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base: jeka:1.5.6
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:0213582464fccdd63586610d22410ad2740ad5a4
Branches Tags
jeka:otc_fix jeka:master 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

19 Commits
1.5.6 ... 0213582464

Author SHA1 Message Date
Yurii
0213582464 fix: build for nodemcu32, c3, c6 boards; formatting `platformio.ini` 2025-10-21 13:43:41 +03:00
Yurii
396dc7f7e3 refactor: increased disconnected timeout for sensors 2025-10-20 18:37:35 +03:00
Yurii
9d38525251 refactor: passive scan instead of connecting to BLE devices 2025-10-20 17:59:52 +03:00
Yurii
5667199988 refactor: reset BLE/DALLAS address if not valid 2025-10-14 07:38:30 +03:00
Yurii
cf81ff5856 refactor: improved work with BLE sensors 2025-10-10 05:35:57 +03:00
Yurii
78b5a12e90 feat: setting the cooling setpoint if cooling support is enabled 2025-10-09 22:57:04 +03:00
Yurii
cc5bbb7a87 refactor: refactoring after #184 2025-10-09 08:22:07 +03:00
Douwe
dda79151f3 feat: added Dutch locale #184 
* Create nl.json

* Update nl.json
 2025-10-09 08:19:55 +03:00
Yurii
1375d8c7a5 chore: bump pioarduino/platform-espressif32 from 3.3.1 to 3.3.2 2025-10-09 08:16:04 +03:00
Yurii
d4addf887f refactor: improved work with BLE sensors 2025-10-09 08:13:33 +03:00
Yurii
9d77256051 refactor: not initialize Bluetooth if BLE sensors are not used 2025-10-03 20:56:04 +03:00
Yurii
d3e7a13e1f fix: rollback NimBLE-Arduino from 2.3.6 to 2.3.3 2025-10-03 20:54:42 +03:00
Yurii
14826c10cd chore: `byte to uint8_t` 2025-09-23 04:03:36 +03:00
Yurii
28a5218b7c fix: various fixes 
Found by PVS-Studio
 2025-09-23 04:02:40 +03:00
Yurii
f3ba43adbd docs: fix typo 2025-09-19 21:14:38 +03:00
Yurii
062c6714d1 chore: bump dependencies 2025-09-19 21:09:55 +03:00
Yurii
502f73db0e chore: bump pioarduino/platform-espressif32 from 3.3.0 to 3.3.1 2025-09-19 21:06:17 +03:00
zedward
c2ee30d1ab fix: added `nodemcu_32_160mhz` env, deadband usage in PID fixed (#176) 
* Small fixes: CPU limit for odemcu_32,  deadbamd usage in PID

* PR review fixes

* Fix: remove spaces

---------

Co-authored-by: Edward Zhuravlov <Edward.Zhuravlev@topsoft.by>
 2025-09-19 21:00:11 +03:00
dependabot[bot]
9217bb7448 chore: bump actions/stale from 9 to 10 (#172) 
Bumps [actions/stale](https://github.com/actions/stale) from 9 to 10.
- [Release notes](https://github.com/actions/stale/releases)
- [Changelog](https://github.com/actions/stale/blob/main/CHANGELOG.md)
- [Commits](https://github.com/actions/stale/compare/v9...v10)

---
updated-dependencies:
- dependency-name: actions/stale
  dependency-version: '10'
  dependency-type: direct:production
  update-type: version-update:semver-major
...

Signed-off-by: dependabot[bot] <support@github.com>
Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com>
 2025-09-05 06:33:43 +03:00
25 changed files with 1033 additions and 967 deletions
Expand all files Collapse all files

2
.github/workflows/stale.yaml vendored
View File

@@ -7,7 +7,7 @@ jobs:
stale:
runs-on: ubuntu-latest
steps:
- uses: actions/stale@v9
- uses: actions/stale@v10
with:
stale-issue-message: >
This issue is stale because it has been open 15 days with no activity. Remove stale label or comment or this will be closed in 5 days.

2
README.md
View File

@@ -72,7 +72,7 @@ All available information and instructions can be found in the wiki:
* [Leds on board](https://github.com/Laxilef/OTGateway/wiki/OT-adapters#leds-on-board)
## Gratitude
* To the developers of the libraries used: [OpenTherm Library](https://github.com/ihormelnyk/opentherm_library), [ESP8266Scheduler](https://github.com/nrwiersma/ESP8266Scheduler), [ArduinoJson](https://github.com/bblanchon/ArduinoJson), [NimBLE-Arduino](https://github.com/h2zero/NimBLE-Arduino), [ArduinoMqttClient](https://github.com/arduino-libraries/ArduinoMqttClient), [ESPTelnet](https://github.com/LennartHennigs/ESPTelnet), [FileData](https://github.com/GyverLibs/FileData), [GyverPID](https://github.com/GyverLibs/GyverPID), [GyverBlinker](https://github.com/GyverLibs/GyverBlinker), [FileData](https://github.com/GyverLibs/FileData), [OneWireNg](https://github.com/pstolarz/OneWireNg) & [OneWire](https://github.com/PaulStoffregen/OneWire)
* To the developers of the libraries used: [OpenTherm Library](https://github.com/ihormelnyk/opentherm_library), [ESP8266Scheduler](https://github.com/nrwiersma/ESP8266Scheduler), [ArduinoJson](https://github.com/bblanchon/ArduinoJson), [NimBLE-Arduino](https://github.com/h2zero/NimBLE-Arduino), [ArduinoMqttClient](https://github.com/arduino-libraries/ArduinoMqttClient), [ESPTelnet](https://github.com/LennartHennigs/ESPTelnet), [FileData](https://github.com/GyverLibs/FileData), [GyverPID](https://github.com/GyverLibs/GyverPID), [GyverBlinker](https://github.com/GyverLibs/GyverBlinker), [OneWireNg](https://github.com/pstolarz/OneWireNg) & [OneWire](https://github.com/PaulStoffregen/OneWire)
* To the [PlatformIO](https://platformio.org/) Team
* To the team and contributors of the [pioarduino](https://github.com/pioarduino/platform-espressif32) project
* To the [BrowserStack](https://www.browserstack.com/) team. This project is tested with BrowserStack.

11
lib/CustomOpenTherm/CustomOpenTherm.h
View File

@@ -4,8 +4,8 @@
class CustomOpenTherm : public OpenTherm {
public:
typedef std::function<void(unsigned int)> DelayCallback;
typedef std::function<void(unsigned long, byte)> BeforeSendRequestCallback;
typedef std::function<void(unsigned long, unsigned long, OpenThermResponseStatus, byte)> AfterSendRequestCallback;
typedef std::function<void(unsigned long, uint8_t)> BeforeSendRequestCallback;
typedef std::function<void(unsigned long, unsigned long, OpenThermResponseStatus, uint8_t)> AfterSendRequestCallback;
CustomOpenTherm(int inPin = 4, int outPin = 5, bool isSlave = false, bool alwaysReceive = false) : OpenTherm(inPin, outPin, isSlave, alwaysReceive) {}
~CustomOpenTherm() {}
@@ -106,15 +106,14 @@ public:
return isValidResponse(response) && isValidResponseId(response, OpenThermMessageID::RemoteRequest);
}
static bool isCh2Active(unsigned long response)
{
static bool isCh2Active(unsigned long response) {
return response & 0x20;
}
static bool isValidResponseId(unsigned long response, OpenThermMessageID id) {
byte responseId = (response >> 16) & 0xFF;
uint8_t responseId = (response >> 16) & 0xFF;
return (byte)id == responseId;
return (uint8_t)id == responseId;
}
static uint8_t getResponseMessageTypeId(unsigned long response) {

12
lib/NetworkUtils/NetworkMgr.h
View File

@@ -35,7 +35,7 @@ namespace NetworkUtils {
return this;
}
NetworkMgr* setApCredentials(const char* ssid, const char* password = nullptr, byte channel = 0) {
NetworkMgr* setApCredentials(const char* ssid, const char* password = nullptr, uint8_t channel = 0) {
this->apName = ssid;
this->apPassword = password;
this->apChannel = channel;
@@ -43,7 +43,7 @@ namespace NetworkUtils {
return this;
}
NetworkMgr* setStaCredentials(const char* ssid = nullptr, const char* password = nullptr, byte channel = 0) {
NetworkMgr* setStaCredentials(const char* ssid = nullptr, const char* password = nullptr, uint8_t channel = 0) {
this->staSsid = ssid;
this->staPassword = password;
this->staChannel = channel;
@@ -140,7 +140,7 @@ namespace NetworkUtils {
return this->staPassword;
}
byte getStaChannel() {
uint8_t getStaChannel() {
return this->staChannel;
}
@@ -377,7 +377,7 @@ namespace NetworkUtils {
}
}
static byte rssiToSignalQuality(short int rssi) {
static uint8_t rssiToSignalQuality(short int rssi) {
return constrain(map(rssi, -100, -50, 0, 100), 0, 100);
}
@@ -397,11 +397,11 @@ namespace NetworkUtils {
const char* hostname = "esp";
const char* apName = "ESP";
const char* apPassword = nullptr;
byte apChannel = 1;
uint8_t apChannel = 1;
const char* staSsid = nullptr;
const char* staPassword = nullptr;
byte staChannel = 0;
uint8_t staChannel = 0;
bool useDhcp = true;
IPAddress staticIp;

