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base: jeka:master
Branches Tags
jeka:master jeka:otc_fix jeka:new-equitherm jeka:hyst jeka:passive_ble jeka:async jeka:platformio_dependabot/NimBLE-Arduino/2.3.6 jeka:arduino_framework_and_idf jeka:platformio_dependabot/NimBLE-Arduino/2.1.0 jeka:1.5.0-dev
jeka:1.5.6 jeka:1.5.5 jeka:1.5.4 jeka:1.5.3 jeka:1.5.2 jeka:1.5.1 jeka:1.5.0 jeka:1.4.6 jeka:1.4.5 jeka:1.4.4 jeka:1.4.3 jeka:1.4.2 jeka:1.4.1 jeka:1.4.0 jeka:1.4.0-rc.24 jeka:1.4.0-rc.23 jeka:1.4.0-rc.22 jeka:1.4.0-rc.21 jeka:1.4.0-rc.20 jeka:1.4.0-rc.19 jeka:1.4.0-rc.18 jeka:1.4.0-rc.17 jeka:1.4.0-rc.16 jeka:1.4.0-rc.15 jeka:1.4.0-rc.14 jeka:1.4.0-rc.13 jeka:1.3.3 jeka:1.3.2 jeka:1.3.1 jeka:1.3.0 jeka:1.2.1
..
compare: jeka:async
Branches Tags
jeka:master jeka:otc_fix jeka:new-equitherm jeka:hyst jeka:passive_ble jeka:async jeka:platformio_dependabot/NimBLE-Arduino/2.3.6 jeka:arduino_framework_and_idf jeka:platformio_dependabot/NimBLE-Arduino/2.1.0 jeka:1.5.0-dev
jeka:1.5.6 jeka:1.5.5 jeka:1.5.4 jeka:1.5.3 jeka:1.5.2 jeka:1.5.1 jeka:1.5.0 jeka:1.4.6 jeka:1.4.5 jeka:1.4.4 jeka:1.4.3 jeka:1.4.2 jeka:1.4.1 jeka:1.4.0 jeka:1.4.0-rc.24 jeka:1.4.0-rc.23 jeka:1.4.0-rc.22 jeka:1.4.0-rc.21 jeka:1.4.0-rc.20 jeka:1.4.0-rc.19 jeka:1.4.0-rc.18 jeka:1.4.0-rc.17 jeka:1.4.0-rc.16 jeka:1.4.0-rc.15 jeka:1.4.0-rc.14 jeka:1.4.0-rc.13 jeka:1.3.3 jeka:1.3.2 jeka:1.3.1 jeka:1.3.0 jeka:1.2.1

4 Commits
master ... async

Author SHA1 Message Date
Yurii
1d7f85f462 refactor: migrating from Telnet to WebSerial for remote logging 2025-11-06 13:29:59 +03:00
Yurii
192f4ee18b refactor: improved OTA upgrade 2025-11-06 13:23:19 +03:00
Yurii
f048d973d3 chore: bump pioarduino/platform-espressif32 from 3.3.2 to 3.3.3 2025-11-06 13:21:34 +03:00
Yurii
d576969ea4 refactor: initial async web server 2025-11-02 11:28:46 +03:00
31 changed files with 1099 additions and 1923 deletions
Expand all files Collapse all files

22
.github/workflows/pio-dependabot.yaml vendored Normal file
View File

@@ -0,0 +1,22 @@
name: PlatformIO Dependabot
on:
workflow_dispatch: # option to manually trigger the workflow
schedule:
# Runs every day at 00:00
- cron: "0 0 * * *"
permissions:
contents: write
pull-requests: write
jobs:
dependabot:
runs-on: ubuntu-latest
name: run PlatformIO Dependabot
steps:
- name: Checkout
uses: actions/checkout@v5
- name: run PlatformIO Dependabot
uses: peterus/platformio_dependabot@v1.2.0
with:
github_token: ${{ secrets.GITHUB_TOKEN }}

3
gulpfile.js
View File

@@ -27,9 +27,6 @@ let paths = {
'src_data/scripts/i18n.min.js', 'src_data/scripts/i18n.min.js',
'src_data/scripts/lang.js', 'src_data/scripts/lang.js',
'src_data/scripts/utils.js' 'src_data/scripts/utils.js'
],
'chart.js': [
'src_data/scripts/chart.js'
] ]
} }
}, },

101
lib/CustomOpenTherm/CustomOpenTherm.h
View File

@@ -70,89 +70,50 @@ public:
} }
} }
inline auto sendBoilerReset() { bool sendBoilerReset() {
return this->sendRequestCode(1); unsigned int data = 1;
} data <<= 8;
inline auto sendServiceReset() {
return this->sendRequestCode(10);
}
inline auto sendWaterFilling() {
return this->sendRequestCode(2);
}
bool sendRequestCode(const uint8_t requestCode) {
unsigned long response = this->sendRequest(buildRequest( unsigned long response = this->sendRequest(buildRequest(
OpenThermMessageType::WRITE_DATA, OpenThermMessageType::WRITE_DATA,
OpenThermMessageID::RemoteRequest, OpenThermMessageID::RemoteRequest,
static_cast<unsigned int>(requestCode) << 8 data
)); ));
if (!isValidResponse(response) || !isValidResponseId(response, OpenThermMessageID::RemoteRequest)) { return isValidResponse(response) && isValidResponseId(response, OpenThermMessageID::RemoteRequest);
return false;
}
const uint8_t responseRequestCode = (response & 0xFFFF) >> 8;
const uint8_t responseCode = response & 0xFF;
if (responseRequestCode != requestCode || responseCode < 128) {
return false;
}
// reset
this->sendRequest(buildRequest(
OpenThermMessageType::WRITE_DATA,
OpenThermMessageID::RemoteRequest,
0u << 8
));
return true;
} }
bool getStr(OpenThermMessageID id, char* buffer, uint16_t length = 50) { bool sendServiceReset() {
if (buffer == nullptr || length == 0) { unsigned int data = 10;
return false; data <<= 8;
} unsigned long response = this->sendRequest(buildRequest(
OpenThermMessageType::WRITE_DATA,
OpenThermMessageID::RemoteRequest,
data
));
unsigned long response; return isValidResponse(response) && isValidResponseId(response, OpenThermMessageID::RemoteRequest);
uint8_t index = 0; }
uint8_t maxIndex = 255;
while (index <= maxIndex && index < length) { bool sendWaterFilling() {
response = this->sendRequest(buildRequest( unsigned int data = 2;
OpenThermMessageType::READ_DATA, data <<= 8;
id, unsigned long response = this->sendRequest(buildRequest(
static_cast<unsigned int>(index) << 8 OpenThermMessageType::WRITE_DATA,
)); OpenThermMessageID::RemoteRequest,
data
));
if (!isValidResponse(response) || !isValidResponseId(response, id)) { return isValidResponse(response) && isValidResponseId(response, OpenThermMessageID::RemoteRequest);
break;
}
const uint8_t character = response & 0xFF;
if (character == 0) {
break;
}
if (index == 0) {
maxIndex = (response & 0xFFFF) >> 8;
}
buffer[index++] = static_cast<char>(character);
}
buffer[index] = '\0';
return index > 0;
} }
static bool isCh2Active(unsigned long response) { static bool isCh2Active(unsigned long response) {
return response & 0x20; return response & 0x20;
} }
static bool isValidResponseId(unsigned long response, OpenThermMessageID id) { static bool isValidResponseId(unsigned long response, OpenThermMessageID id) {
const uint8_t responseId = (response >> 16) & 0xFF; uint8_t responseId = (response >> 16) & 0xFF;
return static_cast<uint8_t>(id) == responseId; return (uint8_t)id == responseId;
} }
static uint8_t getResponseMessageTypeId(unsigned long response) { static uint8_t getResponseMessageTypeId(unsigned long response) {
@@ -163,10 +124,10 @@ public:
uint8_t msgType = getResponseMessageTypeId(response); uint8_t msgType = getResponseMessageTypeId(response);
switch (msgType) { switch (msgType) {
case static_cast<uint8_t>(OpenThermMessageType::READ_ACK): case (uint8_t) OpenThermMessageType::READ_ACK:
case static_cast<uint8_t>(OpenThermMessageType::WRITE_ACK): case (uint8_t) OpenThermMessageType::WRITE_ACK:
case static_cast<uint8_t>(OpenThermMessageType::DATA_INVALID): case (uint8_t) OpenThermMessageType::DATA_INVALID:
case static_cast<uint8_t>(OpenThermMessageType::UNKNOWN_DATA_ID): case (uint8_t) OpenThermMessageType::UNKNOWN_DATA_ID:
return CustomOpenTherm::messageTypeToString( return CustomOpenTherm::messageTypeToString(
static_cast<OpenThermMessageType>(msgType) static_cast<OpenThermMessageType>(msgType)
); );

63
lib/Equitherm/Equitherm.h Normal file
View File

@@ -0,0 +1,63 @@
#include <Arduino.h>
#if defined(EQUITHERM_INTEGER)
// расчёты с целыми числами
typedef int datatype;
#else
// расчёты с float числами
typedef float datatype;
#endif
class Equitherm {
public:
datatype targetTemp = 0;
datatype indoorTemp = 0;
datatype outdoorTemp = 0;
float Kn = 0.0;
float Kk = 0.0;
float Kt = 0.0;
Equitherm() = default;
// kn, kk, kt
Equitherm(float new_kn, float new_kk, float new_kt) {
Kn = new_kn;
Kk = new_kk;
Kt = new_kt;
}
// лимит выходной величины
void setLimits(unsigned short min_output, unsigned short max_output) {
_minOut = min_output;
_maxOut = max_output;
}
// возвращает новое значение при вызове
datatype getResult() {
datatype output = getResultN() + getResultK() + getResultT();
output = constrain(output, _minOut, _maxOut); // ограничиваем выход
return output;
}
private:
unsigned short _minOut = 20, _maxOut = 90;
// температура контура отопления в зависимости от наружной температуры
datatype getResultN() {
float a = (-0.21 * Kn) - 0.06; // a = -0,21k — 0,06
float b = (6.04 * Kn) + 1.98; // b = 6,04k + 1,98
float c = (-5.06 * Kn) + 18.06; // с = -5,06k + 18,06
float x = (-0.2 * outdoorTemp) + 5; // x = -0.2*t1 + 5
return (a * x * x) + (b * x) + c; // Tn = ax2 + bx + c
}
// поправка на желаемую комнатную температуру
datatype getResultK() {
return (targetTemp - 20) * Kk;
}
// Расчет поправки (ошибки) термостата
datatype getResultT() {
return constrain((targetTemp - indoorTemp), -3, 3) * Kt;
}
};

13
lib/HomeAssistantHelper/HomeAssistantHelper.h
View File

@@ -147,19 +147,8 @@ public:
return topic; return topic;
} }
template <class DT, class VT>
String getEntityIdWithPrefix(DT domain, VT value, char separator = '_') {
String topic = "";
topic.concat(domain);
topic.concat('.');
topic.concat(this->devicePrefix);
topic.concat(separator);
topic.concat(value);
return topic;
}
template <class T> template <class T>
String getUniqueIdWithPrefix(T value, char separator = '_') { String getObjectIdWithPrefix(T value, char separator = '_') {
String topic = ""; String topic = "";
topic.concat(this->devicePrefix); topic.concat(this->devicePrefix);
topic.concat(separator); topic.concat(separator);

91
lib/HomeAssistantHelper/strings.h
View File

@@ -12,67 +12,66 @@ const char HA_ENTITY_SELECT[] PROGMEM = "select";
const char HA_ENTITY_SENSOR[] PROGMEM = "sensor"; const char HA_ENTITY_SENSOR[] PROGMEM = "sensor";
const char HA_ENTITY_SWITCH[] PROGMEM = "switch"; const char HA_ENTITY_SWITCH[] PROGMEM = "switch";
// https://www.home-assistant.io/integrations/mqtt/#supported-abbreviations-in-mqtt-discovery-messages const char HA_DEVICE[] PROGMEM = "device";
const char HA_DEFAULT_ENTITY_ID[] PROGMEM = "def_ent_id"; // "default_entity_id " const char HA_IDENTIFIERS[] PROGMEM = "identifiers";
const char HA_DEVICE[] PROGMEM = "dev"; // "device" const char HA_SW_VERSION[] PROGMEM = "sw_version";
const char HA_IDENTIFIERS[] PROGMEM = "ids"; // "identifiers" const char HA_MANUFACTURER[] PROGMEM = "manufacturer";
const char HA_SW_VERSION[] PROGMEM = "sw"; // "sw_version" const char HA_MODEL[] PROGMEM = "model";
const char HA_MANUFACTURER[] PROGMEM = "mf"; // "manufacturer"
const char HA_MODEL[] PROGMEM = "mdl"; // "model"
const char HA_NAME[] PROGMEM = "name"; const char HA_NAME[] PROGMEM = "name";
const char HA_CONF_URL[] PROGMEM = "cu"; // "configuration_url" const char HA_CONF_URL[] PROGMEM = "configuration_url";
const char HA_COMMAND_TOPIC[] PROGMEM = "cmd_t"; // "command_topic" const char HA_COMMAND_TOPIC[] PROGMEM = "command_topic";
const char HA_COMMAND_TEMPLATE[] PROGMEM = "cmd_tpl"; // "command_template" const char HA_COMMAND_TEMPLATE[] PROGMEM = "command_template";
const char HA_ENABLED_BY_DEFAULT[] PROGMEM = "en"; // "enabled_by_default" const char HA_ENABLED_BY_DEFAULT[] PROGMEM = "enabled_by_default";
const char HA_UNIQUE_ID[] PROGMEM = "uniq_id"; // "unique_id" const char HA_UNIQUE_ID[] PROGMEM = "unique_id";
const char HA_ENTITY_CATEGORY[] PROGMEM = "ent_cat"; // "entity_category" const char HA_OBJECT_ID[] PROGMEM = "object_id";
const char HA_ENTITY_CATEGORY[] PROGMEM = "entity_category";
const char HA_ENTITY_CATEGORY_DIAGNOSTIC[] PROGMEM = "diagnostic"; const char HA_ENTITY_CATEGORY_DIAGNOSTIC[] PROGMEM = "diagnostic";
const char HA_ENTITY_CATEGORY_CONFIG[] PROGMEM = "config"; const char HA_ENTITY_CATEGORY_CONFIG[] PROGMEM = "config";
const char HA_STATE_TOPIC[] PROGMEM = "stat_t"; // "state_topic" const char HA_STATE_TOPIC[] PROGMEM = "state_topic";
const char HA_VALUE_TEMPLATE[] PROGMEM = "val_tpl"; // "value_template" const char HA_VALUE_TEMPLATE[] PROGMEM = "value_template";
const char HA_OPTIONS[] PROGMEM = "ops"; // "options" const char HA_OPTIONS[] PROGMEM = "options";
const char HA_AVAILABILITY[] PROGMEM = "avty"; // "availability" const char HA_AVAILABILITY[] PROGMEM = "availability";
const char HA_AVAILABILITY_MODE[] PROGMEM = "avty_mode"; // "availability_mode" const char HA_AVAILABILITY_MODE[] PROGMEM = "availability_mode";
const char HA_TOPIC[] PROGMEM = "t"; // "topic" const char HA_TOPIC[] PROGMEM = "topic";
const char HA_DEVICE_CLASS[] PROGMEM = "dev_cla"; // "device_class" const char HA_DEVICE_CLASS[] PROGMEM = "device_class";
const char HA_UNIT_OF_MEASUREMENT[] PROGMEM = "unit_of_meas"; // "unit_of_measurement" const char HA_UNIT_OF_MEASUREMENT[] PROGMEM = "unit_of_measurement";
const char HA_UNIT_OF_MEASUREMENT_C[] PROGMEM = "°C"; const char HA_UNIT_OF_MEASUREMENT_C[] PROGMEM = "°C";
const char HA_UNIT_OF_MEASUREMENT_F[] PROGMEM = "°F"; const char HA_UNIT_OF_MEASUREMENT_F[] PROGMEM = "°F";
const char HA_UNIT_OF_MEASUREMENT_PERCENT[] PROGMEM = "%"; const char HA_UNIT_OF_MEASUREMENT_PERCENT[] PROGMEM = "%";
const char HA_UNIT_OF_MEASUREMENT_L_MIN[] PROGMEM = "L/min"; const char HA_UNIT_OF_MEASUREMENT_L_MIN[] PROGMEM = "L/min";
const char HA_UNIT_OF_MEASUREMENT_GAL_MIN[] PROGMEM = "gal/min"; const char HA_UNIT_OF_MEASUREMENT_GAL_MIN[] PROGMEM = "gal/min";
const char HA_ICON[] PROGMEM = "ic"; // "icon" const char HA_ICON[] PROGMEM = "icon";
const char HA_MIN[] PROGMEM = "min"; const char HA_MIN[] PROGMEM = "min";
const char HA_MAX[] PROGMEM = "max"; const char HA_MAX[] PROGMEM = "max";
const char HA_STEP[] PROGMEM = "step"; const char HA_STEP[] PROGMEM = "step";
const char HA_MODE[] PROGMEM = "mode"; const char HA_MODE[] PROGMEM = "mode";
const char HA_MODE_BOX[] PROGMEM = "box"; const char HA_MODE_BOX[] PROGMEM = "box";
const char HA_STATE_ON[] PROGMEM = "stat_on"; // "state_on" const char HA_STATE_ON[] PROGMEM = "state_on";
const char HA_STATE_OFF[] PROGMEM = "stat_off"; // "state_off" const char HA_STATE_OFF[] PROGMEM = "state_off";
const char HA_PAYLOAD_ON[] PROGMEM = "pl_on"; // "payload_on" const char HA_PAYLOAD_ON[] PROGMEM = "payload_on";
const char HA_PAYLOAD_OFF[] PROGMEM = "pl_off"; // "payload_off" const char HA_PAYLOAD_OFF[] PROGMEM = "payload_off";
const char HA_STATE_CLASS[] PROGMEM = "stat_cla"; // "state_class" const char HA_STATE_CLASS[] PROGMEM = "state_class";
const char HA_STATE_CLASS_MEASUREMENT[] PROGMEM = "measurement"; const char HA_STATE_CLASS_MEASUREMENT[] PROGMEM = "measurement";
const char HA_EXPIRE_AFTER[] PROGMEM = "exp_aft"; // "expire_after" const char HA_EXPIRE_AFTER[] PROGMEM = "expire_after";
const char HA_CURRENT_TEMPERATURE_TOPIC[] PROGMEM = "curr_temp_t"; // "current_temperature_topic" const char HA_CURRENT_TEMPERATURE_TOPIC[] PROGMEM = "current_temperature_topic";
const char HA_CURRENT_TEMPERATURE_TEMPLATE[] PROGMEM = "curr_temp_tpl"; // "current_temperature_template" const char HA_CURRENT_TEMPERATURE_TEMPLATE[] PROGMEM = "current_temperature_template";
const char HA_TEMPERATURE_COMMAND_TOPIC[] PROGMEM = "temp_cmd_t"; // "temperature_command_topic" const char HA_TEMPERATURE_COMMAND_TOPIC[] PROGMEM = "temperature_command_topic";
const char HA_TEMPERATURE_COMMAND_TEMPLATE[] PROGMEM = "temp_cmd_tpl"; // "temperature_command_template" const char HA_TEMPERATURE_COMMAND_TEMPLATE[] PROGMEM = "temperature_command_template";
const char HA_TEMPERATURE_STATE_TOPIC[] PROGMEM = "temp_stat_t"; // "temperature_state_topic" const char HA_TEMPERATURE_STATE_TOPIC[] PROGMEM = "temperature_state_topic";
const char HA_TEMPERATURE_STATE_TEMPLATE[] PROGMEM = "temp_stat_tpl"; // "temperature_state_template" const char HA_TEMPERATURE_STATE_TEMPLATE[] PROGMEM = "temperature_state_template";
const char HA_TEMPERATURE_UNIT[] PROGMEM = "temp_unit"; // "temperature_unit" const char HA_TEMPERATURE_UNIT[] PROGMEM = "temperature_unit";
const char HA_MODE_COMMAND_TOPIC[] PROGMEM = "mode_cmd_t"; // "mode_command_topic" const char HA_MODE_COMMAND_TOPIC[] PROGMEM = "mode_command_topic";
const char HA_MODE_COMMAND_TEMPLATE[] PROGMEM = "mode_cmd_tpl"; // "mode_command_template" const char HA_MODE_COMMAND_TEMPLATE[] PROGMEM = "mode_command_template";
const char HA_MODE_STATE_TOPIC[] PROGMEM = "mode_stat_t"; // "mode_state_topic" const char HA_MODE_STATE_TOPIC[] PROGMEM = "mode_state_topic";
const char HA_MODE_STATE_TEMPLATE[] PROGMEM = "mode_stat_tpl"; // "mode_state_template" const char HA_MODE_STATE_TEMPLATE[] PROGMEM = "mode_state_template";
const char HA_MODES[] PROGMEM = "modes"; const char HA_MODES[] PROGMEM = "modes";
const char HA_ACTION_TOPIC[] PROGMEM = "act_t"; // "action_topic" const char HA_ACTION_TOPIC[] PROGMEM = "action_topic";
const char HA_ACTION_TEMPLATE[] PROGMEM = "act_tpl"; // "action_template" const char HA_ACTION_TEMPLATE[] PROGMEM = "action_template";
const char HA_MIN_TEMP[] PROGMEM = "min_temp"; const char HA_MIN_TEMP[] PROGMEM = "min_temp";
const char HA_MAX_TEMP[] PROGMEM = "max_temp"; const char HA_MAX_TEMP[] PROGMEM = "max_temp";
const char HA_TEMP_STEP[] PROGMEM = "temp_step"; const char HA_TEMP_STEP[] PROGMEM = "temp_step";
const char HA_PRESET_MODE_COMMAND_TOPIC[] PROGMEM = "pr_mode_cmd_t"; // "preset_mode_command_topic" const char HA_PRESET_MODE_COMMAND_TOPIC[] PROGMEM = "preset_mode_command_topic";
const char HA_PRESET_MODE_COMMAND_TEMPLATE[] PROGMEM = "pr_mode_cmd_tpl"; // "preset_mode_command_template" const char HA_PRESET_MODE_COMMAND_TEMPLATE[] PROGMEM = "preset_mode_command_template";
const char HA_PRESET_MODE_STATE_TOPIC[] PROGMEM = "pr_mode_stat_t"; // "preset_mode_state_topic" const char HA_PRESET_MODE_STATE_TOPIC[] PROGMEM = "preset_mode_state_topic";
const char HA_PRESET_MODE_VALUE_TEMPLATE[] PROGMEM = "pr_mode_val_tpl"; // "preset_mode_value_template" const char HA_PRESET_MODE_VALUE_TEMPLATE[] PROGMEM = "preset_mode_value_template";
const char HA_PRESET_MODES[] PROGMEM = "pr_modes"; // "preset_modes" const char HA_PRESET_MODES[] PROGMEM = "preset_modes";

