/** esp/uart.h * * Utility routines for working with UARTs * * Part of esp-open-rtos * Copyright (C) 2015 Superhouse Automation Pty Ltd * BSD Licensed as described in the file LICENSE */ #ifndef _ESP_UART_H #define _ESP_UART_H #include "esp/types.h" #include "esp/uart_regs.h" #include "esp/clocks.h" #define UART_FIFO_MAX 127 /* Wait for at least `min_count` bytes of data to be available in the UART's * receive FIFO * * Returns the number of bytes actually available for reading. */ static inline int uart_rxfifo_wait(int uart_num, int min_count) { int count; do { count = FIELD2VAL(UART_STATUS_RXFIFO_COUNT, UART(uart_num).STATUS); } while (count < min_count); return count; } /* Wait for at least `min_count` bytes of space to be available in the UART's * transmit FIFO * * Returns the number of bytes actually available in the write buffer. */ static inline int uart_txfifo_wait(int uart_num, int min_count) { int count; do { count = UART_FIFO_MAX - FIELD2VAL(UART_STATUS_TXFIFO_COUNT, UART(uart_num).STATUS); } while (count < min_count); return count; } /* Read a character from the UART. Block until a character is available for * reading. * * Returns the character read. */ static inline int uart_getc(int uart_num) { uart_rxfifo_wait(uart_num, 1); return UART(uart_num).FIFO; } /* Read a character from the UART. Does not block. * * Returns the read character on success. If the RX FIFO is currently empty * (nothing to read), returns -1. */ static inline int uart_getc_nowait(int uart_num) { if (FIELD2VAL(UART_STATUS_RXFIFO_COUNT, UART(uart_num).STATUS)) { return UART(uart_num).FIFO; } return -1; } /* Write a character to the UART. Blocks if necessary until there is space in * the TX FIFO. */ static inline void uart_putc(int uart_num, char c) { uart_txfifo_wait(uart_num, 1); UART(uart_num).FIFO = c; } /* Write a character to the UART. Does not block. * * Returns 0 on success. If there is no space currently in the TX FIFO, * returns -1. */ static inline int uart_putc_nowait(int uart_num, char c) { if (FIELD2VAL(UART_STATUS_TXFIFO_COUNT, UART(uart_num).STATUS) < UART_FIFO_MAX) { UART(uart_num).FIFO = c; return 0; } return -1; } /* Clear (discard) all pending write data in the TX FIFO */ static inline void uart_clear_txfifo(int uart_num) { uint32_t conf = UART(uart_num).CONF0; UART(uart_num).CONF0 = conf | UART_CONF0_TXFIFO_RESET; UART(uart_num).CONF0 = conf & ~UART_CONF0_TXFIFO_RESET; } /* Clear (discard) all pending read data in the RX FIFO */ static inline void uart_clear_rxfifo(int uart_num) { uint32_t conf = UART(uart_num).CONF0; UART(uart_num).CONF0 = conf | UART_CONF0_RXFIFO_RESET; UART(uart_num).CONF0 = conf & ~UART_CONF0_RXFIFO_RESET; } /* Wait until all pending output in the UART's TX FIFO has been sent out the * serial port. */ static inline void uart_flush_txfifo(int uart_num) { while (FIELD2VAL(UART_STATUS_TXFIFO_COUNT, UART(uart_num).STATUS) != 0) {} } /* Flush all pending input in the UART's RX FIFO * (this is just another name for uart_clear_rxfifo) */ static inline void uart_flush_rxfifo(int uart_num) { uart_clear_rxfifo(uart_num); } /* Set uart baud rate to the desired value */ static inline void uart_set_baud(int uart_num, int bps) { uint32_t divider = APB_CLK_FREQ / bps; UART(uart_num).CLOCK_DIVIDER = divider; } /* Returns the current baud rate for the UART */ static inline int uart_get_baud(int uart_num) { return APB_CLK_FREQ / FIELD2VAL(UART_CLOCK_DIVIDER_VALUE, UART(uart_num).CLOCK_DIVIDER); } #endif /* _ESP_UART_H */