586
platformio.ini
View File

@@ -1,375 +1,269 @@
; PlatformIO Project Configuration File
;
; Build options: build flags, source filter
; Upload options: custom upload port, speed and extra flags
; Library options: dependencies, extra library storages
; Advanced options: extra scripting
;
; Please visit documentation for the other options and examples
; https://docs.platformio.org/page/projectconf.html
[platformio]
;extra_configs = secrets.ini
extra_configs = secrets.default.ini
core_dir = .pio
;extra_configs = secrets.ini
extra_configs = secrets.default.ini
core_dir = .pio
[env]
version = 1.5.6
framework = arduino
lib_deps =
bblanchon/ArduinoJson@^7.3.0
;ihormelnyk/OpenTherm Library@^1.1.5
https://github.com/Laxilef/opentherm_library#esp32_timer
arduino-libraries/ArduinoMqttClient@^0.1.8
lennarthennigs/ESP Telnet@^2.2
gyverlibs/FileData@^1.0.2
gyverlibs/GyverPID@^3.3.2
gyverlibs/GyverBlinker@^1.1.1
https://github.com/pstolarz/Arduino-Temperature-Control-Library.git#OneWireNg
laxilef/TinyLogger@^1.1.1
build_type = ${secrets.build_type}
build_flags =
-mtext-section-literals
-D MQTT_CLIENT_STD_FUNCTION_CALLBACK=1
;-D DEBUG_ESP_CORE -D DEBUG_ESP_WIFI -D DEBUG_ESP_HTTP_SERVER -D DEBUG_ESP_PORT=Serial
-D BUILD_VERSION='"${this.version}"'
-D BUILD_ENV='"$PIOENV"'
-D DEFAULT_SERIAL_ENABLED=${secrets.serial_enabled}
-D DEFAULT_SERIAL_BAUD=${secrets.serial_baud}
-D DEFAULT_TELNET_ENABLED=${secrets.telnet_enabled}
-D DEFAULT_TELNET_PORT=${secrets.telnet_port}
-D DEFAULT_LOG_LEVEL=${secrets.log_level}
-D DEFAULT_HOSTNAME='"${secrets.hostname}"'
-D DEFAULT_AP_SSID='"${secrets.ap_ssid}"'
-D DEFAULT_AP_PASSWORD='"${secrets.ap_password}"'
-D DEFAULT_STA_SSID='"${secrets.sta_ssid}"'
-D DEFAULT_STA_PASSWORD='"${secrets.sta_password}"'
-D DEFAULT_PORTAL_LOGIN='"${secrets.portal_login}"'
-D DEFAULT_PORTAL_PASSWORD='"${secrets.portal_password}"'
-D DEFAULT_MQTT_ENABLED=${secrets.mqtt_enabled}
-D DEFAULT_MQTT_SERVER='"${secrets.mqtt_server}"'
-D DEFAULT_MQTT_PORT=${secrets.mqtt_port}
-D DEFAULT_MQTT_USER='"${secrets.mqtt_user}"'
-D DEFAULT_MQTT_PASSWORD='"${secrets.mqtt_password}"'
-D DEFAULT_MQTT_PREFIX='"${secrets.mqtt_prefix}"'
upload_speed = 921600
monitor_speed = 115200
;monitor_filters = direct
monitor_filters =
esp32_exception_decoder
esp8266_exception_decoder
board_build.flash_mode = dio
board_build.filesystem = littlefs
check_tool = ; pvs-studio
check_flags =
; pvs-studio:
; --analysis-mode=4
; --exclude-path=./.pio/libdeps
version = 1.5.7-passiveble
framework = arduino
lib_deps = bblanchon/ArduinoJson@^7.4.2
;ihormelnyk/OpenTherm Library@^1.1.5
https://github.com/Laxilef/opentherm_library#esp32_timer
arduino-libraries/ArduinoMqttClient@^0.1.8
lennarthennigs/ESP Telnet@^2.2.3
gyverlibs/FileData@^1.0.3
gyverlibs/GyverPID@^3.3.2
gyverlibs/GyverBlinker@^1.1.1
https://github.com/pstolarz/Arduino-Temperature-Control-Library.git#OneWireNg
laxilef/TinyLogger@^1.1.1
build_type = ${secrets.build_type}
build_flags = -mtext-section-literals
-Wno-deprecated-declarations
-D MQTT_CLIENT_STD_FUNCTION_CALLBACK=1
;-D DEBUG_ESP_CORE -D DEBUG_ESP_WIFI -D DEBUG_ESP_HTTP_SERVER -D DEBUG_ESP_PORT=Serial
-D BUILD_VERSION='"${this.version}"'
-D BUILD_ENV='"$PIOENV"'
-D DEFAULT_SERIAL_ENABLED=${secrets.serial_enabled}
-D DEFAULT_SERIAL_BAUD=${secrets.serial_baud}
-D DEFAULT_TELNET_ENABLED=${secrets.telnet_enabled}
-D DEFAULT_TELNET_PORT=${secrets.telnet_port}
-D DEFAULT_LOG_LEVEL=${secrets.log_level}
-D DEFAULT_HOSTNAME='"${secrets.hostname}"'
-D DEFAULT_AP_SSID='"${secrets.ap_ssid}"'
-D DEFAULT_AP_PASSWORD='"${secrets.ap_password}"'
-D DEFAULT_STA_SSID='"${secrets.sta_ssid}"'
-D DEFAULT_STA_PASSWORD='"${secrets.sta_password}"'
-D DEFAULT_PORTAL_LOGIN='"${secrets.portal_login}"'
-D DEFAULT_PORTAL_PASSWORD='"${secrets.portal_password}"'
-D DEFAULT_MQTT_ENABLED=${secrets.mqtt_enabled}
-D DEFAULT_MQTT_SERVER='"${secrets.mqtt_server}"'
-D DEFAULT_MQTT_PORT=${secrets.mqtt_port}
-D DEFAULT_MQTT_USER='"${secrets.mqtt_user}"'
-D DEFAULT_MQTT_PASSWORD='"${secrets.mqtt_password}"'
-D DEFAULT_MQTT_PREFIX='"${secrets.mqtt_prefix}"'
upload_speed = 921600
monitor_speed = 115200
;monitor_filters = direct
monitor_filters = esp32_exception_decoder
esp8266_exception_decoder
board_build.flash_mode = dio
board_build.filesystem = littlefs
check_tool = ;pvs-studio
check_flags = ;pvs-studio: --analysis-mode=4 --exclude-path=./.pio/libdeps
; Defaults
[esp8266_defaults]
platform = espressif8266@^4.2.1
platform_packages = ${env.platform_packages}
lib_deps =
${env.lib_deps}
nrwiersma/ESP8266Scheduler@^1.2
lib_ignore =
extra_scripts =
post:tools/build.py
build_type = ${env.build_type}
build_flags =
${env.build_flags}
-D PIO_FRAMEWORK_ARDUINO_LWIP2_LOW_MEMORY
;-D PIO_FRAMEWORK_ARDUINO_LWIP2_HIGHER_BANDWIDTH_LOW_FLASH
-D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK305
board_build.ldscript = eagle.flash.4m1m.ld
check_tool = ${env.check_tool}
check_flags = ${env.check_flags}
platform = espressif8266@^4.2.1
platform_packages = ${env.platform_packages}
lib_deps = ${env.lib_deps}
nrwiersma/ESP8266Scheduler@^1.2
lib_ignore =
extra_scripts = post:tools/build.py
build_type = ${env.build_type}
build_flags = ${env.build_flags}
-D PIO_FRAMEWORK_ARDUINO_LWIP2_LOW_MEMORY
;-D PIO_FRAMEWORK_ARDUINO_LWIP2_HIGHER_BANDWIDTH_LOW_FLASH
-D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK305
board_build.ldscript = eagle.flash.4m1m.ld
check_tool = ${env.check_tool}
check_flags = ${env.check_flags}
[esp32_defaults]
;platform = espressif32@^6.7
;platform = https://github.com/platformio/platform-espressif32.git
;platform_packages =
; 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
platform = https://github.com/pioarduino/platform-espressif32/releases/download/55.03.30-2/platform-espressif32.zip
platform_packages = ${env.platform_packages}
board_build.partitions = esp32_partitions.csv
lib_deps =
${env.lib_deps}
laxilef/ESP32Scheduler@^1.0.1
nimble_lib = h2zero/NimBLE-Arduino@^2.1.0
lib_ignore =
extra_scripts =
post:tools/esp32.py
post:tools/build.py
build_type = ${env.build_type}
build_flags =
${env.build_flags}
-D CORE_DEBUG_LEVEL=0
-Wl,--wrap=esp_panic_handler
check_tool = ${env.check_tool}
check_flags = ${env.check_flags}
platform = https://github.com/pioarduino/platform-espressif32/releases/download/55.03.32/platform-espressif32.zip
platform_packages = ${env.platform_packages}
board_build.partitions = esp32_partitions.csv
lib_deps = ${env.lib_deps}
laxilef/ESP32Scheduler@^1.0.1
nimble_lib = h2zero/NimBLE-Arduino@2.3.6
lib_ignore = ble
BluetoothSerial
SimpleBLE
ESP RainMaker
RainMaker
ESP Insights
Insights
Zigbee
Matter
OpenThread
dsp
custom_component_remove = espressif/esp_hosted
espressif/esp_wifi_remote
espressif/esp-dsp
espressif/esp_modem
espressif/esp_rainmaker
espressif/rmaker_common
espressif/esp_insights
espressif/esp_diag_data_store
espressif/esp_diagnostics
espressif/libsodium
espressif/esp-modbus
espressif/esp-cbor
espressif/esp-sr
espressif/esp32-camera
espressif/qrcode
espressif/esp-zboss-lib
espressif/esp-zigbee-lib
chmorgan/esp-libhelix-mp3
extra_scripts = post:tools/esp32.py
post:tools/build.py
build_type = ${env.build_type}
build_flags = ${env.build_flags}
-D CORE_DEBUG_LEVEL=0
-Wl,--wrap=esp_panic_handler
check_tool = ${env.check_tool}
check_flags = ${env.check_flags}
; Boards
[env:d1_mini]
platform = ${esp8266_defaults.platform}
platform_packages = ${esp8266_defaults.platform_packages}
board = d1_mini
lib_deps = ${esp8266_defaults.lib_deps}
lib_ignore = ${esp8266_defaults.lib_ignore}
extra_scripts = ${esp8266_defaults.extra_scripts}
board_build.ldscript = ${esp8266_defaults.board_build.ldscript}
build_type = ${esp8266_defaults.build_type}
build_flags =
${esp8266_defaults.build_flags}
-D DEFAULT_OT_IN_GPIO=4
-D DEFAULT_OT_OUT_GPIO=5
-D DEFAULT_SENSOR_OUTDOOR_GPIO=12
-D DEFAULT_SENSOR_INDOOR_GPIO=14
-D DEFAULT_STATUS_LED_GPIO=13
-D DEFAULT_OT_RX_LED_GPIO=15
check_tool = ${esp8266_defaults.check_tool}
check_flags = ${esp8266_defaults.check_flags}
extends = esp8266_defaults
board = d1_mini
build_flags = ${esp8266_defaults.build_flags}
-D DEFAULT_OT_IN_GPIO=4
-D DEFAULT_OT_OUT_GPIO=5
-D DEFAULT_SENSOR_OUTDOOR_GPIO=12
-D DEFAULT_SENSOR_INDOOR_GPIO=14
-D DEFAULT_STATUS_LED_GPIO=13
-D DEFAULT_OT_RX_LED_GPIO=15
[env:d1_mini_lite]
platform = ${esp8266_defaults.platform}
platform_packages = ${esp8266_defaults.platform_packages}
board = d1_mini_lite
lib_deps = ${esp8266_defaults.lib_deps}
lib_ignore = ${esp8266_defaults.lib_ignore}
extra_scripts = ${esp8266_defaults.extra_scripts}
board_build.ldscript = ${esp8266_defaults.board_build.ldscript}
build_type = ${esp8266_defaults.build_type}
build_flags =
${esp8266_defaults.build_flags}
-D DEFAULT_OT_IN_GPIO=4
-D DEFAULT_OT_OUT_GPIO=5
-D DEFAULT_SENSOR_OUTDOOR_GPIO=12
-D DEFAULT_SENSOR_INDOOR_GPIO=14
-D DEFAULT_STATUS_LED_GPIO=13
-D DEFAULT_OT_RX_LED_GPIO=15
check_tool = ${esp8266_defaults.check_tool}
check_flags = ${esp8266_defaults.check_flags}
extends = esp8266_defaults
board = d1_mini_lite
build_flags = ${esp8266_defaults.build_flags}
-D DEFAULT_OT_IN_GPIO=4
-D DEFAULT_OT_OUT_GPIO=5
-D DEFAULT_SENSOR_OUTDOOR_GPIO=12
-D DEFAULT_SENSOR_INDOOR_GPIO=14
-D DEFAULT_STATUS_LED_GPIO=13
-D DEFAULT_OT_RX_LED_GPIO=15
[env:d1_mini_pro]
platform = ${esp8266_defaults.platform}
platform_packages = ${esp8266_defaults.platform_packages}
board = d1_mini_pro
lib_deps = ${esp8266_defaults.lib_deps}
lib_ignore = ${esp8266_defaults.lib_ignore}
extra_scripts = ${esp8266_defaults.extra_scripts}
board_build.ldscript = ${esp8266_defaults.board_build.ldscript}
build_type = ${esp8266_defaults.build_type}
build_flags =
${esp8266_defaults.build_flags}
-D DEFAULT_OT_IN_GPIO=4
-D DEFAULT_OT_OUT_GPIO=5
-D DEFAULT_SENSOR_OUTDOOR_GPIO=12
-D DEFAULT_SENSOR_INDOOR_GPIO=14
-D DEFAULT_STATUS_LED_GPIO=13
-D DEFAULT_OT_RX_LED_GPIO=15
check_tool = ${esp8266_defaults.check_tool}
check_flags = ${esp8266_defaults.check_flags}
extends = esp8266_defaults
board = d1_mini_pro
build_flags = ${esp8266_defaults.build_flags}
-D DEFAULT_OT_IN_GPIO=4
-D DEFAULT_OT_OUT_GPIO=5
-D DEFAULT_SENSOR_OUTDOOR_GPIO=12
-D DEFAULT_SENSOR_INDOOR_GPIO=14
-D DEFAULT_STATUS_LED_GPIO=13
-D DEFAULT_OT_RX_LED_GPIO=15
[env:nodemcu_8266]
platform = ${esp8266_defaults.platform}
platform_packages = ${esp8266_defaults.platform_packages}
board = nodemcuv2
lib_deps = ${esp8266_defaults.lib_deps}
lib_ignore = ${esp8266_defaults.lib_ignore}
extra_scripts = ${esp8266_defaults.extra_scripts}
board_build.ldscript = ${esp8266_defaults.board_build.ldscript}
build_type = ${esp8266_defaults.build_type}
build_flags =
${esp8266_defaults.build_flags}
-D DEFAULT_OT_IN_GPIO=13
-D DEFAULT_OT_OUT_GPIO=15
-D DEFAULT_SENSOR_OUTDOOR_GPIO=12
-D DEFAULT_SENSOR_INDOOR_GPIO=4
-D DEFAULT_STATUS_LED_GPIO=2
-D DEFAULT_OT_RX_LED_GPIO=16
check_tool = ${esp8266_defaults.check_tool}
check_flags = ${esp8266_defaults.check_flags}
extends = esp8266_defaults
board = nodemcuv2
build_flags = ${esp8266_defaults.build_flags}
-D DEFAULT_OT_IN_GPIO=13
-D DEFAULT_OT_OUT_GPIO=15
-D DEFAULT_SENSOR_OUTDOOR_GPIO=12
-D DEFAULT_SENSOR_INDOOR_GPIO=4
-D DEFAULT_STATUS_LED_GPIO=2
-D DEFAULT_OT_RX_LED_GPIO=16
[env:s2_mini]
platform = ${esp32_defaults.platform}
platform_packages = ${esp32_defaults.platform_packages}
board = lolin_s2_mini
board_build.partitions = ${esp32_defaults.board_build.partitions}
lib_deps = ${esp32_defaults.lib_deps}
lib_ignore = ${esp32_defaults.lib_ignore}
extra_scripts = ${esp32_defaults.extra_scripts}
build_unflags =
-DARDUINO_USB_MODE=1
build_type = ${esp32_defaults.build_type}
build_flags =
${esp32_defaults.build_flags}
-D ARDUINO_USB_MODE=0
-D ARDUINO_USB_CDC_ON_BOOT=1
-D DEFAULT_OT_IN_GPIO=33
-D DEFAULT_OT_OUT_GPIO=35
-D DEFAULT_SENSOR_OUTDOOR_GPIO=9
-D DEFAULT_SENSOR_INDOOR_GPIO=7
-D DEFAULT_STATUS_LED_GPIO=11
-D DEFAULT_OT_RX_LED_GPIO=12
check_tool = ${esp32_defaults.check_tool}
check_flags = ${esp32_defaults.check_flags}
extends = esp32_defaults
board = lolin_s2_mini
build_unflags = -DARDUINO_USB_MODE=1
build_flags = ${esp32_defaults.build_flags}
-D ARDUINO_USB_MODE=0
-D ARDUINO_USB_CDC_ON_BOOT=1
-D DEFAULT_OT_IN_GPIO=33
-D DEFAULT_OT_OUT_GPIO=35
-D DEFAULT_SENSOR_OUTDOOR_GPIO=9
-D DEFAULT_SENSOR_INDOOR_GPIO=7
-D DEFAULT_STATUS_LED_GPIO=11
-D DEFAULT_OT_RX_LED_GPIO=12
[env:s3_mini]
platform = ${esp32_defaults.platform}
platform_packages = ${esp32_defaults.platform_packages}
board = lolin_s3_mini
board_build.partitions = ${esp32_defaults.board_build.partitions}
lib_deps =
${esp32_defaults.lib_deps}
${esp32_defaults.nimble_lib}
lib_ignore = ${esp32_defaults.lib_ignore}
extra_scripts = ${esp32_defaults.extra_scripts}
build_unflags =
-DARDUINO_USB_MODE=1
build_type = ${esp32_defaults.build_type}
build_flags =
${esp32_defaults.build_flags}
-D ARDUINO_USB_MODE=0
-D ARDUINO_USB_CDC_ON_BOOT=1
-D CONFIG_BT_NIMBLE_EXT_ADV=1
-D USE_BLE=1
-D DEFAULT_OT_IN_GPIO=35
-D DEFAULT_OT_OUT_GPIO=36
-D DEFAULT_SENSOR_OUTDOOR_GPIO=13
-D DEFAULT_SENSOR_INDOOR_GPIO=12
-D DEFAULT_STATUS_LED_GPIO=11
-D DEFAULT_OT_RX_LED_GPIO=10
check_tool = ${esp32_defaults.check_tool}
check_flags = ${esp32_defaults.check_flags}
[env:s3_mini]
extends = esp32_defaults
board = lolin_s3_mini
lib_deps = ${esp32_defaults.lib_deps}
${esp32_defaults.nimble_lib}
build_unflags = -DARDUINO_USB_MODE=1
build_flags = ${esp32_defaults.build_flags}
-D ARDUINO_USB_MODE=0
-D ARDUINO_USB_CDC_ON_BOOT=1
-D USE_BLE=1
-D DEFAULT_OT_IN_GPIO=35
-D DEFAULT_OT_OUT_GPIO=36
-D DEFAULT_SENSOR_OUTDOOR_GPIO=13
-D DEFAULT_SENSOR_INDOOR_GPIO=12
-D DEFAULT_STATUS_LED_GPIO=11
-D DEFAULT_OT_RX_LED_GPIO=10
[env:c3_mini]
platform = ${esp32_defaults.platform}
platform_packages = ${esp32_defaults.platform_packages}
board = lolin_c3_mini
board_build.partitions = ${esp32_defaults.board_build.partitions}
lib_deps =
${esp32_defaults.lib_deps}
${esp32_defaults.nimble_lib}
lib_ignore = ${esp32_defaults.lib_ignore}
extra_scripts = ${esp32_defaults.extra_scripts}
build_unflags =
-mtext-section-literals
build_type = ${esp32_defaults.build_type}
build_flags =
${esp32_defaults.build_flags}
-D CONFIG_BT_NIMBLE_EXT_ADV=1
-D USE_BLE=1
-D DEFAULT_OT_IN_GPIO=8
-D DEFAULT_OT_OUT_GPIO=10
-D DEFAULT_SENSOR_OUTDOOR_GPIO=0
-D DEFAULT_SENSOR_INDOOR_GPIO=1
-D DEFAULT_STATUS_LED_GPIO=4
-D DEFAULT_OT_RX_LED_GPIO=5
check_tool = ${esp32_defaults.check_tool}
check_flags = ${esp32_defaults.check_flags}
[env:c3_mini]
extends = esp32_defaults
board = lolin_c3_mini
lib_deps = ${esp32_defaults.lib_deps}
${esp32_defaults.nimble_lib}
build_unflags = -mtext-section-literals
build_flags = ${esp32_defaults.build_flags}
-D USE_BLE=1
-D DEFAULT_OT_IN_GPIO=8
-D DEFAULT_OT_OUT_GPIO=10
-D DEFAULT_SENSOR_OUTDOOR_GPIO=0
-D DEFAULT_SENSOR_INDOOR_GPIO=1
-D DEFAULT_STATUS_LED_GPIO=4
-D DEFAULT_OT_RX_LED_GPIO=5
[env:nodemcu_32]
platform = ${esp32_defaults.platform}
platform_packages = ${esp32_defaults.platform_packages}
board = nodemcu-32s
board_build.partitions = ${esp32_defaults.board_build.partitions}
lib_deps =
${esp32_defaults.lib_deps}
${esp32_defaults.nimble_lib}
lib_ignore = ${esp32_defaults.lib_ignore}
extra_scripts = ${esp32_defaults.extra_scripts}
build_type = ${esp32_defaults.build_type}
build_flags =
${esp32_defaults.build_flags}
-D USE_BLE=1
-D DEFAULT_OT_IN_GPIO=16
-D DEFAULT_OT_OUT_GPIO=4
-D DEFAULT_SENSOR_OUTDOOR_GPIO=15
-D DEFAULT_SENSOR_INDOOR_GPIO=26
-D DEFAULT_STATUS_LED_GPIO=2
-D DEFAULT_OT_RX_LED_GPIO=19
check_tool = ${esp32_defaults.check_tool}
check_flags = ${esp32_defaults.check_flags}
extends = esp32_defaults
board = nodemcu-32s
lib_deps = ${esp32_defaults.lib_deps}
${esp32_defaults.nimble_lib}
build_flags = ${esp32_defaults.build_flags}
-D USE_BLE=1
-D DEFAULT_OT_IN_GPIO=16
-D DEFAULT_OT_OUT_GPIO=4
-D DEFAULT_SENSOR_OUTDOOR_GPIO=15
-D DEFAULT_SENSOR_INDOOR_GPIO=26
-D DEFAULT_STATUS_LED_GPIO=2
-D DEFAULT_OT_RX_LED_GPIO=19
[env:nodemcu_32_160mhz]
extends = env:nodemcu_32
board_build.f_cpu = 160000000L ; set frequency to 160MHz
[env:d1_mini32]
platform = ${esp32_defaults.platform}
platform_packages = ${esp32_defaults.platform_packages}
board = wemos_d1_mini32
board_build.partitions = ${esp32_defaults.board_build.partitions}
lib_deps =
${esp32_defaults.lib_deps}
${esp32_defaults.nimble_lib}
lib_ignore = ${esp32_defaults.lib_ignore}
extra_scripts = ${esp32_defaults.extra_scripts}
build_type = ${esp32_defaults.build_type}
build_flags =
${esp32_defaults.build_flags}
-D USE_BLE=1
-D DEFAULT_OT_IN_GPIO=21
-D DEFAULT_OT_OUT_GPIO=22
-D DEFAULT_SENSOR_OUTDOOR_GPIO=12
-D DEFAULT_SENSOR_INDOOR_GPIO=18
-D DEFAULT_STATUS_LED_GPIO=2
-D DEFAULT_OT_RX_LED_GPIO=19
check_tool = ${esp32_defaults.check_tool}
check_flags = ${esp32_defaults.check_flags}
extends = esp32_defaults
board = wemos_d1_mini32
lib_deps = ${esp32_defaults.lib_deps}
${esp32_defaults.nimble_lib}
build_flags = ${esp32_defaults.build_flags}
-D USE_BLE=1
-D DEFAULT_OT_IN_GPIO=21
-D DEFAULT_OT_OUT_GPIO=22
-D DEFAULT_SENSOR_OUTDOOR_GPIO=12
-D DEFAULT_SENSOR_INDOOR_GPIO=18
-D DEFAULT_STATUS_LED_GPIO=2
-D DEFAULT_OT_RX_LED_GPIO=19
[env:esp32_c6]
platform = ${esp32_defaults.platform}
framework = arduino, espidf
platform_packages = ${esp32_defaults.platform_packages}
board = esp32-c6-devkitm-1
board_build.partitions = ${esp32_defaults.board_build.partitions}
board_build.embed_txtfiles =
managed_components/espressif__esp_insights/server_certs/https_server.crt
managed_components/espressif__esp_rainmaker/server_certs/rmaker_mqtt_server.crt
managed_components/espressif__esp_rainmaker/server_certs/rmaker_claim_service_server.crt
managed_components/espressif__esp_rainmaker/server_certs/rmaker_ota_server.crt
lib_deps = ${esp32_defaults.lib_deps}
lib_ignore =
${esp32_defaults.lib_ignore}
extra_scripts = ${esp32_defaults.extra_scripts}
build_unflags =
-mtext-section-literals
build_type = ${esp32_defaults.build_type}
build_flags =
${esp32_defaults.build_flags}
-D USE_BLE=1
-D DEFAULT_OT_IN_GPIO=15
-D DEFAULT_OT_OUT_GPIO=23
-D DEFAULT_SENSOR_OUTDOOR_GPIO=0
-D DEFAULT_SENSOR_INDOOR_GPIO=0
-D DEFAULT_STATUS_LED_GPIO=11
-D DEFAULT_OT_RX_LED_GPIO=10
check_tool = ${esp32_defaults.check_tool}
check_flags = ${esp32_defaults.check_flags}
extends = esp32_defaults
board = esp32-c6-devkitc-1
lib_deps = ${esp32_defaults.lib_deps}
${esp32_defaults.nimble_lib}
build_unflags = -mtext-section-literals
build_flags = ${esp32_defaults.build_flags}
-D USE_BLE=1
-D DEFAULT_OT_IN_GPIO=15
-D DEFAULT_OT_OUT_GPIO=23
-D DEFAULT_SENSOR_OUTDOOR_GPIO=0
-D DEFAULT_SENSOR_INDOOR_GPIO=0
-D DEFAULT_STATUS_LED_GPIO=11
-D DEFAULT_OT_RX_LED_GPIO=10
[env:otthing]
platform = ${esp32_defaults.platform}
platform_packages = ${esp32_defaults.platform_packages}
board = lolin_c3_mini
board_build.partitions = ${esp32_defaults.board_build.partitions}
lib_deps =
${esp32_defaults.lib_deps}
${esp32_defaults.nimble_lib}
lib_ignore = ${esp32_defaults.lib_ignore}
extra_scripts = ${esp32_defaults.extra_scripts}
build_unflags =
-mtext-section-literals
build_type = ${esp32_defaults.build_type}
build_flags =
${esp32_defaults.build_flags}
-D CONFIG_BT_NIMBLE_EXT_ADV=1
-D USE_BLE=1
-D DEFAULT_OT_IN_GPIO=3
-D DEFAULT_OT_OUT_GPIO=1
; -D DEFAULT_SENSOR_OUTDOOR_GPIO=0
; -D DEFAULT_SENSOR_INDOOR_GPIO=1
-D DEFAULT_STATUS_LED_GPIO=8
-D DEFAULT_OT_RX_LED_GPIO=2
-D OT_BYPASS_RELAY_GPIO=20
check_tool = ${esp32_defaults.check_tool}
check_flags = ${esp32_defaults.check_flags}
[env:otthing]
extends = esp32_defaults
board = lolin_c3_mini
lib_deps = ${esp32_defaults.lib_deps}
${esp32_defaults.nimble_lib}
build_unflags = -mtext-section-literals
build_flags = ${esp32_defaults.build_flags}
-D USE_BLE=1
-D DEFAULT_OT_IN_GPIO=3
-D DEFAULT_OT_OUT_GPIO=1
;-D DEFAULT_SENSOR_OUTDOOR_GPIO=0
;-D DEFAULT_SENSOR_INDOOR_GPIO=1
-D DEFAULT_STATUS_LED_GPIO=8
-D DEFAULT_OT_RX_LED_GPIO=2
-D OT_BYPASS_RELAY_GPIO=20

