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PlSnP-documentation.h
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PlSnP-documentation.h
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/*
The eXtended Keccak Code Package (XKCP)
https://github.com/XKCP/XKCP
Implementation by Gilles Van Assche and Ronny Van Keer, hereby denoted as "the implementer".
For more information, feedback or questions, please refer to the Keccak Team website:
https://keccak.team/
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/
*/
/** General information
*
* PlSnP stands for "parallel states and permutations". It is similar to SnP
* (see SnP-documentation.h), although it specifically provides functions
* to access an array of states that evolve in parallel.
*
* The following functions are not actually implemented. Their documentation
* is generic, with the prefix PlSnP replaced by
* - KeccakP1600times2 for Keccak-p[1600]×2 (i.e., two states of 1600 bits each)
* - KeccakP1600times4 for Keccak-p[1600]×4
* - KeccakP1600times8 for Keccak-p[1600]×8 (i.e., eight states of 1600 bits each)
* Functions can be replaced by macros, when appropriate.
*
* An implementation must provide each function (or macro) as listed below,
* instantiated with the suitable prefix. In addition, the implementation
* must come with a header "KeccakP-1600-times{2,4,8}-SnP.h"
* to define the following symbols (with PlSnP replaced by the appropriate prefix):
* - PlSnP_implementation: a synopsis of the implementation;
* - PlSnP_statesSizeInBytes: the number of bytes to store the states;
* - PlSnP_statesAlignment: the number of bytes of which the states' address
* must be a multiple of.
*
* An implementation may also instantiate the function PlSnP_FastLoop_Absorb(),
* in which case the header must define the symbol PlSnP_FastLoop_supported.
*
* For Keccak-p[1600]:
* - PlSnP_PermuteAll() is instantiated as
* - KeccakP1600_PermuteAll_12rounds() for Keccak-p[1600, 12] and
* - KeccakP1600_PermuteAll_24rounds() for Keccak-f[1600]=Keccak-p[1600, 24].
* - PlSnP_FastLoop_Absorb() can be instantiated as
* KeccakF1600times{2,4,8}_FastLoop_Absorb() for Keccak-f[1600].
*/
/** Function called at least once before any use of the other PlSnP_*
* functions, possibly to initialize global variables.
*/
void PlSnP_StaticInitialize( void );
/** Function to initialize the state to the logical value 0^width for all parallel state instances.
* @param states Pointer to the states to initialize.
*/
void PlSnP_InitializeAll(void *states);
/** Function to add (in GF(2), using bitwise exclusive-or) a given byte into one of the states.
* The bit positions that are affected by this function are
* from @a offset*8 to @a offset*8 + 8.
* (The bit positions, the x,y,z coordinates and their link are defined in the "Keccak reference".)
* @param states Pointer to the states.
* @param instanceIndex Index of the state instance from 0 to P-1
* if there are P parallel instances.
* @param data The input byte.
* @param offset Offset in bytes within the state.
* @pre 0 ≤ @a offset < (width in bytes)
*/
void PlSnP_AddByte(void *states, unsigned int instanceIndex, unsigned char data, unsigned int offset);
/** Function to add (in GF(2), using bitwise exclusive-or) data given as bytes into one of the states.
* The bit positions that are affected by this function are
* from @a offset*8 to @a offset*8 + @a length*8.
* (The bit positions, the x,y,z coordinates and their link are defined in the "Keccak reference".)
* @param states Pointer to the states.
* @param instanceIndex Index of the state instance from 0 to P-1
* if there are P parallel instances.
* @param data Pointer to the input data.
* @param offset Offset in bytes within the state.
* @param length Number of bytes.
* @pre 0 ≤ @a offset < (width in bytes)
* @pre 0 ≤ @a offset + @a length ≤ (width in bytes)
*/
void PlSnP_AddBytes(void *states, unsigned int instanceIndex, const unsigned char *data, unsigned int offset, unsigned int length);
/** Function to add (in GF(2), using bitwise exclusive-or) data given as bytes into all the parallel states in an interleaved fashion.
