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#include "motor_drive.h"
#include "ble_parse_data.h"
#include "driver/uart.h"
#include "esp_log.h"
#define MOTOR_DRIVE "MOTOR_DRIVE"
#define uart_num UART_NUM_1
#define tx_io_num 1
#define rx_io_num 2
#define buffer_size 128
#define uart_read_time_ms 200
#define MOTOR_ID 0X01
void motor_drive_uart_init() { 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, .source_clk = UART_SCLK_APB, }; ESP_ERROR_CHECK(uart_driver_install(uart_num, buffer_size * 2, 0, 0, NULL, 0));
ESP_ERROR_CHECK(uart_param_config(uart_num, &uart_config));
ESP_ERROR_CHECK(uart_set_pin(uart_num, tx_io_num, rx_io_num, UART_PIN_NO_CHANGE, UART_PIN_NO_CHANGE));}
void motor_drive_turn(int direction, int speed_level, double position) { if ((direction > 2) || (direction < 0)) { ESP_LOGW(MOTOR_DRIVE, "Direction out of range"); } if ((speed_level > 9) || (speed_level < 0)) { ESP_LOGW(MOTOR_DRIVE, "Speed level out of range"); } if ((position > 360) || (position <= 0)) { ESP_LOGW(MOTOR_DRIVE, "Position out of range"); } motor_drive_set_packages_ctr(position, direction); uart_write_bytes(uart_num, "test", strlen("test"));}
double motor_drive_read_encoder() { size_t encoder_buffer_size = 5; uint8_t buffer[5] = {0X3E, 0X90, MOTOR_ID, 0X00, 0XCF}; uint16_t encoder_data = 0; char *notify_err = "read encoder error";
// Generate cmd
// encoder_buffer_size = motor_drive_buffer_cmd_generate(buffer, 0x90, 4, 0X5A97FF00);
// if (encoder_buffer_size == 0) {
// ESP_LOGW(MOTOR_DRIVE, "generate_buffer_size null");
// return -1;
// }
// Send cmd
uart_flush(uart_num); uart_write_bytes(uart_num, (const char *)buffer, encoder_buffer_size);
encoder_buffer_size = 0; memset(buffer, 0, sizeof(uint8_t) * 5);
// Wait receive
encoder_buffer_size = uart_read_bytes(uart_num, buffer, 12, uart_read_time_ms / portTICK_RATE_MS); if (encoder_buffer_size != 12 || buffer[0] != 0X3E) { ESP_LOGW(MOTOR_DRIVE, "encoder size:%d,buffer[0] = 0X%x", encoder_buffer_size, buffer[0]); bluetooth_active_notify((uint8_t *)notify_err, strlen(notify_err)); return -1.0; }
// Parse receive
// motor_drive_buffer_cmd_parse(buffer);
encoder_data = buffer[5] + (buffer[6] << 8);
// parse motor usart
return ((double)encoder_data / 100.0);}
void motor_drive_set_packages_data_max64bit(uint8_t cmd, uint8_t buffer_data_size, uint64_t buffer_data) { uint8_t buffer[20] = {0};
motor_drive_buffer_cmd_generate(buffer, cmd, buffer_data_size, buffer_data);}
uint8_t motor_drive_set_packages_ctr(double position, int direction) { int position_int = 0; uint8_t position_remainder = 0; uint8_t position_buffer_size = 5; //从第五位开始(低位)
uint8_t checksum = 0; uint8_t buffer[10] = {0x3E, 0XA7, MOTOR_ID, 0X04, 0XEA, 0X00, 0X00, 0X00, 0X00, 0X00}; char *notify_err = "set size error";
position_int = position * 100; if (direction == 2) { position_int = 0 - position_int; }
if (position_int != 0) { if (position_int > 0) { // Positive number
while ((position_int / 0X100) > 0) { position_remainder = position_int & 0XFF; buffer[position_buffer_size] = position_remainder; position_buffer_size += 1; position_int = position_int >> 8; checksum += position_remainder; } buffer[position_buffer_size] = position_int; checksum += position_int; checksum = checksum & 0XFF; buffer[9] = checksum; } else { // Negative