202
lib/WebServerHandlers/UpgradeHandler.h
View File

@@ -1,6 +1,6 @@
#include <Arduino.h> #include <Arduino.h>
class UpgradeHandler : public RequestHandler { class UpgradeHandler : public AsyncWebHandler {
public: public:
enum class UpgradeType { enum class UpgradeType {
FIRMWARE = 0, FIRMWARE = 0,
@@ -12,7 +12,7 @@ public:
NO_FILE, NO_FILE,
SUCCESS, SUCCESS,
PROHIBITED, PROHIBITED,
ABORTED, SIZE_MISMATCH,
ERROR_ON_START, ERROR_ON_START,
ERROR_ON_WRITE, ERROR_ON_WRITE,
ERROR_ON_FINISH ERROR_ON_FINISH
@@ -22,27 +22,21 @@ public:
UpgradeType type; UpgradeType type;
UpgradeStatus status; UpgradeStatus status;
String error; String error;
size_t progress = 0;
size_t size = 0;
} UpgradeResult; } UpgradeResult;
typedef std::function<bool(HTTPMethod, const String&)> CanHandleCallback; typedef std::function<bool(AsyncWebServerRequest *request, UpgradeType)> BeforeUpgradeCallback;
typedef std::function<bool(const String&)> CanUploadCallback; typedef std::function<void(AsyncWebServerRequest *request, const UpgradeResult&, const UpgradeResult&)> AfterUpgradeCallback;
typedef std::function<bool(UpgradeType)> BeforeUpgradeCallback;
typedef std::function<void(const UpgradeResult&, const UpgradeResult&)> AfterUpgradeCallback;
UpgradeHandler(const char* uri) { UpgradeHandler(AsyncURIMatcher uri) : uri(uri) {}
this->uri = uri;
}
UpgradeHandler* setCanHandleCallback(CanHandleCallback callback = nullptr) { bool canHandle(AsyncWebServerRequest *request) const override final {
this->canHandleCallback = callback; if (!request->isHTTP()) {
return false;
return this; }
}
return this->uri.matches(request);
UpgradeHandler* setCanUploadCallback(CanUploadCallback callback = nullptr) {
this->canUploadCallback = callback;
return this;
} }
UpgradeHandler* setBeforeUpgradeCallback(BeforeUpgradeCallback callback = nullptr) { UpgradeHandler* setBeforeUpgradeCallback(BeforeUpgradeCallback callback = nullptr) {
@@ -57,29 +51,9 @@ public:
return this; return this;
} }
#if defined(ARDUINO_ARCH_ESP32) void handleRequest(AsyncWebServerRequest *request) override final {
bool canHandle(WebServer &server, HTTPMethod method, const String &uri) override {
return this->canHandle(method, uri);
}
#endif
bool canHandle(HTTPMethod method, const String& uri) override {
return method == HTTP_POST && uri.equals(this->uri) && (!this->canHandleCallback || this->canHandleCallback(method, uri));
}
#if defined(ARDUINO_ARCH_ESP32)
bool canUpload(WebServer &server, const String &uri) override {
return this->canUpload(uri);
}
#endif
bool canUpload(const String& uri) override {
return uri.equals(this->uri) && (!this->canUploadCallback || this->canUploadCallback(uri));
}
bool handle(WebServer& server, HTTPMethod method, const String& uri) override {
if (this->afterUpgradeCallback) { if (this->afterUpgradeCallback) {
this->afterUpgradeCallback(this->firmwareResult, this->filesystemResult); this->afterUpgradeCallback(request, this->firmwareResult, this->filesystemResult);
} }
this->firmwareResult.status = UpgradeStatus::NONE; this->firmwareResult.status = UpgradeStatus::NONE;
@@ -87,129 +61,147 @@ public:
this->filesystemResult.status = UpgradeStatus::NONE; this->filesystemResult.status = UpgradeStatus::NONE;
this->filesystemResult.error.clear(); this->filesystemResult.error.clear();
return true;
} }
void upload(WebServer& server, const String& uri, HTTPUpload& upload) override { void handleUpload(AsyncWebServerRequest *request, const String &fileName, size_t index, uint8_t *data, size_t dataLength, bool isFinal) override final {
UpgradeResult* result; UpgradeResult* result = nullptr;
if (upload.name.equals(F("firmware"))) {
result = &this->firmwareResult;
} else if (upload.name.equals(F("filesystem"))) { if (!request->hasParam(asyncsrv::T_name, true, true)) {
result = &this->filesystemResult; // Missing content-disposition 'name' parameter
} else {
return; return;
} }
const auto& pName = request->getParam(asyncsrv::T_name, true, true)->value();
if (pName.equals("fw")) {
result = &this->firmwareResult;
if (!index) {
result->progress = 0;
result->size = request->hasParam("fw_size", true)
? request->getParam("fw_size", true)->value().toInt()
: 0;
}
} else if (pName.equals("fs")) {
result = &this->filesystemResult;
if (!index) {
result->progress = 0;
result->size = request->hasParam("fs_size", true)
? request->getParam("fs_size", true)->value().toInt()
: 0;
}
} else {
// Unknown parameter name
return;
}
// check result status
if (result->status != UpgradeStatus::NONE) { if (result->status != UpgradeStatus::NONE) {
return; return;
} }
if (this->beforeUpgradeCallback && !this->beforeUpgradeCallback(result->type)) { if (this->beforeUpgradeCallback && !this->beforeUpgradeCallback(request, result->type)) {
result->status = UpgradeStatus::PROHIBITED; result->status = UpgradeStatus::PROHIBITED;
return; return;
} }
if (!upload.filename.length()) { if (!fileName.length()) {
result->status = UpgradeStatus::NO_FILE; result->status = UpgradeStatus::NO_FILE;
return; return;
} }
if (upload.status == UPLOAD_FILE_START) { if (!index) {
// reset // reset
if (Update.isRunning()) { if (Update.isRunning()) {
Update.end(false); Update.end(false);
Update.clearError(); Update.clearError();
} }
// try begin
bool begin = false; bool begin = false;
#ifdef ARDUINO_ARCH_ESP8266
Update.runAsync(true);
if (result->type == UpgradeType::FIRMWARE) {
begin = Update.begin((ESP.getFreeSketchSpace() - 0x1000) & 0xFFFFF000, U_FLASH);
} else if (result->type == UpgradeType::FILESYSTEM) {
close_all_fs();
begin = Update.begin((size_t)FS_end - (size_t)FS_start, U_FS);
}
#elif defined(ARDUINO_ARCH_ESP32)
if (result->type == UpgradeType::FIRMWARE) { if (result->type == UpgradeType::FIRMWARE) {
begin = Update.begin(UPDATE_SIZE_UNKNOWN, U_FLASH); begin = Update.begin(UPDATE_SIZE_UNKNOWN, U_FLASH);
} else if (result->type == UpgradeType::FILESYSTEM) { } else if (result->type == UpgradeType::FILESYSTEM) {
begin = Update.begin(UPDATE_SIZE_UNKNOWN, U_SPIFFS); begin = Update.begin(UPDATE_SIZE_UNKNOWN, U_SPIFFS);
} }
#endif
if (!begin || Update.hasError()) { if (!begin || Update.hasError()) {
result->status = UpgradeStatus::ERROR_ON_START; result->status = UpgradeStatus::ERROR_ON_START;
#ifdef ARDUINO_ARCH_ESP8266
result->error = Update.getErrorString();
#else
result->error = Update.errorString(); result->error = Update.errorString();
#endif
Log.serrorln(FPSTR(L_PORTAL_OTA), F("File '%s', on start: %s"), upload.filename.c_str(), result->error.c_str()); Log.serrorln(FPSTR(L_PORTAL_OTA), "File '%s', on start: %s", fileName.c_str(), result->error.c_str());
return; return;
} }
Log.sinfoln(FPSTR(L_PORTAL_OTA), F("File '%s', started"), upload.filename.c_str()); Log.sinfoln(FPSTR(L_PORTAL_OTA), "File '%s', started", fileName.c_str());
}
} else if (upload.status == UPLOAD_FILE_WRITE) {
if (Update.write(upload.buf, upload.currentSize) != upload.currentSize) { if (dataLength) {
if (Update.write(data, dataLength) != dataLength) {
Update.end(false); Update.end(false);
result->status = UpgradeStatus::ERROR_ON_WRITE; result->status = UpgradeStatus::ERROR_ON_WRITE;
#ifdef ARDUINO_ARCH_ESP8266
result->error = Update.getErrorString();
#else
result->error = Update.errorString(); result->error = Update.errorString();
#endif
Log.serrorln( Log.serrorln(
FPSTR(L_PORTAL_OTA), FPSTR(L_PORTAL_OTA), "File '%s', on write %d bytes, %d of %d bytes",
F("File '%s', on writing %d bytes: %s"), fileName.c_str(),
upload.filename.c_str(), upload.totalSize, result->error.c_str() dataLength,
result->progress + dataLength,
result->size
); );
return;
} else {
Log.sinfoln(FPSTR(L_PORTAL_OTA), F("File '%s', writed %d bytes"), upload.filename.c_str(), upload.totalSize);
} }
result->progress += dataLength;
Log.sinfoln(
FPSTR(L_PORTAL_OTA), "File '%s', write %d bytes, %d of %d bytes",
fileName.c_str(),
dataLength,
result->progress,
result->size
);
}
} else if (upload.status == UPLOAD_FILE_END) { if (result->size > 0) {
if (Update.end(true)) { if (result->progress > result->size || (isFinal && result->progress < result->size)) {
result->status = UpgradeStatus::SUCCESS; Update.end(false);
result->status = UpgradeStatus::SIZE_MISMATCH;
Log.sinfoln(FPSTR(L_PORTAL_OTA), F("File '%s': finish"), upload.filename.c_str()); Log.serrorln(
FPSTR(L_PORTAL_OTA), "File '%s', size mismatch: %d of %d bytes",
} else { fileName.c_str(),
result->progress,
result->size
);
return;
}
}
if (isFinal) {
if (!Update.end(true)) {
result->status = UpgradeStatus::ERROR_ON_FINISH; result->status = UpgradeStatus::ERROR_ON_FINISH;
#ifdef ARDUINO_ARCH_ESP8266
result->error = Update.getErrorString();
#else
result->error = Update.errorString(); result->error = Update.errorString();
#endif
Log.serrorln(FPSTR(L_PORTAL_OTA), F("File '%s', on finish: %s"), upload.filename.c_str(), result->error); Log.serrorln(FPSTR(L_PORTAL_OTA), "File '%s', on finish: %s", fileName.c_str(), result->error);
return;
} }
} else if (upload.status == UPLOAD_FILE_ABORTED) { result->status = UpgradeStatus::SUCCESS;
Update.end(false); Log.sinfoln(FPSTR(L_PORTAL_OTA), "File '%s': finish", fileName.c_str());
result->status = UpgradeStatus::ABORTED;
Log.serrorln(FPSTR(L_PORTAL_OTA), F("File '%s': aborted"), upload.filename.c_str());
} }
} }
bool isRequestHandlerTrivial() const override final {
return false;
}
protected: protected:
CanHandleCallback canHandleCallback;
CanUploadCallback canUploadCallback;
BeforeUpgradeCallback beforeUpgradeCallback; BeforeUpgradeCallback beforeUpgradeCallback;
AfterUpgradeCallback afterUpgradeCallback; AfterUpgradeCallback afterUpgradeCallback;
const char* uri = nullptr; AsyncURIMatcher uri;
UpgradeResult firmwareResult{UpgradeType::FIRMWARE, UpgradeStatus::NONE}; UpgradeResult firmwareResult{UpgradeType::FIRMWARE, UpgradeStatus::NONE};
UpgradeResult filesystemResult{UpgradeType::FILESYSTEM, UpgradeStatus::NONE}; UpgradeResult filesystemResult{UpgradeType::FILESYSTEM, UpgradeStatus::NONE};

25
platformio.ini
View File

@@ -17,16 +17,20 @@ core_dir = .pio
version = 1.5.6 version = 1.5.6
framework = arduino framework = arduino
lib_deps = lib_deps =
ESP32Async/AsyncTCP
;ESP32Async/ESPAsyncWebServer
https://github.com/ESP32Async/ESPAsyncWebServer#main
mathieucarbou/MycilaWebSerial@^8.2.0
bblanchon/ArduinoJson@^7.4.2 bblanchon/ArduinoJson@^7.4.2
;ihormelnyk/OpenTherm Library@^1.1.5 ;ihormelnyk/OpenTherm Library@^1.1.5
https://github.com/Laxilef/opentherm_library#esp32_timer https://github.com/Laxilef/opentherm_library#esp32_timer
arduino-libraries/ArduinoMqttClient@^0.1.8 arduino-libraries/ArduinoMqttClient@^0.1.8
lennarthennigs/ESP Telnet@^2.2.3
gyverlibs/FileData@^1.0.3 gyverlibs/FileData@^1.0.3
gyverlibs/GyverPID@^3.3.2 gyverlibs/GyverPID@^3.3.2
gyverlibs/GyverBlinker@^1.1.1 gyverlibs/GyverBlinker@^1.1.1
https://github.com/pstolarz/Arduino-Temperature-Control-Library.git#OneWireNg https://github.com/pstolarz/Arduino-Temperature-Control-Library.git#OneWireNg
laxilef/TinyLogger@^1.1.1 ;laxilef/TinyLogger@^1.1.1
https://github.com/Laxilef/TinyLogger#custom_handlers
build_type = ${secrets.build_type} build_type = ${secrets.build_type}
build_flags = build_flags =
-mtext-section-literals -mtext-section-literals
@@ -34,10 +38,13 @@ build_flags =
;-D DEBUG_ESP_CORE -D DEBUG_ESP_WIFI -D DEBUG_ESP_HTTP_SERVER -D DEBUG_ESP_PORT=Serial ;-D DEBUG_ESP_CORE -D DEBUG_ESP_WIFI -D DEBUG_ESP_HTTP_SERVER -D DEBUG_ESP_PORT=Serial
-D BUILD_VERSION='"${this.version}"' -D BUILD_VERSION='"${this.version}"'
-D BUILD_ENV='"$PIOENV"' -D BUILD_ENV='"$PIOENV"'
-D CONFIG_ASYNC_TCP_STACK_SIZE=4096
-D ARDUINOJSON_USE_DOUBLE=0
-D ARDUINOJSON_USE_LONG_LONG=0
-D TINYLOGGER_GLOBAL
-D DEFAULT_SERIAL_ENABLED=${secrets.serial_enabled} -D DEFAULT_SERIAL_ENABLED=${secrets.serial_enabled}
-D DEFAULT_SERIAL_BAUD=${secrets.serial_baud} -D DEFAULT_SERIAL_BAUD=${secrets.serial_baud}
-D DEFAULT_TELNET_ENABLED=${secrets.telnet_enabled} -D DEFAULT_WEBSERIAL_ENABLED=${secrets.webserial_enabled}
-D DEFAULT_TELNET_PORT=${secrets.telnet_port}
-D DEFAULT_LOG_LEVEL=${secrets.log_level} -D DEFAULT_LOG_LEVEL=${secrets.log_level}
-D DEFAULT_HOSTNAME='"${secrets.hostname}"' -D DEFAULT_HOSTNAME='"${secrets.hostname}"'
-D DEFAULT_AP_SSID='"${secrets.ap_ssid}"' -D DEFAULT_AP_SSID='"${secrets.ap_ssid}"'
@@ -92,13 +99,13 @@ check_flags = ${env.check_flags}
;platform_packages = ;platform_packages =
; framework-arduinoespressif32 @ https://github.com/espressif/arduino-esp32.git#3.0.5 ; framework-arduinoespressif32 @ https://github.com/espressif/arduino-esp32.git#3.0.5
; framework-arduinoespressif32-libs @ https://github.com/espressif/esp32-arduino-lib-builder/releases/download/idf-release_v5.1/esp32-arduino-libs-idf-release_v5.1-33fbade6.zip ; framework-arduinoespressif32-libs @ https://github.com/espressif/esp32-arduino-lib-builder/releases/download/idf-release_v5.1/esp32-arduino-libs-idf-release_v5.1-33fbade6.zip
platform = https://github.com/pioarduino/platform-espressif32/releases/download/55.03.34/platform-espressif32.zip platform = https://github.com/pioarduino/platform-espressif32/releases/download/55.03.33/platform-espressif32.zip
platform_packages = ${env.platform_packages} platform_packages = ${env.platform_packages}
board_build.partitions = esp32_partitions.csv board_build.partitions = esp32_partitions.csv
lib_deps = lib_deps =
${env.lib_deps} ${env.lib_deps}
laxilef/ESP32Scheduler@^1.0.1 laxilef/ESP32Scheduler@^1.0.1
nimble_lib = h2zero/NimBLE-Arduino@2.3.7 nimble_lib = https://github.com/h2zero/NimBLE-Arduino
lib_ignore = lib_ignore =
extra_scripts = extra_scripts =
post:tools/esp32.py post:tools/esp32.py
@@ -234,7 +241,7 @@ build_flags =
${esp32_defaults.build_flags} ${esp32_defaults.build_flags}
-D ARDUINO_USB_MODE=0 -D ARDUINO_USB_MODE=0
-D ARDUINO_USB_CDC_ON_BOOT=1 -D ARDUINO_USB_CDC_ON_BOOT=1
-D MYNEWT_VAL_BLE_EXT_ADV=1 ;-D CONFIG_BT_NIMBLE_EXT_ADV=1
-D USE_BLE=1 -D USE_BLE=1
-D DEFAULT_OT_IN_GPIO=35 -D DEFAULT_OT_IN_GPIO=35
-D DEFAULT_OT_OUT_GPIO=36 -D DEFAULT_OT_OUT_GPIO=36
@@ -260,7 +267,7 @@ build_unflags =
build_type = ${esp32_defaults.build_type} build_type = ${esp32_defaults.build_type}
build_flags = build_flags =
${esp32_defaults.build_flags} ${esp32_defaults.build_flags}
-D MYNEWT_VAL_BLE_EXT_ADV=1 -D CONFIG_BT_NIMBLE_EXT_ADV=1
-D USE_BLE=1 -D USE_BLE=1
-D DEFAULT_OT_IN_GPIO=8 -D DEFAULT_OT_IN_GPIO=8
-D DEFAULT_OT_OUT_GPIO=10 -D DEFAULT_OT_OUT_GPIO=10
@@ -366,7 +373,7 @@ build_unflags =
build_type = ${esp32_defaults.build_type} build_type = ${esp32_defaults.build_type}
build_flags = build_flags =
${esp32_defaults.build_flags} ${esp32_defaults.build_flags}
-D MYNEWT_VAL_BLE_EXT_ADV=1 -D CONFIG_BT_NIMBLE_EXT_ADV=1
-D USE_BLE=1 -D USE_BLE=1
-D DEFAULT_OT_IN_GPIO=3 -D DEFAULT_OT_IN_GPIO=3
-D DEFAULT_OT_OUT_GPIO=1 -D DEFAULT_OT_OUT_GPIO=1

3
secrets.default.ini
View File

@@ -3,8 +3,7 @@ build_type = release
serial_enabled = true serial_enabled = true
serial_baud = 115200 serial_baud = 115200
telnet_enabled = true webserial_enabled = true
telnet_port = 23
log_level = 5 log_level = 5
hostname = opentherm hostname = opentherm

