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base: jeka:1.4.4
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:1.5.0
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

110 Commits
1.4.4 ... 1.5.0

Author SHA1 Message Date
Yurii
7efcbaa57e chore: bump version to 1.5.0 2024-12-05 00:04:58 +03:00
Yurii
43c065b97a Merge branch 'master' into 1.5.0-dev 2024-12-04 07:56:19 +03:00
Yurii
5c1e967fdc refactor: improved display of sensors on Dashboard 2024-12-04 06:09:20 +03:00
Yurii
105a79f72c refactor: optimization of OT requests for CH2 2024-12-04 05:55:01 +03:00
Yurii
50280f6db3 fix: negative temperature values from BLE devices 2024-12-04 05:36:04 +03:00
Yurii
c97e50669c fix: typo in purpose of sensors for emergency mode 2024-12-04 05:35:19 +03:00
Yurii
43fd095714 fix: digest auth changed to basic 
Digest auth not working on ios #99
 2024-12-02 06:26:03 +03:00
Yurii
1bb9b61017 feat: display sensor values on dashboard page 2024-12-01 05:26:14 +03:00
Yurii
1eb10563ed chore: update readme 2024-11-30 23:58:54 +03:00
Yurii
222ea4feaa refactor: some changes 2024-11-29 20:58:52 +03:00
Yurii
ea1406c509 fix: action state for HA `climate` entities fixed 2024-11-20 23:11:30 +03:00
Yurii
b20b450736 fix: fixed ERR_CONNECTION_RESET for Chrome based browsers 2024-11-20 23:10:42 +03:00
Yurii
e8c7f58e67 fix: fixed power calculation 2024-11-18 19:41:12 +03:00
Yurii
2589020428 refactor: optimized polling of unused OT IDs 2024-11-16 22:57:52 +03:00
Yurii
2bb771a4a7 chore: bump pioarduino/platform-espressif32 from 3.1.0 rc2 to 3.1.0 rc3 2024-11-16 22:56:01 +03:00
Yurii
f4af237472 chore: bump version to 1.4.6 2024-11-16 14:19:40 +03:00
Yurii
5473034421 chore: deleted .ino file 2024-11-16 14:15:26 +03:00
Yurii
a5996cc93d refactor: rounding sensor values 2024-11-15 01:28:28 +03:00
Yurii
9d6b6c18ab fix: pub network.rssi 2024-11-15 01:18:45 +03:00
Yurii
e6119dc7ee refactor: restart action improved 2024-11-15 00:55:38 +03:00
Yurii
19feb85230 refactor: some changes 2024-11-15 00:25:41 +03:00
Yurii
0d71a674b6 feat: added more OT polled IDs & reformat code 
* ID79 - exhaust CO2
* ID84 - exhaust fan speed
* ID85 - supply fan speed
* ID29 - solar storage temp
* ID30 - solar collector temp
* ID35 - boiler fan speed setpoint & actual
 2024-11-14 23:02:46 +03:00
Yurii
34eabca64a refactor: improved web cache 2024-11-14 22:30:34 +03:00
Yurii
d3b28c5bfb fix: building without BLE fixed 2024-11-13 12:11:36 +03:00
Yurii
640935a2b7 refactor: improved updating OT sensors 2024-11-13 01:00:04 +03:00
Yurii
c0c631aab4 fix: added `step to HA entities for Sensors::Type::MANUAL` 2024-11-13 00:58:28 +03:00
Yurii
861db33765 feat: added signal quality for DALLAS sensors 2024-11-13 00:57:01 +03:00
Yurii
b91266063b refactor: imporved updating OT sensors 2024-11-12 19:47:56 +03:00
Yurii
b087e6e6d3 refactor: some changes 2024-11-12 15:26:28 +03:00
Yurii
b205f14bae refactor: impoved sensors settings page 2024-11-12 15:25:58 +03:00
Yurii
7482eb8898 refactor: added {BUILD_TIME} in path js and css files 2024-11-12 11:44:02 +03:00
Yurii
2ff84cbddf fix: update target heating temp when restoring settings 2024-11-12 11:42:48 +03:00
Yurii
8b6e6be670 fix: display of current heating temp on dashboard 2024-11-12 11:37:09 +03:00
Yurii
636872f72d refactor: some fixes 2024-11-12 10:48:29 +03:00
Yurii
c6df74f06e refactor: optimizations & fixes 2024-11-11 15:45:36 +03:00
Yurii
24a46f4c16 fix: unit of dhw flow rate fixed 2024-11-11 13:52:15 +03:00
Yurii
ddc9cf7c90 fix: fix typos in settings page 2024-11-11 13:32:36 +03:00
Yurii
2d74d0c0ad refactor: gpio 17 (A0) is valid for ESP8266 2024-11-11 12:59:35 +03:00
Yurii
e04462811b refactor: improved NTC polling 2024-11-11 12:56:18 +03:00
Yurii
99d82657c0 fix: restore settings on portal fixed 2024-11-11 12:54:23 +03:00
Yurii
ed50208546 feat: added will msg for mqtt broker 2024-11-11 09:29:19 +03:00
Yurii
fda18cdb13 refactor: memory optimization for esp8266 2024-11-11 02:41:39 +03:00
Yurii
6a9bd9673a fix: `Sensors::cleanDallasInstances()` fixed 2024-11-10 01:32:42 +03:00
Yurii
5aea80e630 fix: fix typos 2024-11-10 01:30:28 +03:00
Yurii
fcf7d61ca5 fix: polling ntc on esp8266 fixed 2024-11-09 17:41:39 +03:00
Yurii
e71f3868fd refactor: dynamic sensors 2024-11-09 17:10:26 +03:00
Yurii
c3d0d94806 fix; fix typo 2024-11-01 12:49:35 +03:00
Yurii
e4211c872c fix: hysteresis with native heating control has been fixed 2024-11-01 12:47:32 +03:00
Yurii
467cfea449 feat: ability to use return heat carrier temp as indoor temp 2024-11-01 04:16:50 +03:00
Yurii
0e3473e065 fix: fix typo 2024-11-01 04:10:56 +03:00
Yurii
8780e5245a fix: for some HA entities added missing parameter enabled_by_default 2024-11-01 03:33:35 +03:00
Yurii
94e8288d76 feat: added entities to HA: connected, rssi, battery, humidity for indoor and outdoor sensors; some entities are disabled by default 2024-11-01 02:36:45 +03:00
Yurii
261a53207c refactor: improved turbo mode 2024-10-31 22:35:23 +03:00
Yurii
1dbc895cdb refactor: increased delay before sending data to MQTT after connection 2024-10-31 22:33:11 +03:00
Yurii
747d8841bc refactor: removed resetting modulation and power if response not valid 2024-10-31 22:30:37 +03:00
Yurii
7ed47a4eca chore: updated equitherm calculator 2024-10-31 22:29:04 +03:00
Yurii
0ccea290cb fix: try to auto determine the min boiler power 2024-10-31 05:29:24 +03:00
Yurii
c03df67900 fix: fixed crash if BLE service not found #88 2024-10-31 05:25:34 +03:00
Yurii
f86857c279 feat: improved turbo mode 
- added turbo factor parameter
- implemented turbo mode for PID
 2024-10-31 05:22:41 +03:00
Yurii
acd8348a5b feat: try to auto determine the min boiler power 2024-10-31 03:49:00 +03:00
Yurii
cdde3c30af chore: fix typos 2024-10-31 02:42:46 +03:00
Yurii
392242ef3e refactor: vendor list updated 2024-10-31 01:36:50 +03:00
Yurii
a6e8953807 refactor: reworked emergency mode; reworked hysteresis algorithm; improved detection of connection state for MANUAL & BOILER type sensors 2024-10-31 01:36:21 +03:00
Yurii
11b1277d79 refactor: added ID validation for opentherm response 2024-10-27 04:33:46 +03:00
Yurii
f62e687d3f fix: fixed pressure and flow validation when using correction 2024-10-27 04:31:35 +03:00
Yurii
42fa95969f fix: compilation on windows fixed for C3, C6 2024-10-27 03:36:18 +03:00
Yurii
56a0d1322f fix: display of fault code and diag code in logs fixed 2024-10-26 21:37:23 +03:00
Yurii
45762967ee refactor: fix wifi scan on esp32, connection timeouts changed 2024-10-26 20:18:23 +03:00
Yurii
10f9cde17a chore: bump pioarduino/platform-espressif32 from 3.0.6 to 3.1.0 rc2 2024-10-26 20:16:54 +03:00
Yurii
351a884685 refactor: increased max request size for /api/settings 2024-10-24 05:13:29 +03:00
Yurii
98db62cc9e fix: fix typo 2024-10-24 05:00:52 +03:00
Yurii
355d983437 chore: copy elf to build dir 2024-10-24 04:26:46 +03:00
Yurii
3d11d13631 feat: added crash recorder and ability to save dump 2024-10-24 04:01:14 +03:00
Yurii
6c4f8a78a0 refactor: added defaults for serial & telnet 2024-10-24 04:00:06 +03:00
Yurii
3fb5eb32c3 refactor: increased max request size for /api/vars and /api/backup/restore 2024-10-24 03:54:26 +03:00
Yurii
c1447098da chore: bump framework-arduinoespressif32 from 3.0.5 to 3.0.6 2024-10-24 03:52:01 +03:00
Yurii
87b222e7bc refactor: increased the max value of dt for pid to 1800 sec 2024-10-21 21:34:53 +03:00
Yurii
0eea1b8121 fix: change of log level when wifi is not connected 2024-10-18 06:45:16 +03:00
Yurii
7f701a74e7 feat: fault state gpio setting replaced with cascade control 2024-10-18 06:14:09 +03:00
Yurii
57cf98ca19 refactor: cosmetic changes; move maxModulation setting to opentherm section 2024-10-15 05:09:20 +03:00
Yurii
c32c643442 refactor: more logs 2024-10-15 04:21:20 +03:00
Yurii
5553a13cc0 feat: added log level setting 2024-10-15 04:07:00 +03:00
Yurii
a9e97c15ad refactor: more logs; improved sensor of current boiler power: added settings min & max boiler power 2024-10-15 02:10:46 +03:00
Yurii
dc62f99b7d feat: added polling of min modulation and max boiler power; added sensor for current boiler power 2024-10-14 19:54:26 +03:00
Yurii
05ff426b28 chore: bump version to 1.4.5 2024-10-13 22:39:20 +03:00
Yurii
45af7a30d8 refactor: cosmetic changes; added coeff. setting for filtering numeric values 2024-10-13 21:42:33 +03:00
Yurii
8aab541afa fix: added min DHW flow rate of 0.1 l/min 2024-10-11 01:38:05 +03:00
Yurii
7672c4b927 fix: fix types 2024-10-11 01:33:49 +03:00
Yurii
b0a9460257 feat: added correction coeff. settings for pressure and dhw flow rate 2024-10-11 01:29:50 +03:00
Yurii
3c69f1295e feat: added opentherm option for filtering numeric values 2024-10-10 21:08:13 +03:00
Yurii
282a02ecdb fix: added request for set opentherm version 2024-10-09 12:33:58 +03:00
Yurii
8503ef966f fix: small fix 2024-10-05 10:27:16 +03:00
Yurii
a4ee4c5224 feat: added diagnostic code polling via opentherm, added hex value for fault code and diag code 2024-10-05 10:03:14 +03:00
Yurii
4478e8f204 chore: updated platformio.ini for ESP32 C6 2024-10-01 01:45:57 +03:00
Yurii
a50c13fd8a Merge branch 'master' of https://github.com/Laxilef/OTGateway 2024-10-01 01:39:27 +03:00
Yurii
ee1e7f92b2 fix: added delay before start web server 2024-10-01 01:39:23 +03:00
Yurii
5704075682 chore: switch from PaulStoffregen/OneWire to pstolarz/OneWireNg 2024-10-01 01:38:57 +03:00
Yurii
52e4933923 fix: compatibility with framework-arduinoespressif32 version 3.0.5 2024-10-01 01:36:44 +03:00
Yurii
00a82ca3e5 chore: switch from espressif/arduino-esp32 to pioarduino/platform-espressif32 for new core 2024-10-01 01:35:36 +03:00
Yurii
7658aeaa8c feat: added opentherm option 'immergasFix' 2024-10-01 01:32:35 +03:00
Yurii
790ff5a011 feat: added Radiant to vendor list 2024-09-30 23:56:52 +03:00
dependabot[bot]
935cf27139 chore: bump peterus/platformio_dependabot from 1.1.1 to 1.2.0 (#80) 
Bumps [peterus/platformio_dependabot](https://github.com/peterus/platformio_dependabot) from 1.1.1 to 1.2.0.
- [Release notes](https://github.com/peterus/platformio_dependabot/releases)
- [Commits](https://github.com/peterus/platformio_dependabot/compare/v1.1.1...v1.2.0)

---
updated-dependencies:
- dependency-name: peterus/platformio_dependabot
  dependency-type: direct:production
  update-type: version-update:semver-minor
...

Signed-off-by: dependabot[bot] <support@github.com>
Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com>
 2024-09-14 00:36:24 +03:00
Yurii
503068f6e7 chore: update readme 2024-09-06 20:29:50 +03:00
Yurii
5c868d589d chore: update files for production 2024-09-06 20:25:29 +03:00
Yurii
1cca8ffd5d chore: update assets 2024-09-06 19:40:30 +03:00
Yurii
f291eb33ac chore: added assets 2024-09-03 18:00:12 +03:00
Yurii
f0c505c332 chore: added blueprints 2024-09-03 17:38:59 +03:00
Yurii
7eafe4a90b fix: compatibility with framework-arduinoespressif32 version 3.0.4 2024-08-22 04:57:13 +03:00
Yurii
d23527a48b chore: bump framework-arduinoespressif32 from 3.0.1 to 3.0.4 2024-08-22 03:34:17 +03:00
Yurii
c341f86e5c refactor: cosmetic changes 2024-08-22 03:33:12 +03:00
65 changed files with 18036 additions and 9966 deletions
Expand all files Collapse all files

2
.github/workflows/pio-dependabot.yaml vendored
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@@ -17,6 +17,6 @@ jobs:
- name: Checkout
uses: actions/checkout@v4
- name: run PlatformIO Dependabot
uses: peterus/platformio_dependabot@v1.1.1
uses: peterus/platformio_dependabot@v1.2.0
with:
github_token: ${{ secrets.GITHUB_TOKEN }}

5
README.md
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@@ -42,7 +42,7 @@ All available information and instructions can be found in the wiki:
* [Quick Start](https://github.com/Laxilef/OTGateway/wiki#quick-start)
* [Build firmware](https://github.com/Laxilef/OTGateway/wiki#build-firmware)
* [Flash firmware via ESP Flash Download Tool](https://github.com/Laxilef/OTGateway/wiki#flash-firmware-via-esp-flash-download-tool)
* [HomeAsssistant settings](https://github.com/Laxilef/OTGateway/wiki#homeasssistant-settings)
* [Settings](https://github.com/Laxilef/OTGateway/wiki#settings)
* [External temperature sensors](https://github.com/Laxilef/OTGateway/wiki#external-temperature-sensors)
* [Reporting indoor/outdoor temperature from any Home Assistant sensor](https://github.com/Laxilef/OTGateway/wiki#reporting-indooroutdoor-temperature-from-any-home-assistant-sensor)
* [Reporting outdoor temperature from Home Assistant weather integration](https://github.com/Laxilef/OTGateway/wiki#reporting-outdoor-temperature-from-home-assistant-weather-integration)
@@ -82,3 +82,6 @@ All available information and instructions can be found in the wiki:
## Debug
To display DEBUG messages you must enable debug in settings (switch is disabled by default).
You can connect via Telnet to read messages. IP: ESP8266 ip, port: 23
___
This project is tested with BrowserStack.

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<?xml version="1.0"?>
<svg xmlns="http://www.w3.org/2000/svg" height="40" aria-label="Import blueprint to My Home Assistant" style="border-radius:24px;width:auto" viewBox="0 0 592 96">
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3
assets/ha/dhw_meter.yaml
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@@ -1,3 +1,6 @@
# Package for Home Assistant Packages
# More info: https://www.home-assistant.io/docs/configuration/packages/
dhw_meter:
sensor:
- platform: integration

29
assets/ha/report_outdoor_temp_to_controller_from_weather.yaml
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@@ -1,29 +0,0 @@
# Script for reporting outdoor temperature to the controller from home assistant weather integration
# Updated: 07.12.2023
alias: Report outdoor temp to controller from weather
description: ""
variables:
# The source weather from which we take the temperature
source_entity: "weather.home"
# Target entity number where we set the temperature
# If the prefix has not changed, then you do not need to change it
target_entity: "number.opentherm_outdoor_temp"
trigger:
- platform: time_pattern
seconds: /30
condition:
- condition: template
value_template: "{{ states(source_entity) != 'unavailable' and states(target_entity) != 'unavailable' }}"
action:
- if:
- condition: template
value_template: "{{ (state_attr(source_entity, 'temperature')|float(0) - states(target_entity)|float(0)) | abs | round(2) >= 0.1 }}"
then:
- service: number.set_value
data:
value: "{{ state_attr(source_entity, 'temperature')|float(0)|round(2) }}"
target:
entity_id: "{{ target_entity }}"
mode: single

30
assets/ha/report_temp_to_controller.yaml
View File

@@ -1,30 +0,0 @@
# Script for reporting indoor/outdoor temperature to the controller from any home assistant sensor
# Updated: 07.12.2023
alias: Report temp to controller
description: ""
variables:
# The source sensor from which we take the temperature
source_entity: "sensor.livingroom_temperature"
# Target entity number where we set the temperature
# To report indoor temperature: number.opentherm_indoor_temp
# To report outdoor temperature: number.opentherm_outdoor_temp
target_entity: "number.opentherm_indoor_temp"
trigger:
- platform: time_pattern
seconds: /30
condition:
- condition: template
value_template: "{{ states(source_entity) != 'unavailable' and states(target_entity) != 'unavailable' }}"
action:
- if:
- condition: template
value_template: "{{ (states(source_entity)|float(0) - states(target_entity)|float(0)) | abs | round(2) >= 0.01 }}"
then:
- service: number.set_value
data:
value: "{{ states(source_entity)|float(0)|round(2) }}"
target:
entity_id: "{{ target_entity }}"
mode: single

48
assets/ha/report_temp_to_otgateway.yaml Normal file
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@@ -0,0 +1,48 @@
# Blueprint for reporting indoor/outdoor temperature to OpenTherm Gateway from any home assistant sensor
# Updated: 03.09.2024
blueprint:
name: Report temp to OpenTherm Gateway
domain: automation
author: "Laxilef"
input:
source_entity:
name: Source entity
description: "Temperature data source"
selector:
entity:
multiple: false
filter:
- domain: sensor
device_class: temperature
target_entity:
name: Target entity
description: "Usually ``number.opentherm_indoor_temp`` or ``number.opentherm_outdoor_temp``"
default: "number.opentherm_indoor_temp"
selector:
entity:
multiple: false
filter:
- domain: number
mode: single
variables:
source_entity: !input source_entity
target_entity: !input target_entity
trigger:
- platform: time_pattern
seconds: /30
condition:
- condition: template
value_template: "{{ states(source_entity) != 'unavailable' and states(target_entity) != 'unavailable' }}"
action:
- if:
- condition: template
value_template: "{{ (states(source_entity)|float(0) - states(target_entity)|float(0)) | abs | round(2) >= 0.01 }}"
then:
- service: number.set_value
data:
value: "{{ states(source_entity)|float(0)|round(2) }}"
target:
entity_id: "{{ target_entity }}"

47
assets/ha/report_temp_to_otgateway_from_weather.yaml Normal file
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@@ -0,0 +1,47 @@
# Blueprint for reporting temperature to OpenTherm Gateway from home assistant weather integration
# Updated: 03.09.2024
blueprint:
name: Report temp to OpenTherm Gateway from Weather
domain: automation
author: "Laxilef"
input:
source_entity:
name: Source entity
description: "Temperature data source"
selector:
entity:
multiple: false
filter:
- domain: weather
target_entity:
name: Target entity
description: "Usually ``number.opentherm_outdoor_temp``"
default: "number.opentherm_outdoor_temp"
selector:
entity:
multiple: false
filter:
- domain: number
mode: single
variables:
source_entity: !input source_entity
target_entity: !input target_entity
trigger:
- platform: time_pattern
seconds: /30
condition:
- condition: template
value_template: "{{ states(source_entity) != 'unavailable' and states(target_entity) != 'unavailable' }}"
action:
- if:
- condition: template
value_template: "{{ (state_attr(source_entity, 'temperature')|float(0) - states(target_entity)|float(0)) | abs | round(2) >= 0.1 }}"
then:
- service: number.set_value
data:
value: "{{ state_attr(source_entity, 'temperature')|float(0)|round(2) }}"
target:
entity_id: "{{ target_entity }}"

1
assets/pcb.svg
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17
gulpfile.js
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@@ -6,6 +6,7 @@ const cssnano = require('cssnano');
const terser = require('gulp-terser');
const jsonminify = require('gulp-jsonminify');
const htmlmin = require('gulp-html-minifier-terser');
const replace = require('gulp-replace');
// Paths for tasks
let paths = {
@@ -59,6 +60,10 @@ const styles = (cb) => {
const items = paths.styles.bundles[name];
src(items)
.pipe(replace(
"{BUILD_TIME}",
Math.floor(Date.now() / 1000)
))
.pipe(postcss([
cssnano({ preset: 'advanced' })
]))
@@ -77,6 +82,10 @@ const scripts = (cb) => {
const items = paths.scripts.bundles[name];
src(items)
.pipe(replace(
"{BUILD_TIME}",
Math.floor(Date.now() / 1000)
))
.pipe(terser().on('error', console.error))
.pipe(concat(name))
.pipe(gzip({
@@ -93,6 +102,10 @@ const jsonFiles = (cb) => {
const item = paths.json[i];
src(item.src)
.pipe(replace(
"{BUILD_TIME}",
Math.floor(Date.now() / 1000)
))
.pipe(jsonminify())
.pipe(gzip({
append: true
@@ -119,6 +132,10 @@ const staticFiles = (cb) => {
const pages = () => {
return src(paths.pages.src)
.pipe(replace(
"{BUILD_TIME}",
Math.floor(Date.now() / 1000)
))
.pipe(htmlmin({
html5: true,
caseSensitive: true,

26
lib/BufferedWebServer/BufferedWebServer.h
View File

@@ -10,7 +10,8 @@ public:
free(this->buffer);
}
void send(int code, const char* contentType, JsonDocument& content) {
template <class T>
void send(int code, T contentType, const JsonVariantConst content, bool pretty = false) {
#ifdef ARDUINO_ARCH_ESP8266
if (!this->webServer->chunkedResponseModeStart(code, contentType)) {
this->webServer->send(505, F("text/html"), F("HTTP1.1 required"));
@@ -24,7 +25,13 @@ public:
this->webServer->send(code, contentType, emptyString);
#endif
serializeJson(content, *this);
if (pretty) {
serializeJsonPretty(content, *this);
} else {
serializeJson(content, *this);
}
this->flush();
#ifdef ARDUINO_ARCH_ESP8266
@@ -70,10 +77,19 @@ public:
return;
}
this->webServer->sendContent((const char*)this->buffer, this->bufferPos);
this->bufferPos = 0;
#ifdef ARDUINO_ARCH_ESP8266
::delay(0);
::optimistic_yield(1000);
#endif
auto& client = this->webServer->client();
if (client.connected()) {
this->webServer->sendContent((const char*)this->buffer, this->bufferPos);
}
this->bufferPos = 0;
#ifdef ARDUINO_ARCH_ESP8266
::optimistic_yield(1000);
#endif
}

76
lib/CustomOpenTherm/CustomOpenTherm.h
View File

@@ -79,7 +79,7 @@ public:
}
}
unsigned long setBoilerStatus(bool enableCentralHeating, bool enableHotWater, bool enableCooling, bool enableOutsideTemperatureCompensation, bool enableCentralHeating2, bool summerWinterMode, bool dhwBlocking) {
unsigned long setBoilerStatus(bool enableCentralHeating, bool enableHotWater, bool enableCooling, bool enableOutsideTemperatureCompensation, bool enableCentralHeating2, bool summerWinterMode, bool dhwBlocking, uint8_t lb = 0) {
unsigned int data = enableCentralHeating
| (enableHotWater << 1)
| (enableCooling << 2)
@@ -87,7 +87,9 @@ public:
| (enableCentralHeating2 << 4)
| (summerWinterMode << 5)
| (dhwBlocking << 6);
data <<= 8;
data |= lb;
return this->sendRequest(buildRequest(
OpenThermMessageType::READ_DATA,
@@ -96,66 +98,6 @@ public:
));
}
bool setHeatingCh1Temp(float temperature) {
unsigned long response = this->sendRequest(buildRequest(
OpenThermMessageType::WRITE_DATA,
OpenThermMessageID::TSet,
temperatureToData(temperature)
));
return isValidResponse(response);
}
bool setHeatingCh2Temp(float temperature) {
unsigned long response = this->sendRequest(buildRequest(
OpenThermMessageType::WRITE_DATA,
OpenThermMessageID::TsetCH2,
temperatureToData(temperature)
));
return isValidResponse(response);
}
bool setDhwTemp(float temperature) {
unsigned long response = this->sendRequest(buildRequest(
OpenThermMessageType::WRITE_DATA,
OpenThermMessageID::TdhwSet,
temperatureToData(temperature)
));
return isValidResponse(response);
}
bool setRoomSetpoint(float temperature) {
unsigned long response = this->sendRequest(buildRequest(
OpenThermMessageType::WRITE_DATA,
OpenThermMessageID::TrSet,
temperatureToData(temperature)
));
return isValidResponse(response);
}
bool setRoomSetpointCh2(float temperature) {
unsigned long response = this->sendRequest(buildRequest(
OpenThermMessageType::WRITE_DATA,
OpenThermMessageID::TrSetCH2,
temperatureToData(temperature)
));
return isValidResponse(response);
}
bool setRoomTemp(float temperature) {
unsigned long response = this->sendRequest(buildRequest(
OpenThermMessageType::WRITE_DATA,
OpenThermMessageID::Tr,
temperatureToData(temperature)
));
return isValidResponse(response);
}
bool sendBoilerReset() {
unsigned int data = 1;
data <<= 8;
@@ -165,7 +107,7 @@ public:
data
));
return isValidResponse(response);
return isValidResponse(response) && isValidResponseId(response, OpenThermMessageID::RemoteRequest);
}
bool sendServiceReset() {
@@ -177,7 +119,7 @@ public:
data
));
return isValidResponse(response);
return isValidResponse(response) && isValidResponseId(response, OpenThermMessageID::RemoteRequest);
}
bool sendWaterFilling() {
@@ -189,7 +131,13 @@ public:
data
));
return isValidResponse(response);
return isValidResponse(response) && isValidResponseId(response, OpenThermMessageID::RemoteRequest);
}
static bool isValidResponseId(unsigned long response, OpenThermMessageID id) {
byte responseId = (response >> 16) & 0xFF;
return (byte)id == responseId;
}
// converters

6
lib/Equitherm/Equitherm.h
View File

@@ -27,7 +27,7 @@ public:
}
// лимит выходной величины
void setLimits(int min_output, int max_output) {
void setLimits(unsigned short min_output, unsigned short max_output) {
_minOut = min_output;
_maxOut = max_output;
}
@@ -40,7 +40,7 @@ public:
}
private:
int _minOut = 20, _maxOut = 90;
unsigned short _minOut = 20, _maxOut = 90;
// температура контура отопления в зависимости от наружной температуры
datatype getResultN() {
@@ -58,6 +58,6 @@ private:
// Расчет поправки (ошибки) термостата
datatype getResultT() {
return constrain((targetTemp - indoorTemp), -2, 2) * Kt;
return constrain((targetTemp - indoorTemp), -3, 3) * Kt;
}
};

36
lib/HomeAssistantHelper/HomeAssistantHelper.h
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@@ -100,8 +100,8 @@ public:
return result;
}
template <class T>
String getTopic(T category, T name, char nameSeparator = '/') {
template <class CT, class NT>
String makeConfigTopic(CT category, NT name, char nameSeparator = '/') {
String topic = "";
topic.concat(this->prefix);
topic.concat('/');
@@ -110,21 +110,45 @@ public:
topic.concat(this->devicePrefix);
topic.concat(nameSeparator);
topic.concat(name);
topic.concat("/config");
topic.concat(F("/config"));
return topic;
}
template <class T>
String getDeviceTopic(T value, char separator = '/') {
String getDeviceTopic(T value, char dpvSeparator = '/') {
String topic = "";
topic.concat(this->devicePrefix);
topic.concat(separator);
topic.concat(dpvSeparator);
topic.concat(value);
return topic;
}
template <class CT, class NT>
String getDeviceTopic(CT category, NT name, char dpcSeparator = '/', char cnSeparator = '/') {
String topic = "";
topic.concat(this->devicePrefix);
topic.concat(dpcSeparator);
topic.concat(category);
topic.concat(cnSeparator);
topic.concat(name);
return topic;
}
template <class CT, class NT, class ST>
String getDeviceTopic(CT category, NT name, ST suffix, char dpcSeparator = '/', char cnSeparator = '/', char nsSeparator = '/') {
String topic = "";
topic.concat(this->devicePrefix);
topic.concat(dpcSeparator);
topic.concat(category);
topic.concat(cnSeparator);
topic.concat(name);
topic.concat(nsSeparator);
topic.concat(suffix);
return topic;
}
template <class T>
String getObjectId(T value, char separator = '_') {
String getObjectIdWithPrefix(T value, char separator = '_') {
String topic = "";
topic.concat(this->devicePrefix);
topic.concat(separator);

7
lib/HomeAssistantHelper/strings.h
View File

@@ -25,6 +25,8 @@ const char HA_ENABLED_BY_DEFAULT[] PROGMEM = "enabled_by_default";
const char HA_UNIQUE_ID[] PROGMEM = "unique_id";
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_CONFIG[] PROGMEM = "config";
const char HA_STATE_TOPIC[] PROGMEM = "state_topic";
const char HA_VALUE_TEMPLATE[] PROGMEM = "value_template";
const char HA_OPTIONS[] PROGMEM = "options";
@@ -35,16 +37,21 @@ const char HA_DEVICE_CLASS[] PROGMEM = "device_class";
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_F[] PROGMEM = "°F";
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_GAL_MIN[] PROGMEM = "gal/min";
const char HA_ICON[] PROGMEM = "icon";
const char HA_MIN[] PROGMEM = "min";
const char HA_MAX[] PROGMEM = "max";
const char HA_STEP[] PROGMEM = "step";
const char HA_MODE[] PROGMEM = "mode";
const char HA_MODE_BOX[] PROGMEM = "box";
const char HA_STATE_ON[] PROGMEM = "state_on";
const char HA_STATE_OFF[] PROGMEM = "state_off";
const char HA_PAYLOAD_ON[] PROGMEM = "payload_on";
const char HA_PAYLOAD_OFF[] PROGMEM = "payload_off";
const char HA_STATE_CLASS[] PROGMEM = "state_class";
const char HA_STATE_CLASS_MEASUREMENT[] PROGMEM = "measurement";
const char HA_EXPIRE_AFTER[] PROGMEM = "expire_after";
const char HA_CURRENT_TEMPERATURE_TOPIC[] PROGMEM = "current_temperature_topic";
const char HA_CURRENT_TEMPERATURE_TEMPLATE[] PROGMEM = "current_temperature_template";

2
lib/MqttWriter/MqttWriter.h
View File

@@ -77,7 +77,7 @@ public:
#endif
}
bool publish(const char* topic, JsonDocument& doc, bool retained = false) {
bool publish(const char* topic, const JsonVariantConst doc, bool retained = false) {
if (!this->client->connected()) {
this->bufferPos = 0;
return false;

33
lib/NetworkUtils/NetworkMgr.h
View File

@@ -247,11 +247,19 @@ namespace NetworkUtils {
this->delayCallback(250);
#endif
if (!this->useDhcp) {
WiFi.config(this->staticIp, this->staticGateway, this->staticSubnet, this->staticDns);
}
#ifdef ARDUINO_ARCH_ESP32
WiFi.setScanMethod(WIFI_ALL_CHANNEL_SCAN);
WiFi.setSortMethod(WIFI_CONNECT_AP_BY_SIGNAL);
#endif
WiFi.begin(this->staSsid, this->staPassword, this->staChannel);
if (!this->useDhcp) {
WiFi.begin(this->staSsid, this->staPassword, this->staChannel, nullptr, false);
WiFi.config(this->staticIp, this->staticGateway, this->staticSubnet, this->staticDns);
WiFi.reconnect();
} else {
WiFi.begin(this->staSsid, this->staPassword, this->staChannel, nullptr, true);
}
unsigned long beginConnectionTime = millis();
while (millis() - beginConnectionTime < timeout) {
@@ -267,7 +275,16 @@ namespace NetworkUtils {
}
void disconnect() {
#ifdef ARDUINO_ARCH_ESP32
WiFi.disconnectAsync(false, true);
const unsigned long start = millis();
while (WiFi.isConnected() && (millis() - start) < 5000) {
this->delayCallback(100);
}
#else
WiFi.disconnect(false, true);
#endif
}
void loop() {
@@ -365,10 +382,10 @@ namespace NetworkUtils {
}
protected:
const unsigned int reconnectInterval = 5000;
const unsigned int failedConnectTimeout = 120000;
const unsigned int connectionTimeout = 15000;
const unsigned int resetConnectionTimeout = 30000;
const unsigned int reconnectInterval = 15000;
const unsigned int failedConnectTimeout = 185000;
const unsigned int connectionTimeout = 5000;
const unsigned int resetConnectionTimeout = 90000;
YieldCallback yieldCallback = []() {
::yield();

15
lib/WebServerHandlers/DynamicPage.h
View File

@@ -33,18 +33,16 @@ public:
}
#if defined(ARDUINO_ARCH_ESP32)
bool canHandle(HTTPMethod method, const String uri) override {
#else
bool canHandle(HTTPMethod method, const String& uri) override {
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 uri.equals(this->uri) && (!this->canHandleCallback || this->canHandleCallback(method, uri));
}
#if defined(ARDUINO_ARCH_ESP32)
bool handle(WebServer& server, HTTPMethod method, const String uri) override {
#else
bool handle(WebServer& server, HTTPMethod method, const String& uri) override {
#endif
if (!this->canHandle(method, uri)) {
return false;
}
@@ -63,7 +61,7 @@ public:
}
if (this->cacheHeader != nullptr) {
server.sendHeader("Cache-Control", this->cacheHeader);
server.sendHeader(F("Cache-Control"), this->cacheHeader);
}
#ifdef ARDUINO_ARCH_ESP8266
@@ -220,7 +218,6 @@ protected:
CanHandleCallback canHandleCallback;
BeforeSendCallback beforeSendCallback;
TemplateCallback templateCallback;
String eTag;
const char* uri = nullptr;
const char* path = nullptr;
const char* cacheHeader = nullptr;

