mbed library sources. Supersedes mbed-src.
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targets/TARGET_Maxim/TARGET_MAX32630/mxc/maa.c
- Committer:
- <>
- Date:
- 2017-02-02
- Revision:
- 157:ff67d9f36b67
File content as of revision 157:ff67d9f36b67:
/** * @file * @brief Modular Arithmetic Accelerator (MAA) API Function Implementations. */ /* ***************************************************************************** * Copyright (C) 2016 Maxim Integrated Products, Inc., All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL MAXIM INTEGRATED BE LIABLE FOR ANY CLAIM, DAMAGES * OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * * Except as contained in this notice, the name of Maxim Integrated * Products, Inc. shall not be used except as stated in the Maxim Integrated * Products, Inc. Branding Policy. * * The mere transfer of this software does not imply any licenses * of trade secrets, proprietary technology, copyrights, patents, * trademarks, maskwork rights, or any other form of intellectual * property whatsoever. Maxim Integrated Products, Inc. retains all * ownership rights. * **************************************************************************** */ /* **** Includes **** */ #include <string.h> #include "mxc_assert.h" #include "mxc_lock.h" #include "mxc_sys.h" #include "maa.h" /** * @ingroup maa * @{ */ ///@cond #define maa_is_running() (MXC_MAA->ctrl & MXC_F_MAA_CTRL_START ? 1 : 0) /** * Macro that translates from #mxc_maa_reg_select_t to a pointer for MAA memory operations. */ #define UMAA_REGFILE_TO_ADDR(base, x) ((base + (MXC_MAA_HALF_SIZE * x))) /** * Macro that adjusts the pointer so that it is pointing to the last 32-bit word in the maa (sub-)segment */ #define UMAA_ADDR_INDEX_LAST_32BIT(x) ((uint8_t *)x + (MXC_MAA_HALF_SIZE-4)) ///@endcond /* ************************************************************************* */ mxc_maa_ret_t MAA_Init(void) { SYS_MAA_Init(); return MXC_E_MAA_OK; } /* ************************************************************************* */ mxc_maa_ret_t MAA_WipeRAM(void) { /* Check for running MAA */ if (maa_is_running()) { return MXC_E_MAA_ERR; } /* Clear register files */ memset((void *)MXC_MAA_MEM->seg0, 0, sizeof(MXC_MAA_MEM->seg0)); memset((void *)MXC_MAA_MEM->seg1, 0, sizeof(MXC_MAA_MEM->seg1)); memset((void *)MXC_MAA_MEM->seg2, 0, sizeof(MXC_MAA_MEM->seg2)); memset((void *)MXC_MAA_MEM->seg3, 0, sizeof(MXC_MAA_MEM->seg3)); memset((void *)MXC_MAA_MEM->seg4, 0, sizeof(MXC_MAA_MEM->seg4)); memset((void *)MXC_MAA_MEM->seg5, 0, sizeof(MXC_MAA_MEM->seg5)); return MXC_E_MAA_OK; } /* ************************************************************************* */ mxc_maa_ret_t MAA_Load(mxc_maa_reg_select_t regfile, const uint8_t *data, unsigned int size, mxc_maa_endian_select_t flag) { uint32_t *maaptr; uint32_t fill; unsigned int zerotmp; if ((regfile > MXC_E_REG_51) || (size > MXC_MAA_REG_SIZE)) { /* Out of range */ return MXC_E_MAA_ERR; } if (flag == MXC_MAA_F_MEM_REVERSE) { /* This is not currently implemented */ return MXC_E_MAA_ERR; } maaptr = (uint32_t *)UMAA_REGFILE_TO_ADDR(MXC_BASE_MAA_MEM, regfile); /* * MAA (sub-)segments must be loaded with zero pad to a 64-bit boundary, or the "garbage