8
src/HaHelper.h
View File

@@ -3,8 +3,8 @@
class HaHelper : public HomeAssistantHelper {
public:
static const byte TEMP_SOURCE_HEATING = 0;
static const byte TEMP_SOURCE_INDOOR = 1;
static const uint8_t TEMP_SOURCE_HEATING = 0;
static const uint8_t TEMP_SOURCE_INDOOR = 1;
static const char AVAILABILITY_OT_CONN[];
static const char AVAILABILITY_SENSOR_CONN[];
@@ -1170,7 +1170,7 @@ public:
}
bool publishClimateHeating(UnitSystem unit = UnitSystem::METRIC, byte minTemp = 20, byte maxTemp = 90, bool enabledByDefault = true) {
bool publishClimateHeating(UnitSystem unit = UnitSystem::METRIC, uint8_t minTemp = 20, uint8_t maxTemp = 90, bool enabledByDefault = true) {
JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;
@@ -1222,7 +1222,7 @@ public:
return this->publish(this->makeConfigTopic(FPSTR(HA_ENTITY_CLIMATE), F("heating"), '_').c_str(), doc);
}
bool publishClimateDhw(UnitSystem unit = UnitSystem::METRIC, byte minTemp = 40, byte maxTemp = 60, bool enabledByDefault = true) {
bool publishClimateDhw(UnitSystem unit = UnitSystem::METRIC, uint8_t minTemp = 40, uint8_t maxTemp = 60, bool enabledByDefault = true) {
JsonDocument doc;
doc[FPSTR(HA_AVAILABILITY)][FPSTR(HA_TOPIC)] = this->statusTopic.c_str();
doc[FPSTR(HA_ENABLED_BY_DEFAULT)] = enabledByDefault;

