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Merge branch 'dev_' into dev

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This commit is contained in:
MichaelDvP
2021-09-20 09:01:25 +02:00
parent 915749dd69 2516d2d6de
commit 6a828e9ca5
8 changed files with 126 additions and 43 deletions
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24
src/devices/boiler.cpp
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@@ -261,7 +261,7 @@ Boiler::Boiler(uint8_t device_type, int8_t device_id, uint8_t product_id, const
register_device_value(
TAG_BOILER_DATA_WW, &wwActivated_, DeviceValueType::BOOL, nullptr, FL_(wwActivated), DeviceValueUOM::BOOLEAN, MAKE_CF_CB(set_warmwater_activated));
register_device_value(TAG_BOILER_DATA_WW, &wwOneTime_, DeviceValueType::BOOL, nullptr, FL_(wwOneTime), DeviceValueUOM::BOOLEAN, MAKE_CF_CB(set_warmwater_onetime));
register_device_value(TAG_BOILER_DATA_WW, &wwDisinfecting_, DeviceValueType::BOOL, nullptr, FL_(wwDisinfecting), DeviceValueUOM::BOOLEAN);
register_device_value(TAG_BOILER_DATA_WW, &wwDisinfect_, DeviceValueType::BOOL, nullptr, FL_(wwDisinfect), DeviceValueUOM::BOOLEAN, MAKE_CF_CB(set_warmwater_disinfect));
register_device_value(TAG_BOILER_DATA_WW, &wwCharging_, DeviceValueType::BOOL, nullptr, FL_(wwCharging), DeviceValueUOM::BOOLEAN);
register_device_value(TAG_BOILER_DATA_WW, &wwRecharging_, DeviceValueType::BOOL, nullptr, FL_(wwRecharging), DeviceValueUOM::BOOLEAN);
register_device_value(TAG_BOILER_DATA_WW, &wwTempOK_, DeviceValueType::BOOL, nullptr, FL_(wwTempOK), DeviceValueUOM::BOOLEAN);
@@ -471,7 +471,7 @@ void Boiler::process_UBAMonitorWW(std::shared_ptr<const Telegram> telegram) {
has_update(telegram->read_value(wWStarts_, 13, 3)); // force to 3 bytes
has_update(telegram->read_bitvalue(wwOneTime_, 5, 1));
has_update(telegram->read_bitvalue(wwDisinfecting_, 5, 2));
has_update(telegram->read_bitvalue(wwDisinfect_, 5, 2));
has_update(telegram->read_bitvalue(wwCharging_, 5, 3));
has_update(telegram->read_bitvalue(wwRecharging_, 5, 4));
has_update(telegram->read_bitvalue(wwTempOK_, 5, 5));
@@ -611,7 +611,7 @@ void Boiler::process_UBAMonitorWWPlus(std::shared_ptr<const Telegram> telegram)
has_update(telegram->read_value(wWStarts_, 17, 3)); // force to 3 bytes
has_update(telegram->read_bitvalue(wwOneTime_, 12, 2));
has_update(telegram->read_bitvalue(wwDisinfecting_, 12, 3));
has_update(telegram->read_bitvalue(wwDisinfect_, 12, 3));
has_update(telegram->read_bitvalue(wwCharging_, 12, 4));
has_update(telegram->read_bitvalue(wwRecharging_, 13, 4));
has_update(telegram->read_bitvalue(wwTempOK_, 13, 5));
@@ -1310,6 +1310,24 @@ bool Boiler::set_warmwater_circulation(const char * value, const int8_t id) {
return true;
}
// starting warm water disinfect, set to off seems not working
bool Boiler::set_warmwater_disinfect(const char * value, const int8_t id) {
bool v = false;
if (!Helpers::value2bool(value, v)) {
LOG_WARNING(F("Set warm water disinfect: Invalid value"));
return false;
}