257
src/HaHelper.h
View File

@@ -261,13 +261,8 @@ public:
} }
// object id's // object id's
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(objId.c_str()); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(objId.c_str());
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix( doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
sSensor.type == Sensors::Type::MANUAL
? FPSTR(HA_ENTITY_NUMBER)
: FPSTR(HA_ENTITY_SENSOR),
objId.c_str()
);
const String& configTopic = this->makeConfigTopic( const String& configTopic = this->makeConfigTopic(
sSensor.type == Sensors::Type::MANUAL ? FPSTR(HA_ENTITY_NUMBER) : FPSTR(HA_ENTITY_SENSOR), sSensor.type == Sensors::Type::MANUAL ? FPSTR(HA_ENTITY_NUMBER) : FPSTR(HA_ENTITY_SENSOR),
@@ -328,8 +323,8 @@ public:
String objId = Sensors::makeObjectIdWithSuffix(sSensor.name, F("connected")); String objId = Sensors::makeObjectIdWithSuffix(sSensor.name, F("connected"));
// object id's // object id's
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(objId.c_str()); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(objId.c_str());
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_BINARY_SENSOR), objId.c_str()); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
// state topic // state topic
doc[FPSTR(HA_STATE_TOPIC)] = this->getDeviceTopic( doc[FPSTR(HA_STATE_TOPIC)] = this->getDeviceTopic(
@@ -375,8 +370,8 @@ public:
String objId = Sensors::makeObjectIdWithSuffix(sSensor.name, F("signal_quality")); String objId = Sensors::makeObjectIdWithSuffix(sSensor.name, F("signal_quality"));
// object id's // object id's
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(objId.c_str()); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(objId.c_str());
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_SENSOR), objId.c_str()); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
// state topic // state topic
doc[FPSTR(HA_STATE_TOPIC)] = this->getDeviceTopic( doc[FPSTR(HA_STATE_TOPIC)] = this->getDeviceTopic(
@@ -412,6 +407,7 @@ public:
} }
bool deleteSignalQualityDynamicSensor(Sensors::Settings& sSensor) { bool deleteSignalQualityDynamicSensor(Sensors::Settings& sSensor) {
JsonDocument doc;
const String& configTopic = this->makeConfigTopic( const String& configTopic = this->makeConfigTopic(
FPSTR(HA_ENTITY_SENSOR), FPSTR(HA_ENTITY_SENSOR),
Sensors::makeObjectIdWithSuffix(sSensor.name, F("signal_quality")).c_str() Sensors::makeObjectIdWithSuffix(sSensor.name, F("signal_quality")).c_str()
@@ -425,8 +421,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("heating_turbo")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("heating_turbo"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_SWITCH), F("heating_turbo")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_NAME)] = F("Turbo heating"); doc[FPSTR(HA_NAME)] = F("Turbo heating");
doc[FPSTR(HA_ICON)] = F("mdi:rocket-launch-outline"); doc[FPSTR(HA_ICON)] = F("mdi:rocket-launch-outline");
@@ -443,34 +439,12 @@ public:
return this->publish(this->makeConfigTopic(FPSTR(HA_ENTITY_SWITCH), F("heating_turbo")).c_str(), doc); return this->publish(this->makeConfigTopic(FPSTR(HA_ENTITY_SWITCH), F("heating_turbo")).c_str(), doc);
} }
bool publishSwitchHeatingHysteresis(bool enabledByDefault = true) {
JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("heating_hysteresis"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_SWITCH), F("heating_hysteresis"));
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_NAME)] = F("Use heating hysteresis");
doc[FPSTR(HA_ICON)] = F("mdi:altimeter");
doc[FPSTR(HA_STATE_TOPIC)] = this->settingsTopic.c_str();
doc[FPSTR(HA_STATE_ON)] = true;
doc[FPSTR(HA_STATE_OFF)] = false;
doc[FPSTR(HA_VALUE_TEMPLATE)] = F("{{ value_json.heating.hysteresis.enabled }}");
doc[FPSTR(HA_COMMAND_TOPIC)] = this->setSettingsTopic.c_str();
doc[FPSTR(HA_PAYLOAD_ON)] = F("{\"heating\": {\"hysteresis\" : {\"enabled\" : true}}}");
doc[FPSTR(HA_PAYLOAD_OFF)] = F("{\"heating\": {\"hysteresis\" : {\"enabled\" : false}}}");
doc[FPSTR(HA_EXPIRE_AFTER)] = this->expireAfter;
doc.shrinkToFit();
return this->publish(this->makeConfigTopic(FPSTR(HA_ENTITY_SWITCH), F("heating_hysteresis")).c_str(), doc);
}
bool publishInputHeatingHysteresis(UnitSystem unit = UnitSystem::METRIC, bool enabledByDefault = true) { bool publishInputHeatingHysteresis(UnitSystem unit = UnitSystem::METRIC, bool enabledByDefault = true) {
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("heating_hysteresis")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("heating_hysteresis"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_NUMBER), F("heating_hysteresis")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_TEMPERATURE); doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_TEMPERATURE);
@@ -484,9 +458,9 @@ public:
doc[FPSTR(HA_NAME)] = F("Heating hysteresis"); doc[FPSTR(HA_NAME)] = F("Heating hysteresis");
doc[FPSTR(HA_ICON)] = F("mdi:altimeter"); doc[FPSTR(HA_ICON)] = F("mdi:altimeter");
doc[FPSTR(HA_STATE_TOPIC)] = this->settingsTopic.c_str(); doc[FPSTR(HA_STATE_TOPIC)] = this->settingsTopic.c_str();
doc[FPSTR(HA_VALUE_TEMPLATE)] = F("{{ value_json.heating.hysteresis.value|float(0)|round(2) }}"); doc[FPSTR(HA_VALUE_TEMPLATE)] = F("{{ value_json.heating.hysteresis|float(0)|round(2) }}");
doc[FPSTR(HA_COMMAND_TOPIC)] = this->setSettingsTopic.c_str(); doc[FPSTR(HA_COMMAND_TOPIC)] = this->setSettingsTopic.c_str();
doc[FPSTR(HA_COMMAND_TEMPLATE)] = F("{\"heating\": {\"hysteresis\" : {\"value\" : {{ value }}}}}"); doc[FPSTR(HA_COMMAND_TEMPLATE)] = F("{\"heating\": {\"hysteresis\" : {{ value }}}}");
doc[FPSTR(HA_MIN)] = 0; doc[FPSTR(HA_MIN)] = 0;
doc[FPSTR(HA_MAX)] = 15; doc[FPSTR(HA_MAX)] = 15;
doc[FPSTR(HA_STEP)] = 0.01f; doc[FPSTR(HA_STEP)] = 0.01f;
@@ -501,8 +475,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("heating_turbo_factor")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("heating_turbo_factor"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_NUMBER), F("heating_turbo_factor")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_DEVICE_CLASS)] = F("power_factor"); doc[FPSTR(HA_DEVICE_CLASS)] = F("power_factor");
doc[FPSTR(HA_NAME)] = F("Heating turbo factor"); doc[FPSTR(HA_NAME)] = F("Heating turbo factor");
@@ -525,8 +499,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("heating_min_temp")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("heating_min_temp"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_NUMBER), F("heating_min_temp")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_TEMPERATURE); doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_TEMPERATURE);
@@ -559,8 +533,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("heating_max_temp")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("heating_max_temp"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_NUMBER), F("heating_max_temp")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_TEMPERATURE); doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_TEMPERATURE);
@@ -594,8 +568,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("dhw_min_temp")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("dhw_min_temp"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_NUMBER), F("dhw_min_temp")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_TEMPERATURE); doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_TEMPERATURE);
@@ -628,8 +602,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("dhw_max_temp")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("dhw_max_temp"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_NUMBER), F("dhw_max_temp")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_TEMPERATURE); doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_TEMPERATURE);
@@ -663,8 +637,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("pid")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("pid"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_SWITCH), F("pid")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_NAME)] = F("PID"); doc[FPSTR(HA_NAME)] = F("PID");
doc[FPSTR(HA_ICON)] = F("mdi:chart-bar-stacked"); doc[FPSTR(HA_ICON)] = F("mdi:chart-bar-stacked");
@@ -685,8 +659,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("pid_p")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("pid_p"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_NUMBER), F("pid_p")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_NAME)] = F("PID factor P"); doc[FPSTR(HA_NAME)] = F("PID factor P");
doc[FPSTR(HA_ICON)] = F("mdi:alpha-p-circle-outline"); doc[FPSTR(HA_ICON)] = F("mdi:alpha-p-circle-outline");
@@ -708,8 +682,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("pid_i")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("pid_i"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_NUMBER), F("pid_i")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_NAME)] = F("PID factor I"); doc[FPSTR(HA_NAME)] = F("PID factor I");
doc[FPSTR(HA_ICON)] = F("mdi:alpha-i-circle-outline"); doc[FPSTR(HA_ICON)] = F("mdi:alpha-i-circle-outline");
@@ -731,8 +705,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("pid_d")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("pid_d"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_NUMBER), F("pid_d")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_NAME)] = F("PID factor D"); doc[FPSTR(HA_NAME)] = F("PID factor D");
doc[FPSTR(HA_ICON)] = F("mdi:alpha-d-circle-outline"); doc[FPSTR(HA_ICON)] = F("mdi:alpha-d-circle-outline");
@@ -754,8 +728,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("pid_dt")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("pid_dt"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_NUMBER), F("pid_dt")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_DEVICE_CLASS)] = F("duration"); doc[FPSTR(HA_DEVICE_CLASS)] = F("duration");
doc[FPSTR(HA_UNIT_OF_MEASUREMENT)] = F("s"); doc[FPSTR(HA_UNIT_OF_MEASUREMENT)] = F("s");
@@ -779,8 +753,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("pid_min_temp")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("pid_min_temp"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_NUMBER), F("pid_min_temp")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_TEMPERATURE); doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_TEMPERATURE);
@@ -813,8 +787,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("pid_max_temp")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("pid_max_temp"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_NUMBER), F("pid_max_temp")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_TEMPERATURE); doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_TEMPERATURE);
@@ -848,8 +822,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("equitherm")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("equitherm"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_SWITCH), F("equitherm")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_NAME)] = F("Equitherm"); doc[FPSTR(HA_NAME)] = F("Equitherm");
doc[FPSTR(HA_ICON)] = F("mdi:sun-snowflake-variant"); doc[FPSTR(HA_ICON)] = F("mdi:sun-snowflake-variant");
@@ -866,19 +840,19 @@ public:
return this->publish(this->makeConfigTopic(FPSTR(HA_ENTITY_SWITCH), F("equitherm")).c_str(), doc); return this->publish(this->makeConfigTopic(FPSTR(HA_ENTITY_SWITCH), F("equitherm")).c_str(), doc);
} }
bool publishInputEquithermSlope(bool enabledByDefault = true) { bool publishInputEquithermFactorN(bool enabledByDefault = true) {
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("equitherm_slope")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("equitherm_n"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_NUMBER), F("equitherm_slope")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_NAME)] = F("Equitherm slope"); doc[FPSTR(HA_NAME)] = F("Equitherm factor N");
doc[FPSTR(HA_ICON)] = F("mdi:slope-uphill"); doc[FPSTR(HA_ICON)] = F("mdi:alpha-n-circle-outline");
doc[FPSTR(HA_STATE_TOPIC)] = this->settingsTopic.c_str(); doc[FPSTR(HA_STATE_TOPIC)] = this->settingsTopic.c_str();
doc[FPSTR(HA_VALUE_TEMPLATE)] = F("{{ value_json.equitherm.slope|float(0)|round(3) }}"); doc[FPSTR(HA_VALUE_TEMPLATE)] = F("{{ value_json.equitherm.n_factor|float(0)|round(3) }}");
doc[FPSTR(HA_COMMAND_TOPIC)] = this->setSettingsTopic.c_str(); doc[FPSTR(HA_COMMAND_TOPIC)] = this->setSettingsTopic.c_str();
doc[FPSTR(HA_COMMAND_TEMPLATE)] = F("{\"equitherm\": {\"slope\" : {{ value }}}}"); doc[FPSTR(HA_COMMAND_TEMPLATE)] = F("{\"equitherm\": {\"n_factor\" : {{ value }}}}");
doc[FPSTR(HA_MIN)] = 0.001f; doc[FPSTR(HA_MIN)] = 0.001f;
doc[FPSTR(HA_MAX)] = 10; doc[FPSTR(HA_MAX)] = 10;
doc[FPSTR(HA_STEP)] = 0.001f; doc[FPSTR(HA_STEP)] = 0.001f;
@@ -886,88 +860,64 @@ public:
doc[FPSTR(HA_EXPIRE_AFTER)] = this->expireAfter; doc[FPSTR(HA_EXPIRE_AFTER)] = this->expireAfter;
doc.shrinkToFit(); doc.shrinkToFit();
return this->publish(this->makeConfigTopic(FPSTR(HA_ENTITY_NUMBER), F("equitherm_slope")).c_str(), doc); return this->publish(this->makeConfigTopic(FPSTR(HA_ENTITY_NUMBER), F("equitherm_n_factor")).c_str(), doc);
} }
bool publishInputEquithermExponent(bool enabledByDefault = true) { bool publishInputEquithermFactorK(bool enabledByDefault = true) {
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("equitherm_exponent")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("equitherm_k"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_NUMBER), F("equitherm_exponent")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_NAME)] = F("Equitherm exponent"); doc[FPSTR(HA_NAME)] = F("Equitherm factor K");
doc[FPSTR(HA_ICON)] = F("mdi:exponent"); doc[FPSTR(HA_ICON)] = F("mdi:alpha-k-circle-outline");
doc[FPSTR(HA_STATE_TOPIC)] = this->settingsTopic.c_str(); doc[FPSTR(HA_STATE_TOPIC)] = this->settingsTopic.c_str();
doc[FPSTR(HA_VALUE_TEMPLATE)] = F("{{ value_json.equitherm.exponent|float(0)|round(3) }}"); doc[FPSTR(HA_VALUE_TEMPLATE)] = F("{{ value_json.equitherm.k_factor|float(0)|round(2) }}");
doc[FPSTR(HA_COMMAND_TOPIC)] = this->setSettingsTopic.c_str(); doc[FPSTR(HA_COMMAND_TOPIC)] = this->setSettingsTopic.c_str();
doc[FPSTR(HA_COMMAND_TEMPLATE)] = F("{\"equitherm\": {\"exponent\" : {{ value }}}}"); doc[FPSTR(HA_COMMAND_TEMPLATE)] = F("{\"equitherm\": {\"k_factor\" : {{ value }}}}");
doc[FPSTR(HA_MIN)] = 0.1; doc[FPSTR(HA_MIN)] = 0;
doc[FPSTR(HA_MAX)] = 2; doc[FPSTR(HA_MAX)] = 10;
doc[FPSTR(HA_STEP)] = 0.001f;
doc[FPSTR(HA_MODE)] = FPSTR(HA_MODE_BOX);
doc[FPSTR(HA_EXPIRE_AFTER)] = this->expireAfter;
doc.shrinkToFit();
return this->publish(this->makeConfigTopic(FPSTR(HA_ENTITY_NUMBER), F("equitherm_exponent")).c_str(), doc);
}
bool publishInputEquithermShift(bool enabledByDefault = true) {
JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("equitherm_shift"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_NUMBER), F("equitherm_shift"));
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_TEMPERATURE);
doc[FPSTR(HA_NAME)] = F("Equitherm shift");
doc[FPSTR(HA_ICON)] = F("mdi:chart-areaspline");
doc[FPSTR(HA_STATE_TOPIC)] = this->settingsTopic.c_str();
doc[FPSTR(HA_VALUE_TEMPLATE)] = F("{{ value_json.equitherm.shift|float(0)|round(2) }}");
doc[FPSTR(HA_COMMAND_TOPIC)] = this->setSettingsTopic.c_str();
doc[FPSTR(HA_COMMAND_TEMPLATE)] = F("{\"equitherm\": {\"shift\" : {{ value }}}}");
doc[FPSTR(HA_MIN)] = -15;
doc[FPSTR(HA_MAX)] = 15;
doc[FPSTR(HA_STEP)] = 0.01f; doc[FPSTR(HA_STEP)] = 0.01f;
doc[FPSTR(HA_MODE)] = FPSTR(HA_MODE_BOX); doc[FPSTR(HA_MODE)] = FPSTR(HA_MODE_BOX);
doc[FPSTR(HA_EXPIRE_AFTER)] = this->expireAfter; doc[FPSTR(HA_EXPIRE_AFTER)] = this->expireAfter;
doc.shrinkToFit(); doc.shrinkToFit();
return this->publish(this->makeConfigTopic(FPSTR(HA_ENTITY_NUMBER), F("equitherm_shift")).c_str(), doc); return this->publish(this->makeConfigTopic(FPSTR(HA_ENTITY_NUMBER), F("equitherm_k_factor")).c_str(), doc);
} }
bool publishInputEquithermTargetDiffFactor(bool enabledByDefault = true) { bool publishInputEquithermFactorT(bool enabledByDefault = true) {
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][0][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][0][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_TOPIC)] = this->settingsTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_TOPIC)] = this->settingsTopic.c_str();
doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = F("{{ iif(value_json.pid.enabled, 'offline', 'online') }}"); doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = F("{{ iif(value_json.pid.enabled, 'offline', 'online') }}");
doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all"); doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all");
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("equitherm_target_diff_factor")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("equitherm_t"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_NUMBER), F("equitherm_target_diff_factor")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_NAME)] = F("Equitherm target diff factor"); doc[FPSTR(HA_NAME)] = F("Equitherm factor T");
doc[FPSTR(HA_ICON)] = F("mdi:chart-timeline-variant-shimmer"); doc[FPSTR(HA_ICON)] = F("mdi:alpha-t-circle-outline");
doc[FPSTR(HA_STATE_TOPIC)] = this->settingsTopic.c_str(); doc[FPSTR(HA_STATE_TOPIC)] = this->settingsTopic.c_str();
doc[FPSTR(HA_VALUE_TEMPLATE)] = F("{{ value_json.equitherm.targetDiffFactor|float(0)|round(3) }}"); doc[FPSTR(HA_VALUE_TEMPLATE)] = F("{{ value_json.equitherm.t_factor|float(0)|round(2) }}");
doc[FPSTR(HA_COMMAND_TOPIC)] = this->setSettingsTopic.c_str(); doc[FPSTR(HA_COMMAND_TOPIC)] = this->setSettingsTopic.c_str();
doc[FPSTR(HA_COMMAND_TEMPLATE)] = F("{\"equitherm\": {\"targetDiffFactor\" : {{ value }}}}"); doc[FPSTR(HA_COMMAND_TEMPLATE)] = F("{\"equitherm\": {\"t_factor\" : {{ value }}}}");
doc[FPSTR(HA_MIN)] = 0; doc[FPSTR(HA_MIN)] = 0;
doc[FPSTR(HA_MAX)] = 10; doc[FPSTR(HA_MAX)] = 10;
doc[FPSTR(HA_STEP)] = 0.001f; doc[FPSTR(HA_STEP)] = 0.01f;
doc[FPSTR(HA_MODE)] = FPSTR(HA_MODE_BOX); doc[FPSTR(HA_MODE)] = FPSTR(HA_MODE_BOX);
doc[FPSTR(HA_EXPIRE_AFTER)] = this->expireAfter; doc[FPSTR(HA_EXPIRE_AFTER)] = this->expireAfter;
doc.shrinkToFit(); doc.shrinkToFit();
return this->publish(this->makeConfigTopic(FPSTR(HA_ENTITY_NUMBER), F("equitherm_target_diff_factor")).c_str(), doc); return this->publish(this->makeConfigTopic(FPSTR(HA_ENTITY_NUMBER), F("equitherm_t_factor")).c_str(), doc);
} }
bool publishStatusState(bool enabledByDefault = true) { bool publishStatusState(bool enabledByDefault = true) {
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("status")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("status"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_BINARY_SENSOR), F("status")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC);
doc[FPSTR(HA_DEVICE_CLASS)] = F("problem"); doc[FPSTR(HA_DEVICE_CLASS)] = F("problem");
doc[FPSTR(HA_NAME)] = F("Status"); doc[FPSTR(HA_NAME)] = F("Status");
@@ -984,8 +934,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("emergency")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("emergency"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_BINARY_SENSOR), F("emergency")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC);
doc[FPSTR(HA_DEVICE_CLASS)] = F("problem"); doc[FPSTR(HA_DEVICE_CLASS)] = F("problem");
doc[FPSTR(HA_NAME)] = F("Emergency"); doc[FPSTR(HA_NAME)] = F("Emergency");
@@ -1002,8 +952,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("ot_status")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("ot_status"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_BINARY_SENSOR), F("ot_status")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC);
doc[FPSTR(HA_DEVICE_CLASS)] = F("connectivity"); doc[FPSTR(HA_DEVICE_CLASS)] = F("connectivity");
doc[FPSTR(HA_NAME)] = F("Opentherm status"); doc[FPSTR(HA_NAME)] = F("Opentherm status");
@@ -1023,8 +973,9 @@ public:
doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = JsonString(AVAILABILITY_OT_CONN, true); doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = JsonString(AVAILABILITY_OT_CONN, true);
doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all"); doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all");
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("heating")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("heating"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_BINARY_SENSOR), F("heating")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
//doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC);
doc[FPSTR(HA_DEVICE_CLASS)] = F("running"); doc[FPSTR(HA_DEVICE_CLASS)] = F("running");
doc[FPSTR(HA_NAME)] = F("Heating"); doc[FPSTR(HA_NAME)] = F("Heating");
doc[FPSTR(HA_ICON)] = F("mdi:radiator"); doc[FPSTR(HA_ICON)] = F("mdi:radiator");
@@ -1043,8 +994,9 @@ public:
doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = JsonString(AVAILABILITY_OT_CONN, true); doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = JsonString(AVAILABILITY_OT_CONN, true);
doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all"); doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all");
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("dhw")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("dhw"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_BINARY_SENSOR), F("dhw")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
//doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC);
doc[FPSTR(HA_DEVICE_CLASS)] = F("running"); doc[FPSTR(HA_DEVICE_CLASS)] = F("running");
doc[FPSTR(HA_NAME)] = F("DHW"); doc[FPSTR(HA_NAME)] = F("DHW");
doc[FPSTR(HA_ICON)] = F("mdi:faucet"); doc[FPSTR(HA_ICON)] = F("mdi:faucet");
@@ -1063,8 +1015,9 @@ public:
doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = JsonString(AVAILABILITY_OT_CONN, true); doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = JsonString(AVAILABILITY_OT_CONN, true);
doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all"); doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all");
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("flame")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("flame"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_BINARY_SENSOR), F("flame")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
//doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC);
doc[FPSTR(HA_DEVICE_CLASS)] = F("running"); doc[FPSTR(HA_DEVICE_CLASS)] = F("running");
doc[FPSTR(HA_NAME)] = F("Flame"); doc[FPSTR(HA_NAME)] = F("Flame");
doc[FPSTR(HA_ICON)] = F("mdi:gas-burner"); doc[FPSTR(HA_ICON)] = F("mdi:gas-burner");
@@ -1083,8 +1036,8 @@ public:
doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = JsonString(AVAILABILITY_OT_CONN, true); doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = JsonString(AVAILABILITY_OT_CONN, true);
doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all"); doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all");
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("fault")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("fault"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_BINARY_SENSOR), F("fault")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC);
doc[FPSTR(HA_DEVICE_CLASS)] = F("problem"); doc[FPSTR(HA_DEVICE_CLASS)] = F("problem");
doc[FPSTR(HA_NAME)] = F("Fault"); doc[FPSTR(HA_NAME)] = F("Fault");
@@ -1104,8 +1057,8 @@ public:
doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = JsonString(AVAILABILITY_OT_CONN, true); doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = JsonString(AVAILABILITY_OT_CONN, true);
doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all"); doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all");
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC)); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_BINARY_SENSOR), FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC)); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC);
doc[FPSTR(HA_DEVICE_CLASS)] = F("problem"); doc[FPSTR(HA_DEVICE_CLASS)] = F("problem");
doc[FPSTR(HA_NAME)] = F("Diagnostic"); doc[FPSTR(HA_NAME)] = F("Diagnostic");
@@ -1122,8 +1075,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("ext_pump")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("ext_pump"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_BINARY_SENSOR), F("ext_pump")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC);
doc[FPSTR(HA_DEVICE_CLASS)] = F("running"); doc[FPSTR(HA_DEVICE_CLASS)] = F("running");
doc[FPSTR(HA_NAME)] = F("External pump"); doc[FPSTR(HA_NAME)] = F("External pump");
@@ -1143,8 +1096,8 @@ public:
doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = F("{{ iif(value_json.slave.connected and value_json.slave.fault.active, 'online', 'offline') }}"); doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = F("{{ iif(value_json.slave.connected and value_json.slave.fault.active, 'online', 'offline') }}");
doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all"); doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all");
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("fault_code")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("fault_code"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_SENSOR), F("fault_code")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC);
doc[FPSTR(HA_NAME)] = F("Fault code"); doc[FPSTR(HA_NAME)] = F("Fault code");
doc[FPSTR(HA_ICON)] = F("mdi:cog-box"); doc[FPSTR(HA_ICON)] = F("mdi:cog-box");
@@ -1163,8 +1116,8 @@ public:
doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = F("{{ iif(value_json.slave.connected and value_json.slave.fault.active or value_json.slave.diag.active, 'online', 'offline') }}"); doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = F("{{ iif(value_json.slave.connected and value_json.slave.fault.active or value_json.slave.diag.active, 'online', 'offline') }}");
doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all"); doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all");
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("diagnostic_code")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("diagnostic_code"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_SENSOR), F("diagnostic_code")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC);
doc[FPSTR(HA_NAME)] = F("Diagnostic code"); doc[FPSTR(HA_NAME)] = F("Diagnostic code");
doc[FPSTR(HA_ICON)] = F("mdi:information-box"); doc[FPSTR(HA_ICON)] = F("mdi:information-box");
@@ -1180,8 +1133,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(FPSTR(S_RSSI)); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(FPSTR(S_RSSI));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_SENSOR), FPSTR(S_RSSI)); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC);
doc[FPSTR(HA_DEVICE_CLASS)] = F("signal_strength"); doc[FPSTR(HA_DEVICE_CLASS)] = F("signal_strength");
doc[FPSTR(HA_STATE_CLASS)] = FPSTR(HA_STATE_CLASS_MEASUREMENT); doc[FPSTR(HA_STATE_CLASS)] = FPSTR(HA_STATE_CLASS_MEASUREMENT);
@@ -1200,8 +1153,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("uptime")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("uptime"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_SENSOR), F("uptime")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_DIAGNOSTIC);
doc[FPSTR(HA_DEVICE_CLASS)] = F("duration"); doc[FPSTR(HA_DEVICE_CLASS)] = F("duration");
doc[FPSTR(HA_STATE_CLASS)] = F("total_increasing"); doc[FPSTR(HA_STATE_CLASS)] = F("total_increasing");
@@ -1221,8 +1174,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("heating")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("heating"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_CLIMATE), F("heating")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_NAME)] = F("Heating"); doc[FPSTR(HA_NAME)] = F("Heating");
doc[FPSTR(HA_ICON)] = F("mdi:radiator"); doc[FPSTR(HA_ICON)] = F("mdi:radiator");
@@ -1273,8 +1226,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("dhw")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("dhw"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_CLIMATE), F("dhw")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_NAME)] = F("DHW"); doc[FPSTR(HA_NAME)] = F("DHW");
doc[FPSTR(HA_ICON)] = F("mdi:faucet"); doc[FPSTR(HA_ICON)] = F("mdi:faucet");
@@ -1318,8 +1271,8 @@ public:
JsonDocument doc; JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str(); doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(FPSTR(S_RESTART)); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(FPSTR(S_RESTART));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_BUTTON), FPSTR(S_RESTART)); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_RESTART); doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_RESTART);
doc[FPSTR(HA_NAME)] = F("Restart"); doc[FPSTR(HA_NAME)] = F("Restart");
@@ -1338,8 +1291,8 @@ public:
doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = F("{{ iif(value_json.slave.fault.active, 'online', 'offline') }}"); doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = F("{{ iif(value_json.slave.fault.active, 'online', 'offline') }}");
doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all"); doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all");
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("reset_fault")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("reset_fault"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_BUTTON), F("reset_fault")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_RESTART); doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_RESTART);
doc[FPSTR(HA_NAME)] = F("Reset fault"); doc[FPSTR(HA_NAME)] = F("Reset fault");
@@ -1358,8 +1311,8 @@ public:
doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = F("{{ iif(value_json.slave.diag.active, 'online', 'offline') }}"); doc[FPSTR(HA_AVAILABILITY)][1][FPSTR(HA_VALUE_TEMPLATE)] = F("{{ iif(value_json.slave.diag.active, 'online', 'offline') }}");
doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all"); doc[FPSTR(HA_AVAILABILITY_MODE)] = F("all");
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault; doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
doc[FPSTR(HA_UNIQUE_ID)] = this->getUniqueIdWithPrefix(F("reset_diagnostic")); doc[FPSTR(HA_UNIQUE_ID)] = this->getObjectIdWithPrefix(F("reset_diagnostic"));
doc[FPSTR(HA_DEFAULT_ENTITY_ID)] = this->getEntityIdWithPrefix(FPSTR(HA_ENTITY_BUTTON), F("reset_diagnostic")); doc[FPSTR(HA_OBJECT_ID)] = doc[FPSTR(HA_UNIQUE_ID)];
doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG); doc[FPSTR(HA_ENTITY_CATEGORY)] = FPSTR(HA_ENTITY_CATEGORY_CONFIG);
doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_RESTART); doc[FPSTR(HA_DEVICE_CLASS)] = FPSTR(S_RESTART);
doc[FPSTR(HA_NAME)] = F("Reset diagnostic"); doc[FPSTR(HA_NAME)] = F("Reset diagnostic");

37
src/MainTask.h
View File

@@ -6,7 +6,6 @@ extern NetworkMgr* network;
extern MqttTask* tMqtt; extern MqttTask* tMqtt;
extern OpenThermTask* tOt; extern OpenThermTask* tOt;
extern FileData fsNetworkSettings, fsSettings, fsSensorsSettings; extern FileData fsNetworkSettings, fsSettings, fsSensorsSettings;
extern ESPTelnetStream* telnetStream;
class MainTask : public Task { class MainTask : public Task {
@@ -40,7 +39,6 @@ protected:
PumpStartReason extPumpStartReason = PumpStartReason::NONE; PumpStartReason extPumpStartReason = PumpStartReason::NONE;
unsigned long externalPumpStartTime = 0; unsigned long externalPumpStartTime = 0;
bool ntpStarted = false; bool ntpStarted = false;
bool telnetStarted = false;
bool emergencyDetected = false; bool emergencyDetected = false;
unsigned long emergencyFlipTime = 0; unsigned long emergencyFlipTime = 0;
bool freezeDetected = false; bool freezeDetected = false;
@@ -106,9 +104,9 @@ protected:
vars.network.connected = network->isConnected(); vars.network.connected = network->isConnected();
vars.network.rssi = network->isConnected() ? WiFi.RSSI() : 0; vars.network.rssi = network->isConnected() ? WiFi.RSSI() : 0;
if (settings.system.logLevel >= TinyLogger::Level::SILENT && settings.system.logLevel <= TinyLogger::Level::VERBOSE) { if (settings.system.logLevel >= TinyLoggerLevel::SILENT && settings.system.logLevel <= TinyLoggerLevel::VERBOSE) {
if (Log.getLevel() != settings.system.logLevel) { if (Log.getLevel() != settings.system.logLevel) {
Log.setLevel(static_cast<TinyLogger::Level>(settings.system.logLevel)); Log.setLevel(static_cast<TinyLoggerLevel>(settings.system.logLevel));
} }
} }
@@ -123,11 +121,6 @@ protected:
} }
} }
if (!this->telnetStarted && telnetStream != nullptr) {
telnetStream->begin(23, false);
this->telnetStarted = true;
}
if (settings.mqtt.enabled && !tMqtt->isEnabled()) { if (settings.mqtt.enabled && !tMqtt->isEnabled()) {
tMqtt->enable(); tMqtt->enable();
@@ -142,11 +135,6 @@ protected:
this->ntpStarted = false; this->ntpStarted = false;
} }
if (this->telnetStarted) {
telnetStream->stop();
this->telnetStarted = false;
}
if (tMqtt->isEnabled()) { if (tMqtt->isEnabled()) {
tMqtt->disable(); tMqtt->disable();
} }
@@ -160,23 +148,10 @@ protected:
} }
this->ledStatus(); this->ledStatus();
// telnet
if (this->telnetStarted) {
this->yield();
telnetStream->loop();
this->yield();
}
// anti memory leak // anti memory leak
for (Stream* stream : Log.getStreams()) { while (Serial.available() > 0) {
while (stream->available() > 0) { Serial.read();
stream->read();
#ifdef ARDUINO_ARCH_ESP8266
::optimistic_yield(1000);
#endif
}
} }
// heap info // heap info
@@ -215,7 +190,7 @@ protected:
vars.states.restarting = true; vars.states.restarting = true;
} }
if (settings.system.logLevel < TinyLogger::Level::VERBOSE) { if (settings.system.logLevel < TinyLoggerLevel::VERBOSE) {
return; return;
} }
@@ -319,7 +294,7 @@ protected:
emergencyFlags |= 0b00000010; emergencyFlags |= 0b00000010;
} }
if (settings.opentherm.options.nativeOTC) { if (settings.opentherm.options.nativeHeatingControl) {
emergencyFlags |= 0b00000100; emergencyFlags |= 0b00000100;
} }
} }

10
src/MqttTask.h
View File

@@ -416,7 +416,7 @@ protected:
return; return;
} }
if (settings.system.logLevel >= TinyLogger::Level::TRACE) { if (settings.system.logLevel >= TinyLoggerLevel::TRACE) {
Log.strace(FPSTR(L_MQTT_MSG), F("Topic: %s\r\n> "), topic.c_str()); Log.strace(FPSTR(L_MQTT_MSG), F("Topic: %s\r\n> "), topic.c_str());
if (Log.lock()) { if (Log.lock()) {
for (size_t i = 0; i < length; i++) { for (size_t i = 0; i < length; i++) {
@@ -486,7 +486,6 @@ protected:
void publishHaEntities() { void publishHaEntities() {
// heating // heating
this->haHelper->publishSwitchHeatingTurbo(false); this->haHelper->publishSwitchHeatingTurbo(false);
this->haHelper->publishSwitchHeatingHysteresis();
this->haHelper->publishInputHeatingHysteresis(settings.system.unitSystem); this->haHelper->publishInputHeatingHysteresis(settings.system.unitSystem);
this->haHelper->publishInputHeatingTurboFactor(false); this->haHelper->publishInputHeatingTurboFactor(false);
this->haHelper->publishInputHeatingMinTemp(settings.system.unitSystem); this->haHelper->publishInputHeatingMinTemp(settings.system.unitSystem);
@@ -503,10 +502,9 @@ protected:
// equitherm // equitherm
this->haHelper->publishSwitchEquitherm(); this->haHelper->publishSwitchEquitherm();
this->haHelper->publishInputEquithermSlope(false); this->haHelper->publishInputEquithermFactorN(false);
this->haHelper->publishInputEquithermExponent(false); this->haHelper->publishInputEquithermFactorK(false);
this->haHelper->publishInputEquithermShift(false); this->haHelper->publishInputEquithermFactorT(false);
this->haHelper->publishInputEquithermTargetDiffFactor(false);
// states // states
this->haHelper->publishStatusState(); this->haHelper->publishStatusState();