* The bits to modify are restricted to start from the bit position 0 and
* to span a whole number of lanes.
* First, @a laneCount lanes from @a data are processed in the first state instance
* and @a data advances by @a laneOffset lanes,
* then @a laneCount lanes from @a data are processed in the second state instance
* and @a data advances by @a laneOffset lanes,
* and so on.
* @param states Pointer to the states.
* @param data Pointer to the input data.
* @param laneCount The number of lanes per state, i.e., the length of the data
* divided by the lane size and by the number of parallel state instances.
* @param laneOffset The number of lanes that separate the blocks of data
* for each instance.
* @pre 0 ≤ @a laneCount ≤ SnP_laneCount
*/
void PlSnP_AddLanesAll(void *states, const unsigned char *data, unsigned int laneCount, unsigned int laneOffset);
/** Function to overwrite data given as bytes into one of the states.
* The bit positions that are affected by this function are
* from @a offset*8 to @a offset*8 + @a length*8.
* (The bit positions, the x,y,z coordinates and their link are defined in the "Keccak reference".)
* @param states Pointer to the states.
* @param instanceIndex Index of the state instance from 0 to P-1
* if there are P parallel instances.
* @param data Pointer to the input data.
* @param offset Offset in bytes within the state.
* @param length Number of bytes.
* @pre 0 ≤ @a offset < (width in bytes)
* @pre 0 ≤ @a offset + @a length ≤ (width in bytes)
*/
void PlSnP_OverwriteBytes(void *states, unsigned int instanceIndex, const unsigned char *data, unsigned int offset, unsigned int length);
/** Function to overwrite data given as bytes into all the parallel states in an interleaved fashion.
* The bits to modify are restricted to start from the bit position 0 and
* to span a whole number of lanes.
* First, @a laneCount lanes from @a data are processed in the first state instance
* and @a data advances by @a laneOffset lanes,
* then @a laneCount lanes from @a data are processed in the second state instance
* and @a data advances by @a laneOffset lanes,
* and so on.
* @param states Pointer to the states.
* @param data Pointer to the input data.
* @param laneCount The number of lanes per state, i.e., the length of the data
* divided by the lane size and by the number of parallel state instances.
* @param laneOffset The number of lanes that separate the blocks of data
* for each instance.
* @pre 0 ≤ @a laneCount ≤ SnP_laneCount
*/
void PlSnP_OverwriteLanesAll(void *states, const unsigned char *data, unsigned int laneCount, unsigned int laneOffset);
/** Function to overwrite bytes in the one of the states with zeroes.
* The bits to modify are restricted to start from the bit position 0 and
* to span a whole number of bytes.
* @param states Pointer to the states.
* @param instanceIndex Index of the state instance from 0 to P-1
* if there are P parallel instances.
* @param byteCount The number of bytes, i.e., the length of the data
* divided by 8 bits.
* @pre 0 ≤ @a byteCount ≤ (width in bytes)
*/
void PlSnP_OverwriteWithZeroes(void *states, unsigned int instanceIndex, unsigned int byteCount);
/** Function to apply the permutation on all the states in parallel.
* @param states Pointer to the states.
*/
void PlSnP_PermuteAll(void *states);
/** Function to retrieve data from one of the states into bytes.
* The bit positions that are affected by this function are
* from @a offset*8 to @a offset*8 + @a length*8.
* (The bit positions, the x,y,z coordinates and their link are defined in the "Keccak reference".)
* @param states Pointer to the states.
* @param instanceIndex Index of the state instance from 0 to P-1
* if there are P parallel instances.
* @param data Pointer to the area where to store output data.
* @param offset Offset in bytes within the state.
* @param length Number of bytes.
* @pre 0 ≤ @a offset < (width in bytes)
* @pre 0 ≤ @a offset + @a length ≤ (width in bytes)
*/
void PlSnP_ExtractBytes(const void *states, unsigned int instanceIndex, unsigned char *data, unsigned int offset, unsigned int length);
/** Function to retrieve data from all the parallel states in an interleaved fashion.
