/* * Copyright (c) 2006-2021, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2019-07-29 zdzn first version */ #include "drv_spi.h" #ifdef RT_USING_SPI #define RPI_CORE_CLK_HZ 250000000 #define BSP_SPI_MAX_HZ (30* 1000 *1000) #define SPITIMEOUT 0x0FFF void spi_gpio_write(rt_uint8_t pin, rt_uint8_t val) { if (val) BCM283X_GPIO_GPSET((pin / 32)) = 1 << (pin % 32); else BCM283X_GPIO_GPCLR((pin / 32)) = 1 << (pin % 32); } struct raspi_spi_hw_config { rt_uint8_t spi_num; raspi_gpio_pin sclk_pin; raspi_pin_select sclk_mode; raspi_gpio_pin mosi_pin; raspi_pin_select mosi_mode; raspi_gpio_pin miso_pin; raspi_pin_select miso_mode; #if defined (BSP_USING_SPI0_DEVICE0) || defined (BSP_USING_SPI1_DEVICE0) raspi_gpio_pin ce0_pin; raspi_pin_select ce0_mode; #endif #if defined (BSP_USING_SPI0_DEVICE1) || defined (BSP_USING_SPI1_DEVICE1) raspi_gpio_pin ce1_pin; raspi_pin_select ce1_mode; #endif #if defined (BSP_USING_SPI1_DEVICE2) raspi_gpio_pin ce2_pin; raspi_pin_select ce2_mode; #endif }; struct raspi_spi_device { char *device_name; struct rt_spi_bus *spi_bus; struct rt_spi_device *spi_device; raspi_gpio_pin cs_pin; }; static rt_err_t raspi_spi_configure(struct rt_spi_device *device, struct rt_spi_configuration *cfg) { RT_ASSERT(cfg != RT_NULL); RT_ASSERT(device != RT_NULL); rt_uint16_t divider; // spi clear fifo BCM283X_SPI0_CS(BCM283X_SPI0_BASE) |= BCM283X_SPI0_CS_CLEAR; if (cfg->mode & RT_SPI_CPOL) BCM283X_SPI0_CS(BCM283X_SPI0_BASE) |= BCM283X_SPI0_CS_CPOL; if (cfg->mode & RT_SPI_CPHA) BCM283X_SPI0_CS(BCM283X_SPI0_BASE) |= BCM283X_SPI0_CS_CPHA; if (cfg->mode & RT_SPI_CS_HIGH) BCM283X_SPI0_CS(BCM283X_SPI0_BASE) |= BCM283X_SPI0_CS_CSPOL; //set clk if (cfg->max_hz > BSP_SPI_MAX_HZ) cfg->max_hz = BSP_SPI_MAX_HZ; divider = (rt_uint16_t) ((rt_uint32_t) RPI_CORE_CLK_HZ / cfg->max_hz); divider &= 0xFFFE; BCM283X_SPI0_CLK(BCM283X_SPI0_BASE) = divider; return RT_EOK; } rt_uint8_t correct_order(rt_uint8_t b, rt_uint8_t flag) { if (flag) return raspi_byte_reverse_table[b]; else return b; } static rt_err_t spi_transfernb(rt_uint8_t* tbuf, rt_uint8_t* rbuf, rt_uint32_t len, rt_uint8_t flag) { rt_uint32_t TXCnt=0; rt_uint32_t RXCnt=0; /* Clear TX and RX fifos */ BCM283X_SPI0_CS(BCM283X_SPI0_BASE) |= (BCM283X_SPI0_CS_CLEAR & BCM283X_SPI0_CS_CLEAR); /* Set TA = 1 */ BCM283X_SPI0_CS(BCM283X_SPI0_BASE) |= (BCM283X_SPI0_CS_TA & BCM283X_SPI0_CS_TA); /* Use the FIFO's to reduce the interbyte times */ while ((TXCnt < len) || (RXCnt < len)) { /* TX fifo not full, so add some more bytes */ while (((BCM283X_SPI0_CS(BCM283X_SPI0_BASE) & BCM283X_SPI0_CS_TXD)) && (TXCnt < len)) { BCM283X_SPI0_FIFO(BCM283X_SPI0_BASE) = correct_order(tbuf[TXCnt],flag); TXCnt++; } /* Rx fifo not empty, so get the next received bytes */ while (((BCM283X_SPI0_CS(BCM283X_SPI0_BASE) & BCM283X_SPI0_CS_RXD)) && (RXCnt < len)) { rbuf[RXCnt] = correct_order(BCM283X_SPI0_FIFO(BCM283X_SPI0_BASE),flag); RXCnt++; } } /* Wait for DONE to be set */ while (!