202
src/OpenThermTask.h
View File

@@ -186,9 +186,7 @@ protected:
|| (settings.opentherm.options.dhwToCh2 && settings.opentherm.options.dhwSupport && settings.dhw.enabled); || (settings.opentherm.options.dhwToCh2 && settings.opentherm.options.dhwSupport && settings.dhw.enabled);
if (settings.opentherm.options.heatingToCh2) { if (settings.opentherm.options.heatingToCh2) {
vars.master.ch2.targetTemp = !settings.opentherm.options.nativeOTC vars.master.ch2.targetTemp = vars.master.heating.setpointTemp;
? vars.master.heating.setpointTemp
: vars.master.heating.targetTemp;
} else if (settings.opentherm.options.dhwToCh2) { } else if (settings.opentherm.options.dhwToCh2) {
vars.master.ch2.targetTemp = vars.master.dhw.targetTemp; vars.master.ch2.targetTemp = vars.master.dhw.targetTemp;
@@ -220,7 +218,7 @@ protected:
vars.master.heating.enabled, vars.master.heating.enabled,
vars.master.dhw.enabled, vars.master.dhw.enabled,
settings.opentherm.options.coolingSupport, settings.opentherm.options.coolingSupport,
settings.opentherm.options.nativeOTC, settings.opentherm.options.nativeHeatingControl,
vars.master.ch2.enabled, vars.master.ch2.enabled,
summerWinterMode, summerWinterMode,
dhwBlocking, dhwBlocking,
@@ -307,7 +305,6 @@ protected:
Sensors::setConnectionStatusByType(Sensors::Type::OT_DHW_BURNER_HOURS, false); Sensors::setConnectionStatusByType(Sensors::Type::OT_DHW_BURNER_HOURS, false);
Sensors::setConnectionStatusByType(Sensors::Type::OT_HEATING_PUMP_HOURS, false); Sensors::setConnectionStatusByType(Sensors::Type::OT_HEATING_PUMP_HOURS, false);
Sensors::setConnectionStatusByType(Sensors::Type::OT_DHW_PUMP_HOURS, false); Sensors::setConnectionStatusByType(Sensors::Type::OT_DHW_PUMP_HOURS, false);
Sensors::setConnectionStatusByType(Sensors::Type::OT_COOLING_HOURS, false);
this->initialized = false; this->initialized = false;
this->disconnectedTime = millis(); this->disconnectedTime = millis();
@@ -680,21 +677,6 @@ protected:
} }
} }
// Update cooling hours
if (Sensors::getAmountByType(Sensors::Type::OT_COOLING_HOURS, true)) {
if (this->updateCoolingHours()) {
Log.snoticeln(FPSTR(L_OT), F("Received cooling hours: %hu"), vars.slave.stats.coolingHours);
Sensors::setValueByType(
Sensors::Type::OT_COOLING_HOURS, vars.slave.stats.coolingHours,
Sensors::ValueType::PRIMARY, true, true
);
} else {
Log.swarningln(FPSTR(L_OT), F("Failed receive cooling hours"));
}
}
// Auto fault reset // Auto fault reset
if (settings.opentherm.options.autoFaultReset && vars.slave.fault.active && !vars.actions.resetFault) { if (settings.opentherm.options.autoFaultReset && vars.slave.fault.active && !vars.actions.resetFault) {
vars.actions.resetFault = true; vars.actions.resetFault = true;
@@ -810,7 +792,7 @@ protected:
bool result = this->updateDhwTemp(); bool result = this->updateDhwTemp();
if (result) { if (result) {
const float convertedDhwTemp = convertTemp( float convertedDhwTemp = convertTemp(
vars.slave.dhw.currentTemp, vars.slave.dhw.currentTemp,
settings.opentherm.unitSystem, settings.opentherm.unitSystem,
settings.system.unitSystem settings.system.unitSystem
@@ -834,7 +816,7 @@ protected:
// Update DHW temp 2 // Update DHW temp 2
if (settings.opentherm.options.dhwSupport && Sensors::getAmountByType(Sensors::Type::OT_DHW_TEMP2, true)) { if (settings.opentherm.options.dhwSupport && Sensors::getAmountByType(Sensors::Type::OT_DHW_TEMP2, true)) {
if (this->updateDhwTemp2()) { if (this->updateDhwTemp2()) {
const float convertedDhwTemp2 = convertTemp( float convertedDhwTemp2 = convertTemp(
vars.slave.dhw.currentTemp2, vars.slave.dhw.currentTemp2,
settings.opentherm.unitSystem, settings.opentherm.unitSystem,
settings.system.unitSystem settings.system.unitSystem
@@ -858,7 +840,7 @@ protected:
// Update DHW flow rate // Update DHW flow rate
if (settings.opentherm.options.dhwSupport && Sensors::getAmountByType(Sensors::Type::OT_DHW_FLOW_RATE, true)) { if (settings.opentherm.options.dhwSupport && Sensors::getAmountByType(Sensors::Type::OT_DHW_FLOW_RATE, true)) {
if (this->updateDhwFlowRate()) { if (this->updateDhwFlowRate()) {
const float convertedDhwFlowRate = convertVolume( float convertedDhwFlowRate = convertVolume(
vars.slave.dhw.flowRate, vars.slave.dhw.flowRate,
settings.opentherm.unitSystem, settings.opentherm.unitSystem,
settings.system.unitSystem settings.system.unitSystem
@@ -882,7 +864,7 @@ protected:
// Update heating temp // Update heating temp
if (Sensors::getAmountByType(Sensors::Type::OT_HEATING_TEMP, true)) { if (Sensors::getAmountByType(Sensors::Type::OT_HEATING_TEMP, true)) {
if (this->updateHeatingTemp()) { if (this->updateHeatingTemp()) {
const float convertedHeatingTemp = convertTemp( float convertedHeatingTemp = convertTemp(
vars.slave.heating.currentTemp, vars.slave.heating.currentTemp,
settings.opentherm.unitSystem, settings.opentherm.unitSystem,
settings.system.unitSystem settings.system.unitSystem
@@ -906,7 +888,7 @@ protected:
// Update heating return temp // Update heating return temp
if (Sensors::getAmountByType(Sensors::Type::OT_HEATING_RETURN_TEMP, true)) { if (Sensors::getAmountByType(Sensors::Type::OT_HEATING_RETURN_TEMP, true)) {
if (this->updateHeatingReturnTemp()) { if (this->updateHeatingReturnTemp()) {
const float convertedHeatingReturnTemp = convertTemp( float convertedHeatingReturnTemp = convertTemp(
vars.slave.heating.returnTemp, vars.slave.heating.returnTemp,
settings.opentherm.unitSystem, settings.opentherm.unitSystem,
settings.system.unitSystem settings.system.unitSystem
@@ -929,9 +911,9 @@ protected:
// Update CH2 temp // Update CH2 temp
if (Sensors::getAmountByType(Sensors::Type::OT_CH2_TEMP, true)) { if (Sensors::getAmountByType(Sensors::Type::OT_CH2_TEMP, true)) {
if (vars.master.ch2.enabled && !settings.opentherm.options.nativeOTC) { if (vars.master.ch2.enabled && !settings.opentherm.options.nativeHeatingControl) {
if (this->updateCh2Temp()) { if (this->updateCh2Temp()) {
const float convertedCh2Temp = convertTemp( float convertedCh2Temp = convertTemp(
vars.slave.ch2.currentTemp, vars.slave.ch2.currentTemp,
settings.opentherm.unitSystem, settings.opentherm.unitSystem,
settings.system.unitSystem settings.system.unitSystem
@@ -956,7 +938,7 @@ protected:
// Update exhaust temp // Update exhaust temp
if (Sensors::getAmountByType(Sensors::Type::OT_EXHAUST_TEMP, true)) { if (Sensors::getAmountByType(Sensors::Type::OT_EXHAUST_TEMP, true)) {
if (this->updateExhaustTemp()) { if (this->updateExhaustTemp()) {
const float convertedExhaustTemp = convertTemp( float convertedExhaustTemp = convertTemp(
vars.slave.exhaust.temp, vars.slave.exhaust.temp,
settings.opentherm.unitSystem, settings.opentherm.unitSystem,
settings.system.unitSystem settings.system.unitSystem
@@ -980,7 +962,7 @@ protected:
// Update heat exchanger temp // Update heat exchanger temp
if (Sensors::getAmountByType(Sensors::Type::OT_HEAT_EXCHANGER_TEMP, true)) { if (Sensors::getAmountByType(Sensors::Type::OT_HEAT_EXCHANGER_TEMP, true)) {
if (this->updateHeatExchangerTemp()) { if (this->updateHeatExchangerTemp()) {
const float convertedHeatExchTemp = convertTemp( float convertedHeatExchTemp = convertTemp(
vars.slave.heatExchangerTemp, vars.slave.heatExchangerTemp,
settings.opentherm.unitSystem, settings.opentherm.unitSystem,
settings.system.unitSystem settings.system.unitSystem
@@ -1004,7 +986,7 @@ protected:
// Update outdoor temp // Update outdoor temp
if (Sensors::getAmountByType(Sensors::Type::OT_OUTDOOR_TEMP, true)) { if (Sensors::getAmountByType(Sensors::Type::OT_OUTDOOR_TEMP, true)) {
if (this->updateOutdoorTemp()) { if (this->updateOutdoorTemp()) {
const float convertedOutdoorTemp = convertTemp( float convertedOutdoorTemp = convertTemp(
vars.slave.heating.outdoorTemp, vars.slave.heating.outdoorTemp,
settings.opentherm.unitSystem, settings.opentherm.unitSystem,
settings.system.unitSystem settings.system.unitSystem
@@ -1028,7 +1010,7 @@ protected:
// Update solar storage temp // Update solar storage temp
if (Sensors::getAmountByType(Sensors::Type::OT_SOLAR_STORAGE_TEMP, true)) { if (Sensors::getAmountByType(Sensors::Type::OT_SOLAR_STORAGE_TEMP, true)) {
if (this->updateSolarStorageTemp()) { if (this->updateSolarStorageTemp()) {
const float convertedSolarStorageTemp = convertTemp( float convertedSolarStorageTemp = convertTemp(
vars.slave.solar.storage, vars.slave.solar.storage,
settings.opentherm.unitSystem, settings.opentherm.unitSystem,
settings.system.unitSystem settings.system.unitSystem
@@ -1052,7 +1034,7 @@ protected:
// Update solar collector temp // Update solar collector temp
if (Sensors::getAmountByType(Sensors::Type::OT_SOLAR_COLLECTOR_TEMP, true)) { if (Sensors::getAmountByType(Sensors::Type::OT_SOLAR_COLLECTOR_TEMP, true)) {
if (this->updateSolarCollectorTemp()) { if (this->updateSolarCollectorTemp()) {
const float convertedSolarCollectorTemp = convertTemp( float convertedSolarCollectorTemp = convertTemp(
vars.slave.solar.collector, vars.slave.solar.collector,
settings.opentherm.unitSystem, settings.opentherm.unitSystem,
settings.system.unitSystem settings.system.unitSystem
@@ -1098,7 +1080,7 @@ protected:
// Update pressure // Update pressure
if (Sensors::getAmountByType(Sensors::Type::OT_PRESSURE, true)) { if (Sensors::getAmountByType(Sensors::Type::OT_PRESSURE, true)) {
if (this->updatePressure()) { if (this->updatePressure()) {
const float convertedPressure = convertPressure( float convertedPressure = convertPressure(
vars.slave.pressure, vars.slave.pressure,
settings.opentherm.unitSystem, settings.opentherm.unitSystem,
settings.system.unitSystem settings.system.unitSystem
@@ -1204,12 +1186,9 @@ protected:
// Update DHW temp // Update DHW temp
if (vars.master.dhw.enabled) { if (vars.master.dhw.enabled) {
// Target dhw temp
const float& targetTemp = vars.master.dhw.targetTemp;
// Converted target dhw temp // Converted target dhw temp
const float convertedTemp = convertTemp( float convertedTemp = convertTemp(
targetTemp, vars.master.dhw.targetTemp,
settings.system.unitSystem, settings.system.unitSystem,
settings.opentherm.unitSystem settings.opentherm.unitSystem
); );
@@ -1221,7 +1200,7 @@ protected:
Log.sinfoln( Log.sinfoln(
FPSTR(L_OT_DHW), F("Set temp: %.2f (converted: %.2f, response: %.2f)"), FPSTR(L_OT_DHW), F("Set temp: %.2f (converted: %.2f, response: %.2f)"),
targetTemp, convertedTemp, vars.slave.dhw.targetTemp vars.master.dhw.targetTemp, convertedTemp, vars.slave.dhw.targetTemp
); );
} else { } else {
@@ -1230,19 +1209,16 @@ protected:
} }
} }
// Send indoor temp if AlwaysSendIndoorTemp option is enabled. // Native heating control
if (settings.opentherm.options.nativeOTC || settings.opentherm.options.alwaysSendIndoorTemp) { if (settings.opentherm.options.nativeHeatingControl) {
// Current indoor temp
const float& indoorTemp = vars.master.heating.indoorTemp;
// Converted current indoor temp // Converted current indoor temp
const float convertedTemp = convertTemp(indoorTemp, settings.system.unitSystem, settings.opentherm.unitSystem); float convertedTemp = convertTemp(vars.master.heating.indoorTemp, settings.system.unitSystem, settings.opentherm.unitSystem);
// Set current indoor temp // Set current indoor temp
if (this->setRoomTemp(convertedTemp)) { if (this->setRoomTemp(convertedTemp)) {
Log.sinfoln( Log.sinfoln(
FPSTR(L_OT_HEATING), F("Set current indoor temp: %.2f (converted: %.2f, response: %.2f)"), FPSTR(L_OT_HEATING), F("Set current indoor temp: %.2f (converted: %.2f, response: %.2f)"),
indoorTemp, convertedTemp, vars.slave.heating.indoorTemp vars.master.heating.indoorTemp, convertedTemp, vars.slave.heating.indoorTemp
); );
} else { } else {
@@ -1254,26 +1230,17 @@ protected:
if (this->setRoomTempCh2(convertedTemp)) { if (this->setRoomTempCh2(convertedTemp)) {
Log.sinfoln( Log.sinfoln(
FPSTR(L_OT_HEATING), F("Set current CH2 indoor temp: %.2f (converted: %.2f, response: %.2f)"), FPSTR(L_OT_HEATING), F("Set current CH2 indoor temp: %.2f (converted: %.2f, response: %.2f)"),
indoorTemp, convertedTemp, vars.slave.ch2.indoorTemp vars.master.heating.indoorTemp, convertedTemp, vars.slave.ch2.indoorTemp
); );
} else { } else {
Log.swarningln(FPSTR(L_OT_HEATING), F("Failed set current CH2 indoor temp")); Log.swarningln(FPSTR(L_OT_HEATING), F("Failed set current CH2 indoor temp"));
} }
} }
}
// NativeOTC
if (settings.opentherm.options.nativeOTC) {
// Target indoor temp
const float& targetTemp = vars.master.heating.targetTemp;
// Converted target indoor temp // Converted target indoor temp
const float convertedTemp = convertTemp( convertedTemp = convertTemp(vars.master.heating.targetTemp, settings.system.unitSystem, settings.opentherm.unitSystem);
targetTemp,
settings.system.unitSystem,
settings.opentherm.unitSystem
);
// Set target indoor temp // Set target indoor temp
if (this->needSetHeatingTemp(convertedTemp)) { if (this->needSetHeatingTemp(convertedTemp)) {
@@ -1282,7 +1249,7 @@ protected:
Log.sinfoln( Log.sinfoln(
FPSTR(L_OT_HEATING), F("Set target indoor temp: %.2f (converted: %.2f, response: %.2f)"), FPSTR(L_OT_HEATING), F("Set target indoor temp: %.2f (converted: %.2f, response: %.2f)"),
targetTemp, convertedTemp, vars.slave.heating.targetTemp vars.master.heating.targetTemp, convertedTemp, vars.slave.heating.targetTemp
); );
} else { } else {
@@ -1297,7 +1264,7 @@ protected:
Log.sinfoln( Log.sinfoln(
FPSTR(L_OT_HEATING), F("Set target CH2 indoor temp: %.2f (converted: %.2f, response: %.2f)"), FPSTR(L_OT_HEATING), F("Set target CH2 indoor temp: %.2f (converted: %.2f, response: %.2f)"),
targetTemp, convertedTemp, vars.slave.ch2.targetTemp vars.master.heating.targetTemp, convertedTemp, vars.slave.ch2.targetTemp
); );
} else { } else {
@@ -1306,22 +1273,10 @@ protected:
} }
} }
// Set heating temp // Normal heating control
{ if (!settings.opentherm.options.nativeHeatingControl && vars.master.heating.enabled) {
// Target heating temp
float targetTemp = 0.0f;
if (vars.master.heating.enabled) {
targetTemp = !settings.opentherm.options.nativeOTC
? vars.master.heating.setpointTemp
: vars.master.heating.targetTemp;
}
// Converted target heating temp // Converted target heating temp
const float convertedTemp = convertTemp( float convertedTemp = convertTemp(vars.master.heating.setpointTemp, settings.system.unitSystem, settings.opentherm.unitSystem);
targetTemp,
settings.system.unitSystem,
settings.opentherm.unitSystem
);
if (this->needSetHeatingTemp(convertedTemp)) { if (this->needSetHeatingTemp(convertedTemp)) {
// Set max heating temp // Set max heating temp
@@ -1329,13 +1284,13 @@ protected:
if (this->setMaxHeatingTemp(convertedTemp)) { if (this->setMaxHeatingTemp(convertedTemp)) {
Log.sinfoln( Log.sinfoln(
FPSTR(L_OT_HEATING), F("Set max heating temp: %.2f (converted: %.2f)"), FPSTR(L_OT_HEATING), F("Set max heating temp: %.2f (converted: %.2f)"),
targetTemp, convertedTemp vars.master.heating.setpointTemp, convertedTemp
); );
} else { } else {
Log.swarningln( Log.swarningln(
FPSTR(L_OT_HEATING), F("Failed set max heating temp: %.2f (converted: %.2f)"), FPSTR(L_OT_HEATING), F("Failed set max heating temp: %.2f (converted: %.2f)"),
targetTemp, convertedTemp vars.master.heating.setpointTemp, convertedTemp
); );
} }
} }
@@ -1346,7 +1301,7 @@ protected:
Log.sinfoln( Log.sinfoln(
FPSTR(L_OT_HEATING), F("Set target temp: %.2f (converted: %.2f, response: %.2f)"), FPSTR(L_OT_HEATING), F("Set target temp: %.2f (converted: %.2f, response: %.2f)"),
targetTemp, convertedTemp, vars.slave.heating.targetTemp vars.master.heating.setpointTemp, convertedTemp, vars.slave.heating.targetTemp
); );
} else { } else {
@@ -1356,30 +1311,27 @@ protected:
} }
// Set CH2 temp // Set CH2 temp
if (settings.opentherm.options.heatingToCh2 || settings.opentherm.options.dhwToCh2) { if (!settings.opentherm.options.nativeHeatingControl && vars.master.ch2.enabled) {
// Target CH2 heating temp if (settings.opentherm.options.heatingToCh2 || settings.opentherm.options.dhwToCh2) {
const float targetTemp = vars.master.ch2.enabled // Converted target CH2 temp
? vars.master.ch2.targetTemp float convertedTemp = convertTemp(
: 0.0f; vars.master.ch2.targetTemp,
settings.system.unitSystem,
settings.opentherm.unitSystem
);
// Converted target CH2 temp if (this->needSetCh2Temp(convertedTemp)) {
const float convertedTemp = convertTemp( if (this->setCh2Temp(convertedTemp)) {
targetTemp, this->ch2SetTempTime = millis();
settings.system.unitSystem,
settings.opentherm.unitSystem
);
if (this->needSetCh2Temp(convertedTemp)) { Log.sinfoln(
if (this->setCh2Temp(convertedTemp)) { FPSTR(L_OT_CH2), F("Set temp: %.2f (converted: %.2f, response: %.2f)"),
this->ch2SetTempTime = millis(); vars.master.ch2.targetTemp, convertedTemp, vars.slave.ch2.targetTemp
);
Log.sinfoln( } else {
FPSTR(L_OT_CH2), F("Set temp: %.2f (converted: %.2f, response: %.2f)"), Log.swarningln(FPSTR(L_OT_CH2), F("Failed set temp"));
targetTemp, convertedTemp, vars.slave.ch2.targetTemp }
);
} else {
Log.swarningln(FPSTR(L_OT_CH2), F("Failed set temp"));
} }
} }
} }
@@ -1387,7 +1339,7 @@ protected:
// Heating overheat control // Heating overheat control
if (settings.heating.overheatProtection.highTemp > 0 && settings.heating.overheatProtection.lowTemp > 0) { if (settings.heating.overheatProtection.highTemp > 0 && settings.heating.overheatProtection.lowTemp > 0) {
const float highTemp = convertTemp( float highTemp = convertTemp(
max({ max({
vars.slave.heating.currentTemp, vars.slave.heating.currentTemp,
vars.slave.heating.returnTemp, vars.slave.heating.returnTemp,
@@ -1424,7 +1376,7 @@ protected:
// DHW overheat control // DHW overheat control
if (settings.dhw.overheatProtection.highTemp > 0 && settings.dhw.overheatProtection.lowTemp > 0) { if (settings.dhw.overheatProtection.highTemp > 0 && settings.dhw.overheatProtection.lowTemp > 0) {
const float highTemp = convertTemp( float highTemp = convertTemp(
max({ max({
vars.slave.heating.currentTemp, vars.slave.heating.currentTemp,
vars.slave.heating.returnTemp, vars.slave.heating.returnTemp,
@@ -1518,19 +1470,6 @@ protected:
} else { } else {
Log.swarningln(FPSTR(L_OT), F("Failed set master config")); Log.swarningln(FPSTR(L_OT), F("Failed set master config"));
} }
/*char buf[100];
if (this->instance->getStr(OpenThermMessageID::Brand, buf, sizeof(buf) - 1)) {
Log.snoticeln(FPSTR(L_OT), F("Slave brand: %s"), buf);
}
if (this->instance->getStr(OpenThermMessageID::BrandVersion, buf, sizeof(buf) - 1)) {
Log.snoticeln(FPSTR(L_OT), F("Slave brand version: %s"), buf);
}
if (this->instance->getStr(OpenThermMessageID::BrandSerialNumber, buf, sizeof(buf) - 1)) {
Log.snoticeln(FPSTR(L_OT), F("Slave brand s/n: %s"), buf);
}*/
} }
bool isReady() { bool isReady() {
@@ -1708,7 +1647,7 @@ protected:
} }
bool setRoomTemp(const float temperature) { bool setRoomTemp(float temperature) {
const unsigned int request = CustomOpenTherm::temperatureToData(temperature); const unsigned int request = CustomOpenTherm::temperatureToData(temperature);
const unsigned long response = this->instance->sendRequest(CustomOpenTherm::buildRequest( const unsigned long response = this->instance->sendRequest(CustomOpenTherm::buildRequest(
OpenThermMessageType::WRITE_DATA, OpenThermMessageType::WRITE_DATA,
@@ -1728,7 +1667,7 @@ protected:
return CustomOpenTherm::getUInt(response) == request; return CustomOpenTherm::getUInt(response) == request;
} }
bool setRoomTempCh2(const float temperature) { bool setRoomTempCh2(float temperature) {
const unsigned int request = CustomOpenTherm::temperatureToData(temperature); const unsigned int request = CustomOpenTherm::temperatureToData(temperature);
const unsigned long response = this->instance->sendRequest(CustomOpenTherm::buildRequest( const unsigned long response = this->instance->sendRequest(CustomOpenTherm::buildRequest(
OpenThermMessageType::WRITE_DATA, OpenThermMessageType::WRITE_DATA,
@@ -2230,25 +2169,6 @@ protected:
return true; return true;
} }
bool updateCoolingHours() {
const unsigned long response = this->instance->sendRequest(CustomOpenTherm::buildRequest(
OpenThermRequestType::READ_DATA,
OpenThermMessageID::CoolingOperationHours,
0
));
if (!CustomOpenTherm::isValidResponse(response)) {
return false;
} else if (!CustomOpenTherm::isValidResponseId(response, OpenThermMessageID::CoolingOperationHours)) {
return false;
}
vars.slave.stats.coolingHours = CustomOpenTherm::getUInt(response);
return true;
}
bool updateModulationLevel() { bool updateModulationLevel() {
const unsigned long response = this->instance->sendRequest(CustomOpenTherm::buildRequest( const unsigned long response = this->instance->sendRequest(CustomOpenTherm::buildRequest(
OpenThermRequestType::READ_DATA, OpenThermRequestType::READ_DATA,
@@ -2263,7 +2183,7 @@ protected:
return false; return false;
} }
const float value = CustomOpenTherm::getFloat(response); float value = CustomOpenTherm::getFloat(response);
if (value < 0) { if (value < 0) {
return false; return false;
} }
@@ -2287,7 +2207,7 @@ protected:
return false; return false;
} }
const float value = CustomOpenTherm::getFloat(response); float value = CustomOpenTherm::getFloat(response);
if (value <= 0) { if (value <= 0) {
return false; return false;
} }
@@ -2311,7 +2231,7 @@ protected:
return false; return false;
} }
const float value = CustomOpenTherm::getFloat(response); float value = CustomOpenTherm::getFloat(response);
if (value <= 0) { if (value <= 0) {
return false; return false;
} }
@@ -2365,7 +2285,7 @@ protected:
return false; return false;
} }
const float value = CustomOpenTherm::getFloat(response); float value = CustomOpenTherm::getFloat(response);
if (value <= 0) { if (value <= 0) {
return false; return false;
} }
@@ -2429,7 +2349,7 @@ protected:
return false; return false;
} }
const float value = (float) CustomOpenTherm::getInt(response); float value = (float) CustomOpenTherm::getInt(response);
if (!isValidTemp(value, settings.opentherm.unitSystem, -40, 500)) { if (!isValidTemp(value, settings.opentherm.unitSystem, -40, 500)) {
return false; return false;
} }
@@ -2453,7 +2373,7 @@ protected:
return false; return false;
} }
const float value = (float) CustomOpenTherm::getInt(response); float value = (float) CustomOpenTherm::getInt(response);
if (value <= 0) { if (value <= 0) {
return false; return false;
} }
@@ -2554,7 +2474,7 @@ protected:
return false; return false;
} }
const float value = CustomOpenTherm::getFloat(response); float value = CustomOpenTherm::getFloat(response);
if (value < 0) { if (value < 0) {
return false; return false;
} }

