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feat(modbus): Implement persistent and improved reconfiguration for Modbus server
This commit enhances the Modbus server's configuration handling by:
- Loading saved baudrate and unit ID settings during initialization, ensuring persistence across reboots.
- Providing improved feedback during `modbus_reconfigure`, including logging for successful changes and informing the user when a device restart is required for changes to take effect.
- Saving new configuration settings even if immediate reinitialization fails, allowing them to be applied on the next boot.

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**/build
# Zephyr build directories
build/
build-*/
*/build/
**/build/
# Zephyr out-of-tree build directories
out-of-tree-build/
# Files generated by the build system
zephyr.elf
zephyr.bin
zephyr.hex
zephyr.map
zephyr.strip
zephyr.lst
zephyr.asm
zephyr.stat
zephyr.a
zephyr.o
*.o
*.a
*.so
*.so.*
*.dll
*.exe
# Cmake
CMakeCache.txt
CMakeFiles/
cmake_install.cmake
CTestTestfile.cmake
compile_commands.json
# Kconfig generated files
.config
.config.old
autoconf.h
# Doxygen
doxygen/
# west
.west/
west.yml.bak
# Editor-specific files
.vscode/
.idea/
*.swp
*~
*.bak
*.orig
# Python
__pycache__/
*.pyc
# Mac OS X
.DS_Store
# Windows
Thumbs.db

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[submodule "software/modules/zephyr_vnd7050aj_driver"]
path = software/modules/zephyr_vnd7050aj_driver
url = https://gitea.iten.pro/edi/zephyr_vnd7050aj_driver.git

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{
"files.associations": {
"fwu.h": "c"
}
}

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{
"version": "2.0.0",
"tasks": [
{
"type": "shell",
"label": "Build Zephyr app",
"command": "west build -b weact_stm32g431_core .",
"group": "build",
"problemMatcher": [
"$gcc"
]
}
]
}

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<img src="./docs/img/logo.png" alt="Logo" width="100"/>
🇩🇪 Deutsch | [🇬🇧 English](README.md) | [🇫🇷 Français](README.fr.md) | [🇪🇸 Español](README.es.md)
# Modulares Bewässerungssystem
@ -13,8 +11,6 @@ Die detaillierte Dokumentation befindet sich im Verzeichnis [`docs/`](./docs/):
* **[Konzept](./docs/concept.de.md)**: Beschreibt die Systemarchitektur, die verwendeten Komponenten und die grundlegenden Design-Entscheidungen.
* **[MODBUS Register](./docs/modbus-registers.de.md)**: Definiert die Register-Map für die Kommunikation mit den Slave-Nodes.
* **[Projektplan](./docs/planning.de.md)**: Enthält den Entwicklungs- und Implementierungsplan.
* **[Firmware-Handbuch](./docs/firmware-manual.de.md)**: Beschreibt den Funktionsumfang und die Bedienung der Slave-Node-Firmware.
* **[Modbus Test-Tool](./software/tools/modbus_tool/README.de.md)**: Anleitung für das Python-basierte Kommandozeilen-Tool zum Testen der Slaves.
## Schnellstart

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<img src="./docs/img/logo.png" alt="Logo" width="100"/>
[🇩🇪 Deutsch](README.de.md) | [🇬🇧 English](README.md) | [🇫🇷 Français](README.fr.md) | 🇪🇸 Español
# Sistema de riego modular

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<img src="./docs/img/logo.png" alt="Logo" width="100"/>
[🇩🇪 Deutsch](README.de.md) | [🇬🇧 English](README.md) | 🇫🇷 Français | [🇪🇸 Español](README.es.md)
# Système d'irrigation modulaire

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<img src="./docs/img/logo.png" alt="Logo" width="100"/>
[🇩🇪 Deutsch](README.de.md) | 🇬🇧 English | [🇫🇷 Français](README.fr.md) | [🇪🇸 Español](README.es.md)
# Modular Irrigation System

