* negative1 = BN_new();
std::vector<unsigned char> negative1Bytes = hexStringToBytes("ff");
BN_bin2bn(&negative1Bytes[0], negative1Bytes.size(), negative1);

BIGNUM* y = BN_new();
BN_mul(y, x, negative1, ctx);

char* yHex = BN_bn2hex(y);
std::string yStr(yHex);
//prints y = AF27542CDD7775C7730ABF785AC5F59C299E964A36BFF460B031AE85607DAB76A3
std::cout <<"y = " << yStr << std::endl;

(Ignored the case.) What am I doing wrong? How do I get my C++ code to output the correct value "ff5028d4a7ca52dd15a297d860053f49ad83e54f04ce0e19b908d728a342c519a3". I also tried setting negative1 by doing BN_set_word(negative1, -1), but that gives me the wrong answer too.

  • 1
    You have a weird quote mark in hexStringToBytes(“00 ... hopefully that is a copy-paste error rather than actually in your source file – M.M Jul 19 '14 at 6:10
  • 1
    have you tried BN_set_negative ? – M.M Jul 19 '14 at 6:14
  • Hmm. That doesn't seem to work either. would just get "-AFD72B5835AD22EA5D68279FFAC0B6527C1AB0FB31F1E646F728D75CBD3AE65D" – user299648 Jul 19 '14 at 6:59
  • 1
    well the negative of afd... is -afd... – M.M Jul 19 '14 at 7:43
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    Maybe add the tag "java" - I am understanding your requirements by reading online documentation for BigInteger; possibly I have misread the documentation someone more experienced in Java may be able to clarify – M.M Jul 21 '14 at 5:42
4
+100

The BN_set_negative function sets a negative number.

The negative of afd72b5835ad22ea5d68279ffac0b6527c1ab0fb31f1e646f728d75cbd3ae65d is actually -afd72b5835ad22ea5d68279ffac0b6527c1ab0fb31f1e646f728d75cbd3ae65d , in the same way as -2 is the negative of 2.

ff5028d4a7ca52dd15a297d860053f49ad83e54f04ce0e19b908d728a342c519a3 is a large positive number.

The reason you are seeing this number in Java is due to the toByteArray call . According to its documentation, it selects the minimum field width which is a whole number of bytes, and also capable of holding a two's complement representation of the negative number.

In other words, by using the toByteArray function on a number that current has 1 sign bit and 256 value bits, you end up with a field width of 264 bits. However if your negative number's first nibble were 7 for example, rather than a, then (according to this documentation - I haven't actually tried it) you would get a 256-bit field width out (i.e. 8028d4..., not ff8028d4.

The leading 00 you have used in your code is insignificant in OpenSSL BN. I'm not sure if it is significant in BigInteger although the documentation for that constructor says "The String representation consists of an optional minus or plus sign followed by a sequence of one or more digits in the specified radix. "; so the fact that it accepts a minus sign suggests that if the minus sign is not present then the input is treated as a large positive number, even if its MSB is set. (Hopefully a Java programmer can clear this paragraph up for me).

Make sure you keep clear in your mind the distinction between a large negative value, and a large positive number obtained by modular arithmetic on that negative value, such as is the output of toByteArray.


So your question is really: does Openssl BN have a function that emulates the behaviour of BigInteger.toByteArray() ?

I don't know if such a function exists (the BN library has fairly bad documentation IMHO, and I've never heard of it being used outside of OpenSSL, especially not in a C++ program). I would expect it doesn't, since toByteArray's behaviour is kind of weird; and in any case, all of the BN output functions appear to output using a sign-magnitude format, rather than a two's complement format.

But to replicate that output, you could add either 2^256 or 2^264 to the large negative number , and then do BN_bn2hex . In this particular case, add 2^264, In general you would have to measure the current bit-length of the number being stored and round the exponent up to the nearest multiple of 8.

Or you could even output in sign-magnitude format (using BN_bn2hex or BN_bn2mpi) and then iterate through inverting each nibble and fixing up the start!

NB. Is there any particular reason you want to use OpenSSL BN? There are many alternatives.

  • BN_bn2mpi outputs in sign-magnitude format (it just sets up the start and then calls BN_bn2bin) – M.M Jul 25 '14 at 1:46
  • THe docs are terrible, I had to look in the source code to find out what actually happens – M.M Jul 25 '14 at 1:52

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