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OVMS3-idf/components/driver/include/driver/uart.h

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// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef _DRIVER_UART_H_
#define _DRIVER_UART_H_
#ifdef __cplusplus
extern "C" {
#endif
#include "soc/uart_reg.h"
#include "soc/uart_struct.h"
#include "esp_err.h"
#include "esp_intr_alloc.h"
#include "driver/periph_ctrl.h"
#include "freertos/FreeRTOS.h"
#include "freertos/semphr.h"
#include "freertos/xtensa_api.h"
#include "freertos/task.h"
#include "freertos/queue.h"
#include "freertos/ringbuf.h"
#include <esp_types.h>
#define UART_FIFO_LEN (128) /*!< Length of the hardware FIFO buffers */
#define UART_INTR_MASK 0x1ff /*!< mask of all UART interrupts */
#define UART_LINE_INV_MASK (0x3f << 19) /*!< TBD */
#define UART_BITRATE_MAX 5000000 /*!< Max bit rate supported by UART */
#define UART_PIN_NO_CHANGE (-1) /*!< Constant for uart_set_pin function which indicates that UART pin should not be changed */
#define UART_INVERSE_DISABLE (0x0) /*!< Disable UART signal inverse*/
#define UART_INVERSE_RXD (UART_RXD_INV_M) /*!< UART RXD input inverse*/
#define UART_INVERSE_CTS (UART_CTS_INV_M) /*!< UART CTS input inverse*/
#define UART_INVERSE_TXD (UART_TXD_INV_M) /*!< UART TXD output inverse*/
#define UART_INVERSE_RTS (UART_RTS_INV_M) /*!< UART RTS output inverse*/
/**
* @brief UART word length constants
*/
typedef enum {
UART_DATA_5_BITS = 0x0, /*!< word length: 5bits*/
UART_DATA_6_BITS = 0x1, /*!< word length: 6bits*/
UART_DATA_7_BITS = 0x2, /*!< word length: 7bits*/
UART_DATA_8_BITS = 0x3, /*!< word length: 8bits*/
UART_DATA_BITS_MAX = 0X4,
} uart_word_length_t;
/**
* @brief UART stop bits number
*/
typedef enum {
UART_STOP_BITS_1 = 0x1, /*!< stop bit: 1bit*/
UART_STOP_BITS_1_5 = 0x2, /*!< stop bit: 1.5bits*/
UART_STOP_BITS_2 = 0x3, /*!< stop bit: 2bits*/
UART_STOP_BITS_MAX = 0x4,
} uart_stop_bits_t;
/**
* @brief UART peripheral number
*/
typedef enum {
UART_NUM_0 = 0x0, /*!< UART base address 0x3ff40000*/
UART_NUM_1 = 0x1, /*!< UART base address 0x3ff50000*/
UART_NUM_2 = 0x2, /*!< UART base address 0x3ff6E000*/
UART_NUM_MAX,
} uart_port_t;
/**
* @brief UART parity constants
*/
typedef enum {
UART_PARITY_DISABLE = 0x0, /*!< Disable UART parity*/
UART_PARITY_EVEN = 0x2, /*!< Enable UART even parity*/
UART_PARITY_ODD = 0x3 /*!< Enable UART odd parity*/
} uart_parity_t;
/**
* @brief UART hardware flow control modes
*/
typedef enum {
UART_HW_FLOWCTRL_DISABLE = 0x0, /*!< disable hardware flow control*/
UART_HW_FLOWCTRL_RTS = 0x1, /*!< enable RX hardware flow control (rts)*/
UART_HW_FLOWCTRL_CTS = 0x2, /*!< enable TX hardware flow control (cts)*/
UART_HW_FLOWCTRL_CTS_RTS = 0x3, /*!< enable hardware flow control*/
UART_HW_FLOWCTRL_MAX = 0x4,
} uart_hw_flowcontrol_t;
/**
* @brief UART configuration parameters for uart_param_config function
*/
typedef struct {
int baud_rate; /*!< UART baudrate*/
uart_word_length_t data_bits; /*!< UART byte size*/
uart_parity_t parity; /*!< UART parity mode*/
uart_stop_bits_t stop_bits; /*!< UART stop bits*/
uart_hw_flowcontrol_t flow_ctrl; /*!< UART HW flow control mode(cts/rts)*/
uint8_t rx_flow_ctrl_thresh ; /*!< UART HW RTS threshold*/
} uart_config_t;
/**
* @brief UART interrupt configuration parameters for uart_intr_config function
*/
typedef struct {
uint32_t intr_enable_mask; /*!< UART interrupt enable mask, choose from UART_XXXX_INT_ENA_M under UART_INT_ENA_REG(i), connect with bit-or operator*/
uint8_t rx_timeout_thresh; /*!< UART timeout interrupt threshold(unit: time of sending one byte)*/
