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117 Commits
v0.0.91 ... v2.2.14

Author SHA1 Message Date
Gunnar Skjold
39e86fa180 Show only half the labels on small screens 2023-04-21 18:55:15 +02:00
Gunnar Skjold
5d278a9d5a Splitting loop into smaller methods 2023-04-19 15:12:49 +02:00
Gunnar Skjold
61040e3e7c Crossing fingers 2023-04-18 22:06:29 +02:00
Gunnar Skjold
c4005f10a3 Some debugging changes and other optimizations 2023-04-18 11:50:44 +02:00
Gunnar Skjold
7bed5add5d Fix 2023-04-17 21:44:36 +02:00
Gunnar Skjold
18e382f21f Fix 2023-04-17 21:41:20 +02:00
Gunnar Skjold
94865b632e Some more optimization 2023-04-17 21:33:00 +02:00
Gunnar Skjold
f0461a7cdb Some adjustments 2023-04-17 11:49:22 +02:00
Gunnar Skjold
4cd6013d64 More improvements on buffer 2023-04-15 20:51:35 +02:00
Gunnar Skjold
b06dbb8d79 Buffer improvements and fixed special characters in ssid 2023-04-15 20:38:26 +02:00
Gunnar Skjold
02fe2073c2 Better error handling for price api 2023-04-15 09:30:19 +02:00
Gunnar Skjold
ec7ceafa84 General optimizations 2023-04-15 09:14:25 +02:00
Gunnar Skjold
276ac67d2e Only clear HA config if illegal characters are loaded from flash 2023-04-15 07:47:48 +02:00
Gunnar Skjold
be116d5b35 Improved firmware upgrade 2023-04-15 07:44:33 +02:00
Gunnar Skjold
9c8788225d Clear HA or domoticz config if not in use 2023-04-15 06:06:26 +02:00
Gunnar Skjold
df44b05792 Clear HA conf by default 2023-04-13 10:20:15 +02:00
Gunnar Skjold
8ee8eee6c4 Fixed laout error on realtime data 2023-04-10 14:14:20 +02:00
Gunnar Skjold
28e13b73e6 Fixed missing HA sensors 2023-04-10 14:08:41 +02:00
Gunnar Skjold
088e5645c7 Increased RX serial buff 2023-04-07 09:00:53 +02:00
Gunnar Skjold
3e3d61912d Serial debugging 2023-04-07 08:39:36 +02:00
Gunnar Skjold
b7854baa6d Some HAN serial port debugging 2023-04-07 08:36:42 +02:00
Gunnar Skjold
68bbfd6527 Load data before restoring from config file 2023-04-05 07:54:59 +02:00
Gunnar Skjold
c1ca3d0c65 Fixed month number in clock 2023-04-03 07:07:44 +02:00
Gunnar Skjold
71cac46470 Config restore loads username into password field 2023-04-03 07:06:18 +02:00
Gunnar Skjold
700f023292 Possibility to specify fixed energy price 2023-04-01 10:57:21 +02:00
Gunnar Skjold
ea43b2b632 Some changes after testing new HA features 2023-04-01 10:43:55 +02:00
Gunnar Skjold
c456e3fdf1 Fixed config loading for ha 2023-04-01 08:20:41 +02:00
Gunnar Skjold
4947f0ec7f Clear HA config in next config version 2023-04-01 08:02:12 +02:00
Gunnar Skjold
799c2f19d9 Changes after uahn merge 2023-04-01 08:00:15 +02:00
Gunnar Skjold
18dc188835 Merge pull request #481 from dbeinder/mosquito 
Add HAN pullup config and mosquito board
 2023-04-01 07:43:34 +02:00
Gunnar Skjold
7db745829e Merge branch 'master' into mosquito 2023-04-01 07:43:24 +02:00
Gunnar Skjold
81fedaaa6a Moved from postfix to prefix on HA sensor name tag 2023-04-01 07:38:24 +02:00
Gunnar Skjold
71e0f13f0e Various changes after testing new HA features 2023-04-01 07:31:40 +02:00
Gunnar Skjold
f214af3595 Added price API rate limit error 2023-03-31 13:57:38 +02:00
Gunnar Skjold
fb9ae2f5f6 Updated boot reason descriptions 2023-03-31 13:52:22 +02:00
Gunnar Skjold
4c73f39214 Fixed state class on sensors 2023-03-31 13:49:02 +02:00
Gunnar Skjold
1e7176af0b HA configuration 2023-03-30 14:54:10 +02:00
Gunnar Skjold
0d8c88b1fc Fixed DST 25hr day error on month plot 2023-03-30 12:25:07 +02:00
Gunnar Skjold
d189d904fe Fixed edge case where graph data sometimes goes crazy 2023-03-30 11:55:39 +02:00
Gunnar Skjold
3c86e824a2 Added boot time to status page 2023-03-30 09:44:41 +02:00
Gunnar Skjold
061f6433d6 Added another proprietary L&G 2023-03-30 09:00:12 +02:00
Gunnar Skjold
0d923e30d6 Added another proprietary L&G 2023-03-30 08:59:56 +02:00
Gunnar Skjold
51f761d25e Fixed incorrect change of HA current hour/day/month kwh state class 2023-03-29 08:53:13 +02:00
Gunnar Skjold
58fec70e7c Added detection for Kaifa through system title 2023-03-27 09:20:16 +02:00
Gunnar Skjold
dff55b4eee Remove copy/paste l2current substitution from DSMR parser 2023-03-27 08:46:41 +02:00
Gunnar Skjold
931f0d400b Only publish prices once when fetching today and tomorrow at the same time 2023-03-26 15:24:55 +02:00
Gunnar Skjold
0178dc4184 Various fixes for HA 2023-03-26 15:12:24 +02:00
Gunnar Skjold
be522b40f9 Fixed swapped voltage ranges, esp32 vs esp8266 2023-03-26 10:52:01 +02:00
Gunnar Skjold
068c55e7bb Fixed disabling encryption 2023-03-26 10:49:00 +02:00
Gunnar Skjold
8e88d7e11b Show boot reason on status page 2023-03-26 10:40:02 +02:00
Gunnar Skjold
e36acef1d4 Fixed DST offset in day graph 2023-03-26 10:14:10 +02:00
Gunnar Skjold
07d5481a72 Actual fix for DST change 2023-03-26 10:06:37 +02:00
Gunnar Skjold
dbd6205cca Fixed issue with price graph in relation to entering or leaving DST 2023-03-25 19:14:21 +01:00
david-beinder
35d47902c6 Add HAN pullup config and mosquito board 2023-03-18 23:39:55 +01:00
Gunnar Skjold
938f9f69d1 Fixed memory leak in baud autodetect 2023-03-11 10:17:44 +01:00
Gunnar Skjold
cd27472e2d Fixed checkbox tick and changed backup/restore label 2023-03-11 09:19:09 +01:00
Gunnar Skjold
64f8414217 Fixed precision on domoticz energy counter 2023-03-11 08:53:51 +01:00
Gunnar Skjold
a2c1250724 Some updates for esp32c3 2023-02-27 09:00:07 +01:00
Gunnar Skjold
4b7160b502 Only report realtime data on MQTT if EnergyAccounting is initialized 2023-02-27 08:30:56 +01:00
Gunnar Skjold
cc50457404 Fixed spikes in realtime production on top of hour 2023-02-27 08:04:29 +01:00
Gunnar Skjold
cd48192a74 Removed classic UI 2023-02-22 18:09:16 +01:00
Gunnar Skjold
cd031c33aa Added forced 2400 baud for Pow-K 2023-02-22 07:12:54 +01:00
Gunnar Skjold
6c59b15681 Added esp32c3 release build 2023-02-22 07:07:51 +01:00
Gunnar Skjold
7c8593122b Removed forced baud rate 2023-02-22 07:07:31 +01:00
Gunnar Skjold
6d8fd4e083 Merge pull request #460 from dbeinder/c3-generic-boards 
Add generic boards for ESP32-C3
 2023-02-22 06:56:09 +01:00
david-beinder
79d674710f Add generic boards for ESP32-C3 2023-02-21 23:25:14 +01:00
Gunnar Skjold
062068eacd Increased range of tariff thresholds 2023-02-21 15:29:10 +01:00
Gunnar Skjold
98309ea532 Allow extended ascii in ssid 2023-02-21 13:55:38 +01:00
Gunnar Skjold
0f75fa4a58 Fixed redirect issue after initial setup with DHCP on ESP8266 2023-02-21 13:40:55 +01:00
Gunnar Skjold
d08f75d9c3 Fixed error changing from static ip to dhcp 2023-02-21 12:44:43 +01:00
Gunnar Skjold
dd4a43c831 Better feedback from entso-e 2023-02-21 07:54:11 +01:00
Gunnar Skjold
1f5a04e606 Increased range for instant values 2023-02-14 20:23:23 +01:00
Gunnar Skjold
4d6e63a171 Fixed GPIO HAN select for ESP8266 2023-02-12 20:48:38 +01:00
Gunnar Skjold
0093410e05 Removed kicad backup 2023-02-10 18:57:50 +01:00
Gunnar Skjold
ee63a606e8 Fixed voltage read issue 2023-02-10 18:55:55 +01:00
Gunnar Skjold
d0ccd2d007 Minor ui adjustment 2023-02-10 17:28:19 +01:00
Gunnar Skjold
bb2f74d1ca Various UI improvements 2023-02-06 18:20:48 +01:00
Gunnar Skjold
dfef18fa09 Updated Entsoe endpoint 2023-02-06 11:32:53 +01:00
Gunnar Skjold
485c21dc69 Removed unnecessary build flag 2023-02-06 10:59:40 +01:00
Gunnar Skjold
9ceb84bc9c C3 build 2023-02-06 07:46:34 +01:00
Gunnar Skjold
24e68428c4 Commited gui dist files 2023-02-05 19:26:48 +01:00
Gunnar Skjold
c2c5855e6a Fixed issue where authentication key got corrupted from configfile upload 2023-02-02 16:15:03 +01:00
Gunnar Skjold
de19de2129 Fixed incorrect change in previous commit 2023-02-01 19:00:50 +01:00
Gunnar Skjold
1719263de0 Fixed config migration issue from v2.1 2023-02-01 18:46:22 +01:00
Gunnar Skjold
e70b872c98 Removed v2.0 config loading 2023-02-01 18:46:06 +01:00
Gunnar Skjold
b7d28238ab Extended cache for js and css 2023-01-31 17:16:18 +01:00
Gunnar Skjold
6c9a8b0692 Label fix 2023-01-31 17:04:46 +01:00
Gunnar Skjold
9f3dba3aab Fixed reconnect after setup 2023-01-30 20:58:08 +01:00
Gunnar Skjold
e4e4ad4107 Fixed autodetect 2023-01-30 18:32:17 +01:00
Gunnar Skjold
e8fb9570bb Chasing a reboot bug... 2023-01-30 16:52:12 +01:00
Gunnar Skjold
bc42099962 Fixing some bug reports 2023-01-30 16:07:08 +01:00
Gunnar Skjold
be71cbe609 Some changes after bug reports 2023-01-30 12:02:23 +01:00
Gunnar Skjold
0d6df03c94 Fixed reboot loop, changed temperature sensor behaviour and changed some debugging 2023-01-29 22:45:35 +01:00
Gunnar Skjold
d777040c0a Fixed loading error from previous version energy accounting 2023-01-29 17:04:04 +01:00
Gunnar Skjold
a5636a60f8 Some changes after testing 2023-01-28 20:24:18 +01:00
Gunnar Skjold
6f817b2ed5 Some changes after testing 2023-01-28 20:19:06 +01:00
Gunnar Skjold
e4fec4f4c2 Some final changes 2023-01-28 11:53:26 +01:00
Gunnar Skjold
3a25964ec4 Merge pull request #412 from UtilitechAS/dev-v2.2 
v2.2
 2023-01-28 10:54:20 +01:00
Gunnar Skjold
1227dff412 Changed autocomplete in setup form 2023-01-26 19:55:39 +01:00
Gunnar Skjold
26ee2e6efc Some changes after testing + changing hostname for hub 2023-01-26 19:42:19 +01:00
Gunnar Skjold
d6a8d31278 Some updates for documentation 2023-01-23 18:19:33 +01:00
Gunnar Skjold
3f2b534baa Merge branch 'master' into dev-v2.2 2023-01-23 13:59:38 +01:00
Gunnar Skjold
70f413013c Merge pull request #408 from aadnehovda/patch-1 
Unknown HA entity units.
 2023-01-23 13:57:33 +01:00
Ådne Hovda
6edcd174bb Unknown HA entity units. 
It appears that HA units are case sensitive: https://developers.home-assistant.io/docs/core/entity/sensor/, so for SensorDeviceClass.REACTIVE_POWER it should be "var", not "VAr". Also for SensorDeviceClass.TEMPERATURE, the degree symbol is required: "°C".

    Entity sensor.ams_ed6e_qo (<class 'homeassistant.components.mqtt.sensor.MqttSensor'>) is using native unit of measurement 'VAr' which is not a valid unit for the device class ('reactive_power') it is using; Please update your configuration if your entity is manually configured, otherwise create a bug report at https://github.com/home-assistant/core/issues?q=is%3Aopen+is%3Aissue+label%3A%22integration%3A+mqtt%22
    Entity sensor.ams_ed6e_q (<class 'homeassistant.components.mqtt.sensor.MqttSensor'>) is using native unit of measurement 'VAr' which is not a valid unit for the device class ('reactive_power') it is using; Please update your configuration if your entity is manually configured, otherwise create a bug report at https://github.com/home-assistant/core/issues?q=is%3Aopen+is%3Aissue+label%3A%22integration%3A+mqtt%22
    Entity sensor.ams_ed6e_tqo (<class 'homeassistant.components.mqtt.sensor.MqttSensor'>) is using native unit of measurement 'kVArh' which is not a valid unit for the device class ('energy') it is using; Please update your configuration if your entity is manually configured, otherwise create a bug report at https://github.com/home-assistant/core/issues?q=is%3Aopen+is%3Aissue+label%3A%22integration%3A+mqtt%22
    Entity sensor.ams_ed6e_tqi (<class 'homeassistant.components.mqtt.sensor.MqttSensor'>) is using native unit of measurement 'kVArh' which is not a valid unit for the device class ('energy') it is using; Please update your configuration if your entity is manually configured, otherwise create a bug report at https://github.com/home-assistant/core/issues?q=is%3Aopen+is%3Aissue+label%3A%22integration%3A+mqtt%22
 2023-01-23 11:09:47 +01:00
Gunnar Skjold
3170ef6ce9 c3 scripts 2023-01-21 13:45:47 +01:00
Gunnar Skjold
fb56f4d012 More changes for repo 2023-01-21 13:45:09 +01:00
Gunnar Skjold
c5756f0cba Renamed repo 2023-01-21 13:43:11 +01:00
Gunnar Skjold
95c9ecc8b2 Merge branch 'master' into dev-v2.2 2023-01-18 21:14:49 +01:00
Gunnar Skjold
bdee066c33 Fixed reboot loop 2023-01-18 21:14:40 +01:00
Gunnar Skjold
957039d0c0 Merge branch 'master' into dev-v2.2 2023-01-18 20:48:38 +01:00
Gunnar Skjold
dd23a0fa60 Fixed reboot look 2023-01-18 20:48:27 +01:00
Gunnar Skjold
7777a0a059 Merge branch 'master' into dev-v2.2 2023-01-18 17:11:10 +01:00
Gunnar Skjold
e8fc6d48bf Fixed issue where GPIO setup becomes invalid 2023-01-18 17:11:01 +01:00
Gunnar Skjold
c98148c886 Update readme 2023-01-17 19:56:28 +01:00
Gunnar Skjold
6ba2b4060e Update images for readme and wiki 2023-01-17 19:55:00 +01:00
Gunnar Skjold
762c17ca8e Updated readme and example ini file 2023-01-17 19:48:24 +01:00
Gunnar Skjold
4b15ac74fc Update FUNDING.yml 2023-01-17 18:05:44 +01:00
150 changed files with 4879 additions and 8353 deletions
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2
.github/FUNDING.yml vendored
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@@ -1 +1 @@
custom: ["https://paypal.me/gskjold"] custom: ["https://amsleser.no"]

4
.github/ISSUE_TEMPLATE/config.yml vendored
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@@ -1,8 +1,8 @@
blank_issues_enabled: false blank_issues_enabled: false
contact_links: contact_links:
- name: Meter configuration - name: Meter configuration
url: https://github.com/gskjold/AmsToMqttBridge/wiki/Known-hardware-configurations url: https://github.com/UtilitechAS/amsreader-firmware/wiki/Known-hardware-configurations
about: Please check your meter configuration here first. about: Please check your meter configuration here first.
- name: Frequently asked questions - name: Frequently asked questions
url: https://github.com/gskjold/AmsToMqttBridge/wiki/FAQ url: https://github.com/UtilitechAS/amsreader-firmware/wiki/FAQ
about: Please check frequently asked questions first. about: Please check frequently asked questions first.

23
.github/workflows/release.yml vendored
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@@ -166,3 +166,26 @@ jobs:
asset_path: esp32solo.zip asset_path: esp32solo.zip
asset_name: ams2mqtt-esp32solo-${{ steps.release_tag.outputs.tag }}.zip asset_name: ams2mqtt-esp32solo-${{ steps.release_tag.outputs.tag }}.zip
asset_content_type: application/zip asset_content_type: application/zip
- name: Build esp32c3 firmware
run: pio run -e esp32c3
- name: Create esp32c3 zip file
run: /bin/sh scripts/esp32c3/mkzip.sh
- name: Upload esp32c3 binary to release
uses: actions/upload-release-asset@v1
env:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
with:
upload_url: ${{ steps.create_release.outputs.upload_url }}
asset_path: .pio/build/esp32c3/firmware.bin
asset_name: ams2mqtt-esp32c3-${{ steps.release_tag.outputs.tag }}.bin
asset_content_type: application/octet-stream
- name: Upload esp32c3 zip to release
uses: actions/upload-release-asset@v1
env:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
with:
upload_url: ${{ steps.create_release.outputs.upload_url }}
asset_path: esp32c3.zip
asset_name: ams2mqtt-esp32c3-${{ steps.release_tag.outputs.tag }}.zip
asset_content_type: application/zip

8
README.md
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@@ -1,12 +1,12 @@
# AMS MQTT Bridge # AMS Reader
This code is designed to decode data from electric smart meters installed in many countries in Europe these days. The data is presented in a graphical web interface and can also send the data to a MQTT broker which makes it suitable for home automation project. Originally it was only designed to work with Norwegian meters, but has since been adapter to read any IEC-62056-7-5 or IEC-62056-21 compliant meters. This code is designed to decode data from electric smart meters installed in many countries in Europe these days. The data is presented in a graphical web interface and can also send the data to a MQTT broker which makes it suitable for home automation project. Originally it was only designed to work with Norwegian meters, but has since been adapter to read any IEC-62056-7-5 or IEC-62056-21 compliant meters.
Later development have added Energy usage graph for both day and month, as well as future energy price (Prices only available for ESP32). The code can run on any ESP8266 or ESP32 hardware which you can read more about in the [WiKi](https://github.com/gskjold/AmsToMqttBridge/wiki). If you don't have the knowledge to set up a ESP device yourself, have a look at the shop at [amsleser.no](https://amsleser.no/). Later development have added Energy usage graph for both day and month, as well as future energy price. The code can run on any ESP8266 or ESP32 hardware which you can read more about in the [WiKi](https://github.com/UtilitechAS/amsreader-firmware/wiki). If you don't have the knowledge to set up a ESP device yourself, have a look at the shop at [amsleser.no](https://amsleser.no/).
<img src="webui.png"> <img src="images/dashboard.png">
Go to the [WiKi](https://github.com/gskjold/AmsToMqttBridge/wiki) for information on how to get your own device! And find the latest prebuilt firmware file at the [release section](https://github.com/gskjold/AmsToMqttBridge/releases). Go to the [WiKi](https://github.com/UtilitechAS/amsreader-firmware/wiki) for information on how to get your own device! And find the latest prebuilt firmware file at the [release section](https://github.com/UtilitechAS/amsreader-firmware/releases).
## Building this project with PlatformIO ## Building this project with PlatformIO
To build this project, you need [PlatformIO](https://platformio.org/) installed. To build this project, you need [PlatformIO](https://platformio.org/) installed.

2
frames/austria.raw
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@@ -42,4 +42,4 @@ DB
09 06 01 00 47 07 00 FF 12 00 54 02 02 0F FE 16 21 09 06 01 00 47 07 00 FF 12 00 54 02 02 0F FE 16 21
09 06 01 00 0D 07 00 FF 10 03 CF 02 02 0F FD 16 FF // Power factor 09 06 01 00 0D 07 00 FF 10 03 CF 02 02 0F FD 16 FF // Power factor
09 0C 31 37 38 32 31 30 30 31 35 31 36 35 // Meter ID 09 0C 31 37 38 32 31 30 30 31 35 31 36 35 // Meter ID
01 67 01 67

33
frames/lng2.raw Normal file
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@@ -0,0 +1,33 @@
7E
A0 76 CE FF 03 13 3C 02 E6 E7 00
DB
08 4C 47 5A 67 72 A9 A1 11
5E 30 00 21 80 F7 FE B8 07 C6
72 B1 90 AE AC 15 D0 AD 95 7B AC 13 7E 67 D8 A2
F0 43 51 3C 63 B6 A1 89 10 AE 9A 7E 55 4A 12 49
B9 6D EB A5 7B 57 03 69 9A BF 16 5E AD 2A 54 41
65 5E 79 C6 95 71 92 46 A2 3F 5B 63 0D 53 96 7D
42 52 1F A3 80 1C 00 E8 E3
A4 B3 9B 86 CB E5 2D 2C CA B0 E2 B7
AE 4D
7E
0f00057e41 // UI Frame header
0c07e60c0c010c232dff800000 // Date & time
020e // Structure with 14 items
1200ec // U1 = 236 V
1200ec // U2 = 236 V
1200ec // U3 = 236 V
120000 // I1 = 0.00 A
12002e // I2 = 0.46 A
12001a // I3 = 0.26 A
060000007d // Active import = 125 W
0600000000 // Active export = 0 W
0601a96ebd // Accumulated import = 27881.149 kWh
0600001dc3 // Accumulated export = 7.619 kWh
120190 // 400 ?
120003 // 3 ?
120120 // 288 ?
09083330313337313831 // Meter ID = 30137181

2
hardware/README.md
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@@ -1 +1 @@
[See Hardware page in Wiki](https://github.com/gskjold/AmsToMqttBridge/wiki) [See Hardware page in Wiki](https://github.com/UtilitechAS/amsreader-firmware/wiki)

BIN
hardware/v1/kicad/HAN_ESP_TSS721-backups/HAN_ESP_TSS721-2022-06-25_174436.zip Normal file
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BIN
hardware/v1/kicad/HAN_ESP_TSS721-backups/HAN_ESP_TSS721-2022-06-25_190751.zip Normal file
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76
hardware/v1/kicad/HAN_ESP_TSS721.kicad_prl Normal file
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{
"board": {
"active_layer": 0,
"active_layer_preset": "",
"auto_track_width": true,
"hidden_nets": [],
"high_contrast_mode": 0,
"net_color_mode": 1,
"opacity": {
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"tracks": 1.0,
"vias": 1.0,
"zones": 0.6
},
"ratsnest_display_mode": 0,
"selection_filter": {
"dimensions": true,
"footprints": true,
"graphics": true,
"keepouts": true,
"lockedItems": true,
"otherItems": true,
"pads": true,
"text": true,
"tracks": true,
"vias": true,
"zones": true
},
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"visible_layers": "fffffff_ffffffff",
"zone_display_mode": 0
},
"meta": {
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"version": 3
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"project": {
"files": []
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440
hardware/v1/kicad/HAN_ESP_TSS721.kicad_pro Normal file
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@@ -0,0 +1,440 @@
{
"board": {
"design_settings": {
"defaults": {
"board_outline_line_width": 0.15,
"copper_line_width": 0.19999999999999998,
"copper_text_italic": false,
"copper_text_size_h": 1.5,
"copper_text_size_v": 1.5,
"copper_text_thickness": 0.3,
"copper_text_upright": false,
"courtyard_line_width": 0.049999999999999996,
"dimension_precision": 4,
"dimension_units": 3,
"dimensions": {
"arrow_length": 1270000,
"extension_offset": 500000,
"keep_text_aligned": true,
"suppress_zeroes": false,
"text_position": 0,
"units_format": 1
},
"fab_line_width": 0.09999999999999999,
"fab_text_italic": false,
"fab_text_size_h": 1.0,
"fab_text_size_v": 1.0,
"fab_text_thickness": 0.15,
"fab_text_upright": false,
"other_line_width": 0.09999999999999999,
"other_text_italic": false,
"other_text_size_h": 1.0,
"other_text_size_v": 1.0,
"other_text_thickness": 0.15,
"other_text_upright": false,
"pads": {
"drill": 0.762,
"height": 1.524,
"width": 1.524
},
"silk_line_width": 0.15,
"silk_text_italic": false,
"silk_text_size_h": 1.0,
"silk_text_size_v": 1.0,
"silk_text_thickness": 0.15,
"silk_text_upright": false,
"zones": {
"45_degree_only": true,
"min_clearance": 0.508
}
},
"diff_pair_dimensions": [],
"drc_exclusions": [],
"meta": {
"filename": "board_design_settings.json",
"version": 2
},
"rule_severities": {
"annular_width": "error",
"clearance": "error",
"copper_edge_clearance": "error",
"courtyards_overlap": "error",
"diff_pair_gap_out_of_range": "error",
"diff_pair_uncoupled_length_too_long": "error",
"drill_out_of_range": "error",
"duplicate_footprints": "warning",
"extra_footprint": "warning",
"footprint_type_mismatch": "error",
"hole_clearance": "error",
"hole_near_hole": "error",
"invalid_outline": "error",
"item_on_disabled_layer": "error",
"items_not_allowed": "error",
"length_out_of_range": "error",
"malformed_courtyard": "error",
"microvia_drill_out_of_range": "error",
"missing_courtyard": "ignore",
"missing_footprint": "warning",
"net_conflict": "warning",
"npth_inside_courtyard": "ignore",
"padstack": "error",
"pth_inside_courtyard": "ignore",
"shorting_items": "error",
"silk_over_copper": "warning",
"silk_overlap": "warning",
"skew_out_of_range": "error",
"through_hole_pad_without_hole": "error",
"too_many_vias": "error",
"track_dangling": "warning",
"track_width": "error",
"tracks_crossing": "error",
"unconnected_items": "error",
"unresolved_variable": "error",
"via_dangling": "warning",
"zone_has_empty_net": "error",
"zones_intersect": "error"
},
"rules": {
"allow_blind_buried_vias": false,
"allow_microvias": false,
"max_error": 0.005,
"min_clearance": 0.0,
"min_copper_edge_clearance": 0.075,
"min_hole_clearance": 0.25,
"min_hole_to_hole": 0.25,
"min_microvia_diameter": 0.19999999999999998,
"min_microvia_drill": 0.09999999999999999,
"min_silk_clearance": 0.0,
"min_through_hole_diameter": 0.3,
"min_track_width": 0.19999999999999998,
"min_via_annular_width": 0.049999999999999996,
"min_via_diameter": 0.39999999999999997,
"use_height_for_length_calcs": true
},
"track_widths": [
0.0,
0.2,
0.4,
0.6,
1.0
],
"via_dimensions": [],
"zones_allow_external_fillets": false,
"zones_use_no_outline": true
},
"layer_presets": []
},
"boards": [],
"cvpcb": {
"equivalence_files": []
},
"erc": {
"erc_exclusions": [],
"meta": {
"version": 0
},
"pin_map": [
[
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"bus_entry_needed": "error",
"bus_label_syntax": "error",
"bus_to_bus_conflict": "error",
"bus_to_net_conflict": "error",
"different_unit_footprint": "error",
"different_unit_net": "error",
"duplicate_reference": "error",
"duplicate_sheet_names": "error",
"extra_units": "error",
"global_label_dangling": "warning",
"hier_label_mismatch": "error",
"label_dangling": "error",
"lib_symbol_issues": "warning",
"multiple_net_names": "warning",
"net_not_bus_member": "warning",
"no_connect_connected": "warning",
"no_connect_dangling": "warning",
"pin_not_connected": "error",
"pin_not_driven": "error",
"pin_to_pin": "warning",
"power_pin_not_driven": "error",
"similar_labels": "warning",
"unannotated": "error",
"unit_value_mismatch": "error",
"unresolved_variable": "error",
"wire_dangling": "error"
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"pinned_symbol_libs": []
},
"meta": {
"filename": "HAN_ESP_TSS721.kicad_pro",
"version": 1
},
"net_settings": {
"classes": [
{
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"clearance": 0.2,
"diff_pair_gap": 0.25,
"diff_pair_via_gap": 0.25,
"diff_pair_width": 0.2,
"line_style": 0,
"microvia_diameter": 0.3,
"microvia_drill": 0.1,
"name": "Default",
"pcb_color": "rgba(0, 0, 0, 0.000)",
"schematic_color": "rgba(0, 0, 0, 0.000)",
"track_width": 0.25,
"via_diameter": 0.6,
"via_drill": 0.4,
"wire_width": 6.0
},
{
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"diff_pair_via_gap": 0.25,
"diff_pair_width": 0.2,
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"microvia_diameter": 0.5,
"microvia_drill": 0.2,
"name": "PWR",
"nets": [
"+3V3"
],
"pcb_color": "rgba(0, 0, 0, 0.000)",
"schematic_color": "rgba(0, 0, 0, 0.000)",
"track_width": 0.5,
"via_diameter": 0.8,
"via_drill": 0.6,
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}
],
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"version": 2
},
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},
"pcbnew": {
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"idf": "",
"netlist": "",
"specctra_dsn": "",
"step": "",
"vrml": ""
},
"page_layout_descr_file": ""
},
"schematic": {
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"drawing": {
"default_line_thickness": 6.0,
"default_text_size": 50.0,
"field_names": [],
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"spice_adjust_passive_values": false,
"spice_external_command": "spice \"%I\"",
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}

1
hardware/v1/kicad/fp-info-cache Normal file
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@@ -0,0 +1 @@
0

3
hardware/wemos_mbus_shield/kicad/d1_mini_shield-rescue.dcm Normal file
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@@ -0,0 +1,3 @@
EESchema-DOCLIB Version 2.0
#
#End Doc Library

34
hardware/wemos_mbus_shield/kicad/d1_mini_shield-rescue.lib
View File

@@ -1,6 +1,21 @@
EESchema-LIBRARY Version 2.4 EESchema-LIBRARY Version 2.4
#encoding utf-8 #encoding utf-8
# #
# +3.3V-power
#
DEF +3.3V-power #PWR 0 0 Y Y 1 F P
F0 "#PWR" 0 -150 50 H I C CNN
F1 "+3.3V-power" 0 140 50 H V C CNN
F2 "" 0 0 50 H I C CNN
F3 "" 0 0 50 H I C CNN
DRAW
P 2 0 1 0 -30 50 0 100 N
P 2 0 1 0 0 0 0 100 N
P 2 0 1 0 0 100 30 50 N
X +3V3 1 0 0 0 U 50 50 1 1 W N
ENDDRAW
ENDDEF
#
# CONN_01X08 # CONN_01X08
# #
DEF CONN_01X08 P 0 40 Y N 1 F N DEF CONN_01X08 P 0 40 Y N 1 F N
@@ -35,4 +50,23 @@ X P8 8 -200 -350 150 R 50 50 1 1 P
ENDDRAW ENDDRAW
ENDDEF ENDDEF
# #
# Jumper-Device
#
DEF Jumper-Device JP 0 30 Y N 1 F N
F0 "JP" 0 150 50 H V C CNN
F1 "Jumper-Device" 0 -80 50 H V C CNN
F2 "" 0 0 50 H I C CNN
F3 "" 0 0 50 H I C CNN
$FPLIST
SolderJumper*
$ENDFPLIST
DRAW
C -100 0 35 0 1 0 N
A 0 -26 125 375 1422 0 1 0 N 99 50 -98 50
C 100 0 35 0 1 0 N
X 1 1 -300 0 165 R 50 50 0 1 P
X 2 2 300 0 165 L 50 50 0 1 P
ENDDRAW
ENDDEF
#
#End Library #End Library

75
hardware/wemos_mbus_shield/kicad/d1_mini_shield.kicad_prl Normal file
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@@ -0,0 +1,75 @@
{
"board": {
"active_layer": 0,
"active_layer_preset": "",
"auto_track_width": true,
"hidden_nets": [],
"high_contrast_mode": 0,
"net_color_mode": 1,
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"vias": 1.0,
"zones": 0.6
},
"ratsnest_display_mode": 0,
"selection_filter": {
"dimensions": true,
"footprints": true,
"graphics": true,
"keepouts": true,
"lockedItems": true,
"otherItems": true,
"pads": true,
"text": true,
"tracks": true,
"vias": true,
"zones": true
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},
"meta": {
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"version": 3
},
"project": {
"files": []
}
}

356
hardware/wemos_mbus_shield/kicad/d1_mini_shield.kicad_pro Normal file
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@@ -0,0 +1,356 @@
{
"board": {
"design_settings": {
"defaults": {
"board_outline_line_width": 0.15,
"copper_line_width": 0.2,
"copper_text_italic": false,
"copper_text_size_h": 1.5,
"copper_text_size_v": 1.5,
"copper_text_thickness": 0.3,
"copper_text_upright": true,
"courtyard_line_width": 0.05,
"other_line_width": 0.15,
"other_text_italic": false,
"other_text_size_h": 1.0,
"other_text_size_v": 1.0,
"other_text_thickness": 0.15,
"other_text_upright": true,
"silk_line_width": 0.15,
"silk_text_italic": false,
"silk_text_size_h": 1.0,
"silk_text_size_v": 1.0,
"silk_text_thickness": 0.15,
"silk_text_upright": true
},
"diff_pair_dimensions": [
{
"gap": 0.25,
"via_gap": 0.25,
"width": 0.2
}
],
"drc_exclusions": [],
"rule_severitieslegacy_courtyards_overlap": true,
"rule_severitieslegacy_no_courtyard_defined": false,
"rules": {
"allow_blind_buried_vias": false,
"allow_microvias": false,
"min_hole_to_hole": 0.25,
"min_microvia_diameter": 0.2,
"min_microvia_drill": 0.09999999999999999,
"min_through_hole_diameter": 0.3,
"min_track_width": 0.2,
"min_via_diameter": 0.4,
"solder_mask_clearance": 0.2,
"solder_mask_min_width": 0.0,
"solder_paste_clearance": 0.0,
"solder_paste_margin_ratio": -0.0
},
"track_widths": [
0.25,
0.5
],
"via_dimensions": [
{
"diameter": 0.6,
"drill": 0.4
}
]
},
"layer_presets": []
},
"boards": [],
"cvpcb": {
"equivalence_files": []
},
"erc": {
"erc_exclusions": [],
"meta": {
"version": 0
},
"pin_map": [
[
0,
0,
0,
0,
0,
0,
1,
0,
0,
0,
0,
2
],
[
0,
2,
0,
1,
0,
0,
1,
0,
2,
2,
2,
2
],
[
0,
0,
0,
0,
0,
0,
1,
0,
1,
0,
1,
2
],
[
0,
1,
0,
0,
0,
0,
1,
1,
2,
1,
1,
2
],
[
0,
0,
0,
0,
0,
0,
1,
0,
0,
0,
0,
2
],
[
0,
0,
0,
0,
0,
0,
0,
0,
0,
0,
0,
2
],
[
1,
1,
1,
1,
1,
0,
1,
1,
1,
1,
1,
2
],
[
0,
0,
0,
1,
0,
0,
1,
0,
0,
0,
0,
2
],
[
0,
2,
1,
2,
0,
0,
1,
0,
2,
2,
2,
2
],
[
0,
2,
0,
1,
0,
0,
1,
0,
2,
0,
0,
2
],
[
0,
2,
1,
1,
0,
0,
1,
0,
2,
0,
0,
2
],
[
2,
2,
2,
2,
2,
2,
2,
2,
2,
2,
2,
2
]
],
"rule_severities": {
"bus_definition_conflict": "error",
"bus_entry_needed": "error",
"bus_label_syntax": "error",
"bus_to_bus_conflict": "error",
"bus_to_net_conflict": "error",
"different_unit_footprint": "error",
"different_unit_net": "error",
"duplicate_reference": "error",
"duplicate_sheet_names": "error",
"extra_units": "error",
"global_label_dangling": "warning",
"hier_label_mismatch": "error",
"label_dangling": "error",
"lib_symbol_issues": "warning",
"multiple_net_names": "warning",
"net_not_bus_member": "warning",
"no_connect_connected": "warning",
"no_connect_dangling": "warning",
"pin_not_connected": "error",
"pin_not_driven": "error",
"pin_to_pin": "warning",
"power_pin_not_driven": "error",
"similar_labels": "warning",
"unannotated": "error",
"unit_value_mismatch": "error",
"unresolved_variable": "error",
"wire_dangling": "error"
}
},
"libraries": {
"pinned_footprint_libs": [],
"pinned_symbol_libs": []
},
"meta": {
"filename": "d1_mini_shield.kicad_pro",
"version": 1
},
"net_settings": {
"classes": [
{
"bus_width": 12.0,
"clearance": 0.2,
"diff_pair_gap": 0.25,
"diff_pair_via_gap": 0.25,
"diff_pair_width": 0.2,
"line_style": 0,
"microvia_diameter": 0.3,
"microvia_drill": 0.1,
"name": "Default",
"pcb_color": "rgba(0, 0, 0, 0.000)",
"schematic_color": "rgba(0, 0, 0, 0.000)",
"track_width": 0.25,
"via_diameter": 0.8,
"via_drill": 0.4,
"wire_width": 6.0
}
],
"meta": {
"version": 2
},
"net_colors": null
},
"pcbnew": {
"last_paths": {
"gencad": "",
"idf": "",
"netlist": "d1_mini_shield.net",
"specctra_dsn": "",
"step": "",
"vrml": ""
},
"page_layout_descr_file": ""
},
"schematic": {
"annotate_start_num": 0,
"drawing": {
"default_line_thickness": 6.0,
"default_text_size": 50.0,
"field_names": [],
"intersheets_ref_own_page": false,
"intersheets_ref_prefix": "",
"intersheets_ref_short": false,
"intersheets_ref_show": false,
"intersheets_ref_suffix": "",
"junction_size_choice": 3,
"label_size_ratio": 0.25,
"pin_symbol_size": 0.0,
"text_offset_ratio": 0.08
},
"legacy_lib_dir": "",
"legacy_lib_list": [],
"meta": {
"version": 1
},
"net_format_name": "Pcbnew",
"ngspice": {
"fix_include_paths": true,
"fix_passive_vals": false,
"meta": {
"version": 0
},
"model_mode": 0,
"workbook_filename": ""
},
"page_layout_descr_file": "",
"plot_directory": "",
"spice_adjust_passive_values": false,
"spice_external_command": "spice \"%I\"",
"subpart_first_id": 65,
"subpart_id_separator": 0
},
"sheets": [],
"text_variables": {}
}

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93
lib/AmsConfiguration/include/AmsConfiguration.h
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@@ -4,13 +4,14 @@
#include "Arduino.h" #include "Arduino.h"
#define EEPROM_SIZE 1024*3 #define EEPROM_SIZE 1024*3
#define EEPROM_CHECK_SUM 101 // Used to check if config is stored. Change if structure changes #define EEPROM_CHECK_SUM 103 // Used to check if config is stored. Change if structure changes
#define EEPROM_CLEARED_INDICATOR 0xFC #define EEPROM_CLEARED_INDICATOR 0xFC
#define EEPROM_CONFIG_ADDRESS 0 #define EEPROM_CONFIG_ADDRESS 0
#define EEPROM_TEMP_CONFIG_ADDRESS 2048 #define EEPROM_TEMP_CONFIG_ADDRESS 2048
#define CONFIG_SYSTEM_START 8 #define CONFIG_SYSTEM_START 8
#define CONFIG_METER_START 32 #define CONFIG_METER_START 32
#define CONFIG_UPGRADE_INFO_START 216
#define CONFIG_UI_START 248 #define CONFIG_UI_START 248
#define CONFIG_GPIO_START 266 #define CONFIG_GPIO_START 266
#define CONFIG_ENTSOE_START 290 #define CONFIG_ENTSOE_START 290
@@ -21,11 +22,8 @@
#define CONFIG_DOMOTICZ_START 856 #define CONFIG_DOMOTICZ_START 856
#define CONFIG_NTP_START 872 #define CONFIG_NTP_START 872
#define CONFIG_MQTT_START 1004 #define CONFIG_MQTT_START 1004
#define CONFIG_HA_START 1680
#define CONFIG_MQTT_START_86 224
#define CONFIG_METER_START_87 784
#define CONFIG_ENTSOE_START_90 286
#define CONFIG_WIFI_START_91 16
#define CONFIG_METER_START_93 224 #define CONFIG_METER_START_93 224
@@ -34,20 +32,8 @@ struct SystemConfig {
bool vendorConfigured; bool vendorConfigured;
bool userConfigured; bool userConfigured;
uint8_t dataCollectionConsent; // 0 = unknown, 1 = accepted, 2 = declined uint8_t dataCollectionConsent; // 0 = unknown, 1 = accepted, 2 = declined
char country[2]; char country[3];
}; // 6 }; // 7
struct WiFiConfig91 {
char ssid[32];
char psk[64];
char ip[15];
char gateway[15];
char subnet[15];
char dns1[15];
char dns2[15];
char hostname[32];
bool mdns;
}; // 204
struct WiFiConfig { struct WiFiConfig {
char ssid[32]; char ssid[32];
@@ -65,18 +51,6 @@ struct WiFiConfig {
bool autoreboot; bool autoreboot;
}; // 213 }; // 213
struct MqttConfig86 {
char host[128];
uint16_t port;
char clientId[32];
char publishTopic[64];
char subscribeTopic[64];
char username[64];
char password[64];
uint8_t payloadFormat;
bool ssl;
}; // 420
struct MqttConfig { struct MqttConfig {
char host[128]; char host[128];
uint16_t port; uint16_t port;
@@ -110,7 +84,7 @@ struct MeterConfig {
uint32_t accumulatedMultiplier; uint32_t accumulatedMultiplier;
uint8_t source; uint8_t source;
uint8_t parser; uint8_t parser;
}; // 52 }; // 61
struct MeterConfig100 { struct MeterConfig100 {
uint32_t baud; uint32_t baud;
@@ -127,7 +101,7 @@ struct MeterConfig100 {
uint32_t accumulatedMultiplier; uint32_t accumulatedMultiplier;
uint8_t source; uint8_t source;
uint8_t parser; uint8_t parser;
}; // 50 }; // 59
struct MeterConfig95 { struct MeterConfig95 {
uint32_t baud; uint32_t baud;
@@ -146,16 +120,6 @@ struct MeterConfig95 {
uint8_t parser; uint8_t parser;
}; // 50 }; // 50
struct MeterConfig87 {
uint8_t type;
uint8_t distributionSystem;
uint8_t mainFuse;
uint8_t productionCapacity;
uint8_t encryptionKey[16];
uint8_t authenticationKey[16];
bool substituteMissing;
}; // 37
struct DebugConfig { struct DebugConfig {
bool telnet; bool telnet;
bool serial; bool serial;
@@ -179,7 +143,8 @@ struct GpioConfig {
uint8_t vccBootLimit; uint8_t vccBootLimit;
uint16_t vccResistorGnd; uint16_t vccResistorGnd;
uint16_t vccResistorVcc; uint16_t vccResistorVcc;
}; // 20 bool hanPinPullup;
}; // 21
struct DomoticzConfig { struct DomoticzConfig {
uint16_t elidx; uint16_t elidx;
@@ -189,6 +154,12 @@ struct DomoticzConfig {
uint16_t cl1idx; uint16_t cl1idx;
}; // 10 }; // 10
struct HomeAssistantConfig {
char discoveryPrefix[64];
char discoveryHostname[64];
char discoveryNameTag[16];
}; // 145
struct NtpConfig { struct NtpConfig {
bool enable; bool enable;
bool dhcp; bool dhcp;
@@ -210,9 +181,15 @@ struct EntsoeConfig {
char currency[4]; char currency[4];
uint32_t multiplier; uint32_t multiplier;
bool enabled; bool enabled;
}; // 62 uint16_t fixedPrice;
}; // 64
struct EnergyAccountingConfig { struct EnergyAccountingConfig {
uint16_t thresholds[10];
uint8_t hours;
}; // 21
struct EnergyAccountingConfig101 {
uint8_t thresholds[10]; uint8_t thresholds[10];
uint8_t hours; uint8_t hours;
}; // 11 }; // 11
@@ -237,6 +214,13 @@ struct TempSensorConfig {
bool common; bool common;
}; };
struct UpgradeInformation {
char fromVersion[8];
char toVersion[8];
int16_t exitCode;
int16_t errorCode;
}; // 20
class AmsConfiguration { class AmsConfiguration {
public: public:
bool hasConfig(); bool hasConfig();
@@ -268,6 +252,7 @@ public:
bool getMeterConfig(MeterConfig&); bool getMeterConfig(MeterConfig&);
bool setMeterConfig(MeterConfig&); bool setMeterConfig(MeterConfig&);
void clearMeter(MeterConfig&); void clearMeter(MeterConfig&);
void setMeterChanged();
bool isMeterChanged(); bool isMeterChanged();
void ackMeterChanged(); void ackMeterChanged();
@@ -286,8 +271,10 @@ public:
bool getDomoticzConfig(DomoticzConfig&); bool getDomoticzConfig(DomoticzConfig&);
bool setDomoticzConfig(DomoticzConfig&); bool setDomoticzConfig(DomoticzConfig&);
void clearDomo(DomoticzConfig&); void clearDomo(DomoticzConfig&);
bool isDomoChanged();
void ackDomoChange(); bool getHomeAssistantConfig(HomeAssistantConfig&);
bool setHomeAssistantConfig(HomeAssistantConfig&);
void clearHomeAssistantConfig(HomeAssistantConfig&);
bool getNtpConfig(NtpConfig&); bool getNtpConfig(NtpConfig&);
bool setNtpConfig(NtpConfig&); bool setNtpConfig(NtpConfig&);
@@ -319,6 +306,10 @@ public:
bool isSensorAddressEqual(uint8_t a[8], uint8_t b[8]); bool isSensorAddressEqual(uint8_t a[8], uint8_t b[8]);
bool getUpgradeInformation(UpgradeInformation&);
bool setUpgradeInformation(int16_t exitCode, int16_t errorCode, const char* currentVersion, const char* nextVersion);
void clearUpgradeInformation(UpgradeInformation&);
void clear(); void clear();
protected: protected:
@@ -326,22 +317,22 @@ protected:
private: private:
uint8_t configVersion = 0; uint8_t configVersion = 0;
bool wifiChanged, mqttChanged, meterChanged = true, domoChanged, ntpChanged = true, entsoeChanged = false, energyAccountingChanged = true; bool wifiChanged, mqttChanged, meterChanged = true, ntpChanged = true, entsoeChanged = false, energyAccountingChanged = true;
uint8_t tempSensorCount = 0; uint8_t tempSensorCount = 0;
TempSensorConfig** tempSensors = NULL; TempSensorConfig** tempSensors = NULL;
bool relocateConfig90(); // 2.0.0
bool relocateConfig91(); // 2.0.2
bool relocateConfig92(); // 2.0.3
bool relocateConfig93(); // 2.1.0 bool relocateConfig93(); // 2.1.0
bool relocateConfig94(); // 2.1.0 bool relocateConfig94(); // 2.1.0
bool relocateConfig95(); // 2.1.4 bool relocateConfig95(); // 2.1.4
bool relocateConfig96(); // 2.1.14 bool relocateConfig96(); // 2.1.14
bool relocateConfig100(); // 2.2-dev bool relocateConfig100(); // 2.2-dev
bool relocateConfig101(); // 2.2.0 through 2.2.8
bool relocateConfig102(); // 2.2.9 through 2.2.11
void saveToFs(); void saveToFs();
bool loadFromFs(uint8_t version); bool loadFromFs(uint8_t version);
void deleteFromFs(uint8_t version); void deleteFromFs(uint8_t version);
}; };
#endif #endif

