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https://git.wownero.com/wownero/wownero.git
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Update slow-hash.c
1. Added AES-NI support for modern processors.
This commit is contained in:
parent
3b887decca
commit
44f61c3965
@ -11,145 +11,251 @@
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#include "hash-ops.h"
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#include "oaes_lib.h"
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static void (*const extra_hashes[4])(const void *, size_t, char *) = {
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hash_extra_blake, hash_extra_groestl, hash_extra_jh, hash_extra_skein
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};
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#include <emmintrin.h>
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#define MEMORY (1 << 21) /* 2 MiB */
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#if defined(_MSC_VER) || defined(__INTEL_COMPILER)
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#include <intrin.h>
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#define STATIC
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#define INLINE __inline
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#if !defined(RDATA_ALIGN16)
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#define RDATA_ALIGN16 __declspec(align(16))
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#endif
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#else
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#include <wmmintrin.h>
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#define STATIC static
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#define INLINE inline
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#if !defined(RDATA_ALIGN16)
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#define RDATA_ALIGN16 __attribute__ ((aligned(16)))
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#endif
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#endif
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#define MEMORY (1 << 21) // 2MB scratchpad
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#define ITER (1 << 20)
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#define AES_BLOCK_SIZE 16
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#define AES_KEY_SIZE 32 /*16*/
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#define AES_KEY_SIZE 32
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#define INIT_SIZE_BLK 8
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#define INIT_SIZE_BYTE (INIT_SIZE_BLK * AES_BLOCK_SIZE)
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#define U64(x) ((uint64_t *) (x))
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#define R128(x) ((__m128i *) (x))
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extern int aesb_single_round(const uint8_t *in, uint8_t*out, const uint8_t *expandedKey);
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extern int aesb_pseudo_round(const uint8_t *in, uint8_t *out, const uint8_t *expandedKey);
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static size_t e2i(const uint8_t* a, size_t count) { return (*((uint64_t*)a) / AES_BLOCK_SIZE) & (count - 1); }
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static void mul(const uint8_t* a, const uint8_t* b, uint8_t* res) {
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uint64_t a0, b0;
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uint64_t hi, lo;
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a0 = SWAP64LE(((uint64_t*)a)[0]);
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b0 = SWAP64LE(((uint64_t*)b)[0]);
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lo = mul128(a0, b0, &hi);
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((uint64_t*)res)[0] = SWAP64LE(hi);
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((uint64_t*)res)[1] = SWAP64LE(lo);
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}
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static void sum_half_blocks(uint8_t* a, const uint8_t* b) {
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uint64_t a0, a1, b0, b1;
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a0 = SWAP64LE(((uint64_t*)a)[0]);
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a1 = SWAP64LE(((uint64_t*)a)[1]);
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b0 = SWAP64LE(((uint64_t*)b)[0]);
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b1 = SWAP64LE(((uint64_t*)b)[1]);
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a0 += b0;
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a1 += b1;
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((uint64_t*)a)[0] = SWAP64LE(a0);
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((uint64_t*)a)[1] = SWAP64LE(a1);
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}
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#define U64(x) ((uint64_t *) (x))
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static void copy_block(uint8_t* dst, const uint8_t* src) {
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memcpy(dst, src, AES_BLOCK_SIZE);
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}
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static void swap_blocks(uint8_t *a, uint8_t *b){
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uint64_t t[2];
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U64(t)[0] = U64(a)[0];
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U64(t)[1] = U64(a)[1];
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U64(a)[0] = U64(b)[0];
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U64(a)[1] = U64(b)[1];
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U64(b)[0] = U64(t)[0];
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U64(b)[1] = U64(t)[1];
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}
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static void xor_blocks(uint8_t* a, const uint8_t* b) {
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size_t i;
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for (i = 0; i < AES_BLOCK_SIZE; i++) {
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a[i] ^= b[i];
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}
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}
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#pragma pack(push, 1)
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union cn_slow_hash_state {
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union hash_state hs;
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struct {
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uint8_t k[64];
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uint8_t init[INIT_SIZE_BYTE];