uint8_t txfifo_empty_intr_thresh; /*!< UART TX empty interrupt threshold.*/
uint8_t rxfifo_full_thresh; /*!< UART RX full interrupt threshold.*/
} uart_intr_config_t;
/**
* @brief UART event types used in the ringbuffer
*/
typedef enum {
UART_DATA, /*!< UART data event*/
UART_BREAK, /*!< UART break event*/
UART_BUFFER_FULL, /*!< UART RX buffer full event*/
UART_FIFO_OVF, /*!< UART FIFO overflow event*/
UART_FRAME_ERR, /*!< UART RX frame error event*/
UART_PARITY_ERR, /*!< UART RX parity event*/
UART_DATA_BREAK, /*!< UART TX data and break event*/
UART_EVENT_MAX, /*!< UART event max index*/
UART_PATTERN_DET, /*!< UART pattern detected */
} uart_event_type_t;
/**
* @brief Event structure used in UART event queue
*/
typedef struct {
uart_event_type_t type; /*!< UART event type */
size_t size; /*!< UART data size for UART_DATA event*/
} uart_event_t;
typedef intr_handle_t uart_isr_handle_t;
/**
* @brief Set UART data bits.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param data_bit UART data bits
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_set_word_length(uart_port_t uart_num, uart_word_length_t data_bit);
/**
* @brief Get UART data bits.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param data_bit Pointer to accept value of UART data bits.
*
* @return
* - ESP_FAIL Parameter error
* - ESP_OK Success, result will be put in (*data_bit)
*/
esp_err_t uart_get_word_length(uart_port_t uart_num, uart_word_length_t* data_bit);
/**
* @brief Set UART stop bits.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param stop_bits UART stop bits
*
* @return
* - ESP_OK Success
* - ESP_FAIL Fail
*/
esp_err_t uart_set_stop_bits(uart_port_t uart_num, uart_stop_bits_t stop_bits);
/**
* @brief Set UART stop bits.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param stop_bits Pointer to accept value of UART stop bits.
*
* @return
* - ESP_FAIL Parameter error
* - ESP_OK Success, result will be put in (*stop_bit)
*/
esp_err_t uart_get_stop_bits(uart_port_t uart_num, uart_stop_bits_t* stop_bits);
/**
* @brief Set UART parity.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param parity_mode the enum of uart parity configuration
*
* @return
* - ESP_FAIL Parameter error
* - ESP_OK Success
*/
esp_err_t uart_set_parity(uart_port_t uart_num, uart_parity_t parity_mode);
/**
* @brief Get UART parity mode.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param parity_mode Pointer to accept value of UART parity mode.
*
* @return
* - ESP_FAIL Parameter error
* - ESP_OK Success, result will be put in (*parity_mode)
*
*/
esp_err_t uart_get_parity(uart_port_t uart_num, uart_parity_t* parity_mode);
/**
* @brief Set UART baud rate.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param baudrate UART baud rate.
*
* @return
* - ESP_FAIL Parameter error
* - ESP_OK Success
*/
esp_err_t uart_set_baudrate(uart_port_t uart_num, uint32_t baudrate);
/**
* @brief Get UART bit-rate.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param baudrate Pointer to accept value of UART baud rate
*
* @return
* - ESP_FAIL Parameter error
* - ESP_OK Success, result will be put in (*baudrate)
*
*/
esp_err_t uart_get_baudrate(uart_port_t uart_num, uint32_t* baudrate);
/**
* @brief Set UART line inverse mode
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param inverse_mask Choose the wires that need to be inverted.
* Inverse_mask should be chosen from UART_INVERSE_RXD/UART_INVERSE_TXD/UART_INVERSE_RTS/UART_INVERSE_CTS, combine with OR operation.
