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wmbusmeters/src/meters.h

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Czysty Wina Historia

/*
Copyright (C) 2017-2020 Fredrik Öhrström
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
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.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef METER_H_
#define METER_H_
#include"util.h"
#include"units.h"
#include"wmbus.h"
#include<string>
#include<functional>
#include<vector>
#define LIST_OF_METERS \
X(amiplus, T1_bit, Electricity, AMIPLUS, Amiplus) \
X(apator08, T1_bit, Water, APATOR08, Apator08) \
X(apator162, C1_bit|T1_bit, Water, APATOR162, Apator162) \
X(cma12w, C1_bit|T1_bit, TempHygro, CMA12W, CMa12w) \
X(compact5, T1_bit, Heat, COMPACT5, Compact5) \
X(ebzwmbe, T1_bit, Electricity, EBZWMBE, EBZWMBE) \
X(eurisii, T1_bit, HeatCostAllocation, EURISII, EurisII) \
X(ehzp, T1_bit, Electricity, EHZP, EHZP) \
X(esyswm, T1_bit, Electricity, ESYSWM, ESYSWM) \
X(flowiq3100, C1_bit, Water, FLOWIQ3100, FlowIQ3100) \
X(em24, C1_bit, Electricity, EM24, EM24) \
X(fhkvdataiii, T1_bit, HeatCostAllocation, FHKVDATAIII, FHKVDataIII) \
X(hydrus, T1_bit, Water, HYDRUS, Hydrus) \
X(hydrodigit, T1_bit, Water, HYDRODIGIT, Hydrodigit) \
X(iperl, T1_bit, Water, IPERL, Iperl) \
X(izar, T1_bit, Water, IZAR, Izar) \
X(izar3, T1_bit, Water, IZAR3, Izar3) \
X(lansensm, T1_bit, Smoke, LANSENSM, LansenSM) \
X(lansenth, T1_bit, TempHygro, LANSENTH, LansenTH) \
X(lansendw, T1_bit, DoorWindow, LANSENDW, LansenDW) \
X(lansenpu, T1_bit, Pulse, LANSENPU, LansenPU) \
X(mkradio3, T1_bit, Water, MKRADIO3, MKRadio3) \
X(multical21, C1_bit|T1_bit, Water, MULTICAL21, Multical21) \
X(multical302,C1_bit, Heat, MULTICAL302, Multical302) \
X(multical403,C1_bit, Heat, MULTICAL403, Multical403) \
X(multical603,C1_bit, Heat, MULTICAL603, Multical603) \
X(omnipower, C1_bit, Electricity, OMNIPOWER, Omnipower) \
X(rfmamb, T1_bit, TempHygro, RFMAMB, RfmAmb) \
X(rfmtx1, T1_bit, Water, RFMTX1, RfmTX1) \
X(q400, T1_bit, Water, Q400, Q400) \
X(qcaloric, C1_bit, HeatCostAllocation, QCALORIC, QCaloric) \
X(supercom587,T1_bit, Water, SUPERCOM587, Supercom587) \
X(vario451, T1_bit, Heat, VARIO451, Vario451) \
X(waterstarm, C1_bit|T1_bit, Water,WATERSTARM, WaterstarM) \
X(topaseskr, T1_bit, Water, TOPASESKR, TopasEsKr) \
// List of numbers that can be used to detect the meter driver
// from a telegram. Currently these values are checked against
// the outermost DLL layer. Thus this cannot handle if a telegram
// is relayed and the meter telegram is wrapped in an outer
// DLL which identifies the relayer. Something to fix in the future
// is someone reports problems using a relay.
//
// The future solution might have RELAY_DETECTION and
// for such telegrams it will strip the outer layer and
// recreate the inner telegram.
