/* * 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_i2c.h" rt_uint8_t i2c_read_or_write(volatile rt_uint32_t base, rt_uint8_t* buf, rt_uint32_t len, rt_uint8_t flag) { rt_uint32_t status; rt_uint32_t remaining = len; rt_uint32_t i = 0; rt_uint8_t reason = BCM283X_I2C_REASON_OK; /* Clear FIFO */ BCM283X_BSC_C(base) |= (BSC_C_CLEAR_1 & BSC_C_CLEAR_1); /* Clear Status */ BCM283X_BSC_S(base) = BSC_S_CLKT | BSC_S_ERR | BSC_S_DONE; /* Set Data Length */ BCM283X_BSC_DLEN(base) = len; if (flag) { /* Start read */ BCM283X_BSC_C(base) = BSC_C_I2CEN | BSC_C_ST | BSC_C_READ; /* wait for transfer to complete */ while (!(BCM283X_BSC_S(base) & BSC_S_DONE)) { /* we must empty the FIFO as it is populated and not use any delay */ while (remaining && (BCM283X_BSC_S(base) & BSC_S_RXD)) { /* Read from FIFO, no barrier */ buf[i] = BCM283X_BSC_FIFO(base); i++; remaining--; } } /* transfer has finished - grab any remaining stuff in FIFO */ while (remaining && (BCM283X_BSC_S(base) & BSC_S_RXD)) { /* Read from FIFO, no barrier */ buf[i] = BCM283X_BSC_FIFO(base); i++; remaining--; } } else { /* pre populate FIFO with max buffer */ while (remaining && (i < BSC_FIFO_SIZE)) { BCM283X_BSC_FIFO(base) = buf[i]; i++; remaining--; } /* Enable device and start transfer */ BCM283X_BSC_C(base) = BSC_C_I2CEN | BSC_C_ST; /* Transfer is over when BCM2835_BSC_S_DONE */ while (!(BCM283X_BSC_S(base) & BSC_S_DONE)) { while (remaining && (BCM283X_BSC_S(base) & BSC_S_TXD)) { /* Write to FIFO */ BCM283X_BSC_FIFO(base) = buf[i]; i++; remaining--; } } } status = BCM283X_BSC_S(base); if (status & BSC_S_ERR) { reason = BCM283X_I2C_REASON_ERROR_NACK; } else if (status & BSC_S_CLKT) { reason = BCM283X_I2C_REASON_ERROR_CLKT; } else if (remaining) { reason = BCM283X_I2C_REASON_ERROR_DATA; } BCM283X_BSC_C(base) |= (BSC_S_DONE & BSC_S_DONE); return reason; } struct raspi_i2c_hw_config { rt_uint8_t bsc_num; rt_uint8_t sdl_pin; rt_uint8_t scl_pin; rt_uint8_t sdl_mode; rt_uint8_t scl_mode; }; #if (defined(BSP_USING_I2C0) || defined(BSP_USING_I2C1)) static rt_size_t raspi_i2c_mst_xfer(struct rt_i2c_bus_device *bus, struct rt_i2c_msg msgs[], rt_uint32_t num); static rt_size_t raspi_i2c_slv_xfer(struct rt_i2c_bus_device *bus, struct rt_i2c_msg msgs[], rt_uint32_t num); static rt_err_t raspi_i2c_bus_control(struct rt_i2c_bus_device *bus, rt_uint32_t, rt_uint32_t); static rt_uint32_t i2c_byte_wait_us = 0; static rt_size_t raspi_i2c_mst_xfer(struct rt_i2c_bus_device *bus, struct rt_i2c_msg msgs[], rt_uint32_t num) { rt_size_t i; rt_uint8_t reason; RT_ASSERT(bus != RT_NULL); volatile rt_uint32_t base = (volatile rt_uint32_t)(bus->parent.user_data); if (bus->parent.user_data == 0) base = BCM283X_BSC0_BASE; else base = BCM283X_BSC1_BASE; BCM283X_BSC_A(base) = msgs->addr; for (i = 0; i < num; i++) { if (msgs[i].flags & RT_I2C_RD) reason = i2c_read_or_write(base, msgs->buf, msgs->len, 1); else reason = i2c_read_or_write(base, msgs->buf, msgs->len, 0); } return (reason == 0)? i : 0; } static rt_size_t raspi_i2c_slv_xfer(struct rt_i2c_bus_device *bus, struct rt_i2c_msg msgs[], rt_uint32_t num) { return 0; } static rt_err_t raspi_i2c_bus_control(struct rt_i2c_bus_device *bus, rt_uint32_t cmd, rt_uint32_t arg) { return RT_EOK; } static const struct rt_i2c_bus_device_ops raspi_i2c_ops = { .master_xfer = raspi_i2c_mst_xfer, .slave_xfer = raspi_i2c_slv_xfer, .i2c_bus_control = raspi_i2c_bus_control, }; static rt_err_t raspi_i2c_configure(struct raspi_i2c_hw_config *cfg) { RT_ASSERT(cfg != RT_NULL); volatile rt_uint32_t base = cfg->scl_mode ? BCM283X_BSC1_BASE : BCM283X_BSC0_BASE; GPIO_FSEL(cfg->sdl_pin, cfg->sdl_mode); /* SDA */ GPIO_FSEL(cfg->scl_pin, cfg->scl_mode); /* SCL */ /* use 0xFFFE mask to limit a max value and round down any odd number */ rt_uint32_t divider = (BCM283X_CORE_CLK_HZ / 10000) & 0xFFFE; BCM283X_BSC_DIV(base) = (rt_uint16_t) divider; i2c_byte_wait_us = (divider * 1000000 * 9 / BCM283X_CORE_CLK_HZ); return RT_EOK; } #endif #if defined (BSP_USING_I2C0) #define I2C0_BUS_NAME "i2c0" static struct raspi_i2c_hw_config hw_device0 = { .bsc_num = 0, .sdl_pin = RPI_GPIO_P1_27, .scl_pin = RPI_GPIO_P1_28, .sdl_mode = BCM283X_GPIO_FSEL_ALT0, .scl_mode = BCM283X_GPIO_FSEL_ALT0, }; struct rt_i2c_bus_device device0 = { .ops = &raspi_i2c_ops, }; #endif #if defined (BSP_USING_I2C1) #define I2C1_BUS_NAME "i2c1" static struct raspi_i2c_hw_config hw_device1 = { .bsc_num = 1, .sdl_pin = RPI_GPIO_P1_03, .scl_pin = RPI_GPIO_P1_05, .sdl_mode = BCM283X_GPIO_FSEL_ALT0, .scl_mode = BCM283X_GPIO_FSEL_ALT0, }; struct rt_i2c_bus_device device1 = { .ops = &raspi_i2c_ops, }; #endif int rt_hw_i2c_init(void) { #if defined(BSP_USING_I2C0) device0.parent.user_data = (void *)0; raspi_i2c_configure(&hw_device0); rt_i2c_bus_device_register(&device0, I2C0_BUS_NAME); #endif #if defined(BSP_USING_I2C1) device1.parent.user_data = (void *)1; raspi_i2c_configure(&hw_device1); rt_i2c_bus_device_register(&device1, I2C1_BUS_NAME); #endif return 0; } INIT_DEVICE_EXPORT(rt_hw_i2c_init);