#include "can_bus.h" #include #include "message_queue.h" #include #define GET_BIT(x, bit) ((x & (1 << bit)) >> bit) float Canb2f(uint8_t m0, uint8_t m1, uint8_t m2, uint8_t m3) { //求符号位 float sig = 1.; if (m0 >=128.) sig = -1.; //求阶码 float jie = 0.; if (m0 >=128.) { jie = m0-128. ; } else { jie = m0; } jie = jie * 2.; if (m1 >=128.) jie += 1.; jie -= 127.; //求尾码 float tail = 0.; if (m1 >=128.) m1 -= 128.; tail = m3 + (m2 + m1 * 256.) * 256.; tail = (tail)/8388608; // 8388608 = 2^23 float f = sig * pow(2., jie) * (1+tail); return f; } int16_t make_int16(unsigned char h,unsigned char l) { int16_t hi=(int16_t)(h&0x00FF); int16_t low= (int16_t)(l&0x00FF); return (hi<<8)|low; } CCanBusSensor::CCanBusSensor(CMessageQueue* q) :_message(q) { _run = false; for (int32_t i = 0; i < sizeof(Sendframe)/sizeof(can_frame); i++) memset(&Sendframe[i], 0, sizeof(can_frame)); } void CCanBusSensor::SetCanBusSensor(SensorCanBus* can) { _canbus = can; } void CCanBusSensor::CanSendProc() { while (_run) { for(int32_t i=0;i_dst = std::chrono::duration_cast(std::chrono::system_clock::now().time_since_epoch()).count(); //printf("data delay:%lld\r\n",_message->_dst - _message->_source); } _canbus->Write(&Sendframe[i]); Sendframe[i].can_id = 0; } } std::this_thread::sleep_for(std::chrono::milliseconds(5)); } } void CCanBusSensor::Start() { _run = true; _can_thread = std::thread(&CCanBusSensor::CanSendProc, this); Direction = 0;//方向 Hand_Throttle = 0;//手油门 Foot_Throttle = 0;//脚油门 Brake = 0;//刹车 _message->DataMqtt_SendDate = false; _message->DataMqtt_curTick = 0; } void CCanBusSensor::Run() { } void CCanBusSensor::Stop() { if (_run) { _run = false; _can_thread.join(); } for (int32_t i = 0; i < sizeof(Sendframe)/sizeof(can_frame); i++) memset(&Sendframe[i], 0, sizeof(can_frame)); Direction = 0;//方向 Hand_Throttle = 0;//手油门 Foot_Throttle = 0;//脚油门 Brake = 0;//刹车 _message->DataMqtt_SendDate = false; _message->DataMqtt_curTick = 0; } void CCanBusSensor::Notify(struct can_frame *date) { //std::cout << std::hex << date->can_id << std::endl; if(_run) { switch (date->can_id) { case 0x283: _data.Main_pump_1_pressure = make_int16(date->data[1],date->data[0]);//主泵1压力 _data.Main_pump_2_pressure = make_int16(date->data[3],date->data[2]);//主泵2压力 break; case 0x285: _data.Stick_angle = make_int16(date->data[1],date->data[0]);//斗杆角度 _data.Boom_angle = make_int16(date->data[3],date->data[2]);//动臂角度 break; case 0x286: _data.Hydraulic_oil_temperature = make_int16(date->data[1],date->data[0]);//液压油油温 _data.Fuel_level = (int32_t)date->data[6];//燃油油位 break; case 0x28A: _data.Travel_speed = make_int16(date->data[1],date->data[0]);//行驶速度 _data.Engine_temperature = make_int16(date->data[3],date->data[2]);//发动机水温 _data.Hand_gear = make_int16(date->data[5],date->data[4]);//水箱水位 _data.Actual_gear = make_int16(date->data[7],date->data[6]);//发动机机油压力 break; case 0x28B: _data.Engine_speed = make_int16(date->data[1],date->data[0]);//发动机转速 { long long tick=std::chrono::duration_cast(std::chrono::system_clock::now().time_since_epoch()).count(); if(_data.Engine_speed > 700 && _message->bStopedCar && tick-_message->_curStopTick > 500) _message->bStopedCar = false; } break; case 0x28D: _data.Gripper_height = Canb2f(date->data[3], date->data[2], date->data[1], date->data[0]);//抓具高度 _data.amplitude = Canb2f(date->data[7], date->data[6], date->data[5], date->data[4]);//幅度 break; case 0x28F: _data.Idle_protection = (date->data[3] & 0x80) == 0x80 ? 1 : 0;//怠速保护 _data.Front_toggle = (date->data[1] & 0x08) == 0x08 ? 1 : 0;//前轮对中 _data.Back_toggle = (date->data[1] & 0x10) == 0x10 ? 1 : 0;//后轮对中 _data.interlock = (date->data[5] & 0x08) == 0x08 ? 1 : 0;//启动联锁 _data.safety_switch = (date->data[6] & 0x80) == 0x80 ? 1 : 0;//安全开关阀异常 _data.arm_lift_pilot = (date->data[7] & 0x01) == 0x01 ? 1 : 0;//大臂提升先导比例阀异常 _data.arm_lowering_pilot = (date->data[7] & 0x02) == 0x02 ? 1 : 0;//大臂下降先导比例阀异常 _data.lever_lifting_pilot = (date->data[7] & 0x04) == 0x04 ? 1 : 0;//斗杆提升先导比例阀异常 _data.rod_lowering_pilot = (date->data[7] & 0x08) == 0x08 ? 1 : 0;//斗杆下降先导比例阀异常 _data.left_rotary_pilot = (date->data[7] & 0x10) == 0x10 ? 