/* * Copyright (c) 2018 Justin Watson * Copyright (c) 2016 Piotr Mienkowski * SPDX-License-Identifier: Apache-2.0 */ /** @file * @brief USART driver for Atmel SAM MCU family. * * Note: * - Only basic USART features sufficient to support printf functionality * are currently implemented. */ #include #include #include #include #include #include /* * Verify Kconfig configuration */ #if CONFIG_USART_SAM_PORT_0 == 1 #if CONFIG_USART_SAM_PORT_0_BAUD_RATE == 0 #error "CONFIG_USART_SAM_PORT_0_BAUD_RATE has to be bigger than 0" #endif #endif #if CONFIG_USART_SAM_PORT_1 == 1 #if CONFIG_USART_SAM_PORT_1_BAUD_RATE == 0 #error "CONFIG_USART_SAM_PORT_1_BAUD_RATE has to be bigger than 0" #endif #endif #if CONFIG_USART_SAM_PORT_2 == 1 #if CONFIG_USART_SAM_PORT_2_BAUD_RATE == 0 #error "CONFIG_USART_SAM_PORT_2_BAUD_RATE has to be bigger than 0" #endif #endif /* Device constant configuration parameters */ struct usart_sam_dev_cfg { Usart *regs; u32_t periph_id; struct soc_gpio_pin pin_rx; struct soc_gpio_pin pin_tx; #ifdef CONFIG_UART_INTERRUPT_DRIVEN uart_irq_config_func_t irq_config_func; #endif }; /* Device run time data */ struct usart_sam_dev_data { u32_t baud_rate; #ifdef CONFIG_UART_INTERRUPT_DRIVEN uart_irq_callback_user_data_t irq_cb; /* Interrupt Callback */ void *cb_data; /* Interrupt Callback Arg */ #endif /* CONFIG_UART_INTERRUPT_DRIVEN */ }; #define DEV_CFG(dev) \ ((const struct usart_sam_dev_cfg *const)(dev)->config->config_info) #define DEV_DATA(dev) \ ((struct usart_sam_dev_data *const)(dev)->driver_data) static int baudrate_set(Usart *const usart, u32_t baudrate, u32_t mck_freq_hz); static int usart_sam_init(struct device *dev) { int retval; const struct usart_sam_dev_cfg *const cfg = DEV_CFG(dev); struct usart_sam_dev_data *const dev_data = DEV_DATA(dev); Usart *const usart = cfg->regs; /* Enable USART clock in PMC */ soc_pmc_peripheral_enable(cfg->periph_id); /* Connect pins to the peripheral */ soc_gpio_configure(&cfg->pin_rx); soc_gpio_configure(&cfg->pin_tx); /* Reset and disable USART */ usart->US_CR = US_CR_RSTRX | US_CR_RSTTX | US_CR_RXDIS | US_CR_TXDIS | US_CR_RSTSTA; /* Disable Interrupts */ usart->US_IDR = 0xFFFFFFFF; /* 8 bits of data, no parity, 1 stop bit in normal mode */ usart->US_MR = US_MR_NBSTOP_1_BIT | US_MR_PAR_NO | US_MR_CHRL_8_BIT | US_MR_USCLKS_MCK | US_MR_CHMODE_NORMAL; /* Set baud rate */ retval = baudrate_set(usart, dev_data->baud_rate, SOC_ATMEL_SAM_MCK_FREQ_HZ); if (retval != 0) { return retval; }; /* Enable receiver and transmitter */ usart->US_CR = US_CR_RXEN | US_CR_TXEN; #ifdef CONFIG_UART_INTERRUPT_DRIVEN cfg->irq_config_func(dev); #endif /* CONFIG_UART_INTERRUPT_DRIVEN */ return 0; } static int usart_sam_poll_in(struct device *dev, unsigned char *c) { Usart *const usart = DEV_CFG(dev)->regs; if (!(usart->US_CSR & US_CSR_RXRDY)) { return -EBUSY; } /* got a character */ *c = (unsigned char)usart->US_RHR; return 0; } static unsigned char usart_sam_poll_out(struct device *dev, unsigned char c) { Usart *const usart = DEV_CFG(dev)->regs; /* Wait for transmitter to be ready */ while (!