44
lib/WebServerHandlers/StaticPage.h
View File

@@ -1,5 +1,8 @@
#include <FS.h>
#include <detail/mimetable.h>
#if defined(ARDUINO_ARCH_ESP32)
#include <detail/RequestHandlersImpl.h>
#endif
using namespace mime;
@@ -8,7 +11,8 @@ public:
typedef std::function<bool(HTTPMethod, const String&)> CanHandleCallback;
typedef std::function<bool()> BeforeSendCallback;
StaticPage(const char* uri, FS* fs, const char* path, const char* cacheHeader = nullptr) {
template <class T>
StaticPage(const char* uri, FS* fs, T path, const char* cacheHeader = nullptr) {
this->uri = uri;
this->fs = fs;
this->path = path;
@@ -28,18 +32,16 @@ public:
}
#if defined(ARDUINO_ARCH_ESP32)
bool canHandle(HTTPMethod method, const String uri) override {
#else
bool canHandle(HTTPMethod method, const String& uri) override {
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_GET && uri.equals(this->uri) && (!this->canHandleCallback || this->canHandleCallback(method, uri));
}
#if defined(ARDUINO_ARCH_ESP32)
bool handle(WebServer& server, HTTPMethod method, const String uri) override {
#else
bool handle(WebServer& server, HTTPMethod method, const String& uri) override {
#endif
if (!this->canHandle(method, uri)) {
return false;
}
@@ -48,21 +50,25 @@ public:
return true;
}
#if defined(ARDUINO_ARCH_ESP8266)
if (server._eTagEnabled) {
if (server._eTagFunction) {
this->eTag = (server._eTagFunction)(*this->fs, this->path);
if (this->eTag.isEmpty()) {
if (server._eTagFunction) {
this->eTag = (server._eTagFunction)(*this->fs, this->path);
} else if (this->eTag.isEmpty()) {
this->eTag = esp8266webserver::calcETag(*this->fs, this->path);
} else {
#if defined(ARDUINO_ARCH_ESP8266)
this->eTag = esp8266webserver::calcETag(*this->fs, this->path);
#elif defined(ARDUINO_ARCH_ESP32)
this->eTag = StaticRequestHandler::calcETag(*this->fs, this->path);
#endif
}
}
if (server.header("If-None-Match").equals(this->eTag.c_str())) {
if (!this->eTag.isEmpty() && server.header(F("If-None-Match")).equals(this->eTag.c_str())) {
server.send(304);
return true;
}
}
#endif
if (!this->path.endsWith(FPSTR(mimeTable[gz].endsWith)) && !this->fs->exists(path)) {
String pathWithGz = this->path + FPSTR(mimeTable[gz].endsWith);
@@ -82,14 +88,14 @@ public:
}
if (this->cacheHeader != nullptr) {
server.sendHeader("Cache-Control", this->cacheHeader);
server.sendHeader(F("Cache-Control"), this->cacheHeader);
}
#if defined(ARDUINO_ARCH_ESP8266)
if (server._eTagEnabled && this->eTag.length() > 0) {
server.sendHeader("ETag", this->eTag);
if (server._eTagEnabled && !this->eTag.isEmpty()) {
server.sendHeader(F("ETag"), this->eTag);
}
#if defined(ARDUINO_ARCH_ESP8266)
server.streamFile(file, F("text/html"), method);
#else
server.streamFile(file, F("text/html"), 200);

30
lib/WebServerHandlers/UpgradeHandler.h
View File

@@ -58,26 +58,26 @@ public:
}
#if defined(ARDUINO_ARCH_ESP32)
bool canHandle(HTTPMethod method, const String uri) override {
#else
bool canHandle(HTTPMethod method, const String& uri) override {
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(const String uri) override {
#else
bool canUpload(const String& uri) override {
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));
}
#if defined(ARDUINO_ARCH_ESP32)
bool handle(WebServer& server, HTTPMethod method, const String uri) override {
#else
bool handle(WebServer& server, HTTPMethod method, const String& uri) override {
#endif
if (this->afterUpgradeCallback) {
this->afterUpgradeCallback(this->firmwareResult, this->filesystemResult);
}
@@ -91,16 +91,14 @@ public:
return true;
}
#if defined(ARDUINO_ARCH_ESP32)
void upload(WebServer& server, const String uri, HTTPUpload& upload) override {
#else
void upload(WebServer& server, const String& uri, HTTPUpload& upload) override {
#endif
UpgradeResult* result;
if (upload.name.equals("firmware")) {
if (upload.name.equals(F("firmware"))) {
result = &this->firmwareResult;
} else if (upload.name.equals("filesystem")) {
} else if (upload.name.equals(F("filesystem"))) {
result = &this->filesystemResult;
} else {
return;
}

4
otgateway.ino
View File

@@ -1,4 +0,0 @@
/*
This file is needed by the Arduino IDE because the ino file needs to be named as the directory name.
Don't worry, the Arduino compiler will "merge" all files, including src/main.cpp
*/

3
package.json
View File

@@ -12,6 +12,7 @@
"gulp-html-minifier-terser": "^7.1.0",
"gulp-jsonminify": "^1.1.0",
"gulp-postcss": "^10.0.0",
"gulp-terser": "^2.1.0"
"gulp-terser": "^2.1.0",
"gulp-replace": "^1.1.4"
}
}

72
platformio.ini
View File

@@ -11,34 +11,35 @@
[platformio]
;extra_configs = secrets.ini
extra_configs = secrets.default.ini
core_dir = .pio
[env]
version = 1.4.4
version = 1.5.0
framework = arduino
lib_deps =
bblanchon/ArduinoJson@^7.1.0
;ihormelnyk/OpenTherm Library@^1.1.5
https://github.com/ihormelnyk/opentherm_library#master
arduino-libraries/ArduinoMqttClient@^0.1.8
;arduino-libraries/ArduinoMqttClient@^0.1.8
https://github.com/Laxilef/ArduinoMqttClient.git#esp32_core_310
lennarthennigs/ESP Telnet@^2.2
gyverlibs/FileData@^1.0.2
gyverlibs/GyverPID@^3.3.2
gyverlibs/GyverBlinker@^1.1.1
https://github.com/PaulStoffregen/OneWire#master
milesburton/DallasTemperature@^3.11.0
https://github.com/pstolarz/Arduino-Temperature-Control-Library.git#OneWireNg
laxilef/TinyLogger@^1.1.1
build_type = ${secrets.build_type}
build_flags =
-D PIO_FRAMEWORK_ARDUINO_LWIP2_LOW_MEMORY
;-D PIO_FRAMEWORK_ARDUINO_LWIP2_HIGHER_BANDWIDTH_LOW_FLASH
-D PIO_FRAMEWORK_ARDUINO_ESPRESSIF_SDK305
-mtext-section-literals
-D MQTT_CLIENT_STD_FUNCTION_CALLBACK=1
;-D DEBUG_ESP_CORE -D DEBUG_ESP_WIFI -D DEBUG_ESP_HTTP_SERVER -D DEBUG_ESP_PORT=Serial
-D BUILD_VERSION='"${this.version}"'
-D BUILD_ENV='"$PIOENV"'
-D USE_SERIAL=${secrets.use_serial}
-D USE_TELNET=${secrets.use_telnet}
-D DEBUG_BY_DEFAULT=${secrets.debug}
-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}"'
@@ -46,6 +47,7 @@ build_flags =
-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='"${secrets.mqtt_user}"'
@@ -53,7 +55,10 @@ build_flags =
-D DEFAULT_MQTT_PREFIX='"${secrets.mqtt_prefix}"'
upload_speed = 921600
monitor_speed = 115200
monitor_filters = direct
;monitor_filters = direct
monitor_filters =
esp32_exception_decoder
esp8266_exception_decoder
board_build.flash_mode = dio
board_build.filesystem = littlefs
@@ -66,16 +71,22 @@ lib_deps =
lib_ignore =
extra_scripts =
post:tools/build.py
build_flags = ${env.build_flags}
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
[esp32_defaults]
;platform = espressif32@^6.7
platform = https://github.com/platformio/platform-espressif32.git
;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/53.03.10-rc3/platform-espressif32.zip
platform_packages =
;platformio/framework-arduinoespressif32 @ https://github.com/espressif/arduino-esp32/archive/refs/tags/2.0.17.zip
framework-arduinoespressif32 @ https://github.com/espressif/arduino-esp32.git#3.0.1
framework-arduinoespressif32-libs @ https://github.com/espressif/arduino-esp32/releases/download/3.0.1/esp32-arduino-libs-3.0.1.zip
board_build.partitions = esp32_partitions.csv
lib_deps =
${env.lib_deps}
@@ -85,9 +96,11 @@ 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
; Boards
@@ -98,6 +111,7 @@ 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
@@ -114,6 +128,7 @@ 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
@@ -130,6 +145,7 @@ 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
@@ -146,6 +162,7 @@ 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
@@ -165,6 +182,7 @@ 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
@@ -188,6 +206,7 @@ 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
@@ -212,6 +231,7 @@ 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
@@ -232,6 +252,7 @@ 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
@@ -252,6 +273,7 @@ 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
@@ -261,3 +283,21 @@ build_flags =
-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}
platform_packages = ${esp32_defaults.platform_packages}
board = esp32-c6-devkitm-1
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}
; Currently the NimBLE library is incompatible with ESP32 C6
;-D USE_BLE=1

11
secrets.default.ini
View File

@@ -1,7 +1,11 @@
[secrets]
use_serial = true
use_telnet = true
debug = true
build_type = release
serial_enabled = true
serial_baud = 115200
telnet_enabled = true
telnet_port = 23
log_level = 5
hostname = opentherm
ap_ssid = OpenTherm Gateway
@@ -13,6 +17,7 @@ sta_password =
portal_login = admin
portal_password = admin
mqtt_enabled = false
mqtt_server =
mqtt_port = 1883
mqtt_user =

132
src/CrashRecorder.h Normal file
View File

@@ -0,0 +1,132 @@
#pragma once
#include <Arduino.h>
#ifdef ARDUINO_ARCH_ESP32
#include "esp_err.h"
#endif
#ifdef ARDUINO_ARCH_ESP8266
extern "C" {
#include <user_interface.h>
}
// https://github.com/espressif/ESP8266_RTOS_SDK/blob/master/components/esp8266/include/esp_attr.h
#define _COUNTER_STRINGIFY(COUNTER) #COUNTER
#define _SECTION_ATTR_IMPL(SECTION, COUNTER) __attribute__((section(SECTION "." _COUNTER_STRINGIFY(COUNTER))))
#define __NOINIT_ATTR _SECTION_ATTR_IMPL(".noinit", __COUNTER__)
#endif
namespace CrashRecorder {
typedef struct {
unsigned int data[32];
uint8_t length;
bool continues;
} backtrace_t;
typedef struct {
unsigned int data[4];
uint8_t length;
} epc_t;
typedef struct {
uint8_t core;
size_t heap;
unsigned long uptime;
} ext_t;
__NOINIT_ATTR volatile static backtrace_t backtrace;
__NOINIT_ATTR volatile static epc_t epc;
__NOINIT_ATTR volatile static ext_t ext;
uint8_t backtraceMaxLength = sizeof(backtrace.data) / sizeof(*backtrace.data);
uint8_t epcMaxLength = sizeof(epc.data) / sizeof(*epc.data);
#ifdef ARDUINO_ARCH_ESP32
void IRAM_ATTR panicHandler(arduino_panic_info_t *info, void *arg) {;
ext.core = info->core;
ext.heap = ESP.getFreeHeap();
ext.uptime = millis() / 1000u;
// Backtrace
backtrace.length = info->backtrace_len < backtraceMaxLength ? info->backtrace_len : backtraceMaxLength;
backtrace.continues = false;
for (unsigned int i = 0; i < info->backtrace_len; i++) {
if (i >= backtraceMaxLength) {
backtrace.continues = true;
break;
}
backtrace.data[i] = info->backtrace[i];
}
// EPC
if (info->pc) {
epc.data[0] = (unsigned int) info->pc;
epc.length = 1;
} else {
epc.length = 0;
}
}
#endif
void init() {
if (backtrace.length > backtraceMaxLength) {
backtrace.length = 0;
}
if (epc.length > epcMaxLength) {
epc.length = 0;
}
#ifdef ARDUINO_ARCH_ESP32
set_arduino_panic_handler(panicHandler, nullptr);
#endif
}
}
#ifdef ARDUINO_ARCH_ESP8266
extern "C" void custom_crash_callback(struct rst_info *info, uint32_t stack, uint32_t stack_end) {
uint8_t _length = 0;
CrashRecorder::ext.core = 0;
CrashRecorder::ext.heap = ESP.getFreeHeap();
CrashRecorder::ext.uptime = millis() / 1000u;
// Backtrace
CrashRecorder::backtrace.continues = false;
uint32_t value;
for (uint32_t i = stack; i < stack_end; i += 4) {
value = *((uint32_t*) i);
// keep only addresses in code area
if ((value >= 0x40000000) && (value < 0x40300000)) {
if (_length >= CrashRecorder::backtraceMaxLength) {
CrashRecorder::backtrace.continues = true;
break;
}
CrashRecorder::backtrace.data[_length++] = value;
}
}
CrashRecorder::backtrace.length = _length;
// EPC
_length = 0;
if (info->epc1 > 0) {
CrashRecorder::epc.data[_length++] = info->epc1;
}
if (info->epc2 > 0) {
CrashRecorder::epc.data[_length++] = info->epc2;
}
if (info->epc3 > 0) {
CrashRecorder::epc.data[_length++] = info->epc3;
}
CrashRecorder::epc.length = _length;
}
#endif

1845
src/HaHelper.h
View File

File diff suppressed because it is too large Load Diff

339
src/MainTask.h
View File

@@ -5,7 +5,7 @@ using namespace NetworkUtils;
extern NetworkMgr* network;
extern MqttTask* tMqtt;
extern OpenThermTask* tOt;
extern FileData fsSettings, fsNetworkSettings;
extern FileData fsNetworkSettings, fsSettings, fsSensorsSettings;
extern ESPTelnetStream* telnetStream;
@@ -32,7 +32,8 @@ protected:
unsigned long lastHeapInfo = 0;
unsigned int minFreeHeap = 0;
unsigned int minMaxFreeBlockHeap = 0;
unsigned long restartSignalTime = 0;
bool restartSignalReceived = false;
unsigned long restartSignalReceivedTime = 0;
bool heatingEnabled = false;
unsigned long heatingDisabledTime = 0;
PumpStartReason extPumpStartReason = PumpStartReason::NONE;
@@ -60,31 +61,52 @@ protected:
void loop() {
network->loop();
if (fsSettings.tick() == FD_WRITE) {
Log.sinfoln(FPSTR(L_SETTINGS), F("Updated"));
}
if (fsNetworkSettings.tick() == FD_WRITE) {
Log.sinfoln(FPSTR(L_NETWORK_SETTINGS), F("Updated"));
}
if (fsSettings.tick() == FD_WRITE) {
Log.sinfoln(FPSTR(L_SETTINGS), F("Updated"));
}
if (fsSensorsSettings.tick() == FD_WRITE) {
Log.sinfoln(FPSTR(L_SENSORS_SETTINGS), F("Updated"));
}
if (vars.actions.restart) {
this->restartSignalReceivedTime = millis();
this->restartSignalReceived = true;
vars.actions.restart = false;
this->restartSignalTime = millis();
Log.sinfoln(FPSTR(L_MAIN), F("Received restart signal"));
}
if (!vars.states.restarting && this->restartSignalReceived && millis() - this->restartSignalReceivedTime > 5000) {
vars.states.restarting = true;
// save settings
fsSettings.updateNow();
// save sensors settings
fsSensorsSettings.updateNow();
// force save network settings
if (fsNetworkSettings.updateNow() == FD_FILE_ERR && LittleFS.begin()) {
fsNetworkSettings.write();
}
Log.sinfoln(FPSTR(L_MAIN), F("Restart signal received. Restart after 10 sec."));
Log.sinfoln(FPSTR(L_MAIN), F("Restart scheduled in 10 sec."));
}
vars.states.mqtt = tMqtt->isConnected();
vars.sensors.rssi = network->isConnected() ? WiFi.RSSI() : 0;
vars.mqtt.connected = tMqtt->isConnected();
vars.network.connected = network->isConnected();
vars.network.rssi = network->isConnected() ? WiFi.RSSI() : 0;
if (settings.system.logLevel >= TinyLogger::Level::SILENT && settings.system.logLevel <= TinyLogger::Level::VERBOSE) {
if (Log.getLevel() != settings.system.logLevel) {
Log.setLevel(static_cast<TinyLogger::Level>(settings.system.logLevel));
}
}
if (network->isConnected()) {
if (!this->telnetStarted && telnetStream != nullptr) {
@@ -92,19 +114,14 @@ protected:
this->telnetStarted = true;
}
if (settings.mqtt.enable && !tMqtt->isEnabled()) {
if (settings.mqtt.enabled && !tMqtt->isEnabled()) {
tMqtt->enable();
} else if (!settings.mqtt.enable && tMqtt->isEnabled()) {
} else if (!settings.mqtt.enabled && tMqtt->isEnabled()) {
tMqtt->disable();
}
if ( Log.getLevel() != TinyLogger::Level::INFO && !settings.system.debug ) {
Log.setLevel(TinyLogger::Level::INFO);
} else if ( Log.getLevel() != TinyLogger::Level::VERBOSE && settings.system.debug ) {
Log.setLevel(TinyLogger::Level::VERBOSE);
}
Sensors::setConnectionStatusByType(Sensors::Type::MANUAL, !settings.mqtt.enabled || vars.mqtt.connected, false);
} else {
if (this->telnetStarted) {
@@ -115,11 +132,14 @@ protected:
if (tMqtt->isEnabled()) {
tMqtt->disable();
}
Sensors::setConnectionStatusByType(Sensors::Type::MANUAL, false, false);
}
this->yield();
this->emergency();
this->ledStatus();
this->cascadeControl();
this->externalPump();
this->yield();
@@ -135,8 +155,9 @@ protected:
for (Stream* stream : Log.getStreams()) {
while (stream->available() > 0) {
stream->read();
#ifdef ARDUINO_ARCH_ESP8266
::delay(0);
::optimistic_yield(1000);
#endif
}
}
@@ -146,8 +167,9 @@ protected:
// restart
if (this->restartSignalTime > 0 && millis() - this->restartSignalTime > 10000) {
this->restartSignalTime = 0;
if (this->restartSignalReceived && millis() - this->restartSignalReceivedTime > 15000) {
this->restartSignalReceived = false;
ESP.restart();
}
}
@@ -156,11 +178,13 @@ protected:
unsigned int freeHeap = getFreeHeap();
unsigned int maxFreeBlockHeap = getMaxFreeBlockHeap();
if (!this->restartSignalTime && (freeHeap < 2048 || maxFreeBlockHeap < 2048)) {
this->restartSignalTime = millis();
// critical heap
if (!vars.states.restarting && (freeHeap < 2048 || maxFreeBlockHeap < 2048)) {
this->restartSignalReceivedTime = millis();
vars.states.restarting = true;
}
if (!settings.system.debug) {
if (settings.system.logLevel < TinyLogger::Level::VERBOSE) {
return;
}
@@ -189,41 +213,24 @@ protected:
}
void emergency() {
if (!settings.emergency.enable && vars.states.emergency) {
this->emergencyDetected = false;
vars.states.emergency = false;
Log.sinfoln(FPSTR(L_MAIN), F("Emergency mode disabled"));
}
if (!settings.emergency.enable) {
return;
}
// flags
uint8_t emergencyFlags = 0b00000000;
// set network flag
if (settings.emergency.onNetworkFault && !network->isConnected()) {
emergencyFlags |= 0b00000001;
}
// set mqtt flag
if (settings.emergency.onMqttFault && (!tMqtt->isEnabled() || !tMqtt->isConnected())) {
emergencyFlags |= 0b00000010;
}
// set outdoor sensor flag
if (settings.sensors.outdoor.type == SensorType::DS18B20 || settings.sensors.outdoor.type == SensorType::BLUETOOTH) {
if (settings.emergency.onOutdoorSensorDisconnect && !vars.sensors.outdoor.connected) {
emergencyFlags |= 0b00000100;
if (settings.equitherm.enabled) {
if (!Sensors::existsConnectedSensorsByPurpose(Sensors::Purpose::OUTDOOR_TEMP)) {
emergencyFlags |= 0b00000001;
}
}
// set indoor sensor flag
if (settings.sensors.indoor.type == SensorType::DS18B20 || settings.sensors.indoor.type == SensorType::BLUETOOTH) {
if (settings.emergency.onIndoorSensorDisconnect && !vars.sensors.indoor.connected) {
emergencyFlags |= 0b00001000;
// set indoor sensor flags
if (!Sensors::existsConnectedSensorsByPurpose(Sensors::Purpose::INDOOR_TEMP)) {
if (!settings.equitherm.enabled && settings.pid.enabled) {
emergencyFlags |= 0b00000010;
}
if (settings.opentherm.nativeHeatingControl) {
emergencyFlags |= 0b00000100;
}
}
@@ -234,10 +241,10 @@ protected:
this->emergencyDetected = true;
this->emergencyFlipTime = millis();
} else if (this->emergencyDetected && !vars.states.emergency) {
} else if (this->emergencyDetected && !vars.emergency.state) {
// enable emergency
if (millis() - this->emergencyFlipTime > (settings.emergency.tresholdTime * 1000)) {
vars.states.emergency = true;
vars.emergency.state = true;
Log.sinfoln(FPSTR(L_MAIN), F("Emergency mode enabled (%hhu)"), emergencyFlags);
}
}
@@ -248,10 +255,10 @@ protected:
this->emergencyDetected = false;
this->emergencyFlipTime = millis();
} else if (!this->emergencyDetected && vars.states.emergency) {
} else if (!this->emergencyDetected && vars.emergency.state) {
// disable emergency
if (millis() - this->emergencyFlipTime > 30000) {
vars.states.emergency = false;
if (millis() - this->emergencyFlipTime > (settings.emergency.tresholdTime * 1000)) {
vars.emergency.state = false;
Log.sinfoln(FPSTR(L_MAIN), F("Emergency mode disabled"));
}
}
@@ -290,15 +297,15 @@ protected:
errors[errCount++] = 2;
}
if (!vars.states.otStatus) {
if (!vars.slave.connected) {
errors[errCount++] = 3;
}
if (vars.states.fault) {
if (vars.slave.fault.active) {
errors[errCount++] = 4;
}
if (vars.states.emergency) {
if (vars.emergency.state) {
errors[errCount++] = 5;
}
@@ -337,6 +344,170 @@ protected:
this->blinker->tick();
}
void cascadeControl() {
static uint8_t configuredInputGpio = GPIO_IS_NOT_CONFIGURED;
static uint8_t configuredOutputGpio = GPIO_IS_NOT_CONFIGURED;
static bool inputTempValue = false;
static unsigned long inputChangedTs = 0;
static bool outputTempValue = false;
static unsigned long outputChangedTs = 0;
// input
if (settings.cascadeControl.input.enabled) {
if (settings.cascadeControl.input.gpio != configuredInputGpio) {
if (configuredInputGpio != GPIO_IS_NOT_CONFIGURED) {
pinMode(configuredInputGpio, OUTPUT);
digitalWrite(configuredInputGpio, LOW);
Log.sinfoln(FPSTR(L_CASCADE_INPUT), F("Deinitialized on GPIO %hhu"), configuredInputGpio);
}
if (GPIO_IS_VALID(settings.cascadeControl.input.gpio)) {
configuredInputGpio = settings.cascadeControl.input.gpio;
pinMode(configuredInputGpio, INPUT);
Log.sinfoln(FPSTR(L_CASCADE_INPUT), F("Initialized on GPIO %hhu"), configuredInputGpio);
} else if (configuredInputGpio != GPIO_IS_NOT_CONFIGURED) {
configuredInputGpio = GPIO_IS_NOT_CONFIGURED;
Log.swarningln(FPSTR(L_CASCADE_INPUT), F("Failed initialize: GPIO %hhu is not valid!"), configuredInputGpio);
}
}
if (configuredInputGpio != GPIO_IS_NOT_CONFIGURED) {
bool value;
if (digitalRead(configuredInputGpio) == HIGH) {
value = true ^ settings.cascadeControl.input.invertState;
} else {
value = false ^ settings.cascadeControl.input.invertState;
}
if (value != vars.cascadeControl.input) {
if (value != inputTempValue) {
inputTempValue = value;
inputChangedTs = millis();
} else if (millis() - inputChangedTs >= settings.cascadeControl.input.thresholdTime * 1000u) {
vars.cascadeControl.input = value;
Log.sinfoln(
FPSTR(L_CASCADE_INPUT),
F("State changed to %s"),
value ? F("TRUE") : F("FALSE")
);
}
} else if (value != inputTempValue) {
inputTempValue = value;
}
}
}
if (!settings.cascadeControl.input.enabled || configuredInputGpio == GPIO_IS_NOT_CONFIGURED) {
if (!vars.cascadeControl.input) {
vars.cascadeControl.input = true;
Log.sinfoln(
FPSTR(L_CASCADE_INPUT),
F("Disabled, state changed to %s"),
vars.cascadeControl.input ? F("TRUE") : F("FALSE")
);
}
}
// output
if (settings.cascadeControl.output.enabled) {
if (settings.cascadeControl.output.gpio != configuredOutputGpio) {
if (configuredOutputGpio != GPIO_IS_NOT_CONFIGURED) {
pinMode(configuredOutputGpio, OUTPUT);
digitalWrite(configuredOutputGpio, LOW);
Log.sinfoln(FPSTR(L_CASCADE_OUTPUT), F("Deinitialized on GPIO %hhu"), configuredOutputGpio);
}
if (GPIO_IS_VALID(settings.cascadeControl.output.gpio)) {
configuredOutputGpio = settings.cascadeControl.output.gpio;
pinMode(configuredOutputGpio, OUTPUT);
digitalWrite(
configuredOutputGpio,
settings.cascadeControl.output.invertState
? HIGH
: LOW
);
Log.sinfoln(FPSTR(L_CASCADE_OUTPUT), F("Initialized on GPIO %hhu"), configuredOutputGpio);
} else if (configuredOutputGpio != GPIO_IS_NOT_CONFIGURED) {
configuredOutputGpio = GPIO_IS_NOT_CONFIGURED;
Log.swarningln(FPSTR(L_CASCADE_OUTPUT), F("Failed initialize: GPIO %hhu is not valid!"), configuredOutputGpio);
}
}
if (configuredOutputGpio != GPIO_IS_NOT_CONFIGURED) {
bool value = false;
if (settings.cascadeControl.output.onFault && vars.slave.fault.active) {
value = true;
} else if (settings.cascadeControl.output.onLossConnection && !vars.slave.connected) {
value = true;
} else if (settings.cascadeControl.output.onEnabledHeating && settings.heating.enabled && vars.cascadeControl.input) {
value = true;
}
if (value != vars.cascadeControl.output) {
if (value != outputTempValue) {
outputTempValue = value;
outputChangedTs = millis();
} else if (millis() - outputChangedTs >= settings.cascadeControl.output.thresholdTime * 1000u) {
vars.cascadeControl.output = value;
digitalWrite(
configuredOutputGpio,
vars.cascadeControl.output ^ settings.cascadeControl.output.invertState
? HIGH
: LOW
);
Log.sinfoln(
FPSTR(L_CASCADE_OUTPUT),
F("State changed to %s"),
value ? F("TRUE") : F("FALSE")
);
}
} else if (value != outputTempValue) {
outputTempValue = value;
}
}
}
if (!settings.cascadeControl.output.enabled || configuredOutputGpio == GPIO_IS_NOT_CONFIGURED) {
if (vars.cascadeControl.output) {
vars.cascadeControl.output = false;
if (configuredOutputGpio != GPIO_IS_NOT_CONFIGURED) {
digitalWrite(
configuredOutputGpio,
vars.cascadeControl.output ^ settings.cascadeControl.output.invertState
? HIGH
: LOW
);
}
Log.sinfoln(
FPSTR(L_CASCADE_OUTPUT),
F("Disabled, state changed to %s"),
vars.cascadeControl.output ? F("TRUE") : F("FALSE")
);
}
}
}
void externalPump() {
static uint8_t configuredGpio = GPIO_IS_NOT_CONFIGURED;
@@ -356,75 +527,75 @@ protected:
}
if (configuredGpio == GPIO_IS_NOT_CONFIGURED) {
if (vars.states.externalPump) {
vars.states.externalPump = false;
vars.parameters.extPumpLastEnableTime = millis();
if (vars.externalPump.state) {
vars.externalPump.state = false;
vars.externalPump.lastEnabledTime = millis();
Log.sinfoln("EXTPUMP", F("Disabled: use = off"));
Log.sinfoln(FPSTR(L_EXTPUMP), F("Disabled: use = off"));
}
return;
}
if (!vars.states.heating && this->heatingEnabled) {
if (!vars.master.heating.enabled && this->heatingEnabled) {
this->heatingEnabled = false;
this->heatingDisabledTime = millis();
} else if (vars.states.heating && !this->heatingEnabled) {
} else if (vars.master.heating.enabled && !this->heatingEnabled) {
this->heatingEnabled = true;
}
if (!settings.externalPump.use) {
if (vars.states.externalPump) {
if (vars.externalPump.state) {
digitalWrite(configuredGpio, LOW);
vars.states.externalPump = false;
vars.parameters.extPumpLastEnableTime = millis();
vars.externalPump.state = false;
vars.externalPump.lastEnabledTime = millis();
Log.sinfoln("EXTPUMP", F("Disabled: use = off"));
Log.sinfoln(FPSTR(L_EXTPUMP), F("Disabled: use = off"));
}
return;
}
if (vars.states.externalPump && !this->heatingEnabled) {
if (vars.externalPump.state && !this->heatingEnabled) {
if (this->extPumpStartReason == MainTask::PumpStartReason::HEATING && millis() - this->heatingDisabledTime > (settings.externalPump.postCirculationTime * 1000u)) {
digitalWrite(configuredGpio, LOW);
vars.states.externalPump = false;
vars.parameters.extPumpLastEnableTime = millis();
vars.externalPump.state = false;
vars.externalPump.lastEnabledTime = millis();
Log.sinfoln("EXTPUMP", F("Disabled: expired post circulation time"));
Log.sinfoln(FPSTR(L_EXTPUMP), F("Disabled: expired post circulation time"));
} else if (this->extPumpStartReason == MainTask::PumpStartReason::ANTISTUCK && millis() - this->externalPumpStartTime >= (settings.externalPump.antiStuckTime * 1000u)) {
digitalWrite(configuredGpio, LOW);
vars.states.externalPump = false;
vars.parameters.extPumpLastEnableTime = millis();
vars.externalPump.state = false;
vars.externalPump.lastEnabledTime = millis();
Log.sinfoln("EXTPUMP", F("Disabled: expired anti stuck time"));
Log.sinfoln(FPSTR(L_EXTPUMP), F("Disabled: expired anti stuck time"));
}
} else if (vars.states.externalPump && this->heatingEnabled && this->extPumpStartReason == MainTask::PumpStartReason::ANTISTUCK) {
} else if (vars.externalPump.state && this->heatingEnabled && this->extPumpStartReason == MainTask::PumpStartReason::ANTISTUCK) {
this->extPumpStartReason = MainTask::PumpStartReason::HEATING;
} else if (!vars.states.externalPump && this->heatingEnabled) {
vars.states.externalPump = true;
} else if (!vars.externalPump.state && this->heatingEnabled) {
vars.externalPump.state = true;
this->externalPumpStartTime = millis();
this->extPumpStartReason = MainTask::PumpStartReason::HEATING;
digitalWrite(configuredGpio, HIGH);
Log.sinfoln("EXTPUMP", F("Enabled: heating on"));
Log.sinfoln(FPSTR(L_EXTPUMP), F("Enabled: heating on"));
} else if (!vars.states.externalPump && (vars.parameters.extPumpLastEnableTime == 0 || millis() - vars.parameters.extPumpLastEnableTime >= (settings.externalPump.antiStuckInterval * 1000ul))) {
vars.states.externalPump = true;
} else if (!vars.externalPump.state && (vars.externalPump.lastEnabledTime == 0 || millis() - vars.externalPump.lastEnabledTime >= (settings.externalPump.antiStuckInterval * 1000lu))) {
vars.externalPump.state = true;
this->externalPumpStartTime = millis();
this->extPumpStartReason = MainTask::PumpStartReason::ANTISTUCK;
digitalWrite(configuredGpio, HIGH);
Log.sinfoln("EXTPUMP", F("Enabled: anti stuck"));
Log.sinfoln(FPSTR(L_EXTPUMP), F("Enabled: anti stuck"));
}
}
};