855
src/PortalTask.h
View File

File diff suppressed because it is too large Load Diff

71
src/RegulatorTask.h
View File

@@ -1,5 +1,7 @@
#include <Equitherm.h>
#include <GyverPID.h> #include <GyverPID.h>
Equitherm etRegulator;
GyverPID pidRegulator(0, 0, 0); GyverPID pidRegulator(0, 0, 0);
@@ -37,7 +39,7 @@ protected:
this->indoorSensorsConnected = Sensors::existsConnectedSensorsByPurpose(Sensors::Purpose::INDOOR_TEMP); this->indoorSensorsConnected = Sensors::existsConnectedSensorsByPurpose(Sensors::Purpose::INDOOR_TEMP);
//this->outdoorSensorsConnected = Sensors::existsConnectedSensorsByPurpose(Sensors::Purpose::OUTDOOR_TEMP); //this->outdoorSensorsConnected = Sensors::existsConnectedSensorsByPurpose(Sensors::Purpose::OUTDOOR_TEMP);
if (settings.equitherm.enabled || settings.pid.enabled || settings.opentherm.options.nativeOTC) { if (settings.equitherm.enabled || settings.pid.enabled || settings.opentherm.options.nativeHeatingControl) {
vars.master.heating.indoorTempControl = true; vars.master.heating.indoorTempControl = true;
vars.master.heating.minTemp = THERMOSTAT_INDOOR_MIN_TEMP; vars.master.heating.minTemp = THERMOSTAT_INDOOR_MIN_TEMP;
vars.master.heating.maxTemp = THERMOSTAT_INDOOR_MAX_TEMP; vars.master.heating.maxTemp = THERMOSTAT_INDOOR_MAX_TEMP;
@@ -90,15 +92,15 @@ protected:
void hysteresis() { void hysteresis() {
bool useHyst = false; bool useHyst = false;
if (settings.heating.hysteresis.enabled && this->indoorSensorsConnected) { if (settings.heating.hysteresis > 0.01f && this->indoorSensorsConnected) {
useHyst = settings.equitherm.enabled || settings.pid.enabled || settings.opentherm.options.nativeOTC; useHyst = settings.equitherm.enabled || settings.pid.enabled || settings.opentherm.options.nativeHeatingControl;
} }
if (useHyst) { if (useHyst) {
if (!vars.master.heating.blocking && vars.master.heating.indoorTemp - settings.heating.target + 0.0001f >= settings.heating.hysteresis.value) { if (!vars.master.heating.blocking && vars.master.heating.indoorTemp - settings.heating.target + 0.0001f >= settings.heating.hysteresis) {
vars.master.heating.blocking = true; vars.master.heating.blocking = true;
} else if (vars.master.heating.blocking && vars.master.heating.indoorTemp - settings.heating.target - 0.0001f <= -(settings.heating.hysteresis.value)) { } else if (vars.master.heating.blocking && vars.master.heating.indoorTemp - settings.heating.target - 0.0001f <= -(settings.heating.hysteresis)) {
vars.master.heating.blocking = false; vars.master.heating.blocking = false;
} }
@@ -108,13 +110,13 @@ protected:
} }
inline float getHeatingMinSetpointTemp() { inline float getHeatingMinSetpointTemp() {
return settings.opentherm.options.nativeOTC return settings.opentherm.options.nativeHeatingControl
? vars.master.heating.minTemp ? vars.master.heating.minTemp
: settings.heating.minTemp; : settings.heating.minTemp;
} }
inline float getHeatingMaxSetpointTemp() { inline float getHeatingMaxSetpointTemp() {
return settings.opentherm.options.nativeOTC return settings.opentherm.options.nativeHeatingControl
? vars.master.heating.maxTemp ? vars.master.heating.maxTemp
: settings.heating.maxTemp; : settings.heating.maxTemp;
} }
@@ -135,7 +137,7 @@ protected:
if (vars.emergency.state) { if (vars.emergency.state) {
return settings.emergency.target; return settings.emergency.target;
} else if (settings.opentherm.options.nativeOTC) { } else if (settings.opentherm.options.nativeHeatingControl) {
return settings.heating.target; return settings.heating.target;
} else if (!settings.equitherm.enabled && !settings.pid.enabled) { } else if (!settings.equitherm.enabled && !settings.pid.enabled) {
@@ -144,32 +146,39 @@ protected:
// if use equitherm // if use equitherm
if (settings.equitherm.enabled) { if (settings.equitherm.enabled) {
float tempDelta = settings.heating.target - vars.master.heating.outdoorTemp; unsigned short minTemp = settings.heating.minTemp;
float maxPoint = settings.heating.target - ( unsigned short maxTemp = settings.heating.maxTemp;
settings.heating.maxTemp - settings.heating.target float targetTemp = settings.heating.target;
) / settings.equitherm.slope; float indoorTemp = vars.master.heating.indoorTemp;
float outdoorTemp = vars.master.heating.outdoorTemp;
float sf = (settings.heating.maxTemp - settings.heating.target) / pow( if (settings.system.unitSystem == UnitSystem::IMPERIAL) {
settings.heating.target - maxPoint, minTemp = f2c(minTemp);
1.0f / settings.equitherm.exponent maxTemp = f2c(maxTemp);
); targetTemp = f2c(targetTemp);
float etResult = settings.heating.target + settings.equitherm.shift + sf * ( indoorTemp = f2c(indoorTemp);
tempDelta >= 0 outdoorTemp = f2c(outdoorTemp);
? pow(tempDelta, 1.0f / settings.equitherm.exponent)
: -(pow(-(tempDelta), 1.0f / settings.equitherm.exponent))
);
// add diff
if (this->indoorSensorsConnected && !settings.pid.enabled && !settings.heating.turbo) {
etResult += constrain(
settings.heating.target - vars.master.heating.indoorTemp,
-3.0f,
3.0f
) * settings.equitherm.targetDiffFactor;
} }
// limit if (!this->indoorSensorsConnected || settings.pid.enabled) {
etResult = constrain(etResult, settings.heating.minTemp, settings.heating.maxTemp); etRegulator.Kt = 0.0f;
etRegulator.indoorTemp = 0.0f;
} else {
etRegulator.Kt = settings.heating.turbo ? 0.0f : settings.equitherm.t_factor;
etRegulator.indoorTemp = indoorTemp;
}
etRegulator.setLimits(minTemp, maxTemp);
etRegulator.Kn = settings.equitherm.n_factor;
etRegulator.Kk = settings.equitherm.k_factor;
etRegulator.targetTemp = targetTemp;
etRegulator.outdoorTemp = outdoorTemp;
float etResult = etRegulator.getResult();
if (settings.system.unitSystem == UnitSystem::IMPERIAL) {
etResult = c2f(etResult);
}
if (fabsf(prevEtResult - etResult) > 0.09f) { if (fabsf(prevEtResult - etResult) > 0.09f) {
prevEtResult = etResult; prevEtResult = etResult;

11
src/Sensors.h
View File

@@ -34,7 +34,6 @@ public:
OT_DHW_BURNER_HOURS = 24, OT_DHW_BURNER_HOURS = 24,
OT_HEATING_PUMP_HOURS = 25, OT_HEATING_PUMP_HOURS = 25,
OT_DHW_PUMP_HOURS = 26, OT_DHW_PUMP_HOURS = 26,
OT_COOLING_HOURS = 27,
NTC_10K_TEMP = 50, NTC_10K_TEMP = 50,
DALLAS_TEMP = 51, DALLAS_TEMP = 51,
@@ -150,7 +149,7 @@ public:
static int16_t getIdByName(const char* name) { static int16_t getIdByName(const char* name) {
if (settings == nullptr) { if (settings == nullptr) {
return -1; return 0;
} }
for (uint8_t id = 0; id <= getMaxSensorId(); id++) { for (uint8_t id = 0; id <= getMaxSensorId(); id++) {
@@ -164,7 +163,7 @@ public:
static int16_t getIdByObjectId(const char* objectId) { static int16_t getIdByObjectId(const char* objectId) {
if (settings == nullptr) { if (settings == nullptr) {
return -1; return 0;
} }
String refObjectId; String refObjectId;
@@ -330,12 +329,12 @@ public:
static float getMeanValueByPurpose(Purpose purpose, const ValueType valueType, bool onlyConnected = true) { static float getMeanValueByPurpose(Purpose purpose, const ValueType valueType, bool onlyConnected = true) {
if (settings == nullptr || results == nullptr) { if (settings == nullptr || results == nullptr) {
return 0.0f; return 0;
} }
uint8_t valueId = (uint8_t) valueType; uint8_t valueId = (uint8_t) valueType;
if (!isValidValueId(valueId)) { if (!isValidValueId(valueId)) {
return 0.0f; return 0;
} }
float value = 0.0f; float value = 0.0f;
@@ -364,7 +363,7 @@ public:
static bool existsConnectedSensorsByPurpose(Purpose purpose) { static bool existsConnectedSensorsByPurpose(Purpose purpose) {
if (settings == nullptr || results == nullptr) { if (settings == nullptr || results == nullptr) {
return false; return 0;
} }
for (uint8_t id = 0; id <= getMaxSensorId(); id++) { for (uint8_t id = 0; id <= getMaxSensorId(); id++) {

23
src/Settings.h
View File

@@ -32,9 +32,8 @@ struct Settings {
} serial; } serial;
struct { struct {
bool enabled = DEFAULT_TELNET_ENABLED; bool enabled = DEFAULT_WEBSERIAL_ENABLED;
unsigned short port = DEFAULT_TELNET_PORT; } webSerial;
} telnet;
struct { struct {
char server[49] = "pool.ntp.org"; char server[49] = "pool.ntp.org";
@@ -78,8 +77,7 @@ struct Settings {
bool autoFaultReset = false; bool autoFaultReset = false;
bool autoDiagReset = false; bool autoDiagReset = false;
bool setDateAndTime = false; bool setDateAndTime = false;
bool alwaysSendIndoorTemp = true; bool nativeHeatingControl = false;
bool nativeOTC = false;
bool immergasFix = false; bool immergasFix = false;
} options; } options;
} opentherm; } opentherm;
@@ -104,17 +102,12 @@ struct Settings {
bool enabled = true; bool enabled = true;
bool turbo = false; bool turbo = false;
float target = DEFAULT_HEATING_TARGET_TEMP; float target = DEFAULT_HEATING_TARGET_TEMP;
float hysteresis = 0.5f;
float turboFactor = 7.5f; float turboFactor = 7.5f;
uint8_t minTemp = DEFAULT_HEATING_MIN_TEMP; uint8_t minTemp = DEFAULT_HEATING_MIN_TEMP;
uint8_t maxTemp = DEFAULT_HEATING_MAX_TEMP; uint8_t maxTemp = DEFAULT_HEATING_MAX_TEMP;
uint8_t maxModulation = 100; uint8_t maxModulation = 100;
struct {
bool enabled = true;
float value = 0.5f;
HysteresisAction action = HysteresisAction::DISABLE_HEATING;
} hysteresis;
struct { struct {
uint8_t highTemp = 95; uint8_t highTemp = 95;
uint8_t lowTemp = 90; uint8_t lowTemp = 90;
@@ -160,10 +153,9 @@ struct Settings {
struct { struct {
bool enabled = false; bool enabled = false;
float slope = 0.7f; float n_factor = 0.7f;
float exponent = 1.3f; float k_factor = 3.0f;
float shift = 0.0f; float t_factor = 2.0f;
float targetDiffFactor = 2.0f;
} equitherm; } equitherm;
struct { struct {
@@ -389,7 +381,6 @@ struct Variables {
uint16_t dhwBurnerStarts = 0; uint16_t dhwBurnerStarts = 0;
uint16_t heatingPumpStarts = 0; uint16_t heatingPumpStarts = 0;
uint16_t dhwPumpStarts = 0; uint16_t dhwPumpStarts = 0;
uint16_t coolingHours = 0;
uint16_t burnerHours = 0; uint16_t burnerHours = 0;
uint16_t dhwBurnerHours = 0; uint16_t dhwBurnerHours = 0;
uint16_t heatingPumpHours = 0; uint16_t heatingPumpHours = 0;

15
src/defines.h
View File

@@ -42,12 +42,8 @@
#define DEFAULT_SERIAL_BAUD 115200 #define DEFAULT_SERIAL_BAUD 115200
#endif #endif
#ifndef DEFAULT_TELNET_ENABLED #ifndef DEFAULT_WEBSERIAL_ENABLED
#define DEFAULT_TELNET_ENABLED true #define DEFAULT_WEBSERIAL_ENABLED true
#endif
#ifndef DEFAULT_TELNET_PORT
#define DEFAULT_TELNET_PORT 23
#endif #endif
#ifndef USE_BLE #ifndef USE_BLE
@@ -75,7 +71,7 @@
#endif #endif
#ifndef DEFAULT_LOG_LEVEL #ifndef DEFAULT_LOG_LEVEL
#define DEFAULT_LOG_LEVEL TinyLogger::Level::VERBOSE #define DEFAULT_LOG_LEVEL TinyLoggerLevel::VERBOSE
#endif #endif
#ifndef DEFAULT_STATUS_LED_GPIO #ifndef DEFAULT_STATUS_LED_GPIO
@@ -163,9 +159,4 @@ enum class UnitSystem : uint8_t {
IMPERIAL = 1 IMPERIAL = 1
}; };
enum class HysteresisAction : uint8_t {
DISABLE_HEATING = 0,
SET_ZERO_TARGET = 1
};
char buffer[255]; char buffer[255];

31
src/main.cpp
View File

@@ -1,11 +1,8 @@
#define ARDUINOJSON_USE_DOUBLE 0
#define ARDUINOJSON_USE_LONG_LONG 0
#include <Arduino.h> #include <Arduino.h>
#include <ArduinoJson.h> #include <ArduinoJson.h>
#include <FileData.h> #include <FileData.h>
#include <LittleFS.h> #include <LittleFS.h>
#include <ESPTelnetStream.h> #include <MycilaWebSerial.h>
#include "defines.h" #include "defines.h"
#include "strings.h" #include "strings.h"
@@ -37,7 +34,7 @@
using namespace NetworkUtils; using namespace NetworkUtils;
// Vars // Vars
ESPTelnetStream* telnetStream = nullptr; WebSerial* webSerial = nullptr;
NetworkMgr* network = nullptr; NetworkMgr* network = nullptr;
Sensors::Result sensorsResults[SENSORS_AMOUNT]; Sensors::Result sensorsResults[SENSORS_AMOUNT];
@@ -61,7 +58,7 @@ void setup() {
Sensors::results = sensorsResults; Sensors::results = sensorsResults;
LittleFS.begin(); LittleFS.begin();
Log.setLevel(TinyLogger::Level::VERBOSE); Log.setLevel(TinyLoggerLevel::VERBOSE);
Log.setServiceTemplate("\033[1m[%s]\033[22m"); Log.setServiceTemplate("\033[1m[%s]\033[22m");
Log.setLevelTemplate("\033[1m[%s]\033[22m"); Log.setLevelTemplate("\033[1m[%s]\033[22m");
Log.setMsgPrefix("\033[m "); Log.setMsgPrefix("\033[m ");
@@ -79,7 +76,7 @@ void setup() {
#if ARDUINO_USB_MODE #if ARDUINO_USB_MODE
Serial.setTxBufferSize(512); Serial.setTxBufferSize(512);
#endif #endif
Log.addStream(&Serial); Log.addHandler(&Serial);
Log.print("\n\n\r"); Log.print("\n\n\r");
// //
@@ -163,24 +160,24 @@ void setup() {
// Logs settings // Logs settings
if (!settings.system.serial.enabled) { if (!settings.system.serial.enabled) {
Serial.end(); Serial.end();
Log.clearStreams(); Log.clearHandlers();
} else if (settings.system.serial.baudrate != 115200) { } else if (settings.system.serial.baudrate != 115200) {
Serial.end(); Serial.end();
Log.clearStreams(); Log.clearHandlers();
Serial.begin(settings.system.serial.baudrate); Serial.begin(settings.system.serial.baudrate);
Log.addStream(&Serial); Log.addHandler(&Serial);
} }
if (settings.system.telnet.enabled) { if (settings.system.webSerial.enabled) {
telnetStream = new ESPTelnetStream; webSerial = new WebSerial();
telnetStream->setKeepAliveInterval(500); webSerial->setBuffer(100);
Log.addStream(telnetStream); Log.addHandler(webSerial);
} }
if (settings.system.logLevel >= TinyLogger::Level::SILENT && settings.system.logLevel <= TinyLogger::Level::VERBOSE) { if (settings.system.logLevel >= TinyLoggerLevel::SILENT && settings.system.logLevel <= TinyLoggerLevel::VERBOSE) {
Log.setLevel(static_cast<TinyLogger::Level>(settings.system.logLevel)); Log.setLevel(static_cast<TinyLoggerLevel>(settings.system.logLevel));
} }
// //
@@ -216,7 +213,7 @@ void setup() {
tRegulator = new RegulatorTask(true, 10000); tRegulator = new RegulatorTask(true, 10000);
Scheduler.start(tRegulator); Scheduler.start(tRegulator);
tPortal = new PortalTask(true, 0); tPortal = new PortalTask(true, 10);
Scheduler.start(tPortal); Scheduler.start(tPortal);
tMain = new MainTask(true, 100); tMain = new MainTask(true, 100);

14
src/strings.h
View File

@@ -34,7 +34,6 @@ const char L_CASCADE_OUTPUT[] PROGMEM = "CASCADE.OUTPUT";
const char L_EXTPUMP[] PROGMEM = "EXTPUMP"; const char L_EXTPUMP[] PROGMEM = "EXTPUMP";
const char S_ACTION[] PROGMEM = "action";
const char S_ACTIONS[] PROGMEM = "actions"; const char S_ACTIONS[] PROGMEM = "actions";
const char S_ACTIVE[] PROGMEM = "active"; const char S_ACTIVE[] PROGMEM = "active";
const char S_ADDRESS[] PROGMEM = "address"; const char S_ADDRESS[] PROGMEM = "address";
@@ -82,7 +81,6 @@ const char S_ENABLED[] PROGMEM = "enabled";
const char S_ENV[] PROGMEM = "env"; const char S_ENV[] PROGMEM = "env";
const char S_EPC[] PROGMEM = "epc"; const char S_EPC[] PROGMEM = "epc";
const char S_EQUITHERM[] PROGMEM = "equitherm"; const char S_EQUITHERM[] PROGMEM = "equitherm";
const char S_EXPONENT[] PROGMEM = "exponent";
const char S_EXTERNAL_PUMP[] PROGMEM = "externalPump"; const char S_EXTERNAL_PUMP[] PROGMEM = "externalPump";
const char S_FACTOR[] PROGMEM = "factor"; const char S_FACTOR[] PROGMEM = "factor";
const char S_FAULT[] PROGMEM = "fault"; const char S_FAULT[] PROGMEM = "fault";
@@ -110,7 +108,6 @@ const char S_HYSTERESIS[] PROGMEM = "hysteresis";
const char S_ID[] PROGMEM = "id"; const char S_ID[] PROGMEM = "id";
const char S_IGNORE_DIAG_STATE[] PROGMEM = "ignoreDiagState"; const char S_IGNORE_DIAG_STATE[] PROGMEM = "ignoreDiagState";
const char S_IMMERGAS_FIX[] PROGMEM = "immergasFix"; const char S_IMMERGAS_FIX[] PROGMEM = "immergasFix";
const char S_ALWAYS_SEND_INDOOR_TEMP[] PROGMEM = "alwaysSendIndoorTemp";
const char S_INDOOR_TEMP[] PROGMEM = "indoorTemp"; const char S_INDOOR_TEMP[] PROGMEM = "indoorTemp";
const char S_INDOOR_TEMP_CONTROL[] PROGMEM = "indoorTempControl"; const char S_INDOOR_TEMP_CONTROL[] PROGMEM = "indoorTempControl";
const char S_IN_GPIO[] PROGMEM = "inGpio"; const char S_IN_GPIO[] PROGMEM = "inGpio";
@@ -120,6 +117,7 @@ const char S_INVERT_STATE[] PROGMEM = "invertState";
const char S_IP[] PROGMEM = "ip"; const char S_IP[] PROGMEM = "ip";
const char S_I_FACTOR[] PROGMEM = "i_factor"; const char S_I_FACTOR[] PROGMEM = "i_factor";
const char S_I_MULTIPLIER[] PROGMEM = "i_multiplier"; const char S_I_MULTIPLIER[] PROGMEM = "i_multiplier";
const char S_K_FACTOR[] PROGMEM = "k_factor";
const char S_LOGIN[] PROGMEM = "login"; const char S_LOGIN[] PROGMEM = "login";
const char S_LOG_LEVEL[] PROGMEM = "logLevel"; const char S_LOG_LEVEL[] PROGMEM = "logLevel";
const char S_LOW_TEMP[] PROGMEM = "lowTemp"; const char S_LOW_TEMP[] PROGMEM = "lowTemp";
@@ -142,9 +140,10 @@ const char S_MODEL[] PROGMEM = "model";
const char S_MODULATION[] PROGMEM = "modulation"; const char S_MODULATION[] PROGMEM = "modulation";
const char S_MQTT[] PROGMEM = "mqtt"; const char S_MQTT[] PROGMEM = "mqtt";
const char S_NAME[] PROGMEM = "name"; const char S_NAME[] PROGMEM = "name";
const char S_NATIVE_OTC[] PROGMEM = "nativeOTC"; const char S_NATIVE_HEATING_CONTROL[] PROGMEM = "nativeHeatingControl";
const char S_NETWORK[] PROGMEM = "network"; const char S_NETWORK[] PROGMEM = "network";
const char S_NTP[] PROGMEM = "ntp"; const char S_NTP[] PROGMEM = "ntp";
const char S_N_FACTOR[] PROGMEM = "n_factor";
const char S_OFFSET[] PROGMEM = "offset"; const char S_OFFSET[] PROGMEM = "offset";
const char S_ON_ENABLED_HEATING[] PROGMEM = "onEnabledHeating"; const char S_ON_ENABLED_HEATING[] PROGMEM = "onEnabledHeating";
const char S_ON_FAULT[] PROGMEM = "onFault"; const char S_ON_FAULT[] PROGMEM = "onFault";
@@ -165,6 +164,7 @@ const char S_POWER[] PROGMEM = "power";
const char S_PREFIX[] PROGMEM = "prefix"; const char S_PREFIX[] PROGMEM = "prefix";
const char S_PROTOCOL_VERSION[] PROGMEM = "protocolVersion"; const char S_PROTOCOL_VERSION[] PROGMEM = "protocolVersion";
const char S_PURPOSE[] PROGMEM = "purpose"; const char S_PURPOSE[] PROGMEM = "purpose";
const char S_PSRAM[] PROGMEM = "psram";
const char S_P_FACTOR[] PROGMEM = "p_factor"; const char S_P_FACTOR[] PROGMEM = "p_factor";
const char S_P_MULTIPLIER[] PROGMEM = "p_multiplier"; const char S_P_MULTIPLIER[] PROGMEM = "p_multiplier";
const char S_REAL_SIZE[] PROGMEM = "realSize"; const char S_REAL_SIZE[] PROGMEM = "realSize";
@@ -183,11 +183,9 @@ const char S_SERIAL[] PROGMEM = "serial";
const char S_SERVER[] PROGMEM = "server"; const char S_SERVER[] PROGMEM = "server";
const char S_SETTINGS[] PROGMEM = "settings"; const char S_SETTINGS[] PROGMEM = "settings";
const char S_SET_DATE_AND_TIME[] PROGMEM = "setDateAndTime"; const char S_SET_DATE_AND_TIME[] PROGMEM = "setDateAndTime";
const char S_SHIFT[] PROGMEM = "shift";
const char S_SIGNAL_QUALITY[] PROGMEM = "signalQuality"; const char S_SIGNAL_QUALITY[] PROGMEM = "signalQuality";
const char S_SIZE[] PROGMEM = "size"; const char S_SIZE[] PROGMEM = "size";
const char S_SLAVE[] PROGMEM = "slave"; const char S_SLAVE[] PROGMEM = "slave";
const char S_SLOPE[] PROGMEM = "slope";
const char S_SSID[] PROGMEM = "ssid"; const char S_SSID[] PROGMEM = "ssid";
const char S_STA[] PROGMEM = "sta"; const char S_STA[] PROGMEM = "sta";
const char S_STATE[] PROGMEM = "state"; const char S_STATE[] PROGMEM = "state";
@@ -199,9 +197,7 @@ const char S_SUBNET[] PROGMEM = "subnet";
const char S_SUMMER_WINTER_MODE[] PROGMEM = "summerWinterMode"; const char S_SUMMER_WINTER_MODE[] PROGMEM = "summerWinterMode";
const char S_SYSTEM[] PROGMEM = "system"; const char S_SYSTEM[] PROGMEM = "system";
const char S_TARGET[] PROGMEM = "target"; const char S_TARGET[] PROGMEM = "target";
const char S_TARGET_DIFF_FACTOR[] PROGMEM = "targetDiffFactor";
const char S_TARGET_TEMP[] PROGMEM = "targetTemp"; const char S_TARGET_TEMP[] PROGMEM = "targetTemp";
const char S_TELNET[] PROGMEM = "telnet";
const char S_TEMPERATURE[] PROGMEM = "temperature"; const char S_TEMPERATURE[] PROGMEM = "temperature";
const char S_THRESHOLD_HIGH[] PROGMEM = "thresholdHigh"; const char S_THRESHOLD_HIGH[] PROGMEM = "thresholdHigh";
const char S_THRESHOLD_LOW[] PROGMEM = "thresholdLow"; const char S_THRESHOLD_LOW[] PROGMEM = "thresholdLow";
@@ -212,6 +208,7 @@ const char S_TRESHOLD_TIME[] PROGMEM = "tresholdTime";
const char S_TURBO[] PROGMEM = "turbo"; const char S_TURBO[] PROGMEM = "turbo";
const char S_TURBO_FACTOR[] PROGMEM = "turboFactor"; const char S_TURBO_FACTOR[] PROGMEM = "turboFactor";
const char S_TYPE[] PROGMEM = "type"; const char S_TYPE[] PROGMEM = "type";
const char S_T_FACTOR[] PROGMEM = "t_factor";
const char S_UNIT_SYSTEM[] PROGMEM = "unitSystem"; const char S_UNIT_SYSTEM[] PROGMEM = "unitSystem";
const char S_UPTIME[] PROGMEM = "uptime"; const char S_UPTIME[] PROGMEM = "uptime";
const char S_USE[] PROGMEM = "use"; const char S_USE[] PROGMEM = "use";
@@ -219,3 +216,4 @@ const char S_USE_DHCP[] PROGMEM = "useDhcp";
const char S_USER[] PROGMEM = "user"; const char S_USER[] PROGMEM = "user";
const char S_VALUE[] PROGMEM = "value"; const char S_VALUE[] PROGMEM = "value";
const char S_VERSION[] PROGMEM = "version"; const char S_VERSION[] PROGMEM = "version";
const char S_WEBSERIAL[] PROGMEM = "webSerial";