(BCM283X_SPI0_CS(BCM283X_SPI0_BASE) & BCM283X_SPI0_CS_DONE)); /* Set TA = 0, and also set the barrier */ BCM283X_SPI0_CS(BCM283X_SPI0_BASE) |= (0 & BCM283X_SPI0_CS_TA); return RT_EOK; } static rt_uint32_t raspi_spi_xfer(struct rt_spi_device *device, struct rt_spi_message *message) { RT_ASSERT(device != RT_NULL); RT_ASSERT(device->bus != RT_NULL); RT_ASSERT(device->parent.user_data != RT_NULL); RT_ASSERT(message->send_buf != RT_NULL || message->recv_buf != RT_NULL); rt_err_t res; rt_uint8_t flag; struct rt_spi_configuration config = device->config; raspi_gpio_pin cs_pin = (raspi_gpio_pin)device->parent.user_data; if (config.mode & RT_SPI_MSB) flag = 0; else flag = 1; if (message->cs_take); // (config.mode & RT_SPI_CS_HIGH)? // spi_gpio_write(cs_pin, 1): // spi_gpio_write(cs_pin, 0); /* deal data */ res = spi_transfernb((rt_uint8_t *)message->send_buf, (rt_uint8_t *)message->recv_buf, (rt_int32_t)message->length, flag); if (message->cs_release) (config.mode & RT_SPI_CS_HIGH)? spi_gpio_write(cs_pin, 0): spi_gpio_write(cs_pin, 1); if (res != RT_EOK) return RT_ERROR; return message->length; } rt_err_t raspi_spi_bus_attach_device(const char *bus_name, struct raspi_spi_device *device) { rt_err_t ret; RT_ASSERT(device != RT_NULL); ret = rt_spi_bus_attach_device(device->spi_device, device->device_name, bus_name, (void *)(device->cs_pin)); return ret; } rt_err_t raspi_spi_hw_init(struct raspi_spi_hw_config *hwcfg) { GPIO_FSEL(hwcfg->sclk_pin, hwcfg->sclk_mode); GPIO_FSEL(hwcfg->miso_pin, hwcfg->miso_mode); GPIO_FSEL(hwcfg->mosi_pin, hwcfg->mosi_mode); #if defined (BSP_USING_SPI0_DEVICE0) GPIO_FSEL(hwcfg->ce0_pin, hwcfg->ce0_mode); #endif #if defined (BSP_USING_SPI0_DEVICE1) GPIO_FSEL(hwcfg->ce1_pin, hwcfg->ce1_mode); #endif BCM283X_SPI0_CS(BCM283X_SPI0_BASE) = 0; BCM283X_SPI0_CS(BCM283X_SPI0_BASE) = BCM283X_SPI0_CS_CLEAR; //enable chip select #if defined (BSP_USING_SPI0_DEVICE0) BCM283X_SPI0_CS(BCM283X_SPI0_BASE) |= 0; #endif #if defined (BSP_USING_SPI0_DEVICE1) BCM283X_SPI0_CS(BCM283X_SPI0_BASE) |= 0x2; #endif #if defined (BSP_USING_SPI0_DEVICE0) && defined (BSP_USING_SPI0_DEVICE1) BCM283X_SPI0_CS(BCM283X_SPI0_BASE) |= BCM283X_SPI0_CS_CS; #endif return RT_EOK; } static struct rt_spi_ops raspi_spi_ops = { .configure = raspi_spi_configure, .xfer = raspi_spi_xfer }; #if defined (BSP_USING_SPI0_BUS) #define SPI0_BUS_NAME "spi0" #define SPI0_DEVICE0_NAME "spi0.0" #define SPI0_DEVICE1_NAME "spi0.1" struct rt_spi_bus spi0_bus; #if defined (BSP_USING_SPI0_DEVICE0) struct rt_spi_device spi0_device0; #endif #if defined (BSP_USING_SPI0_DEVICE1) static struct rt_spi_device spi0_device1; #endif struct raspi_spi_hw_config raspi_spi0_hw = { .spi_num = 0, .sclk_pin = RPI_GPIO_P1_23, .sclk_mode = BCM283X_GPIO_FSEL_ALT0, .mosi_pin = RPI_GPIO_P1_19, .mosi_mode = BCM283X_GPIO_FSEL_ALT0, .miso_pin = RPI_GPIO_P1_21, .miso_mode = BCM283X_GPIO_FSEL_ALT0, #if defined (BSP_USING_SPI0_DEVICE0) .ce0_pin = RPI_GPIO_P1_24, .ce0_mode = BCM283X_GPIO_FSEL_ALT0, #endif #if defined (BSP_USING_SPI0_DEVICE1) .ce1_pin = RPI_GPIO_P1_26, .ce1_mode = BCM283X_GPIO_FSEL_ALT0, #endif }; #endif int rt_hw_spi_init(void) { #if defined (BSP_USING_SPI0_BUS) raspi_spi_hw_init(&raspi_spi0_hw); rt_spi_bus_register(&spi0_bus, SPI0_BUS_NAME, &raspi_spi_ops); #if defined (BSP_USING_SPI0_DEVICE0) struct raspi_spi_device raspi_spi0_device0 = { .device_name = SPI0_DEVICE0_NAME, .spi_bus = &spi0_bus, .spi_device = &spi0_device0, .cs_pin = raspi_spi0_hw.ce0_pin, }; raspi_spi_bus_attach_device(SPI0_BUS_NAME, &raspi_spi0_device0); #endif #if defined (BSP_USING_SPI0_DEVICE1) struct raspi_spi_device raspi_spi0_device1 = { .device_name = SPI0_DEVICE1_NAME, .spi_bus = &spi0_bus, .spi_device = &spi0_device1, .cs_pin = raspi_spi0_hw.ce1_pin, }; raspi_spi_bus_attach_device(SPI0_BUS_NAME, &raspi_spi0_device1); #endif #endif return RT_EOK; } INIT_DEVICE_EXPORT(rt_hw_spi_init); #endif