LOG_INFO(F("Setting warm water disinfect %s"), v ? "on" : "off");
if (is_fetch(EMS_TYPE_UBAParameterWWPlus)) {
write_command(EMS_TYPE_UBAFlags, 0, (v ? 0x44 : 0x04), 0xE9); // not sure if this is in flags
} else {
write_command(EMS_TYPE_UBAFlags, 0, (v ? 0x44 : 0x04), 0x34);
}
return true;
}
// configuration of warm water circulation pump
bool Boiler::set_warmwater_circulation_pump(const char * value, const int8_t id) {
bool v = false;

3
src/devices/boiler.h
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@@ -74,7 +74,7 @@ class Boiler : public EMSdevice {
uint16_t wwStorageTemp2_; // warm water storage temp 2
uint8_t wwActivated_; // Warm Water activated
uint8_t wwOneTime_; // Warm Water one time function on/off
uint8_t wwDisinfecting_; // Warm Water disinfection on/off
uint8_t wwDisinfect_; // Warm Water disinfection on/off
uint8_t wwCharging_; // Warm Water charging on/off
uint8_t wwRecharging_; // Warm Water recharge on/off
uint8_t wwTempOK_; // Warm Water temperature ok on/off
@@ -229,6 +229,7 @@ class Boiler : public EMSdevice {
bool set_warmwater_activated(const char * value, const int8_t id);
bool set_tapwarmwater_activated(const char * value, const int8_t id);
bool set_warmwater_onetime(const char * value, const int8_t id);
bool set_warmwater_disinfect(const char * value, const int8_t id);
bool set_warmwater_circulation(const char * value, const int8_t id);
bool set_warmwater_circulation_pump(const char * value, const int8_t id);
bool set_warmwater_circulation_mode(const char * value, const int8_t id);

39
src/devices/mixer.cpp
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@@ -78,6 +78,8 @@ Mixer::Mixer(uint8_t device_type, uint8_t device_id, uint8_t product_id, const s
register_device_value(tag, &status_, DeviceValueType::INT, nullptr, FL_(mixerStatus), DeviceValueUOM::PERCENT);
register_device_value(tag, &flowSetTemp_, DeviceValueType::UINT, nullptr, FL_(flowSetTemp), DeviceValueUOM::DEGREES, MAKE_CF_CB(set_flowSetTemp));
register_device_value(tag, &pumpStatus_, DeviceValueType::BOOL, nullptr, FL_(pumpStatus), DeviceValueUOM::BOOLEAN, MAKE_CF_CB(set_pump));
register_device_value(tag, &activated_, DeviceValueType::BOOL, nullptr, FL_(activated), DeviceValueUOM::BOOLEAN, MAKE_CF_CB(set_activated));
register_device_value(tag, &setValveTime_, DeviceValueType::UINT, FL_(mul10), FL_(mixerSetTime), DeviceValueUOM::SECONDS, MAKE_CF_CB(set_setValveTime), 1, 12);
}
// HT3
@@ -231,16 +233,16 @@ void Mixer::process_HpPoolStatus(std::shared_ptr<const Telegram> telegram) {
poolShuntStatus_ = poolShunt_ == 100 ? 3 : (poolShunt_ == 0 ? 4 : poolShuntStatus__);
}
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
// Mixer on a MM10 - 0xAA
// e.g. Thermostat -> Mixer Module, type 0xAA, telegram: 10 21 AA 00 FF 0C 0A 11 0A 32 xx
void Mixer::process_MMConfigMessage(std::shared_ptr<const Telegram> telegram) {
// pos 0: active FF = on
// pos 1: valve runtime 0C = 120 sec in units of 10 sec
has_update(telegram->read_value(activated_, 0)); // on = 0xFF
