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/*
The Keccak sponge function, designed by Guido Bertoni, Joan Daemen,
Michaƫl Peeters and Gilles Van Assche. For more information, feedback or
questions, please refer to our website: http://keccak.noekeon.org/

Implementation by the designers,
hereby denoted as "the implementer".

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/
*/

#include <string.h>
#include "brg_endian.h"
#include "KeccakF-1600-opt32-settings.h"
#include "KeccakF-1600-interface.h"

typedef unsigned char UINT8;
typedef unsigned short UINT16;
typedef unsigned int UINT32;
typedef unsigned long long int UINT64;

#ifdef UseInterleaveTables
int interleaveTablesBuilt = 0;
UINT16 interleaveTable[65536];
UINT16 deinterleaveTable[65536];

void buildInterleaveTables()
{
    UINT32 i, j;
    UINT16 x;

    if (!interleaveTablesBuilt) {
        for(i=0; i<65536; i++) {
            x = 0;
            for(j=0; j<16; j++) {
                if (i & (1 << j))
                    x |= (1 << (j/2 + 8*(j%2)));
            }
            interleaveTable[i] = x;
            deinterleaveTable[x] = (UINT16)i;
        }
        interleaveTablesBuilt = 1;
    }
}

#if (PLATFORM_BYTE_ORDER == IS_LITTLE_ENDIAN)

#define xor2bytesIntoInterleavedWords(even, odd, source, j) \
    i##j = interleaveTable[((const UINT16*)source)[j]]; \
    ((UINT8*)even)[j] ^= i##j & 0xFF; \
    ((UINT8*)odd)[j] ^= i##j >> 8;

#define setInterleavedWordsInto2bytes(dest, even, odd, j) \
    d##j = deinterleaveTable[((even >> (j*8)) & 0xFF) ^ (((odd >> (j*8)) & 0xFF) << 8)]; \
    ((UINT16*)dest)[j] = d##j;

#else // (PLATFORM_BYTE_ORDER == IS_BIG_ENDIAN)

#define xor2bytesIntoInterleavedWords(even, odd, source, j) \
    i##j = interleaveTable[source[2*j] ^ ((UINT16)source[2*j+1] << 8)]; \
    *even ^= (i##j & 0xFF) << (j*8); \
    *odd ^= ((i##j >> 8) & 0xFF) << (j*8);

#define setInterleavedWordsInto2bytes(dest, even, odd, j) \
    d##j = deinterleaveTable[((even >> (j*8)) & 0xFF) ^ (((odd >> (j*8)) & 0xFF) << 8)]; \
    dest[2*j] = d##j & 0xFF; \
    dest[2*j+1] = d##j >> 8;

#endif // Endianness

void xor8bytesIntoInterleavedWords(UINT32 *even, UINT32 *odd, const UINT8* source)
{
    UINT16 i0, i1, i2, i3;

    xor2bytesIntoInterleavedWords(even, odd, source, 0)
    xor2bytesIntoInterleavedWords(even, odd, source, 1)
    xor2bytesIntoInterleavedWords(even, odd, source, 2)
    xor2bytesIntoInterleavedWords(even, odd, source, 3)
}

#define xorLanesIntoState(laneCount, state, input) \
    { \
        int i; \
        for(i=0; i<(laneCount); i++) \
            xor8bytesIntoInterleavedWords(state+i*2, state+i*2+1, input+i*8); \
    }

void setInterleavedWordsInto8bytes(UINT8* dest, UINT32 even, UINT32 odd)
{
    UINT16 d0, d1, d2, d3;

    setInterleavedWordsInto2bytes(dest, even, odd, 0)
    setInterleavedWordsInto2bytes(dest, even, odd, 1)
    setInterleavedWordsInto2bytes(dest, even, odd, 2)
    setInterleavedWordsInto2bytes(dest, even, odd, 3)
}

#define extractLanes(laneCount, state, data) \
    { \
        int i; \
        for(i=0; i<(laneCount); i++) \
            setInterleavedWordsInto8bytes(data+i*8, ((UINT32*)state)[i*2], ((UINT32*)state)[i*2+1]); \
    }