//
// meter driver, manufacturer, media, version
//
#define METER_DETECTION \
X(AMIPLUS, MANUFACTURER_APA, 0x02, 0x02) \
X(AMIPLUS, MANUFACTURER_DEV, 0x37, 0x02) \
X(APATOR08, 0x8614/*APT?*/, 0x03, 0x03) \
X(APATOR162, MANUFACTURER_APA, 0x06, 0x05) \
X(APATOR162, MANUFACTURER_APA, 0x07, 0x05) \
X(CMA12W, MANUFACTURER_ELV, 0x1b, 0x20) \
X(COMPACT5, MANUFACTURER_TCH, 0x04, 0x45) \
X(COMPACT5, MANUFACTURER_TCH, 0xc3, 0x45) \
X(EBZWMBE, MANUFACTURER_EBZ, 0x37, 0x02) \
X(EURISII, MANUFACTURER_INE, 0x08, 0x55) \
X(EHZP, MANUFACTURER_EMH, 0x02, 0x02) \
X(ESYSWM, MANUFACTURER_ESY, 0x37, 0x30) \
X(FLOWIQ3100,MANUFACTURER_KAM, 0x16, 0x1d) \
X(EM24, MANUFACTURER_KAM, 0x02, 0x33) \
X(FHKVDATAIII,MANUFACTURER_TCH, 0x80, 0x69) \
X(HYDRUS, MANUFACTURER_DME, 0x07, 0x70) \
X(HYDRUS, MANUFACTURER_HYD, 0x07, 0x24) \
X(HYDRUS, MANUFACTURER_DME, 0x06, 0x70) \
X(HYDRODIGIT,MANUFACTURER_BMT, 0x07, 0x13) \
X(IPERL, MANUFACTURER_SEN, 0x06, 0x68) \
X(IPERL, MANUFACTURER_SEN, 0x07, 0x68) \
X(IPERL, MANUFACTURER_SEN, 0x07, 0x7c) \
X(IZAR, MANUFACTURER_SAP, 0x01, -1) \
X(IZAR, MANUFACTURER_SAP, 0x15, -1) \
X(IZAR, MANUFACTURER_SAP, 0x66, -1) \
X(IZAR, MANUFACTURER_DME, 0x66, -1) \
X(IZAR3, MANUFACTURER_SAP, 0x00, 0x88) \
X(LANSENSM, MANUFACTURER_LAS, 0x1a, 0x03) \
X(LANSENTH, MANUFACTURER_LAS, 0x1b, 0x07) \
X(LANSENDW, MANUFACTURER_LAS, 0x1d, 0x07) \
X(LANSENPU, MANUFACTURER_LAS, 0x00, 0x14) \
X(LANSENPU, MANUFACTURER_LAS, 0x00, 0x0b) \
X(MKRADIO3, MANUFACTURER_TCH, 0x62, 0x74) \
X(MKRADIO3, MANUFACTURER_TCH, 0x72, 0x74) \
X(MULTICAL21, MANUFACTURER_KAM, 0x06, 0x1b) \
X(MULTICAL21, MANUFACTURER_KAM, 0x16, 0x1b) \
X(MULTICAL302,MANUFACTURER_KAM, 0x04, 0x30) \
X(MULTICAL302,MANUFACTURER_KAM, 0x0d, 0x30) \
X(MULTICAL403,MANUFACTURER_KAM, 0x0a, 0x34) \
X(MULTICAL403,MANUFACTURER_KAM, 0x0b, 0x34) \
X(MULTICAL403,MANUFACTURER_KAM, 0x0c, 0x34) \
X(MULTICAL403,MANUFACTURER_KAM, 0x0d, 0x34) \
X(MULTICAL603,MANUFACTURER_KAM, 0x04, 0x35) \
X(OMNIPOWER, MANUFACTURER_KAM, 0x02, 0x01) \
X(RFMAMB, MANUFACTURER_BMT, 0x1b, 0x10) \
X(RFMTX1, MANUFACTURER_BMT, 0x07, 0x05) \
X(Q400, MANUFACTURER_AXI, 0x07, 0x10) \
X(QCALORIC, MANUFACTURER_QDS, 0x08, 0x35) \
X(SUPERCOM587,MANUFACTURER_SON, 0x06, 0x3c) \
X(SUPERCOM587,MANUFACTURER_SON, 0x07, 0x3c) \
X(VARIO451, MANUFACTURER_TCH, 0x04, 0x27) \
X(VARIO451, MANUFACTURER_TCH, 0xc3, 0x27) \
X(WATERSTARM, MANUFACTURER_DWZ, 0x06, 0x02) \
X(TOPASESKR, MANUFACTURER_AMT, 0x06, 0xf1) \
X(TOPASESKR, MANUFACTURER_AMT, 0x07, 0xf1) \
enum class MeterType {
#define X(mname,linkmode,info,type,cname) type,
LIST_OF_METERS
#undef X
UNKNOWN
};
struct MeterMatch
{
MeterType driver;
int manufacturer;
int media;
int version;
};
// Return a list of matching drivers, like: multical21
void detectMeterDriver(int manufacturer, int media, int version, std::vector<std::string> *drivers);
// When entering the driver, check that the telegram is indeed known to be
// compatible with the driver(type), if not then print a warning.
bool isMeterDriverValid(MeterType type, int manufacturer, int media, int version);
using namespace std;
typedef unsigned char uchar;
struct MeterInfo
{
string name;
string type;
string id;
string key;
LinkModeSet link_modes;
vector<string> shells;
vector<string> jsons; // Additional static jsons that are added to each message.