2
src/MqttTask.h
View File

@@ -557,7 +557,7 @@ protected:
}
bool publishNonStaticHaEntities(bool force = false) {
static byte _heatingMinTemp, _heatingMaxTemp, _dhwMinTemp, _dhwMaxTemp = 0;
static uint8_t _heatingMinTemp, _heatingMaxTemp, _dhwMinTemp, _dhwMaxTemp = 0;
static bool _indoorTempControl, _dhwSupport = false;
bool published = false;

50
src/OpenThermTask.h
View File

@@ -19,8 +19,8 @@ protected:
CustomOpenTherm* instance = nullptr;
unsigned long instanceCreatedTime = 0;
byte instanceInGpio = 0;
byte instanceOutGpio = 0;
uint8_t instanceInGpio = 0;
uint8_t instanceOutGpio = 0;
bool initialized = false;
unsigned long connectedTime = 0;
unsigned long disconnectedTime = 0;
@@ -31,7 +31,7 @@ protected:
unsigned long heatingSetTempTime = 0;
unsigned long dhwSetTempTime = 0;
unsigned long ch2SetTempTime = 0;
byte configuredRxLedGpio = GPIO_IS_NOT_CONFIGURED;
uint8_t configuredRxLedGpio = GPIO_IS_NOT_CONFIGURED;
#if defined(ARDUINO_ARCH_ESP32)
const char* getTaskName() override {
@@ -90,7 +90,7 @@ protected:
Log.sinfoln(FPSTR(L_OT), F("Started. GPIO IN: %hhu, GPIO OUT: %hhu"), settings.opentherm.inGpio, settings.opentherm.outGpio);
this->instance->setAfterSendRequestCallback([this](unsigned long request, unsigned long response, OpenThermResponseStatus status, byte attempt) {
this->instance->setAfterSendRequestCallback([this](unsigned long request, unsigned long response, OpenThermResponseStatus status, uint8_t attempt) {
Log.sverboseln(
FPSTR(L_OT),
F("ID: %4d Request: %8lx Response: %8lx Msg type: %s Attempt: %2d Status: %s"),
@@ -236,7 +236,7 @@ protected:
vars.slave.heating.active = CustomOpenTherm::isCentralHeatingActive(response);
vars.slave.dhw.active = settings.opentherm.options.dhwSupport ? CustomOpenTherm::isHotWaterActive(response) : false;
vars.slave.flame = CustomOpenTherm::isFlameOn(response);
vars.slave.cooling = CustomOpenTherm::isCoolingActive(response);
vars.slave.cooling.active = CustomOpenTherm::isCoolingActive(response);
vars.slave.ch2.active = CustomOpenTherm::isCh2Active(response);
vars.slave.fault.active = CustomOpenTherm::isFault(response);
@@ -250,7 +250,7 @@ protected:
Log.snoticeln(
FPSTR(L_OT), F("Received boiler status. Heating: %hhu; DHW: %hhu; flame: %hhu; cooling: %hhu; channel 2: %hhu; fault: %hhu; diag: %hhu"),
vars.slave.heating.active, vars.slave.dhw.active,
vars.slave.flame, vars.slave.cooling, vars.slave.ch2.active, vars.slave.fault.active, vars.slave.diag.active
vars.slave.flame, vars.slave.cooling.active, vars.slave.ch2.active, vars.slave.fault.active, vars.slave.diag.active
);
}
@@ -318,6 +318,8 @@ protected:
vars.slave.dhw.enabled = false;
vars.slave.dhw.active = false;
vars.slave.flame = false;
vars.slave.cooling.active = false;
vars.slave.cooling.setpoint = 0;
vars.slave.fault.active = false;
vars.slave.fault.code = 0;
vars.slave.diag.active = false;
@@ -688,6 +690,22 @@ protected:
this->prevUpdateNonEssentialVars = millis();
}
// Set cooling setpoint = heating max modulation
if (settings.opentherm.options.coolingSupport) {
if (this->setCoolingSetpoint(settings.heating.maxModulation)) {
Log.snoticeln(
FPSTR(L_OT), F("Set cooling setpoint: %hhu%% (response: %hhu%%)"),
settings.heating.maxModulation, vars.slave.cooling.setpoint
);
} else {
Log.swarningln(
FPSTR(L_OT), F("Failed set cooling setpoint: %hhu%% (response: %hhu%%)"),
settings.heating.maxModulation, vars.slave.cooling.setpoint
);
}
}
// Set max modulation level
uint8_t targetMaxModulation = vars.slave.modulation.max;
if (vars.slave.heating.active) {
@@ -1568,6 +1586,26 @@ protected:
return CustomOpenTherm::getUInt(response) == request;
}
bool setCoolingSetpoint(const uint8_t value) {
const unsigned int request = CustomOpenTherm::toFloat(value);
const unsigned long response = this->instance->sendRequest(CustomOpenTherm::buildRequest(
OpenThermRequestType::WRITE_DATA,
OpenThermMessageID::CoolingControl,
request
));
if (!CustomOpenTherm::isValidResponse(response)) {
return false;
} else if (!CustomOpenTherm::isValidResponseId(response, OpenThermMessageID::CoolingControl)) {
return false;
}
vars.slave.cooling.setpoint = CustomOpenTherm::getFloat(response);
return CustomOpenTherm::getUInt(response) == request;
}
bool setMaxModulationLevel(const uint8_t value) {
const unsigned int request = CustomOpenTherm::toFloat(value);
const unsigned long response = this->instance->sendRequest(CustomOpenTherm::buildRequest(

3
src/RegulatorTask.h
View File

@@ -213,7 +213,8 @@ protected:
}*/
float error = pidRegulator.setpoint - pidRegulator.input;
bool hasDeadband = (error > -(settings.pid.deadband.thresholdHigh))
bool hasDeadband = settings.pid.deadband.enabled
&& (error > -(settings.pid.deadband.thresholdHigh))
&& (error < settings.pid.deadband.thresholdLow);
if (hasDeadband) {

6
src/Sensors.h
View File

@@ -149,7 +149,7 @@ public:
static int16_t getIdByName(const char* name) {
if (settings == nullptr) {
return 0;
return -1;
}
for (uint8_t id = 0; id <= getMaxSensorId(); id++) {
@@ -163,7 +163,7 @@ public:
static int16_t getIdByObjectId(const char* objectId) {
if (settings == nullptr) {
return 0;
return -1;
}
String refObjectId;
@@ -334,7 +334,7 @@ public:
uint8_t valueId = (uint8_t) valueType;
if (!isValidValueId(valueId)) {
return false;
return 0;
}
float value = 0.0f;