has_update(telegram->read_value(setValveTime_, 1)); // valve runtime in 10 sec, max 120 s
}
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
// Mixer on a MM10 - 0xAC
// e.g. Thermostat -> Mixer Module, type 0xAC, telegram: 10 21 AC 00 1E 64 01 AB
void Mixer::process_MMSetMessage(std::shared_ptr<const Telegram> telegram) {
@@ -300,4 +302,31 @@ bool Mixer::set_pump(const char * value, const int8_t id) {
return false;
}
bool Mixer::set_activated(const char * value, const int8_t id) {
bool b;
if (!Helpers::value2bool(value, b)) {
return false;
}
if (flags() == EMSdevice::EMS_DEVICE_FLAG_MM10) {
LOG_INFO(F("Setting mixer %s"), value);
write_command(0xAA, 0, b ? 0xFF : 0, 0xAA);
return true;
}
return false;
}
bool Mixer::set_setValveTime(const char * value, const int8_t id) {
int v;
if (!Helpers::value2number(value, v)) {
return false;
}
if (flags() == EMSdevice::EMS_DEVICE_FLAG_MM10) {
v = (v + 5) / 10;
LOG_INFO(F("Setting mixer valve time to %ds"), v * 10);
write_command(0xAA, 1, v, 0xAA);
return true;
}
return false;
}
} // namespace emsesp

4
src/devices/mixer.h
View File

@@ -44,6 +44,8 @@ class Mixer : public EMSdevice {
bool set_flowSetTemp(const char * value, const int8_t id);
bool set_pump(const char * value, const int8_t id);
bool set_activated(const char * value, const int8_t id);
bool set_setValveTime(const char * value, const int8_t id);
enum class Type {
NONE,
@@ -59,6 +61,8 @@ class Mixer : public EMSdevice {
uint8_t pumpStatus_;
int8_t status_;
uint8_t flowSetTemp_;
uint8_t activated_;
uint8_t setValveTime_;
int16_t poolTemp_;
int8_t poolShuntStatus__;

11
src/devices/thermostat.cpp
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@@ -1383,11 +1383,12 @@ bool Thermostat::set_wwcharge(const char * value, const int8_t id) {
// Set ww charge duration in steps of 15 min, ems+
bool Thermostat::set_wwchargeduration(const char * value, const int8_t id) {
uint8_t t = 0xFF;
if (!Helpers::value2enum(value, t, FL_(enum_wwChargeDuration))) {
int t = 0xFF;
if (!Helpers::value2number(value, t)) {
LOG_WARNING(F("Set warm water charge duration: Invalid value"));
return false;
}
t = (t + 8) / 15;
LOG_INFO(F("Setting warm water charge duration to %d min"), t * 15);
write_command(0x2F5, 10, t, 0x02F5);
return true;
@@ -2420,10 +2421,10 @@ void Thermostat::register_device_values() {
TAG_THERMOSTAT_DATA, &wwCircMode_, DeviceValueType::ENUM, FL_(enum_wwCircMode), FL_(wwCircMode), DeviceValueUOM::LIST, MAKE_CF_CB(set_wwcircmode));
register_device_value(TAG_THERMOSTAT_DATA,
&wwChargeDuration_,
DeviceValueType::ENUM,
FL_(enum_wwChargeDuration),
DeviceValueType::UINT,
FL_(mul15),
FL_(wwChargeDuration),
DeviceValueUOM::LIST,
DeviceValueUOM::MINUTES,
MAKE_CF_CB(set_wwchargeduration));
register_device_value(TAG_THERMOSTAT_DATA, &wwCharge_, DeviceValueType::BOOL, nullptr, FL_(wwCharge), DeviceValueUOM::BOOLEAN, MAKE_CF_CB(set_wwcharge));
register_device_value(TAG_THERMOSTAT_DATA, &wwExtra1_, DeviceValueType::UINT, nullptr, FL_(wwExtra1), DeviceValueUOM::DEGREES);

69
src/emsdevice.cpp