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_set_line_inverse(uart_port_t uart_num, uint32_t inverse_mask);
/**
* @brief Set hardware flow control.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param flow_ctrl Hardware flow control mode
* @param rx_thresh Threshold of Hardware RX flow control(0 ~ UART_FIFO_LEN).
* Only when UART_HW_FLOWCTRL_RTS is set, will the rx_thresh value be set.
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_set_hw_flow_ctrl(uart_port_t uart_num, uart_hw_flowcontrol_t flow_ctrl, uint8_t rx_thresh);
/**
* @brief Get hardware flow control mode
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param flow_ctrl Option for different flow control mode.
*
* @return
* - ESP_FAIL Parameter error
* - ESP_OK Success, result will be put in (*flow_ctrl)
*/
esp_err_t uart_get_hw_flow_ctrl(uart_port_t uart_num, uart_hw_flowcontrol_t* flow_ctrl);
/**
* @brief Clear UART interrupt status
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param clr_mask Bit mask of the status that to be cleared.
* enable_mask should be chosen from the fields of register UART_INT_CLR_REG.
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_clear_intr_status(uart_port_t uart_num, uint32_t clr_mask);
/**
* @brief Set UART interrupt enable
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param enable_mask Bit mask of the enable bits.
* enable_mask should be chosen from the fields of register UART_INT_ENA_REG.
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_enable_intr_mask(uart_port_t uart_num, uint32_t enable_mask);
/**
* @brief Clear UART interrupt enable bits
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param disable_mask Bit mask of the disable bits.
* disable_mask should be chosen from the fields of register UART_INT_ENA_REG.
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_disable_intr_mask(uart_port_t uart_num, uint32_t disable_mask);
/**
* @brief Enable UART RX interrupt(RX_FULL & RX_TIMEOUT INTERRUPT)
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_enable_rx_intr(uart_port_t uart_num);
/**
* @brief Disable UART RX interrupt(RX_FULL & RX_TIMEOUT INTERRUPT)
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_disable_rx_intr(uart_port_t uart_num);
/**
* @brief Disable UART TX interrupt(RX_FULL & RX_TIMEOUT INTERRUPT)
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_disable_tx_intr(uart_port_t uart_num);
/**
* @brief Enable UART TX interrupt(RX_FULL & RX_TIMEOUT INTERRUPT)
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param enable 1: enable; 0: disable
* @param thresh Threshold of TX interrupt, 0 ~ UART_FIFO_LEN
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_enable_tx_intr(uart_port_t uart_num, int enable, int thresh);
/**
* @brief register UART interrupt handler(ISR).
*
* @note UART ISR handler will be attached to the same CPU core that this function is running on.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param fn Interrupt handler function.
* @param arg parameter for handler function
* @param intr_alloc_flags Flags used to allocate the interrupt. One or multiple (ORred)
* ESP_INTR_FLAG_* values. See esp_intr_alloc.h for more info.
* @param handle Pointer to return handle. If non-NULL, a handle for the interrupt will
* be returned here.
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_isr_register(uart_port_t uart_num, void (*fn)(void*), void * arg, int intr_alloc_flags, uart_isr_handle_t *handle);
/**
* @brief Free UART interrupt handler registered by uart_isr_register. Must be called on the same core as
* uart_isr_register was called.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_isr_free(uart_port_t uart_num);
/**
* @brief Set UART pin number
*
* @note Internal signal can be output to multiple GPIO pads.
* Only one GPIO pad can connect with input signal.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param tx_io_num UART TX pin GPIO number, if set to UART_PIN_NO_CHANGE, use the current pin.
* @param rx_io_num UART RX pin GPIO number, if set to UART_PIN_NO_CHANGE, use the current pin.
* @param rts_io_num UART RTS pin GPIO number, if set to UART_PIN_NO_CHANGE, use the current pin.
* @param cts_io_num UART CTS pin GPIO number, if set to UART_PIN_NO_CHANGE, use the current pin.