394
src/MqttTask.h
View File

@@ -1,3 +1,4 @@
#include <unordered_map>
#include <MqttClient.h>
#include <MqttWiFiClient.h>
#include <MqttWriter.h>
@@ -61,10 +62,18 @@ public:
this->prevPubSettingsTime = 0;
}
inline void resetPublishedSensorTime(uint8_t sensorId) {
this->prevPubSensorTime[sensorId] = 0;
}
inline void resetPublishedVarsTime() {
this->prevPubVarsTime = 0;
}
inline void rebuildHaEntity(uint8_t sensorId, Sensors::Settings& prevSettings) {
this->queueRebuildingHaEntities[sensorId] = prevSettings;
}
protected:
MqttWiFiClient* wifiClient = nullptr;
MqttClient* client = nullptr;
@@ -72,12 +81,14 @@ protected:
MqttWriter* writer = nullptr;
UnitSystem currentUnitSystem = UnitSystem::METRIC;
bool currentHomeAssistantDiscovery = false;
unsigned short readyForSendTime = 15000;
std::unordered_map<uint8_t, Sensors::Settings> queueRebuildingHaEntities;
unsigned short readyForSendTime = 30000;
unsigned long lastReconnectTime = 0;
unsigned long connectedTime = 0;
unsigned long disconnectedTime = 0;
unsigned long prevPubVarsTime = 0;
unsigned long prevPubSettingsTime = 0;
std::unordered_map<uint8_t, unsigned long> prevPubSensorTime;
bool connected = false;
bool newConnection = false;
@@ -118,7 +129,7 @@ protected:
#endif
this->client->onMessage([this] (void*, size_t length) {
String topic = this->client->messageTopic();
const String& topic = this->client->messageTopic();
if (!length || length > 2048 || !topic.length()) {
return;
}
@@ -128,7 +139,7 @@ protected:
payload[i] = this->client->read();
}
this->onMessage(topic.c_str(), payload, length);
this->onMessage(topic, payload, length);
});
// writer settings
@@ -142,7 +153,7 @@ protected:
Log.straceln(FPSTR(L_MQTT), F("%s publish %u of %u bytes to topic: %s"), result ? F("Successfully") : F("Failed"), written, length, topic);
#ifdef ARDUINO_ARCH_ESP8266
::delay(0);
::optimistic_yield(1000);
#endif
//this->client->poll();
@@ -151,13 +162,13 @@ protected:
#ifdef ARDUINO_ARCH_ESP8266
this->writer->setFlushEventCallback([this] (size_t, size_t) {
::delay(0);
::optimistic_yield(1000);
if (this->wifiClient->connected()) {
this->wifiClient->flush();
}
::delay(0);
::optimistic_yield(1000);
});
#endif
@@ -173,9 +184,8 @@ protected:
}
void loop() {
if (settings.mqtt.interval > 120) {
settings.mqtt.interval = 5;
fsSettings.update();
if (vars.states.restarting || vars.states.upgrading) {
return;
}
if (this->connected && !this->client->connected()) {
@@ -186,9 +196,15 @@ protected:
Log.sinfoln(FPSTR(L_MQTT), F("Connecting to %s:%u..."), settings.mqtt.server, settings.mqtt.port);
this->haHelper->setDevicePrefix(settings.mqtt.prefix);
this->haHelper->updateCachedTopics();
this->client->stop();
this->client->setId(networkSettings.hostname);
this->client->setUsernamePassword(settings.mqtt.user, settings.mqtt.password);
this->client->beginWill(this->haHelper->getDeviceTopic(F("status")).c_str(), 7, true, 1);
this->client->print(F("offline"));
this->client->endWill();
this->client->connect(settings.mqtt.server, settings.mqtt.port);
this->lastReconnectTime = millis();
this->yield();
@@ -210,22 +226,44 @@ protected:
}
#ifdef ARDUINO_ARCH_ESP8266
::delay(0);
::optimistic_yield(1000);
#endif
// publish variables and status
if (this->newConnection || millis() - this->prevPubVarsTime > (settings.mqtt.interval * 1000u)) {
this->writer->publish(this->haHelper->getDeviceTopic("status").c_str(), "online", false);
this->publishVariables(this->haHelper->getDeviceTopic("state").c_str());
this->writer->publish(this->haHelper->getDeviceTopic(F("status")).c_str(), "online", false);
this->publishVariables(this->haHelper->getDeviceTopic(F("state")).c_str());
this->prevPubVarsTime = millis();
}
// publish settings
if (this->newConnection || millis() - this->prevPubSettingsTime > (settings.mqtt.interval * 10000u)) {
this->publishSettings(this->haHelper->getDeviceTopic("settings").c_str());
this->publishSettings(this->haHelper->getDeviceTopic(F("settings")).c_str());
this->prevPubSettingsTime = millis();
}
// publish sensors
for (uint8_t sensorId = 0; sensorId <= Sensors::getMaxSensorId(); sensorId++) {
if (!Sensors::hasEnabledAndValid(sensorId)) {
continue;
}
auto& rSensor = Sensors::results[sensorId];
bool needUpdate = false;
if (millis() - this->prevPubSensorTime[sensorId] > ((this->haHelper->getExpireAfter() - 10) * 1000u)) {
needUpdate = true;
} else if (rSensor.activityTime >= this->prevPubSensorTime[sensorId]) {
auto estimated = rSensor.activityTime - this->prevPubSensorTime[sensorId];
needUpdate = estimated > 1000u;
}
if (this->newConnection || needUpdate) {
this->publishSensor(sensorId);
this->prevPubSensorTime[sensorId] = millis();
}
}
// publish ha entities if not published
if (settings.mqtt.homeAssistantDiscovery) {
if (this->newConnection || !this->currentHomeAssistantDiscovery || this->currentUnitSystem != settings.system.unitSystem) {
@@ -239,6 +277,79 @@ protected:
this->publishNonStaticHaEntities();
}
for (auto& [sensorId, prevSettings] : this->queueRebuildingHaEntities) {
Log.sinfoln(FPSTR(L_MQTT_HA), F("Rebuilding config for sensor #%hhu '%s'"), sensorId, prevSettings.name);
// delete old config
if (strlen(prevSettings.name) && prevSettings.enabled) {
switch (prevSettings.type) {
case Sensors::Type::BLUETOOTH:
this->haHelper->deleteConnectionDynamicSensor(prevSettings);
this->haHelper->deleteSignalQualityDynamicSensor(prevSettings);
this->haHelper->deleteDynamicSensor(prevSettings, Sensors::ValueType::TEMPERATURE);
this->haHelper->deleteDynamicSensor(prevSettings, Sensors::ValueType::HUMIDITY);
this->haHelper->deleteDynamicSensor(prevSettings, Sensors::ValueType::BATTERY);
this->haHelper->deleteDynamicSensor(prevSettings, Sensors::ValueType::RSSI);
break;
case Sensors::Type::DALLAS_TEMP:
this->haHelper->deleteConnectionDynamicSensor(prevSettings);
this->haHelper->deleteSignalQualityDynamicSensor(prevSettings);
this->haHelper->deleteDynamicSensor(prevSettings, Sensors::ValueType::TEMPERATURE);
break;
case Sensors::Type::MANUAL:
this->client->unsubscribe(
this->haHelper->getDeviceTopic(
F("sensors"),
Sensors::makeObjectId(prevSettings.name).c_str(),
F("set")
).c_str()
);
default:
this->haHelper->deleteDynamicSensor(prevSettings, Sensors::ValueType::PRIMARY);
}
}
if (!Sensors::hasEnabledAndValid(sensorId)) {
continue;
}
// make new config
auto& sSettings = Sensors::settings[sensorId];
switch (sSettings.type) {
case Sensors::Type::BLUETOOTH:
this->haHelper->publishConnectionDynamicSensor(sSettings);
this->haHelper->publishSignalQualityDynamicSensor(sSettings, false);
this->haHelper->publishDynamicSensor(sSettings, Sensors::ValueType::TEMPERATURE, settings.system.unitSystem);
this->haHelper->publishDynamicSensor(sSettings, Sensors::ValueType::HUMIDITY, settings.system.unitSystem);
this->haHelper->publishDynamicSensor(sSettings, Sensors::ValueType::BATTERY, settings.system.unitSystem);
this->haHelper->publishDynamicSensor(sSettings, Sensors::ValueType::RSSI, settings.system.unitSystem, false);
break;
case Sensors::Type::DALLAS_TEMP:
this->haHelper->publishConnectionDynamicSensor(sSettings);
this->haHelper->publishSignalQualityDynamicSensor(sSettings, false);
this->haHelper->publishDynamicSensor(sSettings, Sensors::ValueType::TEMPERATURE, settings.system.unitSystem);
break;
case Sensors::Type::MANUAL:
this->client->subscribe(
this->haHelper->getDeviceTopic(
F("sensors"),
Sensors::makeObjectId(prevSettings.name).c_str(),
F("set")
).c_str()
);
default:
this->haHelper->publishDynamicSensor(sSettings, Sensors::ValueType::PRIMARY, settings.system.unitSystem);
}
}
this->queueRebuildingHaEntities.clear();
} else if (this->currentHomeAssistantDiscovery) {
this->currentHomeAssistantDiscovery = false;
}
@@ -254,24 +365,24 @@ protected:
unsigned long downtime = (millis() - this->disconnectedTime) / 1000;
Log.sinfoln(FPSTR(L_MQTT), F("Connected (downtime: %u s.)"), downtime);
this->client->subscribe(this->haHelper->getDeviceTopic("settings/set").c_str());
this->client->subscribe(this->haHelper->getDeviceTopic("state/set").c_str());
this->client->subscribe(this->haHelper->getDeviceTopic(F("settings/set")).c_str());
this->client->subscribe(this->haHelper->getDeviceTopic(F("state/set")).c_str());
}
void onDisconnect() {
this->disconnectedTime = millis();
unsigned long uptime = (millis() - this->connectedTime) / 1000;
Log.swarningln(FPSTR(L_MQTT), F("Disconnected (reason: %d uptime: %u s.)"), this->client->connectError(), uptime);
Log.swarningln(FPSTR(L_MQTT), F("Disconnected (reason: %d uptime: %lu s.)"), this->client->connectError(), uptime);
}
void onMessage(const char* topic, uint8_t* payload, size_t length) {
void onMessage(const String& topic, uint8_t* payload, size_t length) {
if (!length) {
return;
}
if (settings.system.debug) {
Log.strace(FPSTR(L_MQTT_MSG), F("Topic: %s\r\n> "), topic);
if (settings.system.logLevel >= TinyLogger::Level::TRACE) {
Log.strace(FPSTR(L_MQTT_MSG), F("Topic: %s\r\n> "), topic.c_str());
if (Log.lock()) {
for (size_t i = 0; i < length; i++) {
if (payload[i] == 0) {
@@ -279,12 +390,12 @@ protected:
} else if (payload[i] == 13) {
continue;
} else if (payload[i] == 10) {
Log.print("\r\n> ");
Log.print(F("\r\n> "));
} else {
Log.print((char) payload[i]);
}
}
Log.print("\r\n\n");
Log.print(F("\r\n\n"));
Log.flush();
Log.unlock();
}
@@ -302,137 +413,157 @@ protected:
}
doc.shrinkToFit();
if (this->haHelper->getDeviceTopic("state/set").equals(topic)) {
this->writer->publish(this->haHelper->getDeviceTopic("state/set").c_str(), nullptr, 0, true);
// delete topic
this->writer->publish(topic.c_str(), nullptr, 0, true);
if (this->haHelper->getDeviceTopic(F("state/set")).equals(topic)) {
if (jsonToVars(doc, vars)) {
this->resetPublishedVarsTime();
}
} else if (this->haHelper->getDeviceTopic("settings/set").equals(topic)) {
this->writer->publish(this->haHelper->getDeviceTopic("settings/set").c_str(), nullptr, 0, true);
} else if (this->haHelper->getDeviceTopic(F("settings/set")).equals(topic)) {
if (safeJsonToSettings(doc, settings)) {
this->resetPublishedSettingsTime();
fsSettings.update();
}
} else {
const String& sensorsTopic = this->haHelper->getDeviceTopic(F("sensors/"));
auto stLength = sensorsTopic.length();
if (topic.startsWith(sensorsTopic) && topic.endsWith(F("/set"))) {
if (topic.length() > stLength + 4) {
const String& name = topic.substring(stLength, topic.indexOf('/', stLength));
int16_t id = Sensors::getIdByObjectId(name.c_str());
if (id == -1) {
return;
}
if (jsonToSensorResult(id, doc)) {
this->resetPublishedSensorTime(id);
}
}
}
}
}
void publishHaEntities() {
// heating
this->haHelper->publishSwitchHeating(false);
this->haHelper->publishSwitchHeatingTurbo();
this->haHelper->publishNumberHeatingHysteresis(settings.system.unitSystem);
this->haHelper->publishSensorHeatingSetpoint(settings.system.unitSystem, false);
this->haHelper->publishSensorBoilerHeatingMinTemp(settings.system.unitSystem, false);
this->haHelper->publishSensorBoilerHeatingMaxTemp(settings.system.unitSystem, false);
this->haHelper->publishNumberHeatingMinTemp(settings.system.unitSystem, false);
this->haHelper->publishNumberHeatingMaxTemp(settings.system.unitSystem, false);
this->haHelper->publishNumberHeatingMaxModulation(false);
this->haHelper->publishSwitchHeatingTurbo(false);
this->haHelper->publishInputHeatingHysteresis(settings.system.unitSystem);
this->haHelper->publishInputHeatingTurboFactor(false);
this->haHelper->publishInputHeatingMinTemp(settings.system.unitSystem);
this->haHelper->publishInputHeatingMaxTemp(settings.system.unitSystem);
// pid
this->haHelper->publishSwitchPid();
this->haHelper->publishNumberPidFactorP();
this->haHelper->publishNumberPidFactorI();
this->haHelper->publishNumberPidFactorD();
this->haHelper->publishNumberPidDt(false);
this->haHelper->publishNumberPidMinTemp(settings.system.unitSystem, false);
this->haHelper->publishNumberPidMaxTemp(settings.system.unitSystem, false);
this->haHelper->publishInputPidFactorP(false);
this->haHelper->publishInputPidFactorI(false);
this->haHelper->publishInputPidFactorD(false);
this->haHelper->publishInputPidDt(false);
this->haHelper->publishInputPidMinTemp(settings.system.unitSystem, false);
this->haHelper->publishInputPidMaxTemp(settings.system.unitSystem, false);
// equitherm
this->haHelper->publishSwitchEquitherm();
this->haHelper->publishNumberEquithermFactorN();
this->haHelper->publishNumberEquithermFactorK();
this->haHelper->publishNumberEquithermFactorT();
this->haHelper->publishInputEquithermFactorN(false);
this->haHelper->publishInputEquithermFactorK(false);
this->haHelper->publishInputEquithermFactorT(false);
// states
this->haHelper->publishBinSensorStatus();
this->haHelper->publishBinSensorOtStatus();
this->haHelper->publishBinSensorHeating();
this->haHelper->publishBinSensorFlame();
this->haHelper->publishBinSensorFault();
this->haHelper->publishBinSensorDiagnostic();
this->haHelper->publishStatusState();
this->haHelper->publishEmergencyState();
this->haHelper->publishOpenthermConnectedState();
this->haHelper->publishHeatingState();
this->haHelper->publishFlameState();
this->haHelper->publishFaultState();
this->haHelper->publishDiagState();
this->haHelper->publishExternalPumpState(false);
// sensors
this->haHelper->publishSensorModulation(false);
this->haHelper->publishSensorPressure(settings.system.unitSystem, false);
this->haHelper->publishSensorFaultCode();
this->haHelper->publishSensorRssi(false);
this->haHelper->publishSensorUptime(false);
// temperatures
this->haHelper->publishNumberIndoorTemp(settings.system.unitSystem);
this->haHelper->publishSensorHeatingTemp(settings.system.unitSystem);
this->haHelper->publishSensorHeatingReturnTemp(settings.system.unitSystem, false);
this->haHelper->publishSensorExhaustTemp(settings.system.unitSystem, false);
this->haHelper->publishFaultCode();
this->haHelper->publishDiagCode();
this->haHelper->publishNetworkRssi(false);
this->haHelper->publishUptime(false);
// buttons
this->haHelper->publishButtonRestart(false);
this->haHelper->publishButtonResetFault();
this->haHelper->publishButtonResetDiagnostic();
this->haHelper->publishRestartButton(false);
this->haHelper->publishResetFaultButton();
this->haHelper->publishResetDiagButton();
// dynamic sensors
for (uint8_t sensorId = 0; sensorId <= Sensors::getMaxSensorId(); sensorId++) {
if (!Sensors::hasEnabledAndValid(sensorId)) {
continue;
}
auto& sSettings = Sensors::settings[sensorId];
switch (sSettings.type) {
case Sensors::Type::BLUETOOTH:
this->haHelper->publishConnectionDynamicSensor(sSettings);
this->haHelper->publishSignalQualityDynamicSensor(sSettings, false);
this->haHelper->publishDynamicSensor(sSettings, Sensors::ValueType::TEMPERATURE, settings.system.unitSystem);
this->haHelper->publishDynamicSensor(sSettings, Sensors::ValueType::HUMIDITY, settings.system.unitSystem);
this->haHelper->publishDynamicSensor(sSettings, Sensors::ValueType::BATTERY, settings.system.unitSystem);
this->haHelper->publishDynamicSensor(sSettings, Sensors::ValueType::RSSI, settings.system.unitSystem, false);
break;
case Sensors::Type::DALLAS_TEMP:
this->haHelper->publishConnectionDynamicSensor(sSettings);
this->haHelper->publishSignalQualityDynamicSensor(sSettings, false);
this->haHelper->publishDynamicSensor(sSettings, Sensors::ValueType::TEMPERATURE, settings.system.unitSystem);
break;
case Sensors::Type::MANUAL:
this->client->subscribe(
this->haHelper->getDeviceTopic(
F("sensors"),
Sensors::makeObjectId(sSettings.name).c_str(),
F("set")
).c_str()
);
default:
this->haHelper->publishDynamicSensor(sSettings, Sensors::ValueType::PRIMARY, settings.system.unitSystem);
}
}
}
bool publishNonStaticHaEntities(bool force = false) {
static byte _heatingMinTemp, _heatingMaxTemp, _dhwMinTemp, _dhwMaxTemp = 0;
static bool _noRegulators, _editableOutdoorTemp, _editableIndoorTemp, _dhwPresent = false;
static bool _indoorTempControl, _dhwPresent = false;
bool published = false;
bool noRegulators = !settings.opentherm.nativeHeatingControl && !settings.pid.enable && !settings.equitherm.enable;
byte heatingMinTemp = 0;
byte heatingMaxTemp = 0;
bool editableOutdoorTemp = settings.sensors.outdoor.type == SensorType::MANUAL;
bool editableIndoorTemp = settings.sensors.indoor.type == SensorType::MANUAL;
if (noRegulators) {
heatingMinTemp = settings.heating.minTemp;
heatingMaxTemp = settings.heating.maxTemp;
} else {
heatingMinTemp = convertTemp(THERMOSTAT_INDOOR_MIN_TEMP, UnitSystem::METRIC, settings.system.unitSystem);
heatingMaxTemp = convertTemp(THERMOSTAT_INDOOR_MAX_TEMP, UnitSystem::METRIC, settings.system.unitSystem);
}
if (force || _dhwPresent != settings.opentherm.dhwPresent) {
_dhwPresent = settings.opentherm.dhwPresent;
if (_dhwPresent) {
this->haHelper->publishSwitchDhw(false);
this->haHelper->publishSensorBoilerDhwMinTemp(settings.system.unitSystem, false);
this->haHelper->publishSensorBoilerDhwMaxTemp(settings.system.unitSystem, false);
this->haHelper->publishNumberDhwMinTemp(settings.system.unitSystem, false);
this->haHelper->publishNumberDhwMaxTemp(settings.system.unitSystem, false);
this->haHelper->publishBinSensorDhw();
this->haHelper->publishSensorDhwTemp(settings.system.unitSystem);
this->haHelper->publishSensorDhwFlowRate(settings.system.unitSystem, false);
this->haHelper->publishInputDhwMinTemp(settings.system.unitSystem);
this->haHelper->publishInputDhwMaxTemp(settings.system.unitSystem);
this->haHelper->publishDhwState();
} else {
this->haHelper->deleteSwitchDhw();
this->haHelper->deleteSensorBoilerDhwMinTemp();
this->haHelper->deleteSensorBoilerDhwMaxTemp();
this->haHelper->deleteNumberDhwMinTemp();
this->haHelper->deleteNumberDhwMaxTemp();
this->haHelper->deleteBinSensorDhw();
this->haHelper->deleteSensorDhwTemp();
this->haHelper->deleteNumberDhwTarget();
this->haHelper->deleteInputDhwMinTemp();
this->haHelper->deleteInputDhwMaxTemp();
this->haHelper->deleteDhwState();
this->haHelper->deleteInputDhwTarget();
this->haHelper->deleteClimateDhw();
this->haHelper->deleteSensorDhwFlowRate();
}
published = true;
}
if (force || _noRegulators != noRegulators || _heatingMinTemp != heatingMinTemp || _heatingMaxTemp != heatingMaxTemp) {
_heatingMinTemp = heatingMinTemp;
_heatingMaxTemp = heatingMaxTemp;
_noRegulators = noRegulators;
if (force || _indoorTempControl != vars.master.heating.indoorTempControl || _heatingMinTemp != vars.master.heating.minTemp || _heatingMaxTemp != vars.master.heating.maxTemp) {
_heatingMinTemp = vars.master.heating.minTemp;
_heatingMaxTemp = vars.master.heating.maxTemp;
_indoorTempControl = vars.master.heating.indoorTempControl;
this->haHelper->publishNumberHeatingTarget(settings.system.unitSystem, heatingMinTemp, heatingMaxTemp, false);
this->haHelper->publishClimateHeating(
settings.system.unitSystem,
heatingMinTemp,
heatingMaxTemp,
noRegulators ? HaHelper::TEMP_SOURCE_HEATING : HaHelper::TEMP_SOURCE_INDOOR
vars.master.heating.minTemp,
vars.master.heating.maxTemp
);
published = true;
@@ -442,40 +573,11 @@ protected:
_dhwMinTemp = settings.dhw.minTemp;
_dhwMaxTemp = settings.dhw.maxTemp;
this->haHelper->publishNumberDhwTarget(settings.system.unitSystem, settings.dhw.minTemp, settings.dhw.maxTemp, false);
this->haHelper->publishClimateDhw(settings.system.unitSystem, settings.dhw.minTemp, settings.dhw.maxTemp);
published = true;
}
if (force || _editableOutdoorTemp != editableOutdoorTemp) {
_editableOutdoorTemp = editableOutdoorTemp;
if (editableOutdoorTemp) {
this->haHelper->deleteSensorOutdoorTemp();
this->haHelper->publishNumberOutdoorTemp(settings.system.unitSystem);
} else {
this->haHelper->deleteNumberOutdoorTemp();
this->haHelper->publishSensorOutdoorTemp(settings.system.unitSystem);
}
published = true;
}
if (force || _editableIndoorTemp != editableIndoorTemp) {
_editableIndoorTemp = editableIndoorTemp;
if (editableIndoorTemp) {
this->haHelper->deleteSensorIndoorTemp();
this->haHelper->publishNumberIndoorTemp(settings.system.unitSystem);
} else {
this->haHelper->deleteNumberIndoorTemp();
this->haHelper->publishSensorIndoorTemp(settings.system.unitSystem);
}
published = true;
}
return published;
}
@@ -487,6 +589,30 @@ protected:
return this->writer->publish(topic, doc, true);
}
bool publishSensor(uint8_t sensorId) {
auto& sSettings = Sensors::settings[sensorId];
if (!Sensors::isValidSensorId(sensorId)) {
return false;
} else if (!strlen(sSettings.name)) {
return false;
}
JsonDocument doc;
sensorResultToJson(sensorId, doc);
doc.shrinkToFit();
return this->writer->publish(
this->haHelper->getDeviceTopic(
F("sensors"),
Sensors::makeObjectId(sSettings.name).c_str()
).c_str(),
doc,
true
);
}
bool publishVariables(const char* topic) {
JsonDocument doc;
varsToJson(vars, doc);

1798
src/OpenThermTask.h
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File diff suppressed because it is too large Load Diff

672
src/PortalTask.h
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File diff suppressed because it is too large Load Diff

348
src/RegulatorTask.h
View File

@@ -10,9 +10,12 @@ public:
RegulatorTask(bool _enabled = false, unsigned long _interval = 0) : LeanTask(_enabled, _interval) {}
protected:
float prevHeatingTarget = 0;
float prevEtResult = 0;
float prevPidResult = 0;
float prevHeatingTarget = 0.0f;
float prevEtResult = 0.0f;
float prevPidResult = 0.0f;
bool indoorSensorsConnected = false;
//bool outdoorSensorsConnected = false;
#if defined(ARDUINO_ARCH_ESP32)
const char* getTaskName() override {
@@ -29,104 +32,155 @@ protected:
#endif
void loop() {
float newTemp = vars.parameters.heatingSetpoint;
if (vars.states.emergency) {
if (settings.heating.turbo) {
settings.heating.turbo = false;
Log.sinfoln(FPSTR(L_REGULATOR), F("Turbo mode auto disabled"));
}
newTemp = this->getEmergencyModeTemp();
} else {
if (settings.heating.turbo && (fabs(settings.heating.target - vars.temperatures.indoor) < 1 || !settings.heating.enable || (settings.equitherm.enable && settings.pid.enable))) {
settings.heating.turbo = false;
Log.sinfoln(FPSTR(L_REGULATOR), F("Turbo mode auto disabled"));
}
newTemp = this->getNormalModeTemp();
if (vars.states.restarting || vars.states.upgrading) {
return;
}
// Limits
newTemp = constrain(
newTemp,
!settings.opentherm.nativeHeatingControl ? settings.heating.minTemp : THERMOSTAT_INDOOR_MIN_TEMP,
!settings.opentherm.nativeHeatingControl ? settings.heating.maxTemp : THERMOSTAT_INDOOR_MAX_TEMP
this->indoorSensorsConnected = Sensors::existsConnectedSensorsByPurpose(Sensors::Purpose::INDOOR_TEMP);
//this->outdoorSensorsConnected = Sensors::existsConnectedSensorsByPurpose(Sensors::Purpose::OUTDOOR_TEMP);
if (settings.equitherm.enabled || settings.pid.enabled || settings.opentherm.nativeHeatingControl) {
vars.master.heating.indoorTempControl = true;
vars.master.heating.minTemp = THERMOSTAT_INDOOR_MIN_TEMP;
vars.master.heating.maxTemp = THERMOSTAT_INDOOR_MAX_TEMP;
} else {
vars.master.heating.indoorTempControl = false;
vars.master.heating.minTemp = settings.heating.minTemp;
vars.master.heating.maxTemp = settings.heating.maxTemp;
}
if (!settings.pid.enabled && fabsf(pidRegulator.integral) > 0.01f) {
pidRegulator.integral = 0.0f;
Log.sinfoln(FPSTR(L_REGULATOR_PID), F("Integral sum has been reset"));
}
this->turbo();
this->hysteresis();
vars.master.heating.targetTemp = settings.heating.target;
vars.master.heating.setpointTemp = constrain(
this->getHeatingSetpointTemp(),
this->getHeatingMinSetpointTemp(),
this->getHeatingMaxSetpointTemp()
);
if (fabs(vars.parameters.heatingSetpoint - newTemp) > 0.4999f) {
vars.parameters.heatingSetpoint = newTemp;
Sensors::setValueByType(
Sensors::Type::HEATING_SETPOINT_TEMP, vars.master.heating.setpointTemp,
Sensors::ValueType::PRIMARY, true, true
);
}
void turbo() {
if (settings.heating.turbo) {
if (!settings.heating.enabled || vars.emergency.state || !this->indoorSensorsConnected) {
settings.heating.turbo = false;
} else if (!settings.pid.enabled && !settings.equitherm.enabled) {
settings.heating.turbo = false;
} else if (fabsf(settings.heating.target - vars.master.heating.indoorTemp) <= 1.0f) {
settings.heating.turbo = false;
}
if (!settings.heating.turbo) {
Log.sinfoln(FPSTR(L_REGULATOR), F("Turbo mode auto disabled"));
}
}
}
float getEmergencyModeTemp() {
float newTemp = 0;
// if use equitherm
if (settings.emergency.useEquitherm) {
float etResult = getEquithermTemp(settings.heating.minTemp, settings.heating.maxTemp);
if (fabs(prevEtResult - etResult) > 0.4999f) {
prevEtResult = etResult;
newTemp += etResult;
Log.sinfoln(FPSTR(L_REGULATOR_EQUITHERM), F("New emergency result: %.2f"), etResult);
} else {
newTemp += prevEtResult;
}
} else if(settings.emergency.usePid) {
if (vars.parameters.heatingEnabled) {
float pidResult = getPidTemp(
settings.heating.minTemp,
settings.heating.maxTemp
);
if (fabs(prevPidResult - pidResult) > 0.4999f) {
prevPidResult = pidResult;
newTemp += pidResult;
Log.sinfoln(FPSTR(L_REGULATOR_PID), F("New emergency result: %.2f"), pidResult);
} else {
newTemp += prevPidResult;
}
} else if (!vars.parameters.heatingEnabled && prevPidResult != 0) {
newTemp += prevPidResult;
}
} else {
// default temp, manual mode
newTemp = settings.emergency.target;
void hysteresis() {
bool useHyst = false;
if (settings.heating.hysteresis > 0.01f && this->indoorSensorsConnected) {
useHyst = settings.equitherm.enabled || settings.pid.enabled || settings.opentherm.nativeHeatingControl;
}
return newTemp;
if (useHyst) {
if (!vars.master.heating.blocking && vars.master.heating.indoorTemp - settings.heating.target + 0.0001f >= settings.heating.hysteresis) {
vars.master.heating.blocking = true;
} else if (vars.master.heating.blocking && vars.master.heating.indoorTemp - settings.heating.target - 0.0001f <= -(settings.heating.hysteresis)) {
vars.master.heating.blocking = false;
}
} else if (vars.master.heating.blocking) {
vars.master.heating.blocking = false;
}
}
float getNormalModeTemp() {
inline float getHeatingMinSetpointTemp() {
return settings.opentherm.nativeHeatingControl
? vars.master.heating.minTemp
: settings.heating.minTemp;
}
inline float getHeatingMaxSetpointTemp() {
return settings.opentherm.nativeHeatingControl
? vars.master.heating.maxTemp
: settings.heating.maxTemp;
}
float getHeatingSetpointTemp() {
float newTemp = 0;
if (fabs(prevHeatingTarget - settings.heating.target) > 0.0001f) {
if (fabsf(prevHeatingTarget - settings.heating.target) > 0.0001f) {
prevHeatingTarget = settings.heating.target;
Log.sinfoln(FPSTR(L_REGULATOR), F("New target: %.2f"), settings.heating.target);
if (/*settings.equitherm.enable && */settings.pid.enable) {
pidRegulator.integral = 0;
/*if (settings.pid.enabled) {
pidRegulator.integral = 0.0f;
Log.sinfoln(FPSTR(L_REGULATOR_PID), F("Integral sum has been reset"));
}
}*/
}
if (vars.emergency.state) {
return settings.emergency.target;
} else if (settings.opentherm.nativeHeatingControl) {
return settings.heating.target;
} else if (!settings.equitherm.enabled && !settings.pid.enabled) {
return settings.heating.target;
}
// if use equitherm
if (settings.equitherm.enable) {
float etResult = getEquithermTemp(settings.heating.minTemp, settings.heating.maxTemp);
if (settings.equitherm.enabled) {
unsigned short minTemp = settings.heating.minTemp;
unsigned short maxTemp = settings.heating.maxTemp;
float targetTemp = settings.heating.target;
float indoorTemp = vars.master.heating.indoorTemp;
float outdoorTemp = vars.master.heating.outdoorTemp;
if (fabs(prevEtResult - etResult) > 0.4999f) {
if (settings.system.unitSystem == UnitSystem::IMPERIAL) {
minTemp = f2c(minTemp);
maxTemp = f2c(maxTemp);
targetTemp = f2c(targetTemp);
indoorTemp = f2c(indoorTemp);
outdoorTemp = f2c(outdoorTemp);
}
if (!this->indoorSensorsConnected || settings.pid.enabled) {
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) {
prevEtResult = etResult;
newTemp += etResult;
@@ -138,14 +192,27 @@ protected:
}
// if use pid
if (settings.pid.enable) {
if (vars.parameters.heatingEnabled) {
float pidResult = getPidTemp(
settings.equitherm.enable ? (settings.pid.maxTemp * -1) : settings.pid.minTemp,
settings.pid.maxTemp
);
if (settings.pid.enabled) {
//if (vars.parameters.heatingEnabled) {
if (settings.heating.enabled && this->indoorSensorsConnected) {
pidRegulator.Kp = settings.heating.turbo ? 0.0f : settings.pid.p_factor;
pidRegulator.Kd = settings.pid.d_factor;
if (fabs(prevPidResult - pidResult) > 0.4999f) {
pidRegulator.setLimits(settings.pid.minTemp, settings.pid.maxTemp);
pidRegulator.setDt(settings.pid.dt * 1000u);
pidRegulator.input = vars.master.heating.indoorTemp;
pidRegulator.setpoint = settings.heating.target;
if (fabsf(pidRegulator.Ki - settings.pid.i_factor) >= 0.0001f) {
pidRegulator.Ki = settings.pid.i_factor;
pidRegulator.integral = 0.0f;
pidRegulator.getResultNow();
Log.sinfoln(FPSTR(L_REGULATOR_PID), F("Integral sum has been reset"));
}
float pidResult = pidRegulator.getResultTimer();
if (fabsf(prevPidResult - pidResult) > 0.09f) {
prevPidResult = pidResult;
newTemp += pidResult;
@@ -155,112 +222,21 @@ protected:
} else {
newTemp += prevPidResult;
}
} else {
newTemp += prevPidResult;
}
} else if (fabs(pidRegulator.integral) > 0.0001f) {
pidRegulator.integral = 0;
Log.sinfoln(FPSTR(L_REGULATOR_PID), F("Integral sum has been reset"));
}
// default temp, manual mode
if (!settings.equitherm.enable && !settings.pid.enable) {
newTemp = settings.heating.target;
// Turbo mode
if (settings.heating.turbo && (settings.equitherm.enabled || settings.pid.enabled)) {
newTemp += constrain(
settings.heating.target - vars.master.heating.indoorTemp,
-3.0f,
3.0f
) * settings.heating.turboFactor;
}
return newTemp;
}
/**
* @brief Get the Equitherm Temp
* Calculations in degrees C, conversion occurs when using F
*
* @param minTemp
* @param maxTemp
* @return float
*/
float getEquithermTemp(int minTemp, int maxTemp) {
float targetTemp = vars.states.emergency ? settings.emergency.target : settings.heating.target;
float indoorTemp = vars.temperatures.indoor;
float outdoorTemp = vars.temperatures.outdoor;
if (settings.system.unitSystem == UnitSystem::IMPERIAL) {
minTemp = f2c(minTemp);
maxTemp = f2c(maxTemp);
targetTemp = f2c(targetTemp);
indoorTemp = f2c(indoorTemp);
outdoorTemp = f2c(outdoorTemp);
}
if (vars.states.emergency) {
if (settings.sensors.indoor.type == SensorType::MANUAL) {
etRegulator.Kt = 0;
etRegulator.indoorTemp = 0;
} else if ((settings.sensors.indoor.type == SensorType::DS18B20 || settings.sensors.indoor.type == SensorType::BLUETOOTH) && !vars.sensors.indoor.connected) {
etRegulator.Kt = 0;
etRegulator.indoorTemp = 0;
} else {
etRegulator.Kt = settings.equitherm.t_factor;
etRegulator.indoorTemp = indoorTemp;
}
etRegulator.outdoorTemp = outdoorTemp;
} else if (settings.pid.enable) {
etRegulator.Kt = 0;
etRegulator.indoorTemp = round(indoorTemp);
etRegulator.outdoorTemp = round(outdoorTemp);
} else {
if (settings.heating.turbo) {
etRegulator.Kt = 10;
} else {
etRegulator.Kt = settings.equitherm.t_factor;
}
etRegulator.indoorTemp = indoorTemp;
etRegulator.outdoorTemp = outdoorTemp;
}
etRegulator.setLimits(minTemp, maxTemp);
etRegulator.Kn = settings.equitherm.n_factor;
etRegulator.Kk = settings.equitherm.k_factor;
etRegulator.targetTemp = targetTemp;
float result = etRegulator.getResult();
if (settings.system.unitSystem == UnitSystem::IMPERIAL) {
result = c2f(result);
}
return result;
}
float getPidTemp(int minTemp, int maxTemp) {
if (fabs(pidRegulator.Kp - settings.pid.p_factor) >= 0.0001f) {
pidRegulator.Kp = settings.pid.p_factor;
pidRegulator.integral = 0;
Log.sinfoln(FPSTR(L_REGULATOR_PID), F("Integral sum has been reset"));
}
if (fabs(pidRegulator.Ki - settings.pid.i_factor) >= 0.0001f) {
pidRegulator.Ki = settings.pid.i_factor;
pidRegulator.integral = 0;
Log.sinfoln(FPSTR(L_REGULATOR_PID), F("Integral sum has been reset"));
}
if (fabs(pidRegulator.Kd - settings.pid.d_factor) >= 0.0001f) {
pidRegulator.Kd = settings.pid.d_factor;
pidRegulator.integral = 0;
Log.sinfoln(FPSTR(L_REGULATOR_PID), F("Integral sum has been reset"));
}
pidRegulator.setLimits(minTemp, maxTemp);
pidRegulator.setDt(settings.pid.dt * 1000u);
pidRegulator.input = vars.temperatures.indoor;
pidRegulator.setpoint = settings.heating.target;
return pidRegulator.getResultTimer();
}
};