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@@ -630,27 +630,36 @@ void EMSdevice::generate_values_json_web(JsonObject & json) {
// If a divider is specified, do the division to 2 decimals places and send back as double/float
// otherwise force as an integer whole
// the nested if's is necessary due to the way the ArduinoJson templates are pre-processed by the compiler
uint8_t divider = (dv.options_size == 1) ? Helpers::atoint(uuid::read_flash_string(dv.options[0]).c_str()) : 0;
uint8_t divider = 0;
uint8_t factor = 1;
if (dv.options_size == 1) {
const char * s = uuid::read_flash_string(dv.options[0]).c_str();
if (s[0] == '*') {
factor = Helpers::atoint(&s[1]);
} else {
divider = Helpers::atoint(s);
}
}
if ((dv.type == DeviceValueType::INT) && Helpers::hasValue(*(int8_t *)(dv.value_p))) {
obj = data.createNestedObject();
obj["v"] = (divider) ? Helpers::round2(*(int8_t *)(dv.value_p), divider) : *(int8_t *)(dv.value_p);
obj["v"] = (divider) ? Helpers::round2(*(int8_t *)(dv.value_p), divider) : *(int8_t *)(dv.value_p) * factor;
} else if ((dv.type == DeviceValueType::UINT) && Helpers::hasValue(*(uint8_t *)(dv.value_p))) {
obj = data.createNestedObject();
obj["v"] = (divider) ? Helpers::round2(*(uint8_t *)(dv.value_p), divider) : *(uint8_t *)(dv.value_p);
obj["v"] = (divider) ? Helpers::round2(*(uint8_t *)(dv.value_p), divider) : *(uint8_t *)(dv.value_p) * factor;
} else if ((dv.type == DeviceValueType::SHORT) && Helpers::hasValue(*(int16_t *)(dv.value_p))) {
obj = data.createNestedObject();
obj["v"] = (divider) ? Helpers::round2(*(int16_t *)(dv.value_p), divider) : *(int16_t *)(dv.value_p);
obj["v"] = (divider) ? Helpers::round2(*(int16_t *)(dv.value_p), divider) : *(int16_t *)(dv.value_p) * factor;
} else if ((dv.type == DeviceValueType::USHORT) && Helpers::hasValue(*(uint16_t *)(dv.value_p))) {
obj = data.createNestedObject();
obj["v"] = (divider) ? Helpers::round2(*(uint16_t *)(dv.value_p), divider) : *(uint16_t *)(dv.value_p);
obj["v"] = (divider) ? Helpers::round2(*(uint16_t *)(dv.value_p), divider) : *(uint16_t *)(dv.value_p) * factor;
} else if ((dv.type == DeviceValueType::ULONG) && Helpers::hasValue(*(uint32_t *)(dv.value_p))) {
obj = data.createNestedObject();
obj["v"] = (divider) ? Helpers::round2(*(uint32_t *)(dv.value_p), divider) : *(uint32_t *)(dv.value_p);
obj["v"] = divider ? Helpers::round2(*(uint32_t *)(dv.value_p), divider) : *(uint32_t *)(dv.value_p) * factor;
} else if ((dv.type == DeviceValueType::TIME) && Helpers::hasValue(*(uint32_t *)(dv.value_p))) {
uint32_t time_value = *(uint32_t *)(dv.value_p);
obj = data.createNestedObject();
obj["v"] = (divider) ? time_value / divider : time_value; // sometimes we need to divide by 60
obj["v"] = (divider > 0) ? time_value / divider : time_value * factor; // sometimes we need to divide by 60
}
}
@@ -711,7 +720,16 @@ bool EMSdevice::get_value_info(JsonObject & root, const char * cmd, const int8_t
// search device value with this tag
for (auto & dv : devicevalues_) {