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};
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union cn_slow_hash_state
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{
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union hash_state hs;
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struct
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{
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uint8_t k[64];
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uint8_t init[INIT_SIZE_BYTE];
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};
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};
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#pragma pack(pop)
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void cn_slow_hash(const void *data, size_t length, char *hash) {
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uint8_t long_state[MEMORY];
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union cn_slow_hash_state state;
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uint8_t text[INIT_SIZE_BYTE];
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uint8_t a[AES_BLOCK_SIZE];
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uint8_t b[AES_BLOCK_SIZE];
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uint8_t c[AES_BLOCK_SIZE];
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uint8_t d[AES_BLOCK_SIZE];
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size_t i, j;
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uint8_t aes_key[AES_KEY_SIZE];
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oaes_ctx *aes_ctx;
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hash_process(&state.hs, data, length);
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memcpy(text, state.init, INIT_SIZE_BYTE);
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memcpy(aes_key, state.hs.b, AES_KEY_SIZE);
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aes_ctx = (oaes_ctx *) oaes_alloc();
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oaes_key_import_data(aes_ctx, aes_key, AES_KEY_SIZE);
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for (i = 0; i < MEMORY / INIT_SIZE_BYTE; i++) {
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for (j = 0; j < INIT_SIZE_BLK; j++) {
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aesb_pseudo_round(&text[AES_BLOCK_SIZE * j], &text[AES_BLOCK_SIZE * j], aes_ctx->key->exp_data);
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}
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memcpy(&long_state[i * INIT_SIZE_BYTE], text, INIT_SIZE_BYTE);
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}
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for (i = 0; i < 16; i++) {
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a[i] = state.k[ i] ^ state.k[32 + i];
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b[i] = state.k[16 + i] ^ state.k[48 + i];
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}
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for (i = 0; i < ITER / 2; i++) {
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/* Dependency chain: address -> read value ------+
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* written value <-+ hard function (AES or MUL) <+
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* next address <-+
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*/
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/* Iteration 1 */
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j = e2i(a, MEMORY / AES_BLOCK_SIZE);
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copy_block(c, &long_state[j * AES_BLOCK_SIZE]);
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aesb_single_round(c, c, a);
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xor_blocks(b, c);
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swap_blocks(b, c);
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copy_block(&long_state[j * AES_BLOCK_SIZE], c);
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assert(j == e2i(a, MEMORY / AES_BLOCK_SIZE));
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swap_blocks(a, b);
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/* Iteration 2 */
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j = e2i(a, MEMORY / AES_BLOCK_SIZE);
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copy_block(c, &long_state[j * AES_BLOCK_SIZE]);
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mul(a, c, d);
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sum_half_blocks(b, d);
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swap_blocks(b, c);
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xor_blocks(b, c);
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copy_block(&long_state[j * AES_BLOCK_SIZE], c);
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assert(j == e2i(a, MEMORY / AES_BLOCK_SIZE));
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swap_blocks(a, b);
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}
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memcpy(text, state.init, INIT_SIZE_BYTE);
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oaes_key_import_data(aes_ctx, &state.hs.b[32], AES_KEY_SIZE);
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for (i = 0; i < MEMORY / INIT_SIZE_BYTE; i++) {
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for (j = 0; j < INIT_SIZE_BLK; j++) {
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xor_blocks(&text[j * AES_BLOCK_SIZE], &long_state[i * INIT_SIZE_BYTE + j * AES_BLOCK_SIZE]);
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aesb_pseudo_round(&text[AES_BLOCK_SIZE * j], &text[AES_BLOCK_SIZE * j], aes_ctx->key->exp_data);
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}
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}
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memcpy(state.init, text, INIT_SIZE_BYTE);
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hash_permutation(&state.hs);
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/*memcpy(hash, &state, 32);*/
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extra_hashes[state.hs.b[0] & 3](&state, 200, hash);
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oaes_free((OAES_CTX **) &aes_ctx);
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#if defined(_MSC_VER) || defined(__INTEL_COMPILER)
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#define cpuid(info,x) __cpuidex(info,x,0)
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#else
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void cpuid(int CPUInfo[4], int InfoType)
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{
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__asm__ __volatile__
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(