MeterInfo()
{
}
MeterInfo(string n, string t, string i, string k, LinkModeSet lms, vector<string> &s, vector<string> &j)
{
name = n;
type = t;
id = i;
key = k;
shells = s;
jsons = j;
link_modes = lms;
}
};
struct Print
{
string vname; // Value name, like: total current previous target
Quantity quantity; // Quantity: Energy, Volume
Unit default_unit; // Default unit for above quantity: KWH, M3
function<double(Unit)> getValueDouble; // Callback to fetch the value from the meter.
function<string()> getValueString; // Callback to fetch the value from the meter.
string help; // Helpful information on this meters use of this value.
bool field; // If true, print in hr/fields output.
bool json; // If true, print in json and shell env variables.
string field_name; // Field name for default unit.
};
struct Meter
{
// This meter listens to these ids.
virtual vector<string> ids() = 0;
// This meter can report these fields, like total_m3, temp_c.
virtual vector<string> fields() = 0;
virtual vector<Print> prints() = 0;
virtual string meterName() = 0;
virtual string name() = 0;
virtual MeterType type() = 0;
virtual string datetimeOfUpdateHumanReadable() = 0;
virtual string datetimeOfUpdateRobot() = 0;
virtual void onUpdate(std::function<void(Telegram*t,Meter*)> cb) = 0;
virtual int numUpdates() = 0;
virtual void printMeter(Telegram *t,
string *human_readable,
string *fields, char separator,
string *json,
vector<string> *envs,
vector<string> *more_json,
vector<string> *selected_fields) = 0;
// The handleTelegram expects an input_frame where the DLL crcs have been removed.
// Returns true of this meter handled this telegram!
virtual bool handleTelegram(AboutTelegram &about, vector<uchar> input_frame, bool simulated, string *id) = 0;
virtual bool isTelegramForMe(Telegram *t) = 0;
virtual MeterKeys *meterKeys() = 0;
// Dynamically access all data received for the meter.
virtual std::vector<std::string> getRecords() = 0;
virtual double getRecordAsDouble(std::string record) = 0;
virtual uint16_t getRecordAsUInt16(std::string record) = 0;
virtual void addConversions(std::vector<Unit> cs) = 0;
virtual void addShell(std::string cmdline) = 0;
virtual vector<string> &shellCmdlines() = 0;
virtual ~Meter() = default;
};
struct MeterManager
{
virtual void addMeter(shared_ptr<Meter> meter) = 0;
virtual Meter*lastAddedMeter() = 0;
virtual void removeAllMeters() = 0;
virtual void forEachMeter(std::function<void(Meter*)> cb) = 0;
virtual bool handleTelegram(AboutTelegram &about, vector<uchar> data, bool simulated) = 0;
virtual bool hasAllMetersReceivedATelegram() = 0;
virtual bool hasMeters() = 0;
virtual void onTelegram(function<void(AboutTelegram&,vector<uchar>)> cb) = 0;
virtual ~MeterManager() = default;
};
shared_ptr<MeterManager> createMeterManager();
struct WaterMeter : public virtual Meter
{
virtual double totalWaterConsumption(Unit u); // m3
virtual bool hasTotalWaterConsumption();
virtual double targetWaterConsumption(Unit u); // m3
virtual bool hasTargetWaterConsumption();
virtual double maxFlow(Unit u); // m3/s
virtual bool hasMaxFlow();
virtual double flowTemperature(Unit u); // °C
virtual bool hasFlowTemperature();
virtual double externalTemperature(Unit u); // °C
virtual bool hasExternalTemperature();
virtual string statusHumanReadable();
virtual string status();
virtual string timeDry();
virtual string timeReversed();
virtual string timeLeaking();
virtual string timeBursting();
};
struct HeatMeter : public virtual Meter
{
virtual double totalEnergyConsumption(Unit u); // kwh
virtual double currentPeriodEnergyConsumption(Unit u); // kwh
virtual double previousPeriodEnergyConsumption(Unit u); // kwh
virtual double currentPowerConsumption(Unit u); // kw