135
src/utils.h
View File

@@ -425,9 +425,8 @@ void settingsToJson(const Settings& src, JsonVariant dst, bool safe = false) {
serial[FPSTR(S_ENABLED)] = src.system.serial.enabled; serial[FPSTR(S_ENABLED)] = src.system.serial.enabled;
serial[FPSTR(S_BAUDRATE)] = src.system.serial.baudrate; serial[FPSTR(S_BAUDRATE)] = src.system.serial.baudrate;
auto telnet = system[FPSTR(S_TELNET)].to<JsonObject>(); auto webSerial = system[FPSTR(S_WEBSERIAL)].to<JsonObject>();
telnet[FPSTR(S_ENABLED)] = src.system.telnet.enabled; webSerial[FPSTR(S_ENABLED)] = src.system.webSerial.enabled;
telnet[FPSTR(S_PORT)] = src.system.telnet.port;
auto ntp = system[FPSTR(S_NTP)].to<JsonObject>(); auto ntp = system[FPSTR(S_NTP)].to<JsonObject>();
ntp[FPSTR(S_SERVER)] = src.system.ntp.server; ntp[FPSTR(S_SERVER)] = src.system.ntp.server;
@@ -468,10 +467,8 @@ void settingsToJson(const Settings& src, JsonVariant dst, bool safe = false) {
otOptions[FPSTR(S_AUTO_FAULT_RESET)] = src.opentherm.options.autoFaultReset; otOptions[FPSTR(S_AUTO_FAULT_RESET)] = src.opentherm.options.autoFaultReset;
otOptions[FPSTR(S_AUTO_DIAG_RESET)] = src.opentherm.options.autoDiagReset; otOptions[FPSTR(S_AUTO_DIAG_RESET)] = src.opentherm.options.autoDiagReset;
otOptions[FPSTR(S_SET_DATE_AND_TIME)] = src.opentherm.options.setDateAndTime; otOptions[FPSTR(S_SET_DATE_AND_TIME)] = src.opentherm.options.setDateAndTime;
otOptions[FPSTR(S_ALWAYS_SEND_INDOOR_TEMP)] = src.opentherm.options.alwaysSendIndoorTemp; otOptions[FPSTR(S_NATIVE_HEATING_CONTROL)] = src.opentherm.options.nativeHeatingControl;
otOptions[FPSTR(S_NATIVE_OTC)] = src.opentherm.options.nativeOTC;
otOptions[FPSTR(S_IMMERGAS_FIX)] = src.opentherm.options.immergasFix; otOptions[FPSTR(S_IMMERGAS_FIX)] = src.opentherm.options.immergasFix;
auto mqtt = dst[FPSTR(S_MQTT)].to<JsonObject>(); auto mqtt = dst[FPSTR(S_MQTT)].to<JsonObject>();
mqtt[FPSTR(S_ENABLED)] = src.mqtt.enabled; mqtt[FPSTR(S_ENABLED)] = src.mqtt.enabled;
@@ -492,9 +489,7 @@ void settingsToJson(const Settings& src, JsonVariant dst, bool safe = false) {
heating[FPSTR(S_ENABLED)] = src.heating.enabled; heating[FPSTR(S_ENABLED)] = src.heating.enabled;
heating[FPSTR(S_TURBO)] = src.heating.turbo; heating[FPSTR(S_TURBO)] = src.heating.turbo;
heating[FPSTR(S_TARGET)] = roundf(src.heating.target, 2); heating[FPSTR(S_TARGET)] = roundf(src.heating.target, 2);
heating[FPSTR(S_HYSTERESIS)][FPSTR(S_ENABLED)] = src.heating.hysteresis.enabled; heating[FPSTR(S_HYSTERESIS)] = roundf(src.heating.hysteresis, 3);
heating[FPSTR(S_HYSTERESIS)][FPSTR(S_VALUE)] = roundf(src.heating.hysteresis.value, 3);
heating[FPSTR(S_HYSTERESIS)][FPSTR(S_ACTION)] = static_cast<uint8_t>(src.heating.hysteresis.action);
heating[FPSTR(S_TURBO_FACTOR)] = roundf(src.heating.turboFactor, 3); heating[FPSTR(S_TURBO_FACTOR)] = roundf(src.heating.turboFactor, 3);
heating[FPSTR(S_MIN_TEMP)] = src.heating.minTemp; heating[FPSTR(S_MIN_TEMP)] = src.heating.minTemp;
heating[FPSTR(S_MAX_TEMP)] = src.heating.maxTemp; heating[FPSTR(S_MAX_TEMP)] = src.heating.maxTemp;
@@ -521,10 +516,9 @@ void settingsToJson(const Settings& src, JsonVariant dst, bool safe = false) {
auto equitherm = dst[FPSTR(S_EQUITHERM)].to<JsonObject>(); auto equitherm = dst[FPSTR(S_EQUITHERM)].to<JsonObject>();
equitherm[FPSTR(S_ENABLED)] = src.equitherm.enabled; equitherm[FPSTR(S_ENABLED)] = src.equitherm.enabled;
equitherm[FPSTR(S_SLOPE)] = roundf(src.equitherm.slope, 3); equitherm[FPSTR(S_N_FACTOR)] = roundf(src.equitherm.n_factor, 3);
equitherm[FPSTR(S_EXPONENT)] = roundf(src.equitherm.exponent, 3); equitherm[FPSTR(S_K_FACTOR)] = roundf(src.equitherm.k_factor, 3);
equitherm[FPSTR(S_SHIFT)] = roundf(src.equitherm.shift, 2); equitherm[FPSTR(S_T_FACTOR)] = roundf(src.equitherm.t_factor, 3);
equitherm[FPSTR(S_TARGET_DIFF_FACTOR)] = roundf(src.equitherm.targetDiffFactor, 3);
auto pid = dst[FPSTR(S_PID)].to<JsonObject>(); auto pid = dst[FPSTR(S_PID)].to<JsonObject>();
pid[FPSTR(S_ENABLED)] = src.pid.enabled; pid[FPSTR(S_ENABLED)] = src.pid.enabled;
@@ -581,7 +575,7 @@ bool jsonToSettings(const JsonVariantConst src, Settings& dst, bool safe = false
if (!src[FPSTR(S_SYSTEM)][FPSTR(S_LOG_LEVEL)].isNull()) { if (!src[FPSTR(S_SYSTEM)][FPSTR(S_LOG_LEVEL)].isNull()) {
uint8_t value = src[FPSTR(S_SYSTEM)][FPSTR(S_LOG_LEVEL)].as<uint8_t>(); uint8_t value = src[FPSTR(S_SYSTEM)][FPSTR(S_LOG_LEVEL)].as<uint8_t>();
if (value != dst.system.logLevel && value >= TinyLogger::Level::SILENT && value <= TinyLogger::Level::VERBOSE) { if (value != dst.system.logLevel && value >= TinyLoggerLevel::SILENT && value <= TinyLoggerLevel::VERBOSE) {
dst.system.logLevel = value; dst.system.logLevel = value;
changed = true; changed = true;
} }
@@ -607,20 +601,11 @@ bool jsonToSettings(const JsonVariantConst src, Settings& dst, bool safe = false
} }
} }
if (src[FPSTR(S_SYSTEM)][FPSTR(S_TELNET)][FPSTR(S_ENABLED)].is<bool>()) { if (src[FPSTR(S_SYSTEM)][FPSTR(S_WEBSERIAL)][FPSTR(S_ENABLED)].is<bool>()) {
bool value = src[FPSTR(S_SYSTEM)][FPSTR(S_TELNET)][FPSTR(S_ENABLED)].as<bool>(); bool value = src[FPSTR(S_SYSTEM)][FPSTR(S_WEBSERIAL)][FPSTR(S_ENABLED)].as<bool>();
if (value != dst.system.telnet.enabled) { if (value != dst.system.webSerial.enabled) {
dst.system.telnet.enabled = value; dst.system.webSerial.enabled = value;
changed = true;
}
}
if (!src[FPSTR(S_SYSTEM)][FPSTR(S_TELNET)][FPSTR(S_PORT)].isNull()) {
unsigned short value = src[FPSTR(S_SYSTEM)][FPSTR(S_TELNET)][FPSTR(S_PORT)].as<unsigned short>();
if (value > 0 && value <= 65535 && value != dst.system.telnet.port) {
dst.system.telnet.port = value;
changed = true; changed = true;
} }
} }
@@ -1005,20 +990,11 @@ bool jsonToSettings(const JsonVariantConst src, Settings& dst, bool safe = false
} }
} }
if (src[FPSTR(S_OPENTHERM)][FPSTR(S_OPTIONS)][FPSTR(S_ALWAYS_SEND_INDOOR_TEMP)].is<bool>()) { if (src[FPSTR(S_OPENTHERM)][FPSTR(S_OPTIONS)][FPSTR(S_NATIVE_HEATING_CONTROL)].is<bool>()) {
bool value = src[FPSTR(S_OPENTHERM)][FPSTR(S_OPTIONS)][FPSTR(S_ALWAYS_SEND_INDOOR_TEMP)].as<bool>(); bool value = src[FPSTR(S_OPENTHERM)][FPSTR(S_OPTIONS)][FPSTR(S_NATIVE_HEATING_CONTROL)].as<bool>();
if (value != dst.opentherm.options.alwaysSendIndoorTemp) { if (value != dst.opentherm.options.nativeHeatingControl) {
dst.opentherm.options.alwaysSendIndoorTemp = value; dst.opentherm.options.nativeHeatingControl = value;
changed = true;
}
}
if (src[FPSTR(S_OPENTHERM)][FPSTR(S_OPTIONS)][FPSTR(S_NATIVE_OTC)].is<bool>()) {
bool value = src[FPSTR(S_OPENTHERM)][FPSTR(S_OPTIONS)][FPSTR(S_NATIVE_OTC)].as<bool>();
if (value != dst.opentherm.options.nativeOTC) {
dst.opentherm.options.nativeOTC = value;
if (value) { if (value) {
dst.equitherm.enabled = false; dst.equitherm.enabled = false;
@@ -1038,6 +1014,7 @@ bool jsonToSettings(const JsonVariantConst src, Settings& dst, bool safe = false
} }
} }
// mqtt // mqtt
if (src[FPSTR(S_MQTT)][FPSTR(S_ENABLED)].is<bool>()) { if (src[FPSTR(S_MQTT)][FPSTR(S_ENABLED)].is<bool>()) {
bool value = src[FPSTR(S_MQTT)][FPSTR(S_ENABLED)].as<bool>(); bool value = src[FPSTR(S_MQTT)][FPSTR(S_ENABLED)].as<bool>();
@@ -1128,7 +1105,7 @@ bool jsonToSettings(const JsonVariantConst src, Settings& dst, bool safe = false
if (src[FPSTR(S_EQUITHERM)][FPSTR(S_ENABLED)].is<bool>()) { if (src[FPSTR(S_EQUITHERM)][FPSTR(S_ENABLED)].is<bool>()) {
bool value = src[FPSTR(S_EQUITHERM)][FPSTR(S_ENABLED)].as<bool>(); bool value = src[FPSTR(S_EQUITHERM)][FPSTR(S_ENABLED)].as<bool>();
if (!dst.opentherm.options.nativeOTC) { if (!dst.opentherm.options.nativeHeatingControl) {
if (value != dst.equitherm.enabled) { if (value != dst.equitherm.enabled) {
dst.equitherm.enabled = value; dst.equitherm.enabled = value;
changed = true; changed = true;
@@ -1140,38 +1117,29 @@ bool jsonToSettings(const JsonVariantConst src, Settings& dst, bool safe = false
} }
} }
if (!src[FPSTR(S_EQUITHERM)][FPSTR(S_SLOPE)].isNull()) { if (!src[FPSTR(S_EQUITHERM)][FPSTR(S_N_FACTOR)].isNull()) {
float value = src[FPSTR(S_EQUITHERM)][FPSTR(S_SLOPE)].as<float>(); float value = src[FPSTR(S_EQUITHERM)][FPSTR(S_N_FACTOR)].as<float>();
if (value > 0.0f && value <= 10.0f && fabsf(value - dst.equitherm.slope) > 0.0001f) { if (value > 0 && value <= 10 && fabsf(value - dst.equitherm.n_factor) > 0.0001f) {
dst.equitherm.slope = roundf(value, 3); dst.equitherm.n_factor = roundf(value, 3);
changed = true; changed = true;
} }
} }
if (!src[FPSTR(S_EQUITHERM)][FPSTR(S_EXPONENT)].isNull()) { if (!src[FPSTR(S_EQUITHERM)][FPSTR(S_K_FACTOR)].isNull()) {
float value = src[FPSTR(S_EQUITHERM)][FPSTR(S_EXPONENT)].as<float>(); float value = src[FPSTR(S_EQUITHERM)][FPSTR(S_K_FACTOR)].as<float>();
if (value > 0.0f && value <= 2.0f && fabsf(value - dst.equitherm.exponent) > 0.0001f) { if (value >= 0 && value <= 10 && fabsf(value - dst.equitherm.k_factor) > 0.0001f) {
dst.equitherm.exponent = roundf(value, 3); dst.equitherm.k_factor = roundf(value, 3);
changed = true; changed = true;
} }
} }
if (!src[FPSTR(S_EQUITHERM)][FPSTR(S_SHIFT)].isNull()) { if (!src[FPSTR(S_EQUITHERM)][FPSTR(S_T_FACTOR)].isNull()) {
float value = src[FPSTR(S_EQUITHERM)][FPSTR(S_SHIFT)].as<float>(); float value = src[FPSTR(S_EQUITHERM)][FPSTR(S_T_FACTOR)].as<float>();
if (value >= -15.0f && value <= 15.0f && fabsf(value - dst.equitherm.shift) > 0.0001f) { if (value >= 0 && value <= 10 && fabsf(value - dst.equitherm.t_factor) > 0.0001f) {
dst.equitherm.shift = roundf(value, 2); dst.equitherm.t_factor = roundf(value, 3);
changed = true;
}
}
if (!src[FPSTR(S_EQUITHERM)][FPSTR(S_TARGET_DIFF_FACTOR)].isNull()) {
float value = src[FPSTR(S_EQUITHERM)][FPSTR(S_TARGET_DIFF_FACTOR)].as<float>();
if (value >= 0.0f && value <= 10.0f && fabsf(value - dst.equitherm.targetDiffFactor) > 0.0001f) {
dst.equitherm.targetDiffFactor = roundf(value, 3);
changed = true; changed = true;
} }
} }
@@ -1181,7 +1149,7 @@ bool jsonToSettings(const JsonVariantConst src, Settings& dst, bool safe = false
if (src[FPSTR(S_PID)][FPSTR(S_ENABLED)].is<bool>()) { if (src[FPSTR(S_PID)][FPSTR(S_ENABLED)].is<bool>()) {
bool value = src[FPSTR(S_PID)][FPSTR(S_ENABLED)].as<bool>(); bool value = src[FPSTR(S_PID)][FPSTR(S_ENABLED)].as<bool>();
if (!dst.opentherm.options.nativeOTC) { if (!dst.opentherm.options.nativeHeatingControl) {
if (value != dst.pid.enabled) { if (value != dst.pid.enabled) {
dst.pid.enabled = value; dst.pid.enabled = value;
changed = true; changed = true;
@@ -1326,41 +1294,15 @@ bool jsonToSettings(const JsonVariantConst src, Settings& dst, bool safe = false
} }
} }
if (src[FPSTR(S_HEATING)][FPSTR(S_HYSTERESIS)][FPSTR(S_ENABLED)].is<bool>()) { if (!src[FPSTR(S_HEATING)][FPSTR(S_HYSTERESIS)].isNull()) {
bool value = src[FPSTR(S_HEATING)][FPSTR(S_HYSTERESIS)][FPSTR(S_ENABLED)].as<bool>(); float value = src[FPSTR(S_HEATING)][FPSTR(S_HYSTERESIS)].as<float>();
if (value != dst.heating.hysteresis.enabled) { if (value >= 0.0f && value <= 15.0f && fabsf(value - dst.heating.hysteresis) > 0.0001f) {
dst.heating.hysteresis.enabled = value; dst.heating.hysteresis = roundf(value, 2);
changed = true; changed = true;
} }
} }
if (!src[FPSTR(S_HEATING)][FPSTR(S_HYSTERESIS)][FPSTR(S_VALUE)].isNull()) {
float value = src[FPSTR(S_HEATING)][FPSTR(S_HYSTERESIS)][FPSTR(S_VALUE)].as<float>();
if (value >= 0.0f && value <= 15.0f && fabsf(value - dst.heating.hysteresis.value) > 0.0001f) {
dst.heating.hysteresis.value = roundf(value, 2);
changed = true;
}
}
if (!src[FPSTR(S_HEATING)][FPSTR(S_HYSTERESIS)][FPSTR(S_ACTION)].isNull()) {
uint8_t value = src[FPSTR(S_HEATING)][FPSTR(S_HYSTERESIS)][FPSTR(S_ACTION)].as<uint8_t>();
switch (value) {
case static_cast<uint8_t>(HysteresisAction::DISABLE_HEATING):
case static_cast<uint8_t>(HysteresisAction::SET_ZERO_TARGET):
if (static_cast<uint8_t>(dst.heating.hysteresis.action) != value) {
dst.heating.hysteresis.action = static_cast<HysteresisAction>(value);
changed = true;
}
break;
default:
break;
}
}
if (!src[FPSTR(S_HEATING)][FPSTR(S_TURBO_FACTOR)].isNull()) { if (!src[FPSTR(S_HEATING)][FPSTR(S_TURBO_FACTOR)].isNull()) {
float value = src[FPSTR(S_HEATING)][FPSTR(S_TURBO_FACTOR)].as<float>(); float value = src[FPSTR(S_HEATING)][FPSTR(S_TURBO_FACTOR)].as<float>();
@@ -1714,7 +1656,7 @@ bool jsonToSettings(const JsonVariantConst src, Settings& dst, bool safe = false
// force check emergency target // force check emergency target
{ {
float value = !src[FPSTR(S_EMERGENCY)][FPSTR(S_TARGET)].isNull() ? src[FPSTR(S_EMERGENCY)][FPSTR(S_TARGET)].as<float>() : dst.emergency.target; float value = !src[FPSTR(S_EMERGENCY)][FPSTR(S_TARGET)].isNull() ? src[FPSTR(S_EMERGENCY)][FPSTR(S_TARGET)].as<float>() : dst.emergency.target;
bool noRegulators = !dst.opentherm.options.nativeOTC; bool noRegulators = !dst.opentherm.options.nativeHeatingControl;
bool valid = isValidTemp( bool valid = isValidTemp(
value, value,
dst.system.unitSystem, dst.system.unitSystem,
@@ -1739,7 +1681,7 @@ bool jsonToSettings(const JsonVariantConst src, Settings& dst, bool safe = false
// force check heating target // force check heating target
{ {
bool indoorTempControl = dst.equitherm.enabled || dst.pid.enabled || dst.opentherm.options.nativeOTC; bool indoorTempControl = dst.equitherm.enabled || dst.pid.enabled || dst.opentherm.options.nativeHeatingControl;
float minTemp = indoorTempControl ? THERMOSTAT_INDOOR_MIN_TEMP : dst.heating.minTemp; float minTemp = indoorTempControl ? THERMOSTAT_INDOOR_MIN_TEMP : dst.heating.minTemp;
float maxTemp = indoorTempControl ? THERMOSTAT_INDOOR_MAX_TEMP : dst.heating.maxTemp; float maxTemp = indoorTempControl ? THERMOSTAT_INDOOR_MAX_TEMP : dst.heating.maxTemp;
@@ -1932,7 +1874,6 @@ bool jsonToSensorSettings(const uint8_t sensorId, const JsonVariantConst src, Se
case static_cast<uint8_t>(Sensors::Type::OT_DHW_BURNER_HOURS): case static_cast<uint8_t>(Sensors::Type::OT_DHW_BURNER_HOURS):
case static_cast<uint8_t>(Sensors::Type::OT_HEATING_PUMP_HOURS): case static_cast<uint8_t>(Sensors::Type::OT_HEATING_PUMP_HOURS):
case static_cast<uint8_t>(Sensors::Type::OT_DHW_PUMP_HOURS): case static_cast<uint8_t>(Sensors::Type::OT_DHW_PUMP_HOURS):
case static_cast<uint8_t>(Sensors::Type::OT_COOLING_HOURS):
case static_cast<uint8_t>(Sensors::Type::NTC_10K_TEMP): case static_cast<uint8_t>(Sensors::Type::NTC_10K_TEMP):
case static_cast<uint8_t>(Sensors::Type::DALLAS_TEMP): case static_cast<uint8_t>(Sensors::Type::DALLAS_TEMP):
@@ -2132,7 +2073,7 @@ void varsToJson(const Variables& src, JsonVariant dst) {
slave[FPSTR(S_FLAGS)] = src.slave.flags; slave[FPSTR(S_FLAGS)] = src.slave.flags;
slave[FPSTR(S_TYPE)] = src.slave.type; slave[FPSTR(S_TYPE)] = src.slave.type;
slave[FPSTR(S_APP_VERSION)] = src.slave.appVersion; slave[FPSTR(S_APP_VERSION)] = src.slave.appVersion;
slave[FPSTR(S_PROTOCOL_VERSION)] = src.slave.protocolVersion; slave[FPSTR(S_PROTOCOL_VERSION)] = src.slave.appVersion;
slave[FPSTR(S_CONNECTED)] = src.slave.connected; slave[FPSTR(S_CONNECTED)] = src.slave.connected;
slave[FPSTR(S_FLAME)] = src.slave.flame; slave[FPSTR(S_FLAME)] = src.slave.flame;