bits" * will case erroneous results. */ /* Find the ceiling for the closest 64-bit boundary based on the selected MAWS */ zerotmp = (((MXC_MAA->maws & MXC_F_MAA_MAWS_MODLEN) >> MXC_F_MAA_MAWS_MODLEN_POS) + 63) & 0xfc0; /* Convert to bytes */ zerotmp /= 8; /* Fill uMAA memory in long word sized chunks */ while (size > 3) { *maaptr++ = (data[3] << 24) + (data[2] << 16) + (data[1] << 8) + data[0]; data += 4; size -= 4; zerotmp = (zerotmp > 4) ? (zerotmp - 4) : 0; } /* Remainder */ if (size) { fill = data[0]; fill |= ((size > 1) ? (data[1] << 8) : 0); fill |= ((size > 2) ? (data[2] << 16) : 0); *maaptr++ = fill; /* We just filled 4 bytes in this section */ zerotmp = (zerotmp > 4) ? (zerotmp - 4) : 0; } /* Wipe the remaining "garbage bits" */ while (zerotmp) { *maaptr++ = 0; zerotmp = (zerotmp > 4) ? (zerotmp - 4) : 0; } return MXC_E_MAA_OK; } /* ************************************************************************* */ mxc_maa_ret_t MAA_Unload(mxc_maa_reg_select_t regfile, uint8_t *data, unsigned int size, mxc_maa_endian_select_t flag) { uint32_t *maaptr; uint32_t fill; if ((regfile > MXC_E_REG_51) || (size > MXC_MAA_REG_SIZE)) { /* Out of range */ return MXC_E_MAA_ERR; } if (flag == MXC_MAA_F_MEM_REVERSE) { /* This is not currently implemented */ return MXC_E_MAA_ERR; } maaptr = (uint32_t *)UMAA_REGFILE_TO_ADDR(MXC_BASE_MAA_MEM, regfile); /* Unload uMAA memory in long word sized chunks */ while (size > 3) { fill = *maaptr++; data[0] = fill & 0xff; data[1] = (fill >> 8) & 0xff; data[2] = (fill >> 16) & 0xff; data[3] = (fill >> 24) & 0xff; data += 4; size -= 4; } /* Remainder */ if (size) { fill = *maaptr; data[0] = fill & 0xff; if (size > 1) { data[1] = (fill >> 8) & 0xff; } if (size > 2) { data[2] = (fill >> 16) & 0xff; } } return MXC_E_MAA_OK; } /* ************************************************************************* */ mxc_maa_ret_t MAA_Run(mxc_maa_operation_t op, mxc_maa_reg_select_t al, mxc_maa_reg_select_t bl, mxc_maa_reg_select_t rl, mxc_maa_reg_select_t tl) { if (maa_is_running()) { /* Attempt to start the MAA while already running */ return MXC_E_MAA_ERR; } /* Clear out any previous flags */ MXC_MAA->ctrl = 0x00000020; /* Construct memory segment selections, select operation, and start the uMAA */ MXC_MAA->ctrl = (((al << MXC_F_MAA_CTRL_SEG_A_POS) & MXC_F_MAA_CTRL_SEG_A) | ((bl << MXC_F_MAA_CTRL_SEG_B_POS) & MXC_F_MAA_CTRL_SEG_B) | ((rl << MXC_F_MAA_CTRL_SEG_RES_POS) & MXC_F_MAA_CTRL_SEG_RES) | ((tl << MXC_F_MAA_CTRL_SEG_TMP_POS) & MXC_F_MAA_CTRL_SEG_TMP) | ((op << MXC_F_MAA_CTRL_OPSEL_POS) & MXC_F_MAA_CTRL_OPSEL) | MXC_F_MAA_CTRL_START); /* Blocking wait for uMAA to complete. */ while ((MXC_MAA->ctrl & MXC_F_MAA_CTRL_IF_DONE) == 0); if (MXC_MAA->ctrl & MXC_F_MAA_CTRL_IF_ERROR) { /* MAA signaled error */ return MXC_E_MAA_ERR; } return MXC_E_MAA_OK; } /* ************************************************************************* */ mxc_maa_ret_t MAA_SetWordSize(unsigned int len) { if ((len > MXC_MAA_REG_SIZE_BITS) || maa_is_running()) { return MXC_E_MAA_ERR; } /* Set bit length for calculation, and disable endian swap */ MXC_MAA->maws = ((len << MXC_F_MAA_MAWS_MODLEN_POS) & MXC_F_MAA_MAWS_MODLEN); return MXC_E_MAA_OK; } /**@} end of ingroup maa */