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"cpuid":
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"=a" (CPUInfo[0]),
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"=b" (CPUInfo[1]),
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"=c" (CPUInfo[2]),
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"=d" (CPUInfo[3]) :
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"a" (InfoType), "c" (0)
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);
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}
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#endif
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STATIC INLINE void mul(const uint8_t *a, const uint8_t *b, uint8_t *res)
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{
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uint64_t a0, b0;
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uint64_t hi, lo;
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a0 = U64(a)[0];
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b0 = U64(b)[0];
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lo = mul128(a0, b0, &hi);
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U64(res)[0] = hi;
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U64(res)[1] = lo;
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}
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STATIC INLINE void sum_half_blocks(uint8_t *a, const uint8_t *b)
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{
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uint64_t a0, a1, b0, b1;
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a0 = U64(a)[0];
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a1 = U64(a)[1];
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b0 = U64(b)[0];
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b1 = U64(b)[1];
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a0 += b0;
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a1 += b1;
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U64(a)[0] = a0;
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U64(a)[1] = a1;
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}
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STATIC INLINE void swap_blocks(uint8_t *a, uint8_t *b)
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{
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uint64_t t[2];
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U64(t)[0] = U64(a)[0];
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U64(t)[1] = U64(a)[1];
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U64(a)[0] = U64(b)[0];
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U64(a)[1] = U64(b)[1];
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U64(b)[0] = U64(t)[0];
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U64(b)[1] = U64(t)[1];
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}
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STATIC INLINE void xor_blocks(uint8_t *a, const uint8_t *b)
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{
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U64(a)[0] ^= U64(b)[0];
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U64(a)[1] ^= U64(b)[1];
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}
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STATIC INLINE int check_aes_hw(void)
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{
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int cpuid_results[4];
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static int supported = -1;
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if(supported >= 0)
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return supported;
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cpuid(cpuid_results,1);
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return supported = cpuid_results[2] & (1 << 25);
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}
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STATIC INLINE void aesni_pseudo_round(const uint8_t *in, uint8_t *out,
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const uint8_t *expandedKey)
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{
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__m128i *k = R128(expandedKey);
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__m128i d;
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d = _mm_loadu_si128(R128(in));
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d = _mm_aesenc_si128(d, *R128(&k[0]));
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d = _mm_aesenc_si128(d, *R128(&k[1]));
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d = _mm_aesenc_si128(d, *R128(&k[2]));
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d = _mm_aesenc_si128(d, *R128(&k[3]));
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d = _mm_aesenc_si128(d, *R128(&k[4]));
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d = _mm_aesenc_si128(d, *R128(&k[5]));
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d = _mm_aesenc_si128(d, *R128(&k[6]));
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d = _mm_aesenc_si128(d, *R128(&k[7]));
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d = _mm_aesenc_si128(d, *R128(&k[8]));
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d = _mm_aesenc_si128(d, *R128(&k[9]));
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_mm_storeu_si128((R128(out)), d);
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}
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void cn_slow_hash(const void *data, size_t length, char *hash)
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{
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uint8_t long_state[MEMORY];
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uint8_t text[INIT_SIZE_BYTE];
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uint8_t a[AES_BLOCK_SIZE];
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uint8_t b[AES_BLOCK_SIZE];
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uint8_t d[AES_BLOCK_SIZE];
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uint8_t aes_key[AES_KEY_SIZE];
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RDATA_ALIGN16 uint8_t expandedKey[256];
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union cn_slow_hash_state state;
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size_t i, j;
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uint8_t *p = NULL;
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oaes_ctx *aes_ctx;
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int useAes = check_aes_hw();
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static void (*const extra_hashes[4])(const void *, size_t, char *) =
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{