464
src/Sensors.h Normal file
View File

@@ -0,0 +1,464 @@
#pragma once
class Sensors {
protected:
static uint8_t maxSensors;
public:
enum class Type : uint8_t {
OT_OUTDOOR_TEMP = 0,
OT_HEATING_TEMP = 1,
OT_HEATING_RETURN_TEMP = 2,
OT_DHW_TEMP = 3,
OT_DHW_TEMP2 = 4,
OT_DHW_FLOW_RATE = 5,
OT_CH2_TEMP = 6,
OT_EXHAUST_TEMP = 7,
OT_HEAT_EXCHANGER_TEMP = 8,
OT_PRESSURE = 9,
OT_MODULATION_LEVEL = 10,
OT_CURRENT_POWER = 11,
OT_EXHAUST_CO2 = 12,
OT_EXHAUST_FAN_SPEED = 13,
OT_SUPPLY_FAN_SPEED = 14,
OT_SOLAR_STORAGE_TEMP = 15,
OT_SOLAR_COLLECTOR_TEMP = 16,
OT_FAN_SPEED_SETPOINT = 17,
OT_FAN_SPEED_CURRENT = 18,
NTC_10K_TEMP = 50,
DALLAS_TEMP = 51,
BLUETOOTH = 52,
HEATING_SETPOINT_TEMP = 253,
MANUAL = 254,
NOT_CONFIGURED = 255
};
enum class Purpose : uint8_t {
OUTDOOR_TEMP = 0,
INDOOR_TEMP = 1,
HEATING_TEMP = 2,
HEATING_RETURN_TEMP = 3,
DHW_TEMP = 4,
DHW_RETURN_TEMP = 5,
DHW_FLOW_RATE = 6,
EXHAUST_TEMP = 7,
MODULATION_LEVEL = 8,
POWER_FACTOR = 248,
POWER = 249,
FAN_SPEED = 250,
CO2 = 251,
PRESSURE = 252,
HUMIDITY = 253,
TEMPERATURE = 254,
NOT_CONFIGURED = 255
};
enum class ValueType : uint8_t {
PRIMARY = 0,
TEMPERATURE = 0,
HUMIDITY = 1,
BATTERY = 2,
RSSI = 3
};
typedef struct {
bool enabled = false;
char name[33];
Purpose purpose = Purpose::NOT_CONFIGURED;
Type type = Type::NOT_CONFIGURED;
uint8_t gpio = GPIO_IS_NOT_CONFIGURED;
uint8_t address[8] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
float offset = 0.0f;
float factor = 1.0f;
bool filtering = false;
float filteringFactor = 0.15f;
} Settings;
typedef struct {
bool connected = false;
unsigned long activityTime = 0;
uint8_t signalQuality = 100;
//float raw[4] = {0.0f, 0.0f, 0.0f, 0.0f};
float values[4] = {0.0f, 0.0f, 0.0f, 0.0f};
} Result;
static Settings* settings;
static Result* results;
static inline void setMaxSensors(uint8_t value) {
maxSensors = value;
}
static inline uint8_t getMaxSensors() {
return maxSensors;
}
static uint8_t getMaxSensorId() {
uint8_t maxSensors = getMaxSensors();
return maxSensors > 1 ? (maxSensors - 1) : 0;
}
static inline bool isValidSensorId(const uint8_t id) {
return id >= 0 && id <= getMaxSensorId();
}
static inline bool isValidValueId(const uint8_t id) {
return id >= (uint8_t) ValueType::TEMPERATURE && id <= (uint8_t) ValueType::RSSI;
}
static bool hasEnabledAndValid(const uint8_t id) {
if (!isValidSensorId(id) || !settings[id].enabled) {
return false;
}
if (settings[id].type == Type::NOT_CONFIGURED || settings[id].purpose == Purpose::NOT_CONFIGURED) {
return false;
}
return true;
}
static uint8_t getAmountByType(Type type, bool onlyEnabled = false) {
if (settings == nullptr) {
return 0;
}
uint8_t amount = 0;
for (uint8_t id = 0; id < getMaxSensorId(); id++) {
if (settings[id].type == type && (!onlyEnabled || settings[id].enabled)) {
amount++;
}
}
return amount;
}
static int16_t getIdByName(const char* name) {
if (settings == nullptr) {
return 0;
}
for (uint8_t id = 0; id < getMaxSensorId(); id++) {
if (strcmp(settings[id].name, name) == 0) {
return id;
}
}
return -1;
}
static int16_t getIdByObjectId(const char* objectId) {
if (settings == nullptr) {
return 0;
}
String refObjectId;
for (uint8_t id = 0; id < getMaxSensorId(); id++) {
Sensors::makeObjectId(refObjectId, settings[id].name);
if (refObjectId.equals(objectId)) {
return id;
}
}
return -1;
}
static bool setValueById(const uint8_t sensorId, float value, const ValueType valueType, const bool updateActivityTime = false, const bool markConnected = false) {
if (settings == nullptr || results == nullptr) {
return false;
}
uint8_t valueId = (uint8_t) valueType;
if (!isValidSensorId(sensorId) || !isValidValueId(valueId)) {
return false;
}
auto& sSensor = settings[sensorId];
auto& rSensor = results[sensorId];
float compensatedValue = value;
if (sSensor.type == Type::HEATING_SETPOINT_TEMP || sSensor.type == Type::MANUAL) {
rSensor.values[valueId] = compensatedValue;
} else {
if (valueType == ValueType::PRIMARY) {
if (fabsf(sSensor.factor) > 0.001f) {
compensatedValue *= sSensor.factor;
}
if (fabsf(sSensor.offset) > 0.001f) {
compensatedValue += sSensor.offset;
}
} else if (valueType == ValueType::RSSI) {
if (sSensor.type == Type::BLUETOOTH) {
rSensor.signalQuality = Sensors::bluetoothRssiToQuality(value);
}
}
if (sSensor.filtering && fabsf(rSensor.values[valueId]) >= 0.1f) {
rSensor.values[valueId] += (compensatedValue - rSensor.values[valueId]) * sSensor.filteringFactor;
} else {
rSensor.values[valueId] = compensatedValue;
}
}
if (updateActivityTime) {
rSensor.activityTime = millis();
}
if (markConnected && !rSensor.connected) {
rSensor.connected = true;
Log.snoticeln(
FPSTR(L_SENSORS), F("#%hhu '%s' new status: CONNECTED"),
sensorId, sSensor.name
);
}
Log.snoticeln(
FPSTR(L_SENSORS), F("#%hhu '%s' new value %hhu: %.2f, compensated: %.2f, raw: %.2f"),
sensorId, sSensor.name, valueId, rSensor.values[valueId], compensatedValue, value
);
return true;
}
static uint8_t setValueByType(Type type, float value, const ValueType valueType, const bool updateActivityTime = false, const bool markConnected = false) {
if (settings == nullptr) {
return 0;
}
uint8_t updated = 0;
// read sensors data for current instance
for (uint8_t sensorId = 0; sensorId < getMaxSensorId(); sensorId++) {
auto& sSensor = settings[sensorId];
// only target & valid sensors
if (!sSensor.enabled || sSensor.type != type) {
continue;
}
if (setValueById(sensorId, value, valueType, updateActivityTime, markConnected)) {
updated++;
}
}
return updated;
}
static bool getConnectionStatusById(const uint8_t sensorId) {
if (settings == nullptr || results == nullptr) {
return false;
}
if (!isValidSensorId(sensorId)) {
return false;
}
return results[sensorId].connected;
}
static bool setConnectionStatusById(const uint8_t sensorId, const bool status, const bool updateActivityTime = true) {
if (settings == nullptr || results == nullptr) {
return false;
}
if (!isValidSensorId(sensorId)) {
return false;
}
auto& sSensor = settings[sensorId];
auto& rSensor = results[sensorId];
if (rSensor.connected != status) {
Log.snoticeln(
FPSTR(L_SENSORS), F("#%hhu '%s' new status: %s"),
sensorId, sSensor.name, status ? F("CONNECTED") : F("DISCONNECTED")
);
rSensor.connected = status;
}
if (updateActivityTime) {
rSensor.activityTime = millis();
}
return true;
}
static uint8_t setConnectionStatusByType(Type type, const bool status, const bool updateActivityTime = true) {
if (settings == nullptr) {
return 0;
}
uint8_t updated = 0;
// read sensors data for current instance
for (uint8_t sensorId = 0; sensorId < getMaxSensorId(); sensorId++) {
auto& sSensor = settings[sensorId];
// only target & valid sensors
if (!sSensor.enabled || sSensor.type != type) {
continue;
}
if (setConnectionStatusById(sensorId, status, updateActivityTime)) {
updated++;
}
}
return updated;
}
static float getMeanValueByPurpose(Purpose purpose, const ValueType valueType, bool onlyConnected = true) {
if (settings == nullptr || results == nullptr) {
return 0;
}
uint8_t valueId = (uint8_t) valueType;
if (!isValidValueId(valueId)) {
return false;
}
float value = 0.0f;
uint8_t amount = 0;
for (uint8_t id = 0; id < getMaxSensorId(); id++) {
auto& sSensor = settings[id];
auto& rSensor = results[id];
if (sSensor.purpose == purpose && (!onlyConnected || rSensor.connected)) {
value += rSensor.values[valueId];
amount++;
}
}
if (!amount) {
return 0.0f;
} else if (amount == 1) {
return value;
} else {
return value / amount;
}
}
static bool existsConnectedSensorsByPurpose(Purpose purpose) {
if (settings == nullptr || results == nullptr) {
return 0;
}
for (uint8_t id = 0; id < getMaxSensorId(); id++) {
if (settings[id].purpose == purpose && results[id].connected) {
return true;
}
}
return false;
}
static String& cleanName(String& value, char space = ' ') {
// only valid symbols
for (uint8_t pos = 0; pos < value.length(); pos++) {
char symbol = value.charAt(pos);
// 0..9
if (symbol >= 48 && symbol <= 57) {
continue;
}
// A..Z
if (symbol >= 65 && symbol <= 90) {
continue;
}
// a..z
if (symbol >= 97 && symbol <= 122) {
continue;
}
// _-
if (symbol == 95 || symbol == 45 || symbol == space) {
continue;
}
value.setCharAt(pos, space);
}
value.trim();
return value;
}
template <class T>
static String cleanName(T value, char space = ' ') {
String res = value;
return cleanName(res, space);
}
template <class T>
static String& makeObjectId(String& res, T value, char separator = '_') {
res = value;
cleanName(res);
res.toLowerCase();
res.replace(' ', separator);
return res;
}
template <class T>
static String makeObjectId(T value, char separator = '_') {
String res;
makeObjectId(res, value, separator);
return res;
}
template <class TV, class TS>
static String& makeObjectIdWithSuffix(String& res, TV value, TS suffix, char separator = '_') {
res.clear();
makeObjectId(res, value, separator);
res += separator;
res += suffix;
return res;
}
template <class TV, class TS>
static String makeObjectIdWithSuffix(TV value, TS suffix, char separator = '_') {
String res;
makeObjectIdWithSuffix(res, value, suffix, separator);
return res;
}
template <class TV, class TP>
static String& makeObjectIdWithPrefix(String& res, TV value, TP prefix, char separator = '_') {
res = prefix;
res += separator;
res += makeObjectId(value, separator).c_str();
return res;
}
template <class TV, class TP>
static String makeObjectIdWithPrefix(TV value, TP prefix, char separator = '_') {
String res;
return makeObjectIdWithPrefix(res, value, prefix, separator);
}
static uint8_t bluetoothRssiToQuality(int rssi) {
return constrain(map(rssi, -110, -50, 0, 100), 0, 100);;
}
};
uint8_t Sensors::maxSensors = 0;
Sensors::Settings* Sensors::settings = nullptr;
Sensors::Result* Sensors::results = nullptr;

1051
src/SensorsTask.h
View File

File diff suppressed because it is too large Load Diff

348
src/Settings.h
View File

@@ -24,16 +24,16 @@ struct NetworkSettings {
struct Settings {
struct {
bool debug = DEBUG_BY_DEFAULT;
uint8_t logLevel = DEFAULT_LOG_LEVEL;
struct {
bool enable = USE_SERIAL;
unsigned int baudrate = 115200;
bool enabled = DEFAULT_SERIAL_ENABLED;
unsigned int baudrate = DEFAULT_SERIAL_BAUD;
} serial;
struct {
bool enable = USE_TELNET;
unsigned short port = 23;
bool enabled = DEFAULT_TELNET_ENABLED;
unsigned short port = DEFAULT_TELNET_PORT;
} telnet;
UnitSystem unitSystem = UnitSystem::METRIC;
@@ -51,9 +51,12 @@ struct Settings {
byte inGpio = DEFAULT_OT_IN_GPIO;
byte outGpio = DEFAULT_OT_OUT_GPIO;
byte rxLedGpio = DEFAULT_OT_RX_LED_GPIO;
byte faultStateGpio = DEFAULT_OT_FAULT_STATE_GPIO;
byte invertFaultState = false;
unsigned int memberIdCode = 0;
uint8_t memberId = 0;
uint8_t flags = 0;
uint8_t maxModulation = 100;
float minPower = 0.0f;
float maxPower = 0.0f;
bool dhwPresent = true;
bool summerWinterMode = false;
bool heatingCh2Enabled = true;
@@ -63,10 +66,11 @@ struct Settings {
bool modulationSyncWithHeating = false;
bool getMinMaxTemp = true;
bool nativeHeatingControl = false;
bool immergasFix = false;
} opentherm;
struct {
bool enable = false;
bool enabled = DEFAULT_MQTT_ENABLED;
char server[81] = DEFAULT_MQTT_SERVER;
unsigned short port = DEFAULT_MQTT_PORT;
char user[33] = DEFAULT_MQTT_USER;
@@ -77,67 +81,44 @@ struct Settings {
} mqtt;
struct {
bool enable = false;
float target = DEFAULT_HEATING_TARGET_TEMP;
unsigned short tresholdTime = 120;
bool useEquitherm = false;
bool usePid = false;
bool onNetworkFault = true;
bool onMqttFault = true;
bool onIndoorSensorDisconnect = false;
bool onOutdoorSensorDisconnect = false;
} emergency;
struct {
bool enable = true;
bool enabled = true;
bool turbo = false;
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;
byte maxModulation = 100;
} heating;
struct {
bool enable = true;
bool enabled = true;
float target = DEFAULT_DHW_TARGET_TEMP;
byte minTemp = DEFAULT_DHW_MIN_TEMP;
byte maxTemp = DEFAULT_DHW_MAX_TEMP;
} dhw;
struct {
bool enable = false;
float p_factor = 2;
bool enabled = false;
float p_factor = 2.0f;
float i_factor = 0.0055f;
float d_factor = 0;
float d_factor = 0.0f;
unsigned short dt = 180;
byte minTemp = 0;
byte maxTemp = DEFAULT_HEATING_MAX_TEMP;
short minTemp = 0;
short maxTemp = DEFAULT_HEATING_MAX_TEMP;
} pid;
struct {
bool enable = false;
bool enabled = false;
float n_factor = 0.7f;
float k_factor = 3.0f;
float t_factor = 2.0f;
} equitherm;
struct {
struct {
SensorType type = SensorType::BOILER;
byte gpio = DEFAULT_SENSOR_OUTDOOR_GPIO;
uint8_t bleAddress[6] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
float offset = 0.0f;
} outdoor;
struct {
SensorType type = SensorType::MANUAL;
byte gpio = DEFAULT_SENSOR_INDOOR_GPIO;
uint8_t bleAddress[6] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
float offset = 0.0f;
} indoor;
} sensors;
struct {
bool use = false;
byte gpio = DEFAULT_EXT_PUMP_GPIO;
@@ -146,77 +127,248 @@ struct Settings {
unsigned short antiStuckTime = 300;
} externalPump;
struct {
struct {
bool enabled = false;
byte gpio = GPIO_IS_NOT_CONFIGURED;
byte invertState = false;
unsigned short thresholdTime = 60;
} input;
struct {
bool enabled = false;
byte gpio = GPIO_IS_NOT_CONFIGURED;
byte invertState = false;
unsigned short thresholdTime = 60;
bool onFault = true;
bool onLossConnection = true;
bool onEnabledHeating = false;
} output;
} cascadeControl;
char validationValue[8] = SETTINGS_VALID_VALUE;
} settings;
Sensors::Settings sensorsSettings[SENSORS_AMOUNT] = {
{
false,
"Outdoor temp",
Sensors::Purpose::OUTDOOR_TEMP,
Sensors::Type::OT_OUTDOOR_TEMP,
DEFAULT_SENSOR_OUTDOOR_GPIO
},
{
false,
"Indoor temp",
Sensors::Purpose::INDOOR_TEMP,
Sensors::Type::DALLAS_TEMP,
DEFAULT_SENSOR_INDOOR_GPIO
},
{
true,
"Heating temp",
Sensors::Purpose::HEATING_TEMP,
Sensors::Type::OT_HEATING_TEMP,
},
{
true,
"Heating return temp",
Sensors::Purpose::HEATING_RETURN_TEMP,
Sensors::Type::OT_HEATING_RETURN_TEMP,
},
{
true,
"Heating setpoint temp",
Sensors::Purpose::TEMPERATURE,
Sensors::Type::HEATING_SETPOINT_TEMP,
},
{
true,
"DHW temp",
Sensors::Purpose::DHW_TEMP,
Sensors::Type::OT_DHW_TEMP,
},
{
true,
"DHW flow rate",
Sensors::Purpose::DHW_FLOW_RATE,
Sensors::Type::OT_DHW_FLOW_RATE,
},
{
true,
"Exhaust temp",
Sensors::Purpose::EXHAUST_TEMP,
Sensors::Type::OT_EXHAUST_TEMP,
},
{
true,
"Pressure",
Sensors::Purpose::PRESSURE,
Sensors::Type::OT_PRESSURE,
},
{
true,
"Modulation level",
Sensors::Purpose::MODULATION_LEVEL,
Sensors::Type::OT_MODULATION_LEVEL,
},
{
true,
"Power",
Sensors::Purpose::POWER,
Sensors::Type::OT_CURRENT_POWER,
}
};
struct Variables {
struct {
bool otStatus = false;
bool emergency = false;
bool heating = false;
bool dhw = false;
bool flame = false;
bool fault = false;
bool diagnostic = false;
bool externalPump = false;
bool mqtt = false;
} states;
struct {
float modulation = 0.0f;
float pressure = 0.0f;
float dhwFlowRate = 0.0f;
byte faultCode = 0;
bool connected = false;
int8_t rssi = 0;
struct {
bool connected = false;
int8_t rssi = 0;
float battery = 0.0f;
float humidity = 0.0f;
} outdoor;
struct {
bool connected = false;
int8_t rssi = 0;
float battery = 0.0f;
float humidity = 0.0f;
} indoor;
} sensors;
} network;
struct {
float indoor = 0.0f;
float outdoor = 0.0f;
float heating = 0.0f;
float heatingReturn = 0.0f;
float dhw = 0.0f;
float exhaust = 0.0f;
} temperatures;
bool connected = false;
} mqtt;
struct {
bool heatingEnabled = false;
byte heatingMinTemp = DEFAULT_HEATING_MIN_TEMP;
byte heatingMaxTemp = DEFAULT_HEATING_MAX_TEMP;
float heatingSetpoint = 0;
unsigned long extPumpLastEnableTime = 0;
byte dhwMinTemp = DEFAULT_DHW_MIN_TEMP;
byte dhwMaxTemp = DEFAULT_DHW_MAX_TEMP;
byte maxModulation = 0;
uint8_t slaveMemberId = 0;
uint8_t slaveFlags = 0;
uint8_t slaveType = 0;
uint8_t slaveVersion = 0;
float slaveOtVersion = 0.0f;
uint8_t masterMemberId = 0;
uint8_t masterFlags = 0;
uint8_t masterType = 0;
uint8_t masterVersion = 0;
float masterOtVersion = 0;
} parameters;
bool state = false;
} emergency;
struct {
bool state = false;
unsigned long lastEnabledTime = 0;
} externalPump;
struct {
bool input = false;
bool output = false;
} cascadeControl;
struct {
uint8_t memberId = 0;
uint8_t flags = 0;
uint8_t type = 0;
uint8_t appVersion = 0;
float protocolVersion = 0.0f;
struct {
bool blocking = false;
bool enabled = false;
bool indoorTempControl = false;
float setpointTemp = 0.0f;
float targetTemp = 0.0f;
float currentTemp = 0.0f;
float returnTemp = 0.0f;
float indoorTemp = 0.0f;
float outdoorTemp = 0.0f;
float minTemp = 0.0f;
float maxTemp = 0.0f;
} heating;
struct {
bool enabled = false;
float targetTemp = 0.0f;
float currentTemp = 0.0f;
float returnTemp = 0.0f;
} dhw;
struct {
bool enabled = false;
float targetTemp = 0.0f;
} ch2;
} master;
struct {
uint8_t memberId = 0;
uint8_t flags = 0;
uint8_t type = 0;
uint8_t appVersion = 0;
float protocolVersion = 0.0f;
bool connected = false;
bool flame = false;
float pressure = 0.0f;
float heatExchangerTemp = 0.0f;
struct {
bool active = false;
uint8_t code = 0;
} fault;
struct {
bool active = false;
uint16_t code = 0;
} diag;
struct {
uint8_t current = 0;
uint8_t min = 0;
uint8_t max = 100;
} modulation;
struct {
float current = 0.0f;
float min = 0.0f;
float max = 0.0f;
} power;
struct {
float temp = 0.0f;
uint16_t co2 = 0;
uint16_t fanSpeed = 0;
} exhaust;
struct {
float storage = 0.0f;
float collector = 0.0f;
} solar;
struct {
uint8_t setpoint = 0;
uint8_t current = 0;
uint16_t supply = 0;
} fanSpeed;
struct {
bool active = false;
bool enabled = false;
float targetTemp = 0.0f;
float currentTemp = 0.0f;
float returnTemp = 0.0f;
float indoorTemp = 0.0f;
float outdoorTemp = 0.0f;
uint8_t minTemp = DEFAULT_HEATING_MIN_TEMP;
uint8_t maxTemp = DEFAULT_HEATING_MAX_TEMP;
} heating;
struct {
bool active = false;
bool enabled = false;
float targetTemp = 0.0f;
float currentTemp = 0.0f;
float currentTemp2 = 0.0f;
float returnTemp = 0.0f;
float flowRate = 0.0f;
uint8_t minTemp = DEFAULT_DHW_MIN_TEMP;
uint8_t maxTemp = DEFAULT_DHW_MAX_TEMP;
} dhw;
struct {
bool enabled = false;
float targetTemp = 0.0f;
float currentTemp = 0.0f;
float indoorTemp = 0.0f;
} ch2;
} slave;
struct {
bool restart = false;
bool resetFault = false;
bool resetDiagnostic = false;
} actions;
struct {
bool restarting = false;
bool upgrading = false;
} states;
} vars;

55
src/defines.h
View File

@@ -2,10 +2,6 @@
#define PROJECT_REPO "https://github.com/Laxilef/OTGateway"
#define MQTT_RECONNECT_INTERVAL 15000
#define EXT_SENSORS_INTERVAL 5000
#define EXT_SENSORS_FILTER_K 0.15
#define CONFIG_URL "http://%s/"
#define SETTINGS_VALID_VALUE "stvalid" // only 8 chars!
#define GPIO_IS_NOT_CONFIGURED 0xff
@@ -22,6 +18,14 @@
#define THERMOSTAT_INDOOR_MIN_TEMP 5
#define THERMOSTAT_INDOOR_MAX_TEMP 30
#define DEFAULT_NTC_NOMINAL_RESISTANCE 10000.0f
#define DEFAULT_NTC_NOMINAL_TEMP 25.0f
#define DEFAULT_NTC_REF_RESISTANCE 10000.0f
#define DEFAULT_NTC_BETA_FACTOR 3950.0f
#define DEFAULT_NTC_VREF 3300.0f
#define DEFAULT_NTC_VLOW_TRESHOLD 25.0f
#define DEFAULT_NTC_VHIGH_TRESHOLD 3298.0f
#ifndef BUILD_VERSION
#define BUILD_VERSION "0.0.0"
#endif
@@ -30,12 +34,20 @@
#define BUILD_ENV "undefined"
#endif
#ifndef USE_SERIAL
#define USE_SERIAL true
#ifndef DEFAULT_SERIAL_ENABLED
#define DEFAULT_SERIAL_ENABLED true
#endif
#ifndef USE_TELNET
#define USE_TELNET true
#ifndef DEFAULT_SERIAL_BAUD
#define DEFAULT_SERIAL_BAUD 115200
#endif
#ifndef DEFAULT_TELNET_ENABLED
#define DEFAULT_TELNET_ENABLED true
#endif
#ifndef DEFAULT_TELNET_PORT
#define DEFAULT_TELNET_PORT 23
#endif
#ifndef USE_BLE
@@ -62,8 +74,8 @@
#define DEFAULT_STA_PASSWORD ""
#endif
#ifndef DEBUG_BY_DEFAULT
#define DEBUG_BY_DEFAULT false
#ifndef DEFAULT_LOG_LEVEL
#define DEFAULT_LOG_LEVEL TinyLogger::Level::VERBOSE
#endif
#ifndef DEFAULT_STATUS_LED_GPIO
@@ -78,6 +90,10 @@
#define DEFAULT_PORTAL_PASSWORD ""
#endif
#ifndef DEFAULT_MQTT_ENABLED
#define DEFAULT_MQTT_ENABLED false
#endif
#ifndef DEFAULT_MQTT_SERVER
#define DEFAULT_MQTT_SERVER ""
#endif
@@ -122,6 +138,10 @@
#define DEFAULT_SENSOR_INDOOR_GPIO GPIO_IS_NOT_CONFIGURED
#endif
#ifndef SENSORS_AMOUNT
#define SENSORS_AMOUNT 20
#endif
#ifndef DEFAULT_EXT_PUMP_GPIO
#define DEFAULT_EXT_PUMP_GPIO GPIO_IS_NOT_CONFIGURED
#endif
@@ -133,21 +153,14 @@
#ifdef ARDUINO_ARCH_ESP32
#include <driver/gpio.h>
#elif !defined(GPIO_IS_VALID_GPIO)
#define GPIO_IS_VALID_GPIO(gpioNum) (gpioNum >= 0 && gpioNum <= 16)
#define GPIO_IS_VALID_GPIO(gpioNum) (gpioNum >= 0 && gpioNum <= 17)
#endif
#define GPIO_IS_VALID(gpioNum) (gpioNum != GPIO_IS_NOT_CONFIGURED && GPIO_IS_VALID_GPIO(gpioNum))
enum class SensorType : byte {
BOILER,
MANUAL,
DS18B20,
BLUETOOTH
};
enum class UnitSystem : byte {
METRIC,
IMPERIAL
enum class UnitSystem : uint8_t {
METRIC = 0,
IMPERIAL = 1
};
char buffer[255];

102
src/main.cpp
View File

@@ -1,12 +1,19 @@
#define ARDUINOJSON_USE_DOUBLE 0
#define ARDUINOJSON_USE_LONG_LONG 0
#include <Arduino.h>
#include "defines.h"
#include "strings.h"
#include <ArduinoJson.h>
#include <FileData.h>
#include <LittleFS.h>
#include <ESPTelnetStream.h>
#include "defines.h"
#include "strings.h"
#include <TinyLogger.h>
#include <NetworkMgr.h>
#include "CrashRecorder.h"
#include "Sensors.h"
#include "Settings.h"
#include "utils.h"
@@ -30,10 +37,13 @@
using namespace NetworkUtils;
// Vars
FileData fsNetworkSettings(&LittleFS, "/network.conf", 'n', &networkSettings, sizeof(networkSettings), 1000);
FileData fsSettings(&LittleFS, "/settings.conf", 's', &settings, sizeof(settings), 60000);
ESPTelnetStream* telnetStream = nullptr;
NetworkMgr* network = nullptr;
Sensors::Result sensorsResults[SENSORS_AMOUNT];
FileData fsNetworkSettings(&LittleFS, "/network.conf", 'n', &networkSettings, sizeof(networkSettings), 1000);
FileData fsSettings(&LittleFS, "/settings.conf", 's', &settings, sizeof(settings), 60000);
FileData fsSensorsSettings(&LittleFS, "/sensors.conf", 'e', &sensorsSettings, sizeof(sensorsSettings), 60000);
// Tasks
MqttTask* tMqtt;
@@ -45,6 +55,10 @@ MainTask* tMain;
void setup() {
CrashRecorder::init();
Sensors::setMaxSensors(SENSORS_AMOUNT);
Sensors::settings = sensorsSettings;
Sensors::results = sensorsResults;
LittleFS.begin();
Log.setLevel(TinyLogger::Level::VERBOSE);
@@ -62,10 +76,14 @@ void setup() {
});
Serial.begin(115200);
#if ARDUINO_USB_MODE
Serial.setTxBufferSize(512);
#endif
Log.addStream(&Serial);
Log.print("\n\n\r");
// network settings
//
// Network settings
switch (fsNetworkSettings.read()) {
case FD_FS_ERR:
Log.swarningln(FPSTR(L_NETWORK_SETTINGS), F("Filesystem error, load default"));
@@ -84,7 +102,27 @@ void setup() {
break;
}
// settings
network = (new NetworkMgr)
->setHostname(networkSettings.hostname)
->setStaCredentials(
strlen(networkSettings.sta.ssid) ? networkSettings.sta.ssid : nullptr,
strlen(networkSettings.sta.password) ? networkSettings.sta.password : nullptr,
networkSettings.sta.channel
)->setApCredentials(
strlen(networkSettings.ap.ssid) ? networkSettings.ap.ssid : nullptr,
strlen(networkSettings.ap.password) ? networkSettings.ap.password : nullptr,
networkSettings.ap.channel
)
->setUseDhcp(networkSettings.useDhcp)
->setStaticConfig(
networkSettings.staticConfig.ip,
networkSettings.staticConfig.gateway,
networkSettings.staticConfig.subnet,
networkSettings.staticConfig.dns
);
//
// Settings
switch (fsSettings.read()) {
case FD_FS_ERR:
Log.swarningln(FPSTR(L_SETTINGS), F("Filesystem error, load default"));
@@ -110,8 +148,8 @@ void setup() {
break;
}
// logs
if (!settings.system.serial.enable) {
// Logs settings
if (!settings.system.serial.enabled) {
Serial.end();
Log.clearStreams();
@@ -123,42 +161,44 @@ void setup() {
Log.addStream(&Serial);
}
if (settings.system.telnet.enable) {
if (settings.system.telnet.enabled) {
telnetStream = new ESPTelnetStream;
telnetStream->setKeepAliveInterval(500);
Log.addStream(telnetStream);
}
Log.setLevel(settings.system.debug ? TinyLogger::Level::VERBOSE : TinyLogger::Level::INFO);
if (settings.system.logLevel >= TinyLogger::Level::SILENT && settings.system.logLevel <= TinyLogger::Level::VERBOSE) {
Log.setLevel(static_cast<TinyLogger::Level>(settings.system.logLevel));
}
// network
network = (new NetworkMgr)
->setHostname(networkSettings.hostname)
->setStaCredentials(
strlen(networkSettings.sta.ssid) ? networkSettings.sta.ssid : nullptr,
strlen(networkSettings.sta.password) ? networkSettings.sta.password : nullptr,
networkSettings.sta.channel
)->setApCredentials(
strlen(networkSettings.ap.ssid) ? networkSettings.ap.ssid : nullptr,
strlen(networkSettings.ap.password) ? networkSettings.ap.password : nullptr,
networkSettings.ap.channel
)
->setUseDhcp(networkSettings.useDhcp)
->setStaticConfig(
networkSettings.staticConfig.ip,
networkSettings.staticConfig.gateway,
networkSettings.staticConfig.subnet,
networkSettings.staticConfig.dns
);
//
// Sensors settings
switch (fsSensorsSettings.read()) {
case FD_FS_ERR:
Log.swarningln(FPSTR(L_SENSORS), F("Filesystem error, load default"));
break;
case FD_FILE_ERR:
Log.swarningln(FPSTR(L_SENSORS), F("Bad data, load default"));
break;
case FD_WRITE:
Log.sinfoln(FPSTR(L_SENSORS), F("Not found, load default"));
break;
case FD_ADD:
case FD_READ:
Log.sinfoln(FPSTR(L_SENSORS), F("Loaded"));
default:
break;
}
// tasks
//
// Make tasks
tMqtt = new MqttTask(false, 500);
Scheduler.start(tMqtt);
tOt = new OpenThermTask(true, 750);
Scheduler.start(tOt);
tSensors = new SensorsTask(true, EXT_SENSORS_INTERVAL);
tSensors = new SensorsTask(true, 1000);
Scheduler.start(tSensors);
tRegulator = new RegulatorTask(true, 10000);