if (strcmp(cmd, Helpers::toLower(uuid::read_flash_string(dv.short_name)).c_str()) == 0 && (tag <= 0 || tag == dv.tag)) {
uint8_t divider = (dv.options_size == 1) ? Helpers::atoint(uuid::read_flash_string(dv.options[0]).c_str()) : 0;
uint8_t divider = 0;
uint8_t factor = 1;
if (dv.options_size == 1) {
const char * s = uuid::read_flash_string(dv.options[0]).c_str();
if (s[0] == '*') {
factor = Helpers::atoint(&s[1]);
} else {
divider = Helpers::atoint(s);
}
}
const char * type = "type";
const char * min = "min";
const char * max = "max";
@@ -753,7 +771,7 @@ bool EMSdevice::get_value_info(JsonObject & root, const char * cmd, const int8_t
case DeviceValueType::USHORT:
if (Helpers::hasValue(*(uint16_t *)(dv.value_p))) {
json[value] = Helpers::round2(*(uint16_t *)(dv.value_p), divider);
json[value] = divider ? Helpers::round2(*(uint16_t *)(dv.value_p), divider) : *(uint16_t *)(dv.value_p) * factor;
}
json[type] = F_(number);
json[min] = 0;
@@ -762,7 +780,7 @@ bool EMSdevice::get_value_info(JsonObject & root, const char * cmd, const int8_t
case DeviceValueType::UINT:
if (Helpers::hasValue(*(uint8_t *)(dv.value_p))) {
json[value] = Helpers::round2(*(uint8_t *)(dv.value_p), divider);
json[value] = divider ? Helpers::round2(*(uint8_t *)(dv.value_p), divider) : *(uint8_t *)(dv.value_p) * factor;
}
json[type] = F_(number);
json[min] = 0;
@@ -775,7 +793,7 @@ bool EMSdevice::get_value_info(JsonObject & root, const char * cmd, const int8_t
case DeviceValueType::SHORT:
if (Helpers::hasValue(*(int16_t *)(dv.value_p))) {
json[value] = Helpers::round2(*(int16_t *)(dv.value_p), divider);
json[value] = divider ? Helpers::round2(*(int16_t *)(dv.value_p), divider) : *(int16_t *)(dv.value_p) * factor;
}
json[type] = F_(number);
json[min] = divider ? -EMS_VALUE_SHORT_NOTSET / divider : -EMS_VALUE_SHORT_NOTSET;
@@ -784,7 +802,7 @@ bool EMSdevice::get_value_info(JsonObject & root, const char * cmd, const int8_t
case DeviceValueType::INT:
if (Helpers::hasValue(*(int8_t *)(dv.value_p))) {
json[value] = Helpers::round2(*(int8_t *)(dv.value_p), divider);
json[value] = divider ? Helpers::round2(*(int8_t *)(dv.value_p), divider) : *(int8_t *)(dv.value_p) * factor;
}
json[type] = F_(number);
if (dv.uom == DeviceValueUOM::PERCENT) {
@@ -798,7 +816,7 @@ bool EMSdevice::get_value_info(JsonObject & root, const char * cmd, const int8_t
case DeviceValueType::ULONG:
if (Helpers::hasValue(*(uint32_t *)(dv.value_p))) {
json[value] = Helpers::round2(*(uint32_t *)(dv.value_p), divider);
json[value] = divider ? Helpers::round2(*(uint32_t *)(dv.value_p), divider) : *(uint32_t *)(dv.value_p) * factor;
}
json[type] = F_(number);
json[min] = 0;
@@ -824,7 +842,7 @@ bool EMSdevice::get_value_info(JsonObject & root, const char * cmd, const int8_t
case DeviceValueType::TIME:
if (Helpers::hasValue(*(uint32_t *)(dv.value_p))) {
json[value] = (divider) ? *(uint32_t *)(dv.value_p) / divider : *(uint32_t *)(dv.value_p);
json[value] = (divider) ? *(uint32_t *)(dv.value_p) / divider : *(uint32_t *)(dv.value_p) * factor;
}
json[type] = F_(number);
json[min] = 0;