while ((position_int / 0X100) < 0) { position_remainder = position_int & 0XFF; buffer[position_buffer_size] = position_remainder; position_buffer_size += 1; position_int = position_int >> 8; checksum += position_remainder; } buffer[position_buffer_size] = position_int; position_buffer_size += 1; while (position_buffer_size != 9) { buffer[position_buffer_size] = 0XFF; position_buffer_size += 1; checksum += 0XFF; } checksum += position_int; checksum = checksum & 0XFF; buffer[9] = checksum; } }
// Send cmd
uart_flush(uart_num); uart_write_bytes(uart_num, buffer, 10);
position_buffer_size = 0; memset(buffer, 0, sizeof(uint8_t) * 10);
// Wait uart receive,if time out return error and output log
position_buffer_size = uart_read_bytes(uart_num, buffer, 13, uart_read_time_ms / portTICK_RATE_MS); if (position_buffer_size != 13 || buffer[0] != 0X3E) { ESP_LOGW(MOTOR_DRIVE, "set motor size error ,buffer_size:%d,buffer[0] = 0X%x", position_buffer_size, buffer[0]); bluetooth_active_notify((uint8_t *)notify_err, strlen(notify_err)); return 1; }
// Parse receive
// motor_drive_buffer_cmd_parse(buffer);
return 0;}
void motor_drive_hex_to_str(const char *hex, int hex_len, char *str) { int i, pos = 0; ESP_LOGI(MOTOR_DRIVE, "0X%X", hex[0]); for (i = 0; i < hex_len; i++)
{ sprintf(str + pos, "%02x", hex[i]);
pos += 2; } ESP_LOGI(MOTOR_DRIVE, "0X%X", hex[0]);}
size_t motor_drive_buffer_cmd_generate(uint8_t *buffer, uint8_t cmd, uint8_t buffer_data_size, uint64_t buffer_data) { uint8_t i = 0; uint8_t checksum = 0; uint8_t buffer_data_uint8 = 0; uint8_t strbuffer[20] = {'\0'}; uint8_t hex_to_str_size = buffer_data_size; if (buffer == NULL) { ESP_LOGW(MOTOR_DRIVE, "buffer nil ,init error"); return 0; } buffer[0] = 0X3E; buffer[1] = cmd; buffer[2] = 0X1; buffer[3] = buffer_data_size; buffer[4] = (0X3E + cmd + 0X1 + buffer_data_size) % 0XFF;
if (buffer_data_size > 0) { hex_to_str_size = buffer_data_size + 1; for (i = 0; i < buffer_data_size; i++) { buffer_data_uint8 = buffer_data; buffer_data = buffer_data >> 8; buffer[5 + i] = buffer_data_uint8; checksum += buffer_data_uint8; } buffer[5 + buffer_data_size] = (checksum % 0XFF); }
motor_drive_hex_to_str((char *)buffer, (5 + hex_to_str_size), (char *)strbuffer); ESP_LOGI(MOTOR_DRIVE, "%s", strbuffer); // motor_drive_buffer_cmd_parse(buffer);
return (5 + hex_to_str_size);}
void motor_drive_buffer_cmd_parse(uint8_t *buffer) { // uint8_t i = 0;
// uint16_t temp_data_arr[(buffer[3] / 2)];
// ESP_LOGI(MOTOR_DRIVE, "=====buffer data size %d=====", buffer[3]);
if (buffer == NULL) { ESP_LOGW(MOTOR_DRIVE, "cmd parse buffer null"); return; }
if (buffer[0] != 0X3E || buffer[2] != MOTOR_ID) { ESP_LOGW(MOTOR_DRIVE, "cmd parse buffer error"); return; }
// for (i = 0; i < (buffer[3]); i += 2) {
// temp_data_arr[i] = buffer[5 + i] + (buffer[5 + i + 1] << 8);
// ESP_LOGI(MOTOR_DRIVE, "%d\n", temp_data_arr[i]);
// }
}
u_int8_t motor_drive_set_motor_current_size() { size_t set_current_buffer_size = 5; uint8_t buffer[5] = {0X3E, 0X19, MOTOR_ID, 0X00, 0X58}; char *notify_err = "Set current size err"; uart_flush(uart_num); uart_write_bytes(uart_num, buffer, 5);
set_current_buffer_size = 0; memset(buffer, 0, sizeof(uint8_t) * 5);