208
src/strings.h
View File

@@ -3,22 +3,192 @@
#define PROGMEM
#endif
const char L_SETTINGS[] PROGMEM = "SETTINGS";
const char L_NETWORK[] PROGMEM = "NETWORK";
const char L_NETWORK_SETTINGS[] PROGMEM = "NETWORK.SETTINGS";
const char L_PORTAL_WEBSERVER[] PROGMEM = "PORTAL.WEBSERVER";
const char L_PORTAL_DNSSERVER[] PROGMEM = "PORTAL.DNSSERVER";
const char L_PORTAL_CAPTIVE[] PROGMEM = "PORTAL.CAPTIVE";
const char L_PORTAL_OTA[] PROGMEM = "PORTAL.OTA";
const char L_MAIN[] PROGMEM = "MAIN";
const char L_MQTT[] PROGMEM = "MQTT";
const char L_MQTT_MSG[] PROGMEM = "MQTT.MSG";
const char L_OT[] PROGMEM = "OT";
const char L_OT_DHW[] PROGMEM = "OT.DHW";
const char L_OT_HEATING[] PROGMEM = "OT.HEATING";
const char L_SENSORS_OUTDOOR[] PROGMEM = "SENSORS.OUTDOOR";
const char L_SENSORS_INDOOR[] PROGMEM = "SENSORS.INDOOR";
const char L_SENSORS_BLE[] PROGMEM = "SENSORS.BLE";
const char L_REGULATOR[] PROGMEM = "REGULATOR";
const char L_REGULATOR_PID[] PROGMEM = "REGULATOR.PID";
const char L_REGULATOR_EQUITHERM[] PROGMEM = "REGULATOR.EQUITHERM";
const char L_SETTINGS[] PROGMEM = "SETTINGS";
const char L_SETTINGS_OT[] PROGMEM = "SETTINGS.OT";
const char L_SETTINGS_DHW[] PROGMEM = "SETTINGS.DHW";
const char L_SETTINGS_HEATING[] PROGMEM = "SETTINGS.HEATING";
const char L_NETWORK[] PROGMEM = "NETWORK";
const char L_NETWORK_SETTINGS[] PROGMEM = "NETWORK.SETTINGS";
const char L_PORTAL_WEBSERVER[] PROGMEM = "PORTAL.WEBSERVER";
const char L_PORTAL_DNSSERVER[] PROGMEM = "PORTAL.DNSSERVER";
const char L_PORTAL_CAPTIVE[] PROGMEM = "PORTAL.CAPTIVE";
const char L_PORTAL_OTA[] PROGMEM = "PORTAL.OTA";
const char L_MAIN[] PROGMEM = "MAIN";
const char L_MQTT[] PROGMEM = "MQTT";
const char L_MQTT_HA[] PROGMEM = "MQTT.HA";
const char L_MQTT_MSG[] PROGMEM = "MQTT.MSG";
const char L_OT[] PROGMEM = "OT";
const char L_OT_DHW[] PROGMEM = "OT.DHW";
const char L_OT_HEATING[] PROGMEM = "OT.HEATING";
const char L_OT_CH2[] PROGMEM = "OT.CH2";
const char L_SENSORS[] PROGMEM = "SENSORS";
const char L_SENSORS_SETTINGS[] PROGMEM = "SENSORS.SETTINGS";
const char L_SENSORS_DALLAS[] PROGMEM = "SENSORS.DALLAS";
const char L_SENSORS_NTC[] PROGMEM = "SENSORS.NTC";
const char L_SENSORS_BLE[] PROGMEM = "SENSORS.BLE";
const char L_REGULATOR[] PROGMEM = "REGULATOR";
const char L_REGULATOR_PID[] PROGMEM = "REGULATOR.PID";
const char L_REGULATOR_EQUITHERM[] PROGMEM = "REGULATOR.EQUITHERM";
const char L_CASCADE_INPUT[] PROGMEM = "CASCADE.INPUT";
const char L_CASCADE_OUTPUT[] PROGMEM = "CASCADE.OUTPUT";
const char L_EXTPUMP[] PROGMEM = "EXTPUMP";
const char S_ACTIONS[] PROGMEM = "actions";
const char S_ACTIVE[] PROGMEM = "active";
const char S_ADDRESS[] PROGMEM = "address";
const char S_ANTI_STUCK_INTERVAL[] PROGMEM = "antiStuckInterval";
const char S_ANTI_STUCK_TIME[] PROGMEM = "antiStuckTime";
const char S_AP[] PROGMEM = "ap";
const char S_APP_VERSION[] PROGMEM = "appVersion";
const char S_AUTH[] PROGMEM = "auth";
const char S_BACKTRACE[] PROGMEM = "backtrace";
const char S_BATTERY[] PROGMEM = "battery";
const char S_BAUDRATE[] PROGMEM = "baudrate";
const char S_BLOCKING[] PROGMEM = "blocking";
const char S_BSSID[] PROGMEM = "bssid";
const char S_BUILD[] PROGMEM = "build";
const char S_CASCADE_CONTROL[] PROGMEM = "cascadeControl";
const char S_CHANNEL[] PROGMEM = "channel";
const char S_CHIP[] PROGMEM = "chip";
const char S_CODE[] PROGMEM = "code";
const char S_CONNECTED[] PROGMEM = "connected";
const char S_CONTINUES[] PROGMEM = "continues";
const char S_CORE[] PROGMEM = "core";
const char S_CORES[] PROGMEM = "cores";
const char S_CRASH[] PROGMEM = "crash";
const char S_CURRENT_TEMP[] PROGMEM = "currentTemp";
const char S_DATA[] PROGMEM = "data";
const char S_DATE[] PROGMEM = "date";
const char S_DHW[] PROGMEM = "dhw";
const char S_DHW_BLOCKING[] PROGMEM = "dhwBlocking";
const char S_DHW_PRESENT[] PROGMEM = "dhwPresent";
const char S_DHW_TO_CH2[] PROGMEM = "dhwToCh2";
const char S_DIAG[] PROGMEM = "diag";
const char S_DNS[] PROGMEM = "dns";
const char S_DT[] PROGMEM = "dt";
const char S_D_FACTOR[] PROGMEM = "d_factor";
const char S_EMERGENCY[] PROGMEM = "emergency";
const char S_ENABLED[] PROGMEM = "enabled";
const char S_ENV[] PROGMEM = "env";
const char S_EPC[] PROGMEM = "epc";
const char S_EQUITHERM[] PROGMEM = "equitherm";
const char S_EXTERNAL_PUMP[] PROGMEM = "externalPump";
const char S_FACTOR[] PROGMEM = "factor";
const char S_FAULT[] PROGMEM = "fault";
const char S_FILTERING[] PROGMEM = "filtering";
const char S_FILTERING_FACTOR[] PROGMEM = "filteringFactor";
const char S_FLAGS[] PROGMEM = "flags";
const char S_FLAME[] PROGMEM = "flame";
const char S_FLASH[] PROGMEM = "flash";
const char S_FREE[] PROGMEM = "free";
const char S_FREQ[] PROGMEM = "freq";
const char S_GATEWAY[] PROGMEM = "gateway";
const char S_GET_MIN_MAX_TEMP[] PROGMEM = "getMinMaxTemp";
const char S_GPIO[] PROGMEM = "gpio";
const char S_HEAP[] PROGMEM = "heap";
const char S_HEATING[] PROGMEM = "heating";
const char S_HEATING_CH1_TO_CH2[] PROGMEM = "heatingCh1ToCh2";
const char S_HEATING_CH2_ENABLED[] PROGMEM = "heatingCh2Enabled";
const char S_HIDDEN[] PROGMEM = "hidden";
const char S_HOME_ASSISTANT_DISCOVERY[] PROGMEM = "homeAssistantDiscovery";
const char S_HOSTNAME[] PROGMEM = "hostname";
const char S_HUMIDITY[] PROGMEM = "humidity";
const char S_HYSTERESIS[] PROGMEM = "hysteresis";
const char S_ID[] PROGMEM = "id";
const char S_IMMERGAS_FIX[] PROGMEM = "immergasFix";
const char S_INDOOR_TEMP[] PROGMEM = "indoorTemp";
const char S_INDOOR_TEMP_CONTROL[] PROGMEM = "indoorTempControl";
const char S_IN_GPIO[] PROGMEM = "inGpio";
const char S_INPUT[] PROGMEM = "input";
const char S_INTERVAL[] PROGMEM = "interval";
const char S_INVERT_STATE[] PROGMEM = "invertState";
const char S_IP[] PROGMEM = "ip";
const char S_I_FACTOR[] PROGMEM = "i_factor";
const char S_K_FACTOR[] PROGMEM = "k_factor";
const char S_LOGIN[] PROGMEM = "login";
const char S_LOG_LEVEL[] PROGMEM = "logLevel";
const char S_MAC[] PROGMEM = "mac";
const char S_MASTER[] PROGMEM = "master";
const char S_MAX[] PROGMEM = "max";
const char S_MAX_FREE_BLOCK[] PROGMEM = "maxFreeBlock";
const char S_MAX_MODULATION[] PROGMEM = "maxModulation";
const char S_MAX_POWER[] PROGMEM = "maxPower";
const char S_MAX_TEMP[] PROGMEM = "maxTemp";
const char S_MEMBER_ID[] PROGMEM = "memberId";
const char S_MIN[] PROGMEM = "min";
const char S_MIN_FREE[] PROGMEM = "minFree";
const char S_MIN_MAX_FREE_BLOCK[] PROGMEM = "minMaxFreeBlock";
const char S_MIN_POWER[] PROGMEM = "minPower";
const char S_MIN_TEMP[] PROGMEM = "minTemp";
const char S_MODEL[] PROGMEM = "model";
const char S_MODULATION[] PROGMEM = "modulation";
const char S_MODULATION_SYNC_WITH_HEATING[] PROGMEM = "modulationSyncWithHeating";
const char S_MQTT[] PROGMEM = "mqtt";
const char S_NAME[] PROGMEM = "name";
const char S_NATIVE_HEATING_CONTROL[] PROGMEM = "nativeHeatingControl";
const char S_NETWORK[] PROGMEM = "network";
const char S_N_FACTOR[] PROGMEM = "n_factor";
const char S_OFFSET[] PROGMEM = "offset";
const char S_ON_ENABLED_HEATING[] PROGMEM = "onEnabledHeating";
const char S_ON_FAULT[] PROGMEM = "onFault";
const char S_ON_LOSS_CONNECTION[] PROGMEM = "onLossConnection";
const char S_OPENTHERM[] PROGMEM = "opentherm";
const char S_OUTDOOR_TEMP[] PROGMEM = "outdoorTemp";
const char S_OUT_GPIO[] PROGMEM = "outGpio";
const char S_OUTPUT[] PROGMEM = "output";
const char S_PASSWORD[] PROGMEM = "password";
const char S_PID[] PROGMEM = "pid";
const char S_PORT[] PROGMEM = "port";
const char S_PORTAL[] PROGMEM = "portal";
const char S_POST_CIRCULATION_TIME[] PROGMEM = "postCirculationTime";
const char S_POWER[] PROGMEM = "power";
const char S_PREFIX[] PROGMEM = "prefix";
const char S_PROTOCOL_VERSION[] PROGMEM = "protocolVersion";
const char S_PURPOSE[] PROGMEM = "purpose";
const char S_P_FACTOR[] PROGMEM = "p_factor";
const char S_REAL_SIZE[] PROGMEM = "realSize";
const char S_REASON[] PROGMEM = "reason";
const char S_RESET_DIAGNOSTIC[] PROGMEM = "resetDiagnostic";
const char S_RESET_FAULT[] PROGMEM = "resetFault";
const char S_RESET_REASON[] PROGMEM = "resetReason";
const char S_RESTART[] PROGMEM = "restart";
const char S_RETURN_TEMP[] PROGMEM = "returnTemp";
const char S_REV[] PROGMEM = "rev";
const char S_RSSI[] PROGMEM = "rssi";
const char S_RX_LED_GPIO[] PROGMEM = "rxLedGpio";
const char S_SDK[] PROGMEM = "sdk";
const char S_SENSORS[] PROGMEM = "sensors";
const char S_SERIAL[] PROGMEM = "serial";
const char S_SERVER[] PROGMEM = "server";
const char S_SETTINGS[] PROGMEM = "settings";
const char S_SIGNAL_QUALITY[] PROGMEM = "signalQuality";
const char S_SIZE[] PROGMEM = "size";
const char S_SLAVE[] PROGMEM = "slave";
const char S_SSID[] PROGMEM = "ssid";
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_TEMP[] PROGMEM = "setpointTemp";
const char S_SUBNET[] PROGMEM = "subnet";
const char S_SUMMER_WINTER_MODE[] PROGMEM = "summerWinterMode";
const char S_SYSTEM[] PROGMEM = "system";
const char S_TARGET[] PROGMEM = "target";
const char S_TARGET_TEMP[] PROGMEM = "targetTemp";
const char S_TELNET[] PROGMEM = "telnet";
const char S_TEMPERATURE[] PROGMEM = "temperature";
const char S_THRESHOLD_TIME[] PROGMEM = "thresholdTime";
const char S_TOTAL[] PROGMEM = "total";
const char S_TRESHOLD_TIME[] PROGMEM = "tresholdTime";
const char S_TURBO[] PROGMEM = "turbo";
const char S_TURBO_FACTOR[] PROGMEM = "turboFactor";
const char S_TYPE[] PROGMEM = "type";
const char S_T_FACTOR[] PROGMEM = "t_factor";
const char S_UNIT_SYSTEM[] PROGMEM = "unitSystem";
const char S_UPTIME[] PROGMEM = "uptime";
const char S_USE[] PROGMEM = "use";
const char S_USE_DHCP[] PROGMEM = "useDhcp";
const char S_USER[] PROGMEM = "user";
const char S_VALUE[] PROGMEM = "value";
const char S_VERSION[] PROGMEM = "version";

1671
src/utils.h
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src_data/fonts/iconly.eot
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18
src_data/fonts/iconly.svg
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src_data/locales/en.json
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@@ -9,6 +9,13 @@
"releases": "Releases"
},
"dbm": "dBm",
"kw": "kW",
"time": {
"days": "d.",
"hours": "h.",
"min": "min.",
"sec": "sec."
},
"button": {
"upgrade": "Upgrade",
@@ -38,7 +45,8 @@
"title": "Build",
"version": "Version",
"date": "Date",
"sdk": "Core/SDK"
"core": "Core",
"sdk": "SDK"
},
"uptime": "Uptime",
"memory": {
@@ -66,8 +74,9 @@
"section": {
"control": "Control",
"states": "States and sensors",
"otDiag": "OpenTherm diagnostic"
"states": "States",
"sensors": "Sensors",
"diag": "OpenTherm diagnostic"
},
"thermostat": {
@@ -78,35 +87,45 @@
"turbo": "Turbo mode"
},
"state": {
"ot": "OpenTherm connected",
"mqtt": "MQTT connected",
"emergency": "Emergency",
"heating": "Heating",
"dhw": "DHW",
"flame": "Flame",
"fault": "Fault",
"diag": "Diagnostic",
"extpump": "External pump",
"outdoorSensorConnected": "Outdoor sensor connected",
"outdoorSensorRssi": "Outdoor sensor RSSI",
"outdoorSensorHumidity": "Outdoor sensor humidity",
"outdoorSensorBattery": "Outdoor sensor battery",
"indoorSensorConnected": "Indoor sensor connected",
"indoorSensorRssi": "Indoor sensor RSSI",
"indoorSensorHumidity": "Indoor sensor humidity",
"indoorSensorBattery": "Indoor sensor battery",
"modulation": "Modulation",
"pressure": "Pressure",
"dhwFlowRate": "DHW flow rate",
"faultCode": "Fault code",
"indoorTemp": "Indoor temp",
"outdoorTemp": "Outdoor temp",
"heatingTemp": "Heating temp",
"heatingSetpointTemp": "Heating setpoint temp",
"heatingReturnTemp": "Heating return temp",
"dhwTemp": "DHW temp",
"exhaustTemp": "Exhaust temp"
"states": {
"mNetworkConnected": "Network connection",
"mMqttConnected": "MQTT connection",
"mEmergencyState": "Emergency mode",
"mExtPumpState": "External pump",
"mCascadeControlInput": "Cascade control (input)",
"mCascadeControlOutput": "Cascade control (output)",
"sConnected": "OpenTherm connection",
"sFlame": "Flame",
"sFaultActive": "Fault",
"sFaultCode": "Faul code",
"sDiagActive": "Diagnostic",
"sDiagCode": "Diagnostic code",
"mHeatEnabled": "Heating enabled",
"mHeatBlocking": "Heating blocked",
"sHeatActive": "Heating active",
"mHeatSetpointTemp": "Heating setpoint temp",
"mHeatTargetTemp": "Heating target temp",
"mHeatCurrTemp": "Heating current temp",
"mHeatRetTemp": "Heating return temp",
"mHeatIndoorTemp": "Heating, indoor temp",
"mHeatOutdoorTemp": "Heating, outdoor temp",
"mDhwEnabled": "DHW enabled",
"sDhwActive": "DHW active",
"mDhwTargetTemp": "DHW target temp",
"mDhwCurrTemp": "DHW current temp",
"mDhwRetTemp": "DHW return temp"
},
"sensors": {
"values": {
"temp": "Temperature",
"humidity": "Humidity",
"battery": "Battery",
"rssi": "RSSI"
}
}
},
@@ -149,6 +168,87 @@
}
},
"sensors": {
"title": "Sensors settings - OpenTherm Gateway",
"name": "Sensors settings",
"enabled": "Enabled",
"sensorName": {
"title": "Sensor name",
"note": "May only contain: a-z, A-Z, 0-9, _ and space"
},
"purpose": "Purpose",
"purposes": {
"outdoorTemp": "Outdoor temperature",
"indoorTemp": "Indoor temperature",
"heatTemp": "Heating, temperature",
"heatRetTemp": "Heating, return temperature",
"dhwTemp": "DHW, temperature",
"dhwRetTemp": "DHW, return temperature",
"dhwFlowRate": "DHW, flow rate",
"exhaustTemp": "Exhaust temperature",
"modLevel": "Modulation level (in percents)",
"powerFactor": "Power (in percent)",
"power": "Power (in kWt)",
"fanSpeed": "Fan speed",
"co2": "CO2",
"pressure": "Pressure",
"humidity": "Humidity",
"temperature": "Temperature",
"notConfigured": "Not configured"
},
"type": "Type/source",
"types": {
"otOutdoorTemp": "OpenTherm, outdoor temp",
"otHeatTemp": "OpenTherm, heating, temp",
"otHeatRetTemp": "OpenTherm, heating, return temp",
"otDhwTemp": "OpenTherm, DHW, temperature",
"otDhwTemp2": "OpenTherm, DHW, temperature 2",
"otDhwFlowRate": "OpenTherm, DHW, flow rate",
"otCh2Temp": "OpenTherm, channel 2, temp",
"otExhaustTemp": "OpenTherm, exhaust temp",
"otHeatExchangerTemp": "OpenTherm, heat exchanger temp",
"otPressure": "OpenTherm, pressure",
"otModLevel": "OpenTherm, modulation level",
"otCurrentPower": "OpenTherm, current power",
"otExhaustCo2": "OpenTherm, exhaust CO2",
"otExhaustFanSpeed": "OpenTherm, exhaust fan speed",
"otSupplyFanSpeed": "OpenTherm, supply fan speed",
"otSolarStorageTemp": "OpenTherm, solar storage temp",
"otSolarCollectorTemp": "OpenTherm, solar collector temp",
"otFanSpeedSetpoint": "OpenTherm, setpoint fan speed",
"otFanSpeedCurrent": "OpenTherm, current fan speed",
"ntcTemp": "NTC sensor",
"dallasTemp": "DALLAS sensor",
"bluetooth": "BLE sensor",
"heatSetpointTemp": "Heating, setpoint temp",
"manual": "Manual via MQTT/API",
"notConfigured": "Not configured"
},
"gpio": "GPIO",
"address": {
"title": "Sensor address",
"note": "For auto detection of DALLAS sensors leave it at default, for BLE devices need a MAC address"
},
"correction": {
"desc": "Correction of values",
"offset": "Compensation (offset)",
"factor": "Multiplier"
},
"filtering": {
"desc": "Filtering values",
"enabled": {
"title": "Enabled filtering",
"note": "It can be useful if there is a lot of sharp noise on the charts. The filter used is \"Running Average\"."
},
"factor": {
"title": "Filtration factor",
"note": "The lower the value, the smoother and <u>longer</u> the change in numeric values."
}
}
},
"settings": {
"title": "Settings - OpenTherm Gateway",
"name": "Settings",
@@ -160,22 +260,19 @@
"heating": "Heating settings",
"dhw": "DHW settings",
"emergency": "Emergency mode settings",
"emergency.events": "Events",
"emergency.regulators": "Using regulators",
"equitherm": "Equitherm settings",
"pid": "PID settings",
"ot": "OpenTherm settings",
"ot.options": "Options",
"mqtt": "MQTT settings",
"outdorSensor": "Outdoor sensor settings",
"indoorSensor": "Indoor sensor settings",
"extPump": "External pump settings"
"extPump": "External pump settings",
"cascadeControl": "Cascade control settings"
},
"enable": "Enable",
"note": {
"restart": "After changing these settings, the device must be restarted for the changes to take effect.",
"blankNotUse": "blank - not use"
"blankNotUse": "blank - not use",
"bleDevice": "BLE device can be used <u>only</u> with some ESP32 boards with BLE support!"
},
"temp": {
@@ -194,16 +291,13 @@
"metric": "Metric <small>(celsius, liters, bar)</small>",
"imperial": "Imperial <small>(fahrenheit, gallons, psi)</small>",
"statusLedGpio": "Status LED GPIO",
"debug": "Debug mode",
"logLevel": "Log level",
"serial": {
"enable": "Enable Serial port",
"baud": {
"title": "Serial port baud rate",
"note": "Available: 9600, 19200, 38400, 57600, 74880, 115200"
}
"enable": "Enabled Serial port",
"baud": "Serial port baud rate"
},
"telnet": {
"enable": "Enable Telnet",
"enable": "Enabled Telnet",
"port": {
"title": "Telnet port",
"note": "Default: 23"
@@ -212,30 +306,18 @@
},
"heating": {
"hyst": "Hysteresis",
"maxMod": "Max modulation level"
"hyst": "Hysteresis <small>(in degrees)</small>",
"turboFactor": "Turbo mode coeff."
},
"emergency": {
"desc": "<b>!</b> Emergency mode can be useful <u>only</u> when using Equitherm and/or PID (when normal work) and when reporting indoor/outdoor temperature via MQTT/API/BLE. In this mode, sensor values that are reported via MQTT/API/BLE are not used.",
"desc": "Emergency mode is activated automatically when «PID» or «Equitherm» cannot calculate the heat carrier setpoint:<br />- if «Equitherm» is enabled and the outdoor temperature sensor is disconnected;<br />- if «PID» or OT option <i>«Native heating control»</i> is enabled and the indoor temperature sensor is disconnected.<br /><b>Note:</b> On network fault or MQTT fault, sensors with <i>«Manual via MQTT/API»</i> type will be in DISCONNECTED state.",
"target": {
"title": "Target temperature",
"note": "<u>Indoor temperature</u> if Equitherm or PID is <b>enabled</b><br /><u>Heat carrier temperature</u> if Equitherm and PID <b>is disabled</b>"
"note": "<b>Important:</b> <u>Target indoor temperature</u> if OT option <i>«Native heating control»</i> is enabled.<br />In all other cases, the <u>target heat carrier temperature</u>."
},
"treshold": "Treshold time <small>(sec)</small>",
"events": {
"network": "On network fault",
"mqtt": "On MQTT fault",
"indoorSensorDisconnect": "On loss connection with indoor sensor",
"outdoorSensorDisconnect": "On loss connection with outdoor sensor"
},
"regulators": {
"equitherm": "Equitherm <small>(requires at least an external (DS18B20) or boiler <u>outdoor</u> sensor)</small>",
"pid": "PID <small>(requires at least an external (DS18B20) <u>indoor</u> sensor)</small>"
}
"treshold": "Treshold time <small>(sec)</small>"
},
"equitherm": {
@@ -251,16 +333,29 @@
"p": "P factor",
"i": "I factor",
"d": "D factor",
"dt": "DT <small>in seconds</small>"
"dt": "DT <small>in seconds</small>",
"noteMinMaxTemp": "<b>Important:</b> When using «Equitherm» and «PID» at the same time, the min and max temperatures limit the influence on the «Equitherm» result temperature.<br />Thus, if the min temperature is set to -15 and the max temperature is set to 15, then the final heat carrier setpoint will be from <code>equitherm_result - 15</code> to <code>equitherm_result + 15</code>."
},
"ot": {
"advanced": "Advanced Settings",
"inGpio": "In GPIO",
"outGpio": "Out GPIO",
"ledGpio": "RX LED GPIO",
"memberIdCode": "Master MemberID code",
"memberId": "Master member ID",
"flags": "Master flags",
"maxMod": "Max modulation level",
"minPower": {
"title": "Min boiler power <small>(kW)</small>",
"note": "This value is at 0-1% boiler modulation level. Typically found in the boiler specification as \"minimum useful heat output\"."
},
"maxPower": {
"title": "Max boiler power <small>(kW)</small>",
"note": "<b>0</b> - try detect automatically. Typically found in the boiler specification as \"maximum useful heat output\"."
},
"options": {
"desc": "Options",
"dhwPresent": "DHW present",
"summerWinterMode": "Summer/winter mode",
"heatingCh2Enabled": "Heating CH2 always enabled",
@@ -268,18 +363,13 @@
"dhwToCh2": "Duplicate DHW to CH2",
"dhwBlocking": "DHW blocking",
"modulationSyncWithHeating": "Sync modulation with heating",
"getMinMaxTemp": "Get min/max temp from boiler"
},
"faultState": {
"gpio": "Fault state GPIO",
"note": "Can be useful to switch on another boiler <u>via relay</u>. Blank - not use.",
"invert": "Invert fault state"
"getMinMaxTemp": "Get min/max temp from boiler",
"immergasFix": "Fix for Immergas boilers"
},
"nativeHeating": {
"title": "Native heating control (boiler)",
"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 and hysteresis in firmware."
"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."
}
},
@@ -293,28 +383,35 @@
"interval": "Publish interval <small>(sec)</small>"
},
"tempSensor": {
"source": {
"type": "Source type",
"boiler": "From boiler via OpenTherm",
"manual": "Manual via MQTT/API",
"ext": "External (DS18B20)",
"ble": "BLE device <i>(ONLY for some ESP32 which support BLE)</i>"
},
"gpio": "GPIO",
"offset": "Temp offset <small>(calibration)</small>",
"bleAddress": {
"title": "BLE address",
"note": "ONLY for some ESP32 which support BLE"
}
},
"extPump": {
"use": "Use external pump",
"gpio": "Relay GPIO",
"postCirculationTime": "Post circulation time <small>(min)</small>",
"antiStuckInterval": "Anti stuck interval <small>(days)</small>",
"antiStuckTime": "Anti stuck time <small>(min)</small>"
},
"cascadeControl": {
"input": {
"desc": "Can be used to turn on the heating only if another boiler is faulty. The other boiler controller must change the state of the GPIO input in the event of a fault.",
"enable": "Enabled input",
"gpio": "GPIO",
"invertState": "Invert GPIO state",
"thresholdTime": "State change threshold time <small>(sec)</small>"
},
"output": {
"desc": "Can be used to switch on another boiler <u>via relay</u>.",
"enable": "Enabled output",
"gpio": "GPIO",
"invertState": "Invert GPIO state",
"thresholdTime": "State change threshold time <small>(sec)</small>",
"events": {
"desc": "Events",
"onFault": "If the fault state is active",
"onLossConnection": "If the connection via Opentherm is lost",
"onEnabledHeating": "If heating is enabled"
}
}
}
},
@@ -331,7 +428,7 @@
"note": {
"disclaimer1": "After a successful upgrade the filesystem, ALL settings will be reset to default values! Save backup before upgrading.",
"disclaimer2": "After a successful upgrade, the device will automatically reboot after 10 seconds."
"disclaimer2": "After a successful upgrade, the device will automatically reboot after 15 seconds."
},
"settingsFile": "Settings file",

