/* * Copyright (c) 2006-2021, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2021-08-23 Mr.Tiger first version * 2021-11-04 Sherman ADD complete_event * 2022-12-7 Vandoul ADD sci spi */ /**< Note : Turn on any DMA mode and all SPIs will turn on DMA */ #include "drv_sci_spi.h" #ifdef RT_USING_SPI //#define DRV_DEBUG #define DBG_TAG "drv.scispi" #ifdef DRV_DEBUG #define DBG_LVL DBG_LOG #else #define DBG_LVL DBG_INFO #endif /* DRV_DEBUG */ #include #define RA_SCI_SPI0_EVENT 0x0001 #define RA_SCI_SPI1_EVENT 0x0002 #define RA_SCI_SPI2_EVENT 0x0004 #define RA_SCI_SPI3_EVENT 0x0008 #define RA_SCI_SPI4_EVENT 0x0010 #define RA_SCI_SPI5_EVENT 0x0020 #define RA_SCI_SPI6_EVENT 0x0040 #define RA_SCI_SPI7_EVENT 0x0080 #define RA_SCI_SPI8_EVENT 0x0100 #define RA_SCI_SPI9_EVENT 0x0200 static struct rt_event complete_event = {0}; static struct ra_sci_spi_handle spi_handle[] = { #ifdef BSP_USING_SCI_SPI0 {.bus_name = "scpi0", .spi_ctrl_t = &g_sci_spi0_ctrl, .spi_cfg_t = &g_sci_spi0_cfg,}, #endif #ifdef BSP_USING_SCI_SPI1 {.bus_name = "scpi1", .spi_ctrl_t = &g_sci_spi1_ctrl, .spi_cfg_t = &g_sci_spi1_cfg,}, #endif #ifdef BSP_USING_SCI_SPI2 {.bus_name = "scpi2", .spi_ctrl_t = &g_sci_spi2_ctrl, .spi_cfg_t = &g_sci_spi2_cfg,}, #endif #ifdef BSP_USING_SCI_SPI3 {.bus_name = "scpi3", .spi_ctrl_t = &g_sci_spi3_ctrl, .spi_cfg_t = &g_sci_spi3_cfg,}, #endif #ifdef BSP_USING_SCI_SPI4 {.bus_name = "scpi4", .spi_ctrl_t = &g_sci_spi4_ctrl, .spi_cfg_t = &g_sci_spi4_cfg,}, #endif #ifdef BSP_USING_SCI_SPI5 {.bus_name = "scpi5", .spi_ctrl_t = &g_sci_spi5_ctrl, .spi_cfg_t = &g_sci_spi5_cfg,}, #endif #ifdef BSP_USING_SCI_SPI6 {.bus_name = "scpi6", .spi_ctrl_t = &g_sci_spi6_ctrl, .spi_cfg_t = &g_sci_spi6_cfg,}, #endif #ifdef BSP_USING_SCI_SPI7 {.bus_name = "scpi7", .spi_ctrl_t = &g_sci_spi7_ctrl, .spi_cfg_t = &g_sci_spi7_cfg,}, #endif #ifdef BSP_USING_SCI_SPI8 {.bus_name = "scpi8", .spi_ctrl_t = &g_sci_spi8_ctrl, .spi_cfg_t = &g_sci_spi8_cfg,}, #endif #ifdef BSP_USING_SCI_SPI9 {.bus_name = "scpi9", .spi_ctrl_t = &g_sci_spi9_ctrl, .spi_cfg_t = &g_sci_spi9_cfg,}, #endif }; static struct ra_sci_spi spi_config[sizeof(spi_handle) / sizeof(spi_handle[0])] = {0}; #define SCI_SPIx_CALLBACK(n) \ void sci_spi##n##_callback(spi_callback_args_t *p_args) \ { \ rt_interrupt_enter(); \ if (SPI_EVENT_TRANSFER_COMPLETE == p_args->event) \ { \ rt_event_send(&complete_event, RA_SCI_SPI##n##_EVENT); \ } \ rt_interrupt_leave(); \ } SCI_SPIx_CALLBACK(0); SCI_SPIx_CALLBACK(1); SCI_SPIx_CALLBACK(2); SCI_SPIx_CALLBACK(3); SCI_SPIx_CALLBACK(4); SCI_SPIx_CALLBACK(5); SCI_SPIx_CALLBACK(6); SCI_SPIx_CALLBACK(7); SCI_SPIx_CALLBACK(8); SCI_SPIx_CALLBACK(9); #define SCI_SPIx_EVENT_RECV(n) \ rt_event_recv(event, \ RA_SCI_SPI##n##_EVENT, \ RT_EVENT_FLAG_OR | RT_EVENT_FLAG_CLEAR, \ RT_WAITING_FOREVER, \ &recved); static rt_err_t ra_wait_complete(rt_event_t event, const char bus_name[RT_NAME_MAX]) { rt_uint32_t recved = 0x00; switch (bus_name[6]) { case '0': return SCI_SPIx_EVENT_RECV(0); case '1': return SCI_SPIx_EVENT_RECV(1); case '2': return SCI_SPIx_EVENT_RECV(2); case '3': return SCI_SPIx_EVENT_RECV(3); case '4': return SCI_SPIx_EVENT_RECV(4); case '5': return SCI_SPIx_EVENT_RECV(5); case '6': return SCI_SPIx_EVENT_RECV(6); case '7': return