/* * hvacplugin.cpp - AMB plugin to conttrol HVAC demo hardware for CES 2016 * * Copyright (C) 2013-2015 K2L GmbH & Co. KG * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * This file is licensed under GPLv2. */ #include #include #include #include #include #include #include #include #include "hvacplugin.h" static const char* DEFAULT_CAN_IF_NAME = "vcan0"; //---------------------------------------------------------------------------- // K2LHvacPlugin //---------------------------------------------------------------------------- extern "C" void create(AbstractRoutingEngine* routingengine, std::map config) { new K2LHvacPlugin(routingengine, config); } K2LHvacPlugin::K2LHvacPlugin(AbstractRoutingEngine* re, const map& config) : AbstractSource(re, config) { printf("K2LHvacPlugin: created - 2015-12-08 10:04\n"); addPropertySupport(VehicleProperty::TargetTemperature, Zone::FrontLeft | Zone::FrontRight); Zone::ZoneList tempartureZones; tempartureZones.push_back(Zone::FrontLeft); tempartureZones.push_back(Zone::FrontRight); temperatureValues[Zone::FrontLeft] = 21; temperatureValues[Zone::FrontRight] = 21; PropertyInfo tempartureZonesInfo(0, tempartureZones); propertyInfoMap[VehicleProperty::TargetTemperature] = tempartureZonesInfo; addPropertySupport(VehicleProperty::FanSpeed, Zone::None); socketId = socket(PF_CAN, SOCK_RAW, CAN_RAW); printf("Socket: %i\n", socketId); if (socketId < 0) { printf("ERROR: socket could not be created\n"); } else { struct ifreq ifr; strcpy(ifr.ifr_name, "vcan0" ); if(ioctl(this->socketId, SIOCGIFINDEX, &ifr) < 0) { close(socketId); socketId = -1; printf("ERROR: ioctl failed\n"); } else { txAddress.can_family = AF_CAN; txAddress.can_ifindex = ifr.ifr_ifindex; if (bind(this->socketId, (struct sockaddr *)&txAddress, sizeof(txAddress)) < 0) { close(socketId); socketId = -1; printf("ERROR: bind failed\n"); } txCanFrame.can_id = 0x30; txCanFrame.can_dlc = 8; } } } K2LHvacPlugin::~K2LHvacPlugin() { if(socketId >= 0) { close(socketId); printf("Socket closed\n"); } } void K2LHvacPlugin::getPropertyAsync(AsyncPropertyReply *reply) { printf("K2LHvacPlugin::getPropertyAsync\n"); if(reply->property == VehicleProperty::FanSpeed) { printf("VehicleProperty::FanSpeed=OK\n"); VehicleProperty::FanSpeedType temp(fanSpeedValue); reply->value = &temp; reply->success = true; reply->completed(reply); } else if(reply->property == VehicleProperty::TargetTemperature) { printf("VehicleProperty::TargetTemperature="); if(temperatureValues.find(reply->zoneFilter) == temperatureValues.end()) { printf("AsyncPropertyReply::ZoneNotSupported\n"); reply->success = false; reply->error = AsyncPropertyReply::ZoneNotSupported; reply->completed(reply); } else { printf("OK\n"); VehicleProperty::TargetTemperatureType temp(temperatureValues[reply->zoneFilter]); reply->success = true; reply->value = &temp; reply->completed(reply); } } } AsyncPropertyReply *K2LHvacPlugin::setProperty(AsyncSetPropertyRequest request ) { printf("K2LHvacPlugin::setProperty\n"); AsyncPropertyReply *reply = new AsyncPropertyReply(request); reply->success = false; reply->error = AsyncPropertyReply::NoError; if(reply->property == VehicleProperty::FanSpeed) { printf("VehicleProperty::FanSpeed=OK\n"); fanSpeedValue = (uint8_t)reply->value->value(); } else if(reply->property == VehicleProperty::TargetTemperature) { printf("VehicleProperty::TargetTemperature="); if(temperatureValues.find(reply->zoneFilter) == temperatureValues.end()) { printf("AsyncPropertyReply::ZoneNotSupported\n"); reply->error = AsyncPropertyReply::ZoneNotSupported; } else { printf("OK\n"); temperatureValues[reply->zoneFilter] = (uint8_t)reply->value->value(); } } else { reply->error = AsyncPropertyReply::InvalidOperation; } if(reply->error == AsyncPropertyReply::NoError) { reply->success = true; routingEngine->updateProperty(reply->value,uuid()); if (socketId >= 0) { printf("Send CAN message\n"); txCanFrame.data[0] = GetTemperature(temperatureValues[Zone::FrontLeft]); txCanFrame.data[1] = GetTemperature(temperatureValues[Zone::FrontRight]); txCanFrame.data[2] = GetTemperature((temperatureValues[Zone::FrontLeft] + temperatureValues[Zone::FrontRight]) / 2); txCanFrame.data[3] = 0xF0; txCanFrame.data[4] = fanSpeedValue; txCanFrame.data[5] = 0x01; txCanFrame.data[6] = 0x00; txCanFrame.data[7] = 0x00; sendto(socketId, &txCanFrame, sizeof(struct can_frame), 0, (struct sockaddr*)&txAddress, sizeof(txAddress)); } } else { reply->success = false; } reply->completed(reply); return reply; } uint8_t K2LHvacPlugin::GetTemperature(uint8_t value) { uint8_t result = ((0xF0 - 0x10) / 15) * value - 16; if (result < 0x10) result = 0x10; if (result > 0xF0) result = 0xF0; return result; } void K2LHvacPlugin::subscribeToPropertyChanges(VehicleProperty::Property property) { mRequests.push_back(property); } PropertyList K2LHvacPlugin::supported() { return mSupported; } void K2LHvacPlugin::unsubscribeToPropertyChanges(VehicleProperty::Property property) { if(contains(mRequests,property)) removeOne(&mRequests, property); } int K2LHvacPlugin::supportedOperations() { return Get | Set | GetRanged; } void K2LHvacPlugin::addPropertySupport(VehicleProperty::Property property, Zone::Type zone) { mSupported.push_back(property); Zone::ZoneList zones; zones.push_back(zone); PropertyInfo info(0, zones); propertyInfoMap[property] = info; }