1
lib/AmsConfiguration/include/hexutils.h
View File

@@ -7,5 +7,6 @@
String toHex(uint8_t* in); String toHex(uint8_t* in);
String toHex(uint8_t* in, uint16_t size); String toHex(uint8_t* in, uint16_t size);
void fromHex(uint8_t *out, String in, uint16_t size); void fromHex(uint8_t *out, String in, uint16_t size);
bool stripNonAscii(uint8_t* in, uint16_t size, bool extended = false);
#endif #endif

496
lib/AmsConfiguration/src/AmsConfiguration.cpp
View File

@@ -1,4 +1,5 @@
#include "AmsConfiguration.h" #include "AmsConfiguration.h"
#include "hexutils.h"
bool AmsConfiguration::getSystemConfig(SystemConfig& config) { bool AmsConfiguration::getSystemConfig(SystemConfig& config) {
EEPROM.begin(EEPROM_SIZE); EEPROM.begin(EEPROM_SIZE);
@@ -19,6 +20,7 @@ bool AmsConfiguration::getSystemConfig(SystemConfig& config) {
bool AmsConfiguration::setSystemConfig(SystemConfig& config) { bool AmsConfiguration::setSystemConfig(SystemConfig& config) {
EEPROM.begin(EEPROM_SIZE); EEPROM.begin(EEPROM_SIZE);
stripNonAscii((uint8_t*) config.country, 2);
EEPROM.put(CONFIG_SYSTEM_START, config); EEPROM.put(CONFIG_SYSTEM_START, config);
bool ret = EEPROM.commit(); bool ret = EEPROM.commit();
EEPROM.end(); EEPROM.end();
@@ -59,6 +61,16 @@ bool AmsConfiguration::setWiFiConfig(WiFiConfig& config) {
} else { } else {
wifiChanged = true; wifiChanged = true;
} }
stripNonAscii((uint8_t*) config.ssid, 32, true);
stripNonAscii((uint8_t*) config.psk, 64);
stripNonAscii((uint8_t*) config.ip, 16);
stripNonAscii((uint8_t*) config.gateway, 16);
stripNonAscii((uint8_t*) config.subnet, 16);
stripNonAscii((uint8_t*) config.dns1, 16);
stripNonAscii((uint8_t*) config.dns2, 16);
stripNonAscii((uint8_t*) config.hostname, 32);
EEPROM.begin(EEPROM_SIZE); EEPROM.begin(EEPROM_SIZE);
EEPROM.put(CONFIG_WIFI_START, config); EEPROM.put(CONFIG_WIFI_START, config);
bool ret = EEPROM.commit(); bool ret = EEPROM.commit();
@@ -127,6 +139,14 @@ bool AmsConfiguration::setMqttConfig(MqttConfig& config) {
} else { } else {
mqttChanged = true; mqttChanged = true;
} }
stripNonAscii((uint8_t*) config.host, 128);
stripNonAscii((uint8_t*) config.clientId, 32);
stripNonAscii((uint8_t*) config.publishTopic, 64);
stripNonAscii((uint8_t*) config.subscribeTopic, 64);
stripNonAscii((uint8_t*) config.username, 128);
stripNonAscii((uint8_t*) config.password, 256);
EEPROM.begin(EEPROM_SIZE); EEPROM.begin(EEPROM_SIZE);
EEPROM.put(CONFIG_MQTT_START, config); EEPROM.put(CONFIG_MQTT_START, config);
bool ret = EEPROM.commit(); bool ret = EEPROM.commit();
@@ -171,6 +191,10 @@ bool AmsConfiguration::getWebConfig(WebConfig& config) {
} }
bool AmsConfiguration::setWebConfig(WebConfig& config) { bool AmsConfiguration::setWebConfig(WebConfig& config) {
stripNonAscii((uint8_t*) config.username, 64);
stripNonAscii((uint8_t*) config.password, 64);
EEPROM.begin(EEPROM_SIZE); EEPROM.begin(EEPROM_SIZE);
EEPROM.put(CONFIG_WEB_START, config); EEPROM.put(CONFIG_WEB_START, config);
bool ret = EEPROM.commit(); bool ret = EEPROM.commit();
@@ -221,8 +245,8 @@ void AmsConfiguration::clearMeter(MeterConfig& config) {
config.baud = 0; config.baud = 0;
config.parity = 0; config.parity = 0;
config.invert = false; config.invert = false;
config.distributionSystem = 0; config.distributionSystem = 2;
config.mainFuse = 0; config.mainFuse = 40;
config.productionCapacity = 0; config.productionCapacity = 0;
memset(config.encryptionKey, 0, 16); memset(config.encryptionKey, 0, 16);
memset(config.authenticationKey, 0, 16); memset(config.authenticationKey, 0, 16);
@@ -242,6 +266,10 @@ void AmsConfiguration::ackMeterChanged() {
meterChanged = false; meterChanged = false;
} }
void AmsConfiguration::setMeterChanged() {
meterChanged = true;
}
bool AmsConfiguration::getDebugConfig(DebugConfig& config) { bool AmsConfiguration::getDebugConfig(DebugConfig& config) {
if(hasConfig()) { if(hasConfig()) {
EEPROM.begin(EEPROM_SIZE); EEPROM.begin(EEPROM_SIZE);
@@ -285,15 +313,14 @@ bool AmsConfiguration::getDomoticzConfig(DomoticzConfig& config) {
bool AmsConfiguration::setDomoticzConfig(DomoticzConfig& config) { bool AmsConfiguration::setDomoticzConfig(DomoticzConfig& config) {
DomoticzConfig existing; DomoticzConfig existing;
if(getDomoticzConfig(existing)) { if(getDomoticzConfig(existing)) {
domoChanged |= config.elidx != existing.elidx; mqttChanged |= config.elidx != existing.elidx;
domoChanged |= config.vl1idx != existing.vl1idx; mqttChanged |= config.vl1idx != existing.vl1idx;
domoChanged |= config.vl2idx != existing.vl2idx; mqttChanged |= config.vl2idx != existing.vl2idx;
domoChanged |= config.vl3idx != existing.vl3idx; mqttChanged |= config.vl3idx != existing.vl3idx;
domoChanged |= config.cl1idx != existing.cl1idx; mqttChanged |= config.cl1idx != existing.cl1idx;
} else { } else {
domoChanged = true; mqttChanged = true;
} }
mqttChanged = domoChanged;
EEPROM.begin(EEPROM_SIZE); EEPROM.begin(EEPROM_SIZE);
EEPROM.put(CONFIG_DOMOTICZ_START, config); EEPROM.put(CONFIG_DOMOTICZ_START, config);
bool ret = EEPROM.commit(); bool ret = EEPROM.commit();
@@ -309,12 +336,46 @@ void AmsConfiguration::clearDomo(DomoticzConfig& config) {
config.cl1idx = 0; config.cl1idx = 0;
} }
bool AmsConfiguration::isDomoChanged() { bool AmsConfiguration::getHomeAssistantConfig(HomeAssistantConfig& config) {
return domoChanged; if(hasConfig()) {
EEPROM.begin(EEPROM_SIZE);
EEPROM.get(CONFIG_HA_START, config);
EEPROM.end();
if(stripNonAscii((uint8_t*) config.discoveryPrefix, 64) || stripNonAscii((uint8_t*) config.discoveryHostname, 64) || stripNonAscii((uint8_t*) config.discoveryNameTag, 16)) {
clearHomeAssistantConfig(config);
}
return true;
} else {
clearHomeAssistantConfig(config);
return false;
}
} }
void AmsConfiguration::ackDomoChange() { bool AmsConfiguration::setHomeAssistantConfig(HomeAssistantConfig& config) {
domoChanged = false; HomeAssistantConfig existing;
if(getHomeAssistantConfig(existing)) {
mqttChanged |= strcmp(config.discoveryPrefix, existing.discoveryPrefix) != 0;
mqttChanged |= strcmp(config.discoveryHostname, existing.discoveryHostname) != 0;
mqttChanged |= strcmp(config.discoveryNameTag, existing.discoveryNameTag) != 0;
} else {
mqttChanged = true;
}
stripNonAscii((uint8_t*) config.discoveryPrefix, 64);
stripNonAscii((uint8_t*) config.discoveryHostname, 64);
stripNonAscii((uint8_t*) config.discoveryNameTag, 16);
EEPROM.begin(EEPROM_SIZE);
EEPROM.put(CONFIG_HA_START, config);
bool ret = EEPROM.commit();
EEPROM.end();
return ret;
}
void AmsConfiguration::clearHomeAssistantConfig(HomeAssistantConfig& config) {
strcpy(config.discoveryPrefix, "");
strcpy(config.discoveryHostname, "");
strcpy(config.discoveryNameTag, "");
} }
bool AmsConfiguration::pinUsed(uint8_t pin, GpioConfig& config) { bool AmsConfiguration::pinUsed(uint8_t pin, GpioConfig& config) {
@@ -334,8 +395,9 @@ bool AmsConfiguration::pinUsed(uint8_t pin, GpioConfig& config) {
} }
bool AmsConfiguration::getGpioConfig(GpioConfig& config) { bool AmsConfiguration::getGpioConfig(GpioConfig& config) {
if(hasConfig()) { EEPROM.begin(EEPROM_SIZE);
EEPROM.begin(EEPROM_SIZE); uint8_t configVersion = EEPROM.read(EEPROM_CONFIG_ADDRESS);
if(configVersion == EEPROM_CHECK_SUM || configVersion == EEPROM_CLEARED_INDICATOR) {
EEPROM.get(CONFIG_GPIO_START, config); EEPROM.get(CONFIG_GPIO_START, config);
EEPROM.end(); EEPROM.end();
return true; return true;
@@ -349,42 +411,43 @@ bool AmsConfiguration::setGpioConfig(GpioConfig& config) {
GpioConfig existing; GpioConfig existing;
if(getGpioConfig(existing)) { if(getGpioConfig(existing)) {
meterChanged |= config.hanPin != existing.hanPin; meterChanged |= config.hanPin != existing.hanPin;
meterChanged |= config.hanPinPullup != existing.hanPinPullup;
} }
/* This currently does not work, as it checks its own pin /* This currently does not work, as it checks its own pin
if(pinUsed(config.hanPin, config)) { if(pinUsed(config.hanPin, config)) {
Serial.println("HAN pin already used"); debugger->println(F("HAN pin already used"));
return false; return false;
} }
if(pinUsed(config.apPin, config)) { if(pinUsed(config.apPin, config)) {
Serial.println("AP pin already used"); debugger->println(F("AP pin already used"));
return false; return false;
} }
if(pinUsed(config.ledPin, config)) { if(pinUsed(config.ledPin, config)) {
Serial.println("LED pin already used"); debugger->println(F("LED pin already used"));
return false; return false;
} }
if(pinUsed(config.ledPinRed, config)) { if(pinUsed(config.ledPinRed, config)) {
Serial.println("LED RED pin already used"); debugger->println(F("LED RED pin already used"));
return false; return false;
} }
if(pinUsed(config.ledPinGreen, config)) { if(pinUsed(config.ledPinGreen, config)) {
Serial.println("LED GREEN pin already used"); debugger->println(F("LED GREEN pin already used"));
return false; return false;
} }
if(pinUsed(config.ledPinBlue, config)) { if(pinUsed(config.ledPinBlue, config)) {
Serial.println("LED BLUE pin already used"); debugger->println(F("LED BLUE pin already used"));
return false; return false;
} }
if(pinUsed(config.tempSensorPin, config)) { if(pinUsed(config.tempSensorPin, config)) {
Serial.println("Temp sensor pin already used"); debugger->println(F("Temp sensor pin already used"));
return false; return false;
} }
if(pinUsed(config.tempAnalogSensorPin, config)) { if(pinUsed(config.tempAnalogSensorPin, config)) {
Serial.println("Analog temp sensor pin already used"); debugger->println(F("Analog temp sensor pin already used"));
return false; return false;
} }
if(pinUsed(config.vccPin, config)) { if(pinUsed(config.vccPin, config)) {
Serial.println("Vcc pin already used"); debugger->println(F("Vcc pin already used"));
return false; return false;
} }
*/ */
@@ -400,6 +463,7 @@ bool AmsConfiguration::setGpioConfig(GpioConfig& config) {
void AmsConfiguration::clearGpio(GpioConfig& config) { void AmsConfiguration::clearGpio(GpioConfig& config) {
config.hanPin = 3; config.hanPin = 3;
config.hanPinPullup = true;
config.apPin = 0xFF; config.apPin = 0xFF;
config.ledPin = 0xFF; config.ledPin = 0xFF;
config.ledInverted = true; config.ledInverted = true;
@@ -445,6 +509,10 @@ bool AmsConfiguration::setNtpConfig(NtpConfig& config) {
} else { } else {
ntpChanged = true; ntpChanged = true;
} }
stripNonAscii((uint8_t*) config.server, 64);
stripNonAscii((uint8_t*) config.timezone, 32);
EEPROM.begin(EEPROM_SIZE); EEPROM.begin(EEPROM_SIZE);
EEPROM.put(CONFIG_NTP_START, config); EEPROM.put(CONFIG_NTP_START, config);
bool ret = EEPROM.commit(); bool ret = EEPROM.commit();
@@ -477,6 +545,7 @@ bool AmsConfiguration::getEntsoeConfig(EntsoeConfig& config) {
} }
return true; return true;
} else { } else {
clearEntsoe(config);
return false; return false;
} }
} }
@@ -489,9 +558,15 @@ bool AmsConfiguration::setEntsoeConfig(EntsoeConfig& config) {
entsoeChanged |= strcmp(config.currency, existing.currency) != 0; entsoeChanged |= strcmp(config.currency, existing.currency) != 0;
entsoeChanged |= config.multiplier != existing.multiplier; entsoeChanged |= config.multiplier != existing.multiplier;
entsoeChanged |= config.enabled != existing.enabled; entsoeChanged |= config.enabled != existing.enabled;
entsoeChanged |= config.fixedPrice != existing.fixedPrice;
} else { } else {
entsoeChanged = true; entsoeChanged = true;
} }
stripNonAscii((uint8_t*) config.token, 37);
stripNonAscii((uint8_t*) config.area, 17);
stripNonAscii((uint8_t*) config.currency, 4);
EEPROM.begin(EEPROM_SIZE); EEPROM.begin(EEPROM_SIZE);
EEPROM.put(CONFIG_ENTSOE_START, config); EEPROM.put(CONFIG_ENTSOE_START, config);
bool ret = EEPROM.commit(); bool ret = EEPROM.commit();
@@ -504,6 +579,7 @@ void AmsConfiguration::clearEntsoe(EntsoeConfig& config) {
strcpy(config.area, ""); strcpy(config.area, "");
strcpy(config.currency, ""); strcpy(config.currency, "");
config.multiplier = 1000; config.multiplier = 1000;
config.enabled = false;
} }
bool AmsConfiguration::isEntsoeChanged() { bool AmsConfiguration::isEntsoeChanged() {
@@ -520,12 +596,13 @@ bool AmsConfiguration::getEnergyAccountingConfig(EnergyAccountingConfig& config)
EEPROM.begin(EEPROM_SIZE); EEPROM.begin(EEPROM_SIZE);
EEPROM.get(CONFIG_ENERGYACCOUNTING_START, config); EEPROM.get(CONFIG_ENERGYACCOUNTING_START, config);
EEPROM.end(); EEPROM.end();
if(config.thresholds[9] != 255) { if(config.thresholds[9] != 0xFFFF) {
clearEnergyAccountingConfig(config); clearEnergyAccountingConfig(config);
} }
if(config.hours > 5) config.hours = 5; if(config.hours > 5) config.hours = 5;
return true; return true;
} else { } else {
clearEnergyAccountingConfig(config);
return false; return false;
} }
} }
@@ -539,7 +616,7 @@ bool AmsConfiguration::setEnergyAccountingConfig(EnergyAccountingConfig& config)
energyAccountingChanged = true; energyAccountingChanged = true;
} }
} }
config.thresholds[9] = 255; config.thresholds[9] = 0xFFFF;
energyAccountingChanged |= config.hours != existing.hours; energyAccountingChanged |= config.hours != existing.hours;
} else { } else {
energyAccountingChanged = true; energyAccountingChanged = true;
@@ -561,7 +638,7 @@ void AmsConfiguration::clearEnergyAccountingConfig(EnergyAccountingConfig& confi
config.thresholds[6] = 75; config.thresholds[6] = 75;
config.thresholds[7] = 100; config.thresholds[7] = 100;
config.thresholds[8] = 150; config.thresholds[8] = 150;
config.thresholds[9] = 255; config.thresholds[9] = 0xFFFF;
config.hours = 3; config.hours = 3;
} }
@@ -609,6 +686,45 @@ void AmsConfiguration::clearUiConfig(UiConfig& config) {
config.showTemperaturePlot = 2; config.showTemperaturePlot = 2;
} }
bool AmsConfiguration::setUpgradeInformation(int16_t exitCode, int16_t errorCode, const char* currentVersion, const char* nextVersion) {
UpgradeInformation upinfo;
upinfo.exitCode = exitCode;
upinfo.errorCode = errorCode;
strcpy(upinfo.fromVersion, currentVersion);
strcpy(upinfo.toVersion, nextVersion);
stripNonAscii((uint8_t*) upinfo.fromVersion, 8);
stripNonAscii((uint8_t*) upinfo.toVersion, 8);
EEPROM.begin(EEPROM_SIZE);
EEPROM.put(CONFIG_UPGRADE_INFO_START, upinfo);
bool ret = EEPROM.commit();
EEPROM.end();
return ret;
}
bool AmsConfiguration::getUpgradeInformation(UpgradeInformation& upinfo) {
if(hasConfig()) {
EEPROM.begin(EEPROM_SIZE);
EEPROM.get(CONFIG_UPGRADE_INFO_START, upinfo);
EEPROM.end();
if(stripNonAscii((uint8_t*) upinfo.fromVersion, 8) || stripNonAscii((uint8_t*) upinfo.toVersion, 8)) {
clearUpgradeInformation(upinfo);
}
return true;
} else {
clearUpgradeInformation(upinfo);
return false;
}
}
void AmsConfiguration::clearUpgradeInformation(UpgradeInformation& upinfo) {
upinfo.exitCode = -1;
upinfo.errorCode = 0;
memset(upinfo.fromVersion, 0, 8);
memset(upinfo.toVersion, 0, 8);
}
void AmsConfiguration::clear() { void AmsConfiguration::clear() {
EEPROM.begin(EEPROM_SIZE); EEPROM.begin(EEPROM_SIZE);
@@ -640,6 +756,10 @@ void AmsConfiguration::clear() {
clearDomo(domo); clearDomo(domo);
EEPROM.put(CONFIG_DOMOTICZ_START, domo); EEPROM.put(CONFIG_DOMOTICZ_START, domo);
HomeAssistantConfig haconf;
clearHomeAssistantConfig(haconf);
EEPROM.put(CONFIG_HA_START, haconf);
NtpConfig ntp; NtpConfig ntp;
clearNtp(ntp); clearNtp(ntp);
EEPROM.put(CONFIG_NTP_START, ntp); EEPROM.put(CONFIG_NTP_START, ntp);
@@ -660,6 +780,10 @@ void AmsConfiguration::clear() {
clearUiConfig(ui); clearUiConfig(ui);
EEPROM.put(CONFIG_UI_START, ui); EEPROM.put(CONFIG_UI_START, ui);
UpgradeInformation upinfo;
clearUpgradeInformation(upinfo);
EEPROM.put(CONFIG_UPGRADE_INFO_START, upinfo);
EEPROM.put(EEPROM_CONFIG_ADDRESS, EEPROM_CLEARED_INDICATOR); EEPROM.put(EEPROM_CONFIG_ADDRESS, EEPROM_CLEARED_INDICATOR);
EEPROM.commit(); EEPROM.commit();
EEPROM.end(); EEPROM.end();
@@ -679,30 +803,6 @@ bool AmsConfiguration::hasConfig() {
} }
} else { } else {
switch(configVersion) { switch(configVersion) {
case 90:
configVersion = -1; // Prevent loop
if(relocateConfig90()) {
configVersion = 91;
} else {
configVersion = 0;
return false;
}
case 91:
configVersion = -1; // Prevent loop
if(relocateConfig91()) {
configVersion = 92;
} else {
configVersion = 0;
return false;
}
case 92:
configVersion = -1; // Prevent loop
if(relocateConfig92()) {
configVersion = 93;
} else {
configVersion = 0;
return false;
}
case 93: case 93:
configVersion = -1; // Prevent loop configVersion = -1; // Prevent loop
if(relocateConfig93()) { if(relocateConfig93()) {
@@ -743,6 +843,22 @@ bool AmsConfiguration::hasConfig() {
configVersion = 0; configVersion = 0;
return false; return false;
} }
case 101:
configVersion = -1; // Prevent loop
if(relocateConfig101()) {
configVersion = 102;
} else {
configVersion = 0;
return false;
}
case 102:
configVersion = -1; // Prevent loop
if(relocateConfig102()) {
configVersion = 103;
} else {
configVersion = 0;
return false;
}
case EEPROM_CHECK_SUM: case EEPROM_CHECK_SUM:
return true; return true;
default: default:
@@ -763,8 +879,6 @@ void AmsConfiguration::loadTempSensors() {
int address = EEPROM_TEMP_CONFIG_ADDRESS; int address = EEPROM_TEMP_CONFIG_ADDRESS;
int c = 0; int c = 0;
int storedCount = EEPROM.read(address++); int storedCount = EEPROM.read(address++);
Serial.print("Sensors: ");
Serial.println(storedCount);
if(storedCount > 0 && storedCount <= 32) { if(storedCount > 0 && storedCount <= 32) {
for(int i = 0; i < storedCount; i++) { for(int i = 0; i < storedCount; i++) {
TempSensorConfig* tsc = new TempSensorConfig(); TempSensorConfig* tsc = new TempSensorConfig();
@@ -795,61 +909,8 @@ void AmsConfiguration::saveTempSensors() {
} }
} }
bool AmsConfiguration::relocateConfig90() {
EntsoeConfig entsoe;
EEPROM.begin(EEPROM_SIZE);
EEPROM.get(CONFIG_ENTSOE_START_90, entsoe);
EEPROM.put(CONFIG_ENTSOE_START, entsoe);
EEPROM.put(EEPROM_CONFIG_ADDRESS, 91);
bool ret = EEPROM.commit();
EEPROM.end();
return ret;
}
bool AmsConfiguration::relocateConfig91() {
WiFiConfig91 wifi91;
WiFiConfig wifi;
EEPROM.begin(EEPROM_SIZE);
EEPROM.get(CONFIG_WIFI_START_91, wifi91);
strcpy(wifi.ssid, wifi91.ssid);
strcpy(wifi.psk, wifi91.psk);
strcpy(wifi.ip, wifi91.ip);
strcpy(wifi.gateway, wifi91.gateway);
strcpy(wifi.subnet, wifi91.subnet);
strcpy(wifi.dns1, wifi91.dns1);
strcpy(wifi.dns2, wifi91.dns2);
strcpy(wifi.hostname, wifi91.hostname);
wifi.mdns = wifi91.mdns;
EEPROM.put(CONFIG_WIFI_START, wifi);
EEPROM.put(EEPROM_CONFIG_ADDRESS, 92);
bool ret = EEPROM.commit();
EEPROM.end();
return ret;
}
bool AmsConfiguration::relocateConfig92() {
WiFiConfig wifi;
EEPROM.begin(EEPROM_SIZE);
EEPROM.get(CONFIG_WIFI_START, wifi);
#if defined(ESP32)
wifi.power = 195;
#elif defined(ESP8266)
wifi.power = 205;
#endif
EEPROM.put(CONFIG_WIFI_START, wifi);
EnergyAccountingConfig eac;
clearEnergyAccountingConfig(eac);
EEPROM.put(CONFIG_ENERGYACCOUNTING_START, eac);
EEPROM.put(EEPROM_CONFIG_ADDRESS, 93);
bool ret = EEPROM.commit();
EEPROM.end();
return ret;
}
bool AmsConfiguration::relocateConfig93() { bool AmsConfiguration::relocateConfig93() {
MeterConfig meter; MeterConfig95 meter;
EEPROM.begin(EEPROM_SIZE); EEPROM.begin(EEPROM_SIZE);
EEPROM.get(CONFIG_METER_START_93, meter); EEPROM.get(CONFIG_METER_START_93, meter);
meter.wattageMultiplier = 0; meter.wattageMultiplier = 0;
@@ -876,7 +937,7 @@ bool AmsConfiguration::relocateConfig94() {
} }
bool AmsConfiguration::relocateConfig95() { bool AmsConfiguration::relocateConfig95() {
MeterConfig meter; MeterConfig95 meter;
MeterConfig95 meter95; MeterConfig95 meter95;
EEPROM.begin(EEPROM_SIZE); EEPROM.begin(EEPROM_SIZE);
EEPROM.get(CONFIG_METER_START, meter); EEPROM.get(CONFIG_METER_START, meter);
@@ -897,7 +958,7 @@ bool AmsConfiguration::relocateConfig96() {
SystemConfig sys; SystemConfig sys;
EEPROM.get(CONFIG_SYSTEM_START, sys); EEPROM.get(CONFIG_SYSTEM_START, sys);
MeterConfig meter; MeterConfig100 meter;
EEPROM.get(CONFIG_METER_START, meter); EEPROM.get(CONFIG_METER_START, meter);
meter.source = 1; // Serial meter.source = 1; // Serial
meter.parser = 0; // Auto meter.parser = 0; // Auto
@@ -998,6 +1059,48 @@ bool AmsConfiguration::relocateConfig100() {
return ret; return ret;
} }
bool AmsConfiguration::relocateConfig101() {
EEPROM.begin(EEPROM_SIZE);
EnergyAccountingConfig config;
EnergyAccountingConfig101 config101;
EEPROM.get(CONFIG_ENERGYACCOUNTING_START, config101);
for(uint8_t i = 0; i < 9; i++) {
config.thresholds[i] = config101.thresholds[i];
}
config.thresholds[9] = 0xFFFF;
config.hours = config101.hours;
EEPROM.put(CONFIG_ENERGYACCOUNTING_START, config);
EEPROM.put(EEPROM_CONFIG_ADDRESS, 102);
bool ret = EEPROM.commit();
EEPROM.end();
return ret;
}
bool AmsConfiguration::relocateConfig102() {
EEPROM.begin(EEPROM_SIZE);
GpioConfig gpioConfig;
EEPROM.get(CONFIG_GPIO_START, gpioConfig);
gpioConfig.hanPinPullup = true;
EEPROM.put(CONFIG_GPIO_START, gpioConfig);
HomeAssistantConfig haconf;
clearHomeAssistantConfig(haconf);
EEPROM.put(CONFIG_HA_START, haconf);
EntsoeConfig entsoe;
EEPROM.get(CONFIG_ENTSOE_START, entsoe);
entsoe.fixedPrice = 0;
EEPROM.put(CONFIG_ENTSOE_START, entsoe);
EEPROM.put(EEPROM_CONFIG_ADDRESS, 103);
bool ret = EEPROM.commit();
EEPROM.end();
return ret;
}
bool AmsConfiguration::save() { bool AmsConfiguration::save() {
EEPROM.begin(EEPROM_SIZE); EEPROM.begin(EEPROM_SIZE);
EEPROM.put(EEPROM_CONFIG_ADDRESS, EEPROM_CHECK_SUM); EEPROM.put(EEPROM_CONFIG_ADDRESS, EEPROM_CHECK_SUM);
@@ -1077,154 +1180,155 @@ void AmsConfiguration::deleteFromFs(uint8_t version) {
void AmsConfiguration::print(Print* debugger) void AmsConfiguration::print(Print* debugger)
{ {
debugger->println("-----------------------------------------------"); debugger->println(F("-----------------------------------------------"));
WiFiConfig wifi; WiFiConfig wifi;
if(getWiFiConfig(wifi)) { if(getWiFiConfig(wifi)) {
debugger->println("--WiFi configuration--"); debugger->println(F("--WiFi configuration--"));
debugger->printf("SSID: '%s'\r\n", wifi.ssid); debugger->printf_P(PSTR("SSID: '%s'\r\n"), wifi.ssid);
debugger->printf("Psk: '%s'\r\n", wifi.psk); debugger->printf_P(PSTR("Psk: '%s'\r\n"), wifi.psk);
if(strlen(wifi.ip) > 0) { if(strlen(wifi.ip) > 0) {
debugger->printf("IP: '%s'\r\n", wifi.ip); debugger->printf_P(PSTR("IP: '%s'\r\n"), wifi.ip);
debugger->printf("Gateway: '%s'\r\n", wifi.gateway); debugger->printf_P(PSTR("Gateway: '%s'\r\n"), wifi.gateway);
debugger->printf("Subnet: '%s'\r\n", wifi.subnet); debugger->printf_P(PSTR("Subnet: '%s'\r\n"), wifi.subnet);
debugger->printf("DNS1: '%s'\r\n", wifi.dns1); debugger->printf_P(PSTR("DNS1: '%s'\r\n"), wifi.dns1);
debugger->printf("DNS2: '%s'\r\n", wifi.dns2); debugger->printf_P(PSTR("DNS2: '%s'\r\n"), wifi.dns2);
} }
debugger->printf("Hostname: '%s'\r\n", wifi.hostname); debugger->printf_P(PSTR("Hostname: '%s'\r\n"), wifi.hostname);
debugger->printf("mDNS: '%s'\r\n", wifi.mdns ? "Yes" : "No"); debugger->printf_P(PSTR("mDNS: '%s'\r\n"), wifi.mdns ? "Yes" : "No");
debugger->println(""); debugger->println(F(""));
delay(10); delay(10);
Serial.flush(); debugger->flush();
} }
MqttConfig mqtt; MqttConfig mqtt;
if(getMqttConfig(mqtt)) { if(getMqttConfig(mqtt)) {
debugger->println("--MQTT configuration--"); debugger->println(F("--MQTT configuration--"));
if(strlen(mqtt.host) > 0) { if(strlen(mqtt.host) > 0) {
debugger->printf("Enabled: Yes\r\n"); debugger->printf_P(PSTR("Enabled: Yes\r\n"));
debugger->printf("Host: '%s'\r\n", mqtt.host); debugger->printf_P(PSTR("Host: '%s'\r\n"), mqtt.host);
debugger->printf("Port: %i\r\n", mqtt.port); debugger->printf_P(PSTR("Port: %i\r\n"), mqtt.port);
debugger->printf("Client ID: '%s'\r\n", mqtt.clientId); debugger->printf_P(PSTR("Client ID: '%s'\r\n"), mqtt.clientId);
debugger->printf("Publish topic: '%s'\r\n", mqtt.publishTopic); debugger->printf_P(PSTR("Publish topic: '%s'\r\n"), mqtt.publishTopic);
debugger->printf("Subscribe topic: '%s'\r\n", mqtt.subscribeTopic); debugger->printf_P(PSTR("Subscribe topic: '%s'\r\n"), mqtt.subscribeTopic);
if (strlen(mqtt.username) > 0) { if (strlen(mqtt.username) > 0) {
debugger->printf("Username: '%s'\r\n", mqtt.username); debugger->printf_P(PSTR("Username: '%s'\r\n"), mqtt.username);
debugger->printf("Password: '%s'\r\n", mqtt.password); debugger->printf_P(PSTR("Password: '%s'\r\n"), mqtt.password);
} }
debugger->printf("Payload format: %i\r\n", mqtt.payloadFormat); debugger->printf_P(PSTR("Payload format: %i\r\n"), mqtt.payloadFormat);
debugger->printf("SSL: %s\r\n", mqtt.ssl ? "Yes" : "No"); debugger->printf_P(PSTR("SSL: %s\r\n"), mqtt.ssl ? "Yes" : "No");
} else { } else {
debugger->printf("Enabled: No\r\n"); debugger->printf_P(PSTR("Enabled: No\r\n"));
} }
debugger->println(""); debugger->println(F(""));
delay(10); delay(10);
Serial.flush(); debugger->flush();
} }
WebConfig web; WebConfig web;
if(getWebConfig(web)) { if(getWebConfig(web)) {
debugger->println("--Web configuration--"); debugger->println(F("--Web configuration--"));
debugger->printf("Security: %i\r\n", web.security); debugger->printf_P(PSTR("Security: %i\r\n"), web.security);
if (web.security > 0) { if (web.security > 0) {
debugger->printf("Username: '%s'\r\n", web.username); debugger->printf_P(PSTR("Username: '%s'\r\n"), web.username);
debugger->printf("Password: '%s'\r\n", web.password); debugger->printf_P(PSTR("Password: '%s'\r\n"), web.password);
} }
debugger->println(""); debugger->println(F(""));
delay(10); delay(10);
Serial.flush(); debugger->flush();
} }
MeterConfig meter; MeterConfig meter;
if(getMeterConfig(meter)) { if(getMeterConfig(meter)) {
debugger->println("--Meter configuration--"); debugger->println(F("--Meter configuration--"));
debugger->printf("Baud: %i\r\n", meter.baud); debugger->printf_P(PSTR("Baud: %i\r\n"), meter.baud);
debugger->printf("Parity: %i\r\n", meter.parity); debugger->printf_P(PSTR("Parity: %i\r\n"), meter.parity);
debugger->printf("Invert serial: %s\r\n", meter.invert ? "Yes" : "No"); debugger->printf_P(PSTR("Invert serial: %s\r\n"), meter.invert ? "Yes" : "No");
debugger->printf("Distribution system: %i\r\n", meter.distributionSystem); debugger->printf_P(PSTR("Distribution system: %i\r\n"), meter.distributionSystem);
debugger->printf("Main fuse: %i\r\n", meter.mainFuse); debugger->printf_P(PSTR("Main fuse: %i\r\n"), meter.mainFuse);
debugger->printf("Production Capacity: %i\r\n", meter.productionCapacity); debugger->printf_P(PSTR("Production Capacity: %i\r\n"), meter.productionCapacity);
debugger->println(""); debugger->println(F(""));
delay(10); delay(10);
Serial.flush(); debugger->flush();
} }
GpioConfig gpio; GpioConfig gpio;
if(getGpioConfig(gpio)) { if(getGpioConfig(gpio)) {
debugger->println("--GPIO configuration--"); debugger->println(F("--GPIO configuration--"));
debugger->printf("HAN pin: %i\r\n", gpio.hanPin); debugger->printf_P(PSTR("HAN pin: %i\r\n"), gpio.hanPin);
debugger->printf("LED pin: %i\r\n", gpio.ledPin); debugger->printf_P(PSTR("HAN pin pullup %s\r\n"), gpio.hanPinPullup ? "Yes" : "No");
debugger->printf("LED inverted: %s\r\n", gpio.ledInverted ? "Yes" : "No"); debugger->printf_P(PSTR("LED pin: %i\r\n"), gpio.ledPin);
debugger->printf("LED red pin: %i\r\n", gpio.ledPinRed); debugger->printf_P(PSTR("LED inverted: %s\r\n"), gpio.ledInverted ? "Yes" : "No");
debugger->printf("LED green pin: %i\r\n", gpio.ledPinGreen); debugger->printf_P(PSTR("LED red pin: %i\r\n"), gpio.ledPinRed);
debugger->printf("LED blue pin: %i\r\n", gpio.ledPinBlue); debugger->printf_P(PSTR("LED green pin: %i\r\n"), gpio.ledPinGreen);
debugger->printf("LED inverted: %s\r\n", gpio.ledRgbInverted ? "Yes" : "No"); debugger->printf_P(PSTR("LED blue pin: %i\r\n"), gpio.ledPinBlue);
debugger->printf("AP pin: %i\r\n", gpio.apPin); debugger->printf_P(PSTR("LED inverted: %s\r\n"), gpio.ledRgbInverted ? "Yes" : "No");
debugger->printf("Temperature pin: %i\r\n", gpio.tempSensorPin); debugger->printf_P(PSTR("AP pin: %i\r\n"), gpio.apPin);
debugger->printf("Temp analog pin: %i\r\n", gpio.tempAnalogSensorPin); debugger->printf_P(PSTR("Temperature pin: %i\r\n"), gpio.tempSensorPin);
debugger->printf("Vcc pin: %i\r\n", gpio.vccPin); debugger->printf_P(PSTR("Temp analog pin: %i\r\n"), gpio.tempAnalogSensorPin);
debugger->printf_P(PSTR("Vcc pin: %i\r\n"), gpio.vccPin);
if(gpio.vccMultiplier > 0) { if(gpio.vccMultiplier > 0) {
debugger->printf("Vcc multiplier: %f\r\n", gpio.vccMultiplier / 1000.0); debugger->printf_P(PSTR("Vcc multiplier: %f\r\n"), gpio.vccMultiplier / 1000.0);
} }
if(gpio.vccOffset > 0) { if(gpio.vccOffset > 0) {
debugger->printf("Vcc offset: %f\r\n", gpio.vccOffset / 100.0); debugger->printf_P(PSTR("Vcc offset: %f\r\n"), gpio.vccOffset / 100.0);
} }
if(gpio.vccBootLimit > 0) { if(gpio.vccBootLimit > 0) {
debugger->printf("Vcc boot limit: %f\r\n", gpio.vccBootLimit / 10.0); debugger->printf_P(PSTR("Vcc boot limit: %f\r\n"), gpio.vccBootLimit / 10.0);
} }
debugger->printf("GND resistor: %i\r\n", gpio.vccResistorGnd); debugger->printf_P(PSTR("GND resistor: %i\r\n"), gpio.vccResistorGnd);
debugger->printf("Vcc resistor: %i\r\n", gpio.vccResistorVcc); debugger->printf_P(PSTR("Vcc resistor: %i\r\n"), gpio.vccResistorVcc);
debugger->println(""); debugger->println(F(""));
delay(10); delay(10);
Serial.flush(); debugger->flush();
} }
DomoticzConfig domo; DomoticzConfig domo;
if(getDomoticzConfig(domo)) { if(getDomoticzConfig(domo)) {
debugger->println("--Domoticz configuration--"); debugger->println(F("--Domoticz configuration--"));
if(mqtt.payloadFormat == 3 && domo.elidx > 0) { if(mqtt.payloadFormat == 3 && domo.elidx > 0) {
debugger->printf("Enabled: Yes\r\n"); debugger->printf_P(PSTR("Enabled: Yes\r\n"));
debugger->printf("Domoticz ELIDX: %i\r\n", domo.elidx); debugger->printf_P(PSTR("Domoticz ELIDX: %i\r\n"), domo.elidx);
debugger->printf("Domoticz VL1IDX: %i\r\n", domo.vl1idx); debugger->printf_P(PSTR("Domoticz VL1IDX: %i\r\n"), domo.vl1idx);
debugger->printf("Domoticz VL2IDX: %i\r\n", domo.vl2idx); debugger->printf_P(PSTR("Domoticz VL2IDX: %i\r\n"), domo.vl2idx);
debugger->printf("Domoticz VL3IDX: %i\r\n", domo.vl3idx); debugger->printf_P(PSTR("Domoticz VL3IDX: %i\r\n"), domo.vl3idx);
debugger->printf("Domoticz CL1IDX: %i\r\n", domo.cl1idx); debugger->printf_P(PSTR("Domoticz CL1IDX: %i\r\n"), domo.cl1idx);
} else { } else {
debugger->printf("Enabled: No\r\n"); debugger->printf_P(PSTR("Enabled: No\r\n"));
} }
debugger->println(""); debugger->println(F(""));
delay(10); delay(10);
Serial.flush(); debugger->flush();
} }
NtpConfig ntp; NtpConfig ntp;
if(getNtpConfig(ntp)) { if(getNtpConfig(ntp)) {
debugger->println("--NTP configuration--"); debugger->println(F("--NTP configuration--"));
debugger->printf("Enabled: %s\r\n", ntp.enable ? "Yes" : "No"); debugger->printf_P(PSTR("Enabled: %s\r\n"), ntp.enable ? "Yes" : "No");
if(ntp.enable) { if(ntp.enable) {
debugger->printf("Timezone: %s\r\n", ntp.timezone); debugger->printf_P(PSTR("Timezone: %s\r\n"), ntp.timezone);
debugger->printf("Server: %s\r\n", ntp.server); debugger->printf_P(PSTR("Server: %s\r\n"), ntp.server);
debugger->printf("DHCP: %s\r\n", ntp.dhcp ? "Yes" : "No"); debugger->printf_P(PSTR("DHCP: %s\r\n"), ntp.dhcp ? "Yes" : "No");
} }
debugger->println(""); debugger->println(F(""));
delay(10); delay(10);
Serial.flush(); debugger->flush();
} }
EntsoeConfig entsoe; EntsoeConfig entsoe;
if(getEntsoeConfig(entsoe)) { if(getEntsoeConfig(entsoe)) {
if(strlen(entsoe.area) > 0) { if(strlen(entsoe.area) > 0) {
debugger->println("--ENTSO-E configuration--"); debugger->println(F("--ENTSO-E configuration--"));
debugger->printf("Area: %s\r\n", entsoe.area); debugger->printf_P(PSTR("Area: %s\r\n"), entsoe.area);
debugger->printf("Currency: %s\r\n", entsoe.currency); debugger->printf_P(PSTR("Currency: %s\r\n"), entsoe.currency);
debugger->printf("Multiplier: %f\r\n", entsoe.multiplier / 1000.0); debugger->printf_P(PSTR("Multiplier: %f\r\n"), entsoe.multiplier / 1000.0);
debugger->printf("Token: %s\r\n", entsoe.token); debugger->printf_P(PSTR("Token: %s\r\n"), entsoe.token);
} }
debugger->println(""); debugger->println(F(""));
delay(10); delay(10);
Serial.flush(); debugger->flush();
} }
debugger->printf("Temp sensor count: %i\r\n", this->getTempSensorCount()); debugger->printf_P(PSTR("Temp sensor count: %i\r\n"), this->getTempSensorCount());
debugger->println("-----------------------------------------------"); debugger->println(F("-----------------------------------------------"));
} }

19
lib/AmsConfiguration/src/hexutils.cpp
View File

@@ -20,4 +20,23 @@ void fromHex(uint8_t *out, String in, uint16_t size) {
for(int i = 0; i < size*2; i += 2) { for(int i = 0; i < size*2; i += 2) {
out[i/2] = strtol(in.substring(i, i+2).c_str(), 0, 16); out[i/2] = strtol(in.substring(i, i+2).c_str(), 0, 16);
} }
}
bool stripNonAscii(uint8_t* in, uint16_t size, bool extended) {
bool ret = false;
for(uint16_t i = 0; i < size; i++) {
if(in[i] == 0) { // Clear the rest with null-terminator
memset(in+i, 0, size-i);
break;
}
if(extended && (in[i] < 32 || in[i] == 127 || in[i] == 129 || in[i] == 141 || in[i] == 143 || in[i] == 144 || in[i] == 157)) {
memset(in+i, ' ', 1);
ret = true;
} else if(!extended && (in[i] < 32 || in[i] > 126)) {
memset(in+i, ' ', 1);
ret = true;
}
}
memset(in+size-1, 0, 1); // Make sure the last character is null-terminator
return ret;
} }

12
lib/AmsData/include/AmsData.h
View File

@@ -35,10 +35,10 @@ public:
time_t getMeterTimestamp(); time_t getMeterTimestamp();
uint16_t getActiveImportPower(); uint32_t getActiveImportPower();
uint16_t getReactiveImportPower(); uint32_t getReactiveImportPower();
uint16_t getActiveExportPower(); uint32_t getActiveExportPower();
uint16_t getReactiveExportPower(); uint32_t getReactiveExportPower();
float getL1Voltage(); float getL1Voltage();
float getL2Voltage(); float getL2Voltage();
@@ -77,9 +77,9 @@ protected:
unsigned long lastList2 = 0; unsigned long lastList2 = 0;
uint8_t listType = 0, meterType = AmsTypeUnknown; uint8_t listType = 0, meterType = AmsTypeUnknown;
time_t packageTimestamp = 0; time_t packageTimestamp = 0;
String listId, meterId, meterModel; String listId = "", meterId = "", meterModel = "";
time_t meterTimestamp = 0; time_t meterTimestamp = 0;
uint16_t activeImportPower = 0, reactiveImportPower = 0, activeExportPower = 0, reactiveExportPower = 0; uint32_t activeImportPower = 0, reactiveImportPower = 0, activeExportPower = 0, reactiveExportPower = 0;
float l1voltage = 0, l2voltage = 0, l3voltage = 0, l1current = 0, l2current = 0, l3current = 0; float l1voltage = 0, l2voltage = 0, l3voltage = 0, l1current = 0, l2current = 0, l3current = 0;
float l1activeImportPower = 0, l2activeImportPower = 0, l3activeImportPower = 0; float l1activeImportPower = 0, l2activeImportPower = 0, l3activeImportPower = 0;
float l1activeExportPower = 0, l2activeExportPower = 0, l3activeExportPower = 0; float l1activeExportPower = 0, l2activeExportPower = 0, l3activeExportPower = 0;

10
lib/AmsData/include/AmsMqttHandler.h
View File

@@ -9,6 +9,10 @@
#include "HwTools.h" #include "HwTools.h"
#include "EntsoeApi.h" #include "EntsoeApi.h"
#if defined(ESP32)
#include <esp_task_wdt.h>
#endif
class AmsMqttHandler { class AmsMqttHandler {
public: public:
AmsMqttHandler(MQTTClient* mqtt, char* buf) { AmsMqttHandler(MQTTClient* mqtt, char* buf) {
@@ -17,7 +21,7 @@ public:
}; };
virtual ~AmsMqttHandler() {}; virtual ~AmsMqttHandler() {};
virtual bool publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea); virtual bool publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea, EntsoeApi* eapi);
virtual bool publishTemperatures(AmsConfiguration*, HwTools*); virtual bool publishTemperatures(AmsConfiguration*, HwTools*);
virtual bool publishPrices(EntsoeApi* eapi); virtual bool publishPrices(EntsoeApi* eapi);
virtual bool publishSystem(HwTools*, EntsoeApi*, EnergyAccounting*); virtual bool publishSystem(HwTools*, EntsoeApi*, EnergyAccounting*);
@@ -25,7 +29,9 @@ public:
protected: protected:
MQTTClient* mqtt; MQTTClient* mqtt;
char* json; char* json;
uint16_t BufferSize = 1024; uint16_t BufferSize = 2048;
bool loop();
}; };
#endif #endif