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<img src="./img/logo.png" alt="Logo" width="100"/>
🇩🇪 Deutsch | [🇬🇧 English](concept.en.md) | [🇫🇷 Français](concept.fr.md) | [🇪🇸 Español](concept.es.md)
# Konzept: Modulares Bewässerungssystem
@ -39,7 +37,7 @@ Die Slave-Nodes sind die Arbeitseinheiten im Feld. Um bei der Fertigung kleiner
* **Mikrocontroller:** Ein `STM32G431PB`. Dieser ist zwar leistungsstark, bietet aber alle nötigen Peripherien (mehrere UARTs, ADCs, CAN) und ermöglicht ein einheitliches Hardware- und Software-Design.
* **Peripherie pro Node:**
* **Zwei High-Side Ausgänge (+12V):** Realisiert über einen `VND7050AJ`. Perfekt zur Ansteuerung der 12V-Motorventile (`Öffnen`/`Schliessen`). Die `Sense`-Leitung des Treibers wird über einen AD-Wandler ausgelesen, um durch Messung des Motorstroms eine Endlagen-Erkennung ohne physische Endschalter zu realisieren (Motorstrom im Stillstand ≈ 0). Zusätzlich können die Temperatur und die Versorgungsspannung des Treibers ausgelesen werden.
* **Zwei High-Side Ausgänge (+12V):** Realisiert über einen `VND7050AJ`. Perfekt zur Ansteuerung der 12V-Motorventile (`Öffnen`/`Schliessen`). Die `Sense`-Leitung des Treibers wird über einen AD-Wandler ausgelesen, um durch Messung des Motorstroms eine Endlagen-Erkennung ohne physische Endschalter zu realisieren (Motorstrom im Stillstand ≈ 0).
* **Zwei Low-Side Ausgänge (0V):** Über N-Kanal-MOSFETs geschaltete Ausgänge. Nutzbar zur Ansteuerung von 12V-LEDs in Tastern oder zum Schalten des Halbleiter-Relais für die Pumpe.
* **Zwei digitale Eingänge:** Direkte, geschützte Eingänge am Controller zum Anschluss von Tastern oder den kapazitiven NPN-Sensoren.

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<img src="./img/logo.png" alt="Logo" width="100"/>
[🇩🇪 Deutsch](concept.de.md) | 🇬🇧 English | [🇫🇷 Français](concept.fr.md) | [🇪🇸 Español](concept.es.md)
# Concept: Modular Irrigation System

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<img src="./img/logo.png" alt="Logo" width="100"/>
[🇩🇪 Deutsch](concept.de.md) | [🇬🇧 English](concept.en.md) | [🇫🇷 Français](concept.fr.md) | 🇪🇸 Español
# Concepto: Sistema de riego modular

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<img src="./img/logo.png" alt="Logo" width="100"/>
[🇩🇪 Deutsch](concept.de.md) | [🇬🇧 English](concept.en.md) | 🇫🇷 Français | [🇪🇸 Español](concept.es.md)
# Concept : Système d'irrigation modulaire

