/* * Copyright (c) 2006-2023, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2023-07-27 Chushicheng the first version */ #include "drv_spi.h" #include "pico/binary_info.h" #include "hardware/gpio.h" #include "hardware/spi.h" #include "hardware/dma.h" #ifdef BSP_USING_SPI #define DBG_TAG "drv.spi" #define DBG_LVL DBG_INFO #include struct pico_spi { struct rt_spi_bus parent; spi_inst_t *handle; rt_uint8_t spi_rx_pin; rt_uint8_t spi_tx_pin; rt_uint8_t spi_sck_pin; rt_uint8_t spi_cs_pin; rt_uint8_t dma_tx; rt_uint8_t dma_rx; char *device_name; }; static struct pico_spi pico_spi_obj[] = { #ifdef BSP_USING_SPI0 { .handle = spi0, .spi_rx_pin = BSP_SPI0_MISO_PIN, .spi_tx_pin = BSP_SPI0_MOSI_PIN, .spi_sck_pin = BSP_SPI0_SCK_PIN, .spi_cs_pin = BSP_SPI0_CS_PIN, .device_name = "spi0", }, #endif #ifdef BSP_USING_SPI1 { .handle = spi1, .spi_rx_pin = BSP_SPI1_MISO_PIN, .spi_tx_pin = BSP_SPI1_MOSI_PIN, .spi_sck_pin = BSP_SPI1_SCK_PIN, .spi_cs_pin = BSP_SPI1_CS_PIN, .device_name = "spi1", }, #endif }; static rt_err_t pico_spi_init(struct pico_spi *spi_drv, struct rt_spi_configuration *cfg) { RT_ASSERT(spi_drv != RT_NULL); RT_ASSERT(cfg != RT_NULL); spi_inst_t *spi_handle = spi_drv->handle; spi_cpol_t cpol; spi_cpha_t cpha; rt_uint8_t dma_transfer_size; if (cfg->mode & RT_SPI_SLAVE) { spi_set_slave(spi_handle, true); } else { spi_set_slave(spi_handle, false); } if (cfg->mode & RT_SPI_CPHA) { cpha = SPI_CPHA_1; } else { cpha = SPI_CPHA_0; } if (cfg->mode & RT_SPI_CPOL) { cpol = SPI_CPOL_1; } else { cpol = SPI_CPOL_0; } if (cfg->data_width >= 4 && cfg->data_width <= 16) { spi_set_format(spi_handle, cfg->data_width, cpol, cpha, SPI_MSB_FIRST); } else { return -RT_EIO; } LOG_D("spi baudrate:%d", cfg->max_hz); spi_init(spi_handle, cfg->max_hz); gpio_set_function(spi_drv->spi_rx_pin, GPIO_FUNC_SPI); gpio_init(spi_drv->spi_cs_pin); gpio_set_function(spi_drv->spi_sck_pin, GPIO_FUNC_SPI); gpio_set_function(spi_drv->spi_tx_pin, GPIO_FUNC_SPI); // Make the SPI pins available to picotool bi_decl(bi_3pins_with_func(spi_drv->spi_rx_pin, spi_drv->spi_tx_pin, spi_drv->spi_sck_pin, GPIO_FUNC_SPI)); // Make the CS pin available to picotool bi_decl(bi_1pin_with_name(spi_drv->spi_cs_pin, "SPI CS")); // Grab some unused dma channels spi_drv->dma_tx = dma_claim_unused_channel(true); spi_drv->dma_rx = dma_claim_unused_channel(true); /* DMA configuration */ if(cfg->data_width == 8) { dma_transfer_size = DMA_SIZE_8; } else if(cfg->data_width == 16) { dma_transfer_size = DMA_SIZE_16; } else if(cfg->data_width == 32) { dma_transfer_size = DMA_SIZE_32; } dma_channel_config c = dma_channel_get_default_config(spi_drv->dma_tx); channel_config_set_transfer_data_size(&c, dma_transfer_size); channel_config_set_dreq(&c, spi_get_index(spi_handle) ? DREQ_SPI1_TX : DREQ_SPI0_TX); dma_channel_set_config(spi_drv->dma_tx, &c, false); c = dma_channel_get_default_config(spi_drv->dma_rx); channel_config_set_transfer_data_size(&c, dma_transfer_size); channel_config_set_dreq(&c, spi_get_index(spi_handle) ? DREQ_SPI1_RX : DREQ_SPI0_RX); channel_config_set_read_increment(&c, false); channel_config_set_write_increment(&c, true); dma_channel_set_config(spi_drv->dma_rx, &c, false); return RT_EOK; } rt_err_t rt_hw_spi_device_attach(const char *bus_name, const char *device_name, rt_base_t cs_pin) { rt_err_t ret = RT_EOK; struct rt_spi_device *spi_device = (struct rt_spi_device *)rt_malloc(sizeof(struct rt_spi_device)); ret = rt_spi_bus_attach_device_cspin(spi_device, device_name, bus_name, cs_pin, RT_NULL); return ret; } static rt_ssize_t spixfer(struct rt_spi_device *device, struct rt_spi_message *message) { int i; RT_ASSERT(device != RT_NULL); RT_ASSERT(device->bus != RT_NULL); struct pico_spi *spi = rt_container_of(device->bus, struct pico_spi, parent); if(message->cs_take && (device->cs_pin != PIN_NONE)) { rt_pin_write(device->cs_pin, PIN_LOW); } dma_channel_config c = dma_get_channel_config(spi->dma_tx); dma_channel_configure(spi->dma_tx, &c, &spi_get_hw(spi->handle)->dr, // write address (uint8_t *)(message->send_buf), // read address message->length, // element count (each element is of size transfer_data_size) false); // don't start yet c = dma_get_channel_config(spi->dma_rx); dma_channel_configure(spi->dma_rx, &c, (uint8_t *)(message->recv_buf), // write address &spi_get_hw(spi->handle)->dr, // read address message->length, // element count (each element is of size transfer_data_size) false); // don't start yet dma_start_channel_mask((1u << spi->dma_tx) | (1u << spi->dma_rx)); dma_channel_wait_for_finish_blocking(spi->dma_tx); dma_channel_wait_for_finish_blocking(spi->dma_rx); if(message->cs_release && (device->cs_pin != PIN_NONE)) { rt_pin_write(device->cs_pin, PIN_HIGH); } return message->length; } static rt_err_t spi_configure(struct rt_spi_device *device, struct rt_spi_configuration *configuration) { rt_err_t ret = RT_EOK; struct pico_spi *spi = rt_container_of(device->bus, struct pico_spi, parent); ret = pico_spi_init(spi, configuration); return ret; } static const struct rt_spi_ops pico_spi_ops = { .configure = spi_configure, .xfer = spixfer, }; int rt_hw_spi_init(void) { int result = RT_EOK; for (rt_size_t i = 0; i < sizeof(pico_spi_obj) / sizeof(struct pico_spi); i++) { LOG_D("%s initing", pico_spi_obj[i].device_name); /* register spi device */ if (rt_spi_bus_register(&pico_spi_obj[i].parent, pico_spi_obj[i].device_name, &pico_spi_ops) == RT_EOK) { LOG_D("%s init success", pico_spi_obj[i].device_name); } else { LOG_E("%s register failed", pico_spi_obj[i].device_name); result = -RT_ERROR; } } return result; } INIT_BOARD_EXPORT(rt_hw_spi_init); #endif /* BSP_USING_SPI */