275
src_data/locales/ru.json
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@@ -9,6 +9,13 @@
"releases": "Релизы"
},
"dbm": "дБм",
"kw": "кВт",
"time": {
"days": "д.",
"hours": "ч.",
"min": "мин.",
"sec": "сек."
},
"button": {
"upgrade": "Обновить",
@@ -38,7 +45,8 @@
"title": "Билд",
"version": "Версия",
"date": "Дата",
"sdk": "Ядро/SDK"
"core": "Ядро",
"sdk": "SDK"
},
"uptime": "Аптайм",
"memory": {
@@ -66,8 +74,9 @@
"section": {
"control": "Управление",
"states": "Состояние и сенсоры",
"otDiag": "Диагностика OpenTherm"
"states": "Состояние",
"sensors": "Сенсоры",
"diag": "Диагностика OpenTherm"
},
"thermostat": {
@@ -78,35 +87,45 @@
"turbo": "Турбо"
},
"state": {
"ot": "OpenTherm подключение",
"mqtt": "MQTT подключение",
"emergency": "Аварийный режим",
"heating": "Отопление",
"dhw": "ГВС",
"flame": "Пламя",
"fault": "Ошибка",
"diag": "Диагностика",
"extpump": "Внешний насос",
"outdoorSensorConnected": "Датчик наруж. темп.",
"outdoorSensorRssi": "RSSI датчика наруж. темп.",
"outdoorSensorHumidity": "Влажность с наруж. датчика темп.",
"outdoorSensorBattery": "Заряд наруж. датчика темп.",
"indoorSensorConnected": "Датчик внутр. темп.",
"indoorSensorRssi": "RSSI датчика внутр. темп.",
"indoorSensorHumidity": "Влажность с внутр. датчика темп.",
"indoorSensorBattery": "Заряд внутр. датчика темп.",
"modulation": "Уровень модуляции",
"pressure": "Давление",
"dhwFlowRate": "Расход ГВС",
"faultCode": "Код ошибки",
"indoorTemp": "Внутренняя темп.",
"outdoorTemp": "Наружная темп.",
"heatingTemp": "Темп. отопления",
"heatingSetpointTemp": "Уставка темп. отопления",
"heatingReturnTemp": "Темп. обратки отопления",
"dhwTemp": "Темп. ГВС",
"exhaustTemp": "Темп. выхлопных газов"
"states": {
"mNetworkConnected": одключение к сети",
"mMqttConnected": "Подключение к MQTT",
"mEmergencyState": "Аварийный режим",
"mExtPumpState": "Внешний насос",
"mCascadeControlInput": "Каскадное управление (вход)",
"mCascadeControlOutput": "Каскадное управление (выход)",
"sConnected": "Подключение к OpenTherm",
"sFlame": "Пламя",
"sFaultActive": "Ошибка",
"sFaultCode": "Код ошибки",
"sDiagActive": "Диагностика",
"sDiagCode": "Диагностический код",
"mHeatEnabled": "Отопление",
"mHeatBlocking": "Блокировка отопления",
"sHeatActive": "Активность отопления",
"mHeatSetpointTemp": "Отопление, уставка",
"mHeatTargetTemp": "Отопление, целевая температура",
"mHeatCurrTemp": "Отопление, текущая температура",
"mHeatRetTemp": "Отопление, температура обратки",
"mHeatIndoorTemp": "Отопление, внутренняя темп.",
"mHeatOutdoorTemp": "Отопление, наружная темп.",
"mDhwEnabled": "ГВС",
"sDhwActive": "Активность ГВС",
"mDhwTargetTemp": "ГВС, целевая температура",
"mDhwCurrTemp": "ГВС, текущая температура",
"mDhwRetTemp": "ГВС, температура обратки"
},
"sensors": {
"values": {
"temp": "Температура",
"humidity": "Влажность",
"battery": "Уровень заряда",
"rssi": "RSSI"
}
}
},
@@ -149,6 +168,87 @@
}
},
"sensors": {
"title": "Настройки сенсоров - OpenTherm Gateway",
"name": "Настройки сенсоров",
"enabled": "Включить и использовать",
"sensorName": {
"title": "Имя сенсора",
"note": "Может содержать только: a-z, A-Z, 0-9, _ и пробел"
},
"purpose": "Назначение",
"purposes": {
"outdoorTemp": "Внешняя температура",
"indoorTemp": "Внутреняя температура",
"heatTemp": "Отопление, температура",
"heatRetTemp": "Отопление, температура обратки",
"dhwTemp": "ГВС, температура",
"dhwRetTemp": "ГВС, температура обратки",
"dhwFlowRate": "ГВС, расход/скорость потока",
"exhaustTemp": "Температура выхлопных газов",
"modLevel": "Уровень модуляции (в процентах)",
"powerFactor": "Мощность (в процентах)",
"power": "Мощность (в кВт)",
"fanSpeed": "Скорость вентилятора",
"co2": "CO2",
"pressure": "Давление",
"humidity": "Влажность",
"temperature": "Температура",
"notConfigured": "Не сконфигурировано"
},
"type": "Тип/источник",
"types": {
"otOutdoorTemp": "OpenTherm, внешняя температура",
"otHeatTemp": "OpenTherm, отопление, температура",
"otHeatRetTemp": "OpenTherm, отопление, температура обратки",
"otDhwTemp": "OpenTherm, ГВС, температура",
"otDhwTemp2": "OpenTherm, ГВС, температура 2",
"otDhwFlowRate": "OpenTherm, ГВС, расход/скорость потока",
"otCh2Temp": "OpenTherm, канал 2, температура",
"otExhaustTemp": "OpenTherm, температура выхлопных газов",
"otHeatExchangerTemp": "OpenTherm, температура теплообменника",
"otPressure": "OpenTherm, давление",
"otModLevel": "OpenTherm, уровень модуляции",
"otCurrentPower": "OpenTherm, текущая мощность",
"otExhaustCo2": "OpenTherm, CO2 вытяжного воздуха",
"otExhaustFanSpeed": "OpenTherm, скорость вытяжного вентилятора",
"otSupplyFanSpeed": "OpenTherm, скорость приточного вентилятора",
"otSolarStorageTemp": "OpenTherm, темп. бойлера солн. коллектора",
"otSolarCollectorTemp": "OpenTherm, темп. солн. коллектора",
"otFanSpeedSetpoint": "OpenTherm, установленная мощн. вентилятора",
"otFanSpeedCurrent": "OpenTherm, текущая мощн. вентилятора",
"ntcTemp": "NTC датчик",
"dallasTemp": "DALLAS датчик",
"bluetooth": "BLE датчик",
"heatSetpointTemp": "Отопление, температура уставки",
"manual": "Вручную через MQTT/API",
"notConfigured": "Не сконфигурировано"
},
"gpio": "GPIO датчика",
"address": {
"title": "Адрес датчика",
"note": "Для DALLAS датчиков оставьте по умолчанию для автоопределения, для BLE устройств необходимо указать MAC адрес"
},
"correction": {
"desc": "Коррекция показаний",
"offset": "Компенсация (смещение)",
"factor": "Множитель"
},
"filtering": {
"desc": "Фильтрация показаний",
"enabled": {
"title": "Включить фильтрацию",
"note": "Может быть полезно, если на графиках много резкого шума. В качестве фильтра используется \"бегущее среднее\"."
},
"factor": {
"title": "Коэфф. фильтрации",
"note": "Чем меньше коэф., тем плавнее и <u>дольше</u> изменение числовых значений."
}
}
},
"settings": {
"title": "Настройки - OpenTherm Gateway",
"name": "Настройки",
@@ -160,22 +260,19 @@
"heating": "Настройки отопления",
"dhw": "Настройки ГВС",
"emergency": "Настройки аварийного режима",
"emergency.events": "События",
"emergency.regulators": "Используемые регуляторы",
"equitherm": "Настройки ПЗА",
"pid": "Настройки ПИД",
"ot": "Настройки OpenTherm",
"ot.options": "Опции",
"mqtt": "Настройки MQTT",
"outdorSensor": "Настройки наружного датчика температуры",
"indoorSensor": "Настройки внутреннего датчика температуры",
"extPump": "Настройки дополнительного насоса"
"extPump": "Настройки дополнительного насоса",
"cascadeControl": "Настройки каскадного управления"
},
"enable": "Вкл",
"note": {
"restart": "После изменения этих настроек устройство необходимо перезагрузить, чтобы изменения вступили в силу.",
"blankNotUse": "пусто - не использовать"
"blankNotUse": "пусто - не использовать",
"bleDevice": "BLE устройство можно использовать <u>только</u> с некоторыми платами ESP32, которые поддерживают BLE!"
},
"temp": {
@@ -194,13 +291,10 @@
"metric": "Метрическая <small>(цильсии, литры, бары)</small>",
"imperial": "Imperial <small>(фаренгейты, галлоны, psi)</small>",
"statusLedGpio": "Статус LED GPIO",
"debug": "Отладка",
"logLevel": "Уровень логирования",
"serial": {
"enable": "Вкл. Serial порт",
"baud": {
"title": "Скорость Serial порта",
"note": "Доступно: 9600, 19200, 38400, 57600, 74880, 115200"
}
"baud": "Скорость Serial порта"
},
"telnet": {
"enable": "Вкл. Telnet",
@@ -212,30 +306,18 @@
},
"heating": {
"hyst": "Гистерезис",
"maxMod": "Макс. уровень модуляции"
"hyst": "Гистерезис <small>(в градусах)</small>",
"turboFactor": "Коэфф. турбо режима"
},
"emergency": {
"desc": "<b>!</b> Аварийный режим может быть полезен <u>только</u> при использовании ПЗА и/или ПИД и при передачи наружной/внутренней температуры через MQTT/API/BLE. В этом режиме значения датчиков, передаваемые через MQTT/API/BLE, не используются.",
"desc": "Аварийный режим активируется автоматически, если «ПИД» или «ПЗА» не могут рассчитать уставку теплоносителя:<br />- если «ПЗА» включен и датчик наружной температуры отключен;<br />- если включен «ПИД» или OT опция <i>«Передать управление отоплением котлу»</i> и датчик внутренней температуры отключен.<br /><b>Примечание:</b> При сбое сети или MQTT датчики с типом <i>«Вручную через MQTT/API»</i> будут находиться в состоянии ОТКЛЮЧЕН.",
"target": {
"title": "Целевая температура",
"note": "Целевая <u>внутренняя температура</u> если ПЗА и/или ПИД <b>включены</b><br />Целевая <u>температура теплоносителя</u> если ПЗА и ПИД <b>выключены</b>"
"note": "<b>Важно:</b> <u>Целевая температура в помещении</u>, если включена ОТ опция <i>«Передать управление отоплением котлу»</i>.<br />Во всех остальных случаях <u>целевая температура теплоносителя</u>."
},
"treshold": "Пороговое время включения <small>(сек)</small>",
"events": {
"network": "При отключении сети",
"mqtt": "При отключении MQTT",
"indoorSensorDisconnect": "При потере связи с датчиком внутренней темп.",
"outdoorSensorDisconnect": "При потере связи с датчиком наружной темп."
},
"regulators": {
"equitherm": "ПЗА <small>(требуется внешний (DS18B20) или подключенный к котлу датчик <u>наружной</u> температуры)</small>",
"pid": "ПИД <small>(требуется внешний (DS18B20) датчик <u>внутренней</u> температуры)</small>"
}
"treshold": "Пороговое время включения <small>(сек)</small>"
},
"equitherm": {
@@ -251,16 +333,29 @@
"p": "Коэффициент P",
"i": "Коэффициент I",
"d": "Коэффициент D",
"dt": "DT <small>в секундах</small>"
"dt": "DT <small>(сек)</small>",
"noteMinMaxTemp": "<b>Важно:</b> При использовании «ПЗА» и «ПИД» одновременно, мин. и макс. температура ограничивает влияние на расчётную температуру «ПЗА».<br />Таким образом, если мин. температура задана как -15, а макс. как 15, то конечная температура теплоносителя будет от <code>equitherm_result - 15</code> до <code>equitherm_result + 15</code>."
},
"ot": {
"advanced": "Дополнительные настройки",
"inGpio": "Вход GPIO",
"outGpio": "Выход GPIO",
"ledGpio": "RX LED GPIO",
"memberIdCode": "Master MemberID код",
"memberId": "Master member ID",
"flags": "Master flags",
"maxMod": "Макс. уровень модуляции",
"minPower": {
"title": "Мин. мощность котла <small>(кВт)</small>",
"note": "Это значение соответствует уровню модуляции котла 01%. Обычно можно найти в спецификации котла как \"минимальная полезная тепловая мощность\"."
},
"maxPower": {
"title": "Макс. мощность котла <small>(кВт)</small>",
"note": "<b>0</b> - попробовать определить автоматически. Обычно можно найти в спецификации котла как \"максимальная полезная тепловая мощность\"."
},
"options": {
"desc": "Опции",
"dhwPresent": "Контур ГВС",
"summerWinterMode": "Летний/зимний режим",
"heatingCh2Enabled": "Канал 2 отопления всегда вкл.",
@@ -268,18 +363,13 @@
"dhwToCh2": "Дублировать параметры ГВС в канал 2",
"dhwBlocking": "DHW blocking",
"modulationSyncWithHeating": "Синхронизировать модуляцию с отоплением",
"getMinMaxTemp": "Получать мин. и макс. температуру от котла"
},
"faultState": {
"gpio": "Fault state GPIO",
"note": "Can be useful to switch on another boiler <u>via relay</u>. Blank - not use.",
"invert": "Invert fault state"
"getMinMaxTemp": "Получать мин. и макс. температуру от котла",
"immergasFix": "Фикс для котлов Immergas"
},
"nativeHeating": {
"title": "Передать управление отоплением котлу",
"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, а также с гистерезисом встроенного ПО."
"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."
}
},
@@ -290,23 +380,7 @@
"user": "Имя пользователя",
"password": "Пароль",
"prefix": "Префикс",
"interval": "Интервал публикации (в секундах)"
},
"tempSensor": {
"source": {
"type": "Источник данных",
"boiler": "От котла через OpenTherm",
"manual": "Вручную через MQTT/API",
"ext": "Внешний датчик (DS18B20)",
"ble": "BLE устройство <i>(ТОЛЬКО для некоторых плат ESP32 с поддержкой BLE)</i>"
},
"gpio": "GPIO",
"offset": "Смещение температуры <small>(калибровка)</small>",
"bleAddress": {
"title": "BLE адрес",
"note": "ТОЛЬКО для некоторых плат ESP32 с поддержкой BLE"
}
"interval": "Интервал публикации <small>(сек)</small>"
},
"extPump": {
@@ -315,6 +389,29 @@
"postCirculationTime": "Время постциркуляции <small>(в минутах)</small>",
"antiStuckInterval": "Интервал защиты от блокировки <small>(в днях)</small>",
"antiStuckTime": "Время работы насоса <small>(в минутах)</small>"
},
"cascadeControl": {
"input": {
"desc": "Может использоваться для включения отопления только при неисправности другого котла. Контроллер другого котла должен изменить состояние входа GPIO в случае неисправности.",
"enable": "Включить вход",
"gpio": "GPIO",
"invertState": "Инвертировать состояние GPIO",
"thresholdTime": "Пороговое время изменения состояния <small>(сек)</small>"
},
"output": {
"desc": "Может использоваться для включения другого котла <u>через реле</u>.",
"enable": "Включить выход",
"gpio": "GPIO",
"invertState": "Инвертировать состояние GPIO",
"thresholdTime": "Пороговое время изменения состояния <small>(сек)</small>",
"events": {
"desc": "События",
"onFault": "Если состояние fault (ошибки) активно",
"onLossConnection": "Если соединение по OpenTherm потеряно",
"onEnabledHeating": "Если отопление включено"
}
}
}
},
@@ -331,7 +428,7 @@
"note": {
"disclaimer1": "После успешного обновления файловой системы ВСЕ настройки будут сброшены на стандартные! Создайте резервную копию ПЕРЕД обновлением.",
"disclaimer2": "После успешного обновления устройство автоматически перезагрузится через 10 секунд."
"disclaimer2": "После успешного обновления устройство автоматически перезагрузится через 15 секунд."
},
"settingsFile": "Файл настроек",

501
src_data/pages/dashboard.html
View File

@@ -4,19 +4,20 @@
<meta charset="utf-8" />
<meta name="viewport" content="width=device-width, initial-scale=1" />
<title data-i18n>dashboard.title</title>
<link rel="stylesheet" href="/static/app.css" />
<link rel="stylesheet" href="/static/app.css?{BUILD_TIME}" />
</head>
<body>
<header class="container">
<nav>
<ul>
<li><a href="/">
<li>
<a href="/">
<div class="logo" data-i18n>logo</div>
</a></li>
</a>
</li>
</ul>
<ul>
<!--<li><a href="https://github.com/Laxilef/OTGateway/wiki" role="button" class="secondary" target="_blank">Help</a></li>-->
<li>
<select id="lang" aria-label="Lang">
<option value="en" selected>EN</option>
@@ -42,31 +43,31 @@
<div class="thermostat" id="thermostat-heating">
<div class="thermostat-header" data-i18n>dashboard.thermostat.heating</div>
<div class="thermostat-temp">
<div class="thermostat-temp-target"><span id="thermostat-heating-target"></span> <span class="temp-unit"></span></div>
<div class="thermostat-temp-current"><span data-i18n>dashboard.thermostat.temp.current</span>: <span id="thermostat-heating-current"></span> <span class="temp-unit"></span></div>
<div class="thermostat-temp-target"><span id="tHeatTargetTemp"></span> <span class="tempUnit"></span></div>
<div class="thermostat-temp-current"><span data-i18n>dashboard.thermostat.temp.current</span>: <span id="tHeatCurrentTemp"></span> <span class="tempUnit"></span></div>
</div>
<div class="thermostat-minus"><button id="thermostat-heating-minus" class="outline"><i class="icons-down"></i></button></div>
<div class="thermostat-plus"><button id="thermostat-heating-plus" class="outline"><i class="icons-up"></i></button></div>
<div class="thermostat-minus"><button id="tHeatActionMinus" class="outline"><i class="icons-down"></i></button></div>
<div class="thermostat-plus"><button id="tHeatActionPlus" class="outline"><i class="icons-up"></i></button></div>
<div class="thermostat-control">
<input type="checkbox" role="switch" id="thermostat-heating-enabled" value="true">
<label htmlFor="thermostat-heating-enabled" data-i18n>dashboard.thermostat.enable</label>
<input type="checkbox" role="switch" id="tHeatEnabled" value="true">
<label htmlFor="tHeatEnabled" data-i18n>dashboard.thermostat.enable</label>
<input type="checkbox" role="switch" id="thermostat-heating-turbo" value="true">
<label htmlFor="thermostat-heating-turbo" data-i18n>dashboard.thermostat.turbo</label>
<input type="checkbox" role="switch" id="tHeatTurbo" value="true">
<label htmlFor="tHeatTurbo" data-i18n>dashboard.thermostat.turbo</label>
</div>
</div>
<div class="thermostat" id="thermostat-dhw">
<div class="thermostat-header" data-i18n>dashboard.thermostat.dhw</div>
<div class="thermostat-temp">
<div class="thermostat-temp-target"><span id="thermostat-dhw-target"></span> <span class="temp-unit"></span></div>
<div class="thermostat-temp-current"><span data-i18n>dashboard.thermostat.temp.current</span>: <span id="thermostat-dhw-current"></span> <span class="temp-unit"></span></div>
<div class="thermostat-temp-target"><span id="tDhwTargetTemp"></span> <span class="tempUnit"></span></div>
<div class="thermostat-temp-current"><span data-i18n>dashboard.thermostat.temp.current</span>: <span id="tDhwCurrentTemp"></span> <span class="tempUnit"></span></div>
</div>
<div class="thermostat-minus"><button class="outline" id="thermostat-dhw-minus"><i class="icons-down"></i></button></div>
<div class="thermostat-plus"><button class="outline" id="thermostat-dhw-plus"><i class="icons-up"></i></button></div>
<div class="thermostat-minus"><button class="outline" id="tDhwActionMinus"><i class="icons-down"></i></button></div>
<div class="thermostat-plus"><button class="outline" id="tDhwActionPlus"><i class="icons-up"></i></button></div>
<div class="thermostat-control">
<input type="checkbox" role="switch" id="thermostat-dhw-enabled" value="true">
<label htmlFor="thermostat-dhw-enabled" data-i18n>dashboard.thermostat.enable</label>
<input type="checkbox" role="switch" id="tDhwEnabled" value="true">
<label htmlFor="tDhwEnabled" data-i18n>dashboard.thermostat.enable</label>
</div>
</div>
</div>
@@ -79,116 +80,116 @@
<table>
<tbody>
<tr>
<th scope="row" data-i18n>dashboard.state.ot</th>
<td><input type="radio" id="ot-connected" aria-invalid="false" checked disabled /></td>
<th scope="row" data-i18n>dashboard.states.mNetworkConnected</th>
<td><i class="mNetworkConnected"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.mqtt</th>
<td><input type="radio" id="mqtt-connected" aria-invalid="false" checked disabled /></td>
<th scope="row" data-i18n>dashboard.states.mMqttConnected</th>
<td><i class="mMqttConnected"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.emergency</th>
<td><input type="radio" id="ot-emergency" aria-invalid="false" checked disabled /></td>
<th scope="row" data-i18n>dashboard.states.mEmergencyState</th>
<td><i class="mEmergencyState"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.heating</th>
<td><input type="radio" id="ot-heating" aria-invalid="false" checked disabled /></td>
<th scope="row" data-i18n>dashboard.states.mExtPumpState</th>
<td><i class="mExtPumpState"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.dhw</th>
<td><input type="radio" id="ot-dhw" aria-invalid="false" checked disabled /></td>
<th scope="row" data-i18n>dashboard.states.mCascadeControlInput</th>
<td><i class="mCascadeControlInput"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.flame</th>
<td><input type="radio" id="ot-flame" aria-invalid="false" checked disabled /></td>
<th scope="row" data-i18n>dashboard.states.mCascadeControlOutput</th>
<td><i class="mCascadeControlOutput"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.states.sConnected</th>
<td><i class="sConnected"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.fault</th>
<td><input type="radio" id="ot-fault" aria-invalid="false" checked disabled /></td>
<th scope="row" data-i18n>dashboard.states.sFlame</th>
<td><i class="sFlame"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.states.sFaultActive</th>
<td><i class="sFaultActive"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.diag</th>
<td><input type="radio" id="ot-diagnostic" aria-invalid="false" checked disabled /></td>
<th scope="row" data-i18n>dashboard.states.sFaultCode</th>
<td><b class="sFaultCode"></b></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.extpump</th>
<td><input type="radio" id="ot-external-pump" aria-invalid="false" checked disabled /></td>
<th scope="row" data-i18n>dashboard.states.sDiagActive</th>
<td><i class="sDiagActive"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.outdoorSensorConnected</th>
<td><input type="radio" id="outdoor-sensor-connected" aria-invalid="false" checked disabled /></td>
<th scope="row" data-i18n>dashboard.states.sDiagCode</th>
<td><b class="sDiagCode"></b></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.states.mHeatEnabled</th>
<td><i class="mHeatEnabled"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.outdoorSensorRssi</th>
<td><b id="outdoor-sensor-rssi"></b> <span data-i18n>dbm</span></td>
<th scope="row" data-i18n>dashboard.states.mHeatBlocking</th>
<td><i class="mHeatBlocking"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.outdoorSensorHumidity</th>
<td><b id="outdoor-sensor-humidity"></b> %</td>
<th scope="row" data-i18n>dashboard.states.sHeatActive</th>
<td><i class="sHeatActive"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.outdoorSensorBattery</th>
<td><b id="outdoor-sensor-battery"></b> %</td>
<th scope="row" data-i18n>dashboard.states.mHeatTargetTemp</th>
<td><b class="mHeatTargetTemp"></b> <span class="tempUnit"></span></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.indoorSensorConnected</th>
<td><input type="radio" id="indoor-sensor-connected" aria-invalid="false" checked disabled /></td>
<th scope="row" data-i18n>dashboard.states.mHeatSetpointTemp</th>
<td><b class="mHeatSetpointTemp"></b> <span class="tempUnit"></span></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.indoorSensorRssi</th>
<td><b id="indoor-sensor-rssi"></b> <span data-i18n>dbm</span></td>
<th scope="row" data-i18n>dashboard.states.mHeatCurrTemp</th>
<td><b class="mHeatCurrTemp"></b> <span class="tempUnit"></span></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.indoorSensorHumidity</th>
<td><b id="indoor-sensor-humidity"></b> %</td>
<th scope="row" data-i18n>dashboard.states.mHeatRetTemp</th>
<td><b class="mHeatRetTemp"></b> <span class="tempUnit"></span></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.indoorSensorBattery</th>
<td><b id="indoor-sensor-battery"></b> %</td>
<th scope="row" data-i18n>dashboard.states.mHeatIndoorTemp</th>
<td><b class="mHeatIndoorTemp"></b> <span class="tempUnit"></span></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.modulation</th>
<td><b id="ot-modulation"></b> %</td>
<th scope="row" data-i18n>dashboard.states.mHeatOutdoorTemp</th>
<td><b class="mHeatOutdoorTemp"></b> <span class="tempUnit"></span></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.states.mDhwEnabled</th>
<td><i class="mDhwEnabled"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.pressure</th>
<td><b id="ot-pressure"></b> <span class="pressure-unit"></span></td>
<th scope="row" data-i18n>dashboard.states.sDhwActive</th>
<td><i class="sDhwActive"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.dhwFlowRate</th>
<td><b id="ot-dhw-flow-rate"></b> <span class="volume-unit"></span>/min</td>
<th scope="row" data-i18n>dashboard.states.mDhwTargetTemp</th>
<td><b class="mDhwTargetTemp"></b> <span class="tempUnit"></span></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.faultCode</th>
<td><b id="ot-fault-code"></b></td>
<th scope="row" data-i18n>dashboard.states.mDhwCurrTemp</th>
<td><b class="mDhwCurrTemp"></b> <span class="tempUnit"></span></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.indoorTemp</th>
<td><b id="indoor-temp"></b> <span class="temp-unit"></span></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.outdoorTemp</th>
<td><b id="outdoor-temp"></b> <span class="temp-unit"></span></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.heatingTemp</th>
<td><b id="heating-temp"></b> <span class="temp-unit"></span></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.heatingSetpointTemp</th>
<td><b id="heating-setpoint-temp"></b> <span class="temp-unit"></span></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.heatingReturnTemp</th>
<td><b id="heating-return-temp"></b> <span class="temp-unit"></span></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.dhwTemp</th>
<td><b id="dhw-temp"></b> <span class="temp-unit"></span></td>
</tr>
<tr>
<th scope="row" data-i18n>dashboard.state.exhaustTemp</th>
<td><b id="exhaust-temp"></b> <span class="temp-unit"></span></td>
<th scope="row" data-i18n>dashboard.states.mDhwRetTemp</th>
<td><b class="mDhwRetTemp"></b> <span class="tempUnit"></span></td>
</tr>
</tbody>
</table>
@@ -197,15 +198,36 @@
<hr />
<details>
<summary><b data-i18n>dashboard.section.otDiag</b></summary>
<pre><b>Vendor:</b> <span id="slave-vendor"></span>
<b>Member ID:</b> <span id="slave-member-id"></span>
<b>Flags:</b> <span id="slave-flags"></span>
<b>Type:</b> <span id="slave-type"></span>
<b>Version:</b> <span id="slave-version"></span>
<b>OT version:</b> <span id="slave-ot-version"></span>
<b>Heating limits:</b> <span id="heating-min-temp"></span>...<span id="heating-max-temp"></span> <span class="temp-unit"></span>
<b>DHW limits:</b> <span id="dhw-min-temp"></span>...<span id="dhw-max-temp"></span> <span class="temp-unit"></span></pre>
<summary><b data-i18n>dashboard.section.sensors</b></summary>
<table>
<tbody class="sensors">
<tr class="sensor template hidden">
<td style="width: 1.35rem">
<span class="sStatusContainer">
<i class="sStatus"></i>
</span>
</td>
<th scope="row" class="sName"></th>
<td class="sValue"></td>
</tr>
</tbody>
</table>
</details>
<hr />
<details>
<summary><b data-i18n>dashboard.section.diag</b></summary>
<pre><b>Vendor:</b> <span class="sVendor"></span>
<b>Member ID:</b> <span class="sMemberId"></span>
<b>Flags:</b> <span class="sFlags"></span>
<b>Type:</b> <span class="sType"></span>
<b>AppVersion:</b> <span class="sAppVersion"></span>
<b>OT version:</b> <span class="sProtocolVersion"></span>
<b>Modulation limits:</b> <span class="sModMin"></span>...<span class="sModMax"></span> %
<b>Power limits:</b> <span class="sPowerMin"></span>...<span class="sPowerMax"></span> kW
<b>Heating limits:</b> <span class="sHeatMinTemp"></span>...<span class="sHeatMaxTemp"></span> <span class="tempUnit"></span>
<b>DHW limits:</b> <span class="sDhwMinTemp"></span>...<span class="sDhwMaxTemp"></span> <span class="tempUnit"></span></pre>
</details>
</div>
</article>
@@ -222,7 +244,7 @@
</small>
</footer>
<script src="/static/app.js"></script>
<script src="/static/app.js?{BUILD_TIME}"></script>
<script>
let modifiedTime = null;
let noRegulators;
@@ -243,7 +265,7 @@
const lang = new Lang(document.getElementById('lang'));
lang.build();
document.querySelector('#thermostat-heating-minus').addEventListener('click', (event) => {
document.querySelector('#tHeatActionMinus').addEventListener('click', (event) => {
if (!prevSettings) {
return;
}
@@ -262,10 +284,10 @@
newSettings.heating.target = minTemp;
}
setValue('#thermostat-heating-target', newSettings.heating.target);
setValue('#tHeatTargetTemp', newSettings.heating.target);
});
document.querySelector('#thermostat-heating-plus').addEventListener('click', (event) => {
document.querySelector('#tHeatActionPlus').addEventListener('click', (event) => {
if (!prevSettings) {
return;
}
@@ -284,10 +306,10 @@
newSettings.heating.target = maxTemp;
}
setValue('#thermostat-heating-target', newSettings.heating.target);
setValue('#tHeatTargetTemp', newSettings.heating.target);
});
document.querySelector('#thermostat-dhw-minus').addEventListener('click', (event) => {
document.querySelector('#tDhwActionMinus').addEventListener('click', (event) => {
if (!prevSettings) {
return;
}
@@ -299,10 +321,10 @@
newSettings.dhw.target = prevSettings.dhw.minTemp;
}
setValue('#thermostat-dhw-target', newSettings.dhw.target);
setValue('#tDhwTargetTemp', newSettings.dhw.target);
});
document.querySelector('#thermostat-dhw-plus').addEventListener('click', (event) => {
document.querySelector('#tDhwActionPlus').addEventListener('click', (event) => {
if (!prevSettings) {
return;
}
@@ -314,25 +336,27 @@
newSettings.dhw.target = prevSettings.dhw.maxTemp;
}
setValue('#thermostat-dhw-target', newSettings.dhw.target);
setValue('#tDhwTargetTemp', newSettings.dhw.target);
});
document.querySelector('#thermostat-heating-enabled').addEventListener('change', (event) => {
document.querySelector('#tHeatEnabled').addEventListener('change', (event) => {
modifiedTime = Date.now();
newSettings.heating.enable = event.currentTarget.checked;
newSettings.heating.enabled = event.currentTarget.checked;
});
document.querySelector('#thermostat-heating-turbo').addEventListener('change', (event) => {
document.querySelector('#tHeatTurbo').addEventListener('change', (event) => {
modifiedTime = Date.now();
newSettings.heating.turbo = event.currentTarget.checked;
});
document.querySelector('#thermostat-dhw-enabled').addEventListener('change', (event) => {
document.querySelector('#tDhwEnabled').addEventListener('change', (event) => {
modifiedTime = Date.now();
newSettings.dhw.enable = event.currentTarget.checked;
newSettings.dhw.enabled = event.currentTarget.checked;
});
setTimeout(async function onLoadPage() {
let unitSystem = null;
if (modifiedTime) {
if ((Date.now() - modifiedTime) < 5000) {
setTimeout(onLoadPage, 1000);
@@ -345,10 +369,10 @@
// settings
try {
let modified = prevSettings && (
(prevSettings.heating.enable != newSettings.heating.enable)
(prevSettings.heating.enabled != newSettings.heating.enabled)
|| (prevSettings.heating.turbo != newSettings.heating.turbo)
|| (prevSettings.heating.target != newSettings.heating.target)
|| (prevSettings.opentherm.dhwPresent && prevSettings.dhw.enable != newSettings.dhw.enable)
|| (prevSettings.opentherm.dhwPresent && prevSettings.dhw.enabled != newSettings.dhw.enabled)
|| (prevSettings.opentherm.dhwPresent && prevSettings.dhw.target != newSettings.dhw.target)
);
@@ -356,24 +380,30 @@
console.log(newSettings);
}
let parameters = { cache: 'no-cache' };
let parameters = {
method: "GET",
cache: "no-cache",
credentials: "include"
};
if (modified) {
parameters.method = "POST";
parameters.body = JSON.stringify(newSettings);
}
const response = await fetch('/api/settings', parameters);
const response = await fetch("/api/settings", parameters);
if (!response.ok) {
throw new Error('Response not valid');
}
const result = await response.json();
noRegulators = !result.opentherm.nativeHeatingControl && !result.equitherm.enable && !result.pid.enable;
noRegulators = !result.opentherm.nativeHeatingControl && !result.equitherm.enabled && !result.pid.enabled;
prevSettings = result;
newSettings.heating.enable = result.heating.enable;
unitSystem = result.system.unitSystem;
newSettings.heating.enabled = result.heating.enabled;
newSettings.heating.turbo = result.heating.turbo;
newSettings.heating.target = result.heating.target;
newSettings.dhw.enable = result.dhw.enable;
newSettings.dhw.enabled = result.dhw.enabled;
newSettings.dhw.target = result.dhw.target;
if (result.opentherm.dhwPresent) {
@@ -382,16 +412,16 @@
hide('#thermostat-dhw');
}
setCheckboxValue('#thermostat-heating-enabled', result.heating.enable);
setCheckboxValue('#thermostat-heating-turbo', result.heating.turbo);
setValue('#thermostat-heating-target', result.heating.target);
setCheckboxValue('#tHeatEnabled', result.heating.enabled);
setCheckboxValue('#tHeatTurbo', result.heating.turbo);
setValue('#tHeatTargetTemp', result.heating.target);
setCheckboxValue('#thermostat-dhw-enabled', result.dhw.enable);
setValue('#thermostat-dhw-target', result.dhw.target);
setCheckboxValue('#tDhwEnabled', result.dhw.enabled);
setValue('#tDhwTargetTemp', result.dhw.target);
setValue('.temp-unit', temperatureUnit(result.system.unitSystem));
setValue('.pressure-unit', pressureUnit(result.system.unitSystem));
setValue('.volume-unit', volumeUnit(result.system.unitSystem));
setValue('.tempUnit', temperatureUnit(unitSystem));
setValue('.pressureUnit', pressureUnit(unitSystem));
setValue('.volumeUnit', volumeUnit(unitSystem));
} catch (error) {
console.log(error);
@@ -399,65 +429,206 @@
// vars
try {
const response = await fetch('/api/vars', { cache: 'no-cache' });
const response = await fetch("/api/vars", {
cache: "no-cache",
credentials: "include"
});
if (!response.ok) {
throw new Error('Response not valid');
}
const result = await response.json();
setValue('#thermostat-heating-current', noRegulators ? result.temperatures.heating : result.temperatures.indoor);
setValue('#thermostat-dhw-current', result.temperatures.dhw);
// Graph
setValue('#tHeatCurrentTemp', result.master.heating.indoorTempControl
? result.master.heating.indoorTemp
: result.master.heating.currentTemp
);
setValue('#tDhwCurrentTemp', result.master.dhw.currentTemp);
setState('#ot-connected', result.states.otStatus);
setState('#mqtt-connected', result.states.mqtt);
setState('#ot-emergency', result.states.emergency);
setState('#ot-heating', result.states.heating);
setState('#ot-dhw', result.states.dhw);
setState('#ot-flame', result.states.flame);
setState('#ot-fault', result.states.fault);
setState('#ot-diagnostic', result.states.diagnostic);
setState('#ot-external-pump', result.states.externalPump);
setState('#outdoor-sensor-connected', result.sensors.outdoor.connected);
setState('#indoor-sensor-connected', result.sensors.indoor.connected);
// SLAVE
setValue('.sMemberId', result.slave.memberId);
setValue('.sVendor', memberIdToVendor(result.slave.memberId));
setValue('.sFlags', result.slave.flags);
setValue('.sType', result.slave.type);
setValue('.sAppVersion', result.slave.appVersion);
setValue('.sProtocolVersion', result.slave.protocolVersion);
setValue('#outdoor-sensor-rssi', result.sensors.outdoor.rssi);
setValue('#outdoor-sensor-humidity', result.sensors.outdoor.humidity);
setValue('#outdoor-sensor-battery', result.sensors.outdoor.battery);
setValue('#indoor-sensor-rssi', result.sensors.indoor.rssi);
setValue('#indoor-sensor-humidity', result.sensors.indoor.humidity);
setValue('#indoor-sensor-battery', result.sensors.indoor.battery);
setStatus(
'.sConnected',
result.slave.connected ? "success" : "error",
result.slave.connected ? "green" : "red"
);
setState('.sFlame', result.slave.flame);
setValue('#ot-modulation', result.sensors.modulation);
setValue('#ot-pressure', result.sensors.pressure);
setValue('#ot-dhw-flow-rate', result.sensors.dhwFlowRate);
setValue('#ot-fault-code', result.sensors.faultCode ? ("E" + result.sensors.faultCode) : "-");
setValue('.sModMin', result.slave.modulation.min);
setValue('.sModMax', result.slave.modulation.max);
setValue('#indoor-temp', result.temperatures.indoor);
setValue('#outdoor-temp', result.temperatures.outdoor);
setValue('#heating-temp', result.temperatures.heating);
setValue('#heating-return-temp', result.temperatures.heatingReturn);
setValue('#dhw-temp', result.temperatures.dhw);
setValue('#exhaust-temp', result.temperatures.exhaust);
setValue('.sPowerMin', result.slave.power.min);
setValue('.sPowerMax', result.slave.power.max);
setValue('#heating-min-temp', result.parameters.heatingMinTemp);
setValue('#heating-max-temp', result.parameters.heatingMaxTemp);
setValue('#heating-setpoint-temp', result.parameters.heatingSetpoint);
setValue('#dhw-min-temp', result.parameters.dhwMinTemp);
setValue('#dhw-max-temp', result.parameters.dhwMaxTemp);
setState('.sHeatActive', result.slave.heating.active);
setValue('.sHeatMinTemp', result.slave.heating.minTemp);
setValue('.sHeatMaxTemp', result.slave.heating.maxTemp);
setValue('#slave-member-id', result.parameters.slaveMemberId);
setValue('#slave-vendor', memberIdToVendor(result.parameters.slaveMemberId));
setState('.sDhwActive', result.slave.dhw.active);
setValue('.sDhwMinTemp', result.slave.dhw.minTemp);
setValue('.sDhwMaxTemp', result.slave.dhw.maxTemp);
setStatus(
'.sFaultActive',
result.slave.fault.active ? "success" : "error",
result.slave.fault.active ? "red" : "green"
);
setValue(
'.sFaultCode',
result.slave.fault.active
? `${result.slave.fault.code} (0x${dec2hex(result.slave.fault.code)})`
: "-"
);
setStatus(
'.sDiagActive',
result.slave.diag.active ? "success" : "error",
result.slave.diag.active ? "red" : "green"
);
setValue(
'.sDiagCode',
result.slave.diag.active
? `${result.slave.diag.code} (0x${dec2hex(result.slave.diag.code)})`
: "-"
);
// MASTER
setState('.mHeatEnabled', result.master.heating.enabled);
setStatus(
'.mHeatBlocking',
result.master.heating.blocking ? "success" : "error",
result.master.heating.blocking ? "red" : "green"
);
setState('.mHeatIndoorTempControl', result.master.heating.indoorTempControl);
setValue('.mHeatSetpointTemp', result.master.heating.setpointTemp);
setValue('.mHeatTargetTemp', result.master.heating.targetTemp);
setValue('.mHeatCurrTemp', result.master.heating.currentTemp);
setValue('.mHeatRetTemp', result.master.heating.returnTemp);
setValue('.mHeatIndoorTemp', result.master.heating.indoorTemp);
setValue('.mHeatOutdoorTemp', result.master.heating.outdoorTemp);
setValue('.mHeatMinTemp', result.master.heating.minTemp);
setValue('.mHeatMaxTemp', result.master.heating.maxTemp);
setState('.mDhwEnabled', result.master.dhw.enabled);
setValue('.mDhwTargetTemp', result.master.dhw.targetTemp);
setValue('.mDhwCurrTemp', result.master.dhw.currentTemp);
setValue('.mDhwRetTemp', result.master.dhw.returnTemp);
setValue('.mDhwMinTemp', result.master.dhw.minTemp);
setValue('.mDhwMaxTemp', result.master.dhw.maxTemp);
setStatus(
'.mNetworkConnected',
result.master.network.connected ? "success" : "error",
result.master.network.connected ? "green" : "red"
);
setState('.mMqttConnected', result.master.mqtt.connected);
setStatus(
'.mEmergencyState',
result.master.emergency.state ? "success" : "error",
result.master.emergency.state ? "red" : "green"
);
setState('.mExtPumpState', result.master.externalPump.state);
setState('.mCascadeControlInput', result.master.cascadeControl.input);
setState('.mCascadeControlOutput', result.master.cascadeControl.output);
setValue('#slave-flags', result.parameters.slaveFlags);
setValue('#slave-type', result.parameters.slaveType);
setValue('#slave-version', result.parameters.slaveVersion);
setValue('#slave-ot-version', result.parameters.slaveOtVersion);
setBusy('#dashboard-busy', '#dashboard-container', false);
} catch (error) {
console.log(error);
}
// sensors
try {
const response = await fetch("/api/sensors?detailed=1", {
cache: "no-cache",
credentials: "include"
});
if (!response.ok) {
throw new Error("Response not valid");
}
const container = document.querySelector(".sensors");
const templateNode = container.querySelector(".template");
const result = await response.json();
for (const sensorId in result) {
let sensorNode = container.querySelector(`.sensor[data-id='${sensorId}']`);
if (sensorNode) {
continue;
}
sensorNode = templateNode.cloneNode(true);
sensorNode.dataset.id = sensorId;
sensorNode.classList.remove("template");
container.appendChild(sensorNode);
}
for (const sensorId in result) {
const sensorNode = container.querySelector(`.sensor[data-id='${sensorId}']`);
if (!sensorNode) {
continue;
}
const sData = result[sensorId];
if (!sData.enabled || sData.purpose == 255) {
sensorNode.classList.toggle("hidden", true);
continue;
}
sensorNode.classList.toggle("hidden", false);
setStatus(
".sStatus",
sData.connected ? "success" : "error",
sData.connected ? "green" : "red",
sensorNode
);
setValue(".sName", sData.name, sensorNode);
setValue(".sValue", "", sensorNode);
const statusNode = sensorNode.querySelector(`.sStatusContainer`);
if (statusNode) {
statusNode.dataset.tooltip = `${sData.signalQuality}%`;
}
if (sData.value !== undefined) {
const sUnit = purposeUnit(sData.purpose, unitSystem);
appendValue(".sValue", `<b>${sData.value.toFixed(2)}</b> ${sUnit !== null ? sUnit : ``}`, `<br />`, sensorNode);
}
if (sData.temperature !== undefined) {
const sUnit = temperatureUnit(unitSystem);
appendValue(".sValue", `${i18n('dashboard.sensors.values.temp')}: <b>${sData.temperature.toFixed(2)}</b> ${sUnit !== null ? sUnit : ``}`, `<br />`, sensorNode);
}
if (sData.humidity !== undefined) {
appendValue(".sValue", `${i18n('dashboard.sensors.values.humidity')}: <b>${sData.humidity.toFixed(2)}</b> %`, `<br />`, sensorNode);
}
if (sData.battery !== undefined) {
appendValue(".sValue", `${i18n('dashboard.sensors.values.battery')}: <b>${sData.battery.toFixed(2)}</b> %`, `<br />`, sensorNode);
}
if (sData.rssi !== undefined) {
appendValue(".sValue", `${i18n('dashboard.sensors.values.rssi')}: <b>${sData.rssi.toFixed(0)}</b> ${i18n('dbm')}`, `<br />`, sensorNode);
}
}
} catch (error) {
console.log(error);
}
setTimeout(onLoadPage, 10000);
}, 1000);
});