54
src_data/locales/cn.json
View File

@@ -243,7 +243,6 @@
"otDhwBurnerHours": "OpenTherm, number of burner operating hours (DHW)", "otDhwBurnerHours": "OpenTherm, number of burner operating hours (DHW)",
"otHeatingPumpHours": "OpenTherm, number of pump operating hours (heating)", "otHeatingPumpHours": "OpenTherm, number of pump operating hours (heating)",
"otDhwPumpHours": "OpenTherm, number of pump operating hours (DHW)", "otDhwPumpHours": "OpenTherm, number of pump operating hours (DHW)",
"otCoolingHours": "OpenTherm, number of cooling hours",
"ntcTemp": "NTC 传感器", "ntcTemp": "NTC 传感器",
"dallasTemp": "DALLAS 传感器", "dallasTemp": "DALLAS 传感器",
@@ -342,12 +341,8 @@
"enable": "启用串口", "enable": "启用串口",
"baud": "串口波特率" "baud": "串口波特率"
}, },
"telnet": { "webSerial": {
"enable": "启用 Telnet", "enable": "启用 WebSerial"
"port": {
"title": "Telnet 端口",
"note": "默认值23"
}
}, },
"ntp": { "ntp": {
"server": "NTP服务器", "server": "NTP服务器",
@@ -357,16 +352,7 @@
}, },
"heating": { "heating": {
"hyst": { "hyst": "滞后值<small>(单位:度)</small>",
"title": "滞回",
"desc": "滞回有助于维持设定的室内温度在使用«Equitherm»和/或«PID»时。强制禁用加热当<code>current indoor > target + value</code>,启用加热当<code>current indoor < (target - value)</code>。",
"value": "值 <small>(以度为单位)</small>",
"action": {
"title": "行动",
"disableHeating": "禁用加热",
"set0target": "设置空目标"
}
},
"turboFactor": "Turbo 模式系数" "turboFactor": "Turbo 模式系数"
}, },
@@ -381,26 +367,11 @@
}, },
"equitherm": { "equitherm": {
"slope": { "n": "N 系数",
"title": "斜率", "k": "K 系数",
"note": "热损失补偿。主要调谐参数。" "t": {
}, "title": "T 系数",
"exponent": { "note": "启用PID时此参数无效"
"title": "指数",
"note": "散热器效率。典型值:<code>1.1</code> - 地板采暖,<code>1.2</code> - 铸铁,<code>1.3</code> - 面板散热器,<code>1.4</code> - 对流器。"
},
"shift": {
"title": "偏移",
"note": "补偿额外热损失(例如,在管道中)或额外热源。"
},
"targetDiffFactor": {
"title": "T 因子",
"note": "如果启用 PID则不使用。将目标和当前室内温度之间的差值添加到设定点<code>setpoint = setpoint + ((target - indoor) * T)</code>。"
},
"chart": {
"targetTemp": "目标室内温度",
"setpointTemp": "热载体温度",
"outdoorTemp": "室外温度"
} }
}, },
@@ -458,13 +429,12 @@
"autoFaultReset": "自动报警复位 <small>(不推荐!)</small>", "autoFaultReset": "自动报警复位 <small>(不推荐!)</small>",
"autoDiagReset": "自动诊断复位 <small>(不推荐!)</small>", "autoDiagReset": "自动诊断复位 <small>(不推荐!)</small>",
"setDateAndTime": "同步设置锅炉日期与时间", "setDateAndTime": "同步设置锅炉日期与时间",
"immergasFix": "针对Immergas锅炉的兼容性修复", "immergasFix": "针对Immergas锅炉的兼容性修复"
"alwaysSendIndoorTemp": "向锅炉发送当前室内温度"
}, },
"nativeOTC": { "nativeHeating": {
"title": "原生热载体温度计算模式", "title": "原生锅炉供暖控制",
"note": "仅在锅炉处于 OTC 模式时<u>才</u>工作:需要并接受目标室内温度,并基于内置曲线模式自行调节热载体温度。与 PID 和 Equitherm 不兼容。" "note": "<u>注意:</u> 仅适用于锅炉需接收目标室温并自主调节载热介质温度的场景与固件中的PID及Equithermq气候补偿功能不兼容。"
} }
}, },

52
src_data/locales/en.json
View File

@@ -243,7 +243,6 @@
"otDhwBurnerHours": "OpenTherm, number of burner operating hours (DHW)", "otDhwBurnerHours": "OpenTherm, number of burner operating hours (DHW)",
"otHeatingPumpHours": "OpenTherm, number of pump operating hours (heating)", "otHeatingPumpHours": "OpenTherm, number of pump operating hours (heating)",
"otDhwPumpHours": "OpenTherm, number of pump operating hours (DHW)", "otDhwPumpHours": "OpenTherm, number of pump operating hours (DHW)",
"otCoolingHours": "OpenTherm, number of cooling hours",
"ntcTemp": "NTC sensor", "ntcTemp": "NTC sensor",
"dallasTemp": "DALLAS sensor", "dallasTemp": "DALLAS sensor",
@@ -342,12 +341,8 @@
"enable": "Enabled Serial port", "enable": "Enabled Serial port",
"baud": "Serial port baud rate" "baud": "Serial port baud rate"
}, },
"telnet": { "webSerial": {
"enable": "Enabled Telnet", "enable": "Enabled WebSerial"
"port": {
"title": "Telnet port",
"note": "Default: 23"
}
}, },
"ntp": { "ntp": {
"server": "NTP server", "server": "NTP server",
@@ -357,16 +352,7 @@
}, },
"heating": { "heating": {
"hyst": { "hyst": "Hysteresis <small>(in degrees)</small>",
"title": "Hysteresis",
"desc": "Hysteresis is useful for maintaining a set indoor temp (when using «Equitherm» and/or «PID»). Forces disable heating when <code>current indoor > target + value</code> and enable heating when <code>current indoor < (target - value)</code>.",
"value": "Value <small>(in degrees)</small>",
"action": {
"title": "Action",
"disableHeating": "Disable heating",
"set0target": "Set null target"
}
},
"turboFactor": "Turbo mode coeff." "turboFactor": "Turbo mode coeff."
}, },
@@ -381,26 +367,11 @@
}, },
"equitherm": { "equitherm": {
"slope": { "n": "N factor",
"title": "Slope", "k": "K factor",
"note": "Heat loss compensation. Main tuning parameter." "t": {
},
"exponent": {
"title": "Exponent",
"note": "Radiator efficiency. Typical values: <code>1.1</code> - Floor heating, <code>1.2</code> - Cast iron, <code>1.3</code> - Panel radiators, <code>1.4</code> - Convectors."
},
"shift": {
"title": "Shift",
"note": "Compensates for additional heat losses (e.g., in pipes) or extra heat sources."
},
"targetDiffFactor": {
"title": "T factor", "title": "T factor",
"note": "Not used if PID is enabled. Adds to the setpoint the difference between the target and current indoor temp: <code>setpoint = setpoint + ((target - indoor) * T)</code>." "note": "Not used if PID is enabled"
},
"chart": {
"targetTemp": "Target indoor temperature",
"setpointTemp": "Heat carrier temperature",
"outdoorTemp": "Outdoor temperature"
} }
}, },
@@ -458,13 +429,12 @@
"autoFaultReset": "Auto fault reset <small>(not recommended!)</small>", "autoFaultReset": "Auto fault reset <small>(not recommended!)</small>",
"autoDiagReset": "Auto diag reset <small>(not recommended!)</small>", "autoDiagReset": "Auto diag reset <small>(not recommended!)</small>",
"setDateAndTime": "Set date & time on boiler", "setDateAndTime": "Set date & time on boiler",
"immergasFix": "Fix for Immergas boilers", "immergasFix": "Fix for Immergas boilers"
"alwaysSendIndoorTemp": "Send current indoor temp to boiler"
}, },
"nativeOTC": { "nativeHeating": {
"title": "Native OTC mode", "title": "Native heating control (boiler)",
"note": "Works <u>ONLY</u> if the boiler is in OTC mode: requires and accepts the target indoor temperature and self-regulates the heat carrier temperature based on the built-in curves mode. Incompatible with PID and Equitherm." "note": "Works <u>ONLY</u> if the boiler requires the desired room temperature and regulates the temperature of the coolant itself. Not compatible with PID and Equitherm regulators in firmware."
} }
}, },

52
src_data/locales/it.json
View File

@@ -243,7 +243,6 @@
"otDhwBurnerHours": "OpenTherm, numero di ore di funzionamento del bruciatore (ACS)", "otDhwBurnerHours": "OpenTherm, numero di ore di funzionamento del bruciatore (ACS)",
"otHeatingPumpHours": "OpenTherm, numero di ore di funzionamento della pompa (riscaldamento)", "otHeatingPumpHours": "OpenTherm, numero di ore di funzionamento della pompa (riscaldamento)",
"otDhwPumpHours": "OpenTherm, numero di ore di funzionamento della pompa (ACS)", "otDhwPumpHours": "OpenTherm, numero di ore di funzionamento della pompa (ACS)",
"otCoolingHours": "OpenTherm, numero di ore di funzionamento della cooling",
"ntcTemp": "Sensore NTC", "ntcTemp": "Sensore NTC",
"dallasTemp": "Sensore DALLAS", "dallasTemp": "Sensore DALLAS",
@@ -342,12 +341,8 @@
"enable": "Porta seriale attivata", "enable": "Porta seriale attivata",
"baud": "Porta seriale baud rate" "baud": "Porta seriale baud rate"
}, },
"telnet": { "webSerial": {
"enable": "Telnet attivato", "enable": "WebSerial attivato"
"port": {
"title": "Porta Telnet",
"note": "Default: 23"
}
}, },
"ntp": { "ntp": {
"server": "NTP server", "server": "NTP server",
@@ -357,16 +352,7 @@
}, },
"heating": { "heating": {
"hyst": { "hyst": "Isteresi <small>(in gradi)</small>",
"title": "Isteresi",
"desc": "L'isteresi è utile per mantenere una temperatura interna impostata (quando si utilizza «Equitherm» e/o «PID»). Forza la disabilitazione del riscaldamento quando <code>current indoor > target + value</code> e abilita il riscaldamento quando <code>current indoor < (target - value)</code>.",
"value": "Valore <small>(in gradi)</small>",
"action": {
"title": "Azione",
"disableHeating": "Disabilita riscaldamento",
"set0target": "Imposta target nullo"
}
},
"turboFactor": "Turbo mode coeff." "turboFactor": "Turbo mode coeff."
}, },
@@ -381,26 +367,11 @@
}, },
"equitherm": { "equitherm": {
"slope": { "n": "Fattore N",
"title": "Pendenza", "k": "Fattore K",
"note": "Compensazione della perdita di calore. Parametro di regolazione principale." "t": {
},
"exponent": {
"title": "Esponente",
"note": "Efficienza del radiatore. Valori tipici: <code>1.1</code> - Riscaldamento a pavimento, <code>1.2</code> - Ghisa, <code>1.3</code> - Radiatori a pannello, <code>1.4</code> - Convettori."
},
"shift": {
"title": "Spostamento",
"note": "Compensa perdite di calore aggiuntive (ad es., nelle tubature) o fonti di calore extra."
},
"targetDiffFactor": {
"title": "Fattore T", "title": "Fattore T",
"note": "Non utilizzato se PID è abilitato. Aggiunge al setpoint la differenza tra la temperatura target e quella interna attuale: <code>setpoint = setpoint + ((target - indoor) * T)</code>." "note": "Non usato se PID è attivato"
},
"chart": {
"targetTemp": "Temperatura interna target",
"setpointTemp": "Temperatura del vettore termico",
"outdoorTemp": "Temperatura esterna"
} }
}, },
@@ -458,13 +429,12 @@
"autoFaultReset": "Ripristino automatico degli errori <small>(sconsigliato!)</small>", "autoFaultReset": "Ripristino automatico degli errori <small>(sconsigliato!)</small>",
"autoDiagReset": "Ripristino diagnostico automatica <small>(sconsigliato!)</small>", "autoDiagReset": "Ripristino diagnostico automatica <small>(sconsigliato!)</small>",
"setDateAndTime": "Imposta data e ora sulla caldaia", "setDateAndTime": "Imposta data e ora sulla caldaia",
"immergasFix": "Fix per caldiaie Immergas", "immergasFix": "Fix per caldiaie Immergas"
"alwaysSendIndoorTemp": "Invia la temp attuale interna alla caldaia"
}, },
"nativeOTC": { "nativeHeating": {
"title": "Modalità nativa di calcolo della temperatura del vettore termico", "title": "Controllo del riscaldamento nativo (caldaia)",
"note": "Funziona <u>SOLO</u> se la caldaia è in modalità OTC: richiede e accetta la temperatura interna target e regola autonomamente la temperatura del vettore termico basata sulla modalità curve integrata. Incompatibile con PID e Equitherm." "note": "Lavora <u>SOLO</u> se la caldaia richiede la temperatura ambiente desiderata e regola autonomamente la temperatura del fluido. Non compatiblile con regolazioni PID e Equitherm del sistema."
} }
}, },

56
src_data/locales/nl.json
View File

@@ -222,8 +222,6 @@
"otDhwBurnerHours": "OpenTherm, aantal branderuren (warm water)", "otDhwBurnerHours": "OpenTherm, aantal branderuren (warm water)",
"otHeatingPumpHours": "OpenTherm, aantal pompuren (verwarming)", "otHeatingPumpHours": "OpenTherm, aantal pompuren (verwarming)",
"otDhwPumpHours": "OpenTherm, aantal pompuren (warm water)", "otDhwPumpHours": "OpenTherm, aantal pompuren (warm water)",
"otCoolingHours": "OpenTherm, aantal cooling",
"ntcTemp": "NTC-sensor", "ntcTemp": "NTC-sensor",
"dallasTemp": "DALLAS-sensor", "dallasTemp": "DALLAS-sensor",
"bluetooth": "BLE-sensor", "bluetooth": "BLE-sensor",
@@ -315,12 +313,8 @@
"enable": "Seriële poort ingeschakeld", "enable": "Seriële poort ingeschakeld",
"baud": "Baudrate seriële poort" "baud": "Baudrate seriële poort"
}, },
"telnet": { "webSerial": {
"enable": "Telnet ingeschakeld", "enable": "WebSerial ingeschakeld"
"port": {
"title": "Telnet-poort",
"note": "Standaard: 23"
}
}, },
"ntp": { "ntp": {
"server": "NTP-server", "server": "NTP-server",
@@ -329,16 +323,7 @@
} }
}, },
"heating": { "heating": {
"hyst": { "hyst": "Hysterese <small>(in graden)</small>",
"title": "Hysterese",
"desc": "Hysterese is nuttig voor het handhaven van een ingestelde binnentemperatuur (bij gebruik van «Equitherm» en/of «PID»). Forceert uitschakelen van verwarming wanneer <code>current indoor > target + value</code> en inschakelen van verwarming wanneer <code>current indoor < (target - value)</code>.",
"value": "Waarde <small>(in graden)</small>",
"action": {
"title": "Actie",
"disableHeating": "Verwarming uitschakelen",
"set0target": "Stel null target in"
}
},
"turboFactor": "Turbomodus coëff." "turboFactor": "Turbomodus coëff."
}, },
"emergency": { "emergency": {
@@ -350,26 +335,11 @@
"treshold": "Drempeltijd <small>(sec)</small>" "treshold": "Drempeltijd <small>(sec)</small>"
}, },
"equitherm": { "equitherm": {
"slope": { "n": "N-factor",
"title": "Helling", "k": "K-factor",
"note": "Compensatie voor warmteverlies. Hoofdafstelparameter." "t": {
}, "title": "T-factor",
"exponent": { "note": "Niet gebruikt als PID is ingeschakeld"
"title": "Exponent",
"note": "Radiator efficiëntie. Typische waarden: <code>1.1</code> - Vloerverwarming, <code>1.2</code> - Gietijzer, <code>1.3</code> - Paneelradiatoren, <code>1.4</code> - Convectors."
},
"shift": {
"title": "Verschuiving",
"note": "Compenseert voor extra warmteverliezen (bijv. in leidingen) of extra warmtebronnen."
},
"targetDiffFactor": {
"title": "T factor",
"note": "Niet gebruikt als PID is ingeschakeld. Voegt aan de setpoint de verschil tussen de target en huidige binnentemperatuur toe: <code>setpoint = setpoint + ((target - indoor) * T)</code>."
},
"chart": {
"targetTemp": "Doel binnentemperatuur",
"setpointTemp": "Warmtedrager temperatuur",
"outdoorTemp": "Buitentemperatuur"
} }
}, },
"pid": { "pid": {
@@ -424,13 +394,11 @@
"autoFaultReset": "Automatische storingsreset <small>(niet aanbevolen!)</small>", "autoFaultReset": "Automatische storingsreset <small>(niet aanbevolen!)</small>",
"autoDiagReset": "Automatische diagnosereset <small>(niet aanbevolen!)</small>", "autoDiagReset": "Automatische diagnosereset <small>(niet aanbevolen!)</small>",
"setDateAndTime": "Stel datum & tijd in op ketel", "setDateAndTime": "Stel datum & tijd in op ketel",
"immergasFix": "Fix voor Immergas-ketels", "immergasFix": "Fix voor Immergas-ketels"
"alwaysSendIndoorTemp": "Stuur huidige binnentemp naar ketel"
}, },
"nativeHeating": {
"nativeOTC": { "title": "Natuurlijke verwarmingsregeling (ketel)",
"title": "Native warmtedrager temperatuur berekeningsmodus", "note": "Werkt <u>ALLEEN</u> als de ketel de gewenste kamertemperatuur vereist en zelf de temperatuur van de warmtedrager regelt. Niet compatibel met PID- en Equitherm-regelaars in de firmware."
"note": "Werkt <u>ALLEEN</u> als de ketel in OTC-modus is: vereist en accepteert de doel binnentemperatuur en regelt zelf de warmtedrager temperatuur op basis van de ingebouwde curves modus. Incompatibel met PID en Equitherm."
} }
}, },
"mqtt": { "mqtt": {

52
src_data/locales/ru.json
View File

@@ -243,7 +243,6 @@
"otDhwBurnerHours": "OpenTherm, кол-во часов работы горелки (ГВС)", "otDhwBurnerHours": "OpenTherm, кол-во часов работы горелки (ГВС)",
"otHeatingPumpHours": "OpenTherm, кол-во часов работы насоса (отопление)", "otHeatingPumpHours": "OpenTherm, кол-во часов работы насоса (отопление)",
"otDhwPumpHours": "OpenTherm, кол-во часов работы насоса (ГВС)", "otDhwPumpHours": "OpenTherm, кол-во часов работы насоса (ГВС)",
"otCoolingHours": "OpenTherm, кол-во часов работы охлаждения",
"ntcTemp": "NTC датчик", "ntcTemp": "NTC датчик",
"dallasTemp": "DALLAS датчик", "dallasTemp": "DALLAS датчик",
@@ -342,12 +341,8 @@
"enable": "Вкл. Serial порт", "enable": "Вкл. Serial порт",
"baud": "Скорость Serial порта" "baud": "Скорость Serial порта"
}, },
"telnet": { "webSerial": {
"enable": "Вкл. Telnet", "enable": "Вкл. WebSerial"
"port": {
"title": "Telnet порт",
"note": "По умолчанию: 23"
}
}, },
"ntp": { "ntp": {
"server": "NTP сервер", "server": "NTP сервер",
@@ -357,16 +352,7 @@
}, },
"heating": { "heating": {
"hyst": { "hyst": "Гистерезис <small>(в градусах)</small>",
"title": "Гистерезис",
"desc": "Гистерезис полезен для поддержания заданной внутр. темп. (при использовании «ПЗА» и/или «ПИД»). Принудительно откл. отопление, когда <code>current indoor > target + value</code>, и вкл. отопление, когда <code>current indoor < (target - value)</code>.",
"value": "Значение <small>(в градусах)</small>",
"action": {
"title": "Действие",
"disableHeating": "Отключить отопление",
"set0target": "Установить 0 в качестве целевой темп."
}
},
"turboFactor": "Коэфф. турбо режима" "turboFactor": "Коэфф. турбо режима"
}, },
@@ -381,26 +367,11 @@
}, },
"equitherm": { "equitherm": {
"slope": { "n": "Коэффициент N",
"title": "Наклон", "k": "Коэффициент K",
"note": "Компенсация теплопотерь. Основной параметр настройки." "t": {
},
"exponent": {
"title": "Экспонента",
"note": "Эффективность радиатора. Типичные значения: <code>1.1</code> - Тёплый пол, <code>1.2</code> - Чугунные радиаторы, <code>1.3</code> - Панельные радиаторы, <code>1.4</code> - Конвекторы."
},
"shift": {
"title": "Смещение",
"note": "Компенсирует дополнительные теплопотери (например, в трубах) или дополнительные источники тепла."
},
"targetDiffFactor": {
"title": "Коэффициент T", "title": "Коэффициент T",
"note": "Не используется, если ПИД включен. Добавляет разницу между целевой и текущей температурой в помещении: <code>setpoint = setpoint + ((target - indoor) * T)</code>." "note": "Не используется, если ПИД включен"
},
"chart": {
"targetTemp": "Целевая внутренняя температура",
"setpointTemp": "Температура теплоносителя",
"outdoorTemp": "Наружная температура"
} }
}, },
@@ -458,13 +429,12 @@
"autoFaultReset": "Автоматический сброс ошибок <small>(не рекомендуется!)</small>", "autoFaultReset": "Автоматический сброс ошибок <small>(не рекомендуется!)</small>",
"autoDiagReset": "Автоматический сброс диагностики <small>(не рекомендуется!)</small>", "autoDiagReset": "Автоматический сброс диагностики <small>(не рекомендуется!)</small>",
"setDateAndTime": "Устанавливать время и дату на котле", "setDateAndTime": "Устанавливать время и дату на котле",
"immergasFix": "Фикс для котлов Immergas", "immergasFix": "Фикс для котлов Immergas"
"alwaysSendIndoorTemp": "Передавать текущую темп. в помещении котлу"
}, },
"nativeOTC": { "nativeHeating": {
"title": "Нативный режим OTC (расчёт температуры теплоносителя)", "title": "Передать управление отоплением котлу",
"note": "Работает <u>ТОЛЬКО</u> если котел в режиме OTC: требует и принимает целевую температуру в помещении и сам регулирует температуру теплоносителя на основе встроенного режима кривых. Несовместимо с ПИД и ПЗА." "note": "Работает <u>ТОЛЬКО</u> если котел требует и принимает целевую температуру в помещении и сам регулирует температуру теплоносителя на основе встроенного режима кривых. Несовместимо с ПИД и ПЗА."
} }
}, },

5
src_data/pages/sensors.html
View File

@@ -113,7 +113,6 @@
<option value="24" data-i18n>sensors.types.otDhwBurnerHours</option> <option value="24" data-i18n>sensors.types.otDhwBurnerHours</option>
<option value="25" data-i18n>sensors.types.otHeatingPumpHours</option> <option value="25" data-i18n>sensors.types.otHeatingPumpHours</option>
<option value="26" data-i18n>sensors.types.otDhwPumpHours</option> <option value="26" data-i18n>sensors.types.otDhwPumpHours</option>
<option value="27" data-i18n>sensors.types.otCoolingHours</option>
<option value="50" data-i18n>sensors.types.ntcTemp</option> <option value="50" data-i18n>sensors.types.ntcTemp</option>
<option value="51" data-i18n>sensors.types.dallasTemp</option> <option value="51" data-i18n>sensors.types.dallasTemp</option>
@@ -242,9 +241,7 @@
setCheckboxValue("[name='filtering']", data.filtering, sensorForm); setCheckboxValue("[name='filtering']", data.filtering, sensorForm);
setInputValue("[name='filteringFactor']", data.filteringFactor, {}, sensorForm); setInputValue("[name='filteringFactor']", data.filteringFactor, {}, sensorForm);
setTimeout(() => { sensorForm.querySelector("[name='type']").dispatchEvent(new Event("change"));
sensorForm.querySelector("[name='type']").dispatchEvent(new Event("change"));
}, 10);
setBusy(".form-busy", "form", false, sensorNode); setBusy(".form-busy", "form", false, sensorNode);
}; };

