Lines Matching refs:auW
55 uint32_t auW[64];
201 * Initializes the auW array from the specfied input block.
215 __m128i *puDst = (__m128i *)&pCtx->AltPrivate.auW[0];
224 uint64_t *puW = (uint64_t *)&pCtx->AltPrivate.auW[0];
241 uint32_t *puW = &pCtx->AltPrivate.auW[0];
266 memcpy(&pCtx->AltPrivate.auW[0], pbBlock, RTSHA256_BLOCK_SIZE);
275 pCtx->AltPrivate.auW[iWord] = RT_BE2H_U32(pu32Block[iWord]);
277 for (; iWord < RT_ELEMENTS(pCtx->AltPrivate.auW); iWord++)
279 uint32_t u32 = rtSha256SmallSigma1(pCtx->AltPrivate.auW[iWord - 2]);
280 u32 += rtSha256SmallSigma0(pCtx->AltPrivate.auW[iWord - 15]);
281 u32 += pCtx->AltPrivate.auW[iWord - 7];
282 u32 += pCtx->AltPrivate.auW[iWord - 16];
283 pCtx->AltPrivate.auW[iWord] = u32;
290 * Initializes the auW array from data buffered in the first part of the array.
301 uint64_t *puW = (uint64_t *)&pCtx->AltPrivate.auW[0];
315 uint32_t *puW = &pCtx->AltPrivate.auW[0];
343 pCtx->AltPrivate.auW[iWord] = RT_BE2H_U32(pCtx->AltPrivate.auW[iWord]);
345 for (; iWord < RT_ELEMENTS(pCtx->AltPrivate.auW); iWord++)
347 uint32_t u32 = rtSha256SmallSigma1(pCtx->AltPrivate.auW[iWord - 2]);
348 u32 += rtSha256SmallSigma0(pCtx->AltPrivate.auW[iWord - 15]);
349 u32 += pCtx->AltPrivate.auW[iWord - 7];
350 u32 += pCtx->AltPrivate.auW[iWord - 16];
351 pCtx->AltPrivate.auW[iWord] = u32;
376 uint32_t *puW = &pCtx->AltPrivate.auW[0];
428 for (unsigned iWord = 0; iWord < RT_ELEMENTS(pCtx->AltPrivate.auW); iWord++)
434 uT1 += pCtx->AltPrivate.auW[iWord];
475 memcpy((uint8_t *)&pCtx->AltPrivate.auW[0] + cbBuffered, pbBuf, cbMissing);
485 memcpy((uint8_t *)&pCtx->AltPrivate.auW[0] + cbBuffered, pbBuf, cbBuf);
513 memcpy((uint8_t *)&pCtx->AltPrivate.auW[0], pbBuf, RTSHA256_BLOCK_SIZE);
528 memcpy((uint8_t *)&pCtx->AltPrivate.auW[0], pbBuf, cbBuf);
562 memset((uint8_t *)&pCtx->AltPrivate.auW[0] + cbBuffered, 0, cbMissing - 8);
564 *(uint64_t *)&pCtx->AltPrivate.auW[14] = RT_H2BE_U64(cMessageBits);
584 RT_ZERO(pCtx->AltPrivate.auW);