10
lib/AmsData/src/AmsData.cpp
View File

@@ -114,19 +114,19 @@ time_t AmsData::getMeterTimestamp() {
return this->meterTimestamp; return this->meterTimestamp;
} }
uint16_t AmsData::getActiveImportPower() { uint32_t AmsData::getActiveImportPower() {
return this->activeImportPower; return this->activeImportPower;
} }
uint16_t AmsData::getReactiveImportPower() { uint32_t AmsData::getReactiveImportPower() {
return this->reactiveImportPower; return this->reactiveImportPower;
} }
uint16_t AmsData::getActiveExportPower() { uint32_t AmsData::getActiveExportPower() {
return this->activeExportPower; return this->activeExportPower;
} }
uint16_t AmsData::getReactiveExportPower() { uint32_t AmsData::getReactiveExportPower() {
return this->reactiveExportPower; return this->reactiveExportPower;
} }
@@ -219,7 +219,7 @@ bool AmsData::isTwoPhase() {
} }
int8_t AmsData::getLastError() { int8_t AmsData::getLastError() {
return lastErrorCount > 3 ? lastError : 0; return lastErrorCount > 2 ? lastError : 0;
} }
void AmsData::setLastError(int8_t lastError) { void AmsData::setLastError(int8_t lastError) {

136
lib/AmsDataStorage/src/AmsDataStorage.cpp
View File

@@ -18,32 +18,32 @@ void AmsDataStorage::setTimezone(Timezone* tz) {
bool AmsDataStorage::update(AmsData* data) { bool AmsDataStorage::update(AmsData* data) {
if(isHappy()) { if(isHappy()) {
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(AmsDataStorage) Data is up to date\n"); if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf_P(PSTR("(AmsDataStorage) Data is up to date\n"));
return false; return false;
} }
time_t now = time(nullptr); time_t now = time(nullptr);
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(AmsDataStorage) Time is: %lu\n", (int32_t) now); if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf_P(PSTR("(AmsDataStorage) Time is: %lu\n"), (int32_t) now);
if(tz == NULL) { if(tz == NULL) {
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(AmsDataStorage) Timezone is missing\n"); if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf_P(PSTR("(AmsDataStorage) Timezone is missing\n"));
return false; return false;
} }
if(now < BUILD_EPOCH) { if(now < BUILD_EPOCH) {
if(data->getMeterTimestamp() > BUILD_EPOCH) { if(data->getMeterTimestamp() > BUILD_EPOCH) {
now = data->getMeterTimestamp(); now = data->getMeterTimestamp();
if(debugger->isActive(RemoteDebug::DEBUG)) { if(debugger->isActive(RemoteDebug::DEBUG)) {
debugger->printf("(AmsDataStorage) Using meter timestamp, which is: %lu\n", (int32_t) now); debugger->printf_P(PSTR("(AmsDataStorage) Using meter timestamp, which is: %lu\n"), (int32_t) now);
} }
} else if(data->getPackageTimestamp() > BUILD_EPOCH) { } else if(data->getPackageTimestamp() > BUILD_EPOCH) {
now = data->getPackageTimestamp(); now = data->getPackageTimestamp();
if(debugger->isActive(RemoteDebug::DEBUG)) { if(debugger->isActive(RemoteDebug::DEBUG)) {
debugger->printf("(AmsDataStorage) Using package timestamp, which is: %lu\n", (int32_t) now); debugger->printf_P(PSTR("(AmsDataStorage) Using package timestamp, which is: %lu\n"), (int32_t) now);
} }
} }
} }
if(now < BUILD_EPOCH) { if(now < BUILD_EPOCH) {
if(debugger->isActive(RemoteDebug::VERBOSE)) { if(debugger->isActive(RemoteDebug::VERBOSE)) {
debugger->printf("(AmsDataStorage) Invalid time: %lu\n", (int32_t) now); debugger->printf_P(PSTR("(AmsDataStorage) Invalid time: %lu\n"), (int32_t) now);
} }
return false; return false;
} }
@@ -54,24 +54,27 @@ bool AmsDataStorage::update(AmsData* data) {
breakTime(now-3600, utcYesterday); breakTime(now-3600, utcYesterday);
breakTime(tz->toLocal(now-3600), ltzYesterDay); breakTime(tz->toLocal(now-3600), ltzYesterDay);
uint32_t importCounter = data->getActiveImportCounter() * 1000;
uint32_t exportCounter = data->getActiveExportCounter() * 1000;
// Clear hours between last update and now // Clear hours between last update and now
if(day.lastMeterReadTime > now) { if(day.lastMeterReadTime > now) {
if(debugger->isActive(RemoteDebug::WARNING)) { if(debugger->isActive(RemoteDebug::WARNING)) {
debugger->printf("(AmsDataStorage) Invalid future timestamp for day plot, resetting\n"); debugger->printf_P(PSTR("(AmsDataStorage) Invalid future timestamp for day plot, resetting\n"));
} }
day.activeImport = data->getActiveImportCounter() * 1000; day.activeImport = importCounter;
day.activeExport = data->getActiveExportCounter() * 1000; day.activeExport = exportCounter;
day.lastMeterReadTime = now; day.lastMeterReadTime = now;
return true; return true;
} else { } else {
if(debugger->isActive(RemoteDebug::DEBUG)) { if(debugger->isActive(RemoteDebug::DEBUG)) {
debugger->printf("(AmsDataStorage) Last day update: %lu\n", (int32_t) day.lastMeterReadTime); debugger->printf_P(PSTR("(AmsDataStorage) Last day update: %lu\n"), (int32_t) day.lastMeterReadTime);
} }
tmElements_t last; tmElements_t last;
breakTime(day.lastMeterReadTime, last); breakTime(day.lastMeterReadTime, last);
for(int i = last.Hour; i < utc.Hour; i++) { for(int i = last.Hour; i < utc.Hour; i++) {
if(debugger->isActive(RemoteDebug::VERBOSE)) { if(debugger->isActive(RemoteDebug::VERBOSE)) {
debugger->printf("(AmsDataStorage) Clearing hour: %d\n", i); debugger->printf_P(PSTR("(AmsDataStorage) Clearing hour: %d\n"), i);
} }
setHourImport(i, 0); setHourImport(i, 0);
setHourExport(i, 0); setHourExport(i, 0);
@@ -81,20 +84,20 @@ bool AmsDataStorage::update(AmsData* data) {
// Clear days between last update and now // Clear days between last update and now
if(month.lastMeterReadTime > now) { if(month.lastMeterReadTime > now) {
if(debugger->isActive(RemoteDebug::WARNING)) { if(debugger->isActive(RemoteDebug::WARNING)) {
debugger->printf("(AmsDataStorage) Invalid future timestamp for month plot, resetting\n"); debugger->printf_P(PSTR("(AmsDataStorage) Invalid future timestamp for month plot, resetting\n"));
} }
month.activeImport = data->getActiveImportCounter() * 1000; month.activeImport = importCounter;
month.activeExport = data->getActiveExportCounter() * 1000; month.activeExport = exportCounter;
month.lastMeterReadTime = now; month.lastMeterReadTime = now;
} else { } else {
if(debugger->isActive(RemoteDebug::DEBUG)) { if(debugger->isActive(RemoteDebug::DEBUG)) {
debugger->printf("(AmsDataStorage) Last month update: %lu\n", (int32_t) month.lastMeterReadTime); debugger->printf_P(PSTR("(AmsDataStorage) Last month update: %lu\n"), (int32_t) month.lastMeterReadTime);
} }
tmElements_t last; tmElements_t last;
breakTime(tz->toLocal(month.lastMeterReadTime), last); breakTime(tz->toLocal(month.lastMeterReadTime), last);
for(int i = last.Day; i < ltz.Day; i++) { for(int i = last.Day; i < ltz.Day; i++) {
if(debugger->isActive(RemoteDebug::VERBOSE)) { if(debugger->isActive(RemoteDebug::VERBOSE)) {
debugger->printf("(AmsDataStorage) Clearing day: %d\n", i); debugger->printf_P(PSTR("(AmsDataStorage) Clearing day: %d\n"), i);
} }
setDayImport(i, 0); setDayImport(i, 0);
setDayExport(i, 0); setDayExport(i, 0);
@@ -102,7 +105,7 @@ bool AmsDataStorage::update(AmsData* data) {
} }
if(data->getListType() < 3) { if(data->getListType() < 3) {
debugger->printf("(AmsDataStorage) Not enough data in list type: %d\n", data->getListType()); debugger->printf_P(PSTR("(AmsDataStorage) Not enough data in list type: %d\n"), data->getListType());
return false; return false;
} }
@@ -110,36 +113,42 @@ bool AmsDataStorage::update(AmsData* data) {
// Update day plot // Update day plot
if(!isDayHappy()) { if(!isDayHappy()) {
if(day.activeImport == 0 || now - day.lastMeterReadTime > 86400) { if(day.activeImport > importCounter || day.activeExport > exportCounter) {
day.activeImport = data->getActiveImportCounter() * 1000; day.activeImport = importCounter;
day.activeExport = data->getActiveExportCounter() * 1000; day.activeExport = exportCounter;
day.lastMeterReadTime = now;
setHourImport(utcYesterday.Hour, 0);
setHourExport(utcYesterday.Hour, 0);
} else if(day.activeImport == 0 || now - day.lastMeterReadTime > 86400) {
day.activeImport = importCounter;
day.activeExport = exportCounter;
day.lastMeterReadTime = now; day.lastMeterReadTime = now;
if(debugger->isActive(RemoteDebug::WARNING)) { if(debugger->isActive(RemoteDebug::WARNING)) {
debugger->printf("(AmsDataStorage) Too long since last day update, clearing data\n"); debugger->printf_P(PSTR("(AmsDataStorage) Too long since last day update, clearing data\n"));
} }
for(int i = 0; i<24; i++) { for(int i = 0; i<24; i++) {
setHourImport(i, 0); setHourImport(i, 0);
setHourExport(i, 0); setHourExport(i, 0);
} }
} else if(now - day.lastMeterReadTime < 4000) { } else if(now - day.lastMeterReadTime < 4000) {
uint32_t imp = (data->getActiveImportCounter() * 1000) - day.activeImport; uint32_t imp = importCounter - day.activeImport;
uint32_t exp = (data->getActiveExportCounter() * 1000) - day.activeExport; uint32_t exp = exportCounter - day.activeExport;
setHourImport(utcYesterday.Hour, imp); setHourImport(utcYesterday.Hour, imp);
setHourExport(utcYesterday.Hour, exp); setHourExport(utcYesterday.Hour, exp);
if(debugger->isActive(RemoteDebug::INFO)) debugger->printf("(AmsDataStorage) Usage for hour %d: %d - %d\n", ltzYesterDay.Hour, imp, exp); if(debugger->isActive(RemoteDebug::INFO)) debugger->printf_P(PSTR("(AmsDataStorage) Usage for hour %d: %d - %d\n"), ltzYesterDay.Hour, imp, exp);
day.activeImport = data->getActiveImportCounter() * 1000; day.activeImport = importCounter;
day.activeExport = data->getActiveExportCounter() * 1000; day.activeExport = exportCounter;
day.lastMeterReadTime = now; day.lastMeterReadTime = now;
} else { } else {
float mins = (now - day.lastMeterReadTime) / 60.0; float mins = (now - day.lastMeterReadTime) / 60.0;
uint32_t im = (data->getActiveImportCounter() * 1000) - day.activeImport; uint32_t im = importCounter - day.activeImport;
uint32_t ex = (data->getActiveExportCounter() * 1000) - day.activeExport; uint32_t ex = exportCounter - day.activeExport;
float ipm = im / mins; float ipm = im / mins;
float epm = ex / mins; float epm = ex / mins;
if(debugger->isActive(RemoteDebug::DEBUG)) { if(debugger->isActive(RemoteDebug::DEBUG)) {
debugger->printf("(AmsDataStorage) Since last day update, minutes: %.1f, import: %d (%.2f/min), export: %d (%.2f/min)\n", mins, im, ipm, ex, epm); debugger->printf_P(PSTR("(AmsDataStorage) Since last day update, minutes: %.1f, import: %d (%.2f/min), export: %d (%.2f/min)\n"), mins, im, ipm, ex, epm);
} }
tmElements_t last; tmElements_t last;
@@ -158,7 +167,7 @@ bool AmsDataStorage::update(AmsData* data) {
setHourExport(last.Hour, exp); setHourExport(last.Hour, exp);
if(debugger->isActive(RemoteDebug::INFO)) { if(debugger->isActive(RemoteDebug::INFO)) {
debugger->printf("(AmsDataStorage) Estimated usage for hour %u: %.1f - %.1f (%lu)\n", last.Hour, imp, exp, (int32_t) cur); debugger->printf_P(PSTR("(AmsDataStorage) Estimated usage for hour %u: %.1f - %.1f (%lu)\n"), last.Hour, imp, exp, (int32_t) cur);
} }
day.activeImport += imp; day.activeImport += imp;
@@ -171,29 +180,35 @@ bool AmsDataStorage::update(AmsData* data) {
// Update month plot // Update month plot
if(ltz.Hour == 0 && !isMonthHappy()) { if(ltz.Hour == 0 && !isMonthHappy()) {
if(month.activeImport == 0 || now - month.lastMeterReadTime > 2678400) { if(month.activeImport > importCounter || month.activeExport > exportCounter) {
month.activeImport = data->getActiveImportCounter() * 1000; month.activeImport = importCounter;
month.activeExport = data->getActiveExportCounter() * 1000; month.activeExport = exportCounter;
month.lastMeterReadTime = now;
setDayImport(ltzYesterDay.Day, 0);
setDayExport(ltzYesterDay.Day, 0);
} else if(month.activeImport == 0 || now - month.lastMeterReadTime > 2678400) {
month.activeImport = importCounter;
month.activeExport = exportCounter;
month.lastMeterReadTime = now; month.lastMeterReadTime = now;
if(debugger->isActive(RemoteDebug::WARNING)) { if(debugger->isActive(RemoteDebug::WARNING)) {
debugger->printf("(AmsDataStorage) Too long since last month update, clearing data\n"); debugger->printf_P(PSTR("(AmsDataStorage) Too long since last month update, clearing data\n"));
} }
for(int i = 1; i<=31; i++) { for(int i = 1; i<=31; i++) {
setDayImport(i, 0); setDayImport(i, 0);
setDayExport(i, 0); setDayExport(i, 0);
} }
} else if(now - month.lastMeterReadTime < 86500 && now - month.lastMeterReadTime > 86300) { } else if(now - month.lastMeterReadTime < 90100 && now - month.lastMeterReadTime > 82700) { // DST days are 23h (82800s) and 25h (90000)
int32_t imp = (data->getActiveImportCounter() * 1000) - month.activeImport; int32_t imp = importCounter - month.activeImport;
int32_t exp = (data->getActiveExportCounter() * 1000) - month.activeExport; int32_t exp = exportCounter - month.activeExport;
if(debugger->isActive(RemoteDebug::INFO)) { if(debugger->isActive(RemoteDebug::INFO)) {
debugger->printf("(AmsDataStorage) Usage for day %d: %d - %d\n", ltzYesterDay.Day, imp, exp); debugger->printf_P(PSTR("(AmsDataStorage) Usage for day %d: %d - %d\n"), ltzYesterDay.Day, imp, exp);
} }
setDayImport(ltzYesterDay.Day, imp); setDayImport(ltzYesterDay.Day, imp);
setDayExport(ltzYesterDay.Day, exp); setDayExport(ltzYesterDay.Day, exp);
month.activeImport = data->getActiveImportCounter() * 1000; month.activeImport = importCounter;
month.activeExport = data->getActiveExportCounter() * 1000; month.activeExport = exportCounter;
month.lastMeterReadTime = now; month.lastMeterReadTime = now;
} else { } else {
// Make sure last month read is at midnight // Make sure last month read is at midnight
@@ -201,17 +216,17 @@ bool AmsDataStorage::update(AmsData* data) {
breakTime(tz->toLocal(month.lastMeterReadTime), last); breakTime(tz->toLocal(month.lastMeterReadTime), last);
month.lastMeterReadTime = month.lastMeterReadTime - (last.Hour * 3600) - (last.Minute * 60) - last.Second; month.lastMeterReadTime = month.lastMeterReadTime - (last.Hour * 3600) - (last.Minute * 60) - last.Second;
if(debugger->isActive(RemoteDebug::DEBUG)) { if(debugger->isActive(RemoteDebug::DEBUG)) {
debugger->printf("(AmsDataStorage) Last month read after resetting to midnight: %lu\n", (int32_t) month.lastMeterReadTime); debugger->printf_P(PSTR("(AmsDataStorage) Last month read after resetting to midnight: %lu\n"), (int32_t) month.lastMeterReadTime);
} }
float hrs = (now - month.lastMeterReadTime) / 3600.0; float hrs = (now - month.lastMeterReadTime) / 3600.0;
uint32_t im = (data->getActiveImportCounter() * 1000) - month.activeImport; uint32_t im = importCounter - month.activeImport;
uint32_t ex = (data->getActiveExportCounter() * 1000) - month.activeExport; uint32_t ex = exportCounter - month.activeExport;
float iph = im / hrs; float iph = im / hrs;
float eph = ex / hrs; float eph = ex / hrs;
if(debugger->isActive(RemoteDebug::DEBUG)) { if(debugger->isActive(RemoteDebug::DEBUG)) {
debugger->printf("(AmsDataStorage) Since last month update, hours: %.1f, import: %d (%.2f/hr), export: %d (%.2f/hr)\n", hrs, im, iph, ex, eph); debugger->printf_P(PSTR("(AmsDataStorage) Since last month update, hours: %.1f, import: %d (%.2f/hr), export: %d (%.2f/hr)\n"), hrs, im, iph, ex, eph);
} }
time_t stopAt = now - (ltz.Hour * 3600) - (ltz.Minute * 60) - ltz.Second; time_t stopAt = now - (ltz.Hour * 3600) - (ltz.Minute * 60) - ltz.Second;
@@ -226,7 +241,7 @@ bool AmsDataStorage::update(AmsData* data) {
setDayExport(last.Day, exp); setDayExport(last.Day, exp);
if(debugger->isActive(RemoteDebug::INFO)) { if(debugger->isActive(RemoteDebug::INFO)) {
debugger->printf("(AmsDataStorage) Estimated usage for day %u: %.1f - %.1f (%lu)\n", last.Day, imp, exp, (int32_t) cur); debugger->printf_P(PSTR("(AmsDataStorage) Estimated usage for day %u: %.1f - %.1f (%lu)\n"), last.Day, imp, exp, (int32_t) cur);
} }
month.activeImport += imp; month.activeImport += imp;
@@ -398,7 +413,7 @@ uint32_t AmsDataStorage::getDayExport(uint8_t day) {
bool AmsDataStorage::load() { bool AmsDataStorage::load() {
if(!LittleFS.begin()) { if(!LittleFS.begin()) {
if(debugger->isActive(RemoteDebug::ERROR)) { if(debugger->isActive(RemoteDebug::ERROR)) {
debugger->printf("(AmsDataStorage) Unable to load LittleFS\n"); debugger->printf_P(PSTR("(AmsDataStorage) Unable to load LittleFS\n"));
} }
return false; return false;
} }
@@ -422,15 +437,13 @@ bool AmsDataStorage::load() {
ret = ret && setMonthData(*month); ret = ret && setMonthData(*month);
} }
LittleFS.end();
return ret; return ret;
} }
bool AmsDataStorage::save() { bool AmsDataStorage::save() {
if(!LittleFS.begin()) { if(!LittleFS.begin()) {
if(debugger->isActive(RemoteDebug::ERROR)) { if(debugger->isActive(RemoteDebug::ERROR)) {
debugger->printf("(AmsDataStorage) Unable to load LittleFS\n"); debugger->printf_P(PSTR("(AmsDataStorage) Unable to load LittleFS\n"));
} }
return false; return false;
} }
@@ -452,8 +465,6 @@ bool AmsDataStorage::save() {
} }
file.close(); file.close();
} }
LittleFS.end();
return true; return true;
} }
@@ -544,17 +555,17 @@ bool AmsDataStorage::isDayHappy() {
tmElements_t tm, last; tmElements_t tm, last;
if(now < day.lastMeterReadTime) { if(now < day.lastMeterReadTime) {
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(AmsDataStorage) Day %lu < %lu\n", (int32_t) now, (int32_t) day.lastMeterReadTime); if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf_P(PSTR("(AmsDataStorage) Day data timestamp %lu < %lu\n"), (int32_t) now, (int32_t) day.lastMeterReadTime);
return false;
}
if(now-day.lastMeterReadTime > 3600) {
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(AmsDataStorage) Day %lu - %lu > 3600\n", (int32_t) now, (int32_t) day.lastMeterReadTime);
return false; return false;
} }
breakTime(tz->toLocal(now), tm); breakTime(tz->toLocal(now), tm);
breakTime(tz->toLocal(day.lastMeterReadTime), last); breakTime(tz->toLocal(day.lastMeterReadTime), last);
if(now-day.lastMeterReadTime > 3600) {
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf_P(PSTR("(AmsDataStorage) Day data timestamp age %lu - %lu > 3600\n"), (int32_t) now, (int32_t) day.lastMeterReadTime);
return false;
}
if(tm.Hour > last.Hour) { if(tm.Hour > last.Hour) {
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(AmsDataStorage) Day %d > %d\n", tm.Hour, last.Hour); if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf_P(PSTR("(AmsDataStorage) Day data hour of last timestamp %d > %d\n"), tm.Hour, last.Hour);
return false; return false;
} }
@@ -563,7 +574,7 @@ bool AmsDataStorage::isDayHappy() {
bool AmsDataStorage::isMonthHappy() { bool AmsDataStorage::isMonthHappy() {
if(tz == NULL) { if(tz == NULL) {
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(AmsDataStorage) Timezone is missing\n"); if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf_P(PSTR("(AmsDataStorage) Timezone is missing\n"));
return false; return false;
} }
@@ -572,17 +583,14 @@ bool AmsDataStorage::isMonthHappy() {
tmElements_t tm, last; tmElements_t tm, last;
if(now < month.lastMeterReadTime) { if(now < month.lastMeterReadTime) {
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(AmsDataStorage) Month %lu < %lu\n", (int32_t) now, (int32_t) month.lastMeterReadTime); if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf_P(PSTR("(AmsDataStorage) Month data timestamp %lu < %lu\n"), (int32_t) now, (int32_t) month.lastMeterReadTime);
return false;
}
if(now-month.lastMeterReadTime > 86400) {
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(AmsDataStorage) Month %lu - %lu > 3600\n", (int32_t) now, (int32_t) month.lastMeterReadTime);
return false; return false;
} }
breakTime(tz->toLocal(now), tm); breakTime(tz->toLocal(now), tm);
breakTime(tz->toLocal(month.lastMeterReadTime), last); breakTime(tz->toLocal(month.lastMeterReadTime), last);
if(tm.Day > last.Day) { if(tm.Day > last.Day) {
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(AmsDataStorage) Month %d > %d\n", tm.Day, last.Day); if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf_P(PSTR("(AmsDataStorage) Month data day of last timestamp %d > %d\n"), tm.Day, last.Day);
return false; return false;
} }

4
lib/AmsDecoder/src/GcmParser.cpp
View File

@@ -44,6 +44,10 @@ int8_t GCMParser::parse(uint8_t *d, DataParserContext &ctx) {
ptr += 3; ptr += 3;
headersize += 3; headersize += 3;
} else {
len = *ptr;
ptr++;
headersize++;
} }
if(len + headersize > ctx.length) if(len + headersize > ctx.length)
return DATA_PARSE_INCOMPLETE; return DATA_PARSE_INCOMPLETE;

935
lib/ClassicUi/html/application.js
View File

@@ -1,935 +0,0 @@
var nextVersion;
var im, em;
var ds = 0;
var currency = "";
var swatt = false;
// Price plot
var pp;
var pa;
var po = {
title: 'Future energy price',
titleTextStyle: {
fontSize: 14
},
backgroundColor: { fill:'transparent' },
bar: { groupWidth: '90%' },
legend: { position: 'none' },
vAxis: {
viewWindowMode: 'maximized'
},
tooltip: { trigger: 'none'},
enableInteractivity: false,
};
var pl = null; // Last price
var tl = null; // Last temperature
// Day plot
var ep;
var ea;
var eo = {
title: 'Energy use last 24 hours',
titleTextStyle: {
fontSize: 14
},
colors: ['#6f42c1', '#6f42c1'],
backgroundColor: { fill:'transparent' },
bar: { groupWidth: '90%' },
legend: { position: 'none' },
vAxis: {
title: 'kWh',
viewWindowMode: 'maximized'
},
tooltip: { trigger: 'none'},
enableInteractivity: false,
isStacked: true
};
// Month plot
var mp;
var ma;
var mo = {
title: 'Energy use last month',
titleTextStyle: {
fontSize: 14
},
colors: ['#6f42c1', '#6f42c1'],
backgroundColor: { fill:'transparent' },
bar: { groupWidth: '90%' },
legend: { position: 'none' },
vAxis: {
title: 'kWh',
viewWindowMode: 'maximized'
},
tooltip: { trigger: 'none'},
enableInteractivity: false,
isStacked: true
};
// Voltage plot
var vp;
var va;
var vo = {
title: 'Phase voltage',
titleTextStyle: {
fontSize: 14
},
backgroundColor: { fill:'transparent' },
bar: { groupWidth: '90%' },
vAxis: {
minValue: 200,
maxValue: 260,
ticks: [
{ v: 207, f: '-10%'},
{ v: 230, f: '230V'},
{ v: 253, f: '+10%'}
]
},
legend: { position: 'none' },
tooltip: { trigger: 'none'},
enableInteractivity: false,
};
// Amperage plot
var ap;
var aa;
var ao = {
title: 'Phase current',
titleTextStyle: {
fontSize: 14
},
backgroundColor: { fill:'transparent' },
bar: { groupWidth: '90%' },
vAxis: {
minValue: 0,
maxValue: 100,
ticks: [
{ v: 25, f: '25%'},
{ v: 50, f: '50%'},
{ v: 75, f: '75%'},
{ v: 100, f: '100%'}
]
},
legend: { position: 'none' },
tooltip: { trigger: 'none'},
enableInteractivity: false,
};
// Import plot
var ip;
var ia;
var io = {
legend: 'none',
backgroundColor: {
fill:'transparent',
stroke: 'transparent'
},
pieHole: 0.6,
pieSliceText: 'none',
pieStartAngle: 216,
pieSliceBorderColor: 'transparent',
slices: {
0: { color: 'green' },
1: { color: '#eee' },
2: { color: 'transparent' }
},
legend: { position: 'none' },
tooltip: { trigger: 'none'},
enableInteractivity: false,
chartArea: {
left: 0,
top: 0,
width: '100%',
height: '100%',
backgroundColor: 'transparent'
}
};
// Export plot
var xp;
var xa;
var xo = {
legend: 'none',
backgroundColor: {
fill:'transparent',
stroke: 'transparent'
},
pieHole: 0.6,
pieSliceText: 'none',
pieStartAngle: 216,
pieSliceBorderColor: 'transparent',
slices: {
0: { color: 'green' },
1: { color: '#eee' },
2: { color: 'transparent' }
},
legend: { position: 'none' },
tooltip: { trigger: 'none'},
enableInteractivity: false,
chartArea: {
left: 0,
top: 0,
width: '100%',
height: '100%',
backgroundColor: 'transparent'
}
};
// Temperature plot
var td = false; // Disable temperature
var tp;
var ta;
var to = {
title: 'Temperature sensors',
titleTextStyle: {
fontSize: 14
},
backgroundColor: { fill:'transparent' },
bar: { groupWidth: '90%' },
legend: { position: 'none' },
vAxis: {
title: '°C',
viewWindowMode: 'maximized'
},
tooltip: { trigger: 'none'},
enableInteractivity: false,
};
$(function() {
var meters = $('.plot1');
if(meters.length > 0) {
// Chart
google.charts.load('current', {'packages':['corechart']});
google.charts.setOnLoadCallback(setupChart);
}
// For mqtt
$('#m').on('change', function() {
var inputs = $('.mc');
inputs.prop('disabled', !$(this).is(':checked'));
});
$('#f').on('change', function() {
var val = parseInt($(this).val());
if(val == 3) {
$('.f3-s').show();
} else {
$('.f3-s').hide();
}
});
$('#s').on('change', function() {
var port = $('#p');
if($(this).is(':checked')) {
if(port.val() == 1883) {
port.val(8883);
}
} else {
if(port.val() == 8883) {
port.val(1883);
}
}
});
$('#m').trigger('change');
$('#f').trigger('change');
// For wifi
$('#st').on('change', function() {
if($(this).is(':checked')) {
$('.sip').prop('disabled', false);
} else {
$('.sip').prop('disabled', true);
}
});
$('#st').trigger('change');
// For web
$('#as').on('change', function() {
var inputs = $('.ac');
inputs.prop('disabled', $(this).val() == 0);
});
$('#as').trigger('change');
// For file upload
$('#fileUploadField').on('change',function(){
var fileName = $(this).val();
$(this).next('.custom-file-label').html(fileName);
})
$('.upload-form').on('submit', function(i, form) {
$('#loading-indicator').show();
});
// For NTP
$('#n').on('change', function() {
var inputs = $('.nc');
inputs.prop('disabled', !$(this).is(':checked'));
});
$('#n').trigger('change');
$('.ipo,.epo').on('click', function() {
swatt = !swatt;
$('.ipo,.epo').html('wait');
});
// Navbar
switch(window.location.pathname) {
case '/temperature':
$('#temp-link').addClass('active');
break;
case '/price':
$('#price-link').addClass('active');
break;
case '/meter':
case '/wifi':
case '/mqtt':
case '/mqtt-ca':
case '/mqtt-cert':
case '/mqtt-key':
case '/domoticz':
case '/web':
case '/ntp':
case '/entsoe':
$('#config-link').addClass('active');
break;
case '/gpio':
case '/debugging':
case '/configfile':
case '/firmware':
$('#firmware-warn').show();
case '/reset':
$('#system-link').addClass('active');
break;
}
// Check for software upgrade
var swv = $('#swVersion');
var fwl = $('#fwLink');
if((meters.length > 0 || fwl.length > 0) && swv.length == 1) {
var v = swv.text().substring(1).split('.');
var v_major = parseInt(v[0]);
var v_minor = parseInt(v[1]);
var v_patch = parseInt(v[2]);
$.ajax({
url: swv.data('url'),
dataType: 'json'
}).done(function(releases) {
var isnew = false;
if(/^v\d{1,2}\.\d{1,2}\.\d{1,2}$/.test(swv.text()) && fwl.length == 0) {
releases.reverse();
var next_patch;
var next_minor;
var next_major;
$.each(releases, function(i, release) {
var ver2 = release.tag_name;
var v2 = ver2.substring(1).split('.');
var v2_major = parseInt(v2[0]);
var v2_minor = parseInt(v2[1]);
var v2_patch = parseInt(v2[2]);
if(v2_major == v_major) {
if(v2_minor == v_minor) {
if(v2_patch > v_patch) {
next_patch = release;
}
} else if(v2_minor == v_minor+1) {
next_minor = release;
}
} else if(v2_major == v_major+1) {
if(next_major) {
var mv = next_major.tag_name.substring(1).split('.');
var mv_major = parseInt(mv[0]);
var mv_minor = parseInt(mv[1]);
var mv_patch = parseInt(mv[2]);
if(v2_minor == mv_minor) {
next_major = release;
}
} else {
next_major = release;
}
}
});
if(next_minor) {
nextVersion = next_minor;
isnew = true;
} else if(next_major) {
nextVersion = next_major;
isnew = true;
} else if(next_patch) {
nextVersion = next_patch;
isnew = true;
}
} else {
nextVersion = releases[0];
}
if(nextVersion) {
if(fwl.length > 0) {
var chipset = fwl.data('chipset').toLowerCase();
$.each(releases, function(i, release) {
if(release.tag_name == nextVersion.tag_name) {
$.each(release.assets, function(i, asset) {
if(asset.name.includes(chipset) && !asset.name.includes("partitions")) {
fwl.prop('href', asset.browser_download_url);
$('#fwDownload').show();
return false;
}
});
}
});
};
if(isnew) {
$('#newVersionTag').text(nextVersion.tag_name);
$('#newVersionUrl').prop('href', nextVersion.html_url);
$('#newVersion').removeClass('d-none');
}
}
});
}
// Temperature
var tt = $('#temp-template');
if(tt.length > 0) {
setTimeout(loadTempSensors, 500);
}
});
var resizeTO;
$( window ).resize(function() {
if(resizeTO) clearTimeout(resizeTO);
resizeTO = setTimeout(function() {
$(this).trigger('resizeEnd');
}, 250);
});
$(window).on('resizeEnd', function() {
redraw();
});
var zeropad = function(num) {
num = num.toString();
while (num.length < 2) num = "0" + num;
return num;
}
var setupChart = function() {
pp = new google.visualization.ColumnChart(document.getElementById('pp'));
ep = new google.visualization.ColumnChart(document.getElementById('ep'));
mp = new google.visualization.ColumnChart(document.getElementById('mp'));
vp = new google.visualization.ColumnChart(document.getElementById('vp'));
ap = new google.visualization.ColumnChart(document.getElementById('ap'));
ip = new google.visualization.PieChart(document.getElementById('ip'));
xp = new google.visualization.PieChart(document.getElementById('xp'));
tp = new google.visualization.ColumnChart(document.getElementById('tp'));
fetch();
drawDay();
drawMonth();
};
var redraw = function() {
if(pl != null) {
pp.draw(pa, po);
}
ep.draw(ea, eo);
mp.draw(ma, mo);
vp.draw(va, vo);
ap.draw(aa, ao);
ip.draw(ia, io);
xp.draw(xa, xo);
tp.draw(ta, to);
if(tl != null) {
tp.draw(ta, to);
}
};
var drawPrices = function() {
$('#ppc').show();
$.ajax({
url: '/energyprice.json',
timeout: 30000,
dataType: 'json',
}).done(function(json) {
currency = json.currency;
data = [['Hour',json.currency + '/kWh', { role: 'style' }, { role: 'annotation' }]];
var r = 1;
var hour = moment.utc().hours();
var offset = moment().utcOffset()/60;
var min = 0;
var h = 0;
var d = json["20"] == null ? 2 : 1;
for(var i = hour; i<24; i++) {
var val = json[zeropad(h++)];
if(val == null) break;
data[r++] = [zeropad((i+offset)%24), val, "color: #6f42c1;opacity: 0.9;", val == null ? "" : val.toFixed(d)];
Math.min(0, val);
};
for(var i = 0; i < 24; i++) {
var val = json[zeropad(h++)];
if(val == null) break;
data[r++] = [zeropad((i+offset)%24), val, "color: #6f42c1;opacity: 0.9;", val == null ? "" : val.toFixed(d)];
Math.min(0, val);
};
pa = google.visualization.arrayToDataTable(data);
po.vAxis.title = json.currency;
if(min == 0)
po.vAxis.minValue = 0;
pp.draw(pa, po);
});
}
var drawDay = function() {
$.ajax({
url: '/dayplot.json',
timeout: 30000,
dataType: 'json',
}).done(function(json) {
data = [['Hour', 'Import', { role: 'style' }, { role: 'annotation' }, 'Export', { role: 'style' }, { role: 'annotation' }]];
var r = 1;
var hour = moment.utc().hours();
var offset = moment().utcOffset()/60;
var min = 0;
for(var i = hour; i<24; i++) {
var imp = json["i"+zeropad(i)];
var exp = json["e"+zeropad(i)];
data[r++] = [zeropad((i+offset)%24), imp, "opacity: 0.9;", imp == 0 ? "" : imp.toFixed(1), exp == 0 ? 0 : -exp, "opacity: 0.9;", exp == 0 ? "" : -exp.toFixed(1)];
min = Math.min(0, -exp);
};
for(var i = 0; i < hour; i++) {
var imp = json["i"+zeropad(i)];
var exp = json["e"+zeropad(i)];
data[r++] = [zeropad((i+offset)%24), imp, "opacity: 0.9;", imp == 0 ? "" : imp.toFixed(1), exp == 0 ? 0 : -exp, "opacity: 0.9;", exp == 0 ? "" : -exp.toFixed(1)];
min = Math.min(0, -exp);
};
ea = google.visualization.arrayToDataTable(data);
if(min == 0)
eo.vAxis.minValue = 0;
ep.draw(ea, eo);
setTimeout(drawDay, (61-moment().minute())*60000);
});
};
var drawMonth = function() {
$.ajax({
url: '/monthplot.json',
timeout: 30000,
dataType: 'json',
}).done(function(json) {
data = [['Hour', 'Import', { role: 'style' }, { role: 'annotation' }, 'Export', { role: 'style' }, { role: 'annotation' }]];
var r = 1;
var day = moment().date();
var eom = moment().subtract(1, 'months').endOf('month').date();
var min = 0;
for(var i = day; i<=eom; i++) {
var imp = json["i"+zeropad(i)];
var exp = json["e"+zeropad(i)];
data[r++] = [zeropad(i), imp, "opacity: 0.9;", imp == 0 ? "" : imp.toFixed(0), exp == 0 ? 0 : -exp, "opacity: 0.9;", exp == 0 ? "" : -exp.toFixed(0)];
min = Math.min(0, -exp);
}
for(var i = 1; i < day; i++) {
var imp = json["i"+zeropad(i)];
var exp = json["e"+zeropad(i)];
data[r++] = [zeropad(i), imp, "opacity: 0.9;", imp == 0 ? "" : imp.toFixed(0), exp == 0 ? 0 : -exp, "opacity: 0.9;", exp == 0 ? "" : -exp.toFixed(0)];
min = Math.min(0, -exp);
}
ma = google.visualization.arrayToDataTable(data);
if(min == 0)
mo.vAxis.minValue = 0;
mp.draw(ma, mo);
setTimeout(drawMonth, (24-moment().hour())*60000);
});
};
var drawTemperature = function() {
if(td) return;
$.ajax({
url: '/temperature.json',
timeout: 30000,
dataType: 'json',
}).done(function(json) {
if(json.c > 1) {
$('#tpc').show();
var r = 1;
var min = 0;
data = [['Sensor','°C', { role: 'style' }, { role: 'annotation' }]];
$.each(json.s, function(i, o) {
var name = o.n ? o.n : o.a;
data[r++] = [name, o.v, "color: #6f42c1;opacity: 0.9;", o.v.toFixed(1)];
Math.min(0, o.v);
});
if(min == 0)
to.vAxis.minValue = 0;
ta = google.visualization.arrayToDataTable(data);
ta.sort("Sensor");
tp.draw(ta, to);
td = false;
} else {
td = true;
}
});
};
var setStatus = function(id, sid) {
var item = $('#'+id);
item.removeClass('d-none');
item.removeClass (function (index, className) {
return (className.match (/(^|\s)badge-\S+/g) || []).join(' ');
});
var status;
if(sid == 0) {
status = "secondary";
} else if(sid == 1) {
status = "success";
} else if(sid == 2) {
status = "warning";
} else {
status = "danger";
}
item.addClass('badge badge-' + status);
};
var voltcol = function(pct) {
if(pct > 85) return '#d90000';
else if(pct > 75) return'#e32100';
else if(pct > 70) return '#ffb800';
else if(pct > 65) return '#dcd800';
else if(pct > 35) return '#32d900';
else if(pct > 25) return '#dcd800';
else if(pct > 20) return '#ffb800';
else if(pct > 15) return'#e32100';
else return '#d90000';
};
var ampcol = function(pct) {
if(pct > 90) return '#d90000';
else if(pct > 85) return'#e32100';
else if(pct > 80) return '#ffb800';
else if(pct > 75) return '#dcd800';
else return '#32d900';
};
var retrycount = 0;
var interval = 5000;
var fetch = function() {
$.ajax({
url: '/data.json',
timeout: 10000,
dataType: 'json',
}).done(function(json) {
retrycount = 0;
for(var id in json) {
var str = json[id];
if(typeof str === "object") {
continue;
}
if(isNaN(str)) {
$('.j'+id).html(str);
} else {
var num = parseFloat(str);
$('.j'+id).html(num.toFixed(num < 0 ? 0 : num < 10 ? 2 : 1));
}
$('.r'+id).show();
}
if(window.moment) {
$('.ju').html(moment.duration(parseInt(json.u), 'seconds').humanize());
}
ds = parseInt(json.ds);
var kib = parseInt(json.m)/1000;
$('.jm').html(kib.toFixed(1));
if(kib > 32) {
$('.ssl-capable').removeClass('d-none');
}
setStatus("esp", json.em);
setStatus("han", json.hm);
setStatus("wifi", json.wm);
setStatus("mqtt", json.mm);
if(ip) {
var v = parseInt(json.i);
var pct = Math.min((v*100)/parseInt(json.im), 100);
var append = "W";
if(v > 1000 && !swatt) {
v = (v/1000).toFixed(1);
append = "kW";
}
$('.ipo').html(v);
$('.ipoa').html(append);
var arr = [
['Slice', 'Value'],
['', (pct*2.88)],
['', ((100-pct)*2.88)],
['', 72],
];
io.slices[0].color = ampcol(pct);
ia = google.visualization.arrayToDataTable(arr);
ip.draw(ia, io);
}
var om = parseInt(json.om);
if(om > 0) {
$('.rex').show();
$('.rim').hide();
if(xp) {
var v = parseInt(json.e);
var pct = Math.min((v*100)/(om*1000), 100);
var append = "W";
if(v > 1000 && !swatt) {
v = (v/1000).toFixed(1);
append = "kW";
}
$('.epo').html(v);
$('.epoa').html(append);
var arr = [
['Slice', 'Value'],
['', (pct*2.88)],
['', ((100-pct)*2.88)],
['', 72],
];
xo.slices[0].color = ampcol(pct);
xa = google.visualization.arrayToDataTable(arr);
xp.draw(xa, xo);
}
} else {
$('.rex').hide();
$('.rim').show();
}
if(vp) {
switch(ds) {
case 1:
vo.title = 'Voltage between';
break;
case 2:
vo.title = 'Phase voltage';
break;
}
var c = 0;
var t = 0;
var r = 1;
var arr = [['Phase', 'Voltage', { role: 'style' }, { role: 'annotation' }]];
if(json.u1) {
var u1 = parseFloat(json.u1);
t += u1;
c++;
var pct = Math.min(Math.max(parseFloat(json.u1)-195.5, 1)*100/69, 100);
arr[r++] = [ds == 1 ? 'L1-L2' : 'L1', u1, "color: " + voltcol(pct) + ";opacity: 0.9;", u1 + "V"];
}
if(json.u2) {
var u2 = parseFloat(json.u2);
t += u2;
c++;
var pct = Math.min(Math.max(parseFloat(json.u2)-195.5, 1)*100/69, 100);
arr[r++] = [ds == 1 ? 'L1-L3' : 'L2', u2, "color: " + voltcol(pct) + ";opacity: 0.9;", u2 + "V"];
}
if(json.u3) {
var u3 = parseFloat(json.u3);
t += u3;
c++;
var pct = Math.min(Math.max(parseFloat(json.u3)-195.5, 1)*100/69, 100);
arr[r++] = [ds == 1 ? 'L2-L3' : 'L3', u3, "color: " + voltcol(pct) + ";opacity: 0.9;", u3 + "V"];
}
v = t/c;
if(v > 0) {
va = google.visualization.arrayToDataTable(arr);
vp.draw(va, vo);
}
}
if(ap && json.mf) {
switch(ds) {
case 1:
ao.title = 'Line current';
break;
case 2:
ao.title = 'Phase current';
break;
}
var dA = false;
var r = 1;
var arr = [['Phase', 'Amperage', { role: 'style' }, { role: 'annotation' }]];
if(json.i1 || json.u1) {
var i1 = parseFloat(json.i1);
dA = true;
var pct = Math.min((parseFloat(json.i1)/parseInt(json.mf))*100, 100);
arr[r++] = ['L1', pct, "color: " + ampcol(pct) + ";opacity: 0.9;", i1 + "A"];
}
if(json.i2 || json.u2) {
var i2 = parseFloat(json.i2);
dA = true;
var pct = Math.min((parseFloat(json.i2)/parseInt(json.mf))*100, 100);
arr[r++] = ['L2', pct, "color: " + ampcol(pct) + ";opacity: 0.9;", i2 + "A"];
}
if(json.i3 || json.u3) {
var i3 = parseFloat(json.i3);
dA = true;
var pct = Math.min((parseFloat(json.i3)/parseInt(json.mf))*100, 100);
arr[r++] = ['L3', pct, "color: " + ampcol(pct) + ";opacity: 0.9;", i3 + "A"];
}
if(dA) {
aa = google.visualization.arrayToDataTable(arr);
ap.draw(aa, ao);
}
}
if(json.ea) {
$('#each').html(json.ea.h.u.toFixed(2));
$('#eachc').html(json.ea.h.c.toFixed(2));
$('#eacd').html(json.ea.d.u.toFixed(1));
$('#eacdc').html(json.ea.d.c.toFixed(1));
$('#eacm').html(json.ea.m.u.toFixed(0));
$('#eacmc').html(json.ea.m.c.toFixed(0));
$('#eax').html(json.ea.x.toFixed(1));
$('#eat').html(json.ea.t.toFixed(0));
$('.cr').html(currency);
if(currency) {
$('.sp').show();
}
if(om > 0) {
$('.se').removeClass('d-none');
$('#eache').html(json.ea.h.p.toFixed(2));
$('#eacde').html(json.ea.d.p.toFixed(1));
$('#eacme').html(json.ea.m.p.toFixed(0));
}
}
if(json.me) {
$('.me').addClass('d-none');
$('.me'+json.me).removeClass('d-none');
$('#ml').html(json.me);
}
var temp = parseFloat(json.t);
if(temp == -127.0) {
$('.jt').html("N/A");
$('.rt').hide();
} else {
$('.rt').show();
if(tl != temp) {
drawTemperature();
}
tl = temp;
}
var vcc = parseFloat(json.v);
if(vcc > 0.0) {
$('.rv').show();
} else {
$('.rv').hide();
}
var unixtime = moment().unix();
var ts = parseInt(json.c);
if(Math.abs(unixtime-ts) < 300) {
$('.jc').html(moment(ts * 1000).format('DD. MMM HH:mm'));
$('.jc').removeClass('text-danger');
} else {
$('.jc').html(moment(ts * 1000).format('DD.MM.YYYY HH:mm'));
$('.jc').addClass('text-danger');
}
var mt = parseInt(json.mt);
switch(mt) {
case 1:
$('.jmt').html("Aidon");
break;
case 2:
$('.jmt').html("Kaifa");
break;
case 3:
$('.jmt').html("Kamstrup");
break;
case 8:
$('.jmt').html("Iskra");
break;
case 9:
$('.jmt').html("Landis+Gyr");
break;
case 10:
$('.jmt').html("Sagemcom");
break;
default:
$('.jmt').html("");
}
setTimeout(fetch, interval);
var price = parseFloat(json.p);
if(price && price != pl) {
pl = price;
drawPrices();
}
}).fail(function(x, text, error) {
if(retrycount > 2) {
console.log("Failed request");
console.log(text);
console.log(error);
setTimeout(fetch, interval*4);
setStatus("mqtt", 0);
setStatus("wifi", 0);
setStatus("han", 0);
setStatus("esp", 3);
} else {
setTimeout(fetch, interval);
}
retrycount++;
});
}
var upgrade = function() {
if(nextVersion) {
if(confirm("WARNING: If you have a M-BUS powered device (Pow-U), please keep USB power connected while upgrading.\n\nAre you sure you want to perform upgrade to " + nextVersion.tag_name + "?")) {
$('#loading-indicator').show();
window.location.href="/upgrade?version=" + nextVersion.tag_name;
}
}
}
var loadTempSensors = function() {
$.ajax({
url: '/temperature.json',
timeout: 10000,
dataType: 'json',
}).done(function(json) {
if($('#loading').length > 0) {
$('#loading').hide();
var list = $('#sensors');
if(json.c > 0) {
list.empty();
var temp = $.trim($('#temp-template').html());
$.each(json.s, function(i, o) {
var item = temp.replace(/{{index}}/ig, o.i);
var item = item.replace(/{{address}}/ig, o.a);
var item = item.replace(/{{name}}/ig, o.n);
var item = item.replace(/{{value}}/ig, o.v > -50 && o.v < 127 ? o.v : "N/A");
var item = item.replace(/{{common}}/ig, o.c ? "checked" : "");
list.append(item);
});
} else {
$('#notemp').show();
}
} else {
$.each(json.s, function(i, o) {
$('#temp-'+o.i).html(o.v > -50 && o.v < 127 ? o.v : "N/A");
});
}
setTimeout(loadTempSensors, 10000);
}).fail(function() {
setTimeout(loadTempSensors, 60000);
$('#loading').hide();
$('#error').show();
});
}