97
src_data/pages/index.html
View File

@@ -4,19 +4,20 @@
<meta charset="utf-8" />
<meta name="viewport" content="width=device-width, initial-scale=1" />
<title data-i18n>index.title</title>
<link rel="stylesheet" href="/static/app.css" />
<link rel="stylesheet" href="/static/app.css?{BUILD_TIME}" />
</head>
<body>
<header class="container">
<nav>
<ul>
<li><a href="/">
<li>
<a href="/">
<div class="logo" data-i18n>logo</div>
</a></li>
</a>
</li>
</ul>
<ul>
<!--<li><a href="https://github.com/Laxilef/OTGateway/wiki" role="button" class="secondary" target="_blank">Help</a></li>-->
<li>
<select id="lang" aria-label="Lang">
<option value="en" selected>EN</option>
@@ -48,7 +49,7 @@
</tr>
<tr>
<th scope="row" data-i18n>network.wifi.connected</th>
<td><input type="radio" id="network-connected" aria-invalid="false" checked disabled /></td>
<td><i id="network-connected"></i></td>
</tr>
<tr>
<th scope="row" data-i18n>network.wifi.ssid</th>
@@ -101,43 +102,48 @@
<td>
Env: <b id="build-env"></b><br />
<span data-i18n>index.system.build.date</span>: <b id="build-date"></b><br />
<span data-i18n>index.system.build.sdk</span>: <b id="core-version"></b>
<span data-i18n>index.system.build.core</span>: <b id="build-core"></b><br />
<span data-i18n>index.system.build.sdk</span>: <b id="build-sdk"></b>
</td>
</tr>
<tr>
<th scope="row" data-i18n>index.system.uptime</th>
<td>
<b id="uptime-days"></b> days,
<b id="uptime-hours"></b> hours,
<b id="uptime-min"></b> min.,
<b id="uptime-sec"></b> sec.
<b id="uptime-days"></b> <span data-i18n>time.days</span>,
<b id="uptime-hours"></b> <span data-i18n>time.hours</span>,
<b id="uptime-min"></b> <span data-i18n>time.min</span>,
<b id="uptime-sec"></b> <span data-i18n>time.sec</span>
</td>
</tr>
<tr>
<th scope="row" data-i18n>index.system.memory.title</th>
<td>
<b id="free-heap"></b> of <b id="total-heap"></b> bytes (<span data-i18n>index.system.memory.min</span>: <b id="min-free-heap"></b> bytes)<br />
<span data-i18n>index.system.memory.maxFreeBlock</span>: <b id="max-free-block-heap"></b> bytes (<span data-i18n>index.system.memory.min</span>: <b id="min-max-free-block-heap"></b> bytes)
<b id="heap-free"></b> of <b id="heap-total"></b> bytes (<span data-i18n>index.system.memory.min</span>: <b id="heap-min-free"></b> bytes)<br />
<span data-i18n>index.system.memory.maxFreeBlock</span>: <b id="heap-max-free-block"></b> bytes (<span data-i18n>index.system.memory.min</span>: <b id="heap-min-max-free-block"></b> bytes)
</td>
</tr>
<tr>
<th scope="row" data-i18n>index.system.board</th>
<td>
<span data-i18n>index.system.chip.model</span>: <b id="chip-model"></b> (rev. <span id="chip-revision"></span>)<br />
<span data-i18n>index.system.chip.cores</span>: <b id="chip-cores"></b>, <span data-i18n>index.system.chip.freq</span>: <b id="cpu-freq"></b> mHz<br />
<span data-i18n>index.system.chip.model</span>: <b id="chip-model"></b> (rev. <span id="chip-rev"></span>)<br />
<span data-i18n>index.system.chip.cores</span>: <b id="chip-cores"></b>, <span data-i18n>index.system.chip.freq</span>: <b id="chip-freq"></b> mHz<br />
<span data-i18n>index.system.flash.size</span>: <b id="flash-size"></b> MB (<span data-i18n>index.system.flash.realSize</span>: <b id="flash-real-size"></b> MB)
</td>
</tr>
<tr>
<th scope="row" data-i18n>index.system.lastResetReason</th>
<td><b id="reset-reason"></b></td>
<td>
<b id="reset-reason"></b><br />
<a href="/api/debug" target="_blank"><small>Save debug data</small></a>
</td>
</tr>
</tbody>
</table>
<div class="grid">
<div class="grid" style="grid-template-columns: repeat(auto-fit,minmax(12rem,1fr)) !important;">
<a href="/dashboard.html" role="button" data-i18n>dashboard.name</a>
<a href="/settings.html" role="button" data-i18n>settings.name</a>
<a href="/sensors.html" role="button" data-i18n>sensors.name</a>
<a href="/upgrade.html" role="button" data-i18n>upgrade.name</a>
<a href="/restart.html" role="button" class="secondary restart" data-i18n>button.restart</a>
</div>
@@ -156,7 +162,7 @@
</small>
</footer>
<script src="/static/app.js"></script>
<script src="/static/app.js?{BUILD_TIME}"></script>
<script>
document.addEventListener('DOMContentLoaded', async () => {
const lang = new Lang(document.getElementById('lang'));
@@ -164,15 +170,30 @@
setTimeout(async function onLoadPage() {
try {
const response = await fetch('/api/info', { cache: 'no-cache' });
const response = await fetch("/api/info", {
cache: "no-cache",
credentials: "include"
});
if (!response.ok) {
throw new Error('Response not valid');
}
const result = await response.json();
setValue('#reset-reason', result.system.resetReason);
setValue('#uptime', result.system.uptime);
setValue('#uptime-days', Math.floor(result.system.uptime / 86400));
setValue('#uptime-hours', Math.floor(result.system.uptime % 86400 / 3600));
setValue('#uptime-min', Math.floor(result.system.uptime % 3600 / 60));
setValue('#uptime-sec', Math.floor(result.system.uptime % 60));
setValue('#network-hostname', result.network.hostname);
setValue('#network-mac', result.network.mac);
setState('#network-connected', result.network.connected);
setStatus(
'#network-connected',
result.network.connected ? "success" : "error",
result.network.connected ? "green" : "red"
);
setValue('#network-ssid', result.network.ssid);
setValue('#network-signal', result.network.signalQuality);
setValue('#network-ip', result.network.ip);
@@ -181,28 +202,24 @@
setValue('#network-dns', result.network.dns);
setBusy('#main-busy', '#main-table', false);
setValue('#build-version', result.system.buildVersion);
setValue('#build-date', result.system.buildDate);
setValue('#build-env', result.system.buildEnv);
setValue('#uptime', result.system.uptime);
setValue('#uptime-days', Math.floor(result.system.uptime / 86400));
setValue('#uptime-hours', Math.floor(result.system.uptime % 86400 / 3600));
setValue('#uptime-min', Math.floor(result.system.uptime % 3600 / 60));
setValue('#uptime-sec', Math.floor(result.system.uptime % 60));
setValue('#total-heap', result.system.totalHeap);
setValue('#free-heap', result.system.freeHeap);
setValue('#min-free-heap', result.system.minFreeHeap);
setValue('#max-free-block-heap', result.system.maxFreeBlockHeap);
setValue('#min-max-free-block-heap', result.system.minMaxFreeBlockHeap);
setValue('#reset-reason', result.system.resetReason);
setValue('#build-version', result.build.version);
setValue('#build-date', result.build.date);
setValue('#build-env', result.build.env);
setValue('#build-core', result.build.core);
setValue('#build-sdk', result.build.sdk);
setValue('#chip-model', result.system.chipModel);
setValue('#chip-revision', result.system.chipRevision);
setValue('#chip-cores', result.system.chipCores);
setValue('#cpu-freq', result.system.cpuFreq);
setValue('#core-version', result.system.coreVersion);
setValue('#flash-size', result.system.flashSize / 1024 / 1024);
setValue('#flash-real-size', result.system.flashRealSize / 1024 / 1024);
setValue('#heap-total', result.heap.total);
setValue('#heap-free', result.heap.free);
setValue('#heap-min-free', result.heap.minFree);
setValue('#heap-max-free-block', result.heap.maxFreeBlock);
setValue('#heap-min-max-free-block', result.heap.minMaxFreeBlock);
setValue('#chip-model', result.chip.model);
setValue('#chip-rev', result.chip.rev);
setValue('#chip-cores', result.chip.cores);
setValue('#chip-freq', result.chip.freq);
setValue('#flash-size', result.flash.size / 1024 / 1024);
setValue('#flash-real-size', result.flash.realSize / 1024 / 1024);
setBusy('#system-busy', '#system-table', false);

17
src_data/pages/network.html
View File

@@ -4,19 +4,20 @@
<meta charset="utf-8" />
<meta name="viewport" content="width=device-width, initial-scale=1" />
<title data-i18n>network.title</title>
<link rel="stylesheet" href="/static/app.css" />
<link rel="stylesheet" href="/static/app.css?{BUILD_TIME}" />
</head>
<body>
<header class="container">
<nav>
<ul>
<li><a href="/">
<li>
<a href="/">
<div class="logo" data-i18n>logo</div>
</a></li>
</a>
</li>
</ul>
<ul>
<!--<li><a href="https://github.com/Laxilef/OTGateway/wiki" role="button" class="secondary" target="_blank">Help</a></li>-->
<li>
<select id="lang" aria-label="Lang">
<option value="en" selected>EN</option>
@@ -171,7 +172,7 @@
</small>
</footer>
<script src="/static/app.js"></script>
<script src="/static/app.js?{BUILD_TIME}"></script>
<script>
document.addEventListener('DOMContentLoaded', async () => {
const lang = new Lang(document.getElementById('lang'));
@@ -198,7 +199,11 @@
};
try {
const response = await fetch('/api/network/settings', { cache: 'no-cache' });
const response = await fetch("/api/network/settings", {
cache: "no-cache",
credentials: "include"
});
if (!response.ok) {
throw new Error('Response not valid');
}

321
src_data/pages/sensors.html Normal file
View File

@@ -0,0 +1,321 @@
<!doctype html>
<html lang="en">
<head>
<meta charset="utf-8" />
<meta name="viewport" content="width=device-width, initial-scale=1" />
<title data-i18n>sensors.title</title>
<link rel="stylesheet" href="/static/app.css?{BUILD_TIME}" />
</head>
<body>
<header class="container">
<nav>
<ul>
<li>
<a href="/">
<div class="logo" data-i18n>logo</div>
</a>
</li>
</ul>
<ul>
<li>
<select id="lang" aria-label="Lang">
<option value="en" selected>EN</option>
<option value="ru">RU</option>
</select>
</li>
</ul>
</nav>
</header>
<main class="container">
<article>
<hgroup>
<h2 data-i18n>sensors.name</h2>
<p></p>
</hgroup>
<details id="template" class="sensor hidden" data-id="" data-preloaded="0">
<summary><b>#<span class="id"></span>: <span class="name"></span></b></summary>
<div>
<div class="form-busy" aria-busy="true"></div>
<form action="/api/sensor?id={id}" class="hidden">
<fieldset>
<label>
<input type="checkbox" role="switch" name="enabled" value="true">
<span data-i18n>sensors.enabled</span>
</label>
<br />
<label>
<span data-i18n>sensors.sensorName.title</span>
<input type="text" name="name" maxlength="32" required>
<small data-i18n>sensors.sensorName.note</small>
</label>
<div class="grid">
<label>
<span data-i18n>sensors.purpose</span>
<select name="purpose" required>
<option value="0" data-i18n>sensors.purposes.outdoorTemp</option>
<option value="1" data-i18n>sensors.purposes.indoorTemp</option>
<option value="2" data-i18n>sensors.purposes.heatTemp</option>
<option value="3" data-i18n>sensors.purposes.heatRetTemp</option>
<option value="4" data-i18n>sensors.purposes.dhwTemp</option>
<option value="5" data-i18n>sensors.purposes.dhwRetTemp</option>
<option value="6" data-i18n>sensors.purposes.dhwFlowRate</option>
<option value="7" data-i18n>sensors.purposes.exhaustTemp</option>
<option value="8" data-i18n>sensors.purposes.modLevel</option>
<option value="248" data-i18n>sensors.purposes.powerFactor</option>
<option value="249" data-i18n>sensors.purposes.power</option>
<option value="250" data-i18n>sensors.purposes.fanSpeed</option>
<option value="251" data-i18n>sensors.purposes.co2</option>
<option value="252" data-i18n>sensors.purposes.pressure</option>
<option value="253" data-i18n>sensors.purposes.humidity</option>
<option value="254" data-i18n>sensors.purposes.temperature</option>
<option value="255" data-i18n>sensors.purposes.notConfigured</option>
</select>
</label>
<label>
<span data-i18n>sensors.type</span>
<select name="type" required>
<option value="0" data-i18n>sensors.types.otOutdoorTemp</option>
<option value="1" data-i18n>sensors.types.otHeatTemp</option>
<option value="2" data-i18n>sensors.types.otHeatRetTemp</option>
<option value="3" data-i18n>sensors.types.otDhwTemp</option>
<option value="4" data-i18n>sensors.types.otDhwTemp2</option>
<option value="5" data-i18n>sensors.types.otDhwFlowRate</option>
<option value="6" data-i18n>sensors.types.otCh2Temp</option>
<option value="7" data-i18n>sensors.types.otExhaustTemp</option>
<option value="8" data-i18n>sensors.types.otHeatExchangerTemp</option>
<option value="9" data-i18n>sensors.types.otPressure</option>
<option value="10" data-i18n>sensors.types.otModLevel</option>
<option value="11" data-i18n>sensors.types.otCurrentPower</option>
<option value="12" data-i18n>sensors.types.otExhaustCo2</option>
<option value="13" data-i18n>sensors.types.otExhaustFanSpeed</option>
<option value="14" data-i18n>sensors.types.otSupplyFanSpeed</option>
<option value="15" data-i18n>sensors.types.otSolarStorageTemp</option>
<option value="16" data-i18n>sensors.types.otSolarCollectorTemp</option>
<option value="17" data-i18n>sensors.types.otFanSpeedSetpoint</option>
<option value="18" data-i18n>sensors.types.otFanSpeedCurrent</option>
<option value="50" data-i18n>sensors.types.ntcTemp</option>
<option value="51" data-i18n>sensors.types.dallasTemp</option>
<option value="52" data-i18n>sensors.types.bluetooth</option>
<option value="253" data-i18n>sensors.types.heatSetpointTemp</option>
<option value="254" data-i18n>sensors.types.manual</option>
<option value="255" data-i18n>sensors.types.notConfigured</option>
</select>
</label>
</div>
</fieldset>
<div class="grid">
<label>
<span data-i18n>sensors.gpio</span>
<input type="number" outputmode="numeric" name="gpio" min="0" max="254" step="1">
</label>
<label>
<span data-i18n>sensors.address.title</span>
<input type="text" name="address">
<small data-i18n>sensors.address.note</small>
</label>
</div>
<hr class="correction" />
<details class="correction">
<summary><b data-i18n>sensors.correction.desc</b></summary>
<div class="grid">
<label>
<span data-i18n>sensors.correction.offset</span>
<input type="number" inputmode="numeric" name="offset" min="-20" max="20" step="0.01" required>
</label>
<label>
<span data-i18n>sensors.correction.factor</span>
<input type="number" inputmode="numeric" name="factor" min="0.01" max="10" step="0.01" required>
</label>
</div>
</details>
<hr class="filtering" />
<details class="filtering">
<summary><b data-i18n>sensors.filtering.desc</b></summary>
<div>
<label>
<input type="checkbox" name="filtering" value="true">
<span data-i18n>sensors.filtering.enabled.title</span>
<br />
<small data-i18n>sensors.filtering.enabled.note</small>
</label>
<label>
<span data-i18n>sensors.filtering.factor.title</span>
<input type="number" inputmode="numeric" name="filteringFactor" min="0.01" max="1" step="0.01">
<small data-i18n>sensors.filtering.factor.note</small>
</label>
</div>
</details>
<br/>
<button type="submit" data-i18n>button.save</button>
</form>
</div>
</details>
</article>
</main>
<footer class="container">
<small>
<b>Made by Laxilef</b>
<a href="https://github.com/Laxilef/OTGateway/blob/master/LICENSE" target="_blank" class="secondary" data-i18n>nav.license</a>
<a href="https://github.com/Laxilef/OTGateway/blob/master/" target="_blank" class="secondary" data-i18n>nav.source</a>
<a href="https://github.com/Laxilef/OTGateway/wiki" target="_blank" class="secondary" data-i18n>nav.help</a>
<a href="https://github.com/Laxilef/OTGateway/issues" target="_blank" class="secondary" data-i18n>nav.issues</a>
<a href="https://github.com/Laxilef/OTGateway/releases" target="_blank" class="secondary" data-i18n>nav.releases</a>
</small>
</footer>
<script src="/static/app.js?{BUILD_TIME}"></script>
<script>
document.addEventListener("DOMContentLoaded", async () => {
const lang = new Lang(document.getElementById("lang"));
lang.build();
const container = document.querySelector("article");
const templateNode = container.querySelector("#template");
try {
const response = await fetch("/api/sensors", {
cache: "no-cache",
credentials: "include"
});
if (!response.ok) {
throw new Error("Response not valid");
}
const result = await response.json();
for (const sensorId in result) {
const sensorNode = templateNode.cloneNode(true);
sensorNode.removeAttribute("id");
sensorNode.classList.remove("hidden");
sensorNode.dataset.id = sensorId;
setValue(".id", sensorId, sensorNode);
setValue(".name", result[sensorId], sensorNode);
container.appendChild(sensorNode);
container.appendChild(document.createElement("hr"));
const sensorForm = sensorNode.querySelector("form");
const fillData = (data) => {
setCheckboxValue("[name='enabled']", data.enabled, sensorForm);
setInputValue("[name='name']", data.name, {}, sensorForm);
setSelectValue("[name='purpose']", data.purpose, sensorForm);
setSelectValue("[name='type']", data.type, sensorForm);
setInputValue("[name='gpio']", data.gpio < 255 ? data.gpio : "", {}, sensorForm);
setInputValue("[name='address']", data.address, {}, sensorForm);
setInputValue("[name='offset']", data.offset, {}, sensorForm);
setInputValue("[name='factor']", data.factor, {}, sensorForm);
setCheckboxValue("[name='filtering']", data.filtering, sensorForm);
setInputValue("[name='filteringFactor']", data.filteringFactor, {}, sensorForm);
sensorForm.querySelector("[name='type']").dispatchEvent(new Event("change"));
setBusy(".form-busy", "form", false, sensorNode);
};
sensorForm.action = sensorForm.action.replace("{id}", sensorId);
sensorForm.querySelector("[name='type']").addEventListener("change", async (event) => {
const gpio = sensorForm.querySelector("[name='gpio']");
const address = sensorForm.querySelector("[name='address']");
const parentGpio = gpio.parentElement;
const parentAddress = address.parentElement;
switch(parseInt(event.target.value)) {
// heating setpoint, manual
case 253:
case 254:
hide(".correction", sensorForm);
hide(".filtering", sensorForm);
break;
// other
default:
show(".correction", sensorForm);
show(".filtering", sensorForm);
}
switch(parseInt(event.target.value)) {
// ntc
case 50:
parentGpio.classList.remove("hidden");
parentAddress.classList.add("hidden");
address.removeAttribute("pattern");
break;
// dallas
case 51:
parentGpio.classList.remove("hidden");
parentAddress.classList.remove("hidden");
address.setAttribute("pattern", "([A-Fa-f0-9]{2}:){7}[A-Fa-f0-9]{2}");
break;
// ble
case 52:
parentGpio.classList.add("hidden");
parentAddress.classList.remove("hidden");
address.setAttribute("pattern", "([A-Fa-f0-9]{2}:){5}[A-Fa-f0-9]{2}");
break;
// other
default:
parentGpio.classList.add("hidden");
parentAddress.classList.add("hidden");
address.removeAttribute("pattern");
break;
}
});
sensorNode.addEventListener("click", async (event) => {
if (parseInt(sensorNode.dataset.preloaded)) {
return;
}
try {
const response = await fetch(sensorForm.action, {
cache: "no-cache",
credentials: "include"
});
if (response.status != 200) {
return;
}
const result = await response.json();
fillData(result);
sensorNode.dataset.preloaded = 1;
} catch (error) {
console.log(error);
}
});
setupForm(`.sensor[data-id='${sensorId}'] form`, fillData, ['address']);
}
} catch (error) {
console.log(error);
}
});
</script>
</body>
</html>

