/* * This file is part of FH8620 BSP for RT-Thread distribution. * * Copyright (c) 2016 Shanghai Fullhan Microelectronics Co., Ltd. * All rights reserved * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * * Visit http://www.fullhan.com to get contact with Fullhan. * * Change Logs: * Date Author Notes */ #include "fh_def.h" #include "fh_arch.h" #include "inc/fh_driverlib.h" void SPI_EnableSlaveen(struct fh_spi_obj *spi_obj, rt_uint32_t port) { rt_uint32_t reg; reg = GET_REG(spi_obj->base + OFFSET_SPI_SER); reg |= (1 << port); SET_REG(spi_obj->base + OFFSET_SPI_SER, reg); } void SPI_DisableSlaveen(struct fh_spi_obj *spi_obj, rt_uint32_t port) { rt_uint32_t reg; reg = GET_REG(spi_obj->base + OFFSET_SPI_SER); reg &= ~(1 << port); SET_REG(spi_obj->base + OFFSET_SPI_SER, reg); } void SPI_SetTxLevel(struct fh_spi_obj *spi_obj, rt_uint32_t level) { SET_REG(spi_obj->base + OFFSET_SPI_TXFTLR, level); } void SPI_EnableInterrupt(struct fh_spi_obj *spi_obj, rt_uint32_t flag) { rt_uint32_t reg; reg = GET_REG(spi_obj->base + OFFSET_SPI_IMR); reg |= flag; SET_REG(spi_obj->base + OFFSET_SPI_IMR, reg); } void SPI_EnableDma(struct fh_spi_obj *spi_obj, rt_uint32_t channel) { rt_uint32_t reg; reg = GET_REG(spi_obj->base + OFFSET_SPI_DMACTRL); reg |= channel; SET_REG(spi_obj->base + OFFSET_SPI_DMACTRL, reg); } void SPI_DisableDma(struct fh_spi_obj *spi_obj, rt_uint32_t channel) { rt_uint32_t reg; reg = GET_REG(spi_obj->base + OFFSET_SPI_DMACTRL); reg &= ~channel; SET_REG(spi_obj->base + OFFSET_SPI_DMACTRL, reg); } void SPI_DisableInterrupt(struct fh_spi_obj *spi_obj, rt_uint32_t flag) { rt_uint32_t reg; reg = GET_REG(spi_obj->base + OFFSET_SPI_IMR); reg &= ~flag; SET_REG(spi_obj->base + OFFSET_SPI_IMR, reg); } rt_uint32_t SPI_InterruptStatus(struct fh_spi_obj *spi_obj) { return GET_REG(spi_obj->base + OFFSET_SPI_ISR); } void SPI_ClearInterrupt(struct fh_spi_obj *spi_obj) { GET_REG(spi_obj->base + OFFSET_SPI_ICR); } rt_uint32_t SPI_ReadTxFifoLevel(struct fh_spi_obj *spi_obj) { return GET_REG(spi_obj->base + OFFSET_SPI_TXFLR); } rt_uint32_t SPI_ReadRxFifoLevel(struct fh_spi_obj *spi_obj) { return GET_REG(spi_obj->base + OFFSET_SPI_RXFLR); } UINT8 SPI_ReadData(struct fh_spi_obj *spi_obj) { return GET_REG(spi_obj->base + OFFSET_SPI_DR) & 0xff; } void SPI_WriteData(struct fh_spi_obj *spi_obj, UINT8 data) { SET_REG(spi_obj->base + OFFSET_SPI_DR, data); } rt_uint32_t SPI_ReadStatus(struct fh_spi_obj *spi_obj) { return GET_REG(spi_obj->base + OFFSET_SPI_SR); } void SPI_Enable(struct fh_spi_obj *spi_obj, int enable) { SET_REG(spi_obj->base + OFFSET_SPI_SSIENR, enable); } void SPI_WriteTxDmaLevel(struct fh_spi_obj *spi_obj, rt_uint32_t data) { SET_REG(spi_obj->base + OFFSET_SPI_DMATDL, data); } void SPI_WriteRxDmaLevel(struct fh_spi_obj *spi_obj, rt_uint32_t data) { SET_REG(spi_obj->base + OFFSET_SPI_DMARDL, data); } void SPI_SetParameter(struct fh_spi_obj *spi_obj) { rt_uint32_t reg; struct spi_config *config; config = &spi_obj->config; SET_REG(spi_obj->base + OFFSET_SPI_BAUD, config->clk_div); reg = GET_REG(spi_obj->base + OFFSET_SPI_CTRL0); reg &= ~(0x3ff); reg |= config->data_size \ | config->frame_format \ | config->clk_phase \ | config->clk_polarity \ | config->transfer_mode; SET_REG(spi_obj->base + OFFSET_SPI_CTRL0, reg); }