1 : 0;//左回转先导比例阀异常 _data.right_rotary_pilot = (date->data[7] & 0x20) == 0x20 ? 1 : 0;//右回转先导比例阀异常 _data.grab_open_pilot = (date->data[7] & 0x40) == 0x40 ? 1 : 0;//抓斗开启先导比例阀异常 _data.grab_close_pilot = (date->data[7] & 0x80) == 0x80 ? 1 : 0;//抓斗闭合先导比例阀异常 _data.safety_valves = (date->data[4] & 0x10) == 0x10 ? 1 : 0;//安全开关阀 break; case 0x280: memcpy(_data.Error_Buff,date->data,date->can_dlc); SendStatusToMSG(); break; default: break; } } } void CCanBusSensor::OnMessage(cannet_frame* frames, int32_t count) { for (int32_t i = 0; i < count; i++) { cannet_frame& frame = frames[i]; int32_t canid = frame.canid; //std::cout << std::hex << canid << std::endl; switch (canid) { case 0x181: Sendframe[0].can_id = 0x181; Sendframe[0].can_dlc = frame.dlc; Hand_Throttle = make_int16(frame.data[1],frame.data[0]); Foot_Throttle = make_int16(frame.data[3],frame.data[2]); Brake = make_int16(frame.data[5],frame.data[4]); memcpy(Sendframe[0].data, frame.data, frame.dlc); //std::cout << "revice 181" << std::endl; break; case 0x182: Sendframe[1].can_id = 0x182; Sendframe[1].can_dlc = frame.dlc; memcpy(Sendframe[1].data, frame.data, frame.dlc); //std::cout << "182" << std::endl; break; case 0x183: Sendframe[2].can_id = 0x183; Sendframe[2].can_dlc = frame.dlc; Direction = make_int16(frame.data[3],frame.data[2]); _message->SendVehicleStatus(Direction,Hand_Throttle,Foot_Throttle,Brake); memcpy(Sendframe[2].data, frame.data, frame.dlc); //std::cout << "revice 183" << std::endl; break; case 0x184: Sendframe[3].can_id = 0x184; Sendframe[3].can_dlc = frame.dlc; //模式 model = (frame.data[3] & 0x04) == 0x04 ? 1 : 0; //切换前后摄像头 _front_view = (frame.data[4] & 0x04) == 0x04 ? false: true; _message->SwitchCamera(_front_view); //b_ready = (_msg[3].DATA[4] & 0x10) == 0x10 ? 1 : 0; if((frame.data[4] & 0x10) == 0x10 ? 1 : 0)//已就绪抓钢机就绪状态，待无人车入场 { _message->SendZGJStatus(1); std::cout << "SendZGJStatus" << std::endl; //_msg[3].DATA[4] &= 0xEF; } //b_over = (_msg[3].DATA[4] & 0x20) == 0x20 ? 1 : 0; if((frame.data[4] & 0x20) == 0x20 ? 1 : 0)//已完成抓钢机抓钢结束，待无人车离场 { _message->SendZGJStatus(2); //_msg[3].DATA[4] &= 0xD7; } if(!_message->btimeStopedCar) { memcpy(Sendframe[3].data, frame.data, frame.dlc); } else { long long tick=std::chrono::duration_cast(std::chrono::system_clock::now().time_since_epoch()).count(); /* if(tick-_message->_curStopTick > 500) { Emergency(); _message->btimeStopedCar = false; } */ if(tick-_message->_curStopTick < 500) Emergency(); else _message->btimeStopedCar = false; } //_message->_dst = std::chrono::duration_cast(std::chrono::system_clock::now().time_since_epoch()).count(); // printf("data delay:%ld\r\n",_message->_dst - _message->_source); //std::cout << "revice 184" << std::endl; break; } } } void CCanBusSensor::SendStatusToMSG() { RemoNet::State req; req.set_engine_speed(_data.Engine_speed); req.set_travel_speed(_data.Travel_speed); req.set_fuel_level(_data.Fuel_level); req.set_engine_temperature(_data.Engine_temperature); req.set_hydraulic_oil_temperature(_data.Hydraulic_oil_temperature); req.set_main_pump_1_pressure(_data.Main_pump_1_pressure); req.set_main_pump_2_pressure(_data.Main_pump_2_pressure); req.set_hand_gear(_data.Hand_gear); req.set_actual_gear(_data.Actual_gear); req.set_gripper_height(_data.Gripper_height); req.set_amplitude(_data.amplitude); req.set_boom_angle(_data.Boom_angle); req.set_stick_angle(_data.Stick_angle); req.set_idle_protection(_data.Idle_protection); req.set_front_toggle(_data.Front_toggle); req.set_back_toggle(_data.Back_toggle); req.set_error_buff((char *)_data.Error_Buff,8); MessageHead Head; CIOBuffer pBuffer; Head.Command = RemoNet::CC_STATE; Head.Length = req.ByteSizeLong(); Head.Serialize(pBuffer.Buffer); auto ptr = pBuffer.Buffer + MessageHead::Size(); req.SerializeToArray(ptr, Head.Length); pBuffer.Length = MessageHead::Size() + Head.Length; _message->WritePacket(ChannelType::CHANNEL_CAR, pBuffer); } void CCanBusSensor::Emergency() { if(model) { Sendframe[3].can_id = 0x184; Sendframe[3].can_dlc = 8; Sendframe[3].data[3] &= 0xFD; //_canbus->Write(&Sendframe[3]); } }