432
lib/ClassicUi/html/boot.css
View File

@@ -1,432 +0,0 @@
/* Ripped necessary style from bootstrap 4.4.1 to make the page look good without internet access. Meant to be overridden by CSS from CDN */
:root {
--blue: #007bff;
--indigo: #6610f2;
--purple: #6f42c1;
--pink: #e83e8c;
--red: #dc3545;
--orange: #fd7e14;
--yellow: #ffc107;
--green: #28a745;
--teal: #20c997;
--cyan: #17a2b8;
--white: #fff;
--gray: #6c757d;
--gray-dark: #343a40;
--primary: #007bff;
--secondary: #6c757d;
--success: #28a745;
--info: #17a2b8;
--warning: #ffc107;
--danger: #dc3545;
--light: #f8f9fa;
--dark: #343a40;
--breakpoint-xs: 0;
--breakpoint-sm: 576px;
--breakpoint-md: 768px;
--breakpoint-lg: 992px;
--breakpoint-xl: 1200px;
--font-family-sans-serif: -apple-system,BlinkMacSystemFont,"Segoe UI",Roboto,"Helvetica Neue",Arial,"Noto Sans",sans-serif,"Apple Color Emoji","Segoe UI Emoji","Segoe UI Symbol","Noto Color Emoji";
--font-family-monospace: SFMono-Regular,Menlo,Monaco,Consolas,"Liberation Mono","Courier New",monospace;
}
html {
font-family: sans-serif;
line-height: 1.15;
-webkit-text-size-adjust: 100%;
-webkit-tap-highlight-color: transparent;
color: -internal-root-color;
}
body {
display: block;
margin: 8px;
font-family: -apple-system,BlinkMacSystemFont,"Segoe UI",Roboto,"Helvetica Neue",Arial,"Noto Sans",sans-serif,"Apple Color Emoji","Segoe UI Emoji","Segoe UI Symbol","Noto Color Emoji";
font-size: 1rem;
font-weight: 400;
line-height: 1.5;
color: #212529;
text-align: left;
background-color: #fff;
}
.bg-white {
background-color: #fff!important;
}
.bg-light {
background-color: #f8f9fa!important;
}
.bg-purple {
background-color: var(--purple);
}
.mt-2, .my-2 {
margin-top: .5rem!important;
}
.p-3 {
padding: 1rem!important;
}
.mb-3, .my-3 {
margin-bottom: 1rem!important;
}
.mt-3, .my-3 {
margin-top: 1rem!important;
}
.mb-4, .my-4 {
margin-bottom: 1.5rem!important;
}
.shadow {
box-shadow: 0 .5rem 1rem rgba(0,0,0,.15)!important;
}
.rounded {
border-radius: .25rem!important;
}
.container {
width: 100%;
padding-right: 15px;
padding-left: 15px;
margin-right: auto;
margin-left: auto;
}
article, aside, figcaption, figure, footer, header, hgroup, main, nav, section {
display: block;
}
main {
display: block;
}
.text-right {
text-align: right!important;
}
.h1, .h2, .h3, .h4, .h5, .h6, h1, h2, h3, h4, h5, h6 {
margin-bottom: .5rem;
font-weight: 500;
line-height: 1.2;
}
h1, h2, h3, h4, h5, h6 {
margin-top: 0;
margin-bottom: .5rem;
}
.h5, h5 {
font-size: 1.25rem;
}
.h6, h6 {
font-size: 1rem;
}
.row {
display: -ms-flexbox;
display: flex;
-ms-flex-wrap: wrap;
flex-wrap: wrap;
margin-right: -15px;
margin-left: -15px;
}
.col, .col-1, .col-10, .col-11, .col-12, .col-2, .col-3, .col-4, .col-5, .col-6, .col-7, .col-8, .col-9, .col-auto, .col-lg, .col-lg-1, .col-lg-10, .col-lg-11, .col-lg-12, .col-lg-2, .col-lg-3, .col-lg-4, .col-lg-5, .col-lg-6, .col-lg-7, .col-lg-8, .col-lg-9, .col-lg-auto, .col-md, .col-md-1, .col-md-10, .col-md-11, .col-md-12, .col-md-2, .col-md-3, .col-md-4, .col-md-5, .col-md-6, .col-md-7, .col-md-8, .col-md-9, .col-md-auto, .col-sm, .col-sm-1, .col-sm-10, .col-sm-11, .col-sm-12, .col-sm-2, .col-sm-3, .col-sm-4, .col-sm-5, .col-sm-6, .col-sm-7, .col-sm-8, .col-sm-9, .col-sm-auto, .col-xl, .col-xl-1, .col-xl-10, .col-xl-11, .col-xl-12, .col-xl-2, .col-xl-3, .col-xl-4, .col-xl-5, .col-xl-6, .col-xl-7, .col-xl-8, .col-xl-9, .col-xl-auto {
position: relative;
width: 100%;
padding-right: 15px;
padding-left: 15px;
}
.col-6 {
-ms-flex: 0 0 50%;
flex: 0 0 50%;
max-width: 50%;
}
.d-none {
display: none!important;
}
.flex-row {
-ms-flex-direction: row!important;
flex-direction: row!important;
}
.flex-column {
-ms-flex-direction: column!important;
flex-direction: column!important;
}
a {
color: #007bff;
text-decoration: none;
background-color: transparent;
}
.btn {
display: inline-block;
font-weight: 400;
color: #212529;
text-align: center;
vertical-align: middle;
cursor: pointer;
-webkit-user-select: none;
-moz-user-select: none;
-ms-user-select: none;
user-select: none;
background-color: transparent;
border: 1px solid transparent;
padding: .375rem .75rem;
font-size: 1rem;
line-height: 1.5;
border-radius: .25rem;
transition: color .15s ease-in-out,background-color .15s ease-in-out,border-color .15s ease-in-out,box-shadow .15s ease-in-out;
}
.btn-group-sm>.btn, .btn-sm {
padding: .25rem .5rem;
font-size: .875rem;
line-height: 1.5;
border-radius: .2rem;
}
.btn-primary {
color: #fff;
background-color: #007bff;
border-color: #007bff;
}
.navbar {
position: relative;
display: -ms-flexbox;
display: flex;
-ms-flex-wrap: wrap;
flex-wrap: wrap;
-ms-flex-align: center;
align-items: center;
-ms-flex-pack: justify;
justify-content: space-between;
padding: .5rem 1rem;
}
.navbar-dark .navbar-brand {
color: #fff;
}
.navbar-expand {
-ms-flex-flow: row nowrap;
flex-flow: row nowrap;
-ms-flex-pack: start;
justify-content: flex-start;
}
.navbar-nav {
display: -ms-flexbox;
display: flex;
-ms-flex-direction: column;
flex-direction: column;
padding-left: 0;
margin-bottom: 0;
list-style: none;
}
.navbar-expand .navbar-nav {
-ms-flex-direction: row;
flex-direction: row;
}
.navbar-brand {
display: inline-block;
padding-top: .3125rem;
padding-bottom: .3125rem;
margin-right: 1rem;
font-size: 1.25rem;
line-height: inherit;
white-space: nowrap;
}
.navbar-dark .navbar-nav .nav-link {
color: rgba(255,255,255,.5);
}
.navbar-expand .navbar-nav .nav-link {
padding-right: .5rem;
padding-left: .5rem;
}
.navbar-nav .nav-link {
padding-right: 0;
padding-left: 0;
}
.nav-link {
display: block;
padding: .5rem 1rem;
}
.navbar-dark .navbar-nav .active>.nav-link, .navbar-dark .navbar-nav .nav-link.active, .navbar-dark .navbar-nav .nav-link.show, .navbar-dark .navbar-nav .show>.nav-link {
color: #fff;
}
.form-group {
margin-bottom: 1rem;
}
.form-control {
display: block;
width: 100%;
height: calc(1.5em + .75rem + 2px);
padding: .375rem .75rem;
font-size: 1rem;
font-weight: 400;
line-height: 1.5;
color: #495057;
background-color: #fff;
background-clip: padding-box;
border: 1px solid #ced4da;
border-radius: .25rem;
transition: border-color .15s ease-in-out,box-shadow .15s ease-in-out;
}
.form-control:disabled, .form-control[readonly] {
background-color: #e9ecef;
opacity: 1;
}
input:not([type="image" i]) {
box-sizing: border-box;
}
button, input {
overflow: visible;
}
button, input, optgroup, select, textarea {
margin: 0;
font-family: inherit;
font-size: inherit;
line-height: inherit;
}
input[type="radio"], input[type="checkbox"] {
box-sizing: border-box;
padding: 0;
}
.input-group {
position: relative;
display: -ms-flexbox;
display: flex;
-ms-flex-wrap: wrap;
flex-wrap: wrap;
-ms-flex-align: stretch;
align-items: stretch;
width: 100%;
}
.input-group-append {
margin-left: -1px;
}
.input-group-prepend {
margin-right: -1px;
}
.input-group-append, .input-group-prepend {
display: -ms-flexbox;
display: flex;
}
.input-group>.input-group-append>.btn, .input-group>.input-group-append>.input-group-text, .input-group>.input-group-prepend:first-child>.btn:not(:first-child), .input-group>.input-group-prepend:first-child>.input-group-text:not(:first-child), .input-group>.input-group-prepend:not(:first-child)>.btn, .input-group>.input-group-prepend:not(:first-child)>.input-group-text {
border-top-left-radius: 0;
border-bottom-left-radius: 0;
}
.input-group>.input-group-append:last-child>.btn:not(:last-child):not(.dropdown-toggle), .input-group>.input-group-append:last-child>.input-group-text:not(:last-child), .input-group>.input-group-append:not(:last-child)>.btn, .input-group>.input-group-append:not(:last-child)>.input-group-text, .input-group>.input-group-prepend>.btn, .input-group>.input-group-prepend>.input-group-text {
border-top-right-radius: 0;
border-bottom-right-radius: 0;
}
.input-group>.custom-select:not(:first-child), .input-group>.form-control:not(:first-child) {
border-top-left-radius: 0;
border-bottom-left-radius: 0;
}
.input-group-text {
display: -ms-flexbox;
display: flex;
-ms-flex-align: center;
align-items: center;
padding: .375rem .75rem;
margin-bottom: 0;
font-size: 1rem;
font-weight: 400;
line-height: 1.5;
color: #495057;
text-align: center;
white-space: nowrap;
background-color: #e9ecef;
border: 1px solid #ced4da;
border-radius: .25rem;
}
.input-group>.custom-select:not(:last-child), .input-group>.form-control:not(:last-child) {
border-top-right-radius: 0;
border-bottom-right-radius: 0;
}
.input-group>.custom-file, .input-group>.custom-select, .input-group>.form-control, .input-group>.form-control-plaintext {
position: relative;
-ms-flex: 1 1 0%;
flex: 1 1 0%;
min-width: 0;
margin-bottom: 0;
}
hr {
margin-top: 1rem;
margin-bottom: 1rem;
border: 0;
border-top: 1px solid rgba(0,0,0,.1);
box-sizing: content-box;
height: 0;
overflow: visible;
}
ul {
display: block;
list-style-type: disc;
margin-block-start: 1em;
margin-block-end: 1em;
margin-inline-start: 0px;
margin-inline-end: 0px;
padding-inline-start: 40px;
}
li {
display: list-item;
text-align: -webkit-match-parent;
}
dl, ol, ul {
margin-top: 0;
margin-bottom: 1rem;
}
@media (min-width: 576px) {
.container, .container-sm {
max-width: 540px;
}
.col-sm-6 {
-ms-flex: 0 0 50%;
flex: 0 0 50%;
max-width: 50%;
}
}
@media (min-width: 768px) {
.container, .container-md, .container-sm {
max-width: 720px;
}
.col-md-3 {
-ms-flex: 0 0 25%;
flex: 0 0 25%;
max-width: 25%;
}
.col-md-6 {
-ms-flex: 0 0 50%;
flex: 0 0 50%;
max-width: 50%;
}
.d-md-flex {
display: -ms-flexbox!important;
display: flex!important;
}
.flex-md-row {
-ms-flex-direction: row!important;
flex-direction: row!important;
}
.ml-md-auto, .mx-md-auto {
margin-left: auto!important;
}
}
@media (min-width: 992px) {
.container, .container-lg, .container-md, .container-sm {
max-width: 960px;
}
.col-lg-4 {
-ms-flex: 0 0 33.333333%;
flex: 0 0 33.333333%;
max-width: 33.333333%;
}
}
@media (min-width: 1200px) {
.container, .container-lg, .container-md, .container-sm, .container-xl {
max-width: 1140px;
}
.col-xl-2 {
-ms-flex: 0 0 16.666667%;
flex: 0 0 16.666667%;
max-width: 16.666667%;
}
.col-xl-3 {
-ms-flex: 0 0 25%;
flex: 0 0 25%;
max-width: 25%;
}
.col-xl-4 {
-ms-flex: 0 0 33.333333%;
flex: 0 0 33.333333%;
max-width: 33.333333%;
}
}
*, ::after, ::before {
box-sizing: border-box;
}

71
lib/ClassicUi/html/configfile.html
View File

@@ -1,71 +0,0 @@
<form method="get" action="/configfile.cfg">
<div class="my-3 p-3 bg-white rounded shadow">
<h6>Download configuration</h6>
<div class="row">
<div class="col-xl-2 col-md-3 col-sm-6">
<label><input type="checkbox" name="iw" value="true" checked/> WiFi</label>
</div>
<div class="col-xl-2 col-md-3 col-sm-6">
<label><input type="checkbox" name="im" value="true" checked/> MQTT</label>
</div>
<div class="col-xl-2 col-md-3 col-sm-6">
<label><input type="checkbox" name="ie" value="true" checked/> Web</label>
</div>
<div class="col-xl-2 col-md-3 col-sm-6">
<label><input type="checkbox" name="it" value="true" checked/> Meter</label>
</div>
<div class="col-xl-2 col-md-3 col-sm-6">
<label><input type="checkbox" name="ih" value="true" checked/> Thresholds</label>
</div>
<div class="col-xl-2 col-md-3 col-sm-6">
<label><input type="checkbox" name="ig" value="true" checked/> GPIO</label>
</div>
<div class="col-xl-2 col-md-3 col-sm-6">
<label><input type="checkbox" name="id" value="true" checked/> Domoticz</label>
</div>
<div class="col-xl-2 col-md-3 col-sm-6">
<label><input type="checkbox" name="in" value="true" checked/> NTP</label>
</div>
<div class="col-xl-2 col-md-3 col-sm-6">
<label><input type="checkbox" name="is" value="true" checked/> ENTSO-E</label>
</div>
<div class="col-xl-6 col-md-8">
<label><input type="checkbox" name="ic" value="true"/> Include Secrets (SSID, PSK, passwords and tokens)</label>
</div>
</div>
<div class="row">
<div class="col-12 text-right">
<button class="btn btn-primary">Download</button>
</div>
</div>
</div>
</form>
<form method="post" enctype="multipart/form-data" class="upload-form">
<div class="my-3 p-3 bg-white rounded shadow">
<h6>Upload configuration</h6>
<div class="row">
<div class="col-lg-6">
<div class="input-group mb-3">
<div class="input-group-prepend">
<span class="input-group-text">Upload</span>
</div>
<div class="custom-file">
<input name="file" type="file" class="custom-file-input" id="fileUploadField">
<label class="custom-file-label" for="fileUploadField">Choose file</label>
</div>
</div>
</div>
</div>
<div class="row">
<div class="col-12 text-right">
<button class="btn btn-primary">Upload</button>
</div>
</div>
</div>
</form>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="/" class="btn btn-outline-secondary">Back</a>
</div>
</div>

60
lib/ClassicUi/html/data.json
View File

@@ -1,60 +0,0 @@
{
"im" : %d,
"om" : %d,
"mf" : %d,
"i" : %d,
"e" : %d,
"ri" : %d,
"re" : %d,
"ic" : %.3f,
"ec" : %.3f,
"ric" : %.3f,
"rec" : %.3f,
"u1" : %.2f,
"u2" : %.2f,
"u3" : %.2f,
"i1" : %.2f,
"i2" : %.2f,
"i3" : %.2f,
"f" : %.2f,
"f1" : %.2f,
"f2" : %.2f,
"f3" : %.2f,
"v" : %.3f,
"r" : %d,
"t" : %.2f,
"u" : %u,
"m" : %u,
"em" : %d,
"hm" : %d,
"wm" : %d,
"mm" : %d,
"me" : %d,
"p" : %s,
"mt" : %d,
"ds" : %d,
"ea" : {
"x" : %.1f,
"p" : [ %s ],
"t" : %d,
"h" : {
"u" : %.2f,
"c" : %.2f,
"p" : %.2f,
"i" : %.2f
},
"d" : {
"u" : %.2f,
"c" : %.2f,
"p" : %.2f,
"i" : %.2f
},
"m" : {
"u" : %.2f,
"c" : %.2f,
"p" : %.2f,
"i" : %.2f
}
},
"c" : %u
}

50
lib/ClassicUi/html/dayplot.json
View File

@@ -1,50 +0,0 @@
{
"i00" : %.2f,
"i01" : %.2f,
"i02" : %.2f,
"i03" : %.2f,
"i04" : %.2f,
"i05" : %.2f,
"i06" : %.2f,
"i07" : %.2f,
"i08" : %.2f,
"i09" : %.2f,
"i10" : %.2f,
"i11" : %.2f,
"i12" : %.2f,
"i13" : %.2f,
"i14" : %.2f,
"i15" : %.2f,
"i16" : %.2f,
"i17" : %.2f,
"i18" : %.2f,
"i19" : %.2f,
"i20" : %.2f,
"i21" : %.2f,
"i22" : %.2f,
"i23" : %.2f,
"e00" : %.2f,
"e01" : %.2f,
"e02" : %.2f,
"e03" : %.2f,
"e04" : %.2f,
"e05" : %.2f,
"e06" : %.2f,
"e07" : %.2f,
"e08" : %.2f,
"e09" : %.2f,
"e10" : %.2f,
"e11" : %.2f,
"e12" : %.2f,
"e13" : %.2f,
"e14" : %.2f,
"e15" : %.2f,
"e16" : %.2f,
"e17" : %.2f,
"e18" : %.2f,
"e19" : %.2f,
"e20" : %.2f,
"e21" : %.2f,
"e22" : %.2f,
"e23" : %.2f
}

43
lib/ClassicUi/html/debugging.html
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@@ -1,43 +0,0 @@
<div class="alert alert-danger">
!!WARNING!!<br/>
Telnet debugging is not considered safe and should be switched off when not in use.<br/>
<br/>
!!WARNING!!<br/>
Enabling debugging can cause sudden reboots. Do not leave this on unless you are debugging!
</div>
<form method="post" action="/save">
<input type="hidden" name="debugConfig" value="true"/>
<div class="my-3 p-3 bg-white rounded shadow">
<h6>Debugging</h6>
<div class="row">
<div class="col-xl-2 col-md-3">
<label><input type="checkbox" name="debugTelnet" value="true" %s/> Telnet debugger</label>
</div>
<div class="col-xl-2 col-md-3">
<label><input type="checkbox" name="debugSerial" value="true" %s/> Serial debugger</label>
</div>
<div class="col-xl-3 col-md-4">
<div class="row form-group">
<label class="col-6">Debug level</label>
<div class="col-6">
<select class="form-control form-control-sm" name="debugLevel">
<option value="1" %s>Verbose</option>
<option value="2" %s>Debug</option>
<option value="3" %s>Info</option>
<option value="4" %s>Warning</option>
</select>
</div>
</div>
</div>
</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="/" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-primary">Save</button>
</div>
</div>
</form>

14
lib/ClassicUi/html/delete.html
View File

@@ -1,14 +0,0 @@
<form method="post">
<div class="my-3 p-3 bg-white rounded shadow">
<div class="alert alert-warning">Are you sure you want to delete this file?</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="javascript:history.back();" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-danger">Delete</button>
</div>
</div>
</form>

48
lib/ClassicUi/html/domoticz.html
View File

@@ -1,48 +0,0 @@
<form method="post" action="/save">
<input type="hidden" name="dc" value="true"/>
<div class="my-3 p-3 bg-white rounded shadow">
<div class="d-flex flex-row flex-wrap">
<div class="m-2 input-group input-group-sm" style="width: 200px;">
<div class="input-group-prepend">
<span class="input-group-text">Electricity IDX</span>
</div>
<input type="number" class="form-control" name="elidx" value="%d" min="0" max="65535"/>
</div>
<div class="m-2 input-group input-group-sm" style="width: 240px;">
<div class="input-group-prepend">
<span class="input-group-text">Current (3 Phase) IDX</span>
</div>
<input type="number" class="form-control" name="cl1idx" value="%d" min="0" max="65535"/>
</div>
</div>
<div class="d-flex flex-row flex-wrap">
<div class="m-2 input-group input-group-sm" style="width: 200px;">
<div class="input-group-prepend">
<span class="input-group-text">Voltage L1 IDX</span>
</div>
<input type="number" class="form-control" name="vl1idx" value="%d" min="0" max="65535"/>
</div>
<div class="m-2 input-group input-group-sm" style="width: 200px;">
<div class="input-group-prepend">
<span class="input-group-text">Voltage L2 IDX</span>
</div>
<input type="number" class="form-control" name="vl2idx" value="%d" min="0" max="65535"/>
</div>
<div class="m-2 input-group input-group-sm" style="width: 200px;">
<div class="input-group-prepend">
<span class="input-group-text">Voltage L3 IDX</span>
</div>
<input type="number" class="form-control" name="vl3idx" value="%d" min="0" max="65535"/>
</div>
</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="/mqtt" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-primary">Save</button>
</div>
</div>
</form>

39
lib/ClassicUi/html/energyprice.json
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@@ -1,39 +0,0 @@
{
"currency" : "%s",
"00" : %s,
"01" : %s,
"02" : %s,
"03" : %s,
"04" : %s,
"05" : %s,
"06" : %s,
"07" : %s,
"08" : %s,
"09" : %s,
"10" : %s,
"11" : %s,
"12" : %s,
"13" : %s,
"14" : %s,
"15" : %s,
"16" : %s,
"17" : %s,
"18" : %s,
"19" : %s,
"20" : %s,
"21" : %s,
"22" : %s,
"23" : %s,
"24" : %s,
"25" : %s,
"26" : %s,
"27" : %s,
"28" : %s,
"29" : %s,
"30" : %s,
"31" : %s,
"32" : %s,
"33" : %s,
"34" : %s,
"35" : %s
}

50
lib/ClassicUi/html/firmware.html
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@@ -1,50 +0,0 @@
<div class="alert alert-danger">
WARNING: Units powered by M-BUS (Pow-U) must be connected to an external power supply during firmware upload. Failure to do so may cause power-down during upload resulting in non-functioning unit.
</div>
<div class="alert alert-warning">
Your board is using {chipset} chipset. Only upload firmware designed for this chipset. Failure to do so may result in non-functioning unit.
<span id="fwDownload" style="display: none;"><br/>Download latest firmware file <a id="fwLink" href="#" data-chipset="{chipset}">here</a></span>
</div>
<div class="alert alert-warning">
When using URL, only a valid ESP OTA server response will be accepted.
</div>
<form method="post" enctype="multipart/form-data" class="upload-form">
<div class="my-3 p-3 bg-white rounded shadow">
<div class="row">
<div class="col-lg-6">
<div class="input-group">
<div class="input-group-prepend">
<span class="input-group-text">Upload file</span>
</div>
<div class="custom-file">
<input name="file" type="file" class="custom-file-input" id="fileUploadField">
<label class="custom-file-label" for="fileUploadField">Choose file</label>
</div>
</div>
</div>
</div>
<div class="row">
<div class="col-lg-6">or</div>
</div>
<div class="row">
<div class="col-lg-6">
<div class="input-group">
<div class="input-group-prepend">
<span class="input-group-text">Use URL</span>
</div>
<input type="text" name="url" class="form-control"/>
</div>
</div>
</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="javascript:history.back();" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-primary">Upgrade firmware</button>
</div>
</div>
</form>

19
lib/ClassicUi/html/foot.html
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@@ -1,19 +0,0 @@
<div id="newVersion" class="alert alert-info d-none">New version <span id="newVersionTag"></span>!
<a id="newVersionUrl" href="#" target="_blank">view</a> or <a href="javascript:upgrade();">click here to upgrade</a>
</div>
</main>
<div id="loading-indicator" style="position: absolute; top: 0; left: 0; width: 100%; height: 100%; background-color: #dddddd99; z-index: 999999; padding-top: 20%; display: none;" class="text-center">
<div class="spinner-border text-primary" role="status" style="width: 5rem; height: 5rem;">
<span class="sr-only">Loading...</span>
</div>
</div>
<script src="https://cdnjs.cloudflare.com/ajax/libs/moment.js/2.29.1/moment.min.js" integrity="sha512-qTXRIMyZIFb8iQcfjXWCO8+M5Tbc38Qi5WzdPOYZHIlZpzBHG3L3by84BBBOiRGiEb7KKtAOAs5qYdUiZiQNNQ==" crossorigin="anonymous" referrerpolicy="no-referrer"></script>
<script src="https://code.jquery.com/jquery-3.6.0.min.js" integrity="sha256-/xUj+3OJU5yExlq6GSYGSHk7tPXikynS7ogEvDej/m4=" crossorigin="anonymous" referrerpolicy="no-referrer"></script>
<script src="https://cdn.jsdelivr.net/npm/bootstrap@5.1.3/dist/js/bootstrap.min.js" integrity="sha384-QJHtvGhmr9XOIpI6YVutG+2QOK9T+ZnN4kzFN1RtK3zEFEIsxhlmWl5/YESvpZ13" crossorigin="anonymous"></script>
<script src="https://www.gstatic.com/charts/loader.js"></script>
<script src="application-${version}.js"></script>
</body>
</html>

110
lib/ClassicUi/html/gpio.html
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@@ -1,110 +0,0 @@
<div class="alert alert-warning">!!WARNING!!<br/>Do not change anything here unless you know exactly what you are doing! Changing things here could cause the device to stop responding</div>
<form method="post" action="/save">
<input type="hidden" name="gc" value="true"/>
<div class="my-3 p-3 bg-white rounded shadow">
<h6>GPIO settings</h6>
<div class="d-flex flex-row flex-wrap">
<div class="m-2 input-group input-group-sm" style="width: 150px;">
<div class="input-group-prepend">
<span class="input-group-text">HAN</span>
</div>
<select name="h" class="form-control">
${h}
</select>
</div>
<div class="m-2 input-group input-group-sm" style="width: 150px;">
<div class="input-group-prepend">
<span class="input-group-text">LED</span>
</div>
<input name="l" type="number" min="2" max="${g}" class="form-control" value="${l}"/>
<div class="input-group-append" title="Inverted">
<label class="input-group-text">
<input type="checkbox" name="i" value="true" ${i}/> inv
</label>
</div>
</div>
<div class="m-2 input-group input-group-sm" style="width: 250px;">
<div class="input-group-prepend">
<span class="input-group-text">RGB</span>
</div>
<input name="r" type="number" min="2" max="${g}" class="form-control" value="${r}"/>
<input name="e" type="number" min="2" max="${g}" class="form-control" value="${e}"/>
<input name="b" type="number" min="2" max="${g}" class="form-control" value="${b}"/>
<div class="input-group-append" title="Inverted">
<label class="input-group-text">
<input type="checkbox" name="n" value="true" ${n}/> inv
</label>
</div>
</div>
<div class="m-2 input-group input-group-sm" style="width: 130px;">
<div class="input-group-prepend">
<span class="input-group-text">AP button</span>
</div>
<input name="a" type="number" min="0" max="${g}" class="form-control" value="${a}"/>
</div>
<div class="m-2 input-group input-group-sm" style="width: 150px;">
<div class="input-group-prepend">
<span class="input-group-text">Temperature</span>
</div>
<input name="t" type="number" min="0" max="${g}" class="form-control" value="${t}"/>
</div>
<div class="m-2 input-group input-group-sm" style="width: 150px;">
<div class="input-group-prepend">
<span class="input-group-text">Analog temp</span>
</div>
<input name="m" type="number" min="0" max="${g}" class="form-control" value="${m}"/>
</div>
<div class="m-2 input-group input-group-sm" style="width: 100px;">
<div class="input-group-prepend">
<span class="input-group-text">Vcc</span>
</div>
<input name="v" type="number" min="0" max="${g}" class="form-control" value="${v}"/>
</div>
<div class="m-2 input-group input-group-sm" style="width: 200px;">
<div class="input-group-prepend">
<span class="input-group-text">GND resistor</span>
</div>
<input type="number" min="1" max="1000" step="1" class="form-control" name="d" value="${d}" />
<div class="input-group-append" title="Inverted">
<label class="input-group-text">k&ohm;</label>
</div>
</div>
<div class="m-2 input-group input-group-sm" style="width: 190px;">
<div class="input-group-prepend">
<span class="input-group-text">Vcc resistor</span>
</div>
<input type="number" min="1" max="1000" step="1" class="form-control" name="s" value="${s}" />
<div class="input-group-append" title="Inverted">
<label class="input-group-text">k&ohm;</label>
</div>
</div>
<div class="m-2 input-group input-group-sm" style="width: 140px;">
<div class="input-group-prepend">
<span class="input-group-text">Multiplier</span>
</div>
<input type="number" min="0.1" max="10" step="0.01" class="form-control" name="u" value="${u}" />
</div>
<div class="m-2 input-group input-group-sm" style="width: 120px;">
<div class="input-group-prepend">
<span class="input-group-text">Offset</span>
</div>
<input type="number" min="0.0" max="3.5" step="0.01" class="form-control" name="o" value="${o}" />
</div>
<div class="m-2 input-group input-group-sm" style="width: 130px;">
<div class="input-group-prepend">
<span class="input-group-text">Boot limit</span>
</div>
<input type="number" min="2.5" max="3.5" step="0.1" class="form-control" name="c" value="${c}" />
</div>
</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="/" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-primary">Save</button>
</div>
</div>
</form>

104
lib/ClassicUi/html/head.html
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@@ -1,104 +0,0 @@
<!DOCTYPE html>
<html>
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1">
<title>AMS reader</title>
<meta http-equiv="X-UA-Compatible" content="IE=edge">
<link rel="stylesheet" href="https://cdn.jsdelivr.net/npm/bootstrap@4.6.1/dist/css/bootstrap.min.css" integrity="sha384-zCbKRCUGaJDkqS1kPbPd7TveP5iyJE0EjAuZQTgFLD2ylzuqKfdKlfG/eSrtxUkn" crossorigin="anonymous" referrerpolicy="no-referrer">
<style>
.navbar-expand .navbar-nav .nav-link,.navbar-brand {
padding-top: 0px;
padding-bottom: 0px;
margin-top: 0px;
margin-bottom: 0px;
}
.plot1 {
width: 100%;
height: 200px;
}
.plot2 {
width: 100%;
height: 224px;
}
.overlay-plot {
position: relative;
}
.plot-overlay {
position: absolute;
top: 70px;
left: 25%;
width: 50%;
text-align: center;
}
.ipo,.epo {
font-size: 1.7rem;
cursor: pointer;
}
.ipoa,.epoa {
font-size: 1.0rem;
color: grey;
}
.pol {
font-size: 1.0rem;
}
</style>
</head>
<body class="bg-light">
<main role="main" class="container">
<header class="navbar navbar-expand navbar-dark flex-column flex-lg-row rounded shadow mt-2 mb-3" style="background-color: var(--purple);">
<a href="/" class="">
<h6 class="navbar-brand">AMS reader <small id="swVersion" data-url="https://api.github.com/repos/gskjold/AmsToMqttBridge/releases">${version}</small></h6>
</a>
<div class="navbar-nav-scroll">
<ul class="navbar-nav bd-navbar-nav flex-row">
<li class="nav-item">
<div class="dropdown">
<a class="dropdown-toggle nav-link" href="#" role="button" id="config-link" data-bs-toggle="dropdown" aria-haspopup="true" aria-expanded="false">
Config<span class="d-none d-md-inline d-lg-none d-xl-inline">uration</span>
</a>
<div class="dropdown-menu" aria-labelledby="config-link">
<a class="dropdown-item" href="/meter">Meter</a>
<a class="dropdown-item" href="/wifi">WiFi</a>
<a class="dropdown-item" href="/mqtt">MQTT</a>
<a class="dropdown-item" href="/web">Web</a>
<a class="dropdown-item" href="/ntp">NTP</a>
<a class="dropdown-item" href="/priceapi">Price API</a>
<div class="dropdown-divider"></div>
<a class="dropdown-item" href="https://github.com/gskjold/AmsToMqttBridge/wiki" target="_blank">Documentation</a>
</div>
</div>
</li>
<li class="nav-item">
<div class="dropdown">
<a class="dropdown-toggle nav-link" href="#" role="button" id="system-link" data-bs-toggle="dropdown" aria-haspopup="true" aria-expanded="false">
Sys<span class="d-none d-sm-inline">tem</span>
</a>
<div class="dropdown-menu" aria-labelledby="system-link">
<a class="dropdown-item" href="/gpio">GPIO</a>
<a class="dropdown-item" href="/debugging">Debugging</a>
<a class="dropdown-item" href="/configfile">Configuration file</a>
<a class="dropdown-item" href="/firmware">Firmware</a>
<div class="dropdown-divider"></div>
<a class="dropdown-item" href="/restart">Restart</a>
<a class="dropdown-item text-danger" href="/reset">Factory reset</a>
</div>
</div>
</li>
</ul>
</div>
<div class="flex-row">
<div id="esp" class="d-none m-2">ESP</div>
<div id="han" class="d-none m-2">HAN</div>
<div id="wifi" class="d-none m-2">WiFi</div>
<div id="mqtt" class="d-none m-2">MQTT</div>
</div>
<ul class="navbar-nav flex-row ml-md-auto d-none d-lg-flex">
<li class="nav-item">
<a class="nav-link p-2" href="https://github.com/gskjold/AmsToMqttBridge" target="_blank" rel="noopener" aria-label="GitHub">
<img class="d-inline-block align-text-top" style="width: 2rem; height: 2rem;" src="github.svg"/>
</a>
</li>
</ul>
</header>

210
lib/ClassicUi/html/index.html
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@@ -1,210 +0,0 @@
<div class="bg-white rounded shadow p-1 mb-3">
<div class="d-flex flex-wrap">
<div class="flex-fill">
<div class="text-center">Up <span class="ju">-</span></div>
</div>
<div class="flex-fill rt">
<div class="text-center">Temperature: <span class="jt">-</span>&deg;C</div>
</div>
<div class="flex-fill rv">
<div class="text-center">ESP volt: <span class="jv">-</span>V</div>
</div>
<div class="flex-fill">
<div class="text-center">WiFi RSSI: <span class="jr">-</span>dBm</div>
</div>
<div class="flex-fill">
<div class="text-center">Free mem: <span class="jm">-</span>kb</div>
</div>
<div class="flex-fill rc">
<div class="text-center"><span class="jc"></span></div>
</div>
</div>
</div>
<div class="row">
<div class="col-lg-3 col-sm-6 mb-3">
<div class="bg-white rounded shadow p-3">
<div class="text-center overlay-plot">
<div id="ip" class="plot1"></div>
<span class="plot-overlay">
<span class="ipo">-</span>
<span class="ipoa">W</span>
<br/>
<span class="pol">Import</span>
</span>
</div>
<div class="row ric" style="display: none;">
<div class="col-5"><span class="jmt"></span></div>
<div class="col-7 text-right"><span class="jic">-</span> kWh</div>
</div>
</div>
</div>
<div class="col-lg-3 col-sm-6 mb-3 rex" style="display: none;">
<div class="bg-white rounded shadow p-3">
<div class="text-center overlay-plot">
<div id="xp" class="plot1"></div>
<span class="plot-overlay">
<span class="epo">-</span>
<span class="epoa">W</span>
<br/>
<span class="pol">Export</span>
</span>
</div>
<div class="row rec" style="display: none;">
<div class="col-12 text-right"><span class="jec">-</span> kWh</div>
</div>
</div>
</div>
<div class="col-lg-3 col-sm-6 mb-3">
<div class="bg-white rounded shadow p-3">
<div class="text-center">
<div id="vp" class="plot2"></div>
</div>
</div>
</div>
<div class="col-lg-3 col-sm-6 mb-3">
<div class="bg-white rounded shadow p-3">
<div class="text-center">
<div id="ap" class="plot2"></div>
</div>
</div>
</div>
<div class="col-lg-3 col-sm-6 mb-3 rim" style="display: none;">
<div class="bg-white rounded shadow p-3">
<h5 class="text-center">Reactive</h5>
<div class="row rri">
<div class="col-12 font-weight-bold">Instant</div>
<div class="col-4">In</div>
<div class="col-8 text-right"><span class="jri">-</span> VAr</div>
<div class="col-4">Out</div>
<div class="col-8 text-right"><span class="jre">-</span> VAr</div>
</div>
<div class="row rric">
<div class="col-12 font-weight-bold">Total</div>
<div class="col-4">In</div>
<div class="col-8 text-right"><span class="jric">-</span> kVArh</div>
<div class="col-4">Out</div>
<div class="col-8 text-right"><span class="jrec">-</span> kVArh</div>
</div>
</div>
</div>
<div class="col-lg-6 mb-3 rex" style="display: none;">
<div class="bg-white rounded shadow p-3">
<div class="row rrec">
<div class="col-sm-4 font-weight-bold">Instant reactive</div>
<div class="col-4 col-sm-1">In</div>
<div class="col-8 col-sm-3 text-right"><span class="jri">-</span> VAr</div>
<div class="col-4 col-sm-1">Out</div>
<div class="col-8 col-sm-3 text-right"><span class="jre">-</span> VAr</div>
</div>
</div>
</div>
<div class="col-lg-6 mb-3 rex" style="display: none;">
<div class="bg-white rounded shadow p-3">
<div class="row rrec">
<div class="col-sm-4 font-weight-bold">Total reactive</div>
<div class="col-4 col-sm-1">In</div>
<div class="col-8 col-sm-3 text-right"><span class="jric">-</span> kVArh</div>
<div class="col-4 col-sm-1">Out</div>
<div class="col-8 col-sm-3 text-right"><span class="jrec">-</span> kVArh</div>
</div>
</div>
</div>
<div class="col-xl-12 mb-3">
<div class="bg-white rounded shadow pt-3 pb-3" style="font-size: 14px;">
<strong class="mr-3 ml-3">Real time consumption</strong><br/>
<div class="row">
<div class="col-lg-3 col-sm-6">
<div class="mr-3 ml-3 d-flex">
<div>Hour</div>
<div class="flex-fill text-right">
<span id="each"></span> kWh
<span class="sp text-nowrap" style="display: none;">(<span id="eachc"></span> <span class="cr"></span>)</span>
</div>
</div>
</div>
<div class="col-lg-3 col-sm-6">
<div class="mr-3 ml-3 d-flex">
<div>Day</div>
<div class="flex-fill text-right">
<span id="eacd"></span> kWh
<span class="sp text-nowrap" style="display: none;">(<span id="eacdc"></span> <span class="cr"></span>)</span>
</div>
</div>
</div>
<div class="col-lg-3 col-sm-6">
<div class="mr-3 ml-3 d-flex">
<div>Month</div>
<div class="flex-fill text-right">
<span id="eacm"></span> kWh
<span class="sp text-nowrap" style="display: none;">(<span id="eacmc"></span> <span class="cr"></span>)</span>
</div>
</div>
</div>
<div class="col-lg-3 col-sm-6">
<div class="mr-3 ml-3 d-flex">
<div>Max</div>
<div class="flex-fill text-right">
<span id="eax"></span> / <span id="eat"></span> kWh
</div>
</div>
</div>
</div>
<strong class="mr-3 ml-3 se d-none">Real time production</strong><br/>
<div class="row se d-none">
<div class="col-lg-3 col-sm-6">
<div class="mr-3 ml-3 d-flex">
<div>Hour</div>
<div class="flex-fill text-right">
<span id="eache"></span> kWh
</div>
</div>
</div>
<div class="col-lg-3 col-sm-6">
<div class="mr-3 ml-3 d-flex">
<div>Day</div>
<div class="flex-fill text-right">
<span id="eacde"></span> kWh
</div>
</div>
</div>
<div class="col-lg-3 col-sm-6">
<div class="mr-3 ml-3 d-flex">
<div>Month</div>
<div class="flex-fill text-right">
<span id="eacme"></span> kWh
</div>
</div>
</div>
<div class="col-lg-3 col-sm-6"></div>
</div>
</div>
</div>
<div id="ppc" class="col-xl-12 mb-3" style="display: none;">
<div class="bg-white rounded shadow" id="pp" style="width: 100%; height: 224px;"></div>
</div>
<div class="col-xl-12 mb-3">
<div class="bg-white rounded shadow" id="ep" style="width: 100%; height: 224px;"></div>
</div>
<div class="col-xl-12 mb-3">
<div class="bg-white rounded shadow" id="mp" style="width: 100%; height: 224px;"></div>
</div>
<div id="tpc" class="col-xl-12 mb-3" style="display: none;">
<div class="bg-white rounded shadow pb-3">
<div id="tp" style="width: 100%; height: 224px;"></div>
<a class="m-4" href="/temperature">Configuration</a>
</div>
</div>
<div class="col-lg-3 col-sm-6 mb-3 d-none me me-1 me-2 me-3 me-4 me-5 me-6 me-7 me-8 me-9 me-10 me-11 me-12 me-13">
<div class="d-none badge badge-danger me me-1 me-2 me-5 me-6 me-7 me-8 me-9 me-12">MQTT communication error (<span id="ml">-</span>)</div>
<div class="d-none badge badge-danger me me-3">MQTT failed to connect</div>
<div class="d-none badge badge-danger me me-4">MQTT network timeout</div>
<div class="d-none badge badge-danger me me-10">MQTT connection denied</div>
<div class="d-none badge badge-danger me me-11">MQTT failed to subscribe</div>
<div class="d-none badge badge-danger me me-13">MQTT lost connection</div>
</div>
</div>

143
lib/ClassicUi/html/meter.html
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@@ -1,143 +0,0 @@
<form method="post" action="/save">
<input type="hidden" name="mc" value="true"/>
<div class="my-3 p-3 bg-white rounded shadow">
<h6>Meter</h6>
<div class="row">
<div class="col-lg-3 col-md-4 col-sm-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Manufacturer</span>
</div>
<input class="form-control" value="{maf}" disabled/>
</div>
</div>
<div class="col-lg-3 col-md-4 col-sm-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Model</span>
</div>
<input class="form-control" value="{mod}" disabled/>
</div>
</div>
<div class="col-lg-3 col-md-4 col-sm-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">ID</span>
</div>
<input class="form-control" value="{mid}" disabled/>
</div>
</div>
</div>
<div class="row">
<div class="col-lg-3 col-md-4 col-sm-5">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Baud rate</span>
</div>
<select class="form-control sd" name="b">
<option value="300" {b300}>300</option>
<option value="2400" {b2400}>2400</option>
<option value="4800" {b4800}>4800</option>
<option value="9600" {b9600}>9600</option>
<option value="19200" {b19200}>19200</option>
<option value="38400" {b38400}>38400</option>
<option value="57600" {b57600}>57600</option>
<option value="115200" {b115200}>115200</option>
</select>
</div>
</div>
<div class="col-lg-2 col-md-3 col-sm-4 col-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Parity</span>
</div>
<select class="form-control sd" name="c">
<option value="2" {c2}>7N1</option>
<option value="3" {c3}>8N1</option>
<option value="10" {c10}>7E1</option>
<option value="11" {c11}>8E1</option>
</select>
</div>
</div>
<div class="col-lg-2 col-md-4 col-sm-3 col-6">
<div class="m-2">
<label class="small"><input type="checkbox" name="i" value="true" {i}/> Invert <span class="d-none d-md-inline">signal</span></label>
</div>
</div>
<div class="col-lg-4 col-sm-8">
<a href="https://github.com/gskjold/AmsToMqttBridge/wiki/Known-hardware-configurations" target="_blank">Known hardware configurations</a>
</div>
</div>
<div class="row">
<div class="col-xl-3 col-lg-4 col-md-5 col-sm-7">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Distribution system</span>
</div>
<select class="form-control sd" name="d">
<option value="0" {d0}></option>
<option value="1" {d1}>IT or TT (230V)</option>
<option value="2" {d2}>TN (400V)</option>
</select>
</div>
</div>
<div class="col-lg-3 col-md-4 col-sm-5">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Main fuse</span>
</div>
<input class="form-control text-right" name="f" type="number" min="5" max="255" step="1" value="{f}"/>
<div class="input-group-append">
<span class="input-group-text">A</span>
</div>
</div>
</div>
<div class="col-xl-3 col-lg-4 col-md-5 col-sm-7">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Production capacity</span>
</div>
<input class="form-control text-right" name="p" type="number" min="0" max="255" step="1" value="{p}"/>
<div class="input-group-append">
<span class="input-group-text">kWp</span>
</div>
</div>
</div>
</div>
<div class="row">
<div class="col-lg-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Encryption key</span>
</div>
<input class="form-control" name="e" type="text" value="{e}" placeholder="If applicable"/>
</div>
</div>
<div class="col-lg-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Authentication key</span>
</div>
<input class="form-control" name="a" type="text" value="{a}" placeholder="If applicable"/>
</div>
</div>
</div>
<div class="row mt-3">
<div class="col-sm-6">
<a href="/thresholds">Configure tariff thresholds</a>
</div>
<div class="col-sm-6 text-right">
<a href="/meteradvanced">Multipliers</a>
</div>
</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="/" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-primary">Save</button>
</div>
</div>
</form>

