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The Bouncy Castle Crypto package is a Java implementation of cryptographic algorithms. This jar contains JCE provider and lightweight API for the Bouncy Castle Cryptography APIs for JDK 1.5 to JDK 1.8. Note: this package includes the NTRU encryption algorithms.

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package org.bouncycastle.crypto.generators;

import java.math.BigInteger;

import org.bouncycastle.crypto.DataLengthException;
import org.bouncycastle.crypto.DerivationParameters;
import org.bouncycastle.crypto.Mac;
import org.bouncycastle.crypto.MacDerivationFunction;
import org.bouncycastle.crypto.params.KDFCounterParameters;
import org.bouncycastle.crypto.params.KeyParameter;

/**
 * This KDF has been defined by the publicly available NIST SP 800-108 specification.
 * NIST SP800-108 allows for alternative orderings of the input fields, meaning that the input can be formated in multiple ways.
 * There are 3 supported formats:  - Below [i]_2 is a counter of r-bits length concatenated to the fixedInputData.
 * 
    *
  • 1: K(i) := PRF( KI, [i]_2 || Label || 0x00 || Context || [L]_2 ) with the counter at the very beginning of the fixedInputData (The default implementation has this format)
  • *
  • 2: K(i) := PRF( KI, Label || 0x00 || Context || [L]_2 || [i]_2 ) with the counter at the very end of the fixedInputData
  • *
  • 3a: K(i) := PRF( KI, Label || 0x00 || [i]_2 || Context || [L]_2 ) OR:
  • *
  • 3b: K(i) := PRF( KI, Label || 0x00 || [i]_2 || [L]_2 || Context ) OR:
  • *
  • 3c: K(i) := PRF( KI, Label || [i]_2 || 0x00 || Context || [L]_2 ) etc... with the counter somewhere in the 'middle' of the fixedInputData.
  • *
* This function must be called with the following KDFCounterParameters(): *
    *
  • KI
  • *
  • The part of the fixedInputData that comes BEFORE the counter OR null
  • *
  • the part of the fixedInputData that comes AFTER the counter OR null
  • *
  • the length of the counter in bits (not bytes)
  • *
* Resulting function calls assuming an 8 bit counter. *
    *
  • 1. KDFCounterParameters(ki, null, "Label || 0x00 || Context || [L]_2]", 8);
  • *
  • 2. KDFCounterParameters(ki, "Label || 0x00 || Context || [L]_2]", null, 8);
  • *
  • 3a. KDFCounterParameters(ki, "Label || 0x00", "Context || [L]_2]", 8);
  • *
  • 3b. KDFCounterParameters(ki, "Label || 0x00", "[L]_2] || Context", 8);
  • *
  • 3c. KDFCounterParameters(ki, "Label", "0x00 || Context || [L]_2]", 8);
  • *
*/ public class KDFCounterBytesGenerator implements MacDerivationFunction { private static final BigInteger INTEGER_MAX = BigInteger.valueOf(Integer.MAX_VALUE); private static final BigInteger TWO = BigInteger.valueOf(2); // please refer to the standard for the meaning of the variable names // all field lengths are in bytes, not in bits as specified by the standard // fields set by the constructor private final Mac prf; private final int h; // fields set by init private byte[] fixedInputDataCtrPrefix; private byte[] fixedInputData_afterCtr; private int maxSizeExcl; // ios is i defined as an octet string (the binary representation) private byte[] ios; // operational private int generatedBytes; // k is used as buffer for all K(i) values private byte[] k; public KDFCounterBytesGenerator(Mac prf) { this.prf = prf; this.h = prf.getMacSize(); this.k = new byte[h]; } public void init(DerivationParameters param) { if (!(param instanceof KDFCounterParameters)) { throw new IllegalArgumentException("Wrong type of arguments given"); } KDFCounterParameters kdfParams = (KDFCounterParameters)param; // --- init mac based PRF --- this.prf.init(new KeyParameter(kdfParams.getKI())); // --- set arguments --- this.fixedInputDataCtrPrefix = kdfParams.getFixedInputDataCounterPrefix(); this.fixedInputData_afterCtr = kdfParams.getFixedInputDataCounterSuffix(); int r = kdfParams.getR(); this.ios = new byte[r / 8]; BigInteger maxSize = TWO.pow(r).multiply(BigInteger.valueOf(h)); this.maxSizeExcl = maxSize.compareTo(INTEGER_MAX) == 1 ? Integer.MAX_VALUE : maxSize.intValue(); // --- set operational state --- generatedBytes = 0; } public Mac getMac() { return prf; } public int generateBytes(byte[] out, int outOff, int len) throws DataLengthException, IllegalArgumentException { int generatedBytesAfter = generatedBytes + len; if (generatedBytesAfter < 0 || generatedBytesAfter >= maxSizeExcl) { throw new DataLengthException( "Current KDFCTR may only be used for " + maxSizeExcl + " bytes"); } if (generatedBytes % h == 0) { generateNext(); } // copy what is left in the currentT (1..hash int toGenerate = len; int posInK = generatedBytes % h; int leftInK = h - generatedBytes % h; int toCopy = Math.min(leftInK, toGenerate); System.arraycopy(k, posInK, out, outOff, toCopy); generatedBytes += toCopy; toGenerate -= toCopy; outOff += toCopy; while (toGenerate > 0) { generateNext(); toCopy = Math.min(h, toGenerate); System.arraycopy(k, 0, out, outOff, toCopy); generatedBytes += toCopy; toGenerate -= toCopy; outOff += toCopy; } return len; } private void generateNext() { int i = generatedBytes / h + 1; // encode i into counter buffer switch (ios.length) { case 4: ios[0] = (byte)(i >>> 24); // fall through case 3: ios[ios.length - 3] = (byte)(i >>> 16); // fall through case 2: ios[ios.length - 2] = (byte)(i >>> 8); // fall through case 1: ios[ios.length - 1] = (byte)i; break; default: throw new IllegalStateException("Unsupported size of counter i"); } // special case for K(0): K(0) is empty, so no update prf.update(fixedInputDataCtrPrefix, 0, fixedInputDataCtrPrefix.length); prf.update(ios, 0, ios.length); prf.update(fixedInputData_afterCtr, 0, fixedInputData_afterCtr.length); prf.doFinal(k, 0); } }




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