(usart->US_CSR & US_CSR_TXRDY)) { ; } /* send a character */ usart->US_THR = (u32_t)c; return c; } static int usart_sam_err_check(struct device *dev) { volatile Usart * const usart = DEV_CFG(dev)->regs; int errors = 0; if (usart->US_CSR & US_CSR_OVRE) { errors |= UART_ERROR_OVERRUN; } if (usart->US_CSR & US_CSR_PARE) { errors |= UART_ERROR_PARITY; } if (usart->US_CSR & US_CSR_FRAME) { errors |= UART_ERROR_FRAMING; } return errors; } static int baudrate_set(Usart *const usart, u32_t baudrate, u32_t mck_freq_hz) { u32_t divisor; __ASSERT(baudrate, "baud rate has to be bigger than 0"); __ASSERT(mck_freq_hz/16 >= baudrate, "MCK frequency is too small to set required baud rate"); divisor = mck_freq_hz / 16 / baudrate; if (divisor > 0xFFFF) { return -EINVAL; }; usart->US_BRGR = US_BRGR_CD(divisor); return 0; } #if CONFIG_UART_INTERRUPT_DRIVEN static int usart_sam_fifo_fill(struct device *dev, const uint8_t *tx_data, int size) { volatile Usart * const usart = DEV_CFG(dev)->regs; /* Wait for transmitter to be ready. */ while ((usart->US_CSR & US_CSR_TXRDY) == 0) { ; } usart->US_THR = *tx_data; return 1; } static int usart_sam_fifo_read(struct device *dev, uint8_t *rx_data, const int size) { volatile Usart * const usart = DEV_CFG(dev)->regs; int bytes_read; bytes_read = 0; while (bytes_read < size) { if (usart->US_CSR & US_CSR_RXRDY) { rx_data[bytes_read] = usart->US_RHR; bytes_read++; } else { break; } } return bytes_read; } static void usart_sam_irq_tx_enable(struct device *dev) { volatile Usart * const usart = DEV_CFG(dev)->regs; usart->US_IER = US_IER_TXRDY; } static void usart_sam_irq_tx_disable(struct device *dev) { volatile Usart * const usart = DEV_CFG(dev)->regs; usart->US_IDR = US_IDR_TXRDY; } static int usart_sam_irq_tx_ready(struct device *dev) { volatile Usart * const usart = DEV_CFG(dev)->regs; return (usart->US_CSR & US_CSR_TXRDY); } static void usart_sam_irq_rx_enable(struct device *dev) { volatile Usart * const usart = DEV_CFG(dev)->regs; usart->US_IER = US_IER_RXRDY; } static void usart_sam_irq_rx_disable(struct device *dev) { volatile Usart * const usart = DEV_CFG(dev)->regs; usart->US_IDR = US_IDR_RXRDY; } static int usart_sam_irq_tx_complete(struct device *dev) { volatile Usart * const usart = DEV_CFG(dev)->regs; return !(usart->US_CSR & US_CSR_TXRDY); } static int usart_sam_irq_rx_ready(struct device *dev) { volatile Usart * const usart = DEV_CFG(dev)->regs; return (usart->US_CSR & US_CSR_RXRDY); } static void usart_sam_irq_err_enable(struct device *dev) { volatile Usart * const usart = DEV_CFG(dev)->regs; usart->US_IER = US_IER_OVRE | US_IER_FRAME | US_IER_PARE; } static void usart_sam_irq_err_disable(struct device *dev) { volatile Usart * const usart = DEV_CFG(dev)->regs; usart->US_IDR = US_IDR_OVRE | US_IDR_FRAME | US_IDR_PARE; } static int usart_sam_irq_is_pending(struct device *dev) { volatile Usart * const usart = DEV_CFG(dev)->regs; return ((usart->US_CSR & US_CSR_TXRDY) | (usart->US_CSR & US_CSR_RXRDY)); } static int usart_sam_irq_update(struct device *dev) { volatile Usart * const usart = DEV_CFG(dev)->regs; return (usart->US_CSR & US_CSR_TXEMPTY); } static void usart_sam_irq_callback_set(struct device *dev, uart_irq_callback_user_data_t cb, void *cb_data) { struct usart_sam_dev_data *const dev_data = DEV_DATA(dev); dev_data->irq_cb = cb; dev_data->cb_data = cb_data; } static void usart_sam_isr(void *arg) { struct device *dev = arg; struct usart_sam_dev_data *const dev_data = DEV_DATA(dev); if (dev_data->irq_cb) { dev_data->irq_cb(dev_data->cb_data); } } #endif /* CONFIG_UART_INTERRUPT_DRIVEN */ static const struct uart_driver_api usart_sam_driver_api = { .poll_in = usart_sam_poll_in, .poll_out = usart_sam_poll_out, .err_check = usart_sam_err_check, #ifdef CONFIG_UART_INTERRUPT_DRIVEN .fifo_fill = usart_sam_fifo_fill, .fifo_read = usart_sam_fifo_read, .irq_tx_enable = usart_sam_irq_tx_enable, .irq_tx_disable = usart_sam_irq_tx_disable, .irq_tx_ready = usart_sam_irq_tx_ready, .irq_rx_enable = usart_sam_irq_rx_enable, .irq_rx_disable = usart_sam_irq_rx_disable, .irq_tx_complete = usart_sam_irq_tx_complete, .irq_rx_ready = usart_sam_irq_rx_ready, .irq_err_enable = usart_sam_irq_err_enable, .irq_err_disable = usart_sam_irq_err_disable, .irq_is_pending = usart_sam_irq_is_pending, .irq_update = usart_sam_irq_update, .irq_callback_set = usart_sam_irq_callback_set, #endif /* CONFIG_UART_INTERRUPT_DRIVEN */ }; /* USART0 */ #ifdef CONFIG_USART_SAM_PORT_0 #ifdef CONFIG_UART_INTERRUPT_DRIVEN /* Forward declare function */ static void usart0_sam_irq_config_func(struct device *port); #endif /* CONFIG_UART_INTERRUPT_DRIVEN */ static const struct usart_sam_dev_cfg usart0_sam_config = { .regs = USART0, .periph_id = CONFIG_USART_SAM_PORT_0_PERIPHERAL_ID, .pin_rx = PIN_USART0_RXD, .pin_tx = PIN_USART0_TXD, #ifdef CONFIG_UART_INTERRUPT_DRIVEN .irq_config_func = usart0_sam_irq_config_func, #endif }; static struct usart_sam_dev_data usart0_sam_data = { .baud_rate = CONFIG_USART_SAM_PORT_0_BAUD_RATE, }; DEVICE_AND_API_INIT(usart0_sam, CONFIG_USART_SAM_PORT_0_NAME, &usart_sam_init, &usart0_sam_data, &usart0_sam_config, PRE_KERNEL_1, CONFIG_KERNEL_INIT_PRIORITY_DEVICE, &usart_sam_driver_api); #ifdef CONFIG_UART_INTERRUPT_DRIVEN static void usart0_sam_irq_config_func(struct device *port) { IRQ_CONNECT(CONFIG_USART_SAM_PORT_0_IRQ, CONFIG_USART_SAM_PORT_0_IRQ_PRIO, usart_sam_isr, DEVICE_GET(usart0_sam), 0); irq_enable(CONFIG_USART_SAM_PORT_0_IRQ); } #endif /* CONFIG_UART_INTERRUPT_DRIVEN */ #endif /* USART1 */ #ifdef CONFIG_USART_SAM_PORT_1 #ifdef CONFIG_UART_INTERRUPT_DRIVEN /* Forward declare function */ static void usart1_sam_irq_config_func(struct device *port); #endif /* CONFIG_UART_INTERRUPT_DRIVEN */ static const struct usart_sam_dev_cfg usart1_sam_config = { .regs = USART1, .periph_id = CONFIG_USART_SAM_PORT_1_PERIPHERAL_ID, .pin_rx = PIN_USART1_RXD, .pin_tx = PIN_USART1_TXD, #ifdef CONFIG_UART_INTERRUPT_DRIVEN .irq_config_func = usart1_sam_irq_config_func, #endif }; static struct usart_sam_dev_data usart1_sam_data = { .baud_rate = CONFIG_USART_SAM_PORT_1_BAUD_RATE, }; DEVICE_AND_API_INIT(usart1_sam, CONFIG_USART_SAM_PORT_1_NAME, &usart_sam_init, &usart1_sam_data, &usart1_sam_config, PRE_KERNEL_1, CONFIG_KERNEL_INIT_PRIORITY_DEVICE, &usart_sam_driver_api); #ifdef CONFIG_UART_INTERRUPT_DRIVEN static void usart1_sam_irq_config_func(struct device *port) { IRQ_CONNECT(CONFIG_USART_SAM_PORT_1_IRQ, CONFIG_USART_SAM_PORT_1_IRQ_PRIO, usart_sam_isr, DEVICE_GET(usart1_sam), 0); irq_enable(CONFIG_USART_SAM_PORT_1_IRQ); } #endif /* CONFIG_UART_INTERRUPT_DRIVEN */ #endif /* USART2 */ #ifdef CONFIG_USART_SAM_PORT_2 static const struct usart_sam_dev_cfg usart2_sam_config = { .regs = USART2, .periph_id = CONFIG_USART_SAM_PORT_3_PERIPHERAL_ID, .pin_rx = PIN_USART2_RXD, .pin_tx = PIN_USART2_TXD, }; static struct usart_sam_dev_data usart2_sam_data = { .baud_rate = CONFIG_USART_SAM_PORT_2_BAUD_RATE, }; DEVICE_AND_API_INIT(usart2_sam, CONFIG_USART_SAM_PORT_2_NAME, &usart_sam_init, &usart2_sam_data, &usart2_sam_config, PRE_KERNEL_1, CONFIG_KERNEL_INIT_PRIORITY_DEVICE, &usart_sam_driver_api); #endif