Staging
v0.8.1
v0.8.1
https://github.com/python/cpython
Tip revision: 8e9afaf8226b62a18080d69533a41159c70193cb authored by Pablo Galindo on 05 October 2020, 17:24:54 UTC
Python 3.10.0a1
Python 3.10.0a1
Tip revision: 8e9afaf
SnP-Relaned.h
/*
Implementation by the Keccak, Keyak and Ketje Teams, namely, Guido Bertoni,
Joan Daemen, Michaƫl Peeters, Gilles Van Assche and Ronny Van Keer, hereby
denoted as "the implementer".
For more information, feedback or questions, please refer to our websites:
http://keccak.noekeon.org/
http://keyak.noekeon.org/
http://ketje.noekeon.org/
To the extent possible under law, the implementer has waived all copyright
and related or neighboring rights to the source code in this file.
http://creativecommons.org/publicdomain/zero/1.0/
*/
#ifndef _SnP_Relaned_h_
#define _SnP_Relaned_h_
#define SnP_AddBytes(state, data, offset, length, SnP_AddLanes, SnP_AddBytesInLane, SnP_laneLengthInBytes) \
{ \
if ((offset) == 0) { \
SnP_AddLanes(state, data, (length)/SnP_laneLengthInBytes); \
SnP_AddBytesInLane(state, \
(length)/SnP_laneLengthInBytes, \
(data)+((length)/SnP_laneLengthInBytes)*SnP_laneLengthInBytes, \
0, \
(length)%SnP_laneLengthInBytes); \
} \
else { \
unsigned int _sizeLeft = (length); \
unsigned int _lanePosition = (offset)/SnP_laneLengthInBytes; \
unsigned int _offsetInLane = (offset)%SnP_laneLengthInBytes; \
const unsigned char *_curData = (data); \
while(_sizeLeft > 0) { \
unsigned int _bytesInLane = SnP_laneLengthInBytes - _offsetInLane; \
if (_bytesInLane > _sizeLeft) \
_bytesInLane = _sizeLeft; \
SnP_AddBytesInLane(state, _lanePosition, _curData, _offsetInLane, _bytesInLane); \
_sizeLeft -= _bytesInLane; \
_lanePosition++; \
_offsetInLane = 0; \
_curData += _bytesInLane; \
} \
} \
}
#define SnP_OverwriteBytes(state, data, offset, length, SnP_OverwriteLanes, SnP_OverwriteBytesInLane, SnP_laneLengthInBytes) \
{ \
if ((offset) == 0) { \
SnP_OverwriteLanes(state, data, (length)/SnP_laneLengthInBytes); \
SnP_OverwriteBytesInLane(state, \
(length)/SnP_laneLengthInBytes, \
(data)+((length)/SnP_laneLengthInBytes)*SnP_laneLengthInBytes, \
0, \
(length)%SnP_laneLengthInBytes); \
} \
else { \
unsigned int _sizeLeft = (length); \
unsigned int _lanePosition = (offset)/SnP_laneLengthInBytes; \
unsigned int _offsetInLane = (offset)%SnP_laneLengthInBytes; \
const unsigned char *_curData = (data); \
while(_sizeLeft > 0) { \
unsigned int _bytesInLane = SnP_laneLengthInBytes - _offsetInLane; \
if (_bytesInLane > _sizeLeft) \
_bytesInLane = _sizeLeft; \
SnP_OverwriteBytesInLane(state, _lanePosition, _curData, _offsetInLane, _bytesInLane); \
_sizeLeft -= _bytesInLane; \
_lanePosition++; \
_offsetInLane = 0; \
_curData += _bytesInLane; \
} \
} \
}
#define SnP_ExtractBytes(state, data, offset, length, SnP_ExtractLanes, SnP_ExtractBytesInLane, SnP_laneLengthInBytes) \
{ \
if ((offset) == 0) { \
SnP_ExtractLanes(state, data, (length)/SnP_laneLengthInBytes); \
SnP_ExtractBytesInLane(state, \
(length)/SnP_laneLengthInBytes, \
(data)+((length)/SnP_laneLengthInBytes)*SnP_laneLengthInBytes, \
0, \
(length)%SnP_laneLengthInBytes); \
} \
else { \
unsigned int _sizeLeft = (length); \
unsigned int _lanePosition = (offset)/SnP_laneLengthInBytes; \
unsigned int _offsetInLane = (offset)%SnP_laneLengthInBytes; \
unsigned char *_curData = (data); \
while(_sizeLeft > 0) { \
unsigned int _bytesInLane = SnP_laneLengthInBytes - _offsetInLane; \
if (_bytesInLane > _sizeLeft) \
_bytesInLane = _sizeLeft; \
SnP_ExtractBytesInLane(state, _lanePosition, _curData, _offsetInLane, _bytesInLane); \
_sizeLeft -= _bytesInLane; \
_lanePosition++; \
_offsetInLane = 0; \
_curData += _bytesInLane; \
} \
} \
}
#define SnP_ExtractAndAddBytes(state, input, output, offset, length, SnP_ExtractAndAddLanes, SnP_ExtractAndAddBytesInLane, SnP_laneLengthInBytes) \
{ \
if ((offset) == 0) { \
SnP_ExtractAndAddLanes(state, input, output, (length)/SnP_laneLengthInBytes); \
SnP_ExtractAndAddBytesInLane(state, \
(length)/SnP_laneLengthInBytes, \
(input)+((length)/SnP_laneLengthInBytes)*SnP_laneLengthInBytes, \
(output)+((length)/SnP_laneLengthInBytes)*SnP_laneLengthInBytes, \
0, \
(length)%SnP_laneLengthInBytes); \
} \
else { \
unsigned int _sizeLeft = (length); \
unsigned int _lanePosition = (offset)/SnP_laneLengthInBytes; \
unsigned int _offsetInLane = (offset)%SnP_laneLengthInBytes; \
const unsigned char *_curInput = (input); \
unsigned char *_curOutput = (output); \
while(_sizeLeft > 0) { \
unsigned int _bytesInLane = SnP_laneLengthInBytes - _offsetInLane; \
if (_bytesInLane > _sizeLeft) \
_bytesInLane = _sizeLeft; \
SnP_ExtractAndAddBytesInLane(state, _lanePosition, _curInput, _curOutput, _offsetInLane, _bytesInLane); \
_sizeLeft -= _bytesInLane; \
_lanePosition++; \
_offsetInLane = 0; \
_curInput += _bytesInLane; \
_curOutput += _bytesInLane; \
} \
} \
}
#endif
