sentry_chassis_hzz/modules/remote/remote_control.c

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#include "remote_control.h"
#include "string.h"
#include "bsp_usart.h"
#include "memory.h"
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#include "stdlib.h"
#include "daemon.h"
#include "bsp_log.h"
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#define REMOTE_CONTROL_FRAME_SIZE 18u // 遥控器接收的buffer大小
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// 遥控器数据
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static RC_ctrl_t rc_ctrl[2]; //[0]:当前数据TEMP,[1]:上一次的数据LAST.用于按键持续按下和切换的判断
static uint8_t rc_init_flag = 0; // 遥控器初始化标志位
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// 遥控器拥有的串口实例,因为遥控器是单例,所以这里只有一个,就不封装了
static USARTInstance *rc_usart_instance;
static DaemonInstance *rc_daemon_instance;
/**
* @brief ,660-660,0
*
*/
static void RectifyRCjoystick()
{
for (uint8_t i = 0; i < 5; ++i)
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if (abs(*(&rc_ctrl[TEMP].rc.rocker_l_ + i)) > 660)
*(&rc_ctrl[TEMP].rc.rocker_l_ + i) = 0;
}
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/**
* @brief
*
* @param sbus_buf buffer
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*/
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static void sbus_to_rc(const uint8_t *sbus_buf)
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{
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// 摇杆,直接解算时减去偏置
rc_ctrl[TEMP].rc.rocker_r_ = ((sbus_buf[0] | (sbus_buf[1] << 8)) & 0x07ff) - RC_CH_VALUE_OFFSET; //!< Channel 0
rc_ctrl[TEMP].rc.rocker_r1 = (((sbus_buf[1] >> 3) | (sbus_buf[2] << 5)) & 0x07ff) - RC_CH_VALUE_OFFSET; //!< Channel 1
rc_ctrl[TEMP].rc.rocker_l_ = (((sbus_buf[2] >> 6) | (sbus_buf[3] << 2) | (sbus_buf[4] << 10)) & 0x07ff) - RC_CH_VALUE_OFFSET; //!< Channel 2
rc_ctrl[TEMP].rc.rocker_l1 = (((sbus_buf[4] >> 1) | (sbus_buf[5] << 7)) & 0x07ff) - RC_CH_VALUE_OFFSET; //!< Channel 3
rc_ctrl[TEMP].rc.dial = ((sbus_buf[16] | (sbus_buf[17] << 8)) & 0x07FF) - RC_CH_VALUE_OFFSET; // 左侧拨轮
RectifyRCjoystick();
// 开关,0左1右
rc_ctrl[TEMP].rc.switch_right = ((sbus_buf[5] >> 4) & 0x0003); //!< Switch right
rc_ctrl[TEMP].rc.switch_left = ((sbus_buf[5] >> 4) & 0x000C) >> 2; //!< Switch left
// 鼠标解析
rc_ctrl[TEMP].mouse.x = (sbus_buf[6] | (sbus_buf[7] << 8)); //!< Mouse X axis
rc_ctrl[TEMP].mouse.y = (sbus_buf[8] | (sbus_buf[9] << 8)); //!< Mouse Y axis
rc_ctrl[TEMP].mouse.press_l = sbus_buf[12]; //!< Mouse Left Is Press ?
rc_ctrl[TEMP].mouse.press_r = sbus_buf[13]; //!< Mouse Right Is Press ?
