mbed library sources. Supersedes mbed-src. removed serial
Fork of mbed-dev by
targets/TARGET_Maxim/TARGET_MAX32630/mxc/spix.c
- Committer:
- mrcrsch
- Date:
- 2017-02-13
- Revision:
- 158:aa577577efe0
- Parent:
- 157:ff67d9f36b67
File content as of revision 158:aa577577efe0:
/** * @file * @brief SPI execute in place driver. */ /* ***************************************************************************** * 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. * * $Date: 2016-09-08 17:31:41 -0500 (Thu, 08 Sep 2016) $ * $Revision: 24323 $ * **************************************************************************** */ /* **** Includes **** */ #include <stddef.h> #include "mxc_config.h" #include "mxc_assert.h" #include "spix.h" #include "spix_regs.h" /** * @ingroup spix * @{ */ /* **** Definitions **** */ #define CMD_CLOCKS 8 #define ADDR_3BYTE_CLOCKS 24 #define ADDR_4BYTE_CLOCKS 32 /***** Globals *****/ /***** Functions *****/ /******************************************************************************/ #if defined ( __GNUC__ ) #undef IAR_SPIX_PRAGMA //Make sure this is not defined for GCC #endif #if IAR_SPIX_PRAGMA // IAR memory section declaration for the SPIX functions to be loaded in RAM. #pragma section=".spix_config" #endif #if(MXC_SPIX_REV == 0) #if defined ( __GNUC__ ) __attribute__ ((section(".spix_config"), noinline)) #endif /* __GNUC */ #if IAR_SPIX_PRAGMA #pragma location=".spix_config" // IAR locate function in RAM section .spix_config #pragma optimize=no_inline // IAR no inline optimization on this function #endif /* IAR_PRAGMA */ static void SPIX_UpdateFBIgnore() { // Update the feedback ignore clocks uint8_t clocks = 0; uint8_t no_cmd_clocks = 0; // Adjust the clocks for the command if((MXC_SPIX->fetch_ctrl & MXC_F_SPIX_FETCH_CTRL_CMD_WIDTH) == MXC_S_SPIX_FETCH_CTRL_CMD_WIDTH_QUAD_IO) { clocks += CMD_CLOCKS/4; } else if((MXC_SPIX->fetch_ctrl & MXC_F_SPIX_FETCH_CTRL_CMD_WIDTH) == MXC_S_SPIX_FETCH_CTRL_CMD_WIDTH_DUAL_IO) { clocks += CMD_CLOCKS/2; } else { clocks += CMD_CLOCKS; } // Adjust the clocks for the address if((MXC_SPIX->fetch_ctrl & MXC_F_SPIX_FETCH_CTRL_ADDR_WIDTH) == MXC_S_SPIX_FETCH_CTRL_ADDR_WIDTH_QUAD_IO) { if(MXC_SPIX->fetch_ctrl & MXC_F_SPIX_FETCH_CTRL_FOUR_BYTE_ADDR) { clocks += ADDR_4BYTE_CLOCKS/4; no_cmd_clocks += ADDR_4BYTE_CLOCKS/4; } else { clocks += ADDR_3BYTE_CLOCKS/4; no_cmd_clocks += ADDR_3BYTE_CLOCKS/4; } } else if((MXC_SPIX->fetch_ctrl & MXC_F_SPIX_FETCH_CTRL_ADDR_WIDTH) == MXC_S_SPIX_FETCH_CTRL_ADDR_WIDTH_DUAL_IO) { if(MXC_SPIX->fetch_ctrl & MXC_F_SPIX_FETCH_CTRL_FOUR_BYTE_ADDR) { clocks += ADDR_4BYTE_CLOCKS/2; no_cmd_clocks += ADDR_4BYTE_CLOCKS/2; } else { clocks += ADDR_3BYTE_CLOCKS/2; no_cmd_clocks += ADDR_3BYTE_CLOCKS/2; } } else { if(MXC_SPIX->fetch_ctrl & MXC_F_SPIX_FETCH_CTRL_FOUR_BYTE_ADDR) { clocks += ADDR_4BYTE_CLOCKS; no_cmd_clocks += ADDR_4BYTE_CLOCKS; } else { clocks += ADDR_3BYTE_CLOCKS; no_cmd_clocks += ADDR_3BYTE_CLOCKS; } } // Adjust for the mode clocks clocks += ((MXC_SPIX->mode_ctrl & MXC_F_SPIX_MODE_CTRL_MODE_CLOCKS) >> MXC_F_SPIX_MODE_CTRL_MODE_CLOCKS_POS); // Set the FB Ignore clocks MXC_SPIX->sck_fb_ctrl = ((MXC_SPIX->sck_fb_ctrl & ~MXC_F_SPIX_SCK_FB_CTRL_IGNORE_CLKS) | (clocks << MXC_F_SPIX_SCK_FB_CTRL_IGNORE_CLKS_POS)); MXC_SPIX->sck_fb_ctrl = ((MXC_SPIX->sck_fb_ctrl & ~MXC_F_SPIX_SCK_FB_CTRL_IGNORE_CLKS_NO_CMD) | (no_cmd_clocks << MXC_F_SPIX_SCK_FB_CTRL_IGNORE_CLKS_NO_CMD_POS)); } #endif /* MXC_SPIX_REV==0 */ /******************************************************************************/ #if defined ( __GNUC__ ) __attribute__ ((section(".spix_config"), noinline)) #endif /* __GNUC */ #if IAR_SPIX_PRAGMA #pragma location=".spix_config" // IAR locate function in RAM section .spix_config #pragma optimize=no_inline // IAR no inline optimization on this function #endif /* IAR_SPIX_PRAGMA */ int SPIX_ConfigClock(const sys_cfg_spix_t *sys_cfg, uint32_t baud, uint8_t sample) { int err; uint32_t spix_clk, clocks; // Check the input parameters if(sys_cfg == NULL) { return E_NULL_PTR; } // Set system level configurations if ((err = SYS_SPIX_Init(sys_cfg, baud)) != E_NO_ERROR) { return err; } // Configure the mode and baud spix_clk = SYS_SPIX_GetFreq(); if(spix_clk <= 0) { return E_UNINITIALIZED; } // Make sure that we can generate this frequency clocks = (spix_clk / (2*baud)); if((clocks <= 0) || (clocks >= 0x10)) { return E_BAD_PARAM; } // Set the baud MXC_SPIX->master_cfg = ((MXC_SPIX->master_cfg & ~(MXC_F_SPIX_MASTER_CFG_SCK_HI_CLK | MXC_F_SPIX_MASTER_CFG_SCK_LO_CLK)) | (clocks << MXC_F_SPIX_MASTER_CFG_SCK_HI_CLK_POS) | (clocks << MXC_F_SPIX_MASTER_CFG_SCK_LO_CLK_POS)); if(sample != 0) { // Use sample mode MXC_SPIX->master_cfg = ((MXC_SPIX->master_cfg & ~MXC_F_SPIX_MASTER_CFG_SDIO_SAMPLE_POINT) | (sample << MXC_F_SPIX_MASTER_CFG_SDIO_SAMPLE_POINT_POS)); MXC_SPIX->sck_fb_ctrl &= ~(MXC_F_SPIX_SCK_FB_CTRL_ENABLE_SCK_FB_MODE | MXC_F_SPIX_SCK_FB_CTRL_INVERT_SCK_FB_CLK); } else { // Use Feedback mode MXC_SPIX->master_cfg &= ~(MXC_F_SPIX_MASTER_CFG_SDIO_SAMPLE_POINT); MXC_SPIX->sck_fb_ctrl |= (MXC_F_SPIX_SCK_FB_CTRL_ENABLE_SCK_FB_MODE | MXC_F_SPIX_SCK_FB_CTRL_INVERT_SCK_FB_CLK); #if(MXC_SPIX_REV == 0) SPIX_UpdateFBIgnore(); #endif } return E_NO_ERROR; } /******************************************************************************/ #if defined ( __GNUC__ ) __attribute__ ((section(".spix_config"), noinline)) #endif /* __GNUC */ #if IAR_SPIX_PRAGMA #pragma location=".spix_config" // IAR locate function in RAM section .spix_config #pragma