package org.bouncycastle.crypto.params;
import org.bouncycastle.crypto.DerivationParameters;
import org.bouncycastle.util.Arrays;
/**
* 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.
* <ul>
* <li>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)</li>
* <li>2: K(i) := PRF( KI, Label || 0x00 || Context || [L]_2 || [i]_2 ) with the counter at the very end of the fixedInputData</li>
* <li>3a: K(i) := PRF( KI, Label || 0x00 || [i]_2 || Context || [L]_2 ) OR:</li>
* <li>3b: K(i) := PRF( KI, Label || 0x00 || [i]_2 || [L]_2 || Context ) OR:</li>
* <li>3c: K(i) := PRF( KI, Label || [i]_2 || 0x00 || Context || [L]_2 ) etc... with the counter somewhere in the 'middle' of the fixedInputData.</li>
* </ul>
* <p>
* This function must be called with the following KDFCounterParameters():
* - KI <br/>
* - The part of the fixedInputData that comes BEFORE the counter OR null <br/>
* - the part of the fixedInputData that comes AFTER the counter OR null <br/>
* - the length of the counter in bits (not bytes) <br/>
* </p>
* Resulting function calls assuming an 8 bit counter.
* <ul>
* <li>1. KDFCounterParameters(ki, null, "Label || 0x00 || Context || [L]_2]", 8); </li>
* <li>2. KDFCounterParameters(ki, "Label || 0x00 || Context || [L]_2]", null, 8); </li>
* <li>3a. KDFCounterParameters(ki, "Label || 0x00", "Context || [L]_2]", 8); </li>
* <li>3b. KDFCounterParameters(ki, "Label || 0x00", "[L]_2] || Context", 8);</li>
* <li>3c. KDFCounterParameters(ki, "Label", "0x00 || Context || [L]_2]", 8); </li>
* </ul>
*/
public final class KDFCounterParameters
implements DerivationParameters
{
private byte[] ki;
private byte[] fixedInputDataCounterPrefix;
private byte[] fixedInputDataCounterSuffix;
private int r;
/**
* Base constructor - suffix fixed input data only.
*
* @param ki the KDF seed
* @param fixedInputDataCounterSuffix fixed input data to follow counter.
* @param r length of the counter in bits.
*/
public KDFCounterParameters(byte[] ki, byte[] fixedInputDataCounterSuffix, int r)
{
this(ki, null, fixedInputDataCounterSuffix, r);
}
/**
* Base constructor - prefix and suffix fixed input data.
*
* @param ki the KDF seed
* @param fixedInputDataCounterPrefix fixed input data to precede counter
* @param fixedInputDataCounterSuffix fixed input data to follow counter.
* @param r length of the counter in bits.
*/
public KDFCounterParameters(byte[] ki, byte[] fixedInputDataCounterPrefix, byte[] fixedInputDataCounterSuffix, int r)
{
if (ki == null)
{
throw new IllegalArgumentException("A KDF requires Ki (a seed) as input");
}
this.ki = Arrays.clone(ki);
if (fixedInputDataCounterPrefix == null)
{
this.fixedInputDataCounterPrefix = new byte[0];
}
else
{
this.fixedInputDataCounterPrefix = Arrays.clone(fixedInputDataCounterPrefix);
}
if (fixedInputDataCounterSuffix == null)
{
this.fixedInputDataCounterSuffix = new byte[0];
}
else
{
this.fixedInputDataCounterSuffix = Arrays.clone(fixedInputDataCounterSuffix);
}
if (r != 8 && r != 16 && r != 24 && r != 32)
{
throw new IllegalArgumentException("Length of counter should be 8, 16, 24 or 32");
}
this.r = r;
}
public byte[] getKI()
{
return ki;
}
public byte[] getFixedInputData()
{
//Retained for backwards compatibility
return Arrays.clone(fixedInputDataCounterSuffix);
}
public byte[] getFixedInputDataCounterPrefix()
{
return Arrays.clone(fixedInputDataCounterPrefix);
}
public byte[] getFixedInputDataCounterSuffix()
{
return Arrays.clone(fixedInputDataCounterSuffix);
}
public int getR()
{
return r;
}
}