752
src/SensorsTask.h
View File

@@ -8,6 +8,140 @@
extern FileData fsSensorsSettings;
#if USE_BLE
class BluetoothScanCallbacks : public NimBLEScanCallbacks {
public:
void onDiscovered(const NimBLEAdvertisedDevice* device) override {
auto& deviceAddress = device->getAddress();
bool found = false;
uint8_t sensorId;
for (sensorId = 0; sensorId <= Sensors::getMaxSensorId(); sensorId++) {
auto& sSensor = Sensors::settings[sensorId];
if (!sSensor.enabled || sSensor.type != Sensors::Type::BLUETOOTH || sSensor.purpose == Sensors::Purpose::NOT_CONFIGURED) {
continue;
}
const auto sensorAddress = NimBLEAddress(sSensor.address, deviceAddress.getType());
if (sensorAddress.isNull() || sensorAddress != deviceAddress) {
continue;
}
found = true;
break;
}
if (!found) {
return;
}
auto& sSensor = Sensors::settings[sensorId];
auto& rSensor = Sensors::results[sensorId];
auto deviceName = device->getName();
auto deviceRssi = device->getRSSI();
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': discovered device %s, name: %s, RSSI: %hhd"),
sensorId, sSensor.name,
deviceAddress.toString().c_str(), deviceName.c_str(), deviceRssi
);
if (!device->haveServiceData()) {
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': not found service data"),
sensorId, sSensor.name
);
return;
}
auto serviceDataCount = device->getServiceDataCount();
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': found %hhu service data"),
sensorId, sSensor.name, serviceDataCount
);
NimBLEUUID serviceUuid((uint16_t) 0x181A);
auto serviceData = device->getServiceData(serviceUuid);
if (!serviceData.size()) {
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': NOT found %s env service data"),
sensorId, sSensor.name, serviceUuid.toString().c_str()
);
return;
}
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': found %s env service data"),
sensorId, sSensor.name, serviceUuid.toString().c_str()
);
float temperature, humidity;
uint16_t batteryMv;
uint8_t batteryLevel;
if (serviceData.size() == 13) {
// atc1441 format
// Temperature (2 bytes, big-endian)
temperature = (
(static_cast<uint8_t>(serviceData[6]) << 8) | static_cast<uint8_t>(serviceData[7])
) * 0.1f;
// Humidity (1 byte)
humidity = static_cast<uint8_t>(serviceData[8]);
// Battery mV (2 bytes, big-endian)
batteryMv = (static_cast<uint8_t>(serviceData[10]) << 8) | static_cast<uint8_t>(serviceData[11]);
// Battery level (1 byte)
batteryLevel = static_cast<uint8_t>(serviceData[9]);
} else if (serviceData.size() == 15) {
// custom pvvx format
// Temperature (2 bytes, little-endian)
temperature = (
(static_cast<uint8_t>(serviceData[7]) << 8) | static_cast<uint8_t>(serviceData[6])
) * 0.01f;
// Humidity (2 bytes, little-endian)
humidity = (
(static_cast<uint8_t>(serviceData[9]) << 8) | static_cast<uint8_t>(serviceData[8])
) * 0.01f;
// Battery mV (2 bytes, little-endian)
batteryMv = (static_cast<uint8_t>(serviceData[11]) << 8) | static_cast<uint8_t>(serviceData[10]);
// Battery level (1 byte)
batteryLevel = static_cast<uint8_t>(serviceData[12]);
} else {
// unknown format
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': unknown data format (size: %i)"),
sensorId, sSensor.name, serviceData.size()
);
return;
}
Log.straceln(
FPSTR(L_SENSORS_BLE),
F("Sensor #%hhu '%s', received temp: %.2f; humidity: %.2f, battery voltage: %hu, battery level: %hhu"),
sensorId, sSensor.name,
temperature, humidity, batteryMv, batteryLevel
);
// update data
Sensors::setValueById(sensorId, temperature, Sensors::ValueType::TEMPERATURE, true, true);
Sensors::setValueById(sensorId, humidity, Sensors::ValueType::HUMIDITY, true, true);
Sensors::setValueById(sensorId, batteryLevel, Sensors::ValueType::BATTERY, true, true);
// update rssi
Sensors::setValueById(sensorId, deviceRssi, Sensors::ValueType::RSSI, false, false);
}
};
#endif
class SensorsTask : public LeanTask {
public:
SensorsTask(bool _enabled = false, unsigned long _interval = 0) : LeanTask(_enabled, _interval) {
@@ -16,6 +150,10 @@ public:
this->dallasSearchTime.reserve(2);
this->dallasPolling.reserve(2);
this->dallasLastPollingTime.reserve(2);
#if USE_BLE
this->bluetoothScanCallbacks = new BluetoothScanCallbacks();
#endif
}
~SensorsTask() {
@@ -24,16 +162,17 @@ public:
this->dallasSearchTime.clear();
this->dallasPolling.clear();
this->dallasLastPollingTime.clear();
#if USE_BLE
delete this->bluetoothScanCallbacks;
#endif
}
protected:
const unsigned int disconnectedTimeout = 120000;
const unsigned short dallasSearchInterval = 60000;
const unsigned short dallasPollingInterval = 10000;
const unsigned short globalPollingInterval = 15000;
#if USE_BLE
const unsigned int bleSetDtInterval = 7200000;
#endif
const unsigned int disconnectedTimeout = 180000u;
const unsigned short dallasSearchInterval = 60000u;
const unsigned short dallasPollingInterval = 10000u;
const unsigned short globalPollingInterval = 15000u;
std::unordered_map<uint8_t, OneWire> owInstances;
std::unordered_map<uint8_t, DallasTemperature> dallasInstances;
@@ -41,8 +180,8 @@ protected:
std::unordered_map<uint8_t, bool> dallasPolling;
std::unordered_map<uint8_t, unsigned long> dallasLastPollingTime;
#if USE_BLE
std::unordered_map<uint8_t, bool> bleSubscribed;
std::unordered_map<uint8_t, unsigned long> bleLastSetDtTime;
NimBLEScan* pBLEScan = nullptr;
BluetoothScanCallbacks* bluetoothScanCallbacks = nullptr;
#endif
unsigned long globalLastPollingTime = 0;
@@ -91,8 +230,7 @@ protected:
this->yield();
#if USE_BLE
cleanBleInstances();
pollingBleSensors();
scanBleSensors();
this->yield();
#endif
@@ -385,7 +523,7 @@ protected:
continue;
}
const float sensorResistance = value > 0.001f
const float sensorResistance = value > 1
? DEFAULT_NTC_REF_RESISTANCE / (DEFAULT_NTC_VREF / (float) value - 1.0f)
: 0.0f;
const float rawTemp = 1.0f / (
@@ -404,572 +542,62 @@ protected:
}
#if USE_BLE
void cleanBleInstances() {
#if USE_BLE
if (!NimBLEDevice::isInitialized()) {
void scanBleSensors() {
if (!Sensors::getAmountByType(Sensors::Type::BLUETOOTH, true)) {
if (NimBLEDevice::isInitialized()) {
if (this->pBLEScan != nullptr) {
if (this->pBLEScan->isScanning()) {
this->pBLEScan->stop();
} else {
this->pBLEScan = nullptr;
}
}
if (this->pBLEScan == nullptr) {
if (NimBLEDevice::deinit(true)) {
Log.sinfoln(FPSTR(L_SENSORS_BLE), F("Deinitialized"));
} else {
Log.swarningln(FPSTR(L_SENSORS_BLE), F("Unable to deinitialize!"));
}
}
}
return;
}
for (auto client : NimBLEDevice::getConnectedClients()) {
auto address = client->getPeerAddress();
bool used = false;
for (uint8_t sensorId = 0; sensorId <= Sensors::getMaxSensorId(); sensorId++) {
auto& sSensor = Sensors::settings[sensorId];
if (!sSensor.enabled || sSensor.type != Sensors::Type::BLUETOOTH || sSensor.purpose == Sensors::Purpose::NOT_CONFIGURED) {
continue;
}
auto pAddress = address.getVal();
uint8_t addr[] = {
pAddress[5], pAddress[4], pAddress[3],
pAddress[2], pAddress[1], pAddress[0]
};
if (isEqualAddress(addr, sSensor.address, sizeof(addr))) {
used = true;
break;
}
}
if (!used) {
Log.sinfoln(
FPSTR(L_SENSORS_BLE), F("Deleted unused client connected to %s"),
address.toString().c_str()
);
NimBLEDevice::deleteClient(client);
}
}
#endif
}
void pollingBleSensors() {
if (!NimBLEDevice::isInitialized() && millis() > 5000) {
Log.sinfoln(FPSTR(L_SENSORS_BLE), F("Initialized"));
BLEDevice::init("");
NimBLEDevice::setPower(9);
}
for (uint8_t sensorId = 0; sensorId <= Sensors::getMaxSensorId(); sensorId++) {
auto& sSensor = Sensors::settings[sensorId];
auto& rSensor = Sensors::results[sensorId];
if (!sSensor.enabled || sSensor.type != Sensors::Type::BLUETOOTH || sSensor.purpose == Sensors::Purpose::NOT_CONFIGURED) {
continue;
}
auto client = this->getBleClient(sensorId);
if (client == nullptr) {
continue;
}
if (!client->isConnected()) {
this->bleSubscribed[sensorId] = false;
this->bleLastSetDtTime[sensorId] = 0;
if (client->connect()) {
Log.sinfoln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': connected to %s"),
sensorId, sSensor.name, client->getPeerAddress().toString().c_str()
);
} else {
Log.swarningln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': failed connecting to %s"),
sensorId, sSensor.name, client->getPeerAddress().toString().c_str()
);
continue;
}
}
if (!this->bleSubscribed[sensorId]) {
if (this->subscribeToBleDevice(sensorId, client)) {
this->bleSubscribed[sensorId] = true;
} else {
this->bleSubscribed[sensorId] = false;
client->disconnect();
continue;
}
}
// Mark connected
Sensors::setConnectionStatusById(sensorId, true, true);
if (!this->bleLastSetDtTime[sensorId] || millis() - this->bleLastSetDtTime[sensorId] > this->bleSetDtInterval) {
struct tm ti;
if (getLocalTime(&ti)) {
if (this->setDateOnBleSensor(client, &ti)) {
Log.sinfoln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s', successfully set date: %02d.%02d.%04d %02d:%02d:%02d"),
sensorId, sSensor.name,
ti.tm_mday, ti.tm_mon + 1, ti.tm_year + 1900, ti.tm_hour, ti.tm_min, ti.tm_sec
);
} else {
Log.swarningln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s', failed set date: %02d.%02d.%04d %02d:%02d:%02d"),
sensorId, sSensor.name,
ti.tm_mday, ti.tm_mon + 1, ti.tm_year + 1900, ti.tm_hour, ti.tm_min, ti.tm_sec
);
}
this->bleLastSetDtTime[sensorId] = millis();
}
}
}
}
NimBLEClient* getBleClient(const uint8_t sensorId) {
if (!NimBLEDevice::isInitialized()) {
return nullptr;
#if defined(ESP_PWR_LVL_P20)
NimBLEDevice::setPower(ESP_PWR_LVL_P20);
#elif defined(ESP_PWR_LVL_P9)
NimBLEDevice::setPower(ESP_PWR_LVL_P9);
#endif
}
auto& sSensor = Sensors::settings[sensorId];
auto& rSensor = Sensors::results[sensorId];
if (this->pBLEScan == nullptr) {
this->pBLEScan = NimBLEDevice::getScan();
this->pBLEScan->setScanCallbacks(this->bluetoothScanCallbacks);
this->pBLEScan->setActiveScan(false);
this->pBLEScan->setDuplicateFilter(false);
this->pBLEScan->setMaxResults(0);
this->pBLEScan->setInterval(100);
this->pBLEScan->setWindow(100);
if (!sSensor.enabled || sSensor.type != Sensors::Type::BLUETOOTH || sSensor.purpose == Sensors::Purpose::NOT_CONFIGURED) {
return nullptr;
}
uint8_t addr[6] = {
sSensor.address[0], sSensor.address[1], sSensor.address[2],
sSensor.address[3], sSensor.address[4], sSensor.address[5]
};
const auto address = NimBLEAddress(addr, 0);
NimBLEClient* pClient = NimBLEDevice::getClientByPeerAddress(address);
if (pClient == nullptr) {
pClient = NimBLEDevice::getDisconnectedClient();
Log.sinfoln(FPSTR(L_SENSORS_BLE), F("Scanning initialized"));
}
if (pClient == nullptr) {
if (NimBLEDevice::getCreatedClientCount() >= NIMBLE_MAX_CONNECTIONS) {
return nullptr;
}
pClient = NimBLEDevice::createClient();
if (pClient == nullptr) {
return nullptr;
}
/**
* Set initial connection parameters:
* These settings are safe for 3 clients to connect reliably, can go faster if you have less
* connections. Timeout should be a multiple of the interval, minimum is 100ms.
* Min interval: 12 * 1.25ms = 15, Max interval: 12 * 1.25ms = 15, 0 latency, 1000 * 10ms = 10000ms timeout
*/
pClient->setConnectionParams(12, 12, 0, 1000);
pClient->setConnectTimeout(5000);
pClient->setSelfDelete(false, true);
}
if (!pClient->isConnected()) {
pClient->setPeerAddress(address);
}
return pClient;
}
bool subscribeToBleDevice(const uint8_t sensorId, NimBLEClient* pClient) {
auto& sSensor = Sensors::settings[sensorId];
auto pAddress = pClient->getPeerAddress().toString().c_str();
NimBLERemoteService* pService = nullptr;
NimBLERemoteCharacteristic* pChar = nullptr;
// ENV Service (0x181A)
NimBLEUUID serviceUuid((uint16_t) 0x181AU);
pService = pClient->getService(serviceUuid);
if (!pService) {
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': failed to find env service (%s) on device %s"),
sensorId, sSensor.name, serviceUuid.toString().c_str(), pAddress
);
} else {
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': found env service (%s) on device %s"),
sensorId, sSensor.name, serviceUuid.toString().c_str(), pAddress
);
// 0x2A6E - Notify temperature x0.01C (pvvx)
bool tempNotifyCreated = false;
if (!tempNotifyCreated) {
NimBLEUUID charUuid((uint16_t) 0x2A6E);
pChar = pService->getCharacteristic(charUuid);
if (pChar && (pChar->canNotify() || pChar->canIndicate())) {
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': found temp char (%s) in env service on device %s"),
sensorId, sSensor.name, charUuid.toString().c_str(), pAddress
);
pChar->unsubscribe();
tempNotifyCreated = pChar->subscribe(
pChar->canNotify(),
[sensorId](NimBLERemoteCharacteristic* pChar, uint8_t* pData, size_t length, bool isNotify) {
if (pChar == nullptr) {
return;
}
const NimBLERemoteService* pService = pChar->getRemoteService();
if (pService == nullptr) {
return;
}
NimBLEClient* pClient = pService->getClient();
if (pClient == nullptr) {
return;
}
auto& sSensor = Sensors::settings[sensorId];
if (length != 2) {
Log.swarningln(
FPSTR(L_SENSORS_BLE),
F("Sensor #%hhu '%s': invalid notification data at temp char (%s) on device %s"),
sensorId,
sSensor.name,
pChar->getUUID().toString().c_str(),
pClient->getPeerAddress().toString().c_str()
);
return;
}
float rawTemp = (pChar->getValue<int16_t>() * 0.01f);
Log.straceln(
FPSTR(L_SENSORS_BLE),
F("Sensor #%hhu '%s': received temp: %.2f"),
sensorId, sSensor.name, rawTemp
);
// set temp
Sensors::setValueById(sensorId, rawTemp, Sensors::ValueType::TEMPERATURE, true, true);
// update rssi
Sensors::setValueById(sensorId, pClient->getRssi(), Sensors::ValueType::RSSI, false, false);
}
);
if (tempNotifyCreated) {
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': subscribed to temp char (%s) in env service on device %s"),
sensorId, sSensor.name,
charUuid.toString().c_str(), pAddress
);
} else {
Log.swarningln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': failed to subscribe to temp char (%s) in env service on device %s"),
sensorId, sSensor.name,
charUuid.toString().c_str(), pAddress
);
}
}
}
// 0x2A1F - Notify temperature x0.1C (atc1441/pvvx)
if (!tempNotifyCreated) {
NimBLEUUID charUuid((uint16_t) 0x2A1F);
pChar = pService->getCharacteristic(charUuid);
if (pChar && (pChar->canNotify() || pChar->canIndicate())) {
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': found temp char (%s) in env service on device %s"),
sensorId, sSensor.name, charUuid.toString().c_str(), pAddress
);
pChar->unsubscribe();
tempNotifyCreated = pChar->subscribe(
pChar->canNotify(),
[sensorId](NimBLERemoteCharacteristic* pChar, uint8_t* pData, size_t length, bool isNotify) {
if (pChar == nullptr) {
return;
}
const NimBLERemoteService* pService = pChar->getRemoteService();
if (pService == nullptr) {
return;
}
NimBLEClient* pClient = pService->getClient();
if (pClient == nullptr) {
return;
}
auto& sSensor = Sensors::settings[sensorId];
if (length != 2) {
Log.swarningln(
FPSTR(L_SENSORS_BLE),
F("Sensor #%hhu '%s': invalid notification data at temp char (%s) on device %s"),
sensorId,
sSensor.name,
pChar->getUUID().toString().c_str(),
pClient->getPeerAddress().toString().c_str()
);
return;
}
float rawTemp = (pChar->getValue<int16_t>() * 0.1f);
Log.straceln(
FPSTR(L_SENSORS_BLE),
F("Sensor #%hhu '%s': received temp: %.2f"),
sensorId, sSensor.name, rawTemp
);
// set temp
Sensors::setValueById(sensorId, rawTemp, Sensors::ValueType::TEMPERATURE, true, true);
// update rssi
Sensors::setValueById(sensorId, pClient->getRssi(), Sensors::ValueType::RSSI, false, false);
}
);
if (tempNotifyCreated) {
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': subscribed to temp char (%s) in env service on device %s"),
sensorId, sSensor.name,
charUuid.toString().c_str(), pAddress
);
} else {
Log.swarningln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': failed to subscribe to temp char (%s) in env service on device %s"),
sensorId, sSensor.name,
charUuid.toString().c_str(), pAddress
);
}
}
}
if (!tempNotifyCreated) {
Log.swarningln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': not found supported temp chars in env service on device %s"),
sensorId, sSensor.name, pAddress
);
pClient->disconnect();
return false;
}
// 0x2A6F - Notify about humidity x0.01% (pvvx)
{
bool humidityNotifyCreated = false;
if (!humidityNotifyCreated) {
NimBLEUUID charUuid((uint16_t) 0x2A6F);
pChar = pService->getCharacteristic(charUuid);
if (pChar && (pChar->canNotify() || pChar->canIndicate())) {
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': found humidity char (%s) in env service on device %s"),
sensorId, sSensor.name, charUuid.toString().c_str(), pAddress
);
pChar->unsubscribe();
humidityNotifyCreated = pChar->subscribe(
pChar->canNotify(),
[sensorId](NimBLERemoteCharacteristic* pChar, uint8_t* pData, size_t length, bool isNotify) {
if (pChar == nullptr) {
return;
}
const NimBLERemoteService* pService = pChar->getRemoteService();
if (pService == nullptr) {
return;
}
NimBLEClient* pClient = pService->getClient();
if (pClient == nullptr) {
return;
}
auto& sSensor = Sensors::settings[sensorId];
if (length != 2) {
Log.swarningln(
FPSTR(L_SENSORS_BLE),
F("Sensor #%hhu '%s': invalid notification data at humidity char (%s) on device %s"),
sensorId,
sSensor.name,
pChar->getUUID().toString().c_str(),
pClient->getPeerAddress().toString().c_str()
);
return;
}
float rawHumidity = (pChar->getValue<uint16_t>() * 0.01f);
Log.straceln(
FPSTR(L_SENSORS_BLE),
F("Sensor #%hhu '%s': received humidity: %.2f"),
sensorId, sSensor.name, rawHumidity
);
// set humidity
Sensors::setValueById(sensorId, rawHumidity, Sensors::ValueType::HUMIDITY, true, true);
// update rssi
Sensors::setValueById(sensorId, pClient->getRssi(), Sensors::ValueType::RSSI, false, false);
}
);
if (humidityNotifyCreated) {
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': subscribed to humidity char (%s) in env service on device %s"),
sensorId, sSensor.name,
charUuid.toString().c_str(), pAddress
);
} else {
Log.swarningln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': failed to subscribe to humidity char (%s) in env service on device %s"),
sensorId, sSensor.name,
charUuid.toString().c_str(), pAddress
);
}
}
}
if (!humidityNotifyCreated) {
Log.swarningln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': not found supported humidity chars in env service on device %s"),
sensorId, sSensor.name, pAddress
);
}
}
}
// Battery Service (0x180F)
{
NimBLEUUID serviceUuid((uint16_t) 0x180F);
pService = pClient->getService(serviceUuid);
if (!pService) {
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': failed to find battery service (%s) on device %s"),
sensorId, sSensor.name, serviceUuid.toString().c_str(), pAddress
);
if (!this->pBLEScan->isScanning()) {
if (this->pBLEScan->start(0, false, true)) {
Log.sinfoln(FPSTR(L_SENSORS_BLE), F("Scanning started"));
} else {
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': found battery service (%s) on device %s"),
sensorId, sSensor.name, serviceUuid.toString().c_str(), pAddress
);
// 0x2A19 - Notify the battery charge level 0..99% (pvvx)
bool batteryNotifyCreated = false;
if (!batteryNotifyCreated) {
NimBLEUUID charUuid((uint16_t) 0x2A19);
pChar = pService->getCharacteristic(charUuid);
if (pChar && (pChar->canNotify() || pChar->canIndicate())) {
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': found battery char (%s) in battery service on device %s"),
sensorId, sSensor.name, charUuid.toString().c_str(), pAddress
);
pChar->unsubscribe();
batteryNotifyCreated = pChar->subscribe(
pChar->canNotify(),
[sensorId](NimBLERemoteCharacteristic* pChar, uint8_t* pData, size_t length, bool isNotify) {
if (pChar == nullptr) {
return;
}
const NimBLERemoteService* pService = pChar->getRemoteService();
if (pService == nullptr) {
return;
}
NimBLEClient* pClient = pService->getClient();
if (pClient == nullptr) {
return;
}
auto& sSensor = Sensors::settings[sensorId];
if (length != 1) {
Log.swarningln(
FPSTR(L_SENSORS_BLE),
F("Sensor #%hhu '%s': invalid notification data at battery char (%s) on device %s"),
sensorId,
sSensor.name,
pChar->getUUID().toString().c_str(),
pClient->getPeerAddress().toString().c_str()
);
return;
}
auto rawBattery = pChar->getValue<uint8_t>();
Log.straceln(
FPSTR(L_SENSORS_BLE),
F("Sensor #%hhu '%s': received battery: %hhu"),
sensorId, sSensor.name, rawBattery
);
// set battery
Sensors::setValueById(sensorId, rawBattery, Sensors::ValueType::BATTERY, true, true);
// update rssi
Sensors::setValueById(sensorId, pClient->getRssi(), Sensors::ValueType::RSSI, false, false);
}
);
if (batteryNotifyCreated) {
Log.straceln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': subscribed to battery char (%s) in battery service on device %s"),
sensorId, sSensor.name,
charUuid.toString().c_str(), pAddress
);
} else {
Log.swarningln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': failed to subscribe to battery char (%s) in battery service on device %s"),
sensorId, sSensor.name,
charUuid.toString().c_str(), pAddress
);
}
}
}
if (!batteryNotifyCreated) {
Log.swarningln(
FPSTR(L_SENSORS_BLE), F("Sensor #%hhu '%s': not found supported battery chars in battery service on device %s"),
sensorId, sSensor.name, pAddress
);
}
Log.sinfoln(FPSTR(L_SENSORS_BLE), F("Unable to start scanning"));
}
}
return true;
}
bool setDateOnBleSensor(NimBLEClient* pClient, const struct tm *ptm) {
auto ts = mkgmtime(ptm);
uint8_t data[5] = {};
data[0] = 0x23;
data[1] = ts & 0xff;
data[2] = (ts >> 8) & 0xff;
data[3] = (ts >> 16) & 0xff;
data[4] = (ts >> 24) & 0xff;
return pClient->setValue(
NimBLEUUID((uint16_t) 0x1f10),
NimBLEUUID((uint16_t) 0x1f1f),
NimBLEAttValue(data, sizeof(data))
);
}
#endif