444
src_data/pages/settings.html
View File

@@ -4,19 +4,20 @@
<meta charset="utf-8" />
<meta name="viewport" content="width=device-width, initial-scale=1" />
<title data-i18n>settings.title</title>
<link rel="stylesheet" href="/static/app.css" />
<link rel="stylesheet" href="/static/app.css?{BUILD_TIME}" />
</head>
<body>
<header class="container">
<nav>
<ul>
<li><a href="/">
<li>
<a href="/">
<div class="logo" data-i18n>logo</div>
</a></li>
</a>
</li>
</ul>
<ul>
<!--<li><a href="https://github.com/Laxilef/OTGateway/wiki" role="button" class="secondary" target="_blank">Help</a></li>-->
<li>
<select id="lang" aria-label="Lang">
<option value="en" selected>EN</option>
@@ -94,26 +95,41 @@
<fieldset>
<legend data-i18n>settings.section.diag</legend>
<label for="system-debug">
<input type="checkbox" id="system-debug" name="system[debug]" value="true">
<span data-i18n>settings.system.debug</span>
</label>
<label for="system-serial-enable">
<input type="checkbox" id="system-serial-enable" name="system[serial][enable]" value="true">
<input type="checkbox" id="system-serial-enable" name="system[serial][enabled]" value="true">
<span data-i18n>settings.system.serial.enable</span>
</label>
<label for="system-telnet-enable">
<input type="checkbox" id="system-telnet-enable" name="system[telnet][enable]" value="true">
<input type="checkbox" id="system-telnet-enable" name="system[telnet][enabled]" value="true">
<span data-i18n>settings.system.telnet.enable</span>
</label>
<label for="system-log-level">
<span data-i18n>settings.system.logLevel</span>
<select id="system-log-level" name="system[logLevel]">
<option value="0">SILENT</option>
<option value="1">FATAL</option>
<option value="2">ERROR</option>
<option value="3">WARNING</option>
<option value="4">INFO</option>
<option value="5">NOTICE</option>
<option value="6">TRACE</option>
<option value="7">VERBOSE</option>
</select>
</label>
<div class="grid">
<label for="system-serial-baudrate">
<span data-i18n>settings.system.serial.baud.title</span>
<input type="number" inputmode="numeric" id="system-serial-baudrate" name="system[serial][baudrate]" min="9600" max="115200" step="1" required>
<small data-i18n>settings.system.serial.baud.note</small>
<span data-i18n>settings.system.serial.baud</span>
<select id="system-serial-baudrate" name="system[serial][baudrate]" required>
<option value="9600">9600</option>
<option value="19200">19200</option>
<option value="38400">38400</option>
<option value="57600">57600</option>
<option value="74880">74880</option>
<option value="115200">115200</option>
</select>
</label>
<label for="system-telnet-port">
@@ -157,9 +173,9 @@
<input type="number" inputmode="numeric" id="heating-hysteresis" name="heating[hysteresis]" min="0" max="5" step="0.05" required>
</label>
<label for="heating-max-modulation">
<span data-i18n>settings.heating.maxMod</span>
<input type="number" inputmode="numeric" id="heating-max-modulation" name="heating[maxModulation]" min="1" max="100" step="1" required>
<label for="heating-turbo-factor">
<span data-i18n>settings.heating.turboFactor</span>
<input type="number" inputmode="numeric" id="heating-turbo-factor" name="heating[turboFactor]" min="1.5" max="10" step="0.1" required>
</label>
</div>
@@ -200,11 +216,6 @@
<div id="emergency-settings-busy" aria-busy="true"></div>
<form action="/api/settings" id="emergency-settings" class="hidden">
<fieldset>
<label for="emergency-enable">
<input type="checkbox" id="emergency-enable" name="emergency[enable]" value="true">
<span data-i18n>settings.enable</span>
</label>
<small data-i18n>settings.emergency.desc</small>
</fieldset>
@@ -221,43 +232,6 @@
</label>
</div>
<fieldset>
<legend data-i18n>settings.section.emergency.events</legend>
<label for="emergency-on-network-fault">
<input type="checkbox" id="emergency-on-network-fault" name="emergency[onNetworkFault]" value="true">
<span data-i18n>settings.emergency.events.network</span>
</label>
<label for="emergency-on-mqtt-fault">
<input type="checkbox" id="emergency-on-mqtt-fault" name="emergency[onMqttFault]" value="true">
<span data-i18n>settings.emergency.events.mqtt</span>
</label>
<label for="emergency-on-indoor-sensor-disconnect">
<input type="checkbox" id="emergency-on-indoor-sensor-disconnect" name="emergency[onIndoorSensorDisconnect]" value="true">
<span data-i18n>settings.emergency.events.indoorSensorDisconnect</span>
</label>
<label for="emergency-on-outdoor-sensor-disconnect">
<input type="checkbox" id="emergency-on-outdoor-sensor-disconnect" name="emergency[onOutdoorSensorDisconnect]" value="true">
<span data-i18n>settings.emergency.events.outdoorSensorDisconnect</span>
</label>
</fieldset>
<fieldset>
<legend data-i18n>settings.section.emergency.regulators</legend>
<label for="emergency-use-equitherm">
<input type="checkbox" id="emergency-use-equitherm" name="emergency[useEquitherm]" value="true">
<span data-i18n>settings.emergency.regulators.equitherm</span>
</label>
<label for="emergency-use-pid">
<input type="checkbox" id="emergency-use-pid" name="emergency[usePid]" value="true">
<span data-i18n>settings.emergency.regulators.pid</span>
</label>
</fieldset>
<button type="submit" data-i18n>button.save</button>
</form>
</div>
@@ -272,7 +246,7 @@
<form action="/api/settings" id="equitherm-settings" class="hidden">
<fieldset>
<label for="equitherm-enable">
<input type="checkbox" id="equitherm-enable" name="equitherm[enable]" value="true">
<input type="checkbox" id="equitherm-enable" name="equitherm[enabled]" value="true">
<span data-i18n>settings.enable</span>
</label>
</fieldset>
@@ -309,7 +283,7 @@
<form action="/api/settings" id="pid-settings" class="hidden">
<fieldset>
<label for="pid-enable">
<input type="checkbox" id="pid-enable" name="pid[enable]" value="true">
<input type="checkbox" id="pid-enable" name="pid[enabled]" value="true">
<span data-i18n>settings.enable</span>
</label>
</fieldset>
@@ -317,7 +291,7 @@
<div class="grid">
<label for="pid-p-factor">
<span data-i18n>settings.pid.p</span>
<input type="number" inputmode="numeric" id="pid-p-factor" name="pid[p_factor]" min="0.1" max="1000" step="0.1" required>
<input type="number" inputmode="numeric" id="pid-p-factor" name="pid[p_factor]" min="0.1" max="1000" step="0.01" required>
</label>
<label for="pid-i-factor">
@@ -327,13 +301,13 @@
<label for="pid-d-factor">
<span data-i18n>settings.pid.d</span>
<input type="number" inputmode="numeric" id="pid-d-factor" name="pid[d_factor]" min="0" max="100000" step="1" required>
<input type="number" inputmode="numeric" id="pid-d-factor" name="pid[d_factor]" min="0" max="100000" step="0.1" required>
</label>
</div>
<label for="pid-dt">
<span data-i18n>settings.pid.dt</span>
<input type="number" inputmode="numeric" id="pid-dt" name="pid[dt]" min="30" max="600" step="1" required>
<input type="number" inputmode="numeric" id="pid-dt" name="pid[dt]" min="30" max="1800" step="1" required>
</label>
<hr />
@@ -350,6 +324,8 @@
</label>
</div>
<small data-i18n>settings.pid.noteMinMaxTemp</small>
<button type="submit" data-i18n>button.save</button>
</form>
</div>
@@ -386,23 +362,48 @@
<span data-i18n>settings.ot.outGpio</span>
<input type="number" inputmode="numeric" id="opentherm-out-gpio" name="opentherm[outGpio]" min="0" max="254" step="1">
</label>
</div>
<div class="grid">
<label for="opentherm-rx-led-gpio">
<span data-i18n>settings.ot.ledGpio</span>
<input type="number" inputmode="numeric" id="opentherm-rx-led-gpio" name="opentherm[rxLedGpio]" min="0" max="254" step="1">
<small data-i18n>settings.note.blankNotUse</small>
</label>
</div>
<div class="grid">
<label for="opentherm-member-id-code">
<span data-i18n>settings.ot.memberIdCode</span>
<input type="number" inputmode="numeric" id="opentherm-member-id-code" name="opentherm[memberIdCode]" min="0" max="65535" step="1" required>
<span data-i18n>settings.ot.memberId</span>
<input type="number" inputmode="numeric" id="opentherm-member-id" name="opentherm[memberId]" min="0" max="255" step="1" required>
</label>
<label for="opentherm-flags">
<span data-i18n>settings.ot.flags</span>
<input type="number" inputmode="numeric" id="opentherm-flags" name="opentherm[flags]" min="0" max="255" step="1" required>
</label>
<label for="opentherm-max-modulation">
<span data-i18n>settings.ot.maxMod</span>
<input type="number" inputmode="numeric" id="opentherm-max-modulation" name="opentherm[maxModulation]" min="1" max="100" step="1" required>
</label>
</div>
<div class="grid">
<label for="opentherm-min-power">
<span data-i18n>settings.ot.minPower.title</span>
<input type="number" inputmode="numeric" id="opentherm-min-power" name="opentherm[minPower]" min="0" max="1000" step="0.1">
<small data-i18n>settings.ot.minPower.note</small>
</label>
<label for="opentherm-max-power">
<span data-i18n>settings.ot.maxPower.title</span>
<input type="number" inputmode="numeric" id="opentherm-max-power" name="opentherm[maxPower]" min="0" max="1000" step="0.1">
<small data-i18n>settings.ot.maxPower.note</small>
</label>
</div>
<fieldset>
<legend data-i18n>settings.section.ot.options</legend>
<legend data-i18n>settings.ot.options.desc</legend>
<label for="opentherm-dhw-present">
<input type="checkbox" id="opentherm-dhw-present" name="opentherm[dhwPresent]" value="true">
<span data-i18n>settings.ot.options.dhwPresent</span>
@@ -443,19 +444,10 @@
<span data-i18n>settings.ot.options.getMinMaxTemp</span>
</label>
<hr />
<fieldset>
<label for="opentherm-fault-state-gpio">
<span data-i18n>settings.ot.faultState.gpio</span>
<input type="number" inputmode="numeric" id="opentherm-fault-state-gpio" name="opentherm[faultStateGpio]" min="0" max="254" step="1">
<small data-i18n>settings.ot.faultState.note</small>
</label>
<label for="opentherm-invert-fault-state">
<input type="checkbox" id="opentherm-invert-fault-state" name="opentherm[invertFaultState]" value="true">
<span data-i18n>settings.ot.faultState.invert</span>
</label>
</fieldset>
<label for="opentherm-immergas-fix">
<input type="checkbox" id="opentherm-immergas-fix" name="opentherm[immergasFix]" value="true">
<span data-i18n>settings.ot.options.immergasFix</span>
</label>
<hr />
<label for="opentherm-native-heating-control">
@@ -479,7 +471,7 @@
<form action="/api/settings" id="mqtt-settings" class="hidden">
<fieldset>
<label for="mqtt-enable">
<input type="checkbox" id="mqtt-enable" name="mqtt[enable]" value="true">
<input type="checkbox" id="mqtt-enable" name="mqtt[enabled]" value="true">
<span data-i18n>settings.enable</span>
</label>
@@ -532,109 +524,6 @@
<hr />
<details>
<summary><b data-i18n>settings.section.outdorSensor</b></summary>
<div>
<div id="outdoor-sensor-settings-busy" aria-busy="true"></div>
<form action="/api/settings" id="outdoor-sensor-settings" class="hidden">
<fieldset>
<legend data-i18n>settings.tempSensor.source.type</legend>
<label>
<input type="radio" class="outdoor-sensor-type" name="sensors[outdoor][type]" value="0" />
<span data-i18n>settings.tempSensor.source.boiler</span>
</label>
<label>
<input type="radio" class="outdoor-sensor-type" name="sensors[outdoor][type]" value="1" />
<span data-i18n>settings.tempSensor.source.manual</span>
</label>
<label>
<input type="radio" class="outdoor-sensor-type" name="sensors[outdoor][type]" value="2" />
<span data-i18n>settings.tempSensor.source.ext</span>
</label>
<label>
<input type="radio" class="outdoor-sensor-type" name="sensors[outdoor][type]" value="3" />
<span data-i18n>settings.tempSensor.source.ble</span>
</label>
</fieldset>
<label for="outdoor-sensor-gpio">
<span data-i18n>settings.tempSensor.gpio</span>
<input type="number" inputmode="numeric" id="outdoor-sensor-gpio" name="sensors[outdoor][gpio]" min="0" max="254" step="1">
</label>
<div class="grid">
<label for="outdoor-sensor-offset">
<span data-i18n>settings.tempSensor.offset</span>
<input type="number" inputmode="numeric" id="outdoor-sensor-offset" name="sensors[outdoor][offset]" min="-10" max="10" step="0.01" required>
</label>
<label for="outdoor-sensor-ble-addresss">
<span data-i18n>settings.tempSensor.bleAddress.title</span>
<input type="text" id="outdoor-sensor-ble-addresss" name="sensors[outdoor][bleAddress]" pattern="([A-Fa-f0-9]{2}:){5}[A-Fa-f0-9]{2}">
<small data-i18n>settings.tempSensor.bleAddress.note</small>
</label>
</div>
<button type="submit" data-i18n>button.save</button>
</form>
</div>
</details>
<hr />
<details>
<summary><b data-i18n>settings.section.indoorSensor</b></summary>
<div>
<div id="indoor-sensor-settings-busy" aria-busy="true"></div>
<form action="/api/settings" id="indoor-sensor-settings" class="hidden">
<fieldset>
<legend data-i18n>settings.tempSensor.source.type</legend>
<label>
<input type="radio" class="indoor-sensor-type" name="sensors[indoor][type]" value="1" />
<span data-i18n>settings.tempSensor.source.manual</span>
</label>
<label>
<input type="radio" class="indoor-sensor-type" name="sensors[indoor][type]" value="2" />
<span data-i18n>settings.tempSensor.source.ext</span>
</label>
<label>
<input type="radio" class="indoor-sensor-type" name="sensors[indoor][type]" value="3" />
<span data-i18n>settings.tempSensor.source.ble</span>
</label>
</fieldset>
<label for="indoor-sensor-gpio">
<span data-i18n>settings.tempSensor.gpio</span>
<input type="number" inputmode="numeric" id="indoor-sensor-gpio" name="sensors[indoor][gpio]" min="0" max="254" step="1">
</label>
<div class="grid">
<label for="indoor-sensor-offset">
<span data-i18n>settings.tempSensor.offset</span>
<input type="number" inputmode="numeric" id="indoor-sensor-offset" name="sensors[indoor][offset]" min="-10" max="10" step="0.01" required>
</label>
<label for="indoor-sensor-ble-addresss">
<span data-i18n>settings.tempSensor.bleAddress.title</span>
<input type="text" id="indoor-sensor-ble-addresss" name="sensors[indoor][bleAddress]" pattern="([A-Fa-f0-9]{2}:){5}[A-Fa-f0-9]{2}">
<small data-i18n>settings.tempSensor.bleAddress.note</small>
</label>
</div>
<button type="submit" data-i18n>button.save</button>
</form>
</div>
</details>
<hr />
<details>
<summary><b data-i18n>settings.section.extPump</b></summary>
<div>
@@ -675,6 +564,91 @@
</form>
</div>
</details>
<hr />
<details>
<summary><b data-i18n>settings.section.cascadeControl</b></summary>
<div>
<div id="cc-settings-busy" aria-busy="true"></div>
<form action="/api/settings" id="cc-settings" class="hidden">
<fieldset>
<label for="cc-input-enable">
<input type="checkbox" id="cc-input-enable" name="cascadeControl[input][enabled]" value="true">
<span data-i18n>settings.cascadeControl.input.enable</span>
<br />
<small data-i18n>settings.cascadeControl.input.desc</small>
</label>
<label for="cc-input-invert-state">
<input type="checkbox" id="cc-input-invert-state" name="cascadeControl[input][invertState]" value="true">
<span data-i18n>settings.cascadeControl.input.invertState</span>
</label>
</fieldset>
<div class="grid">
<label for="cc-input-gpio">
<span data-i18n>settings.cascadeControl.input.gpio</span>
<input type="number" inputmode="numeric" id="cc-input-gpio" name="cascadeControl[input][gpio]" min="0" max="254" step="1">
</label>
<label for="cc-input-tt">
<span data-i18n>settings.cascadeControl.input.thresholdTime</span>
<input type="number" inputmode="numeric" id="cc-input-tt" name="cascadeControl[input][thresholdTime]" min="5" max="600" step="1" required>
</label>
</div>
<hr />
<fieldset>
<label for="cc-output-enable">
<input type="checkbox" id="cc-output-enable" name="cascadeControl[output][enabled]" value="true">
<span data-i18n>settings.cascadeControl.output.enable</span>
<br />
<small data-i18n>settings.cascadeControl.output.desc</small>
</label>
<label for="cc-output-invert-state">
<input type="checkbox" id="cc-output-invert-state" name="cascadeControl[output][invertState]" value="true">
<span data-i18n>settings.cascadeControl.output.invertState</span>
</label>
</fieldset>
<div class="grid">
<label for="cc-output-gpio">
<span data-i18n>settings.cascadeControl.output.gpio</span>
<input type="number" outputmode="numeric" id="cc-output-gpio" name="cascadeControl[output][gpio]" min="0" max="254" step="1">
</label>
<label for="cc-output-tt">
<span data-i18n>settings.cascadeControl.output.thresholdTime</span>
<input type="number" outputmode="numeric" id="cc-output-tt" name="cascadeControl[output][thresholdTime]" min="5" max="600" step="1" required>
</label>
</div>
<fieldset>
<legend data-i18n>settings.cascadeControl.output.events.desc</legend>
<label for="cc-on-fault">
<input type="checkbox" id="cc-on-fault" name="cascadeControl[output][onFault]" value="true">
<span data-i18n>settings.cascadeControl.output.events.onFault</span>
</label>
<label for="cc-on-loss-conn">
<input type="checkbox" id="cc-on-loss-conn" name="cascadeControl[output][onLossConnection]" value="true">
<span data-i18n>settings.cascadeControl.output.events.onLossConnection</span>
</label>
<label for="cc-on-enabled-heating">
<input type="checkbox" id="cc-on-enabled-heating" name="cascadeControl[output][onEnabledHeating]" value="true">
<span data-i18n>settings.cascadeControl.output.events.onEnabledHeating</span>
</label>
</fieldset>
<button type="submit" data-i18n>button.save</button>
</form>
</div>
</details>
</article>
</main>
@@ -689,19 +663,18 @@
</small>
</footer>
<script src="/static/app.js"></script>
<script src="/static/app.js?{BUILD_TIME}"></script>
<script>
document.addEventListener('DOMContentLoaded', async () => {
const lang = new Lang(document.getElementById('lang'));
lang.build();
const fillData = (data) => {
// System
setCheckboxValue('#system-debug', data.system.debug);
setCheckboxValue('#system-serial-enable', data.system.serial.enable);
setInputValue('#system-serial-baudrate', data.system.serial.baudrate);
setCheckboxValue('#system-telnet-enable', data.system.telnet.enable);
setSelectValue('#system-log-level', data.system.logLevel);
setCheckboxValue('#system-serial-enable', data.system.serial.enabled);
setSelectValue('#system-serial-baudrate', data.system.serial.baudrate);
setCheckboxValue('#system-telnet-enable', data.system.telnet.enabled);
setInputValue('#system-telnet-port', data.system.telnet.port);
setRadioValue('.system-unit-system', data.system.unitSystem);
setInputValue('#system-status-led-gpio', data.system.statusLedGpio < 255 ? data.system.statusLedGpio : '');
@@ -718,9 +691,11 @@
setInputValue('#opentherm-in-gpio', data.opentherm.inGpio < 255 ? data.opentherm.inGpio : '');
setInputValue('#opentherm-out-gpio', data.opentherm.outGpio < 255 ? data.opentherm.outGpio : '');
setInputValue('#opentherm-rx-led-gpio', data.opentherm.rxLedGpio < 255 ? data.opentherm.rxLedGpio : '');
setInputValue('#opentherm-fault-state-gpio', data.opentherm.faultStateGpio < 255 ? data.opentherm.faultStateGpio : '');
setCheckboxValue('#opentherm-invert-fault-state', data.opentherm.invertFaultState);
setInputValue('#opentherm-member-id-code', data.opentherm.memberIdCode);
setInputValue('#opentherm-member-id', data.opentherm.memberId);
setInputValue('#opentherm-flags', data.opentherm.flags);
setInputValue('#opentherm-max-modulation', data.opentherm.maxModulation);
setInputValue('#opentherm-min-power', data.opentherm.minPower);
setInputValue('#opentherm-max-power', data.opentherm.maxPower);
setCheckboxValue('#opentherm-dhw-present', data.opentherm.dhwPresent);
setCheckboxValue('#opentherm-sw-mode', data.opentherm.summerWinterMode);
setCheckboxValue('#opentherm-heating-ch2-enabled', data.opentherm.heatingCh2Enabled);
@@ -730,10 +705,11 @@
setCheckboxValue('#opentherm-sync-modulation-with-heating', data.opentherm.modulationSyncWithHeating);
setCheckboxValue('#opentherm-get-min-max-temp', data.opentherm.getMinMaxTemp);
setCheckboxValue('#opentherm-native-heating-control', data.opentherm.nativeHeatingControl);
setCheckboxValue('#opentherm-immergas-fix', data.opentherm.immergasFix);
setBusy('#opentherm-settings-busy', '#opentherm-settings', false);
// MQTT
setCheckboxValue('#mqtt-enable', data.mqtt.enable);
setCheckboxValue('#mqtt-enable', data.mqtt.enabled);
setCheckboxValue('#mqtt-ha-discovery', data.mqtt.homeAssistantDiscovery);
setInputValue('#mqtt-server', data.mqtt.server);
setInputValue('#mqtt-port', data.mqtt.port);
@@ -743,20 +719,6 @@
setInputValue('#mqtt-interval', data.mqtt.interval);
setBusy('#mqtt-settings-busy', '#mqtt-settings', false);
// Outdoor sensor
setRadioValue('.outdoor-sensor-type', data.sensors.outdoor.type);
setInputValue('#outdoor-sensor-gpio', data.sensors.outdoor.gpio < 255 ? data.sensors.outdoor.gpio : '');
setInputValue('#outdoor-sensor-offset', data.sensors.outdoor.offset);
setInputValue('#outdoor-sensor-ble-addresss', data.sensors.outdoor.bleAddress);
setBusy('#outdoor-sensor-settings-busy', '#outdoor-sensor-settings', false);
// Indoor sensor
setRadioValue('.indoor-sensor-type', data.sensors.indoor.type);
setInputValue('#indoor-sensor-gpio', data.sensors.indoor.gpio < 255 ? data.sensors.indoor.gpio : '');
setInputValue('#indoor-sensor-offset', data.sensors.indoor.offset);
setInputValue('#indoor-sensor-ble-addresss', data.sensors.indoor.bleAddress);
setBusy('#indoor-sensor-settings-busy', '#indoor-sensor-settings', false);
// Extpump
setCheckboxValue('#extpump-use', data.externalPump.use);
setInputValue('#extpump-gpio', data.externalPump.gpio < 255 ? data.externalPump.gpio : '');
@@ -765,6 +727,21 @@
setInputValue('#extpump-as-time', data.externalPump.antiStuckTime);
setBusy('#extpump-settings-busy', '#extpump-settings', false);
// Cascade control
setCheckboxValue('#cc-input-enable', data.cascadeControl.input.enabled);
setInputValue('#cc-input-gpio', data.cascadeControl.input.gpio < 255 ? data.cascadeControl.input.gpio : '');
setCheckboxValue('#cc-input-invert-state', data.cascadeControl.input.invertState);
setInputValue('#cc-input-tt', data.cascadeControl.input.thresholdTime);
setCheckboxValue('#cc-output-enable', data.cascadeControl.output.enabled);
setInputValue('#cc-output-gpio', data.cascadeControl.output.gpio < 255 ? data.cascadeControl.output.gpio : '');
setCheckboxValue('#cc-output-invert-state', data.cascadeControl.output.invertState);
setInputValue('#cc-output-tt', data.cascadeControl.output.thresholdTime);
setCheckboxValue('#cc-on-fault', data.cascadeControl.output.onFault);
setCheckboxValue('#cc-on-loss-conn', data.cascadeControl.output.onLossConnection);
setCheckboxValue('#cc-on-enabled-heating', data.cascadeControl.output.onEnabledHeating);
setBusy('#cc-settings-busy', '#cc-settings', false);
// Heating
setInputValue('#heating-min-temp', data.heating.minTemp, {
"min": data.system.unitSystem == 0 ? 0 : 32,
@@ -775,7 +752,7 @@
"max": data.system.unitSystem == 0 ? 100 : 212
});
setInputValue('#heating-hysteresis', data.heating.hysteresis);
setInputValue('#heating-max-modulation', data.heating.maxModulation);
setInputValue('#heating-turbo-factor', data.heating.turboFactor);
setBusy('#heating-settings-busy', '#heating-settings', false);
// DHW
@@ -790,46 +767,52 @@
setBusy('#dhw-settings-busy', '#dhw-settings', false);
// Emergency mode
setCheckboxValue('#emergency-enable', data.emergency.enable);
setInputValue('#emergency-treshold-time', data.emergency.tresholdTime);
setCheckboxValue('#emergency-use-equitherm', data.emergency.useEquitherm);
setCheckboxValue('#emergency-use-pid', data.emergency.usePid);
setCheckboxValue('#emergency-on-network-fault', data.emergency.onNetworkFault);
setCheckboxValue('#emergency-on-mqtt-fault', data.emergency.onMqttFault);
setCheckboxValue('#emergency-on-indoor-sensor-disconnect', data.emergency.onIndoorSensorDisconnect);
setCheckboxValue('#emergency-on-outdoor-sensor-disconnect', data.emergency.onOutdoorSensorDisconnect);
setInputValue('#emergency-target', data.emergency.target, {
"min": (!data.emergency.useEquitherm && !data.emergency.usePid) ? data.heating.minTemp : 10,
"max": (!data.emergency.useEquitherm && !data.emergency.usePid) ? data.heating.maxTemp : 30,
});
if (data.opentherm.nativeHeatingControl) {
setInputValue('#emergency-target', data.emergency.target, {
"min": data.system.unitSystem == 0 ? 5 : 41,
"max": data.system.unitSystem == 0 ? 30 : 86
});
} else {
setInputValue('#emergency-target', data.emergency.target, {
"min": data.heating.minTemp,
"max": data.heating.maxTemp,
});
}
setBusy('#emergency-settings-busy', '#emergency-settings', false);
// Equitherm
setCheckboxValue('#equitherm-enable', data.equitherm.enable);
setCheckboxValue('#equitherm-enable', data.equitherm.enabled);
setInputValue('#equitherm-n-factor', data.equitherm.n_factor);
setInputValue('#equitherm-k-factor', data.equitherm.k_factor);
setInputValue('#equitherm-t-factor', data.equitherm.t_factor);
setBusy('#equitherm-settings-busy', '#equitherm-settings', false);
// PID
setCheckboxValue('#pid-enable', data.pid.enable);
setCheckboxValue('#pid-enable', data.pid.enabled);
setInputValue('#pid-p-factor', data.pid.p_factor);
setInputValue('#pid-i-factor', data.pid.i_factor);
setInputValue('#pid-d-factor', data.pid.d_factor);
setInputValue('#pid-dt', data.pid.dt);
setInputValue('#pid-min-temp', data.pid.minTemp, {
"min": 0,
"max": data.system.unitSystem == 0 ? 99 : 211
"min": data.equitherm.enabled ? (data.system.unitSystem == 0 ? -100 : -146) : (data.system.unitSystem == 0 ? 0 : 32),
"max": (data.system.unitSystem == 0 ? 99 : 211)
});
setInputValue('#pid-max-temp', data.pid.maxTemp, {
"min": 1,
"max": data.system.unitSystem == 0 ? 100 : 212
"min": (data.system.unitSystem == 0 ? 0 : 33),
"max": (data.system.unitSystem == 0 ? 100 : 212)
});
setBusy('#pid-settings-busy', '#pid-settings', false);
};
try {
const response = await fetch('/api/settings', { cache: 'no-cache' });
const response = await fetch("/api/settings", {
cache: "no-cache",
credentials: "include"
});
if (!response.ok) {
throw new Error('Response not valid');
}
@@ -846,9 +829,8 @@
setupForm('#pid-settings', fillData);
setupForm('#opentherm-settings', fillData);
setupForm('#mqtt-settings', fillData, ['mqtt.user', 'mqtt.password', 'mqtt.prefix']);
setupForm('#outdoor-sensor-settings', fillData);
setupForm('#indoor-sensor-settings', fillData, ['sensors.indoor.bleAddress']);
setupForm('#extpump-settings', fillData);
setupForm('#cc-settings', fillData);
} catch (error) {
console.log(error);

11
src_data/pages/upgrade.html
View File

@@ -4,19 +4,20 @@
<meta charset="utf-8" />
<meta name="viewport" content="width=device-width, initial-scale=1" />
<title data-i18n>upgrade.title</title>
<link rel="stylesheet" href="/static/app.css">
<link rel="stylesheet" href="/static/app.css?{BUILD_TIME}">
</head>
<body>
<header class="container">
<nav>
<ul>
<li><a href="/">
<li>
<a href="/">
<div class="logo" data-i18n>logo</div>
</a></li>
</a>
</li>
</ul>
<ul>
<!--<li><a href="https://github.com/Laxilef/OTGateway/wiki" role="button" class="secondary" target="_blank">Help</a></li>-->
<li>
<select id="lang" aria-label="Lang">
<option value="en" selected>EN</option>
@@ -97,7 +98,7 @@
</small>
</footer>
<script src="/static/app.js"></script>
<script src="/static/app.js?{BUILD_TIME}"></script>
<script>
document.addEventListener('DOMContentLoaded', async () => {
const lang = new Lang(document.getElementById('lang'));

4
src_data/scripts/lang.js
View File

@@ -32,7 +32,7 @@ class Lang {
}
if (!this.localeIsSupported(this.defaultLocale)) {
const selected = this.switcher.selectedIndex ?? 0;
const selected = this.switcher.selectedIndex ? this.switcher.selectedIndex : 0;
this.defaultLocale = this.switcher.options[selected].value;
}
@@ -63,7 +63,7 @@ class Lang {
}
async fetchTranslations(locale) {
const response = await fetch(`/static/locales/${locale}.json`);
const response = await fetch(`/static/locales/${locale}.json?{BUILD_TIME}`);
const data = await response.json();
if (data.values instanceof Object) {

313
src_data/scripts/utils.js
View File

@@ -1,4 +1,4 @@
function setupForm(formSelector, onResultCallback = null, noCastItems = []) {
const setupForm = (formSelector, onResultCallback = null, noCastItems = []) => {
const form = document.querySelector(formSelector);
if (!form) {
return;
@@ -10,13 +10,13 @@ function setupForm(formSelector, onResultCallback = null, noCastItems = []) {
})
});
const url = form.action;
let button = form.querySelector('button[type="submit"]');
let defaultText;
form.addEventListener('submit', async (event) => {
event.preventDefault();
const url = form.action;
let button = form.querySelector('button[type="submit"]');
let defaultText;
if (button) {
defaultText = button.textContent;
button.textContent = i18n("button.wait");
@@ -60,10 +60,11 @@ function setupForm(formSelector, onResultCallback = null, noCastItems = []) {
}
let response = await fetch(url, {
method: 'POST',
cache: 'no-cache',
method: "POST",
cache: "no-cache",
credentials: "include",
headers: {
'Content-Type': 'application/json'
"Content-Type": "application/json"
},
body: form2json(fd, noCastItems)
});
@@ -86,7 +87,7 @@ function setupForm(formSelector, onResultCallback = null, noCastItems = []) {
});
}
function setupNetworkScanForm(formSelector, tableSelector) {
const setupNetworkScanForm = (formSelector, tableSelector) => {
const form = document.querySelector(formSelector);
if (!form) {
console.error("form not found");
@@ -132,7 +133,7 @@ function setupNetworkScanForm(formSelector, tableSelector) {
let row = tbody.insertRow(-1);
row.classList.add("network");
row.setAttribute('data-ssid', result[i].hidden ? '' : result[i].ssid);
row.onclick = function () {
row.onclick = () => {
const input = document.querySelector('input#sta-ssid');
const ssid = this.getAttribute('data-ssid');
if (!input || !ssid) {
@@ -143,8 +144,8 @@ function setupNetworkScanForm(formSelector, tableSelector) {
input.focus();
};
row.insertCell().textContent = "#" + (i + 1);
row.insertCell().innerHTML = result[i].hidden ? ("<i>" + result[i].bssid + "</i>") : result[i].ssid;
row.insertCell().textContent = `#${i + 1}`;
row.insertCell().innerHTML = result[i].hidden ? `<i>${result[i].bssid}</i>` : result[i].ssid;
// info cell
let infoCell = row.insertCell();
@@ -164,7 +165,7 @@ function setupNetworkScanForm(formSelector, tableSelector) {
}
let signalQualityContainer = document.createElement("span");
signalQualityContainer.setAttribute('data-tooltip', result[i].signalQuality + "%");
signalQualityContainer.setAttribute('data-tooltip', `${result[i].signalQuality}%`);
signalQualityContainer.appendChild(signalQualityIcon);
infoCell.appendChild(signalQualityContainer);
@@ -218,7 +219,10 @@ function setupNetworkScanForm(formSelector, tableSelector) {
attempts--;
try {
let response = await fetch(url, { cache: 'no-cache' });
let response = await fetch(url, {
cache: "no-cache",
credentials: "include"
});
if (response.status == 200) {
await onSuccess(response);
@@ -246,7 +250,7 @@ function setupNetworkScanForm(formSelector, tableSelector) {
onSubmitFn();
}
function setupRestoreBackupForm(formSelector) {
const setupRestoreBackupForm = (formSelector) => {
const form = document.querySelector(formSelector);
if (!form) {
return;
@@ -266,7 +270,7 @@ function setupRestoreBackupForm(formSelector) {
button.setAttribute('aria-busy', true);
}
const onSuccess = (response) => {
const onSuccess = () => {
if (button) {
button.textContent = i18n('button.restored');
button.classList.add('success');
@@ -280,7 +284,7 @@ function setupRestoreBackupForm(formSelector) {
}
};
const onFailed = (response) => {
const onFailed = () => {
if (button) {
button.textContent = i18n('button.error');
button.classList.add('failed');
@@ -302,35 +306,82 @@ function setupRestoreBackupForm(formSelector) {
let reader = new FileReader();
reader.readAsText(files[0]);
reader.onload = async function () {
reader.onload = async (event) => {
try {
let response = await fetch(url, {
method: 'POST',
cache: 'no-cache',
headers: {
'Content-Type': 'application/json'
},
body: reader.result
});
const data = JSON.parse(event.target.result);
console.log("Backup: ", data);
if (response.ok) {
onSuccess(response);
if (data.settings != undefined) {
let response = await fetch(url, {
method: "POST",
cache: "no-cache",
credentials: "include",
headers: {
"Content-Type": "application/json"
},
body: JSON.stringify({"settings": data.settings})
});
} else {
onFailed(response);
if (!response.ok) {
onFailed();
return;
}
}
if (data.sensors != undefined) {
for (const sensorId in data.sensors) {
const payload = {
"sensors": {}
};
payload["sensors"][sensorId] = data.sensors[sensorId];
const response = await fetch(url, {
method: "POST",
cache: "no-cache",
credentials: "include",
headers: {
"Content-Type": "application/json"
},
body: JSON.stringify(payload)
});
if (!response.ok) {
onFailed();
return;
}
}
}
if (data.network != undefined) {
let response = await fetch(url, {
method: "POST",
cache: "no-cache",
credentials: "include",
headers: {
"Content-Type": "application/json"
},
body: JSON.stringify({"network": data.network})
});
if (!response.ok) {
onFailed();
return;
}
}
onSuccess();
} catch (err) {
onFailed(false);
onFailed();
}
};
reader.onerror = function () {
reader.onerror = () => {
console.log(reader.error);
};
});
}
function setupUpgradeForm(formSelector) {
const setupUpgradeForm = (formSelector) => {
const form = document.querySelector(formSelector);
if (!form) {
return;
@@ -383,7 +434,7 @@ function setupUpgradeForm(formSelector) {
resItem.classList.add('failed');
if (result.firmware.error != "") {
resItem.textContent += ": " + result.firmware.error;
resItem.textContent += `: ${result.firmware.error}`;
}
}
}
@@ -401,7 +452,7 @@ function setupUpgradeForm(formSelector) {
resItem.classList.add('failed');
if (result.filesystem.error != "") {
resItem.textContent += ": " + result.filesystem.error;
resItem.textContent += `: ${result.filesystem.error}`;
}
}
}
@@ -452,8 +503,9 @@ function setupUpgradeForm(formSelector) {
try {
let fd = new FormData(form);
let response = await fetch(url, {
method: 'POST',
cache: 'no-cache',
method: "POST",
cache: "no-cache",
credentials: "include",
body: fd
});
@@ -471,19 +523,23 @@ function setupUpgradeForm(formSelector) {
}
function setBusy(busySelector, contentSelector, value) {
const setBusy = (busySelector, contentSelector, value, parent = undefined) => {
if (!value) {
hide(busySelector);
show(contentSelector);
hide(busySelector, parent);
show(contentSelector, parent);
} else {
show(busySelector);
hide(contentSelector);
show(busySelector, parent);
hide(contentSelector, parent);
}
}
function setState(selector, value) {
let item = document.querySelector(selector);
const setAriaState = (selector, value, parent = undefined) => {
if (parent === undefined) {
parent = document;
}
let item = parent.querySelector(selector);
if (!item) {
return;
}
@@ -491,8 +547,44 @@ function setState(selector, value) {
item.setAttribute('aria-invalid', !value);
}
function setValue(selector, value) {
let items = document.querySelectorAll(selector);
const setStatus = (selector, state, color = undefined, parent = undefined) => {
if (parent === undefined) {
parent = document;
}
let item = parent.querySelector(selector);
if (!item) {
return;
}
item.classList.forEach(cName => {
if (cName.indexOf("icons-") === 0) {
item.classList.remove(cName);
}
});
item.classList.add(`icons-${state}`);
if (color !== undefined) {
item.classList.add(`icons-color-${color}`);
}
}
const setState = (selector, state, parent = undefined) => {
return setStatus(
selector,
state ? "success" : "error",
state ? "green" : "gray",
parent
);
}
const setValue = (selector, value, parent = undefined) => {
if (parent === undefined) {
parent = document;
}
let items = parent.querySelectorAll(selector);
if (!items.length) {
return;
}
@@ -502,8 +594,36 @@ function setValue(selector, value) {
}
}
function setCheckboxValue(selector, value) {
let item = document.querySelector(selector);
const appendValue = (selector, value, nl = null, parent = undefined) => {
if (parent === undefined) {
parent = document;
}
let items = parent.querySelectorAll(selector);
if (!items.length) {
return;
}
for (let item of items) {
if (item.innerHTML.trim().length > 0) {
if (nl !== null) {
item.innerHTML += nl;
}
item.innerHTML += value;
} else {
item.innerHTML = value;
}
}
}
const setCheckboxValue = (selector, value, parent = undefined) => {
if (parent === undefined) {
parent = document;
}
let item = parent.querySelector(selector);
if (!item) {
return;
}
@@ -511,8 +631,12 @@ function setCheckboxValue(selector, value) {
item.checked = value;
}
function setRadioValue(selector, value) {
let items = document.querySelectorAll(selector);
const setRadioValue = (selector, value, parent = undefined) => {
if (parent === undefined) {
parent = document;
}
let items = parent.querySelectorAll(selector);
if (!items.length) {
return;
}
@@ -522,8 +646,12 @@ function setRadioValue(selector, value) {
}
}
function setInputValue(selector, value, attrs = {}) {
let items = document.querySelectorAll(selector);
const setInputValue = (selector, value, attrs = {}, parent = undefined) => {
if (parent === undefined) {
parent = document;
}
let items = parent.querySelectorAll(selector);
if (!items.length) {
return;
}
@@ -539,8 +667,27 @@ function setInputValue(selector, value, attrs = {}) {
}
}
function show(selector) {
let items = document.querySelectorAll(selector);
const setSelectValue = (selector, value, parent = undefined) => {
if (parent === undefined) {
parent = document;
}
let item = parent.querySelector(selector);
if (!item) {
return;
}
for (let option of item.options) {
option.selected = option.value == value;
}
}
const show = (selector, parent = undefined) => {
if (parent === undefined) {
parent = document;
}
let items = parent.querySelectorAll(selector);
if (!items.length) {
return;
}
@@ -552,8 +699,12 @@ function show(selector) {
}
}
function hide(selector) {
let items = document.querySelectorAll(selector);
const hide = (selector, parent = undefined) => {
if (parent === undefined) {
parent = document;
}
let items = parent.querySelectorAll(selector);
if (!items.length) {
return;
}
@@ -571,34 +722,57 @@ function unit2str(unitSystem, units = {}, defaultValue = '?') {
: defaultValue;
}
function temperatureUnit(unitSystem) {
const temperatureUnit = (unitSystem) => {
return unit2str(unitSystem, {
0: "°C",
1: "°F"
});
}
function pressureUnit(unitSystem) {
const pressureUnit = (unitSystem) => {
return unit2str(unitSystem, {
0: "bar",
1: "psi"
});
}
function volumeUnit(unitSystem) {
const volumeUnit = (unitSystem) => {
return unit2str(unitSystem, {
0: "L",
1: "gal"
});
}
function memberIdToVendor(memberId) {
const purposeUnit = (purpose, unitSystem) => {
const tUnit = temperatureUnit(unitSystem);
return unit2str(purpose, {
0: tUnit,
1: tUnit,
2: tUnit,
3: tUnit,
4: tUnit,
5: tUnit,
6: `${volumeUnit(unitSystem)}/${i18n('time.min')}`,
7: tUnit,
8: "%",
248: "%",
249: i18n('kw'),
250: "RPM",
251: "ppm",
252: pressureUnit(unitSystem),
253: "%",
254: tUnit
}, null);
}
const memberIdToVendor = (memberId) => {
// https://github.com/Jeroen88/EasyOpenTherm/blob/main/src/EasyOpenTherm.h
// https://github.com/Evgen2/SmartTherm/blob/v0.7/src/Web.cpp
const vendorList = {
1: "Baxi Fourtech/Luna 3",
2: "AWB/Brink",
4: "ATAG/Brötje/ELCO/GEMINOX",
1: "Baxi",
2: "AWB/Brink/Viessmann",
4: "ATAG/Baxi/Brötje/ELCO/GEMINOX",
5: "Itho Daalderop",
6: "IDEAL",
8: "Buderus/Bosch/Hoval",
@@ -609,8 +783,8 @@ function memberIdToVendor(memberId) {
27: "Baxi",
29: "Itho Daalderop",
33: "Viessmann",
41: "Italtherm",
56: "Baxi Luna Duo-Tec",
41: "Italtherm/Radiant",
56: "Baxi",
131: "Nefit",
148: "Navien",
173: "Intergas",
@@ -665,4 +839,13 @@ function form2json(data, noCastItems = []) {
let object = Array.from(data).reduce(method, {});
return JSON.stringify(object);
}
function dec2hex(i) {
let hex = parseInt(i).toString(16);
if (hex.length % 2 != 0) {
hex = `0${hex}`;
}
return hex.toUpperCase();
}

23
src_data/styles/app.css
View File

@@ -59,7 +59,7 @@ footer {
/*nav li a:has(> div.logo) {
margin-bottom: 0;
}*/
nav li :where(a,[role=link]) {
nav li :where(a, [role=link]) {
margin: 0;
}
@@ -71,6 +71,11 @@ pre {
padding: 0.5rem;
}
:nth-last-child(1 of table tr:not(.hidden)) th,
:nth-last-child(1 of table tr:not(.hidden)) td {
border-bottom: 0 !important;
}
.hidden {
display: none !important;
@@ -200,4 +205,20 @@ tr.network:hover {
[data-tooltip]:has(> [class*=" icons-"], > [class=icons], > [class^=icons-]) {
border: 0 !important;
}
.icons-color-green {
color: var(--pico-form-element-valid-active-border-color);
}
.icons-color-yellow {
color: #c89048;
}
.icons-color-gray {
color: var(--pico-form-element-placeholder-color);
}
.icons-color-red {
color: var(--pico-form-element-invalid-active-border-color);
}

16
src_data/styles/iconly.css
View File

@@ -7,8 +7,8 @@
font-family: "Icons";
font-style: normal;
font-weight: 400;
src: url("/static/fonts/iconly.eot?1718563596894");
src: url("/static/fonts/iconly.eot?#iefix") format("embedded-opentype"), url("/static/fonts/iconly.woff2?1718563596894") format("woff2"), url("/static/fonts/iconly.woff?1718563596894") format("woff"), url("/static/fonts/iconly.ttf?1718563596894") format("truetype"), url("/static/fonts/iconly.svg?1718563596894#Icons") format("svg");
src: url("/static/fonts/iconly.eot?1732913937966");
src: url("/static/fonts/iconly.eot?#iefix") format("embedded-opentype"), url("/static/fonts/iconly.woff2?1732913937966") format("woff2"), url("/static/fonts/iconly.woff?1732913937966") format("woff"), url("/static/fonts/iconly.ttf?1732913937966") format("truetype"), url("/static/fonts/iconly.svg?1732913937966#Icons") format("svg");
}
[class="icons"], [class^="icons-"], [class*=" icons-"] {
@@ -51,6 +51,10 @@
content: "\e006";
}
.icons-error:before {
content: "\e007";
}
.icons-wifi-strength-3:before {
content: "\e008";
}
@@ -63,6 +67,14 @@
content: "\e00a";
}
.icons-success:before {
content: "\e00b";
}
.icons-up:before {
content: "\e00c";
}
.icons-alarm:before {
content: "\e00d";
}

7
tools/build.py
View File

@@ -6,10 +6,11 @@ Import("env")
def post_build(source, target, env):
copy_to_build_dir({
source[0].get_abspath(): "firmware_%s_%s.bin" % (env["PIOENV"], env.GetProjectOption("version")),
env.subst("$BUILD_DIR/${PROGNAME}.factory.bin"): "firmware_%s_%s.factory.bin" % (env["PIOENV"], env.GetProjectOption("version")),
source[0].get_abspath(): "firmware_%s_%s.bin" % (env["PIOENV"], env.GetProjectOption("version")),
env.subst("$BUILD_DIR/${PROGNAME}.factory.bin"): "firmware_%s_%s.factory.bin" % (env["PIOENV"], env.GetProjectOption("version")),
env.subst("$BUILD_DIR/${PROGNAME}.elf"): "firmware_%s_%s.elf" % (env["PIOENV"], env.GetProjectOption("version"))
}, os.path.join(env["PROJECT_DIR"], "build"));
env.Execute("pio run --target buildfs --environment %s" % env["PIOENV"]);