49
lib/ClassicUi/html/meteradvanced.html
View File

@@ -1,49 +0,0 @@
<form method="post" action="/save">
<input type="hidden" name="ma" value="true"/>
<div class="my-3 p-3 bg-white rounded shadow">
<h6>Multipliers</h6>
<div class="row">
<div class="col-lg-3 col-md-4 col-sm-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Instant</span>
</div>
<input type="number" class="form-control text-right" name="wm" value="%.2f" min="0.00" max="655.35" step="0.01"/>
</div>
</div>
<div class="col-lg-3 col-md-4 col-sm-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Voltage</span>
</div>
<input type="number" class="form-control text-right" name="vm" value="%.2f" min="0.00" max="655.35" step="0.01"/>
</div>
</div>
<div class="col-lg-3 col-md-4 col-sm-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Amperage</span>
</div>
<input type="number" class="form-control text-right" name="am" value="%.2f" min="0.00" max="655.35" step="0.01"/>
</div>
</div>
<div class="col-lg-3 col-md-4 col-sm-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Accumulated</span>
</div>
<input type="number" class="form-control text-right" name="cm" value="%.2f" min="0.00" max="655.35" step="0.01"/>
</div>
</div>
</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="/meter" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-primary">Save</button>
</div>
</div>
</form>

64
lib/ClassicUi/html/monthplot.json
View File

@@ -1,64 +0,0 @@
{
"i01" : %.2f,
"i02" : %.2f,
"i03" : %.2f,
"i04" : %.2f,
"i05" : %.2f,
"i06" : %.2f,
"i07" : %.2f,
"i08" : %.2f,
"i09" : %.2f,
"i10" : %.2f,
"i11" : %.2f,
"i12" : %.2f,
"i13" : %.2f,
"i14" : %.2f,
"i15" : %.2f,
"i16" : %.2f,
"i17" : %.2f,
"i18" : %.2f,
"i19" : %.2f,
"i20" : %.2f,
"i21" : %.2f,
"i22" : %.2f,
"i23" : %.2f,
"i24" : %.2f,
"i25" : %.2f,
"i26" : %.2f,
"i27" : %.2f,
"i28" : %.2f,
"i29" : %.2f,
"i30" : %.2f,
"i31" : %.2f,
"e01" : %.2f,
"e02" : %.2f,
"e03" : %.2f,
"e04" : %.2f,
"e05" : %.2f,
"e06" : %.2f,
"e07" : %.2f,
"e08" : %.2f,
"e09" : %.2f,
"e10" : %.2f,
"e11" : %.2f,
"e12" : %.2f,
"e13" : %.2f,
"e14" : %.2f,
"e15" : %.2f,
"e16" : %.2f,
"e17" : %.2f,
"e18" : %.2f,
"e19" : %.2f,
"e20" : %.2f,
"e21" : %.2f,
"e22" : %.2f,
"e23" : %.2f,
"e24" : %.2f,
"e25" : %.2f,
"e26" : %.2f,
"e27" : %.2f,
"e28" : %.2f,
"e29" : %.2f,
"e30" : %.2f,
"e31" : %.2f
}

138
lib/ClassicUi/html/mqtt.html
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@@ -1,138 +0,0 @@
<form method="post" action="/save">
<input type="hidden" name="mqc" value="true"/>
<div class="my-3 p-3 bg-white rounded shadow">
<h6>MQTT</h6>
<label class="m-2"><input id="m" type="checkbox" name="m" value="true" {m}/> Enable</label>
<div class="row">
<div class="col-xl-4 col-lg-5 col-md-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Host</span>
</div>
<input type="text" class="form-control mc" name="h" value="{h}" maxlength="127"/>
</div>
</div>
<div class="col-xl-2 col-lg-3 col-md-3 col-sm-4">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Port</span>
</div>
<input id="p" type="number" class="form-control mc" name="p" value="{p}" min="1024" max="65535" placeholder="1883"/>
</div>
</div>
<div class="col-xl-3 col-lg-4 col-md-6 col-sm-8">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Client ID</span>
</div>
<input type="text" class="form-control mc" name="i" value="{i}" maxlength="31"/>
</div>
</div>
<div class="col-xl-3 col-lg-4 col-md-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Publish topic</span>
</div>
<input type="text" class="form-control mc" name="t" value="{t}" maxlength="63"/>
</div>
</div>
<div class="col-xl-3 col-lg-4 col-md-6 col-sm-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Username</span>
</div>
<input type="text" class="form-control mc" name="u" value="{u}" maxlength="127"/>
</div>
</div>
<div class="col-xl-3 col-lg-4 col-md-6 col-sm-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Password</span>
</div>
<input type="password" class="form-control mc" name="pw" value="{pw}" maxlength="255"/>
</div>
</div>
<div class="col-lg-3 col-md-4 col-sm-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Payload</span>
</div>
<select id="f" class="form-control mc" name="f">
<option value="0" {f0}>JSON</option>
<option value="1" {f1}>Raw values (minimal)</option>
<option value="2" {f2}>Raw values (full)</option>
<option value="3" {f3}>Domoticz</option>
<option value="4" {f4}>Home-Assistant</option>
<option value="255" {f255}>Raw data (bytes)</option>
</select>
</div>
</div>
<div class="col-md-3 col-sm-6 f3-s">
<div class="m-2">
<a href="/domoticz" class="btn btn-sm btn-outline-secondary">Configuration</a>
</div>
</div>
</div>
</div>
<div class="my-3 p-3 bg-white rounded shadow">
<div class="row">
<div class="col-md-2">
<label class="m-2"><input id="s" type="checkbox" name="s" value="true" {s}/> SSL</label>
</div>
<div class="col-lg-2 col-md-3">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">CA</span>
</div>
<div class="input-group-append">
<span style="display: {dcu};">
<a href="/mqtt-ca" class="btn btn-sm btn-outline-secondary">Upload</a>
</span>
<span style="display: {dcf};">
<a href="/mqtt-ca" class="btn btn-sm btn-danger">Delete</a>
</span>
</div>
</div>
</div>
<div class="col-xl-2 col-md-3">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Certificate</span>
</div>
<div class="input-group-append">
<span style="display: {deu};">
<a href="/mqtt-cert" class="btn btn-sm btn-outline-secondary">Upload</a>
</span>
<span style="display: {def};">
<a href="/mqtt-cert" class="btn btn-sm btn-danger">Delete</a>
</span>
</div>
</div>
</div>
<div class="col-xl-2 col-md-4">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Private key</span>
</div>
<div class="input-group-append">
<span style="display: {dku};">
<a href="/mqtt-key" class="btn btn-sm btn-outline-secondary">Upload</a>
</span>
<span style="display: {dkf};">
<a href="/mqtt-key" class="btn btn-sm btn-danger">Delete</a>
</span>
</div>
</div>
</div>
</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="/" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-primary">Save</button>
</div>
</div>
</form>

1
lib/ClassicUi/html/notfound.html
View File

@@ -1 +0,0 @@
<div class="alert alert-danger">Page not found</div>

54
lib/ClassicUi/html/ntp.html
View File

@@ -1,54 +0,0 @@
<form method="post" action="/save">
<input type="hidden" name="nc" value="true"/>
<div class="my-3 p-3 bg-white rounded shadow">
<h6>NTP</h6>
<label class="m-2"><input id="n" type="checkbox" name="n" value="true" %s/> Enable</label>
<div class="row">
<div class="col-lg-3 col-md-4 col-sm-5">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Timezone</span>
</div>
<select id="o" class="form-control nc" name="o">
<option value="0" %s>UTC</option>
<option value="3600" %s>UTC+1</option>
<option value="7200" %s>UTC+2</option>
</select>
</div>
</div>
<div class="col-xl-3 col-lg-4 col-md-5 col-sm-7">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Summertime offset</span>
</div>
<select id="so" class="form-control nc" name="so">
<option value="0" %s>Disabled</option>
<option value="3600" %s>+1hr</option>
</select>
</div>
</div>
<div class="col-xl-4 col-lg-5 col-md-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Server</span>
</div>
<input type="text" class="form-control nc" name="ns" value="%s" maxlength="64"/>
</div>
</div>
<div class="col-lg-4 col-md-5 col-sm-6">
<div class="m-2">
<label class="small"><input type="checkbox" name="nd" value="true" %s class="nc"/> Obtain NTP server from DHCP</label>
</div>
</div>
</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="/" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-primary">Save</button>
</div>
</div>
</form>

86
lib/ClassicUi/html/priceapi.html
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<form method="post" action="/save">
<input type="hidden" name="ec" value="true"/>
<div class="my-3 p-3 bg-white rounded shadow">
<h6>Price API</h6>
<div class="row">
<div class="col-xl-2 col-lg-3 col-md-4 col-sm-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Region</span>
</div>
<select name="ea" class="form-control">
<option value="">None</option>
<optgroup label="Norway">
<option value="10YNO-1--------2" {no1}>NO1</option>
<option value="10YNO-2--------T" {no2}>NO2</option>
<option value="10YNO-3--------J" {no3}>NO3</option>
<option value="10YNO-4--------9" {no4}>NO4</option>
<option value="10Y1001A1001A48H" {no5}>NO5</option>
</optgroup>
<optgroup label="Sweden">
<option value="10Y1001A1001A44P" {se1}>SE1</option>
<option value="10Y1001A1001A45N" {se2}>SE2</option>
<option value="10Y1001A1001A46L" {se3}>SE3</option>
<option value="10Y1001A1001A47J" {se4}>SE4</option>
</optgroup>
<optgroup label="Denmark">
<option value="10YDK-1--------W" {dk1}>DK1</option>
<option value="10YDK-2--------M" {dk2}>DK2</option>
</optgroup>
<option value="10YAT-APG------L" {at}>Austria</option>
<option value="10YBE----------2" {be}>Belgium</option>
<option value="10YCZ-CEPS-----N" {cz}>Czech Republic</option>
<option value="10Y1001A1001A39I" {ee}>Estonia</option>
<option value="10YFI-1--------U" {fi}>Finland</option>
<option value="10YFR-RTE------C" {fr}>France</option>
<option value="10Y1001A1001A83F" {de}>Germany</option>
<option value="10YGB----------A" {gb}>Great Britain</option>
<option value="10YLV-1001A00074" {lv}>Latvia</option>
<option value="10YLT-1001A0008Q" {lt}>Lithuania</option>
<option value="10YNL----------L" {nl}>Netherland</option>
<option value="10YPL-AREA-----S" {pl}>Poland</option>
<option value="10YCH-SWISSGRIDZ" {ch}>Switzerland</option>
</select>
</div>
</div>
<div class="col-xl-2 col-lg-3 col-md-4 col-sm-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Currency</span>
</div>
<select name="ecu" class="form-control">
<option value="NOK" {nok}>NOK</option>
<option value="SEK" {sek}>SEK</option>
<option value="DKK" {dkk}>DKK</option>
<option value="EUR" {eur}>EUR</option>
</select>
</div>
</div>
<div class="col-xl-2 col-lg-3 col-md-4 col-sm-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Multiplier</span>
</div>
<input name="em" type="number" min="0.001" max="1000" step="0.001" class="form-control" value="{em}"/>
</div>
</div>
<div class="col-xl-4 col-lg-6 col-md-8 {dt}">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">ENTSO-E token</span>
</div>
<input type="text" name="et" class="form-control" value="{et}" placeholder="Optional"/>
</div>
</div>
</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="/" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-primary">Save</button>
</div>
</div>
</form>

14
lib/ClassicUi/html/reset.html
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<form method="post">
<div class="my-3 p-3 bg-white rounded shadow">
<div class="alert alert-danger">Are you sure you want reset this device to factory settings? ALL configuration will be erased!</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="javascript:history.back();" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-danger" name="perform" value="true">Perform factory reset</button>
</div>
</div>
</form>

14
lib/ClassicUi/html/restart.html
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<form method="post">
<div class="my-3 p-3 bg-white rounded shadow">
<div class="alert alert-warning">Are you sure you want restart?</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="javascript:history.back();" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-success" name="perform" value="true">Restart</button>
</div>
</div>
</form>

63
lib/ClassicUi/html/restartwait.html
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<html>
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1">
<title>AMS reader - Restarting, please wait</title>
<meta http-equiv="X-UA-Compatible" content="IE=edge">
<link rel="stylesheet" type="text/css" href="boot.css"/>
</head>
<body class="bg-light">
<main role="main" class="container">
<header class="navbar navbar-expand navbar-dark flex-column flex-md-row bg-purple rounded mt-2 mb-4" style="background-color: var(--purple);">
<a href="/" class=""><h6 class="navbar-brand">AMS reader <small>${version}</small></h6></a>
<ul class="navbar-nav flex-row ml-md-auto d-none d-md-flex">
<li class="nav-item">
<a class="nav-link p-2" href="https://github.com/gskjold/AmsToMqttBridge" target="_blank" rel="noopener" aria-label="GitHub">
<img class="d-inline-block align-text-top" style="width: 2rem; height: 2rem;" src="github.svg"/>
</a>
</li>
</ul>
</header>
<div class="my-3 p-3 bg-white rounded shadow {rs}">
Device is rebooting. You will be redirected to the main page when it is available again.
</div>
<div class="alert alert-warning shadow {us}">Firmware upgrade in progress, DO NOT disconnect power from the device. You will be redirected to the main page when firmware upgrade is complete.</div>
</main>
<script>
var tries = 0;
var ip = "${ip}";
var hostname = "${hostname}";
var url;
var fetch = function() {
tries++;
if(ip && tries%3 == 0) {
url = "http://" + ip;
} else if(hostname && tries%3 == 1) {
url = "http://" + hostname;
} else if(hostname && tries%3 == 2) {
url = "http://" + hostname + ".local";
} else {
url = "";
}
if(console) console.log("Trying url " + url);
var retry = function() {
setTimeout(fetch, 1000);
};
var xhr = new XMLHttpRequest();
xhr.timeout = 5000;
xhr.addEventListener('abort', retry);
xhr.addEventListener('error', retry);
xhr.addEventListener('timeout', retry);
xhr.addEventListener('load', function(e) {
window.location.href = url ? url : "/";
});
xhr.open("GET", url + "/is-alive", true);
xhr.send();
};
setTimeout(fetch, 10000);
</script>
</body>
</html>

138
lib/ClassicUi/html/setup.html
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<html>
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1">
<title>AMS reader - Setup</title>
<meta http-equiv="X-UA-Compatible" content="IE=edge">
<link rel="stylesheet" type="text/css" href="boot.css"/>
</head>
<body class="bg-light">
<main role="main" class="container">
<header class="navbar navbar-expand navbar-dark flex-column flex-md-row bg-purple rounded mt-2 mb-4">
<a href="/" class=""><h6 class="navbar-brand">AMS reader <small>${version}</small></h6></a>
<ul class="navbar-nav flex-row ml-md-auto d-none d-md-flex">
<li class="nav-item">
<a class="nav-link p-2" href="https://github.com/gskjold/AmsToMqttBridge" target="_blank" rel="noopener" aria-label="GitHub">
<img style="width: 2rem; height: 2rem;" src="github.svg"/>
</a>
</li>
</ul>
</header>
<form method="post">
<div class="my-3 p-3 bg-white rounded shadow">
<div class="row">
<div class="col-xl-4 col-md-6">
<h5>Hardware</h5>
<select name="board" class="form-control" required>
<option value=""></option>
<optgroup label="Custom hardware">
<option value="7" ${config.boardType7}>Pow-U+ (ESP32) from amsleser.no</option>
<option value="6" ${config.boardType6}>Pow-P1 from amsleser.no</option>
<option value="5" ${config.boardType5}>Pow-K+ (ESP32) from amsleser.no</option>
<option value="4" ${config.boardType4}>Pow-U or Pow-K from amsleser.no (GPIO12)</option>
<option value="3" ${config.boardType3}>Pow-U or Pow-K from amsleser.no (UART0)</option>
<option value="2" ${config.boardType2}>HAN Reader 2.0 by Max Spencer</option>
<option value="1" ${config.boardType1}>Kamstrup module by Egil Opsahl</option>
<option value="0" ${config.boardType0}>Custom hardware by Roar Fredriksen</option>
</optgroup>
<optgroup label="ESP8266">
<option value="101" ${config.boardType101}>Wemos D1</option>
<option value="100" ${config.boardType100}>Generic ESP8266</option>
</optgroup>
<optgroup label="ESP32">
<option value="201" ${config.boardType201}>Wemos LOLIN D32</option>
<option value="202" ${config.boardType202}>Adafruit HUZZAH32</option>
<option value="203" ${config.boardType203}>DevKitC</option>
<option value="200" ${config.boardType200}>Generic ESP32</option>
</optgroup>
<optgroup label="ESP32-S2">
<option value="51" ${config.boardType51}>Wemos S2 mini</option>
<option value="50" ${config.boardType50}>Generic ESP32-S2</option>
</optgroup>
</select>
</div>
</div>
</div>
<div class="my-3 p-3 bg-white rounded shadow">
<h5>WiFi</h5>
<div class="row">
<div class="col-xl-3 col-md-6 form-group">
<div class="input-group">
<div class="input-group-prepend">
<span class="input-group-text">SSID</span>
</div>
<input type="text" name="wifiSsid" class="form-control" maxlength="32" placeholder="Name of your WiFi" required value="${config.wifiSsid}"/>
</div>
</div>
<div class="col-xl-3 col-md-6 form-group">
<div class="input-group">
<div class="input-group-prepend">
<span class="input-group-text">PSK</span>
</div>
<input type="password" name="wifiPassword" class="form-control" maxlength="63" placeholder="Password for WiFi" required value="${config.wifiPassword}"/>
</div>
</div>
<div class="col-xl-4 col-md-6 form-group">
<div class="input-group">
<div class="input-group-prepend">
<span class="input-group-text">Hostname</span>
</div>
<input type="text" name="wifiHostname" class="form-control" maxlength="32" pattern="[a-z0-9_-]+" placeholder="Optional, ex.: ams-reader" value="${config.wifiHostname}"/>
</div>
</div>
<div class="col-xl-2 col-md-6 form-group">
<label><input type="checkbox" name="wifiIpType" value="1" onchange="staticChecked(this);" ${config.wifiStaticIp}/> Static IP</label>
</div>
</div>
<div class="row" id="staticIp">
<div class="col-xl-3 col-lg-4 col-sm-6 form-group">
<div class="input-group">
<div class="input-group-prepend">
<span class="input-group-text">IP</span>
</div>
<input type="text" name="wifiIp" class="form-control" pattern="\d?\d?\d.\d?\d?\d.\d?\d?\d.\d?\d?\d" placeholder="Ex: 192.168.1.200" value="${config.wifiIp}"/>
</div>
</div>
<div class="col-xl-3 col-lg-4 col-sm-6 form-group">
<div class="input-group">
<div class="input-group-prepend">
<span class="input-group-text">Subnet</span>
</div>
<input type="text" name="wifiSubnet" class="form-control" pattern="\d?\d?\d.\d?\d?\d.\d?\d?\d.\d?\d?\d" placeholder="Ex.: 255.255.255.0" value="${config.wifiSubnet}"/>
</div>
</div>
<div class="col-xl-3 col-lg-4 col-sm-6 form-group">
<div class="input-group">
<div class="input-group-prepend">
<span class="input-group-text">Gateway</span>
</div>
<input type="text" name="wifiGw" class="form-control" pattern="\d?\d?\d.\d?\d?\d.\d?\d?\d.\d?\d?\d" placeholder="Ex.: 192.168.1.1" value="${config.wifiGw}"/>
</div>
</div>
<div class="col-xl-3 col-lg-4 col-sm-6 form-group">
<div class="input-group">
<div class="input-group-prepend">
<span class="input-group-text">DNS</span>
</div>
<input type="text" name="wifiDns1" class="form-control" pattern="\d?\d?\d.\d?\d?\d.\d?\d?\d.\d?\d?\d" placeholder="Ex.: 192.168.1.1" value="${config.wifiDns1}"/>
</div>
</div>
</div>
</div>
<hr/>
<div class="row">
<div class="col-6"></div>
<div class="col-6 text-right">
<button type="submit" class="btn btn-primary">Save & reboot</button>
</div>
</div>
</form>
</main>
<script>
document.getElementById('staticIp').style.display = "none";
var staticChecked = function(el) {
document.getElementById('staticIp').style.display = el.checked ? "" : "none";
}
</script>
</body>
</html>

48
lib/ClassicUi/html/temperature.html
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<script id="temp-template" type="template">
<div class="row mb-3">
<input type="hidden" name="sensor{{index}}" value="{{address}}"/>
<div class="col-xl-3 col-lg-4 col-sm-6">
<div class="input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Address {{index}}</span>
</div>
<input name="sensor{{index}}address" type="text" class="form-control" value="{{address}}" maxlength="16" disabled/>
</div>
</div>
<div class="col-xl-4 col-lg-3 col-sm-6">
<div class="input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Name</span>
</div>
<input name="sensor{{index}}name" type="text" class="form-control" value="{{name}}" maxlength="16"/>
</div>
</div>
<div class="col-xl-3 col-lg-3 col-sm-6">
<div class="form-check">
<input name="sensor{{index}}common" class="form-check-input" type="checkbox" value="true" id="sensor{{index}}common" {{common}}>
<label class="form-check-label" for="sensor{{index}}common">Include in average</label>
</div>
</div>
<div class="col-xl-2 col-lg-2 col-sm-6">
<span id="temp-{{index}}">{{value}}</span> &deg;C
</div>
</div>
</script>
<form method="post">
<input type="hidden" name="tempConfig" value="true"/>
<div id="sensors" class="my-3 p-3 bg-white rounded shadow">
<div id="loading" class="alert alert-info">Loading temperature sensors</div>
<div id="notemp" class="alert alert-info" style="display: none;">No temperature sensors are configured or found</div>
<div id="error" class="alert alert-danger" style="display: none;">Error loading data</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="/" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-primary">Save</button>
</div>
</div>
</form>

7
lib/ClassicUi/html/tempsensor.json
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{
"i" : %d,
"a" : "%s",
"n" : "%s",
"c" : %d,
"v" : %.1f
},

129
lib/ClassicUi/html/thresholds.html
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@@ -1,129 +0,0 @@
<form method="post" action="/save">
<input type="hidden" name="cc" value="true"/>
<div class="my-3 p-3 bg-white rounded shadow">
<h6>Tariff thresholds</h6>
<div class="row">
<div class="col-lg-2 col-md-3 col-sm-4 col-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">1</span>
</div>
<input class="form-control text-right" name="t0" type="number" min="1" max="255" step="1" value="{t0}"/>
<div class="input-group-append">
<span class="input-group-text">kWh</span>
</div>
</div>
</div>
<div class="col-lg-2 col-md-3 col-sm-4 col-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">2</span>
</div>
<input class="form-control text-right" name="t1" type="number" min="5" max="255" step="1" value="{t1}"/>
<div class="input-group-append">
<span class="input-group-text">kWh</span>
</div>
</div>
</div>
<div class="col-lg-2 col-md-3 col-sm-4 col-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">3</span>
</div>
<input class="form-control text-right" name="t2" type="number" min="5" max="255" step="1" value="{t2}"/>
<div class="input-group-append">
<span class="input-group-text">kWh</span>
</div>
</div>
</div>
<div class="col-lg-2 col-md-3 col-sm-4 col-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">4</span>
</div>
<input class="form-control text-right" name="t3" type="number" min="5" max="255" step="1" value="{t3}"/>
<div class="input-group-append">
<span class="input-group-text">kWh</span>
</div>
</div>
</div>
<div class="col-lg-2 col-md-3 col-sm-4 col-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">5</span>
</div>
<input class="form-control text-right" name="t4" type="number" min="5" max="255" step="1" value="{t4}"/>
<div class="input-group-append">
<span class="input-group-text">kWh</span>
</div>
</div>
</div>
<div class="col-lg-2 col-md-3 col-sm-4 col-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">6</span>
</div>
<input class="form-control text-right" name="t5" type="number" min="5" max="255" step="1" value="{t5}"/>
<div class="input-group-append">
<span class="input-group-text">kWh</span>
</div>
</div>
</div>
<div class="col-lg-2 col-md-3 col-sm-4 col-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">7</span>
</div>
<input class="form-control text-right" name="t6" type="number" min="5" max="255" step="1" value="{t6}"/>
<div class="input-group-append">
<span class="input-group-text">kWh</span>
</div>
</div>
</div>
<div class="col-lg-2 col-md-3 col-sm-4 col-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">8</span>
</div>
<input class="form-control text-right" name="t7" type="number" min="5" max="255" step="1" value="{t7}"/>
<div class="input-group-append">
<span class="input-group-text">kWh</span>
</div>
</div>
</div>
<div class="col-lg-2 col-md-3 col-sm-4 col-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">9</span>
</div>
<input class="form-control text-right" name="t8" type="number" min="5" max="255" step="1" value="{t8}"/>
<div class="input-group-append">
<span class="input-group-text">kWh</span>
</div>
</div>
</div>
</div>
<div class="row">
<div class="col-lg-3 col-md-5 col-sm-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Average of top</span>
</div>
<input class="form-control text-right" name="h" type="number" min="1" max="5" step="1" value="{h}"/>
<div class="input-group-append">
<span class="input-group-text">hours</span>
</div>
</div>
</div>
</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="/meter" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-primary">Save</button>
</div>
</div>
</form>

26
lib/ClassicUi/html/upload.html
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@@ -1,26 +0,0 @@
<form method="post" enctype="multipart/form-data" class="upload-form">
<div class="my-3 p-3 bg-white rounded shadow">
<div class="row">
<div class="col-lg-6">
<div class="input-group mb-3">
<div class="input-group-prepend">
<span class="input-group-text">Upload</span>
</div>
<div class="custom-file">
<input name="file" type="file" class="custom-file-input" id="fileUploadField">
<label class="custom-file-label" for="fileUploadField">Choose file</label>
</div>
</div>
</div>
</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="javascript:history.back();" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-primary">Upload</button>
</div>
</div>
</form>

45
lib/ClassicUi/html/web.html
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@@ -1,45 +0,0 @@
<form method="post" action="/save">
<input type="hidden" name="ac" value="true"/>
<div class="my-3 p-3 bg-white rounded shadow">
<h6>Web</h6>
<div class="row">
<div class="col-xl-3 col-lg-4 col-md-7">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Security</span>
</div>
<select id="as" class="form-control" name="as">
<option value="0" %s>None</option>
<option value="1" %s>Only configuration</option>
<option value="2" %s>Everything</option>
</select>
</div>
</div>
<div class="col-xl-3 col-lg-4 col-md-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Username</span>
</div>
<input type="text" class="form-control ac" name="au" value="%s" maxlength="64"/>
</div>
</div>
<div class="col-xl-3 col-lg-4 col-md-6">
<div class="m-2 input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Password</span>
</div>
<input type="password" class="form-control ac" name="ap" value="%s" maxlength="64"/>
</div>
</div>
</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="/" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-primary">Save</button>
</div>
</div>
</form>

117
lib/ClassicUi/html/wifi.html
View File

@@ -1,117 +0,0 @@
<form method="post" action="/save">
<input type="hidden" name="wc" value="true"/>
<div class="my-3 p-3 bg-white rounded shadow">
<h6>WiFi</h6>
<div class="row">
<div class="col-xl-3 col-md-6 form-group">
<div class="input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">SSID</span>
</div>
<input type="text" name="s" class="form-control" maxlength="32" value="{s}" required/>
</div>
</div>
<div class="col-xl-3 col-md-6 form-group">
<div class="input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">PSK</span>
</div>
<input type="password" name="p" class="form-control" maxlength="63" value="{p}" required/>
</div>
</div>
<div class="col-xl-4 col-md-6 form-group">
<div class="input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Hostname</span>
</div>
<input type="text" name="h" class="form-control" maxlength="32" pattern="[a-z0-9_-]+" placeholder="Optional, ex.: ams-reader" value="{h}"/>
<div class="input-group-append">
<label class="input-group-text">
<input type="checkbox" name="m" value="true" {m}/> mDNS
</label>
</div>
</div>
</div>
<div class="col-xl-2 col-md-6 form-group">
<label><input id="st" type="checkbox" name="st" value="1" {st}/> Static IP</label>
</div>
</div>
<div class="row" id="i">
<div class="col-xl-3 col-lg-4 col-md-6 form-group">
<div class="input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">IP</span>
</div>
<input type="text" name="i" class="form-control sip" pattern="\d?\d?\d.\d?\d?\d.\d?\d?\d.\d?\d?\d" value="{i}"/>
</div>
</div>
<div class="col-xl-3 col-lg-4 col-md-6 form-group">
<div class="input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Netmask</span>
</div>
<input type="text" name="sn" class="form-control sip" pattern="\d?\d?\d.\d?\d?\d.\d?\d?\d.\d?\d?\d" value="{sn}"/>
</div>
</div>
<div class="col-xl-3 col-lg-4 col-md-6 form-group">
<div class="input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Gateway</span>
</div>
<input type="text" name="g" class="form-control sip" pattern="\d?\d?\d.\d?\d?\d.\d?\d?\d.\d?\d?\d" value="{g}"/>
</div>
</div>
<div class="col-xl-4 col-lg-5 col-md-6 form-group">
<div class="input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">DNS 1</span>
</div>
<input type="text" name="d1" class="form-control sip" pattern="\d?\d?\d.\d?\d?\d.\d?\d?\d.\d?\d?\d" value="{d1}"/>
</div>
</div>
<div class="col-xl-4 col-lg-5 col-md-6 form-group">
<div class="input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">DNS 2</span>
</div>
<input type="text" name="d2" class="form-control sip" pattern="\d?\d?\d.\d?\d?\d.\d?\d?\d.\d?\d?\d" value="{d2}"/>
</div>
</div>
<div class="col-lg-3 col-md-4 col-sm-6 form-group">
<div class="input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Power</span>
</div>
<input type="number" name="w" class="form-control text-right" min="0" max="{wm}" step="0.5" value="{w}"/>
<div class="input-group-append">
<span class="input-group-text">dBm</span>
</div>
</div>
</div>
<div class="col-lg-3 col-md-4 col-sm-6 form-group">
<div class="input-group input-group-sm">
<div class="input-group-prepend">
<span class="input-group-text">Power saving</span>
</div>
<select name="z" class="form-control">
<option value="255">Default</option>
<option value="0" {z0}>Off</option>
<option value="1" {z1}>Minimum</option>
<option value="2" {z2}>Maximum</option>
</select>
</div>
</div>
</div>
</div>
<hr/>
<div class="row form-group">
<div class="col-6">
<a href="/" class="btn btn-outline-secondary">Back</a>
</div>
<div class="col-6 text-right">
<button class="btn btn-primary">Save</button>
</div>
</div>
</form>

1
lib/ClassicUi/include/.gitignore vendored
View File

@@ -1 +0,0 @@
root/*.h

15
lib/ClassicUi/include/AmsWebHeaders.h
View File

@@ -1,15 +0,0 @@
static const char HEADER_CACHE_CONTROL[] PROGMEM = "Cache-Control";
static const char HEADER_PRAGMA[] PROGMEM = "Pragma";
static const char HEADER_EXPIRES[] PROGMEM = "Expires";
static const char HEADER_AUTHENTICATE[] PROGMEM = "WWW-Authenticate";
static const char HEADER_LOCATION[] PROGMEM = "Location";
static const char CACHE_CONTROL_NO_CACHE[] PROGMEM = "no-cache, no-store, must-revalidate";
static const char CACHE_1HR[] PROGMEM = "public, max-age=3600";
static const char PRAGMA_NO_CACHE[] PROGMEM = "no-cache";
static const char EXPIRES_OFF[] PROGMEM = "-1";
static const char AUTHENTICATE_BASIC[] PROGMEM = "Basic realm=\"Secure Area\"";
static const char MIME_PLAIN[] PROGMEM = "text/plain";
static const char MIME_HTML[] PROGMEM = "text/html";
static const char MIME_JSON[] PROGMEM = "application/json";

146
lib/ClassicUi/include/AmsWebServer.h
View File

@@ -1,146 +0,0 @@
#ifndef _AMSWEBSERVER_h
#define _AMSWEBSERVER_h
#define BOOTSTRAP_URL "https://cdnjs.cloudflare.com/ajax/libs/twitter-bootstrap/4.4.1/css/bootstrap.min.css"
#include "Arduino.h"
#include <MQTT.h>
#include "AmsConfiguration.h"
#include "HwTools.h"
#include "AmsData.h"
#include "AmsStorage.h"
#include "AmsDataStorage.h"
#include "EnergyAccounting.h"
#include "Uptime.h"
#include "RemoteDebug.h"
#include "EntsoeApi.h"
#if defined(ESP8266)
#include <ESP8266WiFi.h>
#include <ESP8266WebServer.h>
#include <ESP8266HTTPClient.h>
#include <ESP8266httpUpdate.h>
#elif defined(ESP32) // ARDUINO_ARCH_ESP32
#include <WiFi.h>
#include <WebServer.h>
#include <HTTPClient.h>
#include <HTTPUpdate.h>
#else
#warning "Unsupported board type"
#endif
#include "LittleFS.h"
class AmsWebServer {
public:
AmsWebServer(uint8_t* buf, RemoteDebug* Debug, HwTools* hw);
void setup(AmsConfiguration*, GpioConfig*, MeterConfig*, AmsData*, AmsDataStorage*, EnergyAccounting*);
void loop();
void setMqtt(MQTTClient* mqtt);
void setTimezone(Timezone* tz);
void setMqttEnabled(bool);
void setEntsoeApi(EntsoeApi* eapi);
private:
RemoteDebug* debugger;
bool mqttEnabled = false;
int maxPwr = 0;
HwTools* hw;
Timezone* tz;
EntsoeApi* eapi = NULL;
AmsConfiguration* config;
GpioConfig* gpioConfig;
MeterConfig* meterConfig;
WebConfig webConfig;
AmsData* meterState;
AmsDataStorage* ds;
EnergyAccounting* ea = NULL;
MQTTClient* mqtt = NULL;
bool uploading = false;
File file;
bool performRestart = false;
bool performUpgrade = false;
bool rebootForUpgrade = false;
#if defined(AMS2MQTT_FIRMWARE_URL)
String customFirmwareUrl = AMS2MQTT_FIRMWARE_URL;
#else
String customFirmwareUrl;
#endif
static const uint16_t BufferSize = 2048;
char* buf;
#if defined(ESP8266)
ESP8266WebServer server;
#elif defined(ESP32) // ARDUINO_ARCH_ESP32
WebServer server;
#endif
bool checkSecurity(byte level);
void indexHtml();
void applicationJs();
void temperature();
void temperaturePost();
void temperatureJson();
void configMeterHtml();
void configMeterAdvancedHtml();
void configWifiHtml();
void configMqttHtml();
void configWebHtml();
void configDomoticzHtml();
void configPriceApiHtml();
void configNtpHtml();
void configGpioHtml();
void configDebugHtml();
void configThresholdsHtml();
void bootCss();
void githubSvg();
void dataJson();
void dayplotJson();
void monthplotJson();
void energyPriceJson();
void configFileHtml();
void configFileDownload();
void configFileUpload();
void handleSetup();
void handleSave();
String getSerialSelectOptions(int selected);
void firmwareHtml();
void firmwarePost();
void firmwareUpload();
void firmwareDownload();
void restartHtml();
void restartPost();
void restartWaitHtml();
void isAliveCheck();
void uploadHtml(const char* label, const char* action, const char* menu);
void deleteHtml(const char* label, const char* action, const char* menu);
HTTPUpload& uploadFile(const char* path);
void deleteFile(const char* path);
void uploadPost();
void mqttCa();
void mqttCaUpload();
void mqttCaDelete();
void mqttCert();
void mqttCertUpload();
void mqttCertDelete();
void mqttKey();
void mqttKeyUpload();
void mqttKeyDelete();
void factoryResetHtml();
void factoryResetPost();
void notFound();
void printD(String fmt, ...);
void printI(String fmt, ...);
void printW(String fmt, ...);
void printE(String fmt, ...);
};
#endif

80
lib/ClassicUi/scripts/generate_includes.py
View File

@@ -1,80 +0,0 @@
import os
import re
import shutil
import subprocess
try:
from css_html_js_minify import html_minify, js_minify, css_minify
except:
from SCons.Script import (
ARGUMENTS,
COMMAND_LINE_TARGETS,
DefaultEnvironment,
)
env = DefaultEnvironment()
env.Execute(
env.VerboseAction(
'$PYTHONEXE -m pip install "css_html_js_minify" ',
"Installing Python dependencies",
)
)
try:
from css_html_js_minify import html_minify, js_minify, css_minify
except:
print("WARN: Unable to load minifier")
webroot = "lib/ClassicUi/html"
srcroot = "lib/ClassicUi/include/root"
version = os.environ.get('GITHUB_TAG')
if version == None:
try:
result = subprocess.run(['git','rev-parse','--short','HEAD'], capture_output=True, check=False)
if result.returncode == 0:
version = result.stdout.decode('utf-8').strip()
else:
version = "SNAPSHOT"
except:
version = "SNAPSHOT"
if os.path.exists(srcroot):
shutil.rmtree(srcroot)
os.mkdir(srcroot)
else:
os.mkdir(srcroot)
for filename in os.listdir(webroot):
basename = re.sub("[^0-9a-zA-Z]+", "_", filename)
srcfile = webroot + "/" + filename
dstfile = srcroot + "/" + basename + ".h"
varname = basename.upper()
with open(srcfile, encoding="utf-8") as f:
content = f.read().replace("${version}", version)
try:
if filename.endswith(".html"):
content = html_minify(content)
elif filename.endswith(".css"):
content = css_minify(content)
elif (filename.endswith(".js") and filename != 'gaugemeter.js') or filename.endswith(".json"):
content = js_minify(content)
except:
print("WARN: Unable to minify")
with open(dstfile, "w") as dst:
dst.write("static const char ")
dst.write(varname)
dst.write("[] PROGMEM = R\"==\"==(")
dst.write(content)
dst.write(")==\"==\";\n")
dst.write("const int ");
dst.write(varname)
dst.write("_LEN PROGMEM = ");
dst.write(str(len(content)))
dst.write(";");

2488
lib/ClassicUi/src/AmsWebServer.cpp
View File

File diff suppressed because it is too large Load Diff

47
lib/CloudConnector/include/CloudConnector.h Normal file
View File

@@ -0,0 +1,47 @@
#ifndef _CLOUDCONNECTOR_H
#define _CLOUDCONNECTOR_H
#include "RemoteDebug.h"
#include "mbedtls/ssl.h"
#include "mbedtls/platform.h"
#include "mbedtls/net.h"
#include "mbedtls/esp_debug.h"
#include "mbedtls/entropy.h"
#include "mbedtls/ctr_drbg.h"
#include "mbedtls/error.h"
#include "mbedtls/certs.h"
#include "mbedtls/rsa.h"
const unsigned char PUBLIC_KEY[] = \
"-----BEGIN PUBLIC KEY-----\n"\
"MIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQDoIo0CSuuX3tAdF7KPssdlzJNX\n"\
"QryhgVV1rQIFPhHv3SxzyKtRrRM9s0CVfymcibhnEBXxxg3pxlGmwI/R6k7HHXJN\n"\
"lBsXzzDtZ/GHDVnw+xRakTfRT0Zt+xdJSH5xJNWq4EwpvJfjA22L1Nz4dKSpgWMx\n"\
"VRndAaXf0s7Q1XBz2wIDAQAB\n"\
"-----END PUBLIC KEY-----\0";
//const unsigned char PUBLIC_KEY[] = { 0x30, 0x81, 0x9f, 0x30, 0x0d, 0x06, 0x09, 0x2a, 0x86, 0x48, 0x86, 0xf7, 0x0d, 0x01, 0x01, 0x01, 0x05, 0x00, 0x03, 0x81, 0x8d, 0x00, 0x30, 0x81, 0x89, 0x02, 0x81, 0x81, 0x00, 0xe8, 0x22, 0x8d, 0x02, 0x4a, 0xeb, 0x97, 0xde, 0xd0, 0x1d, 0x17, 0xb2, 0x8f, 0xb2, 0xc7, 0x65, 0xcc, 0x93, 0x57, 0x42, 0xbc, 0xa1, 0x81, 0x55, 0x75, 0xad, 0x02, 0x05, 0x3e, 0x11, 0xef, 0xdd, 0x2c, 0x73, 0xc8, 0xab, 0x51, 0xad, 0x13, 0x3d, 0xb3, 0x40, 0x95, 0x7f, 0x29, 0x9c, 0x89, 0xb8, 0x67, 0x10, 0x15, 0xf1, 0xc6, 0x0d, 0xe9, 0xc6, 0x51, 0xa6, 0xc0, 0x8f, 0xd1, 0xea, 0x4e, 0xc7, 0x1d, 0x72, 0x4d, 0x94, 0x1b, 0x17, 0xcf, 0x30, 0xed, 0x67, 0xf1, 0x87, 0x0d, 0x59, 0xf0, 0xfb, 0x14, 0x5a, 0x91, 0x37, 0xd1, 0x4f, 0x46, 0x6d, 0xfb, 0x17, 0x49, 0x48, 0x7e, 0x71, 0x24, 0xd5, 0xaa, 0xe0, 0x4c, 0x29, 0xbc, 0x97, 0xe3, 0x03, 0x6d, 0x8b, 0xd4, 0xdc, 0xf8, 0x74, 0xa4, 0xa9, 0x81, 0x63, 0x31, 0x55, 0x19, 0xdd, 0x01, 0xa5, 0xdf, 0xd2, 0xce, 0xd0, 0xd5, 0x70, 0x73, 0xdb, 0x02, 0x03, 0x01, 0x00, 0x01};
struct CloudData {
uint8_t type;
int16_t data;
} __attribute__((packed));
class CloudConnector {
public:
CloudConnector(RemoteDebug*);
void setup(const unsigned char * key);
void send();
private:
RemoteDebug* debugger;
unsigned char buf[4096];
mbedtls_rsa_context* rsa = nullptr;
void debugPrint(byte *buffer, int start, int length);
};
#endif

56
lib/CloudConnector/src/CloudConnector.cpp Normal file
View File

@@ -0,0 +1,56 @@
#include "CloudConnector.h"
CloudConnector::CloudConnector(RemoteDebug* debugger) {
this->debugger = debugger;
mbedtls_pk_context pk;
mbedtls_pk_init(&pk);
int error_code = 0;
if((error_code = mbedtls_pk_parse_public_key(&pk, PUBLIC_KEY, sizeof(PUBLIC_KEY))) == 0){
debugger->printf("RSA public key OK\n");
rsa = mbedtls_pk_rsa(pk);
} else {
debugger->printf("RSA public key read error: ");
mbedtls_strerror(error_code, (char*) buf, 4096);
debugger->printf("%s\n", buf);
}
debugger->flush();
//send();
}
void CloudConnector::send() {
if(rsa != nullptr && mbedtls_rsa_check_pubkey(rsa) == 0) {
memset(buf, 0, 4096);
CloudData data = {65, 127};
unsigned char toEncrypt[4096] = {0};
debugger->println("RSA clear data: ");
debugPrint(toEncrypt, 0, 256);
mbedtls_rsa_rsaes_pkcs1_v15_encrypt(rsa, NULL, NULL, MBEDTLS_RSA_PUBLIC, 256, toEncrypt, buf);
//byte hashResult[32];
//mbedtls_sha256(toEncrypt, strlen((char*) toEncrypt), hashResult, 0);
//int success = mbedtls_rsa_rsassa_pkcs1_v15_sign(rsa, NULL, NULL, MBEDTLS_RSA_PUBLIC, MBEDTLS_MD_SHA256, strlen((char*) hashResult), hashResult, buf);
debugger->println("RSA encrypted data: ");
debugPrint(buf, 0, 256);
} else {
debugger->println("RSA key is invalid");
}
}
void CloudConnector::debugPrint(byte *buffer, int start, int length) {
for (int i = start; i < start + length; i++) {
if (buffer[i] < 0x10)
debugger->print(F("0"));
debugger->print(buffer[i], HEX);
debugger->print(F(" "));
if ((i - start + 1) % 16 == 0)
debugger->println(F(""));
else if ((i - start + 1) % 4 == 0)
debugger->print(F(" "));
yield(); // Let other get some resources too
}
debugger->println(F(""));
}

4
lib/DomoticzMqttHandler/include/DomoticzMqttHandler.h
View File

@@ -9,14 +9,14 @@ public:
DomoticzMqttHandler(MQTTClient* mqtt, char* buf, DomoticzConfig config) : AmsMqttHandler(mqtt, buf) { DomoticzMqttHandler(MQTTClient* mqtt, char* buf, DomoticzConfig config) : AmsMqttHandler(mqtt, buf) {
this->config = config; this->config = config;
}; };
bool publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea); bool publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea, EntsoeApi* eapi);
bool publishTemperatures(AmsConfiguration*, HwTools*); bool publishTemperatures(AmsConfiguration*, HwTools*);
bool publishPrices(EntsoeApi*); bool publishPrices(EntsoeApi*);
bool publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea); bool publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea);
private: private:
DomoticzConfig config; DomoticzConfig config;
int energy = 0.0; double energy = 0.0;
}; };
#endif #endif

