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Poly1305
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KEY_LENGTH: int
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RS_LENGTH: int
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BLOCK_LENGTH: int
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TAG_LENGTH: int
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ipl1305: IntegerFieldModuloP
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keyBytes: byte[]
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block: byte[]
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blockOffset: int
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r: IntegerModuloP
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s: IntegerModuloP
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a: MutableIntegerModuloP
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n: MutableIntegerModuloP
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Poly1305(): void
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engineInit(Key, AlgorithmParameterSpec): void
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engineGetMacLength(): int
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engineReset(): void
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engineUpdate(ByteBuffer): void
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engineUpdate(byte[], int, int): void
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engineUpdate(byte): void
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engineDoFinal(): byte[]
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processBlock(ByteBuffer, int): void
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processBlock(byte[], int, int): void
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setRSVals(): void
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/*
* Copyright (c) 2018, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package com.sun.crypto.provider;
import java.nio.ByteBuffer;
import java.security.Key;
import java.security.InvalidKeyException;
import java.security.spec.AlgorithmParameterSpec;
import java.util.Arrays;
import java.util.Objects;
import sun.security.util.math.*;
import sun.security.util.math.intpoly.*;
This class represents the Poly1305 function defined in RFC 7539.
This function is used in the implementation of ChaCha20/Poly1305
AEAD mode.
/**
* This class represents the Poly1305 function defined in RFC 7539.
*
* This function is used in the implementation of ChaCha20/Poly1305
* AEAD mode.
*/
final class Poly1305 {
private static final int KEY_LENGTH = 32;
private static final int RS_LENGTH = KEY_LENGTH / 2;
private static final int BLOCK_LENGTH = 16;
private static final int TAG_LENGTH = 16;
private static final IntegerFieldModuloP ipl1305 =
new IntegerPolynomial1305();
private byte[] keyBytes;
private final byte[] block = new byte[BLOCK_LENGTH];
private int blockOffset;
private IntegerModuloP r;
private IntegerModuloP s;
private MutableIntegerModuloP a;
private final MutableIntegerModuloP n = ipl1305.get1().mutable();
Poly1305() { }
Initialize the Poly1305 object
Params: - newKey – the
Key which will be used for the authentication. - params – this parameter is unused.
Throws: - InvalidKeyException – if
newKey is null or is not 32 bytes in length.
/**
* Initialize the Poly1305 object
*
* @param newKey the {@code Key} which will be used for the authentication.
* @param params this parameter is unused.
*
* @throws InvalidKeyException if {@code newKey} is {@code null} or is
* not 32 bytes in length.
*/
void engineInit(Key newKey, AlgorithmParameterSpec params)
throws InvalidKeyException {
Objects.requireNonNull(newKey, "Null key provided during init");
keyBytes = newKey.getEncoded();
if (keyBytes == null) {
throw new InvalidKeyException("Key does not support encoding");
} else if (keyBytes.length != KEY_LENGTH) {
throw new InvalidKeyException("Incorrect length for key: " +
keyBytes.length);
}
engineReset();
setRSVals();
}
Returns the length of the MAC (authentication tag).
Returns: the length of the auth tag, which is always 16 bytes.
/**
* Returns the length of the MAC (authentication tag).
*
* @return the length of the auth tag, which is always 16 bytes.
*/
int engineGetMacLength() {
return TAG_LENGTH;
}
Reset the Poly1305 object, discarding any current operation but
maintaining the same key.
/**
* Reset the Poly1305 object, discarding any current operation but
* maintaining the same key.
*/
void engineReset() {
// Clear the block and reset the offset
Arrays.fill(block, (byte)0);
blockOffset = 0;
// Discard any previous accumulator and start at zero
a = ipl1305.get0().mutable();
}
Update the MAC with bytes from a ByteBuffer Params: - buf – the
ByteBuffer containing the data to be consumed. Upon return the buffer's position will be equal to its limit.
/**
* Update the MAC with bytes from a {@code ByteBuffer}
*
* @param buf the {@code ByteBuffer} containing the data to be consumed.
* Upon return the buffer's position will be equal to its limit.
*/
void engineUpdate(ByteBuffer buf) {
int remaining = buf.remaining();
while (remaining > 0) {
int bytesToWrite = Integer.min(remaining,
BLOCK_LENGTH - blockOffset);
if (bytesToWrite >= BLOCK_LENGTH) {
// If bytes to write == BLOCK_LENGTH, then we have no
// left-over data from previous updates and we can create
// the IntegerModuloP directly from the input buffer.
processBlock(buf, bytesToWrite);
} else {
// We have some left-over data from previous updates, so
// copy that into the holding block until we get a full block.
buf.get(block, blockOffset, bytesToWrite);
blockOffset += bytesToWrite;
if (blockOffset >= BLOCK_LENGTH) {
processBlock(block, 0, BLOCK_LENGTH);
blockOffset = 0;
}
}
remaining -= bytesToWrite;
}
}
Update the MAC with bytes from an array.