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<title id="logoTitle">Logo: Wassertropfen mit integriertem Chip</title>
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<img src="./img/logo.png" alt="Logo" width="100"/>
🇩🇪 Deutsch | [🇬🇧 English](modbus-registers.en.md) | [🇫🇷 Français](modbus-registers.fr.md) | [🇪🇸 Español](modbus-registers.es.md)
# MODBUS Register Map Definition v1.0
@ -29,38 +27,31 @@ Alle Register sind in einer einzigen, durchgehenden Liste pro Register-Typ (`Inp
| Adresse (hex) | Name | Zugehörigkeit | Beschreibung |
| :------------ | :----------------------------- | :---------------- | :---------------------------------------------------------------------------------------------------------------------------------------- |
| **0x0000** | `VALVE_STATE_MOVEMENT` | Ventil | Kombiniertes Status-Register. **High-Byte**: Bewegung (`0`=Idle, `1`=Öffnet, `2`=Schliesst, `3`=Fehler). **Low-Byte**: Zustand (`0`=Geschlossen, `1`=Geöffnet). |
| **0x0001** | `REG_INPUT_MOTOR_OPEN_CURRENT_MA` | Ventil | Motorstrom beim Öffnen in Milliampere (mA). |
| **0x0002** | `REG_INPUT_MOTOR_CLOSE_CURRENT_MA` | Ventil | Motorstrom beim Schließen in Milliampere (mA). |
| **0x0020** | `REG_INPUT_DIGITAL_INPUTS_STATE` | Eingänge | Bitmaske der digitalen Eingänge. Bit 0: Eingang 1, Bit 1: Eingang 2. `1`=Aktiv. |
| **0x0021** | `REG_INPUT_BUTTON_EVENTS` | Eingänge | Event-Flags für Taster (Clear-on-Read). Bit 0: Taster 1 gedrückt. Bit 1: Taster 2 gedrückt. |
| **0x00F0** | `REG_INPUT_FIRMWARE_VERSION_MAJOR_MINOR` | System | z.B. `0x0102` für v1.2. |
| **0x00F1** | `REG_INPUT_FIRMWARE_VERSION_PATCH` | System | z.B. `3` für v1.2.3. |
| **0x00F2** | `REG_INPUT_DEVICE_STATUS` | System | `0`=OK, `1`=Allgemeiner Fehler. |
| **0x00F3** | `REG_INPUT_UPTIME_SECONDS_LOW` | System | Untere 16 Bit der Uptime in Sekunden. |
| **0x00F4** | `REG_INPUT_UPTIME_SECONDS_HIGH` | System | Obere 16 Bit der Uptime. |
| **0x00F5** | `REG_INPUT_SUPPLY_VOLTAGE_MV` | System | Aktuelle Versorgungsspannung in Millivolt (mV). |
| **0x0100** | `REG_INPUT_FWU_LAST_CHUNK_CRC` | Firmware-Update | Enthält den CRC16 des zuletzt im Puffer empfangenen Daten-Chunks. |
| **0x0000** | `VENTIL_ZUSTAND_BEWEGUNG` | Ventil | Kombiniertes Status-Register. **High-Byte**: Bewegung (`0`=Idle, `1`=Öffnet, `2`=Schliesst, `3`=Fehler). **Low-Byte**: Zustand (`0`=Geschlossen, `1`=Geöffnet). |
| **0x0001** | `MOTORSTROM_MA` | Ventil | Aktueller Motorstrom in Milliampere (mA). |
| **0x0020** | `DIGITAL_EINGAENGE_ZUSTAND` | Eingänge | Bitmaske der digitalen Eingänge. Bit 0: Eingang 1, Bit 1: Eingang 2. `1`=Aktiv. |
| **0x0021** | `TASTER_EVENTS` | Eingänge | Event-Flags für Taster (Clear-on-Read). Bit 0: Taster 1 gedrückt. Bit 1: Taster 2 gedrückt. |
| **0x00F0** | `FIRMWARE_VERSION_MAJOR_MINOR` | System | z.B. `0x0102` für v1.2. |
| **0x00F1** | `FIRMWARE_VERSION_PATCH` | System | z.B. `3` für v1.2.3. |
| **0x00F2** | `DEVICE_STATUS` | System | `0`=OK, `1`=Allgemeiner Fehler. |
| **0x00F3** | `UPTIME_SECONDS_LOW` | System | Untere 16 Bit der Uptime in Sekunden. |
| **0x00F4** | `UPTIME_SECONDS_HIGH` | System | Obere 16 Bit der Uptime. |
| **0x0100** | `FWU_LAST_CHUNK_CRC` | Firmware-Update | Enthält den CRC16 des zuletzt im Puffer empfangenen Daten-Chunks. |
## 3. Holding Registers (4xxxx, Read/Write)
| Adresse (hex) | Name | Zugehörigkeit | Beschreibung |
