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EMS-ESP32/src/devices/extension.cpp
proddy c951877172 change (c) header
2024-09-01 20:41:27 +02:00

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/*
* EMS-ESP - https://github.com/emsesp/EMS-ESP
* Copyright 2020-2024 emsesp.org - proddy, MichaelDvP
*
* 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/>.
*/
#include "extension.h"
namespace emsesp {
REGISTER_FACTORY(Extension, EMSdevice::DeviceType::EXTENSION);
Extension::Extension(uint8_t device_type, uint8_t device_id, uint8_t product_id, const char * version, const char * name, uint8_t flags, uint8_t brand)
: EMSdevice(device_type, device_id, product_id, version, name, flags, brand) {
if (device_id == 0x16) {
// no entities for T1RF outdoor sensor, values are comming from RFbase 0x50 (connect)
return;
}
// Extension module EM100 device_id 0x12
register_telegram_type(0x935, "EM100SetMessage", true, MAKE_PF_CB(process_EM100SetMessage));
register_telegram_type(0x936, "EM100OutMessage", false, MAKE_PF_CB(process_EM100OutMessage));
register_telegram_type(0x937, "EM100TempMessage", false, MAKE_PF_CB(process_EM100TempMessage));
register_telegram_type(0x938, "EM100InputMessage", false, MAKE_PF_CB(process_EM100InputMessage));
register_telegram_type(0x939, "EM100MonitorMessage", false, MAKE_PF_CB(process_EM100MonitorMessage));
register_telegram_type(0x93A, "EM100ConfigMessage", false, MAKE_PF_CB(process_EM100ConfigMessage));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&headerTemp_,
DeviceValueType::INT16,
DeviceValueNumOp::DV_NUMOP_DIV10,
FL_(flowTempVf),
DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &input_, DeviceValueType::UINT8, DeviceValueNumOp::DV_NUMOP_DIV10, FL_(input), DeviceValueUOM::VOLTS);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &outPower_, DeviceValueType::UINT8, FL_(outPower), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &setPower_, DeviceValueType::UINT8, FL_(setPower), DeviceValueUOM::PERCENT);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &setPoint_, DeviceValueType::UINT8, FL_(setPoint), DeviceValueUOM::DEGREES);
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&minV_,
DeviceValueType::UINT8,
DeviceValueNumOp::DV_NUMOP_DIV10,
FL_(minV),
DeviceValueUOM::VOLTS,
MAKE_CF_CB(set_minV));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA,
&maxV_,
DeviceValueType::UINT8,
DeviceValueNumOp::DV_NUMOP_DIV10,
FL_(maxV),
DeviceValueUOM::VOLTS,
MAKE_CF_CB(set_maxV));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &minT_, DeviceValueType::UINT8, FL_(minT), DeviceValueUOM::DEGREES, MAKE_CF_CB(set_minT));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &maxT_, DeviceValueType::UINT8, FL_(maxT), DeviceValueUOM::DEGREES, MAKE_CF_CB(set_maxT));
register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &dip_, DeviceValueType::UINT8, FL_(mode), DeviceValueUOM::NONE);
// register_device_value(DeviceValueTAG::TAG_DEVICE_DATA, &errorState_, DeviceValueType::BOOL, FL_(error), DeviceValueUOM::NONE);
}
// extension(0x15) -W-> Me(0x0B), EM100SetMessage(0x0935), data: 00 00 64 50 14
// need to be fetched
void Extension::process_EM100SetMessage(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, minV_, 1); // Input for off, is / 10
has_update(telegram, maxV_, 2); // Input for 100%, is / 10
has_update(telegram, minT_, 3); // min temp
has_update(telegram, maxT_, 4); // max temp
}
// extension(0x15) -B-> All(0x00), ?(0x0936), data: 00 00 00 00 28 00 (offset 1)
void Extension::process_EM100OutMessage(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, outPower_, 5); // power monitor %
}
// extension(0x15) -B-> All(0x00), ?(0x093A), data: 00 00 00 00 00 00 00 00 00 03 01
void Extension::process_EM100ConfigMessage(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, dip_, 9);
}
// extension(0x15) -B-> All(0x00), ?(0x0938), data: 01 62
void Extension::process_EM100InputMessage(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, input_, 1);
}
// extension(0x15) -B-> All(0x00), ?(0x0939), data: 64 4E 00 00
void Extension::process_EM100MonitorMessage(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, setPower_, 0); // percent
has_update(telegram, setPoint_, 1); // °C
// has_update(telegram, errorState_, 2); // OE1
// has_update(telegram, errorPump_, 3); // IE0
}
// extension(0x15) -B-> All(0x00), ?(0x0937), data: 80 00
void Extension::process_EM100TempMessage(std::shared_ptr<const Telegram> telegram) {
has_update(telegram, headerTemp_, 0);
}
bool Extension::set_minV(const char * value, const int8_t id) {
float v;
if (!Helpers::value2float(value, v)) {
return false;
}
write_command(0x935, 1, (uint8_t)(v * 10));
return true;
}
bool Extension::set_maxV(const char * value, const int8_t id) {
float v;
if (!Helpers::value2float(value, v)) {
return false;
}
write_command(0x935, 2, (uint8_t)(v * 10));
return true;
}
bool Extension::set_minT(const char * value, const int8_t id) {
int v;
if (!Helpers::value2temperature(value, v)) {
return false;
}
write_command(0x935, 3, v);
return true;
}
bool Extension::set_maxT(const char * value, const int8_t id) {
int v;
if (!Helpers::value2temperature(value, v)) {
return false;
}
write_command(0x935, 4, v);
return true;
}
} // namespace emsesp
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