18
lib/DomoticzMqttHandler/src/DomoticzMqttHandler.cpp
View File

@@ -1,7 +1,7 @@
#include "DomoticzMqttHandler.h" #include "DomoticzMqttHandler.h"
#include "json/domoticz_json.h" #include "json/domoticz_json.h"
bool DomoticzMqttHandler::publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea) { bool DomoticzMqttHandler::publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea, EntsoeApi* eapi) {
bool ret = false; bool ret = false;
if (config.elidx > 0) { if (config.elidx > 0) {
if(data->getActiveImportCounter() > 1.0) { if(data->getActiveImportCounter() > 1.0) {
@@ -9,12 +9,12 @@ bool DomoticzMqttHandler::publish(AmsData* data, AmsData* previousState, EnergyA
} }
if(energy > 0.0) { if(energy > 0.0) {
char val[16]; char val[16];
snprintf(val, 16, "%.1f;%.1f", (data->getActiveImportPower()/1.0), energy*1000.0); snprintf_P(val, 16, PSTR("%.1f;%.1f"), (data->getActiveImportPower()/1.0), energy*1000.0);
snprintf_P(json, BufferSize, DOMOTICZ_JSON, snprintf_P(json, BufferSize, DOMOTICZ_JSON,
config.elidx, config.elidx,
val val
); );
ret = mqtt->publish("domoticz/in", json); ret = mqtt->publish(F("domoticz/in"), json);
} }
} }
@@ -23,22 +23,22 @@ bool DomoticzMqttHandler::publish(AmsData* data, AmsData* previousState, EnergyA
if (config.vl1idx > 0){ if (config.vl1idx > 0){
char val[16]; char val[16];
snprintf(val, 16, "%.2f", data->getL1Voltage()); snprintf_P(val, 16, PSTR("%.2f"), data->getL1Voltage());
snprintf_P(json, BufferSize, DOMOTICZ_JSON, snprintf_P(json, BufferSize, DOMOTICZ_JSON,
config.vl1idx, config.vl1idx,
val val
); );
ret |= mqtt->publish("domoticz/in", json); ret |= mqtt->publish(F("domoticz/in"), json);
} }
if (config.vl2idx > 0){ if (config.vl2idx > 0){
char val[16]; char val[16];
snprintf(val, 16, "%.2f", data->getL2Voltage()); snprintf_P(val, 16, PSTR("%.2f"), data->getL2Voltage());
snprintf_P(json, BufferSize, DOMOTICZ_JSON, snprintf_P(json, BufferSize, DOMOTICZ_JSON,
config.vl2idx, config.vl2idx,
val val
); );
ret |= mqtt->publish("domoticz/in", json); ret |= mqtt->publish(F("domoticz/in"), json);
} }
if (config.vl3idx > 0){ if (config.vl3idx > 0){
@@ -48,7 +48,7 @@ bool DomoticzMqttHandler::publish(AmsData* data, AmsData* previousState, EnergyA
config.vl3idx, config.vl3idx,
val val
); );
ret |= mqtt->publish("domoticz/in", json); ret |= mqtt->publish(F("domoticz/in"), json);
} }
if (config.cl1idx > 0){ if (config.cl1idx > 0){
@@ -58,7 +58,7 @@ bool DomoticzMqttHandler::publish(AmsData* data, AmsData* previousState, EnergyA
config.cl1idx, config.cl1idx,
val val
); );
ret |= mqtt->publish("domoticz/in", json); ret |= mqtt->publish(F("domoticz/in"), json);
} }
return ret; return ret;
} }

37
lib/EnergyAccounting/include/EnergyAccounting.h
View File

@@ -52,25 +52,26 @@ public:
bool update(AmsData* amsData); bool update(AmsData* amsData);
bool load(); bool load();
bool save(); bool save();
bool isInitialized();
double getUseThisHour(); float getUseThisHour();
double getUseToday(); float getUseToday();
double getUseThisMonth(); float getUseThisMonth();
double getProducedThisHour(); float getProducedThisHour();
double getProducedToday(); float getProducedToday();
double getProducedThisMonth(); float getProducedThisMonth();
double getCostThisHour(); float getCostThisHour();
double getCostToday(); float getCostToday();
double getCostYesterday(); float getCostYesterday();
double getCostThisMonth(); float getCostThisMonth();
uint16_t getCostLastMonth(); uint16_t getCostLastMonth();
double getIncomeThisHour(); float getIncomeThisHour();
double getIncomeToday(); float getIncomeToday();
double getIncomeYesterday(); float getIncomeYesterday();
double getIncomeThisMonth(); float getIncomeThisMonth();
uint16_t getIncomeLastMonth(); uint16_t getIncomeLastMonth();
float getMonthMax(); float getMonthMax();
@@ -80,6 +81,9 @@ public:
EnergyAccountingData getData(); EnergyAccountingData getData();
void setData(EnergyAccountingData&); void setData(EnergyAccountingData&);
void setFixedPrice(float price);
float getPriceForHour(uint8_t h);
private: private:
RemoteDebug* debugger = NULL; RemoteDebug* debugger = NULL;
unsigned long lastUpdateMillis = 0; unsigned long lastUpdateMillis = 0;
@@ -89,9 +93,10 @@ private:
EnergyAccountingConfig *config = NULL; EnergyAccountingConfig *config = NULL;
Timezone *tz = NULL; Timezone *tz = NULL;
uint8_t currentHour = 0, currentDay = 0, currentThresholdIdx = 0; uint8_t currentHour = 0, currentDay = 0, currentThresholdIdx = 0;
double use, costHour, costDay; float use = 0, costHour = 0, costDay = 0;
double produce, incomeHour, incomeDay; float produce = 0, incomeHour = 0, incomeDay = 0;
EnergyAccountingData data = { 0, 0, 0, 0, 0, 0 }; EnergyAccountingData data = { 0, 0, 0, 0, 0, 0 };
float fixedPrice = 0;
void calcDayCost(); void calcDayCost();
bool updateMax(uint16_t val, uint8_t day); bool updateMax(uint16_t val, uint8_t day);

137
lib/EnergyAccounting/src/EnergyAccounting.cpp
View File

@@ -26,12 +26,16 @@ void EnergyAccounting::setTimezone(Timezone* tz) {
this->tz = tz; this->tz = tz;
} }
bool EnergyAccounting::isInitialized() {
return this->init;
}
bool EnergyAccounting::update(AmsData* amsData) { bool EnergyAccounting::update(AmsData* amsData) {
if(config == NULL) return false; if(config == NULL) return false;
time_t now = time(nullptr); time_t now = time(nullptr);
if(now < BUILD_EPOCH) return false; if(now < BUILD_EPOCH) return false;
if(tz == NULL) { if(tz == NULL) {
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(EnergyAccounting) Timezone is missing\n"); if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf_P(PSTR("(EnergyAccounting) Timezone is missing\n"));
return false; return false;
} }
@@ -42,9 +46,9 @@ bool EnergyAccounting::update(AmsData* amsData) {
if(!init) { if(!init) {
currentHour = local.Hour; currentHour = local.Hour;
currentDay = local.Day; currentDay = local.Day;
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf("(EnergyAccounting) Initializing data at %lu\n", (int32_t) now); if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf_P(PSTR("(EnergyAccounting) Initializing data at %lu\n"), (int32_t) now);
if(!load()) { if(!load()) {
if(debugger->isActive(RemoteDebug::INFO)) debugger->printf("(EnergyAccounting) Unable to load existing data\n"); if(debugger->isActive(RemoteDebug::INFO)) debugger->printf_P(PSTR("(EnergyAccounting) Unable to load existing data\n"));
data = { 5, local.Month, data = { 5, local.Month,
0, 0, 0, // Cost 0, 0, 0, // Cost
0, 0, 0, // Income 0, 0, 0, // Income
@@ -56,21 +60,22 @@ bool EnergyAccounting::update(AmsData* amsData) {
}; };
} else if(debugger->isActive(RemoteDebug::DEBUG)) { } else if(debugger->isActive(RemoteDebug::DEBUG)) {
for(uint8_t i = 0; i < 5; i++) { for(uint8_t i = 0; i < 5; i++) {
debugger->printf("(EnergyAccounting) Peak hour from day %d: %d\n", data.peaks[i].day, data.peaks[i].value*10); debugger->printf_P(PSTR("(EnergyAccounting) Peak hour from day %d: %d\n"), data.peaks[i].day, data.peaks[i].value*10);
} }
debugger->printf("(EnergyAccounting) Loaded cost yesterday: %.2f, this month: %d, last month: %d\n", data.costYesterday / 10.0, data.costThisMonth, data.costLastMonth); debugger->printf_P(PSTR("(EnergyAccounting) Loaded cost yesterday: %.2f, this month: %d, last month: %d\n"), data.costYesterday / 10.0, data.costThisMonth, data.costLastMonth);
debugger->printf("(EnergyAccounting) Loaded income yesterday: %.2f, this month: %d, last month: %d\n", data.incomeYesterday / 10.0, data.incomeThisMonth, data.incomeLastMonth); debugger->printf_P(PSTR("(EnergyAccounting) Loaded income yesterday: %.2f, this month: %d, last month: %d\n"), data.incomeYesterday / 10.0, data.incomeThisMonth, data.incomeLastMonth);
} }
init = true; init = true;
} }
if(!initPrice && eapi != NULL && eapi->getValueForHour(0) != ENTSOE_NO_VALUE) { float price = getPriceForHour(0);
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf("(EnergyAccounting) Initializing prices at %lu\n", (int32_t) now); if(!initPrice && price != ENTSOE_NO_VALUE) {
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf_P(PSTR("(EnergyAccounting) Initializing prices at %lu\n"), (int32_t) now);
calcDayCost(); calcDayCost();
} }
if(local.Hour != currentHour && (amsData->getListType() >= 3 || local.Minute == 1)) { if(local.Hour != currentHour && (amsData->getListType() >= 3 || local.Minute == 1)) {
if(debugger->isActive(RemoteDebug::INFO)) debugger->printf("(EnergyAccounting) New local hour %d\n", local.Hour); if(debugger->isActive(RemoteDebug::INFO)) debugger->printf_P(PSTR("(EnergyAccounting) New local hour %d\n"), local.Hour);
tmElements_t oneHrAgo, oneHrAgoLocal; tmElements_t oneHrAgo, oneHrAgoLocal;
breakTime(now-3600, oneHrAgo); breakTime(now-3600, oneHrAgo);
@@ -90,7 +95,7 @@ bool EnergyAccounting::update(AmsData* amsData) {
incomeHour = 0; incomeHour = 0;
if(local.Day != currentDay) { if(local.Day != currentDay) {
if(debugger->isActive(RemoteDebug::INFO)) debugger->printf("(EnergyAccounting) New day %d\n", local.Day); if(debugger->isActive(RemoteDebug::INFO)) debugger->printf_P(PSTR("(EnergyAccounting) New day %d\n"), local.Day);
data.costYesterday = costDay * 10; data.costYesterday = costDay * 10;
data.costThisMonth += costDay; data.costThisMonth += costDay;
costDay = 0; costDay = 0;
@@ -104,7 +109,7 @@ bool EnergyAccounting::update(AmsData* amsData) {
} }
if(local.Month != data.month) { if(local.Month != data.month) {
if(debugger->isActive(RemoteDebug::INFO)) debugger->printf("(EnergyAccounting) New month %d\n", local.Month); if(debugger->isActive(RemoteDebug::INFO)) debugger->printf_P(PSTR("(EnergyAccounting) New month %d\n"), local.Month);
data.costLastMonth = data.costThisMonth; data.costLastMonth = data.costThisMonth;
data.costThisMonth = 0; data.costThisMonth = 0;
data.incomeLastMonth = data.incomeThisMonth; data.incomeLastMonth = data.incomeThisMonth;
@@ -123,32 +128,30 @@ bool EnergyAccounting::update(AmsData* amsData) {
float kwhe = (amsData->getActiveExportPower() * (((float) ms) / 3600000.0)) / 1000.0; float kwhe = (amsData->getActiveExportPower() * (((float) ms) / 3600000.0)) / 1000.0;
lastUpdateMillis = amsData->getLastUpdateMillis(); lastUpdateMillis = amsData->getLastUpdateMillis();
if(kwhi > 0) { if(kwhi > 0) {
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(EnergyAccounting) Adding %.4f kWh import\n", kwhi); if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf_P(PSTR("(EnergyAccounting) Adding %.4f kWh import\n"), kwhi);
use += kwhi; use += kwhi;
if(eapi != NULL && eapi->getValueForHour(0) != ENTSOE_NO_VALUE) { if(price != ENTSOE_NO_VALUE) {
float price = eapi->getValueForHour(0);
float cost = price * kwhi; float cost = price * kwhi;
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(EnergyAccounting) and %.4f %s\n", cost / 100.0, eapi->getCurrency()); if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf_P(PSTR("(EnergyAccounting) and %.4f %s\n"), cost / 100.0, eapi->getCurrency());
costHour += cost; costHour += cost;
costDay += cost; costDay += cost;
} }
} }
if(kwhe > 0) { if(kwhe > 0) {
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(EnergyAccounting) Adding %.4f kWh export\n", kwhe); if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf_P(PSTR("(EnergyAccounting) Adding %.4f kWh export\n"), kwhe);
produce += kwhe; produce += kwhe;
if(eapi != NULL && eapi->getValueForHour(0) != ENTSOE_NO_VALUE) { if(price != ENTSOE_NO_VALUE) {
float price = eapi->getValueForHour(0);
float income = price * kwhe; float income = price * kwhe;
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(EnergyAccounting) and %.4f %s\n", income / 100.0, eapi->getCurrency()); if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf_P(PSTR("(EnergyAccounting) and %.4f %s\n"), income / 100.0, eapi->getCurrency());
incomeHour += income; incomeHour += income;
incomeDay += income; incomeDay += income;
} }
} }
if(config != NULL) { if(config != NULL) {
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(EnergyAccounting) calculating threshold, currently at %d\n", currentThresholdIdx); if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf_P(PSTR("(EnergyAccounting) calculating threshold, currently at %d\n"), currentThresholdIdx);
while(getMonthMax() > config->thresholds[currentThresholdIdx] && currentThresholdIdx < 10) currentThresholdIdx++; while(getMonthMax() > config->thresholds[currentThresholdIdx] && currentThresholdIdx < 10) currentThresholdIdx++;
if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(EnergyAccounting) new threshold %d\n", currentThresholdIdx); if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf_P(PSTR("(EnergyAccounting) new threshold %d\n"), currentThresholdIdx);
} }
return ret; return ret;
@@ -159,13 +162,13 @@ void EnergyAccounting::calcDayCost() {
tmElements_t local, utc; tmElements_t local, utc;
breakTime(tz->toLocal(now), local); breakTime(tz->toLocal(now), local);
if(eapi != NULL && eapi->getValueForHour(0) != ENTSOE_NO_VALUE) { if(getPriceForHour(0) != ENTSOE_NO_VALUE) {
if(initPrice) { if(initPrice) {
costDay = 0; costDay = 0;
incomeDay = 0; incomeDay = 0;
} }
for(int i = 0; i < currentHour; i++) { for(uint8_t i = 0; i < currentHour; i++) {
float price = eapi->getValueForHour(i - local.Hour); float price = getPriceForHour(i - local.Hour);
if(price == ENTSOE_NO_VALUE) break; if(price == ENTSOE_NO_VALUE) break;
breakTime(now - ((local.Hour - i) * 3600), utc); breakTime(now - ((local.Hour - i) * 3600), utc);
int16_t wh = ds->getHourImport(utc.Hour); int16_t wh = ds->getHourImport(utc.Hour);
@@ -178,73 +181,75 @@ void EnergyAccounting::calcDayCost() {
} }
} }
double EnergyAccounting::getUseThisHour() { float EnergyAccounting::getUseThisHour() {
return use; return use;
} }
double EnergyAccounting::getUseToday() { float EnergyAccounting::getUseToday() {
float ret = 0.0; float ret = 0.0;
time_t now = time(nullptr); time_t now = time(nullptr);
if(now < BUILD_EPOCH) return 0; if(now < BUILD_EPOCH) return 0.0;
if(tz == NULL) return 0.0;
tmElements_t utc, local; tmElements_t utc, local;
breakTime(tz->toLocal(now), local); breakTime(tz->toLocal(now), local);
for(int i = 0; i < currentHour; i++) { for(uint8_t i = 0; i < currentHour; i++) {
breakTime(now - ((local.Hour - i) * 3600), utc); breakTime(now - ((local.Hour - i) * 3600), utc);
ret += ds->getHourImport(utc.Hour) / 1000.0; ret += ds->getHourImport(utc.Hour) / 1000.0;
} }
return ret + getUseThisHour(); return ret + getUseThisHour();
} }
double EnergyAccounting::getUseThisMonth() { float EnergyAccounting::getUseThisMonth() {
time_t now = time(nullptr); time_t now = time(nullptr);
if(now < BUILD_EPOCH) return 0; if(now < BUILD_EPOCH) return 0.0;
float ret = 0; float ret = 0;
for(int i = 0; i < currentDay; i++) { for(uint8_t i = 0; i < currentDay; i++) {
ret += ds->getDayImport(i) / 1000.0; ret += ds->getDayImport(i) / 1000.0;
} }
return ret + getUseToday(); return ret + getUseToday();
} }
double EnergyAccounting::getProducedThisHour() { float EnergyAccounting::getProducedThisHour() {
return produce; return produce;
} }
double EnergyAccounting::getProducedToday() { float EnergyAccounting::getProducedToday() {
float ret = 0.0; float ret = 0.0;
time_t now = time(nullptr); time_t now = time(nullptr);
if(now < BUILD_EPOCH) return 0; if(now < BUILD_EPOCH) return 0.0;
tmElements_t utc; tmElements_t utc, local;
for(int i = 0; i < currentHour; i++) { breakTime(tz->toLocal(now), local);
breakTime(now - ((currentHour - i) * 3600), utc); for(uint8_t i = 0; i < currentHour; i++) {
breakTime(now - ((local.Hour - i) * 3600), utc);
ret += ds->getHourExport(utc.Hour) / 1000.0; ret += ds->getHourExport(utc.Hour) / 1000.0;
} }
return ret + getProducedThisHour(); return ret + getProducedThisHour();
} }
double EnergyAccounting::getProducedThisMonth() { float EnergyAccounting::getProducedThisMonth() {
time_t now = time(nullptr); time_t now = time(nullptr);
if(now < BUILD_EPOCH) return 0; if(now < BUILD_EPOCH) return 0.0;
float ret = 0; float ret = 0;
for(int i = 0; i < currentDay; i++) { for(uint8_t i = 0; i < currentDay; i++) {
ret += ds->getDayExport(i) / 1000.0; ret += ds->getDayExport(i) / 1000.0;
} }
return ret + getProducedToday(); return ret + getProducedToday();
} }
double EnergyAccounting::getCostThisHour() { float EnergyAccounting::getCostThisHour() {
return costHour; return costHour;
} }
double EnergyAccounting::getCostToday() { float EnergyAccounting::getCostToday() {
return costDay; return costDay;
} }
double EnergyAccounting::getCostYesterday() { float EnergyAccounting::getCostYesterday() {
return data.costYesterday / 10.0; return data.costYesterday / 10.0;
} }
double EnergyAccounting::getCostThisMonth() { float EnergyAccounting::getCostThisMonth() {
return data.costThisMonth + getCostToday(); return data.costThisMonth + getCostToday();
} }
@@ -252,19 +257,19 @@ uint16_t EnergyAccounting::getCostLastMonth() {
return data.costLastMonth; return data.costLastMonth;
} }
double EnergyAccounting::getIncomeThisHour() { float EnergyAccounting::getIncomeThisHour() {
return incomeHour; return incomeHour;
} }
double EnergyAccounting::getIncomeToday() { float EnergyAccounting::getIncomeToday() {
return incomeDay; return incomeDay;
} }
double EnergyAccounting::getIncomeYesterday() { float EnergyAccounting::getIncomeYesterday() {
return data.incomeYesterday / 10.0; return data.incomeYesterday / 10.0;
} }
double EnergyAccounting::getIncomeThisMonth() { float EnergyAccounting::getIncomeThisMonth() {
return data.incomeThisMonth + getIncomeToday(); return data.incomeThisMonth + getIncomeToday();
} }
@@ -279,6 +284,8 @@ uint8_t EnergyAccounting::getCurrentThreshold() {
} }
float EnergyAccounting::getMonthMax() { float EnergyAccounting::getMonthMax() {
if(config == NULL)
return 0.0;
uint8_t count = 0; uint8_t count = 0;
uint32_t maxHour = 0.0; uint32_t maxHour = 0.0;
bool included[5] = { false, false, false, false, false }; bool included[5] = { false, false, false, false, false };
@@ -308,6 +315,8 @@ float EnergyAccounting::getMonthMax() {
} }
EnergyAccountingPeak EnergyAccounting::getPeak(uint8_t num) { EnergyAccountingPeak EnergyAccounting::getPeak(uint8_t num) {
if(config == NULL)
return EnergyAccountingPeak({0,0});
if(num < 1 || num > 5) return EnergyAccountingPeak({0,0}); if(num < 1 || num > 5) return EnergyAccountingPeak({0,0});
uint8_t count = 0; uint8_t count = 0;
@@ -343,7 +352,7 @@ EnergyAccountingPeak EnergyAccounting::getPeak(uint8_t num) {
bool EnergyAccounting::load() { bool EnergyAccounting::load() {
if(!LittleFS.begin()) { if(!LittleFS.begin()) {
if(debugger->isActive(RemoteDebug::ERROR)) { if(debugger->isActive(RemoteDebug::ERROR)) {
debugger->printf("(EnergyAccounting) Unable to load LittleFS\n"); debugger->printf_P(PSTR("(EnergyAccounting) Unable to load LittleFS\n"));
} }
return false; return false;
} }
@@ -354,7 +363,7 @@ bool EnergyAccounting::load() {
char buf[file.size()]; char buf[file.size()];
file.readBytes(buf, file.size()); file.readBytes(buf, file.size());
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf("(EnergyAccounting) Data version %d\n", buf[0]); if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf_P(PSTR("(EnergyAccounting) Data version %d\n"), buf[0]);
if(buf[0] == 5) { if(buf[0] == 5) {
EnergyAccountingData* data = (EnergyAccountingData*) buf; EnergyAccountingData* data = (EnergyAccountingData*) buf;
memcpy(&this->data, data, sizeof(this->data)); memcpy(&this->data, data, sizeof(this->data));
@@ -362,7 +371,9 @@ bool EnergyAccounting::load() {
} else if(buf[0] == 4) { } else if(buf[0] == 4) {
EnergyAccountingData4* data = (EnergyAccountingData4*) buf; EnergyAccountingData4* data = (EnergyAccountingData4*) buf;
this->data = { 5, data->month, this->data = { 5, data->month,
(uint16_t) (data->costYesterday / 10), (uint16_t) (data->costThisMonth / 100), (uint16_t) (data->costLastMonth / 100), data->costYesterday,
data->costThisMonth,
data->costLastMonth,
0,0,0, // Income from production 0,0,0, // Income from production
data->peaks[0].day, data->peaks[0].value, data->peaks[0].day, data->peaks[0].value,
data->peaks[1].day, data->peaks[1].value, data->peaks[1].day, data->peaks[1].value,
@@ -417,25 +428,23 @@ bool EnergyAccounting::load() {
this->data.peaks[0].value = data->maxHour; this->data.peaks[0].value = data->maxHour;
ret = true; ret = true;
} else { } else {
if(debugger->isActive(RemoteDebug::WARNING)) debugger->printf("(EnergyAccounting) Unknown version\n"); if(debugger->isActive(RemoteDebug::WARNING)) debugger->printf_P(PSTR("(EnergyAccounting) Unknown version\n"));
ret = false; ret = false;
} }
} }
file.close(); file.close();
} else { } else {
if(debugger->isActive(RemoteDebug::WARNING)) debugger->printf("(EnergyAccounting) File not found\n"); if(debugger->isActive(RemoteDebug::WARNING)) debugger->printf_P(PSTR("(EnergyAccounting) File not found\n"));
} }
LittleFS.end();
return ret; return ret;
} }
bool EnergyAccounting::save() { bool EnergyAccounting::save() {
if(!LittleFS.begin()) { if(!LittleFS.begin()) {
if(debugger->isActive(RemoteDebug::ERROR)) { if(debugger->isActive(RemoteDebug::ERROR)) {
debugger->printf("(EnergyAccounting) Unable to load LittleFS\n"); debugger->printf_P(PSTR("(EnergyAccounting) Unable to load LittleFS\n"));
} }
return false; return false;
} }
@@ -448,8 +457,6 @@ bool EnergyAccounting::save() {
} }
file.close(); file.close();
} }
LittleFS.end();
return true; return true;
} }
@@ -465,7 +472,7 @@ bool EnergyAccounting::updateMax(uint16_t val, uint8_t day) {
for(uint8_t i = 0; i < 5; i++) { for(uint8_t i = 0; i < 5; i++) {
if(data.peaks[i].day == day || data.peaks[i].day == 0) { if(data.peaks[i].day == day || data.peaks[i].day == 0) {
if(val > data.peaks[i].value) { if(val > data.peaks[i].value) {
if(debugger->isActive(RemoteDebug::INFO)) debugger->printf("(EnergyAccounting) Adding new max %d for day %d which is larger than %d\n", val*10, day, data.peaks[i].value*10); if(debugger->isActive(RemoteDebug::INFO)) debugger->printf_P(PSTR("(EnergyAccounting) Adding new max %d for day %d which is larger than %d\n"), val*10, day, data.peaks[i].value*10);
data.peaks[i].day = day; data.peaks[i].day = day;
data.peaks[i].value = val; data.peaks[i].value = val;
return true; return true;
@@ -484,10 +491,20 @@ bool EnergyAccounting::updateMax(uint16_t val, uint8_t day) {
} }
} }
if(idx < 5) { if(idx < 5) {
if(debugger->isActive(RemoteDebug::INFO)) debugger->printf("(EnergyAccounting) Adding new max %d for day %d\n", val*10, day); if(debugger->isActive(RemoteDebug::INFO)) debugger->printf_P(PSTR("(EnergyAccounting) Adding new max %d for day %d\n"), val*10, day);
data.peaks[idx].value = val; data.peaks[idx].value = val;
data.peaks[idx].day = day; data.peaks[idx].day = day;
return true; return true;
} }
return false; return false;
}
void EnergyAccounting::setFixedPrice(float price) {
this->fixedPrice = price;
}
float EnergyAccounting::getPriceForHour(uint8_t h) {
if(fixedPrice > 0.0) return fixedPrice;
if(eapi == NULL) return ENTSOE_NO_VALUE;
return eapi->getValueForHour(h);
} }

2
lib/EntsoePriceApi/include/EntsoeA44Parser.h
View File

@@ -32,7 +32,7 @@ public:
private: private:
char currency[4]; char currency[4];
char measurementUnit[4]; char measurementUnit[4];
float points[24]; float points[25];
char buf[64]; char buf[64];
uint8_t pos = 0; uint8_t pos = 0;

3
lib/EntsoePriceApi/include/EntsoeApi.h
View File

@@ -38,6 +38,7 @@ private:
uint8_t currentDay = 0, currentHour = 0; uint8_t currentDay = 0, currentHour = 0;
uint8_t tomorrowFetchMinute = 15; // How many minutes over 13:00 should it fetch prices uint8_t tomorrowFetchMinute = 15; // How many minutes over 13:00 should it fetch prices
uint8_t nextFetchDelayMinutes = 15;
uint64_t lastTodayFetch = 0; uint64_t lastTodayFetch = 0;
uint64_t lastTomorrowFetch = 0; uint64_t lastTomorrowFetch = 0;
uint64_t lastCurrencyFetch = 0; uint64_t lastCurrencyFetch = 0;
@@ -61,8 +62,6 @@ private:
bool retrieve(const char* url, Stream* doc); bool retrieve(const char* url, Stream* doc);
float getCurrencyMultiplier(const char* from, const char* to, time_t t); float getCurrencyMultiplier(const char* from, const char* to, time_t t);
void printD(String fmt, ...);
void printE(String fmt, ...);
void debugPrint(byte *buffer, int start, int length); void debugPrint(byte *buffer, int start, int length);
}; };
#endif #endif

2
lib/EntsoePriceApi/include/PricesContainer.h
View File

@@ -3,6 +3,6 @@
struct PricesContainer { struct PricesContainer {
char currency[4]; char currency[4];
char measurementUnit[4]; char measurementUnit[4];
int32_t points[24]; int32_t points[25];
}; };
#endif #endif

33
lib/EntsoePriceApi/src/EntsoeA44Parser.cpp
View File

@@ -2,7 +2,7 @@
#include "HardwareSerial.h" #include "HardwareSerial.h"
EntsoeA44Parser::EntsoeA44Parser() { EntsoeA44Parser::EntsoeA44Parser() {
for(int i = 0; i < 24; i++) points[i] = ENTSOE_NO_VALUE; for(int i = 0; i < 25; i++) points[i] = ENTSOE_NO_VALUE;
} }
EntsoeA44Parser::~EntsoeA44Parser() { EntsoeA44Parser::~EntsoeA44Parser() {
@@ -18,7 +18,7 @@ char* EntsoeA44Parser::getMeasurementUnit() {
} }
float EntsoeA44Parser::getPoint(uint8_t position) { float EntsoeA44Parser::getPoint(uint8_t position) {
if(position >= 24) return ENTSOE_NO_VALUE; if(position >= 25) return ENTSOE_NO_VALUE;
return points[position]; return points[position];
} }
@@ -111,30 +111,7 @@ void EntsoeA44Parser::get(PricesContainer* container) {
strcpy(container->currency, currency); strcpy(container->currency, currency);
strcpy(container->measurementUnit, measurementUnit); strcpy(container->measurementUnit, measurementUnit);
container->points[0] = points[0] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[0] * 10000; for(uint8_t i = 0; i < 25; i++) {
container->points[1] = points[1] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[1] * 10000; container->points[i] = points[i] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[i] * 10000;
container->points[2] = points[2] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[2] * 10000; }
container->points[3] = points[3] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[3] * 10000;
container->points[4] = points[4] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[4] * 10000;
container->points[5] = points[5] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[5] * 10000;
container->points[6] = points[6] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[6] * 10000;
container->points[7] = points[7] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[7] * 10000;
container->points[8] = points[8] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[8] * 10000;
container->points[9] = points[9] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[9] * 10000;
container->points[10] = points[10] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[10] * 10000;
container->points[11] = points[11] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[11] * 10000;
container->points[12] = points[12] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[12] * 10000;
container->points[13] = points[13] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[13] * 10000;
container->points[14] = points[14] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[14] * 10000;
container->points[15] = points[15] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[15] * 10000;
container->points[16] = points[16] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[16] * 10000;
container->points[17] = points[17] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[17] * 10000;
container->points[18] = points[18] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[18] * 10000;
container->points[19] = points[19] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[19] * 10000;
container->points[20] = points[20] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[20] * 10000;
container->points[21] = points[21] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[21] * 10000;
container->points[22] = points[22] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[22] * 10000;
container->points[23] = points[23] == ENTSOE_NO_VALUE ? ENTSOE_NO_VALUE : points[23] * 10000;
} }

202
lib/EntsoePriceApi/src/EntsoeApi.cpp
View File

@@ -72,23 +72,34 @@ float EntsoeApi::getValueForHour(int8_t hour) {
return getValueForHour(cur, hour); return getValueForHour(cur, hour);
} }
float EntsoeApi::getValueForHour(time_t cur, int8_t hour) { float EntsoeApi::getValueForHour(time_t ts, int8_t hour) {
tmElements_t tm; tmElements_t tm;
if(tz != NULL) int8_t pos = hour;
cur = tz->toLocal(cur);
breakTime(cur, tm); breakTime(tz->toLocal(ts), tm);
int pos = tm.Hour + hour; while(tm.Hour > 0) {
ts -= 3600;
breakTime(tz->toLocal(ts), tm);
pos++;
}
uint8_t hoursToday = 0;
uint8_t todayDate = tm.Day;
while(tm.Day == todayDate) {
ts += 3600;
breakTime(tz->toLocal(ts), tm);
hoursToday++;
}
if(pos >= 48) if(pos >= 48)
return ENTSOE_NO_VALUE; return ENTSOE_NO_VALUE;
double value = ENTSOE_NO_VALUE; float value = ENTSOE_NO_VALUE;
double multiplier = config->multiplier / 1000.0; float multiplier = config->multiplier / 1000.0;
if(pos > 23) { if(pos >= hoursToday) {
if(tomorrow == NULL) if(tomorrow == NULL)
return ENTSOE_NO_VALUE; return ENTSOE_NO_VALUE;
if(tomorrow->points[pos-24] == ENTSOE_NO_VALUE) if(tomorrow->points[pos-hoursToday] == ENTSOE_NO_VALUE)
return ENTSOE_NO_VALUE; return ENTSOE_NO_VALUE;
value = tomorrow->points[pos-24] / 10000.0; value = tomorrow->points[pos-hoursToday] / 10000.0;
if(strcmp(tomorrow->measurementUnit, "KWH") == 0) { if(strcmp(tomorrow->measurementUnit, "KWH") == 0) {
// Multiplier is 1 // Multiplier is 1
} else if(strcmp(tomorrow->measurementUnit, "MWH") == 0) { } else if(strcmp(tomorrow->measurementUnit, "MWH") == 0) {
@@ -96,7 +107,7 @@ float EntsoeApi::getValueForHour(time_t cur, int8_t hour) {
} else { } else {
return ENTSOE_NO_VALUE; return ENTSOE_NO_VALUE;
} }
float mult = getCurrencyMultiplier(tomorrow->currency, config->currency, cur); float mult = getCurrencyMultiplier(tomorrow->currency, config->currency, time(nullptr));
if(mult == 0) return ENTSOE_NO_VALUE; if(mult == 0) return ENTSOE_NO_VALUE;
multiplier *= mult; multiplier *= mult;
} else if(pos >= 0) { } else if(pos >= 0) {
@@ -112,7 +123,7 @@ float EntsoeApi::getValueForHour(time_t cur, int8_t hour) {
} else { } else {
return ENTSOE_NO_VALUE; return ENTSOE_NO_VALUE;
} }
float mult = getCurrencyMultiplier(today->currency, config->currency, cur); float mult = getCurrencyMultiplier(today->currency, config->currency, time(nullptr));
if(mult == 0) return ENTSOE_NO_VALUE; if(mult == 0) return ENTSOE_NO_VALUE;
multiplier *= mult; multiplier *= mult;
} }
@@ -147,7 +158,7 @@ bool EntsoeApi::loop() {
} }
if(currentDay != tm.Day) { if(currentDay != tm.Day) {
if(debugger->isActive(RemoteDebug::INFO)) debugger->printf("(EntsoeApi) Rotating price objects at %lu\n", t); if(debugger->isActive(RemoteDebug::INFO)) debugger->printf_P(PSTR("(EntsoeApi) Rotating price objects at %lu\n"), t);
if(today != NULL) delete today; if(today != NULL) delete today;
if(tomorrow != NULL) { if(tomorrow != NULL) {
today = tomorrow; today = tomorrow;
@@ -161,25 +172,33 @@ bool EntsoeApi::loop() {
return today != NULL; // Only trigger MQTT publish if we have todays prices. return today != NULL; // Only trigger MQTT publish if we have todays prices.
} }
if(today == NULL && (lastTodayFetch == 0 || now - lastTodayFetch > 60000)) { bool readyToFetchForTomorrow = tomorrow == NULL && (tm.Hour > 13 || (tm.Hour == 13 && tm.Minute >= tomorrowFetchMinute)) && (lastTomorrowFetch == 0 || now - lastTomorrowFetch > (nextFetchDelayMinutes*60000));
if(today == NULL && (lastTodayFetch == 0 || now - lastTodayFetch > (nextFetchDelayMinutes*60000))) {
try { try {
lastTodayFetch = now; lastTodayFetch = now;
today = fetchPrices(t); today = fetchPrices(t);
} catch(const std::exception& e) { } catch(const std::exception& e) {
if(lastError == 0) lastError = 900; if(lastError == 0) {
lastError = 900;
nextFetchDelayMinutes = 60;
}
today = NULL; today = NULL;
} }
return today != NULL; // Only trigger MQTT publish if we have todays prices. return today != NULL && !readyToFetchForTomorrow; // Only trigger MQTT publish if we have todays prices and we are not immediately ready to fetch price for tomorrow.
} }
// Prices for next day are published at 13:00 CE(S)T, but to avoid heavy server traffic at that time, we will // Prices for next day are published at 13:00 CE(S)T, but to avoid heavy server traffic at that time, we will
// fetch with one hour (with some random delay) and retry every 15 minutes // fetch with one hour (with some random delay) and retry every 15 minutes
if(tomorrow == NULL && (tm.Hour > 13 || (tm.Hour == 13 && tm.Minute >= tomorrowFetchMinute)) && (lastTomorrowFetch == 0 || now - lastTomorrowFetch > 900000)) { if(readyToFetchForTomorrow) {
try { try {
lastTomorrowFetch = now; lastTomorrowFetch = now;
tomorrow = fetchPrices(t+SECS_PER_DAY); tomorrow = fetchPrices(t+SECS_PER_DAY);
} catch(const std::exception& e) { } catch(const std::exception& e) {
if(lastError == 0) lastError = 900; if(lastError == 0) {
lastError = 900;
nextFetchDelayMinutes = 60;
}
tomorrow = NULL; tomorrow = NULL;
} }
return tomorrow != NULL; return tomorrow != NULL;
@@ -191,7 +210,7 @@ bool EntsoeApi::loop() {
bool EntsoeApi::retrieve(const char* url, Stream* doc) { bool EntsoeApi::retrieve(const char* url, Stream* doc) {
#if defined(ESP32) #if defined(ESP32)
if(http.begin(url)) { if(http.begin(url)) {
printD("Connection established"); if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf_P(PSTR("Connection established\n"));
#if defined(ESP32) #if defined(ESP32)
esp_task_wdt_reset(); esp_task_wdt_reset();
@@ -208,16 +227,24 @@ bool EntsoeApi::retrieve(const char* url, Stream* doc) {
#endif #endif
if(status == HTTP_CODE_OK) { if(status == HTTP_CODE_OK) {
printD("Receiving data"); if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf_P(PSTR("Receiving data\n"));
http.writeToStream(doc); http.writeToStream(doc);
http.end(); http.end();
lastError = 0; lastError = 0;
nextFetchDelayMinutes = 1;
return true; return true;
} else { } else {
lastError = status; lastError = status;
if(debugger->isActive(RemoteDebug::ERROR)) debugger->printf("(EntsoeApi) Communication error, returned status: %d\n", status); if(status == 429) {
printE(http.errorToString(status)); nextFetchDelayMinutes = 60;
printD(http.getString()); } else if(status == 404) {
nextFetchDelayMinutes = 180;
} else {
nextFetchDelayMinutes = 30;
}
if(debugger->isActive(RemoteDebug::ERROR)) debugger->printf_P(PSTR("(EntsoeApi) Communication error, returned status: %d\n"), status);
if(debugger->isActive(RemoteDebug::ERROR)) debugger->printf(http.errorToString(status).c_str());
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf(http.getString().c_str());
http.end(); http.end();
return false; return false;
@@ -245,18 +272,18 @@ float EntsoeApi::getCurrencyMultiplier(const char* from, const char* to, time_t
ESP.wdtFeed(); ESP.wdtFeed();
#endif #endif
snprintf(buf, BufferSize, "https://data.norges-bank.no/api/data/EXR/M.%s.NOK.SP?lastNObservations=1", from); snprintf_P(buf, BufferSize, PSTR("https://data.norges-bank.no/api/data/EXR/M.%s.NOK.SP?lastNObservations=1"), from);
if(debugger->isActive(RemoteDebug::INFO)) debugger->printf("(EntsoeApi) Retrieving %s to NOK conversion\n", from); if(debugger->isActive(RemoteDebug::INFO)) debugger->printf_P(PSTR("(EntsoeApi) Retrieving %s to NOK conversion\n"), from);
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf("(EntsoeApi) url: %s\n", buf); if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf_P(PSTR("(EntsoeApi) url: %s\n"), buf);
if(retrieve(buf, &p)) { if(retrieve(buf, &p)) {
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf("(EntsoeApi) got exchange rate %.4f\n", p.getValue()); if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf_P(PSTR("(EntsoeApi) got exchange rate %.4f\n"), p.getValue());
currencyMultiplier = p.getValue(); currencyMultiplier = p.getValue();
if(strncmp(to, "NOK", 3) != 0) { if(strncmp(to, "NOK", 3) != 0) {
snprintf(buf, BufferSize, "https://data.norges-bank.no/api/data/EXR/M.%s.NOK.SP?lastNObservations=1", to); snprintf_P(buf, BufferSize, PSTR("https://data.norges-bank.no/api/data/EXR/M.%s.NOK.SP?lastNObservations=1"), to);
if(debugger->isActive(RemoteDebug::INFO)) debugger->printf("(EntsoeApi) Retrieving %s to NOK conversion\n", to); if(debugger->isActive(RemoteDebug::INFO)) debugger->printf_P(PSTR("(EntsoeApi) Retrieving %s to NOK conversion\n"), to);
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf("(EntsoeApi) url: %s\n", buf); if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf_P(PSTR("(EntsoeApi) url: %s\n"), buf);
if(retrieve(buf, &p)) { if(retrieve(buf, &p)) {
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf("(EntsoeApi) got exchange rate %.4f\n", p.getValue()); if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf_P(PSTR("(EntsoeApi) got exchange rate %.4f\n"), p.getValue());
currencyMultiplier /= p.getValue(); currencyMultiplier /= p.getValue();
} else { } else {
return 0; return 0;
@@ -265,7 +292,7 @@ float EntsoeApi::getCurrencyMultiplier(const char* from, const char* to, time_t
} else { } else {
return 0; return 0;
} }
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf("(EntsoeApi) Resulting currency multiplier: %.4f\n", currencyMultiplier); if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf_P(PSTR("(EntsoeApi) Resulting currency multiplier: %.4f\n"), currencyMultiplier);
tmElements_t tm; tmElements_t tm;
breakTime(t, tm); breakTime(t, tm);
lastCurrencyFetch = now + (SECS_PER_DAY * 1000) - (((((tm.Hour * 60) + tm.Minute) * 60) + tm.Second) * 1000); lastCurrencyFetch = now + (SECS_PER_DAY * 1000) - (((((tm.Hour * 60) + tm.Minute) * 60) + tm.Second) * 1000);
@@ -283,8 +310,8 @@ PricesContainer* EntsoeApi::fetchPrices(time_t t) {
breakTime(tz->toUTC(e1), d1); // To get day and hour for CET/CEST at UTC midnight breakTime(tz->toUTC(e1), d1); // To get day and hour for CET/CEST at UTC midnight
breakTime(tz->toUTC(e2), d2); breakTime(tz->toUTC(e2), d2);
snprintf(buf, BufferSize, "%s?securityToken=%s&documentType=A44&periodStart=%04d%02d%02d%02d%02d&periodEnd=%04d%02d%02d%02d%02d&in_Domain=%s&out_Domain=%s", snprintf_P(buf, BufferSize, PSTR("https://web-api.tp.entsoe.eu/api?securityToken=%s&documentType=A44&periodStart=%04d%02d%02d%02d%02d&periodEnd=%04d%02d%02d%02d%02d&in_Domain=%s&out_Domain=%s"),
"https://transparency.entsoe.eu/api", getToken(), getToken(),
d1.Year+1970, d1.Month, d1.Day, d1.Hour, 00, d1.Year+1970, d1.Month, d1.Day, d1.Hour, 00,
d2.Year+1970, d2.Month, d2.Day, d2.Hour, 00, d2.Year+1970, d2.Month, d2.Day, d2.Hour, 00,
config->area, config->area); config->area, config->area);
@@ -295,8 +322,8 @@ PricesContainer* EntsoeApi::fetchPrices(time_t t) {
ESP.wdtFeed(); ESP.wdtFeed();
#endif #endif
if(debugger->isActive(RemoteDebug::INFO)) debugger->printf("(EntsoeApi) Fetching prices for %d.%d.%d\n", tm.Day, tm.Month, tm.Year+1970); if(debugger->isActive(RemoteDebug::INFO)) debugger->printf_P(PSTR("(EntsoeApi) Fetching prices for %d.%d.%d\n"), tm.Day, tm.Month, tm.Year+1970);
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf("(EntsoeApi) url: %s\n", buf); if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf_P(PSTR("(EntsoeApi) url: %s\n"), buf);
EntsoeA44Parser a44; EntsoeA44Parser a44;
if(retrieve(buf, &a44) && a44.getPoint(0) != ENTSOE_NO_VALUE) { if(retrieve(buf, &a44) && a44.getPoint(0) != ENTSOE_NO_VALUE) {
PricesContainer* ret = new PricesContainer(); PricesContainer* ret = new PricesContainer();
@@ -307,8 +334,7 @@ PricesContainer* EntsoeApi::fetchPrices(time_t t) {
} }
} else if(hub) { } else if(hub) {
String data; String data;
snprintf(buf, BufferSize, "%s/%s/%d/%d/%d?currency=%s", snprintf_P(buf, BufferSize, PSTR("http://hub.amsleser.no/hub/price/%s/%d/%d/%d?currency=%s"),
"http://ams2mqtt.rewiredinvent.no/hub/price",
config->area, config->area,
tm.Year+1970, tm.Year+1970,
tm.Month, tm.Month,
@@ -331,78 +357,76 @@ PricesContainer* EntsoeApi::fetchPrices(time_t t) {
#endif #endif
if(status == HTTP_CODE_OK) { if(status == HTTP_CODE_OK) {
printD("Receiving data"); if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf_P(PSTR("Receiving data\n"));
data = http.getString(); data = http.getString();
http.end(); http.end();
lastError = 0;
uint8_t* content = (uint8_t*) (data.c_str());
if(debugger->isActive(RemoteDebug::DEBUG)) {
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf_P(PSTR("Received content for prices:\n"));
debugPrint(content, 0, data.length());
}
DataParserContext ctx = {0,0,0,0};
ctx.length = data.length();
GCMParser gcm(key, auth);
int8_t gcmRet = gcm.parse(content, ctx);
if(debugger->isActive(RemoteDebug::DEBUG)) {
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf_P(PSTR("Decrypted content for prices:\n"));
debugPrint(content, 0, data.length());
}
if(gcmRet > 0) {
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf_P(PSTR("(EntsoeApi) Price data starting at: %d\n"), gcmRet);
PricesContainer* ret = new PricesContainer();
for(uint8_t i = 0; i < 25; i++) {
ret->points[i] = ENTSOE_NO_VALUE;
}
memcpy(ret, content+gcmRet, sizeof(*ret));
for(uint8_t i = 0; i < 25; i++) {
ret->points[i] = ntohl(ret->points[i]);
}
lastError = 0;
nextFetchDelayMinutes = 1;
return ret;
} else {
lastError = gcmRet;
nextFetchDelayMinutes = 60;
if(debugger->isActive(RemoteDebug::ERROR)) debugger->printf_P(PSTR("(EntsoeApi) Error code while decrypting prices: %d\n"), gcmRet);
}
} else { } else {
lastError = status; lastError = status;
if(debugger->isActive(RemoteDebug::ERROR)) debugger->printf("(EntsoeApi) Communication error, returned status: %d\n", status); if(status == 429) {
printE(http.errorToString(status)); nextFetchDelayMinutes = 60;
printD(http.getString()); } else if(status == 404) {
nextFetchDelayMinutes = 180;
} else {
nextFetchDelayMinutes = 30;
}
if(debugger->isActive(RemoteDebug::ERROR)) debugger->printf_P(PSTR("(EntsoeApi) Communication error, returned status: %d\n"), status);
if(debugger->isActive(RemoteDebug::ERROR)) debugger->printf(http.errorToString(status).c_str());
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf(http.getString().c_str());
http.end(); http.end();
} }
} }
uint8_t* content = (uint8_t*) (data.c_str());
if(debugger->isActive(RemoteDebug::DEBUG)) {
printD("Received content for prices:");
debugPrint(content, 0, data.length());
}
DataParserContext ctx;
ctx.length = data.length();
GCMParser gcm(key, auth);
int8_t gcmRet = gcm.parse(content, ctx);
if(debugger->isActive(RemoteDebug::DEBUG)) {
printD("Decrypted content for prices:");
debugPrint(content, 0, data.length());
}
if(gcmRet > 0) {
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf("(EntsoeApi) Price data starting at: %d\n", gcmRet);
PricesContainer* ret = new PricesContainer();
memcpy(ret, content+gcmRet, sizeof(*ret));
for(uint8_t i = 0; i < 24; i++) {
ret->points[i] = ntohl(ret->points[i]);
}
lastError = 0;
return ret;
} else {
lastError = gcmRet;
if(debugger->isActive(RemoteDebug::ERROR)) debugger->printf("(EntsoeApi) Error code while decrypting prices: %d\n", gcmRet);
}
} }
return NULL; return NULL;
} }
void EntsoeApi::printD(String fmt, ...) {
va_list args;
va_start(args, fmt);
if(debugger->isActive(RemoteDebug::DEBUG)) debugger->printf(String("(EntsoeApi)" + fmt + "\n").c_str(), args);
va_end(args);
}
void EntsoeApi::printE(String fmt, ...) {
va_list args;
va_start(args, fmt);
if(debugger->isActive(RemoteDebug::ERROR)) debugger->printf(String("(EntsoeApi)" + fmt + "\n").c_str(), args);
va_end(args);
}
void EntsoeApi::debugPrint(byte *buffer, int start, int length) { void EntsoeApi::debugPrint(byte *buffer, int start, int length) {
for (int i = start; i < start + length; i++) { for (int i = start; i < start + length; i++) {
if (buffer[i] < 0x10) if (buffer[i] < 0x10)
debugger->print("0"); debugger->print(F("0"));
debugger->print(buffer[i], HEX); debugger->print(buffer[i], HEX);
debugger->print(" "); debugger->print(F(" "));
if ((i - start + 1) % 16 == 0) if ((i - start + 1) % 16 == 0)
debugger->println(""); debugger->println(F(""));
else if ((i - start + 1) % 4 == 0) else if ((i - start + 1) % 4 == 0)
debugger->print(" "); debugger->print(F(" "));
yield(); // Let other get some resources too yield(); // Let other get some resources too
} }
debugger->println(""); debugger->println(F(""));
} }
int16_t EntsoeApi::getLastError() { int16_t EntsoeApi::getLastError() {