#else // No interleaving tables

#if (PLATFORM_BYTE_ORDER == IS_LITTLE_ENDIAN)

// Credit: Henry S. Warren, Hacker's Delight, Addison-Wesley, 2002
#define xorInterleavedLE(rateInLanes, state, input) \
	{ \
		const UINT32 * pI = (const UINT32 *)input; \
		UINT32 * pS = state; \
		UINT32 t, x0, x1; \
	    int i; \
	    for (i = (rateInLanes)-1; i >= 0; --i) \
		{ \
			x0 = *(pI++); \
			t = (x0 ^ (x0 >>  1)) & 0x22222222UL;  x0 = x0 ^ t ^ (t <<  1); \
			t = (x0 ^ (x0 >>  2)) & 0x0C0C0C0CUL;  x0 = x0 ^ t ^ (t <<  2); \
			t = (x0 ^ (x0 >>  4)) & 0x00F000F0UL;  x0 = x0 ^ t ^ (t <<  4); \
			t = (x0 ^ (x0 >>  8)) & 0x0000FF00UL;  x0 = x0 ^ t ^ (t <<  8); \
 			x1 = *(pI++); \
			t = (x1 ^ (x1 >>  1)) & 0x22222222UL;  x1 = x1 ^ t ^ (t <<  1); \
			t = (x1 ^ (x1 >>  2)) & 0x0C0C0C0CUL;  x1 = x1 ^ t ^ (t <<  2); \
			t = (x1 ^ (x1 >>  4)) & 0x00F000F0UL;  x1 = x1 ^ t ^ (t <<  4); \
			t = (x1 ^ (x1 >>  8)) & 0x0000FF00UL;  x1 = x1 ^ t ^ (t <<  8); \
			*(pS++) ^= (UINT16)x0 | (x1 << 16); \
			*(pS++) ^= (x0 >> 16) | (x1 & 0xFFFF0000); \
		} \
	}

#define xorLanesIntoState(laneCount, state, input) \
    xorInterleavedLE(laneCount, state, input)

#else // (PLATFORM_BYTE_ORDER == IS_BIG_ENDIAN)

// Credit: Henry S. Warren, Hacker's Delight, Addison-Wesley, 2002
UINT64 toInterleaving(UINT64 x) 
{
   UINT64 t;

   t = (x ^ (x >>  1)) & 0x2222222222222222ULL;  x = x ^ t ^ (t <<  1);
   t = (x ^ (x >>  2)) & 0x0C0C0C0C0C0C0C0CULL;  x = x ^ t ^ (t <<  2);
   t = (x ^ (x >>  4)) & 0x00F000F000F000F0ULL;  x = x ^ t ^ (t <<  4);
   t = (x ^ (x >>  8)) & 0x0000FF000000FF00ULL;  x = x ^ t ^ (t <<  8);
   t = (x ^ (x >> 16)) & 0x00000000FFFF0000ULL;  x = x ^ t ^ (t << 16);

   return x;
}

void xor8bytesIntoInterleavedWords(UINT32* evenAndOdd, const UINT8* source)
{
    // This can be optimized
    UINT64 sourceWord =
        (UINT64)source[0]
        ^ (((UINT64)source[1]) <<  8)
        ^ (((UINT64)source[2]) << 16)
        ^ (((UINT64)source[3]) << 24)
        ^ (((UINT64)source[4]) << 32)
        ^ (((UINT64)source[5]) << 40)
        ^ (((UINT64)source[6]) << 48)
        ^ (((UINT64)source[7]) << 56);
    UINT64 evenAndOddWord = toInterleaving(sourceWord);
    evenAndOdd[0] ^= (UINT32)evenAndOddWord;
    evenAndOdd[1] ^= (UINT32)(evenAndOddWord >> 32);
}

#define xorLanesIntoState(laneCount, state, input) \
    { \
        int i; \
        for(i=0; i<(laneCount); i++) \
            xor8bytesIntoInterleavedWords(state+i*2, input+i*8); \
    }