* The bits to output are restricted to start from the bit position 0 and
* to span a whole number of lanes.
* First, @a laneCount lanes from the first state instance are stored in @a data
* and @a data advances by @a laneOffset lanes,
* then, @a laneCount lanes from the second state instance are stored in @a data
* and @a data advances by @a laneOffset lanes,
* and so on.
* @param states Pointer to the states.
* @param data Pointer to the area where to store output data.
* @param laneCount The number of lanes, i.e., the length of the data
* divided by the lane size and by the number of parallel state instances.
* @param laneOffset The number of lanes that separate the blocks of data
* for each instance.
* @pre 0 ≤ @a laneCount ≤ SnP_laneCount
*/
void PlSnP_ExtractLanesAll(const void *states, unsigned char *data, unsigned int laneCount, unsigned int laneOffset);
/** Function to retrieve data from one of the states,
* to add (in GF(2), using bitwise exclusive-or) them to the input buffer,
* and to store the result in the output buffer.
* The bit positions that are affected by this function are
* from @a offset*8 to @a offset*8 + @a length*8.
* (The bit positions, the x,y,z coordinates and their link are defined in the "Keccak reference".)
* @param states Pointer to the states.
* @param instanceIndex Index of the state instance from 0 to P-1
* if there are P parallel instances.
* @param input Pointer to the input buffer.
* @param output Pointer to the output buffer.
* @param offset Offset in bytes within the state.
* @param length Number of bytes.
* @pre 0 ≤ @a offset < (width in bytes)
* @pre 0 ≤ @a offset + @a length ≤ (width in bytes)
*/
void PlSnP_ExtractAndAddBytes(const void *states, unsigned int instanceIndex, const unsigned char *input, unsigned char *output, unsigned int offset, unsigned int length);
/** Function to retrieve data from all the parallel states in an interleaved fashion
* to add (in GF(2), using bitwise exclusive-or) them to the input buffer,
* and to store the result in the output buffer.
* The bits to output are restricted to start from the bit position 0 and
* to span a whole number of lanes.
* First, @a laneCount lanes from the first state instance are added to @a input into @a output
* and @a input and @a output each advance by @a laneOffset lanes,
* then, @a laneCount lanes from the second state instance are added to @a input into @a output
* and @a input and @a output each advance by @a laneOffset lanes,
* and so on.
* @param states Pointer to the states.
* @param input Pointer to the input buffer.
* @param output Pointer to the output buffer.
* @param laneCount The number of lanes, i.e., the length of the data
* divided by the lane size and by the number of parallel state instances.
* @param laneOffset The number of lanes that separate the blocks of data
* for each instance.
* @pre 0 ≤ @a laneCount ≤ SnP_laneCount
*/
void PlSnP_ExtractAndAddLanesAll(const void *states, const unsigned char *input, unsigned char *output, unsigned int laneCount, unsigned int laneOffset);
/** Function that has the same behavior as repeatedly calling
* - PlSnP_AddLanesAll() with P blocks of @a laneCount lanes from @a data and with offset @a laneOffsetParallel;
* - PlSnP_PermuteAll() on the states @a states;
* - and advancing @a data by @a laneOffsetSerial lane sizes, until not enough data are available.
* The function returns the total offset of the @a data pointer or, equivalently,
* the number of iterations times @a laneOffsetSerial lane sizes in bytes.
* @param states Pointer to the states.
* @param laneCount The number of lanes processed each time (i.e., the block size in lanes).
* @param laneOffsetParallel The number of lanes that separate the blocks of data
* for each instance.
* @param laneOffsetSerial The number of lanes that separate the blocks of data
* between each iteration.
* @param data Pointer to the data to use as input.
* @param dataByteLen The length of the input data in bytes.
* @returns The total offset.
* @pre 0 < @a laneCount < SnP_laneCount
*/
size_t PlSnP_FastLoop_Absorb(void *states, unsigned int laneCount, unsigned int laneOffsetParallel, unsigned int laneOffsetSerial, unsigned char *data, size_t dataByteLen);