SCI_SPIx_EVENT_RECV(7); case '8': return SCI_SPIx_EVENT_RECV(8); case '9': return SCI_SPIx_EVENT_RECV(9); } return -RT_EINVAL; } static spi_bit_width_t ra_width_shift(rt_uint8_t data_width) { spi_bit_width_t bit_width = SPI_BIT_WIDTH_8_BITS; if(data_width == 1) bit_width = SPI_BIT_WIDTH_8_BITS; else if(data_width == 2) bit_width = SPI_BIT_WIDTH_16_BITS; else if(data_width == 4) bit_width = SPI_BIT_WIDTH_32_BITS; return bit_width; } static rt_err_t ra_write_message(struct rt_spi_device *device, const void *send_buf, const rt_size_t len) { RT_ASSERT(device != NULL); RT_ASSERT(device->parent.user_data != NULL); RT_ASSERT(send_buf != NULL); RT_ASSERT(len > 0); rt_err_t err = RT_EOK; struct ra_sci_spi *spi_dev = rt_container_of(device->bus, struct ra_sci_spi, bus); spi_bit_width_t bit_width = ra_width_shift(spi_dev->rt_spi_cfg_t->data_width); /**< send msessage */ err = R_SCI_SPI_Write((spi_ctrl_t *)spi_dev->ra_spi_handle_t->spi_ctrl_t, send_buf, len, bit_width); if (RT_EOK != err) { LOG_E("%s write failed. %d", spi_dev->ra_spi_handle_t->bus_name, err); return -RT_ERROR; } /* Wait for SPI_EVENT_TRANSFER_COMPLETE callback event. */ ra_wait_complete(&complete_event, spi_dev->ra_spi_handle_t->bus_name); return len; } static rt_err_t ra_read_message(struct rt_spi_device *device, void *recv_buf, const rt_size_t len) { RT_ASSERT(device != NULL); RT_ASSERT(device->parent.user_data != NULL); RT_ASSERT(recv_buf != NULL); RT_ASSERT(len > 0); rt_err_t err = RT_EOK; struct ra_sci_spi *spi_dev = rt_container_of(device->bus, struct ra_sci_spi, bus); spi_bit_width_t bit_width = ra_width_shift(spi_dev->rt_spi_cfg_t->data_width); /**< receive message */ err = R_SCI_SPI_Read((spi_ctrl_t *)spi_dev->ra_spi_handle_t->spi_ctrl_t, recv_buf, len, bit_width); if (RT_EOK != err) { LOG_E("%s write failed. %d", spi_dev->ra_spi_handle_t->bus_name, err); return -RT_ERROR; } /* Wait for SPI_EVENT_TRANSFER_COMPLETE callback event. */ ra_wait_complete(&complete_event, spi_dev->ra_spi_handle_t->bus_name); return len; } static rt_err_t ra_write_read_message(struct rt_spi_device *device, struct rt_spi_message *message) { RT_ASSERT(device != NULL); RT_ASSERT(message != NULL); RT_ASSERT(message->length > 0); rt_err_t err = RT_EOK; struct ra_sci_spi *spi_dev = rt_container_of(device->bus, struct ra_sci_spi, bus); spi_bit_width_t bit_width = ra_width_shift(spi_dev->rt_spi_cfg_t->data_width); /**< write and receive message */ err = R_SCI_SPI_WriteRead((spi_ctrl_t *)spi_dev->ra_spi_handle_t->spi_ctrl_t, message->send_buf, message->recv_buf, message->length, bit_width); if (RT_EOK != err) { LOG_E("%s write and read failed. %d", spi_dev->ra_spi_handle_t->bus_name, err); return -RT_ERROR; } /* Wait for SPI_EVENT_TRANSFER_COMPLETE callback event. */ ra_wait_complete(&complete_event, spi_dev->ra_spi_handle_t->bus_name); return message->length; } /**< init spi TODO : MSB does not support modification */ static rt_err_t ra_hw_spi_configure(struct rt_spi_device *device, struct rt_spi_configuration *configuration) { RT_ASSERT(device != NULL); RT_ASSERT(configuration != NULL); rt_err_t err = RT_EOK; struct ra_sci_spi *spi_dev = rt_container_of(device->bus, struct ra_sci_spi, bus); spi_dev->cs_pin = (rt_uint32_t)device->parent.user_data; /**< data_width : 1 -> 8 bits , 2 -> 16 bits, 4 -> 32 bits, default 32 bits*/ rt_uint8_t data_width = configuration->data_width / 8; RT_ASSERT(data_width == 1 || data_width == 2 || data_width == 4); configuration->data_width = configuration->data_width / 8; spi_dev->rt_spi_cfg_t = configuration; sci_spi_extended_cfg_t *spi_cfg = (sci_spi_extended_cfg_t *)spi_dev->ra_spi_handle_t->spi_cfg_t->p_extend; /**< Configure Select Line */ rt_pin_write(spi_dev->cs_pin, PIN_HIGH); /**< config bitrate */ R_SCI_SPI_CalculateBitrate(spi_dev->rt_spi_cfg_t->max_hz, &spi_cfg->clk_div, false); /**< init */ err = R_SCI_SPI_Open((spi_ctrl_t *)spi_dev->ra_spi_handle_t->spi_ctrl_t, (spi_cfg_t const * const)spi_dev->ra_spi_handle_t->spi_cfg_t); /* handle error */ if(err == FSP_ERR_IN_USE) { R_SCI_SPI_Close((spi_ctrl_t *)spi_dev->ra_spi_handle_t->spi_ctrl_t); err = R_SCI_SPI_Open((spi_ctrl_t *)spi_dev->ra_spi_handle_t->spi_ctrl_t, (spi_cfg_t const * const)spi_dev->ra_spi_handle_t->spi_cfg_t); } if (RT_EOK != err) { LOG_E("%s init failed. %d", spi_dev->ra_spi_handle_t->bus_name, err); return -RT_ERROR; } return RT_EOK; } static rt_uint32_t ra_spixfer(struct rt_spi_device *device, struct rt_spi_message *message) { RT_ASSERT(device != RT_NULL); RT_ASSERT(device->bus != RT_NULL); RT_ASSERT(message != RT_NULL); rt_err_t err = RT_EOK; struct ra_sci_spi *spi_dev = rt_container_of(device->bus, struct ra_sci_spi, bus); spi_dev->cs_pin = (rt_uint32_t)device->parent.user_data; if (message->cs_take && !(device->config.mode & RT_SPI_NO_CS)) { if (device->config.mode & RT_SPI_CS_HIGH) rt_pin_write(spi_dev->cs_pin, PIN_HIGH); else rt_pin_write(spi_dev->cs_pin, PIN_LOW); } if (message->length > 0) { if (message->send_buf == RT_NULL && message->recv_buf != RT_NULL) { /**< receive message */ err = ra_read_message(device, (void *)message->recv_buf, (const rt_size_t)message->length); } else if (message->send_buf != RT_NULL && message->recv_buf == RT_NULL) { /**< send message */ err = ra_write_message(device, (const void *)message->send_buf, (const rt_size_t)message->length); } else if (message->send_buf != RT_NULL && message->recv_buf != RT_NULL) { /**< send and receive message */ err = ra_write_read_message(device, message); } } if (message->cs_release && !(device->config.mode & RT_SPI_NO_CS)) { if (device->config.mode & RT_SPI_CS_HIGH) rt_pin_write(spi_dev->cs_pin, PIN_LOW); else rt_pin_write(spi_dev->cs_pin, PIN_HIGH); } return err; } static const struct rt_spi_ops ra_spi_ops = { .configure = ra_hw_spi_configure, .xfer = ra_spixfer, }; int ra_hw_sci_spi_init(void) { for (rt_uint8_t spi_index = 0; spi_index < sizeof(spi_handle) / sizeof(spi_handle[0]); spi_index++) { spi_config[spi_index].ra_spi_handle_t = &spi_handle[spi_index]; /**< register spi bus */ rt_err_t err = rt_spi_bus_register(&spi_config[spi_index].bus, spi_handle[spi_index].bus_name, &ra_spi_ops); if (RT_EOK != err) { LOG_E("%s bus register failed. %d", spi_config[spi_index].ra_spi_handle_t->bus_name, err); return -RT_ERROR; } } if (RT_EOK != rt_event_init(&complete_event, "ra_scispi", RT_IPC_FLAG_PRIO)) { LOG_E("SPI transfer event init fail!"); return -RT_ERROR; } return RT_EOK; } INIT_BOARD_EXPORT(ra_hw_sci_spi_init); #endif /* RT_USING_SPI */