#endif // Endianness

// Credit: Henry S. Warren, Hacker's Delight, Addison-Wesley, 2002
UINT64 fromInterleaving(UINT64 x)
{
   UINT64 t;

   t = (x ^ (x >> 16)) & 0x00000000FFFF0000ULL;  x = x ^ t ^ (t << 16);
   t = (x ^ (x >>  8)) & 0x0000FF000000FF00ULL;  x = x ^ t ^ (t <<  8);
   t = (x ^ (x >>  4)) & 0x00F000F000F000F0ULL;  x = x ^ t ^ (t <<  4);
   t = (x ^ (x >>  2)) & 0x0C0C0C0C0C0C0C0CULL;  x = x ^ t ^ (t <<  2);
   t = (x ^ (x >>  1)) & 0x2222222222222222ULL;  x = x ^ t ^ (t <<  1);

   return x;
}

void setInterleavedWordsInto8bytes(UINT8* dest, UINT32* evenAndOdd)
{
#if (PLATFORM_BYTE_ORDER == IS_LITTLE_ENDIAN)
    ((UINT64*)dest)[0] = fromInterleaving(*(UINT64*)evenAndOdd);
#else // (PLATFORM_BYTE_ORDER == IS_BIG_ENDIAN)
    // This can be optimized
    UINT64 evenAndOddWord = (UINT64)evenAndOdd[0] ^ ((UINT64)evenAndOdd[1] << 32);
    UINT64 destWord = fromInterleaving(evenAndOddWord);
    dest[0] = destWord & 0xFF;
    dest[1] = (destWord >> 8) & 0xFF;
    dest[2] = (destWord >> 16) & 0xFF;
    dest[3] = (destWord >> 24) & 0xFF;
    dest[4] = (destWord >> 32) & 0xFF;
    dest[5] = (destWord >> 40) & 0xFF;
    dest[6] = (destWord >> 48) & 0xFF;
    dest[7] = (destWord >> 56) & 0xFF;
#endif // Endianness
}

#define extractLanes(laneCount, state, data) \
    { \
        int i; \
        for(i=0; i<(laneCount); i++) \
            setInterleavedWordsInto8bytes(data+i*8, (UINT32*)state+i*2); \
    }

#endif // With or without interleaving tables

#if defined(_MSC_VER)
#define ROL32(a, offset) _rotl(a, offset)
#elif (defined (__arm__) && defined(__ARMCC_VERSION))
#define ROL32(a, offset) __ror(a, 32-(offset))
#else
#define ROL32(a, offset) ((((UINT32)a) << (offset)) ^ (((UINT32)a) >> (32-(offset))))
#endif

#include "KeccakF-1600-unrolling.macros"
#include "KeccakF-1600-32.macros"

#if (UseSchedule == 3)

#ifdef UseBebigokimisa
#error "No lane complementing with schedule 3."
#endif

#if (Unrolling != 2)
#error "Only unrolling 2 is supported by schedule 3."
#endif

void KeccakPermutationOnWords(UINT32 *state)
{
    rounds
}

void KeccakPermutationOnWordsAfterXoring(UINT32 *state, const UINT8 *input, unsigned int laneCount)
{
    xorLanesIntoState(laneCount, state, input)
    rounds
}

#ifdef ProvideFast576
void KeccakPermutationOnWordsAfterXoring576bits(UINT32 *state, const UINT8 *input)
{
    xorLanesIntoState(9, state, input)
    rounds
}
#endif

#ifdef ProvideFast832
void KeccakPermutationOnWordsAfterXoring832bits(UINT32 *state, const UINT8 *input)
{
    xorLanesIntoState(13, state, input)
    rounds
}
#endif

#ifdef ProvideFast1024
void KeccakPermutationOnWordsAfterXoring1024bits(UINT32 *state, const UINT8 *input)
{
    xorLanesIntoState(16, state, input)
    rounds
}
#endif