160
lib/HomeAssistantMqttHandler/include/HomeAssistantMqttHandler.h
View File

@@ -2,35 +2,171 @@
#define _HOMEASSISTANTMQTTHANDLER_H #define _HOMEASSISTANTMQTTHANDLER_H
#include "AmsMqttHandler.h" #include "AmsMqttHandler.h"
#include "HomeAssistantStatic.h"
#include "AmsConfiguration.h"
class HomeAssistantMqttHandler : public AmsMqttHandler { class HomeAssistantMqttHandler : public AmsMqttHandler {
public: public:
HomeAssistantMqttHandler(MQTTClient* mqtt, char* buf, const char* clientId, const char* topic, HwTools* hw) : AmsMqttHandler(mqtt, buf) { HomeAssistantMqttHandler(MQTTClient* mqtt, char* buf, const char* clientId, const char* topic, uint8_t boardType, HomeAssistantConfig config, HwTools* hw) : AmsMqttHandler(mqtt, buf) {
this->clientId = clientId; this->clientId = clientId;
this->topic = String(topic); this->topic = String(topic);
this->hw = hw; this->hw = hw;
l1Init = l2Init = l2eInit = l3Init = l3eInit = l4Init = l4eInit = rtInit = rteInit = pInit = sInit = false;
if(strlen(config.discoveryNameTag) > 0) {
snprintf_P(buf, 128, PSTR("AMS reader (%s)"), config.discoveryNameTag);
deviceName = String(buf);
snprintf_P(buf, 128, PSTR("[%s] "), config.discoveryNameTag);
sensorNamePrefix = String(buf);
} else {
deviceName = F("AMS reader");
sensorNamePrefix = "";
}
deviceModel = boardTypeToString(boardType);
manufacturer = boardManufacturerToString(boardType);
#if defined(ESP8266)
String hostname = WiFi.hostname();
#elif defined(ESP32)
String hostname = WiFi.getHostname();
#endif
deviceUid = hostname; // Maybe configurable in the future?
if(strlen(config.discoveryHostname) > 0) {
if(strncmp_P(config.discoveryHostname, PSTR("http"), 4) == 0) {
deviceUrl = String(config.discoveryHostname);
} else {
snprintf_P(buf, 128, PSTR("http://%s/"), config.discoveryHostname);
deviceUrl = String(buf);
}
} else {
snprintf_P(buf, 128, PSTR("http://%s.local/"), hostname);
deviceUrl = String(buf);
}
if(strlen(config.discoveryPrefix) > 0) {
snprintf_P(buf, 128, PSTR("%s/sensor/"), config.discoveryPrefix);
discoveryTopic = String(buf);
} else {
discoveryTopic = F("homeassistant/sensor/");
}
}; };
bool publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea); bool publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea, EntsoeApi* eapi);
bool publishTemperatures(AmsConfiguration*, HwTools*); bool publishTemperatures(AmsConfiguration*, HwTools*);
bool publishPrices(EntsoeApi*); bool publishPrices(EntsoeApi*);
bool publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea); bool publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea);
protected:
bool loop();
private: private:
String haTopic = "homeassistant/sensor/"; String deviceName;
String deviceModel;
String deviceUid;
String manufacturer;
String deviceUrl;
String haName = "AMS reader"; String discoveryTopic;
#if defined(ESP32) String sensorNamePrefix;
String haModel = "ESP32";
#elif defined(ESP8266)
String haModel = "ESP8266";
#endif
String haManuf = "AmsToMqttBridge";
bool autodiscoverInit = false; bool l1Init, l2Init, l2eInit, l3Init, l3eInit, l4Init, l4eInit, rtInit, rteInit, pInit, sInit;
bool tInit[32] = {false};
bool prInit[38] = {false};
String clientId; String clientId;
String topic; String topic;
HwTools* hw; HwTools* hw;
uint8_t sequence = 0, listType = 0;
bool publishList1(AmsData* data, EnergyAccounting* ea);
bool publishList2(AmsData* data, EnergyAccounting* ea);
bool publishList3(AmsData* data, EnergyAccounting* ea);
bool publishList4(AmsData* data, EnergyAccounting* ea);
String getMeterModel(AmsData* data);
bool publishRealtime(AmsData* data, EnergyAccounting* ea, EntsoeApi* eapi);
void publishSensor(const HomeAssistantSensor& sensor);
void publishList1Sensors();
void publishList1ExportSensors();
void publishList2Sensors();
void publishList2ExportSensors();
void publishList3Sensors();
void publishList3ExportSensors();
void publishList4Sensors();
void publishList4ExportSensors();
void publishRealtimeSensors(EnergyAccounting* ea, EntsoeApi* eapi);
void publishRealtimeExportSensors(EnergyAccounting* ea, EntsoeApi* eapi);
void publishTemperatureSensor(uint8_t index, String id);
void publishPriceSensors(EntsoeApi* eapi);
void publishSystemSensors();
String boardTypeToString(uint8_t b) {
switch(b) {
case 5:
#if defined(ESP8266)
return F("Pow-K");
#elif defined(ESP32)
return F("Pow-K+");
#endif
case 7:
#if defined(ESP8266)
return F("Pow-U");
#elif defined(ESP32)
return F("Pow-U+");
#endif
case 6:
return F("Pow-P1");
case 51:
return F("S2 mini");
case 50:
return F("ESP32-S2");
case 201:
return F("LOLIN D32");
case 202:
return F("HUZZAH32");
case 203:
return F("DevKitC");
case 200:
return F("ESP32");
case 2:
return F("HAN Reader 2.0 by Max Spencer");
case 0:
return F("Custom hardware by Roar Fredriksen");
case 1:
return F("Kamstrup module by Egil Opsahl");
case 3:
return F("Pow-K");
case 4:
return F("Pow-U");
case 101:
return F("D1 mini");
case 100:
return F("ESP8266");
case 70:
return F("ESP32-C3");
case 71:
return F("ESP32-C3-DevKitM-1");
}
#if defined(ESP8266)
return F("ESP8266");
#elif defined(ESP32)
return F("ESP32");
#endif
};
String boardManufacturerToString(uint8_t b) {
if(b >= 3 && b <= 7)
return F("amsleser.no");
if(b < 50)
return F("Custom");
switch(b) {
case 51:
case 101:
case 201:
return F("Wemos");
case 202:
return F("Adafruit");
}
return F("Espressif");
};
}; };
#endif #endif

125
lib/HomeAssistantMqttHandler/include/HomeAssistantStatic.h
View File

@@ -3,7 +3,7 @@
#include "Arduino.h" #include "Arduino.h"
struct HomeAssistantSensor { typedef struct HomeAssistantSensor {
const char* name; const char* name;
const char* topic; const char* topic;
const char* path; const char* path;
@@ -13,69 +13,100 @@ struct HomeAssistantSensor {
}; };
const uint8_t HA_SENSOR_COUNT PROGMEM = 60; const uint8_t List1SensorCount PROGMEM = 1;
HomeAssistantSensor HA_SENSORS[HA_SENSOR_COUNT] PROGMEM = { const HomeAssistantSensor List1Sensors[List1SensorCount] PROGMEM = {
{"Status", "/state", "rssi", "dBm", "signal_strength", "\"measurement\""}, {"Active import", "/power", "P", "W", "power", "\"measurement\""}
{"Supply volt", "/state", "vcc", "V", "voltage", "\"measurement\""}, };
{"Temperature", "/state", "temp", "C", "temperature", "\"measurement\""},
{"Active import", "/power", "P", "W", "power", "\"measurement\""}, const uint8_t List2SensorCount PROGMEM = 8;
{"L1 active import", "/power", "P1", "W", "power", "\"measurement\""}, const HomeAssistantSensor List2Sensors[List2SensorCount] PROGMEM = {
{"L2 active import", "/power", "P2", "W", "power", "\"measurement\""},
{"L3 active import", "/power", "P3", "W", "power", "\"measurement\""},
{"Reactive import", "/power", "Q", "var", "reactive_power", "\"measurement\""}, {"Reactive import", "/power", "Q", "var", "reactive_power", "\"measurement\""},
{"Active export", "/power", "PO", "W", "power", "\"measurement\""},
{"L1 active export", "/power", "PO1", "W", "power", "\"measurement\""},
{"L2 active export", "/power", "PO2", "W", "power", "\"measurement\""},
{"L3 active export", "/power", "PO3", "W", "power", "\"measurement\""},
{"Reactive export", "/power", "QO", "var", "reactive_power", "\"measurement\""}, {"Reactive export", "/power", "QO", "var", "reactive_power", "\"measurement\""},
{"L1 current", "/power", "I1", "A", "current", "\"measurement\""}, {"L1 current", "/power", "I1", "A", "current", "\"measurement\""},
{"L2 current", "/power", "I2", "A", "current", "\"measurement\""}, {"L2 current", "/power", "I2", "A", "current", "\"measurement\""},
{"L3 current", "/power", "I3", "A", "current", "\"measurement\""}, {"L3 current", "/power", "I3", "A", "current", "\"measurement\""},
{"L1 voltage", "/power", "U1", "V", "voltage", "\"measurement\""}, {"L1 voltage", "/power", "U1", "V", "voltage", "\"measurement\""},
{"L2 voltage", "/power", "U2", "V", "voltage", "\"measurement\""}, {"L2 voltage", "/power", "U2", "V", "voltage", "\"measurement\""},
{"L3 voltage", "/power", "U3", "V", "voltage", "\"measurement\""}, {"L3 voltage", "/power", "U3", "V", "voltage", "\"measurement\""}
};
const uint8_t List2ExportSensorCount PROGMEM = 1;
const HomeAssistantSensor List2ExportSensors[List2ExportSensorCount] PROGMEM = {
{"Active export", "/power", "PO", "W", "power", "\"measurement\""}
};
const uint8_t List3SensorCount PROGMEM = 3;
const HomeAssistantSensor List3Sensors[List3SensorCount] PROGMEM = {
{"Accumulated active import", "/energy", "tPI", "kWh", "energy", "\"total_increasing\""}, {"Accumulated active import", "/energy", "tPI", "kWh", "energy", "\"total_increasing\""},
{"Accumulated active export", "/energy", "tPO", "kWh", "energy", "\"total_increasing\""}, {"Accumulated reactive import","/energy", "tQI", "", "energy", "\"total_increasing\""},
{"Accumulated reactive import","/energy", "tQI", "kvarh","energy", "\"total_increasing\""}, {"Accumulated reactive export","/energy", "tQO", "", "energy", "\"total_increasing\""}
{"Accumulated reactive export","/energy", "tQO", "kvarh","energy", "\"total_increasing\""}, };
const uint8_t List3ExportSensorCount PROGMEM = 1;
const HomeAssistantSensor List3ExportSensors[List3ExportSensorCount] PROGMEM = {
{"Accumulated active export", "/energy", "tPO", "kWh", "energy", "\"total_increasing\""}
};
const uint8_t List4SensorCount PROGMEM = 7;
const HomeAssistantSensor List4Sensors[List4SensorCount] PROGMEM = {
{"Power factor", "/power", "PF", "%", "power_factor", "\"measurement\""}, {"Power factor", "/power", "PF", "%", "power_factor", "\"measurement\""},
{"L1 power factor", "/power", "PF1", "%", "power_factor", "\"measurement\""}, {"L1 power factor", "/power", "PF1", "%", "power_factor", "\"measurement\""},
{"L2 power factor", "/power", "PF2", "%", "power_factor", "\"measurement\""}, {"L2 power factor", "/power", "PF2", "%", "power_factor", "\"measurement\""},
{"L3 power factor", "/power", "PF3", "%", "power_factor", "\"measurement\""}, {"L3 power factor", "/power", "PF3", "%", "power_factor", "\"measurement\""},
{"Price current hour", "/prices", "prices['0']", "", "monetary", ""}, {"L1 active import", "/power", "P1", "W", "power", "\"measurement\""},
{"Price next hour", "/prices", "prices['1']", "", "monetary", ""}, {"L2 active import", "/power", "P2", "W", "power", "\"measurement\""},
{"Price in two hour", "/prices", "prices['2']", "", "monetary", ""}, {"L3 active import", "/power", "P3", "W", "power", "\"measurement\""}
{"Price in three hour", "/prices", "prices['3']", "", "monetary", ""}, };
{"Price in four hour", "/prices", "prices['4']", "", "monetary", ""},
{"Price in five hour", "/prices", "prices['5']", "", "monetary", ""}, const uint8_t List4ExportSensorCount PROGMEM = 3;
{"Price in six hour", "/prices", "prices['6']", "", "monetary", ""}, const HomeAssistantSensor List4ExportSensors[List4ExportSensorCount] PROGMEM = {
{"Price in seven hour", "/prices", "prices['7']", "", "monetary", ""}, {"L1 active export", "/power", "PO1", "W", "power", "\"measurement\""},
{"Price in eight hour", "/prices", "prices['8']", "", "monetary", ""}, {"L2 active export", "/power", "PO2", "W", "power", "\"measurement\""},
{"Price in nine hour", "/prices", "prices['9']", "", "monetary", ""}, {"L3 active export", "/power", "PO3", "W", "power", "\"measurement\""}
{"Price in ten hour", "/prices", "prices['10']", "", "monetary", ""}, };
{"Price in eleven hour", "/prices", "prices['11']", "", "monetary", ""},
const uint8_t RealtimeSensorCount PROGMEM = 8;
const HomeAssistantSensor RealtimeSensors[RealtimeSensorCount] PROGMEM = {
{"Month max", "/realtime","max", "kWh", "energy", "\"total_increasing\""},
{"Tariff threshold", "/realtime","threshold", "kWh", "energy", "\"total_increasing\""},
{"Current hour used", "/realtime","hour.use", "kWh", "energy", "\"total_increasing\""},
{"Current hour cost", "/realtime","hour.cost", "", "monetary", ""},
{"Current day used", "/realtime","day.use", "kWh", "energy", "\"total_increasing\""},
{"Current day cost", "/realtime","day.cost", "", "monetary", ""},
{"Current month used", "/realtime","month.use", "kWh", "energy", "\"total_increasing\""},
{"Current month cost", "/realtime","month.cost", "", "monetary", ""}
};
const uint8_t RealtimeExportSensorCount PROGMEM = 6;
const HomeAssistantSensor RealtimeExportSensors[RealtimeExportSensorCount] PROGMEM = {
{"Current hour produced", "/realtime","hour.produced", "kWh", "energy", "\"total_increasing\""},
{"Current hour income", "/realtime","hour.income", "", "monetary", ""},
{"Current day produced", "/realtime","day.produced", "kWh", "energy", "\"total_increasing\""},
{"Current day income", "/realtime","day.income", "", "monetary", ""},
{"Current month produced", "/realtime","month.produced", "kWh", "energy", "\"total_increasing\""},
{"Current month income", "/realtime","month.income", "", "monetary", ""}
};
const HomeAssistantSensor RealtimePeakSensor PROGMEM = {"Current month peak %d", "/realtime", "peaks[%d]", "kWh", "energy", ""};
const uint8_t PriceSensorCount PROGMEM = 5;
const HomeAssistantSensor PriceSensors[PriceSensorCount] PROGMEM = {
{"Minimum price ahead", "/prices", "prices.min", "", "monetary", ""}, {"Minimum price ahead", "/prices", "prices.min", "", "monetary", ""},
{"Maximum price ahead", "/prices", "prices.max", "", "monetary", ""}, {"Maximum price ahead", "/prices", "prices.max", "", "monetary", ""},
{"Cheapest 1hr period ahead", "/prices", "prices.cheapest1hr","", "timestamp", ""}, {"Cheapest 1hr period ahead", "/prices", "prices.cheapest1hr","", "timestamp", ""},
{"Cheapest 3hr period ahead", "/prices", "prices.cheapest3hr","", "timestamp", ""}, {"Cheapest 3hr period ahead", "/prices", "prices.cheapest3hr","", "timestamp", ""},
{"Cheapest 6hr period ahead", "/prices", "prices.cheapest6hr","", "timestamp", ""}, {"Cheapest 6hr period ahead", "/prices", "prices.cheapest6hr","", "timestamp", ""}
{"Month max", "/realtime","max", "kWh", "energy", "\"total_increasing\""},
{"Tariff threshold", "/realtime","threshold", "kWh", "energy", "\"total_increasing\""},
{"Current hour used", "/realtime","hour.use", "kWh", "energy", "\"total_increasing\""},
{"Current hour cost", "/realtime","hour.cost", "", "monetary", "\"total_increasing\""},
{"Current hour produced", "/realtime","hour.produced", "kWh", "energy", "\"total_increasing\""},
{"Current day used", "/realtime","day.use", "kWh", "energy", "\"total_increasing\""},
{"Current day cost", "/realtime","day.cost", "", "monetary", "\"total_increasing\""},
{"Current day produced", "/realtime","day.produced", "kWh", "energy", "\"total_increasing\""},
{"Current month used", "/realtime","month.use", "kWh", "energy", "\"total_increasing\""},
{"Current month cost", "/realtime","month.cost", "", "monetary", "\"total_increasing\""},
{"Current month produced", "/realtime","month.produced", "kWh", "energy", "\"total_increasing\""},
{"Current month peak 1", "/realtime","peaks[0]", "kWh", "energy", ""},
{"Current month peak 2", "/realtime","peaks[1]", "kWh", "energy", ""},
{"Current month peak 3", "/realtime","peaks[2]", "kWh", "energy", ""},
{"Current month peak 4", "/realtime","peaks[3]", "kWh", "energy", ""},
{"Current month peak 5", "/realtime","peaks[4]", "kWh", "energy", ""},
}; };
const HomeAssistantSensor PriceSensor PROGMEM = {"Price in %02d %s", "/prices", "prices['%d']", "", "monetary", ""};
const uint8_t SystemSensorCount PROGMEM = 2;
const HomeAssistantSensor SystemSensors[SystemSensorCount] PROGMEM = {
{"Status", "/state", "rssi", "dBm", "signal_strength", "\"measurement\""},
{"Supply volt", "/state", "vcc", "V", "voltage", "\"measurement\""}
};
const HomeAssistantSensor TemperatureSensor PROGMEM = {"Temperature sensor %s", "/temperatures", "temperatures['%s']", "°C", "temperature", "\"measurement\""};
#endif #endif

2
lib/HomeAssistantMqttHandler/json/hadiscover.json
View File

@@ -1,5 +1,5 @@
{ {
"name" : "%s", "name" : "%s%s",
"stat_t" : "%s%s", "stat_t" : "%s%s",
"uniq_id" : "%s_%s", "uniq_id" : "%s_%s",
"obj_id" : "%s_%s", "obj_id" : "%s_%s",

9
lib/HomeAssistantMqttHandler/json/realtime.json
View File

@@ -5,16 +5,19 @@
"hour" : { "hour" : {
"use" : %.2f, "use" : %.2f,
"cost" : %.2f, "cost" : %.2f,
"produced" : %.2f "produced" : %.2f,
"income" : %.2f
}, },
"day" : { "day" : {
"use" : %.2f, "use" : %.2f,
"cost" : %.2f, "cost" : %.2f,
"produced" : %.2f "produced" : %.2f,
"income" : %.2f
}, },
"month" : { "month" : {
"use" : %.2f, "use" : %.2f,
"cost" : %.2f, "cost" : %.2f,
"produced" : %.2f "produced" : %.2f,
"income" : %.2f
} }
} }

578
lib/HomeAssistantMqttHandler/src/HomeAssistantMqttHandler.cpp
View File

@@ -1,5 +1,4 @@
#include "HomeAssistantMqttHandler.h" #include "HomeAssistantMqttHandler.h"
#include "HomeAssistantStatic.h"
#include "hexutils.h" #include "hexutils.h"
#include "Uptime.h" #include "Uptime.h"
#include "version.h" #include "version.h"
@@ -12,125 +11,172 @@
#include "json/hadiscover_json.h" #include "json/hadiscover_json.h"
#include "json/realtime_json.h" #include "json/realtime_json.h"
bool HomeAssistantMqttHandler::publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea) { #if defined(ESP32)
#include <esp_task_wdt.h>
#endif
bool HomeAssistantMqttHandler::publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea, EntsoeApi* eapi) {
if(topic.isEmpty() || !mqtt->connected()) if(topic.isEmpty() || !mqtt->connected())
return false; return false;
listType = data->getListType(); // for discovery stuff in publishSystem()
if(data->getListType() >= 3) { // publish energy counts if(data->getListType() >= 3) { // publish energy counts
snprintf_P(json, BufferSize, HA2_JSON, publishList3(data, ea);
data->getActiveImportCounter(), loop();
data->getActiveExportCounter(),
data->getReactiveImportCounter(),
data->getReactiveExportCounter(),
data->getMeterTimestamp()
);
mqtt->publish(topic + "/energy", json);
mqtt->loop();
} }
String meterModel = data->getMeterModel();
meterModel.replace("\\", "\\\\");
if(data->getListType() == 1) { // publish power counts if(data->getListType() == 1) { // publish power counts
snprintf_P(json, BufferSize, HA1_JSON, publishList1(data, ea);
data->getActiveImportPower()
);
mqtt->publish(topic + "/power", json);
} else if(data->getListType() <= 3) { // publish power counts and volts/amps } else if(data->getListType() <= 3) { // publish power counts and volts/amps
snprintf_P(json, BufferSize, HA3_JSON, publishList2(data, ea);
data->getListId().c_str(),
data->getMeterId().c_str(),
meterModel.c_str(),
data->getActiveImportPower(),
data->getReactiveImportPower(),
data->getActiveExportPower(),
data->getReactiveExportPower(),
data->getL1Current(),
data->getL2Current(),
data->getL3Current(),
data->getL1Voltage(),
data->getL2Voltage(),
data->getL3Voltage()
);
mqtt->publish(topic + "/power", json);
} else if(data->getListType() == 4) { // publish power counts and volts/amps/phase power and PF } else if(data->getListType() == 4) { // publish power counts and volts/amps/phase power and PF
snprintf_P(json, BufferSize, HA4_JSON, publishList4(data, ea);
data->getListId().c_str(),
data->getMeterId().c_str(),
meterModel.c_str(),
data->getActiveImportPower(),
data->getL1ActiveImportPower(),
data->getL2ActiveImportPower(),
data->getL3ActiveImportPower(),
data->getReactiveImportPower(),
data->getActiveExportPower(),
data->getL1ActiveExportPower(),
data->getL2ActiveExportPower(),
data->getL3ActiveExportPower(),
data->getReactiveExportPower(),
data->getL1Current(),
data->getL2Current(),
data->getL3Current(),
data->getL1Voltage(),
data->getL2Voltage(),
data->getL3Voltage(),
data->getPowerFactor() == 0 ? 1 : data->getPowerFactor(),
data->getPowerFactor() == 0 ? 1 : data->getL1PowerFactor(),
data->getPowerFactor() == 0 ? 1 : data->getL2PowerFactor(),
data->getPowerFactor() == 0 ? 1 : data->getL3PowerFactor()
);
mqtt->publish(topic + "/power", json);
} }
loop();
String peaks = ""; if(ea->isInitialized()) {
uint8_t peakCount = ea->getConfig()->hours; publishRealtime(data, ea, eapi);
if(peakCount > 5) peakCount = 5; loop();
for(uint8_t i = 1; i <= peakCount; i++) { }
if(!peaks.isEmpty()) peaks += ",";
peaks += String(ea->getPeak(i).value / 100.0, 2);
}
snprintf_P(json, BufferSize, REALTIME_JSON,
ea->getMonthMax(),
peaks.c_str(),
ea->getCurrentThreshold(),
ea->getUseThisHour(),
ea->getCostThisHour(),
ea->getProducedThisHour(),
ea->getUseToday(),
ea->getCostToday(),
ea->getProducedToday(),
ea->getUseThisMonth(),
ea->getCostThisMonth(),
ea->getProducedThisMonth()
);
mqtt->publish(topic + "/realtime", json);
return true; return true;
} }
bool HomeAssistantMqttHandler::publishList1(AmsData* data, EnergyAccounting* ea) {
publishList1Sensors();
snprintf_P(json, BufferSize, HA1_JSON,
data->getActiveImportPower()
);
return mqtt->publish(topic + "/power", json);
}
bool HomeAssistantMqttHandler::publishList2(AmsData* data, EnergyAccounting* ea) {
publishList2Sensors();
if(data->getActiveExportPower() > 0) publishList2ExportSensors();
snprintf_P(json, BufferSize, HA3_JSON,
data->getListId().c_str(),
data->getMeterId().c_str(),
getMeterModel(data).c_str(),
data->getActiveImportPower(),
data->getReactiveImportPower(),
data->getActiveExportPower(),
data->getReactiveExportPower(),
data->getL1Current(),
data->getL2Current(),
data->getL3Current(),
data->getL1Voltage(),
data->getL2Voltage(),
data->getL3Voltage()
);
return mqtt->publish(topic + "/power", json);
}
bool HomeAssistantMqttHandler::publishList3(AmsData* data, EnergyAccounting* ea) {
publishList3Sensors();
if(data->getActiveExportCounter() > 0.0) publishList3ExportSensors();
snprintf_P(json, BufferSize, HA2_JSON,
data->getActiveImportCounter(),
data->getActiveExportCounter(),
data->getReactiveImportCounter(),
data->getReactiveExportCounter(),
data->getMeterTimestamp()
);
return mqtt->publish(topic + "/energy", json);
}
bool HomeAssistantMqttHandler::publishList4(AmsData* data, EnergyAccounting* ea) {
publishList4Sensors();
if(data->getL1ActiveExportPower() > 0 || data->getL2ActiveExportPower() > 0 || data->getL3ActiveExportPower() > 0) publishList4ExportSensors();
snprintf_P(json, BufferSize, HA4_JSON,
data->getListId().c_str(),
data->getMeterId().c_str(),
getMeterModel(data).c_str(),
data->getActiveImportPower(),
data->getL1ActiveImportPower(),
data->getL2ActiveImportPower(),
data->getL3ActiveImportPower(),
data->getReactiveImportPower(),
data->getActiveExportPower(),
data->getL1ActiveExportPower(),
data->getL2ActiveExportPower(),
data->getL3ActiveExportPower(),
data->getReactiveExportPower(),
data->getL1Current(),
data->getL2Current(),
data->getL3Current(),
data->getL1Voltage(),
data->getL2Voltage(),
data->getL3Voltage(),
data->getPowerFactor() == 0 ? 1 : data->getPowerFactor(),
data->getPowerFactor() == 0 ? 1 : data->getL1PowerFactor(),
data->getPowerFactor() == 0 ? 1 : data->getL2PowerFactor(),
data->getPowerFactor() == 0 ? 1 : data->getL3PowerFactor()
);
return mqtt->publish(topic + "/power", json);
}
String HomeAssistantMqttHandler::getMeterModel(AmsData* data) {
String meterModel = data->getMeterModel();
meterModel.replace("\\", "\\\\");
return meterModel;
}
bool HomeAssistantMqttHandler::publishRealtime(AmsData* data, EnergyAccounting* ea, EntsoeApi* eapi) {
publishRealtimeSensors(ea, eapi);
if(ea->getProducedThisHour() > 0.0 || ea->getProducedToday() > 0.0 || ea->getProducedThisMonth() > 0.0) publishRealtimeExportSensors(ea, eapi);
String peaks = "";
uint8_t peakCount = ea->getConfig()->hours;
if(peakCount > 5) peakCount = 5;
for(uint8_t i = 1; i <= peakCount; i++) {
if(!peaks.isEmpty()) peaks += ",";
peaks += String(ea->getPeak(i).value / 100.0, 2);
}
snprintf_P(json, BufferSize, REALTIME_JSON,
ea->getMonthMax(),
peaks.c_str(),
ea->getCurrentThreshold(),
ea->getUseThisHour(),
ea->getCostThisHour(),
ea->getProducedThisHour(),
ea->getIncomeThisHour(),
ea->getUseToday(),
ea->getCostToday(),
ea->getProducedToday(),
ea->getIncomeToday(),
ea->getUseThisMonth(),
ea->getCostThisMonth(),
ea->getProducedThisMonth(),
ea->getIncomeThisMonth()
);
return mqtt->publish(topic + "/realtime", json);
}
bool HomeAssistantMqttHandler::publishTemperatures(AmsConfiguration* config, HwTools* hw) { bool HomeAssistantMqttHandler::publishTemperatures(AmsConfiguration* config, HwTools* hw) {
int count = hw->getTempSensorCount(); int count = hw->getTempSensorCount();
if(count == 0) return false; if(count < 2) return false;
int size = 32 + (count * 26); int size = 32 + (count * 26);
char buf[size]; char buf[size];
snprintf(buf, 24, "{\"temperatures\":{"); snprintf_P(buf, 24, PSTR("{\"temperatures\":{"));
for(int i = 0; i < count; i++) { for(int i = 0; i < count; i++) {
TempSensorData* data = hw->getTempSensorData(i); TempSensorData* data = hw->getTempSensorData(i);
if(data != NULL) { if(data != NULL) {
char* pos = buf+strlen(buf); char* pos = buf+strlen(buf);
snprintf(pos, 26, "\"%s\":%.2f,", String id = toHex(data->address, 8);
toHex(data->address, 8).c_str(), snprintf_P(pos, 26, PSTR("\"%s\":%.2f,"),
id.c_str(),
data->lastRead data->lastRead
); );
data->changed = false; data->changed = false;
delay(1); publishTemperatureSensor(i+1, id);
} }
} }
char* pos = buf+strlen(buf); char* pos = buf+strlen(buf);
snprintf(count == 0 ? pos : pos-1, 8, "}}"); snprintf_P(count == 0 ? pos : pos-1, 8, PSTR("}}"));
return mqtt->publish(topic + "/temperatures", buf); bool ret = mqtt->publish(topic + "/temperatures", buf);
loop();
return ret;
} }
bool HomeAssistantMqttHandler::publishPrices(EntsoeApi* eapi) { bool HomeAssistantMqttHandler::publishPrices(EntsoeApi* eapi) {
@@ -139,14 +185,16 @@ bool HomeAssistantMqttHandler::publishPrices(EntsoeApi* eapi) {
if(eapi->getValueForHour(0) == ENTSOE_NO_VALUE) if(eapi->getValueForHour(0) == ENTSOE_NO_VALUE)
return false; return false;
publishPriceSensors(eapi);
time_t now = time(nullptr); time_t now = time(nullptr);
float min1hr = 0.0, min3hr = 0.0, min6hr = 0.0; float min1hr = 0.0, min3hr = 0.0, min6hr = 0.0;
int8_t min1hrIdx = -1, min3hrIdx = -1, min6hrIdx = -1; int8_t min1hrIdx = -1, min3hrIdx = -1, min6hrIdx = -1;
float min = INT16_MAX, max = INT16_MIN; float min = INT16_MAX, max = INT16_MIN;
float values[24]; float values[38];
for(int i = 0;i < 24; i++) values[i] = ENTSOE_NO_VALUE; for(int i = 0;i < 38; i++) values[i] = ENTSOE_NO_VALUE;
for(uint8_t i = 0; i < 24; i++) { for(uint8_t i = 0; i < 38; i++) {
float val = eapi->getValueForHour(now, i); float val = eapi->getValueForHour(now, i);
values[i] = val; values[i] = val;
@@ -192,28 +240,28 @@ bool HomeAssistantMqttHandler::publishPrices(EntsoeApi* eapi) {
} }
char ts1hr[24]; char ts1hr[24];
memset(ts1hr, 0, 24);
if(min1hrIdx > -1) { if(min1hrIdx > -1) {
time_t ts = now + (SECS_PER_HOUR * min1hrIdx); time_t ts = now + (SECS_PER_HOUR * min1hrIdx);
//Serial.printf("1hr: %d %lu\n", min1hrIdx, ts);
tmElements_t tm; tmElements_t tm;
breakTime(ts, tm); breakTime(ts, tm);
sprintf(ts1hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour); sprintf_P(ts1hr, PSTR("%04d-%02d-%02dT%02d:00:00Z"), tm.Year+1970, tm.Month, tm.Day, tm.Hour);
} }
char ts3hr[24]; char ts3hr[24];
memset(ts3hr, 0, 24);
if(min3hrIdx > -1) { if(min3hrIdx > -1) {
time_t ts = now + (SECS_PER_HOUR * min3hrIdx); time_t ts = now + (SECS_PER_HOUR * min3hrIdx);
//Serial.printf("3hr: %d %lu\n", min3hrIdx, ts);
tmElements_t tm; tmElements_t tm;
breakTime(ts, tm); breakTime(ts, tm);
sprintf(ts3hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour); sprintf_P(ts3hr, PSTR("%04d-%02d-%02dT%02d:00:00Z"), tm.Year+1970, tm.Month, tm.Day, tm.Hour);
} }
char ts6hr[24]; char ts6hr[24];
memset(ts6hr, 0, 24);
if(min6hrIdx > -1) { if(min6hrIdx > -1) {
time_t ts = now + (SECS_PER_HOUR * min6hrIdx); time_t ts = now + (SECS_PER_HOUR * min6hrIdx);
//Serial.printf("6hr: %d %lu\n", min6hrIdx, ts);
tmElements_t tm; tmElements_t tm;
breakTime(ts, tm); breakTime(ts, tm);
sprintf(ts6hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour); sprintf_P(ts6hr, PSTR("%04d-%02d-%02dT%02d:00:00Z"), tm.Year+1970, tm.Month, tm.Day, tm.Hour);
} }
snprintf_P(json, BufferSize, JSONPRICES_JSON, snprintf_P(json, BufferSize, JSONPRICES_JSON,
@@ -230,91 +278,273 @@ bool HomeAssistantMqttHandler::publishPrices(EntsoeApi* eapi) {
values[9], values[9],
values[10], values[10],
values[11], values[11],
values[12],
values[13],
values[14],
values[15],
values[16],
values[17],
values[18],
values[19],
values[20],
values[21],
values[22],
values[23],
values[24],
values[25],
values[26],
values[27],
values[28],
values[29],
values[30],
values[31],
values[32],
values[33],
values[34],
values[35],
values[36],
values[37],
min == INT16_MAX ? 0.0 : min, min == INT16_MAX ? 0.0 : min,
max == INT16_MIN ? 0.0 : max, max == INT16_MIN ? 0.0 : max,
ts1hr, ts1hr,
ts3hr, ts3hr,
ts6hr ts6hr
); );
return mqtt->publish(topic + "/prices", json, true, 0); bool ret = mqtt->publish(topic + "/prices", json, true, 0);
loop();
return ret;
} }
bool HomeAssistantMqttHandler::publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea) { bool HomeAssistantMqttHandler::publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea) {
if(topic.isEmpty() || !mqtt->connected()){ if(topic.isEmpty() || !mqtt->connected())
sequence = 0;
return false; return false;
}
if(sequence % 3 == 0){ publishSystemSensors();
snprintf_P(json, BufferSize, JSONSYS_JSON, if(hw->getTemperature() > -50) publishTemperatureSensor(0, "");
WiFi.macAddress().c_str(),
clientId.c_str(),
(uint32_t) (millis64()/1000),
hw->getVcc(),
hw->getWifiRssi(),
hw->getTemperature(),
VERSION
);
mqtt->publish(topic + "/state", json);
}
if(!autodiscoverInit) { snprintf_P(json, BufferSize, JSONSYS_JSON,
#if defined(ESP8266) WiFi.macAddress().c_str(),
String haUID = WiFi.hostname(); clientId.c_str(),
#elif defined(ESP32) (uint32_t) (millis64()/1000),
String haUID = WiFi.getHostname(); hw->getVcc(),
#endif hw->getWifiRssi(),
String haUrl = "http://" + haUID + ".local/"; hw->getTemperature(),
// Could this be necessary? haUID.replace("-", "_"); VERSION
uint8_t peakCount = ea->getConfig()->hours; );
if(peakCount > 5) peakCount = 5; bool ret = mqtt->publish(topic + "/state", json);
loop();
uint8_t peaks = 0; return ret;
for(int i=0;i<HA_SENSOR_COUNT;i++) { }
HomeAssistantSensor sensor = HA_SENSORS[i];
String uid = String(sensor.path); void HomeAssistantMqttHandler::publishSensor(const HomeAssistantSensor& sensor) {
uid.replace(".", ""); String uid = String(sensor.path);
uid.replace("[", ""); uid.replace(".", "");
uid.replace("]", ""); uid.replace("[", "");
uid.replace("'", ""); uid.replace("]", "");
String uom = String(sensor.uom); uid.replace("'", "");
if(strncmp(sensor.devcl, "monetary", 8) == 0) { snprintf_P(json, BufferSize, HADISCOVER_JSON,
if(eapi == NULL) continue; sensorNamePrefix.c_str(),
if(strncmp(sensor.path, "prices", 5) == 0) { sensor.name,
uom = String(eapi->getCurrency()) + "/kWh"; topic.c_str(), sensor.topic,
} else { deviceUid.c_str(), uid.c_str(),
uom = String(eapi->getCurrency()); deviceUid.c_str(), uid.c_str(),
} sensor.uom,
} sensor.path,
if(strncmp(sensor.path, "peaks[", 6) == 0) { sensor.devcl,
if(peaks >= peakCount) continue; deviceUid.c_str(),
peaks++; deviceName.c_str(),
} deviceModel.c_str(),
if(strncmp(sensor.path, "temp", 4) == 0) { VERSION,
if(hw->getTemperature() < 0) continue; manufacturer.c_str(),
} deviceUrl.c_str(),
snprintf_P(json, BufferSize, HADISCOVER_JSON, strlen_P(sensor.stacl) > 0 ? ", \"stat_cla\" :" : "",
sensor.name, strlen_P(sensor.stacl) > 0 ? (char *) FPSTR(sensor.stacl) : ""
topic.c_str(), sensor.topic, );
haUID.c_str(), uid.c_str(), mqtt->publish(discoveryTopic + deviceUid + "_" + uid.c_str() + "/config", json, true, 0);
haUID.c_str(), uid.c_str(), loop();
uom.c_str(), }
sensor.path,
sensor.devcl, void HomeAssistantMqttHandler::publishList1Sensors() {
haUID.c_str(), if(l1Init) return;
haName.c_str(), for(uint8_t i = 0; i < List1SensorCount; i++) {
haModel.c_str(), publishSensor(List1Sensors[i]);
VERSION, }
haManuf.c_str(), l1Init = true;
haUrl.c_str(), }
strlen_P(sensor.stacl) > 0 ? ", \"stat_cla\" :" : "",
strlen_P(sensor.stacl) > 0 ? (char *) FPSTR(sensor.stacl) : "" void HomeAssistantMqttHandler::publishList2Sensors() {
); publishList1Sensors();
mqtt->publish(haTopic + haUID + "_" + uid.c_str() + "/config", json, true, 0); if(l2Init) return;
} for(uint8_t i = 0; i < List2SensorCount; i++) {
publishSensor(List2Sensors[i]);
autodiscoverInit = true; }
} l2Init = true;
if(listType>0) sequence++; }
return true;
void HomeAssistantMqttHandler::publishList2ExportSensors() {
if(l2eInit) return;
for(uint8_t i = 0; i < List2ExportSensorCount; i++) {
publishSensor(List2ExportSensors[i]);
}
l2eInit = true;
}
void HomeAssistantMqttHandler::publishList3Sensors() {
publishList2Sensors();
if(l3Init) return;
for(uint8_t i = 0; i < List3SensorCount; i++) {
publishSensor(List3Sensors[i]);
}
l3Init = true;
}
void HomeAssistantMqttHandler::publishList3ExportSensors() {
publishList2ExportSensors();
if(l3eInit) return;
for(uint8_t i = 0; i < List3ExportSensorCount; i++) {
publishSensor(List3ExportSensors[i]);
}
l3eInit = true;
}
void HomeAssistantMqttHandler::publishList4Sensors() {
publishList3Sensors();
if(l4Init) return;
for(uint8_t i = 0; i < List4SensorCount; i++) {
publishSensor(List4Sensors[i]);
}
l4Init = true;
}
void HomeAssistantMqttHandler::publishList4ExportSensors() {
publishList3ExportSensors();
if(l4eInit) return;
for(uint8_t i = 0; i < List4ExportSensorCount; i++) {
publishSensor(List4ExportSensors[i]);
}
l4eInit = true;
}
void HomeAssistantMqttHandler::publishRealtimeSensors(EnergyAccounting* ea, EntsoeApi* eapi) {
if(rtInit) return;
for(uint8_t i = 0; i < RealtimeSensorCount; i++) {
HomeAssistantSensor sensor = RealtimeSensors[i];
if(strncmp_P(sensor.devcl, PSTR("monetary"), 8) == 0) {
if(eapi == NULL) continue;
sensor.uom = eapi->getCurrency();
}
publishSensor(sensor);
}
uint8_t peakCount = ea->getConfig()->hours;
if(peakCount > 5) peakCount = 5;
for(uint8_t i = 0; i < peakCount; i++) {
char name[strlen(RealtimePeakSensor.name)];
snprintf(name, strlen(RealtimePeakSensor.name), RealtimePeakSensor.name, i+1);
char path[strlen(RealtimePeakSensor.path)];
snprintf(path, strlen(RealtimePeakSensor.path), RealtimePeakSensor.path, i+1);
HomeAssistantSensor sensor = {
name,
RealtimePeakSensor.topic,
path,
RealtimePeakSensor.uom,
RealtimePeakSensor.devcl,
RealtimePeakSensor.stacl
};
publishSensor(sensor);
}
rtInit = true;
}
void HomeAssistantMqttHandler::publishRealtimeExportSensors(EnergyAccounting* ea, EntsoeApi* eapi) {
if(rteInit) return;
for(uint8_t i = 0; i < RealtimeExportSensorCount; i++) {
HomeAssistantSensor sensor = RealtimeExportSensors[i];
if(strncmp_P(sensor.devcl, PSTR("monetary"), 8) == 0) {
if(eapi == NULL) continue;
sensor.uom = eapi->getCurrency();
}
publishSensor(sensor);
}
rteInit = true;
}
void HomeAssistantMqttHandler::publishTemperatureSensor(uint8_t index, String id) {
if(index > 32) return;
if(tInit[index]) return;
char name[strlen(TemperatureSensor.name)+id.length()];
snprintf(name, strlen(TemperatureSensor.name)+id.length(), TemperatureSensor.name, id.c_str());
char path[strlen(TemperatureSensor.path)+id.length()];
if(index == 0) {
memcpy_P(path, PSTR("temp\0"), 5);
} else {
snprintf(path, strlen(TemperatureSensor.path)+id.length(), TemperatureSensor.path, id.c_str());
}
HomeAssistantSensor sensor = {
name,
index == 0 ? SystemSensors[0].topic : TemperatureSensor.topic,
path,
TemperatureSensor.uom,
TemperatureSensor.devcl,
TemperatureSensor.stacl
};
publishSensor(sensor);
tInit[index] = true;
}
void HomeAssistantMqttHandler::publishPriceSensors(EntsoeApi* eapi) {
if(eapi == NULL) return;
String uom = String(eapi->getCurrency()) + "/kWh";
if(!pInit) {
for(uint8_t i = 0; i < PriceSensorCount; i++) {
HomeAssistantSensor sensor = PriceSensors[i];
if(strncmp_P(sensor.devcl, PSTR("monetary"), 8) == 0) {
sensor.uom = uom.c_str();
}
publishSensor(sensor);
}
pInit = true;
}
for(uint8_t i = 0; i < 38; i++) {
if(prInit[i]) continue;
float val = eapi->getValueForHour(i);
if(val == ENTSOE_NO_VALUE) continue;
char name[strlen(PriceSensor.name)+2];
snprintf(name, strlen(PriceSensor.name)+2, PriceSensor.name, i, i == 1 ? "hour" : "hours");
char path[strlen(PriceSensor.path)+1];
snprintf(path, strlen(PriceSensor.path)+1, PriceSensor.path, i);
HomeAssistantSensor sensor = {
i == 0 ? "Price current hour" : name,
PriceSensor.topic,
path,
uom.c_str(),
PriceSensor.devcl,
PriceSensor.stacl
};
publishSensor(sensor);
prInit[i] = true;
}
}
void HomeAssistantMqttHandler::publishSystemSensors() {
if(sInit) return;
for(uint8_t i = 0; i < SystemSensorCount; i++) {
publishSensor(SystemSensors[i]);
}
sInit = true;
}
bool HomeAssistantMqttHandler::loop() {
bool ret = mqtt->loop();
delay(10);
yield();
#if defined(ESP32)
esp_task_wdt_reset();
#elif defined(ESP8266)
ESP.wdtFeed();
#endif
return ret;
} }