Params: - input – the input bytes.
- offset – the starting index from which to update the MAC.
- len – the number of bytes to process.
/**
* Update the MAC with bytes from an array.
*
* @param input the input bytes.
* @param offset the starting index from which to update the MAC.
* @param len the number of bytes to process.
*/
void engineUpdate(byte[] input, int offset, int len) {
Objects.checkFromIndexSize(offset, len, input.length);
if (blockOffset > 0) {
// We have some left-over data from previous updates
int blockSpaceLeft = BLOCK_LENGTH - blockOffset;
if (len < blockSpaceLeft) {
System.arraycopy(input, offset, block, blockOffset, len);
blockOffset += len;
return; // block wasn't filled
} else {
System.arraycopy(input, offset, block, blockOffset,
blockSpaceLeft);
offset += blockSpaceLeft;
len -= blockSpaceLeft;
processBlock(block, 0, BLOCK_LENGTH);
blockOffset = 0;
}
}
while (len >= BLOCK_LENGTH) {
processBlock(input, offset, BLOCK_LENGTH);
offset += BLOCK_LENGTH;
len -= BLOCK_LENGTH;
}
if (len > 0) { // and len < BLOCK_LENGTH
System.arraycopy(input, offset, block, 0, len);
blockOffset = len;
}
}
Update the MAC with a single byte of input
Params: - input – the byte to update the MAC with.
/**
* Update the MAC with a single byte of input
*
* @param input the byte to update the MAC with.
*/
void engineUpdate(byte input) {
assert (blockOffset < BLOCK_LENGTH);
// we can't hold fully filled unprocessed block
block[blockOffset++] = input;
if (blockOffset == BLOCK_LENGTH) {
processBlock(block, 0, BLOCK_LENGTH);
blockOffset = 0;
}
}
Finish the authentication operation and reset the MAC for a new
authentication operation.
Returns: the authentication tag as a byte array.
/**
* Finish the authentication operation and reset the MAC for a new
* authentication operation.
*
* @return the authentication tag as a byte array.
*/
byte[] engineDoFinal() {
byte[] tag = new byte[BLOCK_LENGTH];
// Finish up: process any remaining data < BLOCK_SIZE, then
// create the tag from the resulting little-endian integer.
if (blockOffset > 0) {
processBlock(block, 0, blockOffset);
blockOffset = 0;
}
// Add in the s-half of the key to the accumulator
a.addModPowerTwo(s, tag);
// Reset for the next auth
engineReset();
return tag;
}
Process a single block of data. This should only be called
when the block array is complete. That may not necessarily
be a full 16 bytes if the last block has less than 16 bytes.
/**
* Process a single block of data. This should only be called
* when the block array is complete. That may not necessarily
* be a full 16 bytes if the last block has less than 16 bytes.
*/
private void processBlock(ByteBuffer buf, int len) {
n.setValue(buf, len, (byte)0x01);
a.setSum(n); // a += (n | 0x01)
a.setProduct(r); // a = (a * r) % p
}
private void processBlock(byte[] block, int offset, int length) {
Objects.checkFromIndexSize(offset, length, block.length);
n.setValue(block, offset, length, (byte)0x01);
a.setSum(n); // a += (n | 0x01)
a.setProduct(r); // a = (a * r) % p
}
Partition the authentication key into the R and S components, clamp
the R value, and instantiate IntegerModuloP objects to R and S's
numeric values.
/**
* Partition the authentication key into the R and S components, clamp
* the R value, and instantiate IntegerModuloP objects to R and S's
* numeric values.
*/
private void setRSVals() {
// Clamp the bytes in the "r" half of the key.
keyBytes[3] &= 15;
keyBytes[7] &= 15;
keyBytes[11] &= 15;
keyBytes[15] &= 15;
keyBytes[4] &= 252;
keyBytes[8] &= 252;
keyBytes[12] &= 252;
// Create IntegerModuloP elements from the r and s values
r = ipl1305.getElement(keyBytes, 0, RS_LENGTH, (byte)0);
s = ipl1305.getElement(keyBytes, RS_LENGTH, RS_LENGTH, (byte)0);
}
}