#ifdef ProvideFast1088
void KeccakPermutationOnWordsAfterXoring1088bits(UINT32 *state, const UINT8 *input)
{
    xorLanesIntoState(17, state, input)
    rounds
}
#endif

#ifdef ProvideFast1152
void KeccakPermutationOnWordsAfterXoring1152bits(UINT32 *state, const UINT8 *input)
{
    xorLanesIntoState(18, state, input)
    rounds
}
#endif

#ifdef ProvideFast1344
void KeccakPermutationOnWordsAfterXoring1344bits(UINT32 *state, const UINT8 *input)
{
    xorLanesIntoState(21, state, input)
    rounds
}
#endif

#else // (Schedule != 3)

void KeccakPermutationOnWords(UINT32 *state)
{
    declareABCDE
#if (Unrolling != 24)
    unsigned int i;
#endif

    copyFromState(A, state)
    rounds
}

void KeccakPermutationOnWordsAfterXoring(UINT32 *state, const UINT8 *input, unsigned int laneCount)
{
    declareABCDE
    unsigned int i;

    xorLanesIntoState(laneCount, state, input)
    copyFromState(A, state)
    rounds
}

#ifdef ProvideFast576
void KeccakPermutationOnWordsAfterXoring576bits(UINT32 *state, const UINT8 *input)
{
    declareABCDE
    unsigned int i;

    xorLanesIntoState(9, state, input)
    copyFromState(A, state)
    rounds
}
#endif

#ifdef ProvideFast832
void KeccakPermutationOnWordsAfterXoring832bits(UINT32 *state, const UINT8 *input)
{
    declareABCDE
    unsigned int i;

    xorLanesIntoState(13, state, input)
    copyFromState(A, state)
    rounds
}
#endif

#ifdef ProvideFast1024
void KeccakPermutationOnWordsAfterXoring1024bits(UINT32 *state, const UINT8 *input)
{
    declareABCDE
    unsigned int i;

    xorLanesIntoState(16, state, input)
    copyFromState(A, state)
    rounds
}
#endif

#ifdef ProvideFast1088
void KeccakPermutationOnWordsAfterXoring1088bits(UINT32 *state, const UINT8 *input)
{
    declareABCDE
    unsigned int i;

    xorLanesIntoState(17, state, input)
    copyFromState(A, state)
    rounds
}
#endif

#ifdef ProvideFast1152
void KeccakPermutationOnWordsAfterXoring1152bits(UINT32 *state, const UINT8 *input)
{
    declareABCDE
    unsigned int i;

    xorLanesIntoState(18, state, input)
    copyFromState(A, state)
    rounds
}
#endif

#ifdef ProvideFast1344
void KeccakPermutationOnWordsAfterXoring1344bits(UINT32 *state, const UINT8 *input)
{
    declareABCDE
    unsigned int i;

    xorLanesIntoState(21, state, input)
    copyFromState(A, state)
    rounds
}
#endif

#endif

void KeccakInitialize()
{
#ifdef UseInterleaveTables
    buildInterleaveTables();
#endif
}

void KeccakInitializeState(unsigned char *state)
{
    memset(state, 0, 200);
#ifdef UseBebigokimisa
    ((UINT32*)state)[ 2] = ~(UINT32)0;
    ((UINT32*)state)[ 3] = ~(UINT32)0;
    ((UINT32*)state)[ 4] = ~(UINT32)0;
    ((UINT32*)state)[ 5] = ~(UINT32)0;
    ((UINT32*)state)[16] = ~(UINT32)0;
    ((UINT32*)state)[17] = ~(UINT32)0;
    ((UINT32*)state)[24] = ~(UINT32)0;
    ((UINT32*)state)[25] = ~(UINT32)0;
    ((UINT32*)state)[34] = ~(UINT32)0;
    ((UINT32*)state)[35] = ~(UINT32)0;
    ((UINT32*)state)[40] = ~(UINT32)0;
    ((UINT32*)state)[41] = ~(UINT32)0;
#endif
}

void KeccakPermutation(unsigned char *state)
{
    // We assume the state is always stored as interleaved 32-bit words
    KeccakPermutationOnWords((UINT32*)state);
}