36
src/Settings.h
View File

@@ -12,13 +12,13 @@ struct NetworkSettings {
struct {
char ssid[33] = DEFAULT_AP_SSID;
char password[65] = DEFAULT_AP_PASSWORD;
byte channel = 6;
uint8_t channel = 6;
} ap;
struct {
char ssid[33] = DEFAULT_STA_SSID;
char password[65] = DEFAULT_STA_PASSWORD;
byte channel = 0;
uint8_t channel = 0;
} sta;
} networkSettings;
@@ -42,7 +42,7 @@ struct Settings {
} ntp;
UnitSystem unitSystem = UnitSystem::METRIC;
byte statusLedGpio = DEFAULT_STATUS_LED_GPIO;
uint8_t statusLedGpio = DEFAULT_STATUS_LED_GPIO;
} system;
struct {
@@ -54,9 +54,9 @@ struct Settings {
struct {
UnitSystem unitSystem = UnitSystem::METRIC;
byte inGpio = DEFAULT_OT_IN_GPIO;
byte outGpio = DEFAULT_OT_OUT_GPIO;
byte rxLedGpio = DEFAULT_OT_RX_LED_GPIO;
uint8_t inGpio = DEFAULT_OT_IN_GPIO;
uint8_t outGpio = DEFAULT_OT_OUT_GPIO;
uint8_t rxLedGpio = DEFAULT_OT_RX_LED_GPIO;
uint8_t memberId = 0;
uint8_t flags = 0;
float minPower = 0.0f;
@@ -105,8 +105,8 @@ struct Settings {
float target = DEFAULT_HEATING_TARGET_TEMP;
float hysteresis = 0.5f;
float turboFactor = 7.5f;
byte minTemp = DEFAULT_HEATING_MIN_TEMP;
byte maxTemp = DEFAULT_HEATING_MAX_TEMP;
uint8_t minTemp = DEFAULT_HEATING_MIN_TEMP;
uint8_t maxTemp = DEFAULT_HEATING_MAX_TEMP;
uint8_t maxModulation = 100;
struct {
@@ -123,8 +123,8 @@ struct Settings {
struct {
bool enabled = true;
float target = DEFAULT_DHW_TARGET_TEMP;
byte minTemp = DEFAULT_DHW_MIN_TEMP;
byte maxTemp = DEFAULT_DHW_MAX_TEMP;
uint8_t minTemp = DEFAULT_DHW_MIN_TEMP;
uint8_t maxTemp = DEFAULT_DHW_MAX_TEMP;
uint8_t maxModulation = 100;
struct {
@@ -161,7 +161,7 @@ struct Settings {
struct {
bool use = false;
byte gpio = DEFAULT_EXT_PUMP_GPIO;
uint8_t gpio = DEFAULT_EXT_PUMP_GPIO;
unsigned short postCirculationTime = 600;
unsigned int antiStuckInterval = 2592000;
unsigned short antiStuckTime = 300;
@@ -170,15 +170,15 @@ struct Settings {
struct {
struct {
bool enabled = false;
byte gpio = GPIO_IS_NOT_CONFIGURED;
byte invertState = false;
uint8_t gpio = GPIO_IS_NOT_CONFIGURED;
bool invertState = false;
unsigned short thresholdTime = 60;
} input;
struct {
bool enabled = false;
byte gpio = GPIO_IS_NOT_CONFIGURED;
byte invertState = false;
uint8_t gpio = GPIO_IS_NOT_CONFIGURED;
bool invertState = false;
unsigned short thresholdTime = 60;
bool onFault = true;
bool onLossConnection = true;
@@ -329,10 +329,14 @@ struct Variables {
bool connected = false;
bool flame = false;
bool cooling = false;
float pressure = 0.0f;
float heatExchangerTemp = 0.0f;
struct {
bool active = false;
uint8_t setpoint = 0;
} cooling;
struct {
bool active = false;
uint8_t code = 0;

1
src/strings.h
View File

@@ -190,6 +190,7 @@ const char S_STA[] PROGMEM = "sta";
const char S_STATE[] PROGMEM = "state";
const char S_STATIC_CONFIG[] PROGMEM = "staticConfig";
const char S_STATUS_LED_GPIO[] PROGMEM = "statusLedGpio";
const char S_SETPOINT[] PROGMEM = "setpoint";
const char S_SETPOINT_TEMP[] PROGMEM = "setpointTemp";
const char S_SUBNET[] PROGMEM = "subnet";
const char S_SUMMER_WINTER_MODE[] PROGMEM = "summerWinterMode";

33
src/utils.h
View File

@@ -72,7 +72,7 @@ time_t mkgmtime(const struct tm *ptm) {
inline bool isDigit(const char* ptr) {
char* endPtr;
strtol(ptr, &endPtr, 10);
auto tmp = strtol(ptr, &endPtr, 10);
return *endPtr == 0;
}
@@ -1324,7 +1324,7 @@ bool jsonToSettings(const JsonVariantConst src, Settings& dst, bool safe = false
if (!src[FPSTR(S_HEATING)][FPSTR(S_MIN_TEMP)].isNull()) {
unsigned char value = src[FPSTR(S_HEATING)][FPSTR(S_MIN_TEMP)].as<unsigned char>();
if (value != dst.heating.minTemp && value >= vars.slave.heating.minTemp && value < vars.slave.heating.maxTemp && value != dst.heating.minTemp) {
if (value != dst.heating.minTemp && value >= vars.slave.heating.minTemp && value < vars.slave.heating.maxTemp && value != dst.heating.maxTemp) {
dst.heating.minTemp = value;
changed = true;
}
@@ -1333,7 +1333,7 @@ bool jsonToSettings(const JsonVariantConst src, Settings& dst, bool safe = false
if (!src[FPSTR(S_HEATING)][FPSTR(S_MAX_TEMP)].isNull()) {
unsigned char value = src[FPSTR(S_HEATING)][FPSTR(S_MAX_TEMP)].as<unsigned char>();
if (value != dst.heating.maxTemp && value > vars.slave.heating.minTemp && value <= vars.slave.heating.maxTemp && value != dst.heating.maxTemp) {
if (value != dst.heating.maxTemp && value > vars.slave.heating.minTemp && value <= vars.slave.heating.maxTemp && value != dst.heating.minTemp) {
dst.heating.maxTemp = value;
changed = true;
}
@@ -1894,7 +1894,7 @@ bool jsonToSensorSettings(const uint8_t sensorId, const JsonVariantConst src, Se
// gpio
if (!src[FPSTR(S_GPIO)].isNull()) {
if (dst.type != Sensors::Type::DALLAS_TEMP && dst.type == Sensors::Type::BLUETOOTH && dst.type == Sensors::Type::NTC_10K_TEMP) {
if (dst.type != Sensors::Type::DALLAS_TEMP && dst.type != Sensors::Type::NTC_10K_TEMP) {
if (dst.gpio != GPIO_IS_NOT_CONFIGURED) {
dst.gpio = GPIO_IS_NOT_CONFIGURED;
changed = true;
@@ -1930,12 +1930,20 @@ bool jsonToSensorSettings(const uint8_t sensorId, const JsonVariantConst src, Se
);
if (parsed == 8) {
for (uint8_t i = 0; i < 8; i++) {
for (uint8_t i = 0; i < parsed; i++) {
if (dst.address[i] != tmp[i]) {
dst.address[i] = tmp[i];
changed = true;
}
}
} else {
// reset
for (uint8_t i = 0; i < sizeof(dst.address); i++) {
dst.address[i] = 0x00;
}
changed = true;
}
} else if (dst.type == Sensors::Type::BLUETOOTH) {
@@ -1948,12 +1956,20 @@ bool jsonToSensorSettings(const uint8_t sensorId, const JsonVariantConst src, Se
);
if (parsed == 6) {
for (uint8_t i = 0; i < 6; i++) {
for (uint8_t i = 0; i < parsed; i++) {
if (dst.address[i] != tmp[i]) {
dst.address[i] = tmp[i];
changed = true;
}
}
} else {
// reset
for (uint8_t i = 0; i < sizeof(dst.address); i++) {
dst.address[i] = 0x00;
}
changed = true;
}
}
}
@@ -2060,7 +2076,10 @@ void varsToJson(const Variables& src, JsonVariant dst) {
slave[FPSTR(S_PROTOCOL_VERSION)] = src.slave.appVersion;
slave[FPSTR(S_CONNECTED)] = src.slave.connected;
slave[FPSTR(S_FLAME)] = src.slave.flame;
slave[FPSTR(S_COOLING)] = src.slave.cooling;
auto sCooling = slave[FPSTR(S_COOLING)].to<JsonObject>();
sCooling[FPSTR(S_ACTIVE)] = src.slave.cooling.active;
sCooling[FPSTR(S_SETPOINT)] = src.slave.cooling.setpoint;
auto sModulation = slave[FPSTR(S_MODULATION)].to<JsonObject>();
sModulation[FPSTR(S_MIN)] = src.slave.modulation.min;