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_set_pin(uart_port_t uart_num, int tx_io_num, int rx_io_num, int rts_io_num, int cts_io_num);
/**
* @brief UART set RTS level (before inverse)
* UART rx hardware flow control should not be set.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param level 1: RTS output low(active); 0: RTS output high(block)
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_set_rts(uart_port_t uart_num, int level);
/**
* @brief UART set DTR level (before inverse)
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param level 1: DTR output low; 0: DTR output high
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_set_dtr(uart_port_t uart_num, int level);
/**
* @brief UART parameter configure
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param uart_config UART parameter settings
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_param_config(uart_port_t uart_num, const uart_config_t *uart_config);
/**
* @brief UART interrupt configure
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param intr_conf UART interrupt settings
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_intr_config(uart_port_t uart_num, const uart_intr_config_t *intr_conf);
/**
* @brief Install UART driver.
*
* UART ISR handler will be attached to the same CPU core that this function is running on.
* Users should know that which CPU is running and then pick a INUM that is not used by system.
* We can find the information of INUM and interrupt level in soc.h.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param rx_buffer_size UART RX ring buffer size, rx_buffer_size should be greater than UART_FIFO_LEN.
* @param tx_buffer_size UART TX ring buffer size.
* If set to zero, driver will not use TX buffer, TX function will block task until all data have been sent out..
* @param queue_size UART event queue size/depth.
* @param uart_queue UART event queue handle (out param). On success, a new queue handle is written here to provide
* access to UART events. If set to NULL, driver will not use an event queue.
* @param intr_alloc_flags Flags used to allocate the interrupt. One or multiple (ORred)
* ESP_INTR_FLAG_* values. See esp_intr_alloc.h for more info.
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_driver_install(uart_port_t uart_num, int rx_buffer_size, int tx_buffer_size, int queue_size, QueueHandle_t* uart_queue, int intr_alloc_flags);
/**
* @brief Uninstall UART driver.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_driver_delete(uart_port_t uart_num);
/**
* @brief Wait UART TX FIFO empty
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param ticks_to_wait Timeout, count in RTOS ticks
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
* - ESP_ERR_TIMEOUT Timeout
*/
esp_err_t uart_wait_tx_done(uart_port_t uart_num, TickType_t ticks_to_wait);
/**
* @brief Send data to the UART port from a given buffer and length.
*
* This function will not wait for the space in TX FIFO, just fill the TX FIFO and return when the FIFO is full.
* @note This function should only be used when UART TX buffer is not enabled.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param buffer data buffer address
* @param len data length to send
*
* @return
* - (-1) Parameter error
* - OTHERS(>=0) The number of data that pushed to the TX FIFO
*/
int uart_tx_chars(uart_port_t uart_num, const char* buffer, uint32_t len);
/**
* @brief Send data to the UART port from a given buffer and length,
*
* If parameter tx_buffer_size is set to zero:
* This function will not return until all the data have been sent out, or at least pushed into TX FIFO.
*
* Otherwise, if tx_buffer_size > 0, this function will return after copying all the data to tx ringbuffer,
* then, UART ISR will move data from ring buffer to TX FIFO gradually.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param src data buffer address
* @param size data length to send
*
* @return
* - (-1) Parameter error
* - OTHERS(>=0) The number of data that pushed to the TX FIFO
*/
int uart_write_bytes(uart_port_t uart_num, const char* src, size_t size);
/**
* @brief Send data to the UART port from a given buffer and length,
*
* If parameter tx_buffer_size is set to zero:
* This function will not return until all the data and the break signal have been sent out.
* After all data send out, send a break signal.
*
* Otherwise, if tx_buffer_size > 0, this function will return after copying all the data to tx ringbuffer,
* then, UART ISR will move data from ring buffer to TX FIFO gradually.
* After all data send out, send a break signal.
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param src data buffer address
* @param size data length to send
* @param brk_len break signal length (unit: time of one data bit at current_baudrate)
*
* @return
* - (-1) Parameter error
* - OTHERS(>=0) The number of data that pushed to the TX FIFO
*/
int uart_write_bytes_with_break(uart_port_t uart_num, const char* src, size_t size, int brk_len);
/**
* @brief UART read bytes from UART buffer
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
* @param buf pointer to the buffer.
* @param length data length
* @param ticks_to_wait sTimeout, count in RTOS ticks
*
* @return
* - (-1) Error
* - Others return a char data from uart fifo.