@@ -955,47 +973,56 @@ bool EMSdevice::generate_values_json(JsonObject & root, const uint8_t tag_filter
// If a divider is specified, do the division to 2 decimals places and send back as double/float
// otherwise force as an integer whole
// the nested if's is necessary due to the way the ArduinoJson templates are pre-processed by the compiler
uint8_t divider = (dv.options_size == 1) ? Helpers::atoint(uuid::read_flash_string(dv.options[0]).c_str()) : 0;
uint8_t divider = 0;
uint8_t factor = 1;
if (dv.options_size == 1) {
const char * s = uuid::read_flash_string(dv.options[0]).c_str();
if (s[0] == '*') {
factor = Helpers::atoint(&s[1]);
} else {
divider = Helpers::atoint(s);
}
}
// INT
if ((dv.type == DeviceValueType::INT) && Helpers::hasValue(*(int8_t *)(dv.value_p))) {
if (divider) {
json[name] = Helpers::round2(*(int8_t *)(dv.value_p), divider);
} else {
json[name] = *(int8_t *)(dv.value_p);
json[name] = *(int8_t *)(dv.value_p) * factor;
}
has_value = true;
} else if ((dv.type == DeviceValueType::UINT) && Helpers::hasValue(*(uint8_t *)(dv.value_p))) {
if (divider) {
json[name] = Helpers::round2(*(uint8_t *)(dv.value_p), divider);
} else {
json[name] = *(uint8_t *)(dv.value_p);
json[name] = *(uint8_t *)(dv.value_p) * factor;
}
has_value = true;
} else if ((dv.type == DeviceValueType::SHORT) && Helpers::hasValue(*(int16_t *)(dv.value_p))) {
if (divider) {
json[name] = Helpers::round2(*(int16_t *)(dv.value_p), divider);
} else {
json[name] = *(int16_t *)(dv.value_p);
json[name] = *(int16_t *)(dv.value_p) * factor;
}
has_value = true;
} else if ((dv.type == DeviceValueType::USHORT) && Helpers::hasValue(*(uint16_t *)(dv.value_p))) {
if (divider) {
json[name] = Helpers::round2(*(uint16_t *)(dv.value_p), divider);
} else {
json[name] = *(uint16_t *)(dv.value_p);
json[name] = *(uint16_t *)(dv.value_p) * factor;
}
has_value = true;
} else if ((dv.type == DeviceValueType::ULONG) && Helpers::hasValue(*(uint32_t *)(dv.value_p))) {
if (divider) {
json[name] = Helpers::round2(*(uint32_t *)(dv.value_p), divider);
} else {
json[name] = *(uint32_t *)(dv.value_p);
json[name] = *(uint32_t *)(dv.value_p) * factor;
}
has_value = true;
} else if ((dv.type == DeviceValueType::TIME) && Helpers::hasValue(*(uint32_t *)(dv.value_p))) {
uint32_t time_value = *(uint32_t *)(dv.value_p);
time_value = (divider) ? time_value / divider : time_value; // sometimes we need to divide by 60
time_value = (divider) ? time_value / divider : time_value * factor; // sometimes we need to divide by 60
if (console) {
char time_s[40];
snprintf(time_s, sizeof(time_s), "%d days %d hours %d minutes", (time_value / 1440), ((time_value % 1440) / 60), (time_value % 60));

2
src/helpers.cpp
View File

@@ -350,7 +350,7 @@ uint32_t Helpers::hextoint(const char * hex) {
// quick char to long
uint16_t Helpers::atoint(const char * value) {
unsigned int x = 0;
while (*value != '\0') {
while (*value >= '0' && *value <= '9') {
x = (x * 10) + (*value - '0');
++value;
}

9
src/locale_EN.h
View File