3
src_data/locales/cn.json
View File

@@ -109,7 +109,8 @@
"sConnected": "OpenTherm 通讯状态",
"sFlame": "火焰",
"sCooling": "制冷",
"sCoolingActive": "制冷",
"sCoolingSetpoint": "冷却设定点",
"sFaultActive": "报警状态",
"sFaultCode": "报警代码",
"sDiagActive": "诊断状态",

3
src_data/locales/en.json
View File

@@ -109,7 +109,8 @@
"sConnected": "OpenTherm connection",
"sFlame": "Flame",
"sCooling": "Cooling",
"sCoolingActive": "Cooling",
"sCoolingSetpoint": "Cooling setpoint",
"sFaultActive": "Fault",
"sFaultCode": "Fault code",
"sDiagActive": "Diagnostic",

3
src_data/locales/it.json
View File

@@ -109,7 +109,8 @@
"sConnected": "Connessione OpenTherm",
"sFlame": "Fiamma",
"sCooling": "Raffrescamento",
"sCoolingActive": "Raffrescamento",
"sCoolingSetpoint": "Raffrescamento setpoint",
"sFaultActive": "Anomalia",
"sFaultCode": "Codice anomalia",
"sDiagActive": "Diagnostica",

465
src_data/locales/nl.json Normal file
View File

@@ -0,0 +1,465 @@
{
"values": {
"logo": "OpenTherm Gateway",
"nav": {
"license": "Licentie",
"source": "Broncode",
"help": "Help",
"issues": "Problemen & vragen",
"releases": "Releases"
},
"dbm": "dBm",
"kw": "kW",
"time": {
"days": "d.",
"hours": "u.",
"min": "min.",
"sec": "sec."
},
"button": {
"upgrade": "Upgraden",
"restart": "Herstarten",
"save": "Opslaan",
"saved": "Opgeslagen",
"refresh": "Vernieuwen",
"restore": "Herstellen",
"restored": "Hersteld",
"backup": "Back-up",
"wait": "Even wachten...",
"uploading": "Uploaden...",
"success": "Succes",
"error": "Fout"
},
"index": {
"title": "OpenTherm Gateway",
"section": {
"network": "Netwerk",
"system": "Systeem"
},
"system": {
"build": {
"title": "Build",
"version": "Versie",
"date": "Datum",
"core": "Core",
"sdk": "SDK"
},
"uptime": "Uptime",
"memory": {
"title": "Vrij geheugen",
"maxFreeBlock": "max. vrij blok",
"min": "min"
},
"board": "Board",
"chip": {
"model": "Chip",
"cores": "Kernen",
"freq": "frequentie"
},
"flash": {
"size": "Flash-grootte",
"realSize": "werkelijke grootte"
},
"lastResetReason": "Reden laatste herstart"
}
},
"dashboard": {
"name": "Dashboard",
"title": "Dashboard - OpenTherm Gateway",
"section": {
"control": "Bediening",
"states": "Statussen",
"sensors": "Sensoren",
"diag": "OpenTherm diagnose"
},
"thermostat": {
"heating": "Verwarming",
"dhw": "Warm water",
"temp.current": "Huidig",
"enable": "Inschakelen",
"turbo": "Turbomodus"
},
"notify": {
"fault": {
"title": "Ketelstoring is actief!",
"note": "Het wordt aanbevolen de ketel te inspecteren en de documentatie te raadplegen om de storingscode te interpreteren:"
},
"diag": {
"title": "Keteldiagnose is actief!",
"note": "Heeft uw ketel misschien een inspectie nodig? Het wordt aanbevolen de documentatie te raadplegen om de diagnosecode te interpreteren:"
},
"reset": "Probeer te resetten"
},
"states": {
"mNetworkConnected": "Netwerkverbinding",
"mMqttConnected": "MQTT-verbinding",
"mEmergencyState": "Noodmodus",
"mExtPumpState": "Externe pomp",
"mCascadeControlInput": "Cascaderegeling (ingang)",
"mCascadeControlOutput": "Cascaderegeling (uitgang)",
"sConnected": "OpenTherm-verbinding",
"sFlame": "Vlam",
"sCoolingActive": "Koeling",
"sCoolingSetpoint": "Koelinstelpunt",
"sFaultActive": "Storing",
"sFaultCode": "Storingscode",
"sDiagActive": "Diagnose",
"sDiagCode": "Diagnosecode",
"mHeatEnabled": "Verwarming ingeschakeld",
"mHeatBlocking": "Verwarming geblokkeerd",
"mHeatOverheat": "Verwarming oververhit",
"sHeatActive": "Verwarming actief",
"mHeatSetpointTemp": "Insteltemperatuur verwarming",
"mHeatTargetTemp": "Doeltemperatuur verwarming",
"mHeatCurrTemp": "Huidige temperatuur verwarming",
"mHeatRetTemp": "Retourtemperatuur verwarming",
"mHeatIndoorTemp": "Verwarming, binnentemperatuur",
"mHeatOutdoorTemp": "Verwarming, buitentemperatuur",
"mDhwEnabled": "Warm water ingeschakeld",
"mDhwOverheat": "Warm water oververhit",
"sDhwActive": "Warm water actief",
"mDhwTargetTemp": "Doeltemperatuur warm water",
"mDhwCurrTemp": "Huidige temperatuur warm water",
"mDhwRetTemp": "Retourtemperatuur warm water"
},
"sensors": {
"values": {
"temp": "Temperatuur",
"humidity": "Luchtvochtigheid",
"battery": "Batterij",
"rssi": "RSSI"
}
}
},
"network": {
"title": "Netwerk - OpenTherm Gateway",
"name": "Netwerkinstellingen",
"section": {
"static": "Statische instellingen",
"availableNetworks": "Beschikbare netwerken",
"staSettings": "WiFi-instellingen",
"apSettings": "AP-instellingen"
},
"scan": {
"pos": "#",
"info": "Info"
},
"wifi": {
"ssid": "SSID",
"password": "Wachtwoord",
"channel": "Kanaal",
"signal": "Signaal",
"connected": "Verbonden"
},
"params": {
"hostname": "Hostnaam",
"dhcp": "Gebruik DHCP",
"mac": "MAC",
"ip": "IP",
"subnet": "Subnet",
"gateway": "Gateway",
"dns": "DNS"
},
"sta": {
"channel.note": "zet op 0 voor automatische selectie"
}
},
"sensors": {
"title": "Sensorinstellingen - OpenTherm Gateway",
"name": "Sensorinstellingen",
"enabled": "Ingeschakeld",
"sensorName": {
"title": "Sensornaam",
"note": "Mag alleen bevatten: a-z, A-Z, 0-9, _ en spatie"
},
"purpose": "Doel",
"purposes": {
"outdoorTemp": "Buitentemperatuur",
"indoorTemp": "Binnentemperatuur",
"heatTemp": "Verwarming, temperatuur",
"heatRetTemp": "Verwarming, retourtemperatuur",
"dhwTemp": "Warm water, temperatuur",
"dhwRetTemp": "Warm water, retourtemperatuur",
"dhwFlowRate": "Warm water, doorstroomsnelheid",
"exhaustTemp": "Rookgastemperatuur",
"modLevel": "Modulatieniveau (in procenten)",
"number": "Getal (ruw)",
"powerFactor": "Vermogen (in procent)",
"power": "Vermogen (in kWt)",
"fanSpeed": "Ventilatorsnelheid",
"co2": "CO2",
"pressure": "Druk",
"humidity": "Luchtvochtigheid",
"temperature": "Temperatuur",
"notConfigured": "Niet geconfigureerd"
},
"type": "Type/bron",
"types": {
"otOutdoorTemp": "OpenTherm, buitentemp.",
"otHeatTemp": "OpenTherm, verwarming, temp.",
"otHeatRetTemp": "OpenTherm, verwarming, retourtemp.",
"otDhwTemp": "OpenTherm, warm water, temperatuur",
"otDhwTemp2": "OpenTherm, warm water, temperatuur 2",
"otDhwFlowRate": "OpenTherm, warm water, doorstroomsnelheid",
"otCh2Temp": "OpenTherm, kanaal 2, temp.",
"otExhaustTemp": "OpenTherm, rookgastemp.",
"otHeatExchangerTemp": "OpenTherm, warmtewisselaar temp.",
"otPressure": "OpenTherm, druk",
"otModLevel": "OpenTherm, modulatieniveau",
"otCurrentPower": "OpenTherm, huidig vermogen",
"otExhaustCo2": "OpenTherm, rookgas CO2",
"otExhaustFanSpeed": "OpenTherm, rookgasventilator snelheid",
"otSupplyFanSpeed": "OpenTherm, toevoerventilator snelheid",
"otSolarStorageTemp": "OpenTherm, zonneboiler opslagtemp.",
"otSolarCollectorTemp": "OpenTherm, zonnecollector temp.",
"otFanSpeedSetpoint": "OpenTherm, instelpunt ventilatorsnelheid",
"otFanSpeedCurrent": "OpenTherm, huidige ventilatorsnelheid",
"otBurnerStarts": "OpenTherm, aantal branderstarts",
"otDhwBurnerStarts": "OpenTherm, aantal branderstarts (warm water)",
"otHeatingPumpStarts": "OpenTherm, aantal pompstarts (verwarming)",
"otDhwPumpStarts": "OpenTherm, aantal pompstarts (warm water)",
"otBurnerHours": "OpenTherm, aantal branderuren",
"otDhwBurnerHours": "OpenTherm, aantal branderuren (warm water)",
"otHeatingPumpHours": "OpenTherm, aantal pompuren (verwarming)",
"otDhwPumpHours": "OpenTherm, aantal pompuren (warm water)",
"ntcTemp": "NTC-sensor",
"dallasTemp": "DALLAS-sensor",
"bluetooth": "BLE-sensor",
"heatSetpointTemp": "Verwarming, insteltemperatuur",
"manual": "Handmatig via MQTT/API",
"notConfigured": "Niet geconfigureerd"
},
"gpio": "GPIO",
"address": {
"title": "Sensoradres",
"note": "Laat leeg voor automatische detectie van DALLAS-sensoren. Voor BLE-apparaten is een MAC-adres vereist."
},
"correction": {
"desc": "Correctie van waarden",
"offset": "Compensatie (offset)",
"factor": "Vermenigvuldiger"
},
"filtering": {
"desc": "Filteren van waarden",
"enabled": {
"title": "Filteren ingeschakeld",
"note": "Kan handig zijn bij veel scherpe ruis in de grafieken. Het gebruikte filter is \"Voortschrijdend gemiddelde\"."
},
"factor": {
"title": "Filterfactor",
"note": "Hoe lager de waarde, hoe vloeiender en <u>langer</u> de verandering in numerieke waarden."
}
}
},
"settings": {
"title": "Instellingen - OpenTherm Gateway",
"name": "Instellingen",
"section": {
"portal": "Portaalinstellingen",
"system": "Systeeminstellingen",
"diag": "Diagnose",
"heating": "Verwarmingsinstellingen",
"dhw": "Warmwaterinstellingen",
"emergency": "Instellingen noodmodus",
"equitherm": "Equitherm-instellingen",
"pid": "PID-instellingen",
"ot": "OpenTherm-instellingen",
"mqtt": "MQTT-instellingen",
"extPump": "Instellingen externe pomp",
"cascadeControl": "Instellingen cascaderegeling"
},
"enable": "Inschakelen",
"note": {
"restart": "Na het wijzigen van deze instellingen moet het apparaat opnieuw worden opgestart om de wijzigingen door te voeren.",
"blankNotUse": "leeg - niet gebruiken",
"bleDevice": "BLE-apparaat kan <u>alleen</u> worden gebruikt met sommige ESP32-boards met BLE-ondersteuning!"
},
"temp": {
"min": "Minimumtemperatuur",
"max": "Maximumtemperatuur"
},
"maxModulation": "Max. modulatieniveau",
"ohProtection": {
"title": "Oververhittingsbeveiliging",
"desc": "<b>Let op:</b> Deze functie kan handig zijn als de ingebouwde oververhittingsbeveiliging van de ketel niet of niet correct werkt en de warmtedrager kookt. Om uit te schakelen, stel 0 in als <b>hoge</b> en <b>lage</b> temperatuur.",
"highTemp": {
"title": "Drempelwaarde hoge temperatuur",
"note": "Drempelwaarde waarbij de brander geforceerd wordt uitgeschakeld"
},
"lowTemp": {
"title": "Drempelwaarde lage temperatuur",
"note": "Drempelwaarde waarbij de brander weer ingeschakeld kan worden"
}
},
"freezeProtection": {
"title": "Vorstbeveiliging",
"desc": "De verwarming wordt geforceerd ingeschakeld als de temperatuur van de warmtedrager of de binnentemperatuur onder de <b>Lage temperatuur</b> daalt gedurende de <b>Wachttijd</b>.",
"lowTemp": "Drempelwaarde lage temperatuur",
"thresholdTime": "Wachttijd <small>(sec)</small>"
},
"portal": {
"login": "Gebruikersnaam",
"password": "Wachtwoord",
"auth": "Authenticatie vereisen",
"mdns": "Gebruik mDNS"
},
"system": {
"unit": "Eenheidssysteem",
"metric": "Metrisch <small>(celsius, liters, bar)</small>",
"imperial": "Imperiaal <small>(fahrenheit, gallons, psi)</small>",
"statusLedGpio": "Status LED GPIO",
"logLevel": "Logniveau",
"serial": {
"enable": "Seriële poort ingeschakeld",
"baud": "Baudrate seriële poort"
},
"telnet": {
"enable": "Telnet ingeschakeld",
"port": {
"title": "Telnet-poort",
"note": "Standaard: 23"
}
},
"ntp": {
"server": "NTP-server",
"timezone": "Tijdzone",
"timezonePresets": "Selecteer voorinstelling..."
}
},
"heating": {
"hyst": "Hysterese <small>(in graden)</small>",
"turboFactor": "Turbomodus coëff."
},
"emergency": {
"desc": "Noodmodus wordt automatisch geactiveerd wanneer «PID» of «Equitherm» het instelpunt van de warmtedrager niet kan berekenen:<br />- als «Equitherm» is ingeschakeld en de buitentemperatuursensor is losgekoppeld;<br />- als «PID» of OT-optie <i>«Natuurlijke verwarmingsregeling»</i> is ingeschakeld en de binnentemperatuursensor is losgekoppeld.<br /><b>Let op:</b> Bij een netwerk- of MQTT-storing krijgen sensoren van het type <i>«Handmatig via MQTT/API»</i> de status ONVERBONDEN.",
"target": {
"title": "Doeltemperatuur",
"note": "<b>Belangrijk:</b> <u>Doel binnentemperatuur</u> als OT-optie <i>«Natuurlijke verwarmingsregeling»</i> is ingeschakeld.<br />In alle andere gevallen, de <u>doel warmtedragertemperatuur</u>."
},
"treshold": "Drempeltijd <small>(sec)</small>"
},
"equitherm": {
"n": "N-factor",
"k": "K-factor",
"t": {
"title": "T-factor",
"note": "Niet gebruikt als PID is ingeschakeld"
}
},
"pid": {
"p": "P-factor",
"i": "I-factor",
"d": "D-factor",
"dt": "DT <small>in seconden</small>",
"limits": {
"title": "Limieten",
"note": "<b>Belangrijk:</b> Bij gelijktijdig gebruik van «Equitherm» en «PID» beperken de min- en maxtemperaturen de invloed op de resulterende «Equitherm»-temperatuur.<br />Dus, als de min-temperatuur is ingesteld op -15 en de max-temperatuur op 15, zal het uiteindelijke instelpunt van de warmtedrager liggen tussen <code>equitherm_resultaat - 15</code> en <code>equitherm_resultaat + 15</code>."
},
"deadband": {
"title": "Deadband",
"note": "Deadband is een bereik rond de doeltemperatuur waarbinnen de PID-regeling minder actief wordt. Binnen dit bereik kan het algoritme de intensiteit verminderen of aanpassingen pauzeren om overreactie op kleine schommelingen te voorkomen.<br /><br />Bijvoorbeeld, met een doeltemperatuur van 22°, een onderdrempel van 1.0 en een bovendrempel van 0.5, werkt de deadband tussen 21° en 22.5°. Als de I-coëfficiënt 0.0005 is en de I-vermenigvuldiger 0.05, dan wordt de I-coëfficiënt binnen de deadband: <code>0.0005 * 0.05 = 0.000025</code>",
"p_multiplier": "Vermenigvuldiger voor P-factor",
"i_multiplier": "Vermenigvuldiger voor I-factor",
"d_multiplier": "Vermenigvuldiger voor D-factor",
"thresholdHigh": "Bovendrempel",
"thresholdLow": "Onderdrempel"
}
},
"ot": {
"advanced": "Geavanceerde instellingen",
"inGpio": "In GPIO",
"outGpio": "Uit GPIO",
"ledGpio": "RX LED GPIO",
"memberId": "Master member ID",
"flags": "Master flags",
"minPower": {
"title": "Min. ketelvermogen <small>(kW)</small>",
"note": "Deze waarde is bij 0-1% modulatieniveau van de ketel. Typisch te vinden in de ketelspecificatie als \"minimum nuttig warmtevermogen\"."
},
"maxPower": {
"title": "Max. ketelvermogen <small>(kW)</small>",
"note": "<b>0</b> - probeer automatisch te detecteren. Typisch te vinden in de ketelspecificatie als \"maximum nuttig warmtevermogen\"."
},
"options": {
"title": "Opties (aanvullende instellingen)",
"desc": "Opties kunnen de logica van de ketel veranderen. Niet alle opties zijn gedocumenteerd in het protocol, dus dezelfde optie kan verschillende effecten hebben op verschillende ketels.<br /><b>Let op:</b> Het is niet nodig om iets te veranderen als alles goed werkt.",
"dhwSupport": "Warm water ondersteuning",
"coolingSupport": "Koeling ondersteuning",
"summerWinterMode": "Zomer/wintermodus",
"heatingStateToSummerWinterMode": "Verwarmingsstatus als zomer/wintermodus",
"ch2AlwaysEnabled": "CH2 altijd ingeschakeld",
"heatingToCh2": "Dupliceer verwarming naar CH2",
"dhwToCh2": "Dupliceer warm water naar CH2",
"dhwBlocking": "Blokkering warm water",
"dhwStateAsDhwBlocking": "Status warm water als blokkering warm water",
"maxTempSyncWithTargetTemp": "Synchroniseer max. verwarmingstemp. met doeltemp.",
"getMinMaxTemp": "Haal min/max temp. op van ketel",
"ignoreDiagState": "Negeer diagnosestatus",
"autoFaultReset": "Automatische storingsreset <small>(niet aanbevolen!)</small>",
"autoDiagReset": "Automatische diagnosereset <small>(niet aanbevolen!)</small>",
"setDateAndTime": "Stel datum & tijd in op ketel",
"immergasFix": "Fix voor Immergas-ketels"
},
"nativeHeating": {
"title": "Natuurlijke verwarmingsregeling (ketel)",
"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."
}
},
"mqtt": {
"homeAssistantDiscovery": "Home Assistant Discovery",
"server": "Server",
"port": "Poort",
"user": "Gebruiker",
"password": "Wachtwoord",
"prefix": "Prefix",
"interval": "Publicatie-interval <small>(sec)</small>"
},
"extPump": {
"use": "Gebruik externe pomp",
"gpio": "Relais GPIO",
"postCirculationTime": "Nacirculatietijd <small>(min)</small>",
"antiStuckInterval": "Anti-vastloopinterval <small>(dagen)</small>",
"antiStuckTime": "Anti-vastlooptijd <small>(min)</small>"
},
"cascadeControl": {
"input": {
"desc": "Kan worden gebruikt om de verwarming alleen in te schakelen als een andere ketel defect is. De besturing van de andere ketel moet de status van de GPIO-ingang wijzigen in geval van een storing.",
"enable": "Ingang ingeschakeld",
"gpio": "GPIO",
"invertState": "Inverteer GPIO-status",
"thresholdTime": "Drempeltijd statuswijziging <small>(sec)</small>"
},
"output": {
"desc": "Kan worden gebruikt om een andere ketel in te schakelen <u>via een relais</u>.",
"enable": "Uitgang ingeschakeld",
"gpio": "GPIO",
"invertState": "Inverteer GPIO-status",
"thresholdTime": "Drempeltijd statuswijziging <small>(sec)</small>",
"events": {
"desc": "Gebeurtenissen",
"onFault": "Als de storingsstatus actief is",
"onLossConnection": "Als de verbinding via Opentherm is verbroken",
"onEnabledHeating": "Als de verwarming is ingeschakeld"
}
}
}
},
"upgrade": {
"title": "Upgrade - OpenTherm Gateway",
"name": "Upgrade",
"section": {
"backupAndRestore": "Back-up & herstel",
"backupAndRestore.desc": "In deze sectie kunt u een back-up van ALLE instellingen opslaan en herstellen.",
"upgrade": "Upgrade",
"upgrade.desc": "In deze sectie kunt u de firmware en het bestandssysteem van uw apparaat upgraden.<br />De nieuwste releases kunnen worden gedownload van de <a href=\"https://github.com/Laxilef/OTGateway/releases\" target=\"_blank\">Releases-pagina</a> van de projectrepository."
},
"note": {
"disclaimer1": "Na een succesvolle upgrade van het bestandssysteem worden ALLE instellingen teruggezet naar de standaardwaarden! Sla een back-up op voordat u gaat upgraden.",
"disclaimer2": "Na een succesvolle upgrade zal het apparaat automatisch herstarten na 15 seconden."
},
"settingsFile": "Instellingenbestand",
"fw": "Firmware",
"fs": "Bestandssysteem"
}
}
}