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hash_extra_blake, hash_extra_groestl, hash_extra_jh, hash_extra_skein
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};
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hash_process(&state.hs, data, length);
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memcpy(text, state.init, INIT_SIZE_BYTE);
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aes_ctx = (oaes_ctx *) oaes_alloc();
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oaes_key_import_data(aes_ctx, state.hs.b, AES_KEY_SIZE);
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// use aligned data
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memcpy(expandedKey, aes_ctx->key->exp_data, aes_ctx->key->exp_data_len);
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if(useAes)
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{
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for(i = 0; i < MEMORY / INIT_SIZE_BYTE; i++)
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{
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for(j = 0; j < INIT_SIZE_BLK; j++)
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aesni_pseudo_round(&text[AES_BLOCK_SIZE * j], &text[AES_BLOCK_SIZE * j], expandedKey);
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memcpy(&long_state[i * INIT_SIZE_BYTE], text, INIT_SIZE_BYTE);
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}
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}
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else
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{
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for(i = 0; i < MEMORY / INIT_SIZE_BYTE; i++)
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{
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for(j = 0; j < INIT_SIZE_BLK; j++)
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aesb_pseudo_round(&text[AES_BLOCK_SIZE * j], &text[AES_BLOCK_SIZE * j], expandedKey);
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memcpy(&long_state[i * INIT_SIZE_BYTE], text, INIT_SIZE_BYTE);
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}
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}
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U64(a)[0] = U64(&state.k[0])[0] ^ U64(&state.k[32])[0];
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U64(a)[1] = U64(&state.k[0])[1] ^ U64(&state.k[32])[1];
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U64(b)[0] = U64(&state.k[16])[0] ^ U64(&state.k[48])[0];
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U64(b)[1] = U64(&state.k[16])[1] ^ U64(&state.k[48])[1];
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for(i = 0; i < ITER / 2; i++)
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{
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#define TOTALBLOCKS (MEMORY / AES_BLOCK_SIZE)
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#define state_index(x) (((*((uint64_t *)x) >> 4) & (TOTALBLOCKS - 1)) << 4)
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// Iteration 1
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p = &long_state[state_index(a)];
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if(useAes)
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_mm_storeu_si128(R128(p), _mm_aesenc_si128(_mm_loadu_si128(R128(p)), _mm_loadu_si128(R128(a))));
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else
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aesb_single_round(p, p, a);
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xor_blocks(b, p);
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swap_blocks(b, p);
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swap_blocks(a, b);
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// Iteration 2
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p = &long_state[state_index(a)];
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mul(a, p, d);
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sum_half_blocks(b, d);
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swap_blocks(b, p);
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xor_blocks(b, p);
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swap_blocks(a, b);
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}
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memcpy(text, state.init, INIT_SIZE_BYTE);
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oaes_key_import_data(aes_ctx, &state.hs.b[32], AES_KEY_SIZE);
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memcpy(expandedKey, aes_ctx->key->exp_data, aes_ctx->key->exp_data_len);
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if(useAes)
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{
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for(i = 0; i < MEMORY / INIT_SIZE_BYTE; i++)
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{
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for(j = 0; j < INIT_SIZE_BLK; j++)
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{
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xor_blocks(&text[j * AES_BLOCK_SIZE], &long_state[i * INIT_SIZE_BYTE + j * AES_BLOCK_SIZE]);
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aesni_pseudo_round(&text[j * AES_BLOCK_SIZE], &text[j * AES_BLOCK_SIZE], expandedKey);
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}
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}
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}
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else
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{
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for(i = 0; i < MEMORY / INIT_SIZE_BYTE; i++)
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{
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for(j = 0; j < INIT_SIZE_BLK; j++)
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{
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xor_blocks(&text[j * AES_BLOCK_SIZE], &long_state[i * INIT_SIZE_BYTE + j * AES_BLOCK_SIZE]);
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aesb_pseudo_round(&text[AES_BLOCK_SIZE * j], &text[AES_BLOCK_SIZE * j], expandedKey);
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}
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}
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}
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oaes_free((OAES_CTX **) &aes_ctx);
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memcpy(state.init, text, INIT_SIZE_BYTE);
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hash_permutation(&state.hs);
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extra_hashes[state.hs.b[0] & 3](&state, 200, hash);
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}
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