0

Alright, I'll keep this plain & simple.

I'm working on a brute implementation of SHA-256 in Java, and to keep the class methods conducive to other classes in the app, I've decided to I/O the data as an array of 32-bit integers (int). Obviously, these kinds of uses rely heavily on use of bitwise operators, so how do I accomplish bitwise shifting across an array of ints, as such:

Given an array of data, suppose:

 int[16] data;

where the first 14 integers' worth of data is filled with 0x0000000, for the purposes of conversation, but the lowest two are filled respectively:

 data[14] = 0x12345678;
 data[15] = 0x01ABCDEF;

How do I accomplish a leftwise shift so that if shifted left by two,

 data[13] = 0x00000012;
 data[14] = 0x34567801;
 data[15] = 0xABCDEF00;

Anyone got any ideas?

10
  • When you shift, also OR in the correct bits from the next int. For example, data[15] = (data[15] << 2) | (data[14] >>> 30)
    – harold
    Nov 16, 2013 at 10:55
  • 1
    Perhaps use a BigInteger and create an API "to keep the class methods conducive to other classes in the app". BigInteger has methods like shiftLeft(int n) see docs.oracle.com/javase/7/docs/api/java/math/BigInteger.html
    – Ron
    Nov 16, 2013 at 10:57
  • @RonE - Is it possible to construct a BigInteger instance from a int array? The Oracle literature only supplies examples using a byte array. Does the 32- versus 8-bit nature make a difference during construction?
    – ecfedele
    Nov 16, 2013 at 11:00
  • @blasthash If you receive your data as an int[16] then write a method that converts it to a byte[64]
    – Ron
    Nov 16, 2013 at 11:03
  • Or just shift them like I said. It's not hard.
    – harold
    Nov 16, 2013 at 11:04

2 Answers 2

0

1) Write a helper method to convert your int[16] data to byte[64] bytedata.

2) Create a BigInteger using the constructor BigInteger(byte[] val)

3) Bitshift using shiftLeft(int n) and shiftRight(int n)

4) Write a helper method to convert your byte[64] bytedata back to int[16] data. See byte array to Int Array here

Other useful methods in BigInteger include clearBit(int n), setBit(int n), flipBit(int n), and testBit(int n)

-1

For bitwise shift left:

`x << n` is the same as `x *= 2^n`  

To see the overflowing bit (MSB): x / (2^32) >= 1 //Since we are using an 32 bit int


Likewise, for bitwise shift right:

`x >> n` is the same as `x /= 2^n`  

To see the overflowing bit (LSB): x % 2

Append the overflowing bit to the adjacent int by adding or subtracting set values. You should really use a BigInteger like I mentioned in my comment, anything else will require an implementation where you read and append the bits moving between array locations yourself.

3
  • Is it possible to 'downconvert' back to a int array from BigInteger? If you've read the algo, the stage I'm implementing is the padding stage, where an arbitrary number of bits are appended to the end of the value to establish the number at 512-bit. Most of the other processing in the algorithm though, is by direct relation of specific 32-bit segments in the array to constants or functions, so I'd prefer to be able to retain the ease of that capacity.
    – ecfedele
    Nov 16, 2013 at 11:08
  • I could do it by shifting right 32, then back 32 to get 32 bits truncated and divide, but that's a roundabout and inefficient method.
    – ecfedele
    Nov 16, 2013 at 11:10
  • @blasthash Yes, use toByteArray() and write a helper function to convert to an int array. Java is about layers and chaining, use modular pieces to achieve your goal.
    – Ron
    Nov 16, 2013 at 11:10

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.