355
src_data/pages/settings.html
View File

@@ -106,7 +106,7 @@
<option disabled selected data-i18n>settings.system.ntp.timezonePresets</option> <option disabled selected data-i18n>settings.system.ntp.timezonePresets</option>
</select> </select>
</div> </div>
</label> </label>
</fieldset> </fieldset>
<fieldset> <fieldset>
@@ -126,8 +126,8 @@
</label> </label>
<label> <label>
<input type="checkbox" name="system[telnet][enabled]" value="true"> <input type="checkbox" name="system[webSerial][enabled]" value="true">
<span data-i18n>settings.system.telnet.enable</span> <span data-i18n>settings.system.webSerial.enable</span>
</label> </label>
<label> <label>
@@ -156,12 +156,6 @@
<option value="115200">115200</option> <option value="115200">115200</option>
</select> </select>
</label> </label>
<label>
<span data-i18n>settings.system.telnet.port.title</span>
<input type="number" inputmode="numeric" name="system[telnet][port]" min="1" max="65535" step="1" required>
<small data-i18n>settings.system.telnet.port.note</small>
</label>
</div> </div>
<mark data-i18n>settings.note.restart</mark> <mark data-i18n>settings.note.restart</mark>
@@ -194,47 +188,20 @@
<div class="grid"> <div class="grid">
<label> <label>
<span data-i18n>settings.heating.turboFactor</span> <span data-i18n>settings.heating.hyst</span>
<input type="number" inputmode="decimal" name="heating[turboFactor]" min="1.5" max="10" step="0.1" required> <input type="number" inputmode="decimal" name="heating[hysteresis]" min="0" max="5" step="0.05" required>
</label> </label>
<label> <label>
<span data-i18n>settings.maxModulation</span> <span data-i18n>settings.heating.turboFactor</span>
<input type="number" inputmode="numeric" name="heating[maxModulation]" min="1" max="100" step="1" required> <input type="number" inputmode="decimal" name="heating[turboFactor]" min="1.5" max="10" step="0.1" required>
</label> </label>
</div> </div>
<hr /> <label>
<span data-i18n>settings.maxModulation</span>
<details> <input type="number" inputmode="numeric" name="heating[maxModulation]" min="1" max="100" step="1" required>
<summary><b data-i18n>settings.heating.hyst.title</b></summary> </label>
<div>
<fieldset>
<label>
<input type="checkbox" name="heating[hysteresis][enabled]" value="true">
<span data-i18n>settings.enable</span>
</label>
</fieldset>
<div class="grid">
<label>
<span data-i18n>settings.heating.hyst.value</span>
<input type="number" inputmode="decimal" name="heating[hysteresis][value]" min="0" max="5" step="0.05" required>
</label>
<label>
<span data-i18n>settings.heating.hyst.action.title</span>
<select name="heating[hysteresis][action]">
<option value="0" data-i18n>settings.heating.hyst.action.disableHeating</option>
<option value="1" data-i18n>settings.heating.hyst.action.set0target</option>
</select>
</label>
</div>
</div>
<small data-i18n>settings.heating.hyst.desc</small>
</details>
<hr /> <hr />
@@ -381,44 +348,21 @@
</label> </label>
</fieldset> </fieldset>
<div>
<div>
<canvas id="etChart"></canvas>
</div>
<label>
<div>
<span data-i18n>settings.equitherm.chart.targetTemp</span>: <b class="etChartTargetTempValue"></b>°
</div>
<input class="etChartTargetTemp" type="range" value="0" min="0" max="0" step="0.5">
</label>
</div>
<div class="grid"> <div class="grid">
<label> <label>
<span data-i18n>settings.equitherm.slope.title</span> <span data-i18n>settings.equitherm.n</span>
<input type="number" inputmode="decimal" name="equitherm[slope]" min="0.001" max="10" step="0.001" required> <input type="number" inputmode="decimal" name="equitherm[n_factor]" min="0.001" max="10" step="0.001" required>
<small data-i18n>settings.equitherm.slope.note</small>
</label> </label>
<label> <label>
<span data-i18n>settings.equitherm.exponent.title</span> <span data-i18n>settings.equitherm.k</span>
<input type="number" inputmode="decimal" name="equitherm[exponent]" min="0.1" max="2" step="0.001" required> <input type="number" inputmode="decimal" name="equitherm[k_factor]" min="0" max="10" step="0.01" required>
<small data-i18n>settings.equitherm.exponent.note</small>
</label>
</div>
<div class="grid">
<label>
<span data-i18n>settings.equitherm.shift.title</span>
<input type="number" inputmode="decimal" name="equitherm[shift]" min="-15" max="15" step="0.01" required>
<small data-i18n>settings.equitherm.shift.note</small>
</label> </label>
<label> <label>
<span data-i18n>settings.equitherm.targetDiffFactor.title</span> <span data-i18n>settings.equitherm.t.title</span>
<input type="number" inputmode="decimal" name="equitherm[targetDiffFactor]" min="0" max="10" step="0.01" required> <input type="number" inputmode="decimal" name="equitherm[t_factor]" min="0" max="10" step="0.01" required>
<small data-i18n>settings.equitherm.targetDiffFactor.note</small> <small data-i18n>settings.equitherm.t.note</small>
</label> </label>
</div> </div>
@@ -474,7 +418,7 @@
<span data-i18n>settings.temp.min</span> <span data-i18n>settings.temp.min</span>
<input type="number" inputmode="decimal" name="pid[minTemp]" min="0" max="0" step="1" required> <input type="number" inputmode="decimal" name="pid[minTemp]" min="0" max="0" step="1" required>
</label> </label>
<label> <label>
<span data-i18n>settings.temp.max</span> <span data-i18n>settings.temp.max</span>
<input type="number" inputmode="numeric" name="pid[maxTemp]" min="0" max="0" step="1" required> <input type="number" inputmode="numeric" name="pid[maxTemp]" min="0" max="0" step="1" required>
@@ -503,12 +447,12 @@
<span data-i18n>settings.pid.deadband.p_multiplier</span> <span data-i18n>settings.pid.deadband.p_multiplier</span>
<input type="number" inputmode="decimal" name="pid[deadband][p_multiplier]" min="0" max="5" step="0.001" required> <input type="number" inputmode="decimal" name="pid[deadband][p_multiplier]" min="0" max="5" step="0.001" required>
</label> </label>
<label> <label>
<span data-i18n>settings.pid.deadband.i_multiplier</span> <span data-i18n>settings.pid.deadband.i_multiplier</span>
<input type="number" inputmode="decimal" name="pid[deadband][i_multiplier]" min="0" max="1" step="0.001" required> <input type="number" inputmode="decimal" name="pid[deadband][i_multiplier]" min="0" max="1" step="0.001" required>
</label> </label>
<label> <label>
<span data-i18n>settings.pid.deadband.d_multiplier</span> <span data-i18n>settings.pid.deadband.d_multiplier</span>
<input type="number" inputmode="decimal" name="pid[deadband][d_multiplier]" min="0" max="1" step="0.001" required> <input type="number" inputmode="decimal" name="pid[deadband][d_multiplier]" min="0" max="1" step="0.001" required>
@@ -520,7 +464,7 @@
<span data-i18n>settings.pid.deadband.thresholdHigh</span> <span data-i18n>settings.pid.deadband.thresholdHigh</span>
<input type="number" inputmode="decimal" name="pid[deadband][thresholdHigh]" min="0" max="5" step="0.01" required> <input type="number" inputmode="decimal" name="pid[deadband][thresholdHigh]" min="0" max="5" step="0.01" required>
</label> </label>
<label> <label>
<span data-i18n>settings.pid.deadband.thresholdLow</span> <span data-i18n>settings.pid.deadband.thresholdLow</span>
<input type="number" inputmode="decimal" name="pid[deadband][thresholdLow]" min="0" max="5" step="0.01" required> <input type="number" inputmode="decimal" name="pid[deadband][thresholdLow]" min="0" max="5" step="0.01" required>
@@ -692,22 +636,17 @@
<span data-i18n>settings.ot.options.immergasFix</span> <span data-i18n>settings.ot.options.immergasFix</span>
</label> </label>
<label>
<input type="checkbox" name="opentherm[options][alwaysSendIndoorTemp]" value="true">
<span data-i18n>settings.ot.options.alwaysSendIndoorTemp</span>
</label>
<hr /> <hr />
<label> <label>
<input type="checkbox" name="opentherm[options][nativeOTC]" value="true"> <input type="checkbox" name="opentherm[options][nativeHeatingControl]" value="true">
<span data-i18n>settings.ot.nativeOTC.title</span><br /> <span data-i18n>settings.ot.nativeHeating.title</span><br />
<small data-i18n>settings.ot.nativeOTC.note</small> <small data-i18n>settings.ot.nativeHeating.note</small>
</label> </label>
</fieldset> </fieldset>
</div> </div>
</details> </details>
<br /> <br />
<button type="submit" data-i18n>button.save</button> <button type="submit" data-i18n>button.save</button>
</form> </form>
@@ -921,170 +860,17 @@
</footer> </footer>
<script src="/static/app.js?{BUILD_TIME}"></script> <script src="/static/app.js?{BUILD_TIME}"></script>
<script src="/static/chart.js?{BUILD_TIME}"></script>
<script> <script>
document.addEventListener('DOMContentLoaded', async () => { document.addEventListener('DOMContentLoaded', async () => {
const lang = new Lang(document.getElementById('lang')); const lang = new Lang(document.getElementById('lang'));
lang.build(); lang.build();
let etChart = null;
let etChartConfig = {
slope: null,
exponent: null,
shift: null,
unitSystem: null,
targetTemp: null,
minTemp: null,
maxTemp: null,
decimated: false
};
const hasNeedDecimationChart = () => {
return window.innerWidth <= 800;
}
const makeEquithermChart = () => {
if (etChart == null) {
const ctx = document.getElementById('etChart').getContext('2d');
try {
etChart = new Chart(ctx, {
type: 'line',
data: {
datasets: [{
borderColor: (context) => {
const chart = context.chart;
const { ctx, chartArea } = chart;
if (!chartArea) {
return;
}
const gradient = ctx.createLinearGradient(0, chartArea.bottom, 0, chartArea.top);
gradient.addColorStop(0, 'rgba(1, 114, 173, 1)');
gradient.addColorStop(0.5, 'rgba(255, 99, 132, 1)');
return gradient;
},
borderWidth: 3,
fill: false,
tension: 0.1,
pointRadius: 2,
pointHoverRadius: 4,
indexAxis: "x",
data: []
}]
},
options: {
responsive: true,
resizeDelay: 500,
parsing: false,
interaction: {
mode: 'nearest',
intersect: false
},
plugins: {
tooltip: {
enabled: true,
position: 'nearest',
displayColors: false,
callbacks: {
title: (items) => {
return `${i18n("settings.equitherm.chart.outdoorTemp")}: ${items[0].label}`;
}
}
},
legend: {
display: false
}
},
scales: {
x: {
display: true,
type: "linear",
reverse: true,
title: {
display: true
},
ticks: {
stepSize: 1,
format: {
style: "unit",
unit: "degree",
unitDisplay: "narrow"
}
}
},
y: {
display: true,
title: {
display: true
},
ticks: {
format: {
style: "unit",
unit: "degree",
unitDisplay: "narrow"
}
}
}
}
}
});
} catch (error) {
console.log(error);
}
}
if (!etChart) {
return;
}
let data = [];
etChartConfig.decimated = hasNeedDecimationChart();
for (let value = 30; value >= -30; value -= etChartConfig.decimated ? 2 : 1) {
const outdoorTemp = etChartConfig.unitSystem == 0 ? value : c2f(value);
data.push({
x: parseFloat(outdoorTemp.toFixed(1)),
y: parseFloat(calculateEquithermTemp(outdoorTemp).toFixed(1))
});
}
etChart.data.datasets[0].data = data;
etChart.data.datasets[0].label = i18n("settings.equitherm.chart.setpointTemp");
etChart.options.scales.x.title.text = i18n("settings.equitherm.chart.outdoorTemp");
etChart.options.scales.y.title.text = i18n("settings.equitherm.chart.setpointTemp");
etChart.update();
}
const calculateEquithermTemp = (outdoorTemp) => {
const tempDelta = etChartConfig.targetTemp - outdoorTemp;
const maxPoint = etChartConfig.targetTemp - (
etChartConfig.maxTemp - etChartConfig.targetTemp
) / etChartConfig.slope;
const sf = (etChartConfig.maxTemp - etChartConfig.targetTemp) / Math.pow(
etChartConfig.targetTemp - maxPoint,
1 / etChartConfig.exponent
);
const result = etChartConfig.targetTemp + etChartConfig.shift + sf * (
tempDelta >= 0
? Math.pow(tempDelta, 1 / etChartConfig.exponent)
: -(Math.pow(-(tempDelta), 1 / etChartConfig.exponent))
);
return Math.max(Math.min(result, etChartConfig.maxTemp), etChartConfig.minTemp);
}
const fillData = (data) => { const fillData = (data) => {
// System // System
setSelectValue("[name='system[logLevel]']", data.system.logLevel); setSelectValue("[name='system[logLevel]']", data.system.logLevel);
setCheckboxValue("[name='system[serial][enabled]']", data.system.serial.enabled); setCheckboxValue("[name='system[serial][enabled]']", data.system.serial.enabled);
setSelectValue("[name='system[serial][baudrate]']", data.system.serial.baudrate); setSelectValue("[name='system[serial][baudrate]']", data.system.serial.baudrate);
setCheckboxValue("[name='system[telnet][enabled]']", data.system.telnet.enabled); setCheckboxValue("[name='system[webSerial][enabled]']", data.system.webSerial.enabled);
setInputValue("[name='system[telnet][port]']", data.system.telnet.port);
setInputValue("[name='system[ntp][server]']", data.system.ntp.server); setInputValue("[name='system[ntp][server]']", data.system.ntp.server);
setInputValue("[name='system[ntp][timezone]']", data.system.ntp.timezone); setInputValue("[name='system[ntp][timezone]']", data.system.ntp.timezone);
setRadioValue("[name='system[unitSystem]']", data.system.unitSystem); setRadioValue("[name='system[unitSystem]']", data.system.unitSystem);
@@ -1122,9 +908,8 @@
setCheckboxValue("[name='opentherm[options][autoFaultReset]']", data.opentherm.options.autoFaultReset); setCheckboxValue("[name='opentherm[options][autoFaultReset]']", data.opentherm.options.autoFaultReset);
setCheckboxValue("[name='opentherm[options][autoDiagReset]']", data.opentherm.options.autoDiagReset); setCheckboxValue("[name='opentherm[options][autoDiagReset]']", data.opentherm.options.autoDiagReset);
setCheckboxValue("[name='opentherm[options][setDateAndTime]']", data.opentherm.options.setDateAndTime); setCheckboxValue("[name='opentherm[options][setDateAndTime]']", data.opentherm.options.setDateAndTime);
setCheckboxValue("[name='opentherm[options][nativeOTC]']", data.opentherm.options.nativeOTC); setCheckboxValue("[name='opentherm[options][nativeHeatingControl]']", data.opentherm.options.nativeHeatingControl);
setCheckboxValue("[name='opentherm[options][immergasFix]']", data.opentherm.options.immergasFix); setCheckboxValue("[name='opentherm[options][immergasFix]']", data.opentherm.options.immergasFix);
setCheckboxValue("[name='opentherm[options][alwaysSendIndoorTemp]']", data.opentherm.options.alwaysSendIndoorTemp);
setBusy('#ot-settings-busy', '#ot-settings', false); setBusy('#ot-settings-busy', '#ot-settings', false);
// MQTT // MQTT
@@ -1171,9 +956,7 @@
"min": data.system.unitSystem == 0 ? 1 : 33, "min": data.system.unitSystem == 0 ? 1 : 33,
"max": data.system.unitSystem == 0 ? 100 : 212 "max": data.system.unitSystem == 0 ? 100 : 212
}); });
setCheckboxValue("[name='heating[hysteresis][enabled]']", data.heating.hysteresis.enabled); setInputValue("[name='heating[hysteresis]']", data.heating.hysteresis);
setInputValue("[name='heating[hysteresis][value]']", data.heating.hysteresis.value);
setSelectValue("[name='heating[hysteresis][action]']", data.heating.hysteresis.action);
setInputValue("[name='heating[turboFactor]']", data.heating.turboFactor); setInputValue("[name='heating[turboFactor]']", data.heating.turboFactor);
setInputValue("[name='heating[maxModulation]']", data.heating.maxModulation); setInputValue("[name='heating[maxModulation]']", data.heating.maxModulation);
setInputValue("[name='heating[overheatProtection][highTemp]']", data.heating.overheatProtection.highTemp, { setInputValue("[name='heating[overheatProtection][highTemp]']", data.heating.overheatProtection.highTemp, {
@@ -1212,7 +995,7 @@
setBusy('#dhw-settings-busy', '#dhw-settings', false); setBusy('#dhw-settings-busy', '#dhw-settings', false);
// Emergency mode // Emergency mode
if (data.opentherm.options.nativeOTC) { if (data.opentherm.options.nativeHeatingControl) {
setInputValue("[name='emergency[target]']", data.emergency.target, { setInputValue("[name='emergency[target]']", data.emergency.target, {
"min": data.system.unitSystem == 0 ? 5 : 41, "min": data.system.unitSystem == 0 ? 5 : 41,
"max": data.system.unitSystem == 0 ? 40 : 104 "max": data.system.unitSystem == 0 ? 40 : 104
@@ -1229,10 +1012,9 @@
// Equitherm // Equitherm
setCheckboxValue("[name='equitherm[enabled]']", data.equitherm.enabled); setCheckboxValue("[name='equitherm[enabled]']", data.equitherm.enabled);
setInputValue("[name='equitherm[slope]']", data.equitherm.slope); setInputValue("[name='equitherm[n_factor]']", data.equitherm.n_factor);
setInputValue("[name='equitherm[exponent]']", data.equitherm.exponent); setInputValue("[name='equitherm[k_factor]']", data.equitherm.k_factor);
setInputValue("[name='equitherm[shift]']", data.equitherm.shift); setInputValue("[name='equitherm[t_factor]']", data.equitherm.t_factor);
setInputValue("[name='equitherm[targetDiffFactor]']", data.equitherm.targetDiffFactor);
setBusy('#equitherm-settings-busy', '#equitherm-settings', false); setBusy('#equitherm-settings-busy', '#equitherm-settings', false);
// PID // PID
@@ -1256,24 +1038,6 @@
setInputValue("[name='pid[deadband][thresholdHigh]']", data.pid.deadband.thresholdHigh); setInputValue("[name='pid[deadband][thresholdHigh]']", data.pid.deadband.thresholdHigh);
setInputValue("[name='pid[deadband][thresholdLow]']", data.pid.deadband.thresholdLow); setInputValue("[name='pid[deadband][thresholdLow]']", data.pid.deadband.thresholdLow);
setBusy('#pid-settings-busy', '#pid-settings', false); setBusy('#pid-settings-busy', '#pid-settings', false);
const etMinTemp = parseInt(data.system.unitSystem == 0 ? 5 : 41);
const etMaxTemp = parseInt(data.system.unitSystem == 0 ? 30 : 86);
const etTargetTemp = constrain(parseFloat(data.heating.target), etMinTemp, etMaxTemp);
setInputValue(".etChartTargetTemp", etTargetTemp.toFixed(1), {
"min": etMinTemp,
"max": etMaxTemp
});
etChartConfig.slope = data.equitherm.slope;
etChartConfig.exponent = data.equitherm.exponent;
etChartConfig.shift = data.equitherm.shift;
etChartConfig.unitSystem = data.system.unitSystem;
etChartConfig.minTemp = data.heating.minTemp;
etChartConfig.maxTemp = data.heating.maxTemp;
makeEquithermChart();
}; };
try { try {
@@ -1303,7 +1067,7 @@
cache: "no-cache", cache: "no-cache",
credentials: "include" credentials: "include"
}); });
if (!response.ok) { if (!response.ok) {
throw new Error('Response not valid'); throw new Error('Response not valid');
} }
@@ -1326,57 +1090,6 @@
} catch (error) { } catch (error) {
console.log(error); console.log(error);
} }
document.querySelector(".etChartTargetTemp").addEventListener("input", async (event) => {
setValue('.etChartTargetTempValue', parseFloat(event.target.value).toFixed(1));
});
document.querySelector(".etChartTargetTemp").addEventListener("change", async (event) => {
if (!event.target.checkValidity()) {
return;
}
etChartConfig.targetTemp = parseFloat(event.target.value);
setValue('.etChartTargetTempValue', etChartConfig.targetTemp.toFixed(1));
makeEquithermChart();
});
document.querySelector("[name='equitherm[slope]']").addEventListener("change", async (event) => {
if (!event.target.checkValidity()) {
return;
}
etChartConfig.slope = parseFloat(event.target.value);
makeEquithermChart();
});
document.querySelector("[name='equitherm[exponent]']").addEventListener("change", async (event) => {
if (!event.target.checkValidity()) {
return;
}
etChartConfig.exponent = parseFloat(event.target.value);
makeEquithermChart();
});
document.querySelector("[name='equitherm[shift]']").addEventListener("change", async (event) => {
if (!event.target.checkValidity()) {
return;
}
etChartConfig.shift = parseFloat(event.target.value);
makeEquithermChart();
});
window.addEventListener('resize', async (event) => {
if (etChart) {
etChart.resize();
if (etChartConfig.decimated != hasNeedDecimationChart()) {
makeEquithermChart();
}
}
});
}); });
</script> </script>
</body> </body>

130
src_data/pages/upgrade.html
View File

@@ -62,19 +62,19 @@
<form action="/api/upgrade" id="upgrade"> <form action="/api/upgrade" id="upgrade">
<fieldset class="primary"> <fieldset class="primary">
<label for="firmware-file"> <label>
<span data-i18n>upgrade.fw</span>: <span data-i18n>upgrade.fw</span>:
<div class="grid"> <div class="grid">
<input type="file" name="firmware" id="firmware-file" accept=".bin"> <input type="file" name="fw" accept=".bin">
<button type="button" class="upgrade-firmware-result hidden" disabled></button> <button type="button" class="fwResult hidden" disabled></button>
</div> </div>
</label> </label>
<label for="filesystem-file"> <label>
<span data-i18n>upgrade.fs</span>: <span data-i18n>upgrade.fs</span>:
<div class="grid"> <div class="grid">
<input type="file" name="filesystem" id="filesystem-file" accept=".bin"> <input type="file" name="fs" accept=".bin">
<button type="button" class="upgrade-filesystem-result hidden" disabled></button> <button type="button" class="fsResult hidden" disabled></button>
</div> </div>
</label> </label>
</fieldset> </fieldset>
@@ -108,7 +108,123 @@
lang.build(); lang.build();
setupRestoreBackupForm('#restore'); setupRestoreBackupForm('#restore');
setupUpgradeForm('#upgrade');
const upgradeForm = document.querySelector('#upgrade');
if (upgradeForm) {
upgradeForm.reset();
const statusToText = (status) => {
switch (status) {
case 0:
return "None";
case 1:
return "No file";
case 2:
return "Success";
case 3:
return "Prohibited";
case 4:
return "Size mismatch";
case 5:
return "Error on start";
case 6:
return "Error on write";
case 7:
return "Error on finish";
default:
return "Unknown";
}
};
upgradeForm.addEventListener('submit', async (event) => {
event.preventDefault();
hide('.fwResult');
hide('.fsResult');
let button = upgradeForm.querySelector('button[type="submit"]');
button.textContent = i18n('button.uploading');
button.setAttribute('disabled', true);
button.setAttribute('aria-busy', true);
try {
let fd = new FormData();
const fw = upgradeForm.querySelector("[name='fw']").files;
if (fw.length > 0) {
fd.append("fw_size", fw[0].size);
fd.append("fw", fw[0]);
}
const fs = upgradeForm.querySelector("[name='fs']").files;
if (fs.length > 0) {
fd.append("fs_size", fs[0].size);
fd.append("fs", fs[0]);
}
let response = await fetch(upgradeForm.action, {
method: "POST",
cache: "no-cache",
credentials: "include",
body: fd
});
if (response.status != 202 && response.status != 406) {
throw new Error('Response not valid');
}
const result = await response.json();
let resItem = upgradeForm.querySelector('.fwResult');
if (resItem && result.firmware.status > 1) {
resItem.textContent = statusToText(result.firmware.status);
resItem.classList.remove('hidden');
if (result.firmware.status == 2) {
resItem.classList.remove('failed');
resItem.classList.add('success');
} else {
resItem.classList.remove('success');
resItem.classList.add('failed');
if (result.firmware.error != "") {
resItem.textContent += `: ${result.firmware.error}`;
}
}
}
resItem = upgradeForm.querySelector('.fsResult');
if (resItem && result.filesystem.status > 1) {
resItem.textContent = statusToText(result.filesystem.status);
resItem.classList.remove('hidden');
if (result.filesystem.status == 2) {
resItem.classList.remove('failed');
resItem.classList.add('success');
} else {
resItem.classList.remove('success');
resItem.classList.add('failed');
if (result.filesystem.error != "") {
resItem.textContent += `: ${result.filesystem.error}`;
}
}
}
} catch (err) {
console.log(err);
button.textContent = i18n('button.error');
button.classList.add('failed');
} finally {
setTimeout(() => {
button.removeAttribute('aria-busy');
button.removeAttribute('disabled');
button.classList.remove('success', 'failed');
button.textContent = i18n(button.dataset.i18n);
upgradeForm.reset();
}, 10000);
}
});
}
}); });
</script> </script>
</body> </body>

14
src_data/scripts/chart.js
View File

File diff suppressed because one or more lines are too long

68
src_data/scripts/utils.js
View File

@@ -5,13 +5,8 @@ const setupForm = (formSelector, onResultCallback = null, noCastItems = []) => {
} }
form.querySelectorAll('input').forEach(item => { form.querySelectorAll('input').forEach(item => {
item.addEventListener('change', (event) => { item.addEventListener('change', (e) => {
if (!event.target.checkValidity()) { e.target.setAttribute('aria-invalid', !e.target.checkValidity());
event.target.setAttribute('aria-invalid', true);
} else if (event.target.hasAttribute('aria-invalid')) {
event.target.removeAttribute('aria-invalid');
}
}) })
}); });
@@ -318,19 +313,25 @@ const setupRestoreBackupForm = (formSelector) => {
console.log("Backup: ", data); console.log("Backup: ", data);
if (data.settings != undefined) { if (data.settings != undefined) {
let response = await fetch(url, { for (var key in data.settings) {
method: "POST", let response = await fetch(url, {
cache: "no-cache", method: "POST",
credentials: "include", cache: "no-cache",
headers: { credentials: "include",
"Content-Type": "application/json" headers: {
}, "Content-Type": "application/json"
body: JSON.stringify({"settings": data.settings}) },
}); body: JSON.stringify({
"settings": {
[key]: data.settings[key]
}
})
});
if (!response.ok) { if (!response.ok) {
onFailed(); onFailed();
return; return;
}
} }
} }
@@ -635,10 +636,6 @@ const setCheckboxValue = (selector, value, parent = undefined) => {
} }
item.checked = value; item.checked = value;
setTimeout(() => {
item.dispatchEvent(new Event("change"));
}, 10);
} }
const setRadioValue = (selector, value, parent = undefined) => { const setRadioValue = (selector, value, parent = undefined) => {
@@ -652,14 +649,7 @@ const setRadioValue = (selector, value, parent = undefined) => {
} }
for (let item of items) { for (let item of items) {
const checked = item.value == value; item.checked = item.value == value;
if (item.checked != checked) {
item.checked = checked;
setTimeout(() => {
item.dispatchEvent(new Event("change"));
}, 10);
}
} }
} }
@@ -674,17 +664,13 @@ const setInputValue = (selector, value, attrs = {}, parent = undefined) => {
} }
for (let item of items) { for (let item of items) {
item.value = value;
if (attrs instanceof Object) { if (attrs instanceof Object) {
for (let attrKey of Object.keys(attrs)) { for (let attrKey of Object.keys(attrs)) {
item.setAttribute(attrKey, attrs[attrKey]); item.setAttribute(attrKey, attrs[attrKey]);
} }
} }
item.value = value;
setTimeout(() => {
item.dispatchEvent(new Event("change"));
}, 10);
} }
} }
@@ -873,12 +859,4 @@ function dec2hex(i) {
function constrain(amt, low, high) { function constrain(amt, low, high) {
return ((amt) < (low) ? (low) : ((amt) > (high) ? (high) : (amt))); return ((amt) < (low) ? (low) : ((amt) > (high) ? (high) : (amt)));
}
function c2f(value) {
return (9 / 5) * value + 32;
}
function f2c(value) {
return (value - 32) * (5 / 9);
} }