#ifdef ProvideFast576
void KeccakAbsorb576bits(unsigned char *state, const unsigned char *data)
{
    KeccakPermutationOnWordsAfterXoring576bits((UINT32*)state, data);
}
#endif

#ifdef ProvideFast832
void KeccakAbsorb832bits(unsigned char *state, const unsigned char *data)
{
    KeccakPermutationOnWordsAfterXoring832bits((UINT32*)state, data);
}
#endif

#ifdef ProvideFast1024
void KeccakAbsorb1024bits(unsigned char *state, const unsigned char *data)
{
    KeccakPermutationOnWordsAfterXoring1024bits((UINT32*)state, data);
}
#endif

#ifdef ProvideFast1088
void KeccakAbsorb1088bits(unsigned char *state, const unsigned char *data)
{
    KeccakPermutationOnWordsAfterXoring1088bits((UINT32*)state, data);
}
#endif

#ifdef ProvideFast1152
void KeccakAbsorb1152bits(unsigned char *state, const unsigned char *data)
{
    KeccakPermutationOnWordsAfterXoring1152bits((UINT32*)state, data);
}
#endif

#ifdef ProvideFast1344
void KeccakAbsorb1344bits(unsigned char *state, const unsigned char *data)
{
    KeccakPermutationOnWordsAfterXoring1344bits((UINT32*)state, data);
}
#endif

void KeccakAbsorb(unsigned char *state, const unsigned char *data, unsigned int laneCount)
{
    KeccakPermutationOnWordsAfterXoring((UINT32*)state, data, laneCount);
}

#ifdef ProvideFast1024
void KeccakExtract1024bits(const unsigned char *state, unsigned char *data)
{
    extractLanes(16, state, data)
#ifdef UseBebigokimisa
    ((UINT32*)data)[ 2] = ~((UINT32*)data)[ 2];
    ((UINT32*)data)[ 3] = ~((UINT32*)data)[ 3];
    ((UINT32*)data)[ 4] = ~((UINT32*)data)[ 4];
    ((UINT32*)data)[ 5] = ~((UINT32*)data)[ 5];
    ((UINT32*)data)[16] = ~((UINT32*)data)[16];
    ((UINT32*)data)[17] = ~((UINT32*)data)[17];
    ((UINT32*)data)[24] = ~((UINT32*)data)[24];
    ((UINT32*)data)[25] = ~((UINT32*)data)[25];
#endif
}
#endif

void KeccakExtract(const unsigned char *state, unsigned char *data, unsigned int laneCount)
{
    extractLanes(laneCount, state, data)
#ifdef UseBebigokimisa
    if (laneCount > 1) {
        ((UINT32*)data)[ 2] = ~((UINT32*)data)[ 2];
        ((UINT32*)data)[ 3] = ~((UINT32*)data)[ 3];
        if (laneCount > 2) {
            ((UINT32*)data)[ 4] = ~((UINT32*)data)[ 4];
            ((UINT32*)data)[ 5] = ~((UINT32*)data)[ 5];
            if (laneCount > 8) {
                ((UINT32*)data)[16] = ~((UINT32*)data)[16];
                ((UINT32*)data)[17] = ~((UINT32*)data)[17];
                if (laneCount > 12) {
                    ((UINT32*)data)[24] = ~((UINT32*)data)[24];
                    ((UINT32*)data)[25] = ~((UINT32*)data)[25];
                    if (laneCount > 17) {
                        ((UINT32*)data)[34] = ~((UINT32*)data)[34];
                        ((UINT32*)data)[35] = ~((UINT32*)data)[35];
                        if (laneCount > 20) {
                            ((UINT32*)data)[40] = ~((UINT32*)data)[40];
                            ((UINT32*)data)[41] = ~((UINT32*)data)[41];
                        }
                    }
                }
            }
        }
    }
#endif
}