*/
int uart_read_bytes(uart_port_t uart_num, uint8_t* buf, uint32_t length, TickType_t ticks_to_wait);
/**
* @brief UART ring buffer flush
*
* @param uart_num UART_NUM_0, UART_NUM_1 or UART_NUM_2
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_flush(uart_port_t uart_num);
/**
* @brief UART get RX ring buffer cached data length
*
* @param uart_num UART port number.
* @param size Pointer of size_t to accept cached data length
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_get_buffered_data_len(uart_port_t uart_num, size_t* size);
/**
* @brief UART disable pattern detect function.
* Designed for applications like 'AT commands'.
* When the hardware detect a series of one same character, the interrupt will be triggered.
*
* @param uart_num UART port number.
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_disable_pattern_det_intr(uart_port_t uart_num);
/**
* @brief UART enable pattern detect function.
* Designed for applications like 'AT commands'.
* When the hardware detect a series of one same character, the interrupt will be triggered.
*
* @param uart_num UART port number.
* @param pattern_chr character of the pattern
* @param chr_num number of the character, 8bit value.
* @param chr_tout timeout of the interval between each pattern characters, 24bit value, unit is APB(80Mhz) clock cycle.
* @param post_idle idle time after the last pattern character, 24bit value, unit is APB(80Mhz) clock cycle.
* @param pre_idle idle time before the first pattern character, 24bit value, unit is APB(80Mhz) clock cycle.
*
* @return
* - ESP_OK Success
* - ESP_FAIL Parameter error
*/
esp_err_t uart_enable_pattern_det_intr(uart_port_t uart_num, char pattern_chr, uint8_t chr_num, int chr_tout, int post_idle, int pre_idle);
/***************************EXAMPLE**********************************
*
*
* ----------------EXAMPLE OF UART SETTING ---------------------
* @code{c}
* //1. Setup UART
* #include "freertos/queue.h"
* #define UART_INTR_NUM 17 //choose one interrupt number from soc.h
* //a. Set UART parameter
* int uart_num = 0; //uart port number
* uart_config_t uart_config = {
* .baud_rate = 115200, //baudrate
* .data_bits = UART_DATA_8_BITS, //data bit mode
* .parity = UART_PARITY_DISABLE, //parity mode
* .stop_bits = UART_STOP_BITS_1, //stop bit mode
* .flow_ctrl = UART_HW_FLOWCTRL_DISABLE, //hardware flow control(cts/rts)
* .rx_flow_ctrl_thresh = 120, //flow control threshold
* };
* uart_param_config(uart_num, &uart_config);
* //b1. Setup UART driver(with UART queue)
* QueueHandle_t uart_queue;
* //parameters here are just an example, tx buffer size is 2048
* uart_driver_install(uart_num, 1024 * 2, 1024 * 2, 10, &uart_queue, 0);
* //b2. Setup UART driver(without UART queue)
* //parameters here are just an example, tx buffer size is 0
* uart_driver_install(uart_num, 1024 * 2, 0, 10, NULL, 0);
*@endcode
*-----------------------------------------------------------------------------*
* @code{c}
* //2. Set UART pin
* //set UART pin, not needed if use default pins.
* uart_set_pin(uart_num, UART_PIN_NO_CHANGE, UART_PIN_NO_CHANGE, 15, 13);
* @endcode
*-----------------------------------------------------------------------------*
* @code{c}
* //3. Read data from UART.
* uint8_t data[128];
* int length = 0;
* length = uart_read_bytes(uart_num, data, sizeof(data), 100);
* @endcode
*-----------------------------------------------------------------------------*
* @code{c}
* //4. Write data to UART.
* char* test_str = "This is a test string.\n"
* uart_write_bytes(uart_num, (const char*)test_str, strlen(test_str));
* @endcode
*-----------------------------------------------------------------------------*
* @code{c}
* //5. Write data to UART, end with a break signal.