// Wait receive
set_current_buffer_size = uart_read_bytes(uart_num, buffer, 5, uart_read_time_ms / portTICK_RATE_MS); if (set_current_buffer_size != 5 || buffer[0] != 0X3E) { ESP_LOGW(MOTOR_DRIVE, "Set current size:%d,buffer[0] = 0X%x", set_current_buffer_size, buffer[0]); bluetooth_active_notify((uint8_t *)notify_err, strlen(notify_err)); return 1; }
return 0;}
double motor_drive_read_single_turn_angle() { uint16_t turn_angle_data = 0; size_t turn_angle_buffer_size = 5; uint8_t buffer[5] = {0X3E, 0X94, MOTOR_ID, 0X00, 0XD3}; char *notify_err = "Turn angle size err";
uart_flush(uart_num); uart_write_bytes(uart_num, buffer, 5);
turn_angle_buffer_size = 0; memset(buffer, 0, sizeof(uint8_t) * 5);
// Wait receive
turn_angle_buffer_size = uart_read_bytes(uart_num, buffer, 8, uart_read_time_ms / portTICK_RATE_MS); if (turn_angle_buffer_size != 8 || buffer[0] != 0X3E) { ESP_LOGW(MOTOR_DRIVE, "Turn angle size:%d,buffer[0] = 0X%x", turn_angle_buffer_size, buffer[0]); bluetooth_active_notify((uint8_t *)notify_err, strlen(notify_err)); return -1; }
// Parse receive
// motor_drive_buffer_cmd_parse(buffer);
turn_angle_data = buffer[5] + (buffer[6] << 8);
return ((double)turn_angle_data / 100.0);}
void motor_drive_set_motor_to_angle(int rotation_direction, double position, int speed_level) { int position_int = 0; uint8_t position_remainder = 0; uint8_t position_buffer_size = 6; //从第五位开始(低位)
uint8_t checksum = 0; uint32_t limit_speed = 0; uint8_t buffer[14] = {0x3E, 0XA6, MOTOR_ID, 0X08, 0XED, 0X00, 0X00, 0X00, 0X00, 0X00, 0X00, 0X00, 0X00, 0X00}; char *notify_err = "set size error";
// forward
if ((rotation_direction == 1)) { buffer[5] = 0; checksum += 0; }
// reverse
if ((rotation_direction == 2)) { buffer[5] = 1; checksum += 1; }
position_int = position * 100; position_int = position_int % 36000;
if (position_int != 0) { while ((position_int / 0X100) > 0) { position_remainder = position_int & 0XFF; buffer[position_buffer_size] = position_remainder; position_buffer_size += 1; position_int = position_int >> 8; checksum += position_remainder; } buffer[position_buffer_size] = position_int; checksum += position_int; }
if (speed_level <= 9) { limit_speed = speed_level * 360; position_buffer_size = 9; }
if (limit_speed != 0) { while ((limit_speed / 0X100) > 0) { position_remainder = limit_speed & 0XFF; buffer[position_buffer_size] = position_remainder; position_buffer_size += 1; limit_speed = limit_speed >> 8; checksum += position_remainder; } buffer[position_buffer_size] = limit_speed; checksum += limit_speed; }
checksum = checksum & 0XFF; buffer[13] = checksum;
// Send cmd
uart_flush(uart_num); uart_write_bytes(uart_num, buffer, 14);
position_buffer_size = 0; memset(buffer, 0, sizeof(uint8_t) * 14);
// Wait uart receive, if time out return error and output log
position_buffer_size = uart_read_bytes(uart_num, buffer, 13, uart_read_time_ms / portTICK_RATE_MS); if (position_buffer_size != 13 || buffer[0] != 0X3E) { ESP_LOGW(MOTOR_DRIVE, "set motor size error ,buffer_size:%d,buffer[0] = 0X%x", position_buffer_size, buffer[0]); bluetooth_active_notify((uint8_t *)notify_err, strlen(notify_err)); }
// Parse receive
motor_drive_buffer_cmd_parse(buffer); return;}
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