3
src_data/locales/ru.json
View File

@@ -109,7 +109,8 @@
"sConnected": "Подключение к OpenTherm",
"sFlame": "Пламя",
"sCooling": "Охлаждение",
"sCoolingActive": "Охлаждение",
"sCoolingSetpoint": "Охлаждение, уставка",
"sFaultActive": "Ошибка",
"sFaultCode": "Код ошибки",
"sDiagActive": "Диагностика",

14
src_data/pages/dashboard.html
View File

@@ -23,6 +23,7 @@
<option value="en" selected>EN</option>
<option value="cn">CN</option>
<option value="it">IT</option>
<option value="nl">NL</option>
<option value="ru">RU</option>
</select>
</li>
@@ -153,9 +154,14 @@
<th scope="row" data-i18n>dashboard.states.sFlame</th>
<td><i class="sFlame"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.states.sCooling</th>
<td><i class="sCooling"></i></td>
<th scope="row" data-i18n>dashboard.states.sCoolingActive</th>
<td><i class="sCoolingActive"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.states.sCoolingSetpoint</th>
<td><b class="sCoolingSetpoint"></b> %</td>
</tr>
@@ -557,7 +563,9 @@
result.slave.connected ? "green" : "red"
);
setState('.sFlame', result.slave.flame);
setState('.sCooling', result.slave.cooling);
setState('.sCoolingActive', result.slave.cooling.active);
setValue('.sCoolingSetpoint', result.slave.cooling.setpoint);
setValue('.sModMin', result.slave.modulation.min);
setValue('.sModMax', result.slave.modulation.max);

1
src_data/pages/index.html
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@@ -23,6 +23,7 @@
<option value="en" selected>EN</option>
<option value="cn">CN</option>
<option value="it">IT</option>
<option value="nl">NL</option>
<option value="ru">RU</option>
</select>
</li>

1
src_data/pages/network.html
View File

@@ -23,6 +23,7 @@
<option value="en" selected>EN</option>
<option value="cn">CN</option>
<option value="it">IT</option>
<option value="nl">NL</option>
<option value="ru">RU</option>
</select>
</li>

1
src_data/pages/sensors.html
View File

@@ -23,6 +23,7 @@
<option value="en" selected>EN</option>
<option value="cn">CN</option>
<option value="it">IT</option>
<option value="nl">NL</option>
<option value="ru">RU</option>
</select>
</li>

1
src_data/pages/settings.html
View File

@@ -23,6 +23,7 @@
<option value="en" selected>EN</option>
<option value="cn">CN</option>
<option value="it">IT</option>
<option value="nl">NL</option>
<option value="ru">RU</option>
</select>
</li>

1
src_data/pages/upgrade.html
View File

@@ -23,6 +23,7 @@
<option value="en" selected>EN</option>
<option value="cn">CN</option>
<option value="it">IT</option>
<option value="nl">NL</option>
<option value="ru">RU</option>
</select>
</li>