8
lib/HwTools/include/HwTools.h
View File

@@ -37,13 +37,13 @@ struct AdcConfig {
class HwTools { class HwTools {
public: public:
void setup(GpioConfig*, AmsConfiguration*); void setup(GpioConfig*, AmsConfiguration*);
double getVcc(); float getVcc();
uint8_t getTempSensorCount(); uint8_t getTempSensorCount();
TempSensorData* getTempSensorData(uint8_t); TempSensorData* getTempSensorData(uint8_t);
bool updateTemperatures(); bool updateTemperatures();
double getTemperature(); float getTemperature();
double getTemperatureAnalog(); float getTemperatureAnalog();
double getTemperature(uint8_t address[8]); float getTemperature(uint8_t address[8]);
int getWifiRssi(); int getWifiRssi();
bool ledOn(uint8_t color); bool ledOn(uint8_t color);
bool ledOff(uint8_t color); bool ledOff(uint8_t color);

48
lib/HwTools/src/HwTools.cpp
View File

@@ -119,74 +119,102 @@ void HwTools::getAdcChannel(uint8_t pin, AdcConfig& config) {
config.unit = ADC_UNIT_1; config.unit = ADC_UNIT_1;
config.channel = ADC1_CHANNEL_4; config.channel = ADC1_CHANNEL_4;
break; break;
#if defined(ADC1_CHANNEL_5_GPIO_NUM)
case ADC1_CHANNEL_5_GPIO_NUM: case ADC1_CHANNEL_5_GPIO_NUM:
config.unit = ADC_UNIT_1; config.unit = ADC_UNIT_1;
config.channel = ADC1_CHANNEL_5; config.channel = ADC1_CHANNEL_5;
break; break;
#endif
#if defined(ADC1_CHANNEL_6_GPIO_NUM)
case ADC1_CHANNEL_6_GPIO_NUM: case ADC1_CHANNEL_6_GPIO_NUM:
config.unit = ADC_UNIT_1; config.unit = ADC_UNIT_1;
config.channel = ADC1_CHANNEL_6; config.channel = ADC1_CHANNEL_6;
break; break;
#endif
#if defined(ADC1_CHANNEL_7_GPIO_NUM)
case ADC1_CHANNEL_7_GPIO_NUM: case ADC1_CHANNEL_7_GPIO_NUM:
config.unit = ADC_UNIT_1; config.unit = ADC_UNIT_1;
config.channel = ADC1_CHANNEL_7; config.channel = ADC1_CHANNEL_7;
break; break;
#if defined(CONFIG_IDF_TARGET_ESP32S2) #endif
#if defined(ADC1_CHANNEL_8_GPIO_NUM)
case ADC1_CHANNEL_8_GPIO_NUM: case ADC1_CHANNEL_8_GPIO_NUM:
config.unit = ADC_UNIT_1; config.unit = ADC_UNIT_1;
config.channel = ADC1_CHANNEL_8; config.channel = ADC1_CHANNEL_8;
break; break;
#endif
#if defined(ADC1_CHANNEL_9_GPIO_NUM)
case ADC1_CHANNEL_9_GPIO_NUM: case ADC1_CHANNEL_9_GPIO_NUM:
config.unit = ADC_UNIT_1; config.unit = ADC_UNIT_1;
config.channel = ADC1_CHANNEL_9; config.channel = ADC1_CHANNEL_9;
break; break;
#endif #endif
#if defined(ADC2_CHANNEL_0_GPIO_NUM)
case ADC2_CHANNEL_0_GPIO_NUM: case ADC2_CHANNEL_0_GPIO_NUM:
config.unit = ADC_UNIT_2; config.unit = ADC_UNIT_2;
config.channel = ADC2_CHANNEL_0; config.channel = ADC2_CHANNEL_0;
break; break;
#endif
#if defined(ADC2_CHANNEL_1_GPIO_NUM)
case ADC2_CHANNEL_1_GPIO_NUM: case ADC2_CHANNEL_1_GPIO_NUM:
config.unit = ADC_UNIT_2; config.unit = ADC_UNIT_2;
config.channel = ADC2_CHANNEL_1; config.channel = ADC2_CHANNEL_1;
break; break;
#endif
#if defined(ADC2_CHANNEL_2_GPIO_NUM)
case ADC2_CHANNEL_2_GPIO_NUM: case ADC2_CHANNEL_2_GPIO_NUM:
config.unit = ADC_UNIT_2; config.unit = ADC_UNIT_2;
config.channel = ADC2_CHANNEL_2; config.channel = ADC2_CHANNEL_2;
break; break;
#endif
#if defined(ADC2_CHANNEL_3_GPIO_NUM)
case ADC2_CHANNEL_3_GPIO_NUM: case ADC2_CHANNEL_3_GPIO_NUM:
config.unit = ADC_UNIT_2; config.unit = ADC_UNIT_2;
config.channel = ADC2_CHANNEL_3; config.channel = ADC2_CHANNEL_3;
break; break;
#endif
#if defined(ADC2_CHANNEL_4_GPIO_NUM)
case ADC2_CHANNEL_4_GPIO_NUM: case ADC2_CHANNEL_4_GPIO_NUM:
config.unit = ADC_UNIT_2; config.unit = ADC_UNIT_2;
config.channel = ADC2_CHANNEL_4; config.channel = ADC2_CHANNEL_4;
break; break;
#endif
#if defined(ADC2_CHANNEL_5_GPIO_NUM)
case ADC2_CHANNEL_5_GPIO_NUM: case ADC2_CHANNEL_5_GPIO_NUM:
config.unit = ADC_UNIT_2; config.unit = ADC_UNIT_2;
config.channel = ADC2_CHANNEL_5; config.channel = ADC2_CHANNEL_5;
break; break;
#endif
#if defined(ADC2_CHANNEL_6_GPIO_NUM)
case ADC2_CHANNEL_6_GPIO_NUM: case ADC2_CHANNEL_6_GPIO_NUM:
config.unit = ADC_UNIT_2; config.unit = ADC_UNIT_2;
config.channel = ADC2_CHANNEL_6; config.channel = ADC2_CHANNEL_6;
break; break;
#endif
#if defined(ADC2_CHANNEL_7_GPIO_NUM)
case ADC2_CHANNEL_7_GPIO_NUM: case ADC2_CHANNEL_7_GPIO_NUM:
config.unit = ADC_UNIT_2; config.unit = ADC_UNIT_2;
config.channel = ADC2_CHANNEL_7; config.channel = ADC2_CHANNEL_7;
break; break;
#endif
#if defined(ADC2_CHANNEL_8_GPIO_NUM)
case ADC2_CHANNEL_8_GPIO_NUM: case ADC2_CHANNEL_8_GPIO_NUM:
config.unit = ADC_UNIT_2; config.unit = ADC_UNIT_2;
config.channel = ADC2_CHANNEL_8; config.channel = ADC2_CHANNEL_8;
break; break;
#endif
#if defined(ADC2_CHANNEL_9_GPIO_NUM)
case ADC2_CHANNEL_9_GPIO_NUM: case ADC2_CHANNEL_9_GPIO_NUM:
config.unit = ADC_UNIT_2; config.unit = ADC_UNIT_2;
config.channel = ADC2_CHANNEL_9; config.channel = ADC2_CHANNEL_9;
break; break;
#endif
} }
#endif #endif
} }
double HwTools::getVcc() { float HwTools::getVcc() {
double volts = 0.0; float volts = 0.0;
if(config->vccPin != 0xFF) { if(config->vccPin != 0xFF) {
#if defined(ESP32) #if defined(ESP32)
if(voltAdc.unit != 0xFF) { if(voltAdc.unit != 0xFF) {
@@ -229,7 +257,7 @@ double HwTools::getVcc() {
if(volts == 0.0) return 0.0; if(volts == 0.0) return 0.0;
if(config->vccResistorGnd > 0 && config->vccResistorVcc > 0) { if(config->vccResistorGnd > 0 && config->vccResistorVcc > 0) {
volts *= ((double) (config->vccResistorGnd + config->vccResistorVcc) / config->vccResistorGnd); volts *= ((float) (config->vccResistorGnd + config->vccResistorVcc) / config->vccResistorGnd);
} }
@@ -290,7 +318,7 @@ bool HwTools::updateTemperatures() {
} }
tempSensors[sensorCount++] = data; tempSensors[sensorCount++] = data;
} }
delay(10); yield();
} }
} else { } else {
if(sensorCount > 0) { if(sensorCount > 0) {
@@ -320,10 +348,10 @@ bool HwTools::isSensorAddressEqual(uint8_t a[8], uint8_t b[8]) {
return true; return true;
} }
double HwTools::getTemperature() { float HwTools::getTemperature() {
uint8_t c = 0; uint8_t c = 0;
double ret = 0; float ret = 0;
double analogTemp = getTemperatureAnalog(); float analogTemp = getTemperatureAnalog();
if(analogTemp != DEVICE_DISCONNECTED_C) { if(analogTemp != DEVICE_DISCONNECTED_C) {
ret += analogTemp; ret += analogTemp;
c++; c++;
@@ -338,10 +366,10 @@ double HwTools::getTemperature() {
} }
return c == 0 ? DEVICE_DISCONNECTED_C : ret/c; return c == 0 ? DEVICE_DISCONNECTED_C : ret/c;
} }
double HwTools::getTemperatureAnalog() { float HwTools::getTemperatureAnalog() {
if(config->tempAnalogSensorPin != 0xFF) { if(config->tempAnalogSensorPin != 0xFF) {
float adcCalibrationFactor = 1.06587; float adcCalibrationFactor = 1.06587;
int volts = ((double) analogRead(config->tempAnalogSensorPin) / analogRange) * 3.3; int volts = ((float) analogRead(config->tempAnalogSensorPin) / analogRange) * 3.3;
return ((volts * adcCalibrationFactor) - 0.4) / 0.0195; return ((volts * adcCalibrationFactor) - 0.4) / 0.0195;
} }
return DEVICE_DISCONNECTED_C; return DEVICE_DISCONNECTED_C;

12
lib/JsonMqttHandler/include/JsonMqttHandler.h
View File

@@ -10,15 +10,23 @@ public:
this->topic = String(topic); this->topic = String(topic);
this->hw = hw; this->hw = hw;
}; };
bool publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea); bool publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea, EntsoeApi* eapi);
bool publishTemperatures(AmsConfiguration*, HwTools*); bool publishTemperatures(AmsConfiguration*, HwTools*);
bool publishPrices(EntsoeApi*); bool publishPrices(EntsoeApi*);
bool publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea); bool publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea);
protected:
bool loop();
private: private:
String clientId; String clientId;
String topic; String topic;
HwTools* hw; HwTools* hw;
bool init = false;
bool publishList1(AmsData* data, EnergyAccounting* ea);
bool publishList2(AmsData* data, EnergyAccounting* ea);
bool publishList3(AmsData* data, EnergyAccounting* ea);
bool publishList4(AmsData* data, EnergyAccounting* ea);
String getMeterModel(AmsData* data);
}; };
#endif #endif

26
lib/JsonMqttHandler/json/jsonprices.json
View File

@@ -13,6 +13,32 @@
"9" : %.4f, "9" : %.4f,
"10" : %.4f, "10" : %.4f,
"11" : %.4f, "11" : %.4f,
"12" : %.4f,
"13" : %.4f,
"14" : %.4f,
"15" : %.4f,
"16" : %.4f,
"17" : %.4f,
"18" : %.4f,
"19" : %.4f,
"20" : %.4f,
"21" : %.4f,
"22" : %.4f,
"23" : %.4f,
"24" : %.4f,
"25" : %.4f,
"26" : %.4f,
"27" : %.4f,
"28" : %.4f,
"29" : %.4f,
"30" : %.4f,
"31" : %.4f,
"32" : %.4f,
"33" : %.4f,
"34" : %.4f,
"35" : %.4f,
"36" : %.4f,
"37" : %.4f,
"min" : %.4f, "min" : %.4f,
"max" : %.4f, "max" : %.4f,
"cheapest1hr" : "%s", "cheapest1hr" : "%s",

363
lib/JsonMqttHandler/src/JsonMqttHandler.cpp
View File

@@ -9,142 +9,165 @@
#include "json/jsonsys_json.h" #include "json/jsonsys_json.h"
#include "json/jsonprices_json.h" #include "json/jsonprices_json.h"
bool JsonMqttHandler::publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea) { bool JsonMqttHandler::publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea, EntsoeApi* eapi) {
if(topic.isEmpty() || !mqtt->connected()) if(topic.isEmpty() || !mqtt->connected())
return false; return false;
bool ret = false;
if(data->getListType() == 1) {
ret = publishList1(data, ea);
} else if(data->getListType() == 2) {
ret = publishList2(data, ea);
} else if(data->getListType() == 3) {
ret = publishList3(data, ea);
} else if(data->getListType() == 4) {
ret = publishList4(data, ea);
}
loop();
return ret;
}
bool JsonMqttHandler::publishList1(AmsData* data, EnergyAccounting* ea) {
snprintf_P(json, BufferSize, JSON1_JSON,
WiFi.macAddress().c_str(),
clientId.c_str(),
(uint32_t) (millis64()/1000),
data->getPackageTimestamp(),
hw->getVcc(),
hw->getWifiRssi(),
hw->getTemperature(),
data->getActiveImportPower(),
ea->getUseThisHour(),
ea->getUseToday(),
ea->getCurrentThreshold(),
ea->getMonthMax(),
ea->getProducedThisHour(),
ea->getProducedToday()
);
return mqtt->publish(topic, json);
}
bool JsonMqttHandler::publishList2(AmsData* data, EnergyAccounting* ea) {
snprintf_P(json, BufferSize, JSON2_JSON,
WiFi.macAddress().c_str(),
clientId.c_str(),
(uint32_t) (millis64()/1000),
data->getPackageTimestamp(),
hw->getVcc(),
hw->getWifiRssi(),
hw->getTemperature(),
data->getListId().c_str(),
data->getMeterId().c_str(),
getMeterModel(data).c_str(),
data->getActiveImportPower(),
data->getReactiveImportPower(),
data->getActiveExportPower(),
data->getReactiveExportPower(),
data->getL1Current(),
data->getL2Current(),
data->getL3Current(),
data->getL1Voltage(),
data->getL2Voltage(),
data->getL3Voltage(),
ea->getUseThisHour(),
ea->getUseToday(),
ea->getCurrentThreshold(),
ea->getMonthMax(),
ea->getProducedThisHour(),
ea->getProducedToday()
);
return mqtt->publish(topic, json);
}
bool JsonMqttHandler::publishList3(AmsData* data, EnergyAccounting* ea) {
snprintf_P(json, BufferSize, JSON3_JSON,
WiFi.macAddress().c_str(),
clientId.c_str(),
(uint32_t) (millis64()/1000),
data->getPackageTimestamp(),
hw->getVcc(),
hw->getWifiRssi(),
hw->getTemperature(),
data->getListId().c_str(),
data->getMeterId().c_str(),
getMeterModel(data).c_str(),
data->getActiveImportPower(),
data->getReactiveImportPower(),
data->getActiveExportPower(),
data->getReactiveExportPower(),
data->getL1Current(),
data->getL2Current(),
data->getL3Current(),
data->getL1Voltage(),
data->getL2Voltage(),
data->getL3Voltage(),
data->getActiveImportCounter(),
data->getActiveExportCounter(),
data->getReactiveImportCounter(),
data->getReactiveExportCounter(),
data->getMeterTimestamp(),
ea->getUseThisHour(),
ea->getUseToday(),
ea->getCurrentThreshold(),
ea->getMonthMax(),
ea->getProducedThisHour(),
ea->getProducedToday()
);
return mqtt->publish(topic, json);
}
bool JsonMqttHandler::publishList4(AmsData* data, EnergyAccounting* ea) {
snprintf_P(json, BufferSize, JSON4_JSON,
WiFi.macAddress().c_str(),
clientId.c_str(),
(uint32_t) (millis64()/1000),
data->getPackageTimestamp(),
hw->getVcc(),
hw->getWifiRssi(),
hw->getTemperature(),
data->getListId().c_str(),
data->getMeterId().c_str(),
getMeterModel(data).c_str(),
data->getActiveImportPower(),
data->getL1ActiveImportPower(),
data->getL2ActiveImportPower(),
data->getL3ActiveImportPower(),
data->getReactiveImportPower(),
data->getActiveExportPower(),
data->getL1ActiveExportPower(),
data->getL2ActiveExportPower(),
data->getL3ActiveExportPower(),
data->getReactiveExportPower(),
data->getL1Current(),
data->getL2Current(),
data->getL3Current(),
data->getL1Voltage(),
data->getL2Voltage(),
data->getL3Voltage(),
data->getPowerFactor(),
data->getL1PowerFactor(),
data->getL2PowerFactor(),
data->getL3PowerFactor(),
data->getActiveImportCounter(),
data->getActiveExportCounter(),
data->getReactiveImportCounter(),
data->getReactiveExportCounter(),
data->getMeterTimestamp(),
ea->getUseThisHour(),
ea->getUseToday(),
ea->getCurrentThreshold(),
ea->getMonthMax(),
ea->getProducedThisHour(),
ea->getProducedToday()
);
return mqtt->publish(topic, json);
}
String JsonMqttHandler::getMeterModel(AmsData* data) {
String meterModel = data->getMeterModel(); String meterModel = data->getMeterModel();
meterModel.replace("\\", "\\\\"); meterModel.replace("\\", "\\\\");
if(data->getListType() == 1) { return meterModel;
snprintf_P(json, BufferSize, JSON1_JSON,
WiFi.macAddress().c_str(),
clientId.c_str(),
(uint32_t) (millis64()/1000),
data->getPackageTimestamp(),
hw->getVcc(),
hw->getWifiRssi(),
hw->getTemperature(),
data->getActiveImportPower(),
ea->getUseThisHour(),
ea->getUseToday(),
ea->getCurrentThreshold(),
ea->getMonthMax(),
ea->getProducedThisHour(),
ea->getProducedToday()
);
return mqtt->publish(topic, json);
} else if(data->getListType() == 2) {
snprintf_P(json, BufferSize, JSON2_JSON,
WiFi.macAddress().c_str(),
clientId.c_str(),
(uint32_t) (millis64()/1000),
data->getPackageTimestamp(),
hw->getVcc(),
hw->getWifiRssi(),
hw->getTemperature(),
data->getListId().c_str(),
data->getMeterId().c_str(),
meterModel.c_str(),
data->getActiveImportPower(),
data->getReactiveImportPower(),
data->getActiveExportPower(),
data->getReactiveExportPower(),
data->getL1Current(),
data->getL2Current(),
data->getL3Current(),
data->getL1Voltage(),
data->getL2Voltage(),
data->getL3Voltage(),
ea->getUseThisHour(),
ea->getUseToday(),
ea->getCurrentThreshold(),
ea->getMonthMax(),
ea->getProducedThisHour(),
ea->getProducedToday()
);
return mqtt->publish(topic, json);
} else if(data->getListType() == 3) {
snprintf_P(json, BufferSize, JSON3_JSON,
WiFi.macAddress().c_str(),
clientId.c_str(),
(uint32_t) (millis64()/1000),
data->getPackageTimestamp(),
hw->getVcc(),
hw->getWifiRssi(),
hw->getTemperature(),
data->getListId().c_str(),
data->getMeterId().c_str(),
meterModel.c_str(),
data->getActiveImportPower(),
data->getReactiveImportPower(),
data->getActiveExportPower(),
data->getReactiveExportPower(),
data->getL1Current(),
data->getL2Current(),
data->getL3Current(),
data->getL1Voltage(),
data->getL2Voltage(),
data->getL3Voltage(),
data->getActiveImportCounter(),
data->getActiveExportCounter(),
data->getReactiveImportCounter(),
data->getReactiveExportCounter(),
data->getMeterTimestamp(),
ea->getUseThisHour(),
ea->getUseToday(),
ea->getCurrentThreshold(),
ea->getMonthMax(),
ea->getProducedThisHour(),
ea->getProducedToday()
);
return mqtt->publish(topic, json);
} else if(data->getListType() == 4) {
snprintf_P(json, BufferSize, JSON4_JSON,
WiFi.macAddress().c_str(),
clientId.c_str(),
(uint32_t) (millis64()/1000),
data->getPackageTimestamp(),
hw->getVcc(),
hw->getWifiRssi(),
hw->getTemperature(),
data->getListId().c_str(),
data->getMeterId().c_str(),
meterModel.c_str(),
data->getActiveImportPower(),
data->getL1ActiveImportPower(),
data->getL2ActiveImportPower(),
data->getL3ActiveImportPower(),
data->getReactiveImportPower(),
data->getActiveExportPower(),
data->getL1ActiveExportPower(),
data->getL2ActiveExportPower(),
data->getL3ActiveExportPower(),
data->getReactiveExportPower(),
data->getL1Current(),
data->getL2Current(),
data->getL3Current(),
data->getL1Voltage(),
data->getL2Voltage(),
data->getL3Voltage(),
data->getPowerFactor(),
data->getL1PowerFactor(),
data->getL2PowerFactor(),
data->getL3PowerFactor(),
data->getActiveImportCounter(),
data->getActiveExportCounter(),
data->getReactiveImportCounter(),
data->getReactiveExportCounter(),
data->getMeterTimestamp(),
ea->getUseThisHour(),
ea->getUseToday(),
ea->getCurrentThreshold(),
ea->getMonthMax(),
ea->getProducedThisHour(),
ea->getProducedToday()
);
return mqtt->publish(topic, json);
}
return false;
} }
bool JsonMqttHandler::publishTemperatures(AmsConfiguration* config, HwTools* hw) { bool JsonMqttHandler::publishTemperatures(AmsConfiguration* config, HwTools* hw) {
@@ -153,23 +176,24 @@ bool JsonMqttHandler::publishTemperatures(AmsConfiguration* config, HwTools* hw)
return false; return false;
} }
snprintf(json, 24, "{\"temperatures\":{"); snprintf_P(json, 24, PSTR("{\"temperatures\":{"));
for(int i = 0; i < count; i++) { for(int i = 0; i < count; i++) {
TempSensorData* data = hw->getTempSensorData(i); TempSensorData* data = hw->getTempSensorData(i);
if(data != NULL) { if(data != NULL) {
char* pos = json+strlen(json); char* pos = json+strlen(json);
snprintf(pos, 26, "\"%s\":%.2f,", snprintf_P(pos, 26, PSTR("\"%s\":%.2f,"),
toHex(data->address, 8).c_str(), toHex(data->address, 8).c_str(),
data->lastRead data->lastRead
); );
data->changed = false; data->changed = false;
delay(1);
} }
} }
char* pos = json+strlen(json); char* pos = json+strlen(json);
snprintf(count == 0 ? pos : pos-1, 8, "}}"); snprintf_P(count == 0 ? pos : pos-1, 8, PSTR("}}"));
return mqtt->publish(topic, json); bool ret = mqtt->publish(topic, json);
loop();
return ret;
} }
bool JsonMqttHandler::publishPrices(EntsoeApi* eapi) { bool JsonMqttHandler::publishPrices(EntsoeApi* eapi) {
@@ -183,9 +207,9 @@ bool JsonMqttHandler::publishPrices(EntsoeApi* eapi) {
float min1hr = 0.0, min3hr = 0.0, min6hr = 0.0; float min1hr = 0.0, min3hr = 0.0, min6hr = 0.0;
int8_t min1hrIdx = -1, min3hrIdx = -1, min6hrIdx = -1; int8_t min1hrIdx = -1, min3hrIdx = -1, min6hrIdx = -1;
float min = INT16_MAX, max = INT16_MIN; float min = INT16_MAX, max = INT16_MIN;
float values[24]; float values[38];
for(int i = 0;i < 24; i++) values[i] = ENTSOE_NO_VALUE; for(int i = 0;i < 38; i++) values[i] = ENTSOE_NO_VALUE;
for(uint8_t i = 0; i < 24; i++) { for(uint8_t i = 0; i < 38; i++) {
float val = eapi->getValueForHour(now, i); float val = eapi->getValueForHour(now, i);
values[i] = val; values[i] = val;
@@ -231,28 +255,28 @@ bool JsonMqttHandler::publishPrices(EntsoeApi* eapi) {
} }
char ts1hr[24]; char ts1hr[24];
memset(ts1hr, 0, 24);
if(min1hrIdx > -1) { if(min1hrIdx > -1) {
time_t ts = now + (SECS_PER_HOUR * min1hrIdx); time_t ts = now + (SECS_PER_HOUR * min1hrIdx);
//Serial.printf("1hr: %d %lu\n", min1hrIdx, ts);
tmElements_t tm; tmElements_t tm;
breakTime(ts, tm); breakTime(ts, tm);
sprintf(ts1hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour); sprintf_P(ts1hr, PSTR("%04d-%02d-%02dT%02d:00:00Z"), tm.Year+1970, tm.Month, tm.Day, tm.Hour);
} }
char ts3hr[24]; char ts3hr[24];
memset(ts3hr, 0, 24);
if(min3hrIdx > -1) { if(min3hrIdx > -1) {
time_t ts = now + (SECS_PER_HOUR * min3hrIdx); time_t ts = now + (SECS_PER_HOUR * min3hrIdx);
//Serial.printf("3hr: %d %lu\n", min3hrIdx, ts);
tmElements_t tm; tmElements_t tm;
breakTime(ts, tm); breakTime(ts, tm);
sprintf(ts3hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour); sprintf_P(ts3hr, PSTR("%04d-%02d-%02dT%02d:00:00Z"), tm.Year+1970, tm.Month, tm.Day, tm.Hour);
} }
char ts6hr[24]; char ts6hr[24];
memset(ts6hr, 0, 24);
if(min6hrIdx > -1) { if(min6hrIdx > -1) {
time_t ts = now + (SECS_PER_HOUR * min6hrIdx); time_t ts = now + (SECS_PER_HOUR * min6hrIdx);
//Serial.printf("6hr: %d %lu\n", min6hrIdx, ts);
tmElements_t tm; tmElements_t tm;
breakTime(ts, tm); breakTime(ts, tm);
sprintf(ts6hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour); sprintf_P(ts6hr, PSTR("%04d-%02d-%02dT%02d:00:00Z"), tm.Year+1970, tm.Month, tm.Day, tm.Hour);
} }
snprintf_P(json, BufferSize, JSONPRICES_JSON, snprintf_P(json, BufferSize, JSONPRICES_JSON,
@@ -269,17 +293,45 @@ bool JsonMqttHandler::publishPrices(EntsoeApi* eapi) {
values[9], values[9],
values[10], values[10],
values[11], values[11],
values[12],
values[13],
values[14],
values[15],
values[16],
values[17],
values[18],
values[19],
values[20],
values[21],
values[22],
values[23],
values[24],
values[25],
values[26],
values[27],
values[28],
values[29],
values[30],
values[31],
values[32],
values[33],
values[34],
values[35],
values[36],
values[37],
min == INT16_MAX ? 0.0 : min, min == INT16_MAX ? 0.0 : min,
max == INT16_MIN ? 0.0 : max, max == INT16_MIN ? 0.0 : max,
ts1hr, ts1hr,
ts3hr, ts3hr,
ts6hr ts6hr
); );
return mqtt->publish(topic, json); bool ret = mqtt->publish(topic, json);
loop();
return ret;
} }
bool JsonMqttHandler::publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea) { bool JsonMqttHandler::publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea) {
if(init || topic.isEmpty() || !mqtt->connected()) if(topic.isEmpty() || !mqtt->connected())
return false; return false;
snprintf_P(json, BufferSize, JSONSYS_JSON, snprintf_P(json, BufferSize, JSONSYS_JSON,
@@ -291,6 +343,19 @@ bool JsonMqttHandler::publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounti
hw->getTemperature(), hw->getTemperature(),
VERSION VERSION
); );
init = mqtt->publish(topic, json); bool ret = mqtt->publish(topic, json);
return init; loop();
return ret;
}
bool JsonMqttHandler::loop() {
bool ret = mqtt->loop();
delay(10);
yield();
#if defined(ESP32)
esp_task_wdt_reset();
#elif defined(ESP8266)
ESP.wdtFeed();
#endif
return ret;
} }

11
lib/RawMqttHandler/include/RawMqttHandler.h
View File

@@ -9,13 +9,22 @@ public:
this->topic = String(topic); this->topic = String(topic);
this->full = full; this->full = full;
}; };
bool publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea); bool publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea, EntsoeApi* eapi);
bool publishTemperatures(AmsConfiguration*, HwTools*); bool publishTemperatures(AmsConfiguration*, HwTools*);
bool publishPrices(EntsoeApi*); bool publishPrices(EntsoeApi*);
bool publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea); bool publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea);
protected:
bool loop();
private: private:
String topic; String topic;
bool full; bool full;
bool publishList1(AmsData* data, AmsData* meterState);
bool publishList2(AmsData* data, AmsData* meterState);
bool publishList3(AmsData* data, AmsData* meterState);
bool publishList4(AmsData* data, AmsData* meterState);
bool publishRealtime(EnergyAccounting* ea);
}; };
#endif #endif

201
lib/RawMqttHandler/src/RawMqttHandler.cpp
View File

@@ -2,7 +2,7 @@
#include "hexutils.h" #include "hexutils.h"
#include "Uptime.h" #include "Uptime.h"
bool RawMqttHandler::publish(AmsData* data, AmsData* meterState, EnergyAccounting* ea) { bool RawMqttHandler::publish(AmsData* data, AmsData* meterState, EnergyAccounting* ea, EntsoeApi* eapi) {
if(topic.isEmpty() || !mqtt->connected()) if(topic.isEmpty() || !mqtt->connected())
return false; return false;
@@ -11,85 +11,117 @@ bool RawMqttHandler::publish(AmsData* data, AmsData* meterState, EnergyAccountin
} }
switch(data->getListType()) { switch(data->getListType()) {
case 4: case 4:
if(full || meterState->getL1ActiveImportPower() != data->getL1ActiveImportPower()) { publishList4(data, meterState);
mqtt->publish(topic + "/meter/import/l1", String(data->getL1ActiveImportPower(), 2)); loop();
}
if(full || meterState->getL2ActiveImportPower() != data->getL2ActiveImportPower()) {
mqtt->publish(topic + "/meter/import/l2", String(data->getL2ActiveImportPower(), 2));
}
if(full || meterState->getL3ActiveImportPower() != data->getL3ActiveImportPower()) {
mqtt->publish(topic + "/meter/import/l3", String(data->getL3ActiveImportPower(), 2));
}
if(full || meterState->getL1ActiveExportPower() != data->getL1ActiveExportPower()) {
mqtt->publish(topic + "/meter/export/l1", String(data->getL1ActiveExportPower(), 2));
}
if(full || meterState->getL2ActiveExportPower() != data->getL2ActiveExportPower()) {
mqtt->publish(topic + "/meter/export/l2", String(data->getL2ActiveExportPower(), 2));
}
if(full || meterState->getL3ActiveExportPower() != data->getL3ActiveExportPower()) {
mqtt->publish(topic + "/meter/export/l3", String(data->getL3ActiveExportPower(), 2));
}
if(full || meterState->getPowerFactor() != data->getPowerFactor()) {
mqtt->publish(topic + "/meter/powerfactor", String(data->getPowerFactor(), 2));
}
if(full || meterState->getL1PowerFactor() != data->getL1PowerFactor()) {
mqtt->publish(topic + "/meter/l1/powerfactor", String(data->getL1PowerFactor(), 2));
}
if(full || meterState->getL2PowerFactor() != data->getL2PowerFactor()) {
mqtt->publish(topic + "/meter/l2/powerfactor", String(data->getL2PowerFactor(), 2));
}
if(full || meterState->getL3PowerFactor() != data->getL3PowerFactor()) {
mqtt->publish(topic + "/meter/l3/powerfactor", String(data->getL3PowerFactor(), 2));
}
case 3: case 3:
// ID and type belongs to List 2, but I see no need to send that every 10s publishList3(data, meterState);
mqtt->publish(topic + "/meter/id", data->getMeterId(), true, 0); loop();
mqtt->publish(topic + "/meter/type", data->getMeterModel(), true, 0);
mqtt->publish(topic + "/meter/clock", String(data->getMeterTimestamp()));
mqtt->publish(topic + "/meter/import/reactive/accumulated", String(data->getReactiveImportCounter(), 3), true, 0);
mqtt->publish(topic + "/meter/import/active/accumulated", String(data->getActiveImportCounter(), 3), true, 0);
mqtt->publish(topic + "/meter/export/reactive/accumulated", String(data->getReactiveExportCounter(), 3), true, 0);
mqtt->publish(topic + "/meter/export/active/accumulated", String(data->getActiveExportCounter(), 3), true, 0);
case 2: case 2:
// Only send data if changed. ID and Type is sent on the 10s interval only if changed publishList2(data, meterState);
if(full || meterState->getMeterId() != data->getMeterId()) { loop();
mqtt->publish(topic + "/meter/id", data->getMeterId());
}
if(full || meterState->getMeterModel() != data->getMeterModel()) {
mqtt->publish(topic + "/meter/type", data->getMeterModel());
}
if(full || meterState->getL1Current() != data->getL1Current()) {
mqtt->publish(topic + "/meter/l1/current", String(data->getL1Current(), 2));
}
if(full || meterState->getL1Voltage() != data->getL1Voltage()) {
mqtt->publish(topic + "/meter/l1/voltage", String(data->getL1Voltage(), 2));
}
if(full || meterState->getL2Current() != data->getL2Current()) {
mqtt->publish(topic + "/meter/l2/current", String(data->getL2Current(), 2));
}
if(full || meterState->getL2Voltage() != data->getL2Voltage()) {
mqtt->publish(topic + "/meter/l2/voltage", String(data->getL2Voltage(), 2));
}
if(full || meterState->getL3Current() != data->getL3Current()) {
mqtt->publish(topic + "/meter/l3/current", String(data->getL3Current(), 2));
}
if(full || meterState->getL3Voltage() != data->getL3Voltage()) {
mqtt->publish(topic + "/meter/l3/voltage", String(data->getL3Voltage(), 2));
}
if(full || meterState->getReactiveExportPower() != data->getReactiveExportPower()) {
mqtt->publish(topic + "/meter/export/reactive", String(data->getReactiveExportPower()));
}
if(full || meterState->getActiveExportPower() != data->getActiveExportPower()) {
mqtt->publish(topic + "/meter/export/active", String(data->getActiveExportPower()));
}
if(full || meterState->getReactiveImportPower() != data->getReactiveImportPower()) {
mqtt->publish(topic + "/meter/import/reactive", String(data->getReactiveImportPower()));
}
case 1: case 1:
if(full || meterState->getActiveImportPower() != data->getActiveImportPower()) { publishList1(data, meterState);
mqtt->publish(topic + "/meter/import/active", String(data->getActiveImportPower())); loop();
}
} }
if(ea->isInitialized()) {
publishRealtime(ea);
loop();
}
return true;
}
bool RawMqttHandler::publishList1(AmsData* data, AmsData* meterState) {
if(full || meterState->getActiveImportPower() != data->getActiveImportPower()) {
mqtt->publish(topic + "/meter/import/active", String(data->getActiveImportPower()));
}
return true;
}
bool RawMqttHandler::publishList2(AmsData* data, AmsData* meterState) {
// Only send data if changed. ID and Type is sent on the 10s interval only if changed
if(full || meterState->getMeterId() != data->getMeterId()) {
mqtt->publish(topic + "/meter/id", data->getMeterId());
}
if(full || meterState->getMeterModel() != data->getMeterModel()) {
mqtt->publish(topic + "/meter/type", data->getMeterModel());
}
if(full || meterState->getL1Current() != data->getL1Current()) {
mqtt->publish(topic + "/meter/l1/current", String(data->getL1Current(), 2));
}
if(full || meterState->getL1Voltage() != data->getL1Voltage()) {
mqtt->publish(topic + "/meter/l1/voltage", String(data->getL1Voltage(), 2));
}
if(full || meterState->getL2Current() != data->getL2Current()) {
mqtt->publish(topic + "/meter/l2/current", String(data->getL2Current(), 2));
}
if(full || meterState->getL2Voltage() != data->getL2Voltage()) {
mqtt->publish(topic + "/meter/l2/voltage", String(data->getL2Voltage(), 2));
}
if(full || meterState->getL3Current() != data->getL3Current()) {
mqtt->publish(topic + "/meter/l3/current", String(data->getL3Current(), 2));
}
if(full || meterState->getL3Voltage() != data->getL3Voltage()) {
mqtt->publish(topic + "/meter/l3/voltage", String(data->getL3Voltage(), 2));
}
if(full || meterState->getReactiveExportPower() != data->getReactiveExportPower()) {
mqtt->publish(topic + "/meter/export/reactive", String(data->getReactiveExportPower()));
}
if(full || meterState->getActiveExportPower() != data->getActiveExportPower()) {
mqtt->publish(topic + "/meter/export/active", String(data->getActiveExportPower()));
}
if(full || meterState->getReactiveImportPower() != data->getReactiveImportPower()) {
mqtt->publish(topic + "/meter/import/reactive", String(data->getReactiveImportPower()));
}
return true;
}
bool RawMqttHandler::publishList3(AmsData* data, AmsData* meterState) {
// ID and type belongs to List 2, but I see no need to send that every 10s
mqtt->publish(topic + "/meter/id", data->getMeterId(), true, 0);
mqtt->publish(topic + "/meter/type", data->getMeterModel(), true, 0);
mqtt->publish(topic + "/meter/clock", String(data->getMeterTimestamp()));
mqtt->publish(topic + "/meter/import/reactive/accumulated", String(data->getReactiveImportCounter(), 3), true, 0);
mqtt->publish(topic + "/meter/import/active/accumulated", String(data->getActiveImportCounter(), 3), true, 0);
mqtt->publish(topic + "/meter/export/reactive/accumulated", String(data->getReactiveExportCounter(), 3), true, 0);
mqtt->publish(topic + "/meter/export/active/accumulated", String(data->getActiveExportCounter(), 3), true, 0);
return true;
}
bool RawMqttHandler::publishList4(AmsData* data, AmsData* meterState) {
if(full || meterState->getL1ActiveImportPower() != data->getL1ActiveImportPower()) {
mqtt->publish(topic + "/meter/import/l1", String(data->getL1ActiveImportPower(), 2));
}
if(full || meterState->getL2ActiveImportPower() != data->getL2ActiveImportPower()) {
mqtt->publish(topic + "/meter/import/l2", String(data->getL2ActiveImportPower(), 2));
}
if(full || meterState->getL3ActiveImportPower() != data->getL3ActiveImportPower()) {
mqtt->publish(topic + "/meter/import/l3", String(data->getL3ActiveImportPower(), 2));
}
if(full || meterState->getL1ActiveExportPower() != data->getL1ActiveExportPower()) {
mqtt->publish(topic + "/meter/export/l1", String(data->getL1ActiveExportPower(), 2));
}
if(full || meterState->getL2ActiveExportPower() != data->getL2ActiveExportPower()) {
mqtt->publish(topic + "/meter/export/l2", String(data->getL2ActiveExportPower(), 2));
}
if(full || meterState->getL3ActiveExportPower() != data->getL3ActiveExportPower()) {
mqtt->publish(topic + "/meter/export/l3", String(data->getL3ActiveExportPower(), 2));
}
if(full || meterState->getPowerFactor() != data->getPowerFactor()) {
mqtt->publish(topic + "/meter/powerfactor", String(data->getPowerFactor(), 2));
}
if(full || meterState->getL1PowerFactor() != data->getL1PowerFactor()) {
mqtt->publish(topic + "/meter/l1/powerfactor", String(data->getL1PowerFactor(), 2));
}
if(full || meterState->getL2PowerFactor() != data->getL2PowerFactor()) {
mqtt->publish(topic + "/meter/l2/powerfactor", String(data->getL2PowerFactor(), 2));
}
if(full || meterState->getL3PowerFactor() != data->getL3PowerFactor()) {
mqtt->publish(topic + "/meter/l3/powerfactor", String(data->getL3PowerFactor(), 2));
}
return true;
}
bool RawMqttHandler::publishRealtime(EnergyAccounting* ea) {
mqtt->publish(topic + "/realtime/import/hour", String(ea->getUseThisHour(), 3)); mqtt->publish(topic + "/realtime/import/hour", String(ea->getUseThisHour(), 3));
mqtt->publish(topic + "/realtime/import/day", String(ea->getUseToday(), 2)); mqtt->publish(topic + "/realtime/import/day", String(ea->getUseToday(), 2));
mqtt->publish(topic + "/realtime/import/month", String(ea->getUseThisMonth(), 1)); mqtt->publish(topic + "/realtime/import/month", String(ea->getUseThisMonth(), 1));
@@ -182,7 +214,6 @@ bool RawMqttHandler::publishPrices(EntsoeApi* eapi) {
char ts1hr[24]; char ts1hr[24];
if(min1hrIdx > -1) { if(min1hrIdx > -1) {
time_t ts = now + (SECS_PER_HOUR * min1hrIdx); time_t ts = now + (SECS_PER_HOUR * min1hrIdx);
//Serial.printf("1hr: %d %lu\n", min1hrIdx, ts);
tmElements_t tm; tmElements_t tm;
breakTime(ts, tm); breakTime(ts, tm);
sprintf(ts1hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour); sprintf(ts1hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour);
@@ -190,7 +221,6 @@ bool RawMqttHandler::publishPrices(EntsoeApi* eapi) {
char ts3hr[24]; char ts3hr[24];
if(min3hrIdx > -1) { if(min3hrIdx > -1) {
time_t ts = now + (SECS_PER_HOUR * min3hrIdx); time_t ts = now + (SECS_PER_HOUR * min3hrIdx);
//Serial.printf("3hr: %d %lu\n", min3hrIdx, ts);
tmElements_t tm; tmElements_t tm;
breakTime(ts, tm); breakTime(ts, tm);
sprintf(ts3hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour); sprintf(ts3hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour);
@@ -198,7 +228,6 @@ bool RawMqttHandler::publishPrices(EntsoeApi* eapi) {
char ts6hr[24]; char ts6hr[24];
if(min6hrIdx > -1) { if(min6hrIdx > -1) {
time_t ts = now + (SECS_PER_HOUR * min6hrIdx); time_t ts = now + (SECS_PER_HOUR * min6hrIdx);
//Serial.printf("6hr: %d %lu\n", min6hrIdx, ts);
tmElements_t tm; tmElements_t tm;
breakTime(ts, tm); breakTime(ts, tm);
sprintf(ts6hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour); sprintf(ts6hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour);
@@ -249,4 +278,16 @@ bool RawMqttHandler::publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccountin
mqtt->publish(topic + "/temperature", String(hw->getTemperature(), 2)); mqtt->publish(topic + "/temperature", String(hw->getTemperature(), 2));
} }
return true; return true;
} }
bool RawMqttHandler::loop() {
bool ret = mqtt->loop();
delay(10);
yield();
#if defined(ESP32)
esp_task_wdt_reset();
#elif defined(ESP8266)
ESP.wdtFeed();
#endif
return ret;
}

2
lib/SvelteUi/app/.gitignore vendored
View File

@@ -8,8 +8,6 @@ pnpm-debug.log*
lerna-debug.log* lerna-debug.log*
node_modules node_modules
dist
dist-ssr
*.local *.local
# Editor directories and files # Editor directories and files

19
lib/SvelteUi/app/dist/favicon.svg vendored Normal file
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@@ -0,0 +1,19 @@
<?xml version="1.0" standalone="no"?>
<!DOCTYPE svg PUBLIC "-//W3C//DTD SVG 1.0//EN" "http://www.w3.org/TR/2001/REC-SVG-20010904/DTD/svg10.dtd">
<svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 52 52">
<title>Amsleser</title>
<g transform="translate(-29.5,-83)">
<circle r="4.8016944" cy="123.56455" cx="55.064552"
style="fill:none;stroke:#045c7c;stroke-width:3;stroke-miterlimit:4;stroke-dasharray:none;stroke-opacity:1" />
<path d="m 41.298717,103.9049 a 24,24 0 0 1 27.531669,0"
style="fill:none;stroke:#045c7c;stroke-width:3.3;stroke-linecap:round;stroke-miterlimit:4;stroke-dasharray:none;stroke-opacity:1" />
<path d="m 35.562952,95.713384 a 34,34 0 0 1 39.003199,-2e-6"
style="fill:none;stroke:#045c7c;stroke-width:3.3;stroke-linecap:round;stroke-miterlimit:4;stroke-dasharray:none;stroke-opacity:1" />
<path d="m 47.034482,112.09642 a 14,14 0 0 1 16.06014,0"
style="fill:none;stroke:#045c7c;stroke-width:3.3;stroke-linecap:round;stroke-miterlimit:4;stroke-dasharray:none;stroke-opacity:1" />
<circle r="3" cy="105.99158" cx="38.181862"
style="fill:none;stroke:#045c7c;stroke-width:2.4;stroke-miterlimit:4;stroke-dasharray:none;stroke-opacity:1" />
<circle r="3" cy="97.959579" cx="77.491386"
style="fill:none;stroke:#045c7c;stroke-width:2.4;stroke-miterlimit:4;stroke-dasharray:none;stroke-opacity:1" />
</g>
</svg>
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After

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0
lib/ClassicUi/html/github.svg → lib/SvelteUi/app/dist/github.svg vendored
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Side by Side Swipe Overlay

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Width:  |  Height:  |  Size: 1.1 KiB

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Width:  |  Height:  |  Size: 1.1 KiB

1
lib/SvelteUi/app/dist/index.css vendored Normal file
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16
lib/SvelteUi/app/dist/index.html vendored Normal file
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@@ -0,0 +1,16 @@
<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="UTF-8" />
<meta name="viewport" content="width=device-width, initial-scale=1.0" />
<link rel="icon" href="/favicon.svg">
<link rel="mask-icon" href="/favicon.svg" color="#000000">
<title>AMS reader</title>
<script type="module" crossorigin src="/index.js"></script>
<link rel="stylesheet" href="/index.css">
</head>
<body class="bg-gray-100">
<div id="app"></div>
</body>
</html>

14
lib/SvelteUi/app/dist/index.js vendored Normal file
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6
lib/SvelteUi/app/src/App.svelte
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@@ -64,6 +64,10 @@
{#if sysinfo.upgrading} {#if sysinfo.upgrading}
<Mask active=true message="Device is upgrading, please wait"/> <Mask active=true message="Device is upgrading, please wait"/>
{:else if sysinfo.booting} {:else if sysinfo.booting}
<Mask active=true message="Device is booting, please wait"/> {#if sysinfo.trying}
<Mask active=true message="Device is booting, please wait. Trying to reach it on {sysinfo.trying}"/>
{:else}
<Mask active=true message="Device is booting, please wait"/>
{/if}
{/if} {/if}
</div> </div>

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