virtual double totalVolume(Unit u); // m3
};
struct ElectricityMeter : public virtual Meter
{
virtual double totalEnergyConsumption(Unit u); // kwh
virtual double totalEnergyProduction(Unit u); // kwh
virtual double totalReactiveEnergyConsumption(Unit u); // kvarh
virtual double totalReactiveEnergyProduction(Unit u); // kvarh
virtual double totalApparentEnergyConsumption(Unit u); // kvah
virtual double totalApparentEnergyProduction(Unit u); // kvah
virtual double currentPowerConsumption(Unit u); // kw
virtual double currentPowerProduction(Unit u); // kw
};
struct HeatCostMeter : public virtual Meter
{
virtual double currentConsumption(Unit u);
virtual string setDate();
virtual double consumptionAtSetDate(Unit u);
};
struct TempMeter : public virtual Meter
{
virtual double currentTemperature(Unit u) = 0; // °C
virtual ~TempMeter() = default;
};
struct HygroMeter : public virtual Meter
{
virtual double currentRelativeHumidity() = 0; // RH
virtual ~HygroMeter() = default;
};
struct TempHygroMeter : public virtual TempMeter, public virtual HygroMeter
{
virtual ~TempHygroMeter() = default;
};
struct SmokeDetector : public virtual Meter
{
virtual bool smokeDetected() = 0;
virtual ~SmokeDetector() = default;
};
struct DoorWindowDetector : public virtual Meter
{
virtual bool open() = 0;
virtual ~DoorWindowDetector() = default;
};
struct PulseCounter : public virtual Meter
{
virtual double counterA() = 0;
virtual double counterB() = 0;
virtual ~PulseCounter() = default;
};
struct GenericMeter : public virtual Meter {
};
string toMeterName(MeterType mt);
MeterType toMeterType(string& type);
LinkModeSet toMeterLinkModeSet(string& type);
shared_ptr<WaterMeter> createMultical21(MeterInfo &m);
shared_ptr<WaterMeter> createFlowIQ3100(MeterInfo &m);
shared_ptr<HeatMeter> createMultical302(MeterInfo &m);
shared_ptr<HeatMeter> createMultical403(MeterInfo &m);
shared_ptr<HeatMeter> createMultical603(MeterInfo &m);
shared_ptr<HeatMeter> createVario451(MeterInfo &m);
shared_ptr<WaterMeter> createWaterstarM(MeterInfo &m);
shared_ptr<HeatMeter> createCompact5(MeterInfo &m);
shared_ptr<ElectricityMeter> createOmnipower(MeterInfo &m);
shared_ptr<ElectricityMeter> createAmiplus(MeterInfo &m);
shared_ptr<ElectricityMeter> createEM24(MeterInfo &m);
shared_ptr<WaterMeter> createSupercom587(MeterInfo &m);
shared_ptr<WaterMeter> createMKRadio3(MeterInfo &m);
shared_ptr<WaterMeter> createApator08(MeterInfo &m);
shared_ptr<WaterMeter> createApator162(MeterInfo &m);
shared_ptr<WaterMeter> createIperl(MeterInfo &m);
shared_ptr<WaterMeter> createHydrus(MeterInfo &m);
shared_ptr<WaterMeter> createHydrodigit(MeterInfo &m);
shared_ptr<WaterMeter> createIzar(MeterInfo &m);
shared_ptr<WaterMeter> createIzar3(MeterInfo &m);
shared_ptr<WaterMeter> createQ400(MeterInfo &m);
shared_ptr<HeatCostMeter> createQCaloric(MeterInfo &m);
shared_ptr<HeatCostMeter> createEurisII(MeterInfo &m);
shared_ptr<HeatCostMeter> createFHKVDataIII(MeterInfo &m);
shared_ptr<TempHygroMeter> createLansenTH(MeterInfo &m);
shared_ptr<SmokeDetector> createLansenSM(MeterInfo &m);
shared_ptr<PulseCounter> createLansenPU(MeterInfo &m);
shared_ptr<DoorWindowDetector> createLansenDW(MeterInfo &m);
shared_ptr<TempHygroMeter> createCMa12w(MeterInfo &m);
shared_ptr<TempHygroMeter> createRfmAmb(MeterInfo &m);
shared_ptr<WaterMeter> createRfmTX1(MeterInfo &m);
shared_ptr<ElectricityMeter> createEHZP(MeterInfo &m);
shared_ptr<ElectricityMeter> createESYSWM(MeterInfo &m);
shared_ptr<ElectricityMeter> createEBZWMBE(MeterInfo &m);
shared_ptr<WaterMeter> createTopasEsKr(MeterInfo &m);
GenericMeter *createGeneric(WMBus *bus, MeterInfo &m);
#endif
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