optimize=no_inline // IAR no inline optimization on this function #endif /* IAR_SPIX_PRAGMA */ void SPIX_ConfigSlave(uint8_t ssel, uint8_t pol, uint8_t act_delay, uint8_t inact_delay) { // Set the slave select MXC_SPIX->master_cfg = ((MXC_SPIX->master_cfg & ~MXC_F_SPIX_MASTER_CFG_SLAVE_SEL) | (ssel << MXC_F_SPIX_MASTER_CFG_SLAVE_SEL_POS)); if(pol != 0) { // Active high MXC_SPIX->master_cfg &= ~(MXC_F_SPIX_MASTER_CFG_SS_ACT_LO); } else { // Active low MXC_SPIX->master_cfg |= MXC_F_SPIX_MASTER_CFG_SS_ACT_LO; } // Set the delays MXC_SPIX->master_cfg = ((MXC_SPIX->master_cfg & ~(MXC_F_SPIX_MASTER_CFG_ACT_DELAY | MXC_F_SPIX_MASTER_CFG_INACT_DELAY)) | (act_delay << MXC_F_SPIX_MASTER_CFG_ACT_DELAY_POS) | (inact_delay << MXC_F_SPIX_MASTER_CFG_INACT_DELAY_POS)); } /******************************************************************************/ #if defined ( __GNUC__ ) __attribute__ ((section(".spix_config"), noinline)) #endif /* __GNUC */ #if IAR_SPIX_PRAGMA #pragma location=".spix_config" // IAR locate function in RAM section .spix_config #pragma optimize=no_inline // IAR no inline optimization on this function #endif /* IAR_SPIX_PRAGMA */ void SPIX_ConfigFetch(const spix_fetch_t *fetch) { // Configure how the SPIX fetches data MXC_SPIX->fetch_ctrl = (((fetch->cmd << MXC_F_SPIX_FETCH_CTRL_CMD_VALUE_POS) & MXC_F_SPIX_FETCH_CTRL_CMD_VALUE) | ((fetch->cmd_width << MXC_F_SPIX_FETCH_CTRL_CMD_WIDTH_POS) & MXC_F_SPIX_FETCH_CTRL_CMD_WIDTH) | ((fetch->addr_width << MXC_F_SPIX_FETCH_CTRL_ADDR_WIDTH_POS) & MXC_F_SPIX_FETCH_CTRL_ADDR_WIDTH) | ((fetch->data_width << MXC_F_SPIX_FETCH_CTRL_DATA_WIDTH_POS) & MXC_F_SPIX_FETCH_CTRL_DATA_WIDTH) | ((fetch->addr_size << MXC_F_SPIX_FETCH_CTRL_FOUR_BYTE_ADDR_POS) & MXC_F_SPIX_FETCH_CTRL_FOUR_BYTE_ADDR)); // Set the command mode and clocks MXC_SPIX->mode_ctrl = (((fetch->mode_clocks << MXC_F_SPIX_MODE_CTRL_MODE_CLOCKS_POS) & MXC_F_SPIX_MODE_CTRL_MODE_CLOCKS) | (!!fetch->no_cmd_mode << MXC_F_SPIX_MODE_CTRL_NO_CMD_MODE_POS)); MXC_SPIX->mode_data = (((fetch->mode_data << MXC_F_SPIX_MODE_DATA_MODE_DATA_BITS_POS) & MXC_F_SPIX_MODE_DATA_MODE_DATA_BITS) | MXC_F_SPIX_MODE_DATA_MODE_DATA_OE); #if(MXC_SPIX_REV == 0) SPIX_UpdateFBIgnore(); #endif } /******************************************************************************/ #if defined ( __GNUC__ ) __attribute__ ((section(".spix_config"), noinline)) #endif /* __GNUC */ #if IAR_SPIX_PRAGMA #pragma location=".spix_config" // IAR locate function in RAM section .spix_config #pragma optimize=no_inline // IAR no inline optimization on this function #endif /* IAR_SPIX_PRAGMA */ int SPIX_Shutdown(mxc_spix_regs_t *spix) { int err; // Clear system level configurations if ((err = SYS_SPIX_Shutdown()) != E_NO_ERROR) { return err; } return E_NO_ERROR; }