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#pragma once
#include "compiler.h"
#include "endian.h"
#include "ethash.h"
#include <stdio.h>
#define ENABLE_SSE 0
#if defined(_M_X64) && ENABLE_SSE
#include <smmintrin.h>
#endif
#ifdef __cplusplus
extern "C" {
#endif
// compile time settings
#define NODE_WORDS (64/4)
#define MIX_WORDS (ETHASH_MIX_BYTES/4)
#define MIX_NODES (MIX_WORDS / NODE_WORDS)
#include <stdint.h>
typedef union node {
uint8_t bytes[NODE_WORDS * 4];
uint32_t words[NODE_WORDS];
uint64_t double_words[NODE_WORDS / 2];
#if defined(_M_X64) && ENABLE_SSE
__m128i xmm[NODE_WORDS/4];
#endif
} node;
static inline uint8_t ethash_h256_get(ethash_h256_t const* hash, unsigned int i)
{
return hash->b[i];
}
static inline void ethash_h256_set(ethash_h256_t* hash, unsigned int i, uint8_t v)
{
hash->b[i] = v;
}
static inline void ethash_h256_reset(ethash_h256_t* hash)
{
memset(hash, 0, 32);
}
// Returns if hash is less than or equal to boundary (2^256/difficulty)
static inline bool ethash_check_difficulty(
ethash_h256_t const* hash,
ethash_h256_t const* boundary
)
{
// Boundary is big endian
for (int i = 0; i < 32; i++) {
if (ethash_h256_get(hash, i) == ethash_h256_get(boundary, i)) {
continue;
}
return ethash_h256_get(hash, i) < ethash_h256_get(boundary, i);
}
return true;
}
/**
* Difficulty quick check for POW preverification
*
* @param header_hash The hash of the header
* @param nonce The block's nonce
* @param mix_hash The mix digest hash
* @param boundary The boundary is defined as (2^256 / difficulty)
* @return true for succesful pre-verification and false otherwise
*/
bool ethash_quick_check_difficulty(
ethash_h256_t const* header_hash,
uint64_t const nonce,
ethash_h256_t const* mix_hash,
ethash_h256_t const* boundary
);
struct ethash_light {
void* cache;
uint64_t cache_size;
uint64_t block_number;
};
/**
* Allocate and initialize a new ethash_light handler. Internal version
*
* @param cache_size The size of the cache in bytes
* @param seed Block seedhash to be used during the computation of the
* cache nodes
* @return Newly allocated ethash_light handler or NULL in case of
* ERRNOMEM or invalid parameters used for @ref ethash_compute_cache_nodes()
*/
ethash_light_t ethash_light_new_internal(uint64_t cache_size, ethash_h256_t const* seed);
/**
* Calculate the light client data. Internal version.
*
* @param light The light client handler
* @param full_size The size of the full data in bytes.
* @param header_hash The header hash to pack into the mix
* @param nonce The nonce to pack into the mix
* @return The resulting hash.
*/
ethash_return_value_t ethash_light_compute_internal(
ethash_light_t light,
uint64_t full_size,
ethash_h256_t const header_hash,
uint64_t nonce
);
struct ethash_full {
FILE* file;
uint64_t file_size;
node* data;
};
/**
* Allocate and initialize a new ethash_full handler. Internal version.
*
* @param dirname The directory in which to put the DAG file.
* @param seedhash The seed hash of the block. Used in the DAG file naming.
* @param full_size The size of the full data in bytes.
* @param cache A cache object to use that was allocated with @ref ethash_cache_new().
* Iff this function succeeds the ethash_full_t will take memory
* memory ownership of the cache and free it at deletion. If
* not then the user still has to handle freeing of the cache himself.
* @param callback A callback function with signature of @ref ethash_callback_t
* It accepts an unsigned with which a progress of DAG calculation
* can be displayed. If all goes well the callback should return 0.
* If a non-zero value is returned then DAG generation will stop.
* @return Newly allocated ethash_full handler or NULL in case of
* ERRNOMEM or invalid parameters used for @ref ethash_compute_full_data()
*/
ethash_full_t ethash_full_new_internal(
char const* dirname,
ethash_h256_t const seed_hash,
uint64_t full_size,
ethash_light_t const light,
ethash_callback_t callback
);
void ethash_calculate_dag_item(
node* const ret,
uint32_t node_index,
ethash_light_t const cache
);
void ethash_quick_hash(
ethash_h256_t* return_hash,
ethash_h256_t const* header_hash,
const uint64_t nonce,
ethash_h256_t const* mix_hash
);
uint64_t ethash_get_datasize(uint64_t const block_number);
uint64_t ethash_get_cachesize(uint64_t const block_number);
/**
* Compute the memory data for a full node's memory
*
* @param mem A pointer to an ethash full's memory
* @param full_size The size of the full data in bytes
* @param cache A cache object to use in the calculation
* @param callback The callback function. Check @ref ethash_full_new() for details.
* @return true if all went fine and false for invalid parameters
*/
bool ethash_compute_full_data(
void* mem,
uint64_t full_size,
ethash_light_t const light,
ethash_callback_t callback
);
#ifdef __cplusplus
}
#endif