private void ProcessPartial(byte[] buf, int off, int len, byte[] output, int outOff)
{
byte[] ctrBlock = new byte[BlockSize];
GetNextCtrBlock(ctrBlock);
if (forEncryption)
{
GcmUtilities.Xor(buf, off, ctrBlock, 0, len);
gHASHPartial(S, buf, off, len);
}
else
{
gHASHPartial(S, buf, off, len);
GcmUtilities.Xor(buf, off, ctrBlock, 0, len);
}
Array.Copy(buf, off, output, outOff, len);
totalLength += (uint)len;
}
private void gHASHPartial(byte[] Y, byte[] b, int off, int len)
{
GcmUtilities.Xor(Y, b, off, len);
multiplier.MultiplyH(Y);
}
private void gHASHBlock(byte[] Y, byte[] b, int off)
{
GcmUtilities.Xor(Y, b, off);
multiplier.MultiplyH(Y);
}
public int DoFinal(byte[] output, int outOff)
{
CheckStatus();
if (totalLength == 0)
{
InitCipher();
}
int extra = bufOff;
if (forEncryption)
{
Check.OutputLength(output, outOff, extra + macSize, "Output buffer too short");
}
else
{
if (extra < macSize)
{
throw new InvalidCipherTextException("data too short");
}
extra -= macSize;
Check.OutputLength(output, outOff, extra, "Output buffer too short");
}
if (extra > 0)
{
ProcessPartial(bufBlock, 0, extra, output, outOff);
}
atLength += (uint)atBlockPos;
if (atLength > atLengthPre)
{
/*
* Some AAD was sent after the cipher started. We determine the difference b/w the hash value
* we actually used when the cipher started (S_atPre) and the final hash value calculated (S_at).
* Then we carry this difference forward by multiplying by H^c, where c is the number of (full or
* partial) cipher-text blocks produced, and adjust the current hash.
*/
// Finish hash for partial AAD block
if (atBlockPos > 0)
{
gHASHPartial(S_at, atBlock, 0, atBlockPos);
}
// Find the difference between the AAD hashes
if (atLengthPre > 0)
{
GcmUtilities.Xor(S_at, S_atPre);
}
// Number of cipher-text blocks produced
long c = (long)(((totalLength * 8) + 127) >> 7);
// Calculate the adjustment factor
byte[] H_c = new byte[16];
if (exp == null)
{
exp = new BasicGcmExponentiator();
exp.Init(H);
}
exp.ExponentiateX(c, H_c);
// Carry the difference forward
GcmUtilities.Multiply(S_at, H_c);
// Adjust the current hash
GcmUtilities.Xor(S, S_at);
}
// Final gHASH
byte[] X = new byte[BlockSize];
Pack.UInt64_To_BE(atLength * 8UL, X, 0);
Pack.UInt64_To_BE(totalLength * 8UL, X, 8);
gHASHBlock(S, X);
// T = MSBt(GCTRk(J0,S))
byte[] tag = new byte[BlockSize];
cipher.ProcessBlock(J0, 0, tag, 0);
GcmUtilities.Xor(tag, S);
int resultLen = extra;
// We place into macBlock our calculated value for T
this.macBlock = new byte[macSize];
Array.Copy(tag, 0, macBlock, 0, macSize);
if (forEncryption)
{
// Append T to the message
Array.Copy(macBlock, 0, output, outOff + bufOff, macSize);
resultLen += macSize;
}
else
{
// Retrieve the T value from the message and compare to calculated one
byte[] msgMac = new byte[macSize];
Array.Copy(bufBlock, extra, msgMac, 0, macSize);
if (!Arrays.ConstantTimeAreEqual(this.macBlock, msgMac))
{
throw new InvalidCipherTextException("mac check in GCM failed");
}
}
Reset(false);
return(resultLen);
}