* uart_write_bytes_with_break(0, "test break\n",strlen("test break\n"), 100);
* @endcode
*-----------------------------------------------------------------------------*
* @code{c}
* //6. an example of echo test with hardware flow control on UART1
* void uart_loop_back_test()
* {
* int uart_num = 1;
* uart_config_t uart_config = {
* .baud_rate = 115200,
* .data_bits = UART_DATA_8_BITS,
* .parity = UART_PARITY_DISABLE,
* .stop_bits = UART_STOP_BITS_1,
* .flow_ctrl = UART_HW_FLOWCTRL_CTS_RTS,
* .rx_flow_ctrl_thresh = 122,
* };
* //Configure UART1 parameters
* uart_param_config(uart_num, &uart_config);
* //Set UART1 pins(TX: IO16, RX: IO17, RTS: IO18, CTS: IO19)
* uart_set_pin(uart_num, 16, 17, 18, 19);
* //Install UART driver( We don't need an event queue here)
* uart_driver_install(uart_num, 1024 * 2, 1024*4, 0, NULL, 0);
* uint8_t data[1000];
* while(1) {
* //Read data from UART
* int len = uart_read_bytes(uart_num, data, sizeof(data), 10);
* //Write data back to UART
* uart_write_bytes(uart_num, (const char*)data, len);
* }
* }
* @endcode
*-----------------------------------------------------------------------------*
* @code{c}
* //7. An example of using UART event queue on UART0.
* #include "freertos/queue.h"
* //A queue to handle UART event.
* QueueHandle_t uart0_queue;
* static const char *TAG = "uart_example";
* void uart_task(void *pvParameters)
* {
* int uart_num = (int)pvParameters;
* uart_event_t event;
* size_t size = 1024;
* uint8_t* dtmp = (uint8_t*)malloc(size);
* for(;;) {
* //Waiting for UART event.
* if(xQueueReceive(uart0_queue, (void * )&event, (portTickType)portMAX_DELAY)) {
* ESP_LOGI(TAG, "uart[%d] event:", uart_num);
* switch(event.type) {
* memset(dtmp, 0, size);
* //Event of UART receving data
* case UART_DATA:
* ESP_LOGI(TAG,"data, len: %d", event.size);
* int len = uart_read_bytes(uart_num, dtmp, event.size, 10);
* ESP_LOGI(TAG, "uart read: %d", len);
* break;
* //Event of HW FIFO overflow detected
* case UART_FIFO_OVF:
* ESP_LOGI(TAG, "hw fifo overflow\n");
* break;
* //Event of UART ring buffer full
* case UART_BUFFER_FULL:
* ESP_LOGI(TAG, "ring buffer full\n");
* break;
* //Event of UART RX break detected
* case UART_BREAK:
* ESP_LOGI(TAG, "uart rx break\n");
* break;
* //Event of UART parity check error
* case UART_PARITY_ERR:
* ESP_LOGI(TAG, "uart parity error\n");
* break;
* //Event of UART frame error
* case UART_FRAME_ERR:
* ESP_LOGI(TAG, "uart frame error\n");
* break;
* //Others
* default:
* ESP_LOGI(TAG, "uart event type: %d\n", event.type);
* break;
* }
* }
* }
* free(dtmp);
* dtmp = NULL;
* vTaskDelete(NULL);
* }
*
* void uart_queue_test()
* {
* int uart_num = 0;
* uart_config_t uart_config = {
* .baud_rate = 115200,
* .data_bits = UART_DATA_8_BITS,
* .parity = UART_PARITY_DISABLE,
* .stop_bits = UART_STOP_BITS_1,
* .flow_ctrl = UART_HW_FLOWCTRL_DISABLE,
* .rx_flow_ctrl_thresh = 122,
* };
* //Set UART parameters
* uart_param_config(uart_num, &uart_config);
* //Set UART pins,(-1: default pin, no change.)
* uart_set_pin(uart_num, UART_PIN_NO_CHANGE, UART_PIN_NO_CHANGE, UART_PIN_NO_CHANGE, UART_PIN_NO_CHANGE);
* //Set UART log level
* esp_log_level_set(TAG, ESP_LOG_INFO);
* //Install UART driver, and get the queue.
* uart_driver_install(uart_num, 1024 * 2, 1024*4, 10, &uart0_queue, 0);
* //Create a task to handler UART event from ISR
* xTaskCreate(uart_task, "uTask", 1024, (void*)uart_num, 10, NULL);
* }
* @endcode
*
***************************END OF EXAMPLE**********************************/
#ifdef __cplusplus
}
#endif
#endif /*_DRIVER_UART_H_*/
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