@@ -164,6 +164,8 @@ MAKE_PSTR_LIST(div2, F_(2))
MAKE_PSTR_LIST(div10, F_(10))
MAKE_PSTR_LIST(div100, F_(100))
MAKE_PSTR_LIST(div60, F_(60))
MAKE_PSTR_LIST(mul10, F("*10"))
MAKE_PSTR_LIST(mul15, F("*15"))
// Unit Of Measurement mapping - maps to DeviceValueUOM_s in emsdevice.cpp
// uom - also used with HA see https://github.com/home-assistant/core/blob/d7ac4bd65379e11461c7ce0893d3533d8d8b8cbf/homeassistant/const.py#L384
@@ -354,7 +356,7 @@ MAKE_PSTR_LIST(enum_control, F_(off), F_(rc20), F_(rc3x))
MAKE_PSTR_LIST(enum_wwProgMode, F("std prog"), F_(own_prog))
MAKE_PSTR_LIST(enum_dayOfWeek, F("mo"), F("tu"), F("we"), F("th"), F("fr"), F("sa"), F("so"), F("all"))
MAKE_PSTR_LIST(enum_wwChargeDuration, F_(off), F("15min"), F("30min"), F("45min"), F("60min"), F("75min"), F("90min"), F("105min"), F("120min"))
// MAKE_PSTR_LIST(enum_wwChargeDuration, F_(off), F("15min"), F("30min"), F("45min"), F("60min"), F("75min"), F("90min"), F("105min"), F("120min"))
// solar list
MAKE_PSTR_LIST(enum_solarmode, F_(constant), F("pwm"), F("analog"))
@@ -499,7 +501,7 @@ MAKE_PSTR_LIST(wwStorageTemp1, F("wwstoragetemp1"), F("storage intern temperatur
MAKE_PSTR_LIST(wwStorageTemp2, F("wwstoragetemp2"), F("storage extern temperature"))
MAKE_PSTR_LIST(wwActivated, F("wwactivated"), F("activated"))
MAKE_PSTR_LIST(wwOneTime, F("wwonetime"), F("one time charging"))
MAKE_PSTR_LIST(wwDisinfecting, F("wwdisinfecting"), F("disinfecting"))
MAKE_PSTR_LIST(wwDisinfect, F("wwdisinfect"), F("disinfection"))
MAKE_PSTR_LIST(wwCharging, F("wwcharging"), F("charging"))
MAKE_PSTR_LIST(wwRecharging, F("wwrecharging"), F("recharging"))
MAKE_PSTR_LIST(wwTempOK, F("wwtempok"), F("temperature ok"))
@@ -514,7 +516,7 @@ MAKE_PSTR_LIST(wwHystOn, F("wwhyston"), F("hysteresis on temperature"))
MAKE_PSTR_LIST(wwHystOff, F("wwhystoff"), F("hysteresis off temperature"))
MAKE_PSTR_LIST(wwProgMode, F("wwprogmode"), F("program mode"))
MAKE_PSTR_LIST(wwCircProg, F("wwcircprog"), F("circulation program mode"))
MAKE_PSTR_LIST(wwDisinfect, F("wwdisinfect"), F("disinfection"))
// MAKE_PSTR_LIST(wwDisinfect, F("wwdisinfect"), F("disinfection")) // same as in boiler
MAKE_PSTR_LIST(wwDisinfectDay, F("wwdisinfectday"), F("disinfection day"))
MAKE_PSTR_LIST(wwDisinfectHour, F("wwdisinfecthour"), F("disinfection hour"))
MAKE_PSTR_LIST(wwMaxTemp, F("wwmaxtemp"), F("maximum temperature"))
@@ -597,6 +599,7 @@ MAKE_PSTR_LIST(flowTempHc, F("flowtemphc"), F("flow temperature in assigned hc (
MAKE_PSTR_LIST(pumpStatus, F("pumpstatus"), F("pump status in assigned hc (PC1)"))
MAKE_PSTR_LIST(mixerStatus, F("valvestatus"), F("mixing valve actuator in assigned hc (VC1)"))
MAKE_PSTR_LIST(flowTempVf, F("flowtempvf"), F("flow temperature in header (T0/Vf)"))
MAKE_PSTR_LIST(mixerSetTime, F("valvesettime"), F("time to set valve"))
MAKE_PSTR_LIST(wwPumpStatus, F("pumpstatus"), F("pump status in assigned wwc (PC1)"))
MAKE_PSTR_LIST(wwTempStatus, F("wwtempstatus"), F("temperature switch in assigned wwc (MC1)"))
MAKE_PSTR_LIST(wwTemp, F("wwtemp"), F("current temperature"))