// 位域的按键值解算,直接memcpy即可,注意小端低字节在前,即lsb在第一位,msb在最后
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*(uint16_t *)&rc_ctrl[TEMP].key[KEY_PRESS] = (uint16_t)(sbus_buf[14] | (sbus_buf[15] << 8));
if (rc_ctrl[TEMP].key[KEY_PRESS].ctrl) // ctrl键按下
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rc_ctrl[TEMP].key[KEY_PRESS_WITH_CTRL] = rc_ctrl[TEMP].key[KEY_PRESS];
else
memset(&rc_ctrl[TEMP].key[KEY_PRESS_WITH_CTRL], 0, sizeof(Key_t));
if (rc_ctrl[TEMP].key[KEY_PRESS].shift) // shift键按下
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rc_ctrl[TEMP].key[KEY_PRESS_WITH_SHIFT] = rc_ctrl[TEMP].key[KEY_PRESS];
else
memset(&rc_ctrl[TEMP].key[KEY_PRESS_WITH_SHIFT], 0, sizeof(Key_t));
uint16_t key_now = rc_ctrl[TEMP].key[KEY_PRESS].keys, // 当前按键是否按下
key_last = rc_ctrl[LAST].key[KEY_PRESS].keys, // 上一次按键是否按下
key_with_ctrl = rc_ctrl[TEMP].key[KEY_PRESS_WITH_CTRL].keys, // 当前ctrl组合键是否按下
key_with_shift = rc_ctrl[TEMP].key[KEY_PRESS_WITH_SHIFT].keys, // 当前shift组合键是否按下
key_last_with_ctrl = rc_ctrl[LAST].key[KEY_PRESS_WITH_CTRL].keys, // 上一次ctrl组合键是否按下
key_last_with_shift = rc_ctrl[LAST].key[KEY_PRESS_WITH_SHIFT].keys; // 上一次shift组合键是否按下
for (uint16_t i = 0, j = 0x1; i < 16; j <<= 1, i++)
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{
if (i == 4 || i == 5) // 4,5位为ctrl和shift,直接跳过
continue;
// 如果当前按键按下,上一次按键没有按下,且ctrl和shift组合键没有按下,则按键按下计数加1(检测到上升沿)
if ((key_now & j) && !(key_last & j) && !(key_with_ctrl & j) && !(key_with_shift & j))
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rc_ctrl[TEMP].key_count[KEY_PRESS][i]++;
// 当前ctrl组合键按下,上一次ctrl组合键没有按下,则ctrl组合键按下计数加1(检测到上升沿)
if ((key_with_ctrl & j) && !(key_last_with_ctrl & j))
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rc_ctrl[TEMP].key_count[KEY_PRESS_WITH_CTRL][i]++;
// 当前shift组合键按下,上一次shift组合键没有按下,则shift组合键按下计数加1(检测到上升沿)
if ((key_with_shift & j) && !(key_last_with_shift & j))
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rc_ctrl[TEMP].key_count[KEY_PRESS_WITH_SHIFT][i]++;
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}
memcpy(&rc_ctrl[LAST], &rc_ctrl[TEMP], sizeof(RC_ctrl_t)); // 保存上一次的数据,用于按键持续按下和切换的判断
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}
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/**
* @brief sbus_to_rc的简单封装,bsp_usart的回调函数中
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*
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*/
static void RemoteControlRxCallback()
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{
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DaemonReload(rc_daemon_instance); // 先喂狗
sbus_to_rc(rc_usart_instance->recv_buff); // 进行协议解析
}
/**
* @brief 线,,线
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*
*/
static void RCLostCallback(void *id)
{
memset(rc_ctrl, 0, sizeof(rc_ctrl)); // 清空遥控器数据
USARTServiceInit(rc_usart_instance); // 尝试重新启动接收
LOGWARNING("[rc] remote control lost");
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}
RC_ctrl_t *RemoteControlInit(UART_HandleTypeDef *rc_usart_handle)
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{
USART_Init_Config_s conf;
conf.module_callback = RemoteControlRxCallback;
conf.usart_handle = rc_usart_handle;
conf.recv_buff_size = REMOTE_CONTROL_FRAME_SIZE;
rc_usart_instance = USARTRegister(&conf);
// 进行守护进程的注册,用于定时检查遥控器是否正常工作
Daemon_Init_Config_s daemon_conf = {
.reload_count = 10, // 100ms未收到数据视为离线,遥控器的接收频率实际上是1000/14Hz(大约70Hz)
.callback = RCLostCallback,
.owner_id = NULL, // 只有1个遥控器,不需要owner_id
};
rc_daemon_instance = DaemonRegister(&daemon_conf);
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rc_init_flag = 1;
return rc_ctrl;
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}
uint8_t RemoteControlIsOnline()
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{
if (rc_init_flag)
return DaemonIsOnline(rc_daemon_instance);
return 0;
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}