| :------------ | :---------------------------- | :---------------- | :---------------------------------------------------------------------------------------------------------------------------------------- |
| **0x0000** | `REG_HOLDING_VALVE_COMMAND` | Ventil | `1`=Öffnen, `2`=Schliessen, `0`=Bewegung stoppen. |
| **0x0001** | `REG_HOLDING_MAX_OPENING_TIME_S` | Ventil | Sicherheits-Timeout in Sekunden für den Öffnen-Vorgang. |
| **0x0002** | `REG_HOLDING_MAX_CLOSING_TIME_S` | Ventil | Sicherheits-Timeout in Sekunden für den Schliessen-Vorgang. |
| **0x0003** | `REG_HOLDING_END_CURRENT_THRESHOLD_OPEN_MA` | Ventil | Minimaler Stromschwellenwert in mA zur Endlagenerkennung beim Öffnen. |
| **0x0004** | `REG_HOLDING_END_CURRENT_THRESHOLD_CLOSE_MA` | Ventil | Minimaler Stromschwellenwert in mA zur Endlagenerkennung beim Schliessen. |
| **0x0005** | `REG_HOLDING_OBSTACLE_THRESHOLD_OPEN_MA` | Ventil | Stromschwellenwert in mA für die Hinderniserkennung beim Öffnen. |
| **0x0006** | `REG_HOLDING_OBSTACLE_THRESHOLD_CLOSE_MA` | Ventil | Stromschwellenwert in mA für die Hinderniserkennung beim Schließen. |
| **0x0010** | `REG_HOLDING_DIGITAL_OUTPUTS_STATE` | Ausgänge | Bitmaske zum Lesen und Schreiben der Ausgänge. Bit 0: Ausgang 1, Bit 1: Ausgang 2. `1`=AN, `0`=AUS. |
| **0x00F0** | `REG_HOLDING_WATCHDOG_TIMEOUT_S` | System | Timeout des Fail-Safe-Watchdogs in Sekunden. `0`=Deaktiviert. |
| **0x00F1** | `REG_HOLDING_DEVICE_RESET` | System | Schreibt `1` um das Gerät neu zu starten. |
| **0x0100** | `REG_HOLDING_FWU_COMMAND` | Firmware-Update | `1`: **Verify Chunk**: Der zuletzt übertragene Chunk wurde vom Client als gültig befunden. Der Slave soll ihn nun ins Flash schreiben. `2`: **Finalize Update**: Alle Chunks sind übertragen. Installation abschliessen und neu starten. |
| **0x0101** | `REG_HOLDING_FWU_CHUNK_OFFSET_LOW` | Firmware-Update | Untere 16 Bit des 32-Bit-Offsets, an den der nächste Chunk geschrieben werden soll. |
| **0x0102** | `REG_HOLDING_FWU_CHUNK_OFFSET_HIGH` | Firmware-Update | Obere 16 Bit des 32-Bit-Offsets. |
| **0x0103** | `REG_HOLDING_FWU_CHUNK_SIZE` | Firmware-Update | Grösse des nächsten Chunks in Bytes (max. 256). |
| **0x0180** | `REG_HOLDING_FWU_DATA_BUFFER` | Firmware-Update | **Startadresse** eines 128x16-bit Puffers (256 Bytes). Entspricht den Registern `40384` bis `40511`. |
| **0x0000** | `VENTIL_BEFEHL` | Ventil | `1`=Öffnen, `2`=Schliessen, `0`=Bewegung stoppen. |
| **0x0001** | `MAX_OEFFNUNGSZEIT_S` | Ventil | Sicherheits-Timeout in Sekunden für den Öffnen-Vorgang. |
| **0x0002** | `MAX_SCHLIESSZEIT_S` | Ventil | Sicherheits-Timeout in Sekunden für den Schliessen-Vorgang. |
| **0x0010** | `DIGITAL_AUSGAENGE_ZUSTAND` | Ausgänge | Bitmaske zum Lesen und Schreiben der Ausgänge. Bit 0: Ausgang 1, Bit 1: Ausgang 2. `1`=AN, `0`=AUS. |
| **0x00F0** | `WATCHDOG_TIMEOUT_S` | System | Timeout des Fail-Safe-Watchdogs in Sekunden. `0`=Deaktiviert. |
| **0x0100** | `FWU_COMMAND` | Firmware-Update | `1`: **Verify Chunk**: Der zuletzt übertragene Chunk wurde vom Client als gültig befunden. Der Slave soll ihn nun ins Flash schreiben. `2`: **Finalize Update**: Alle Chunks sind übertragen. Installation abschliessen und neu starten. |
| **0x0101** | `FWU_CHUNK_OFFSET_LOW` | Firmware-Update | Untere 16 Bit des 32-Bit-Offsets, an den der nächste Chunk geschrieben werden soll. |
| **0x0102** | `FWU_CHUNK_OFFSET_HIGH` | Firmware-Update | Obere 16 Bit des 32-Bit-Offsets. |
| **0x0103** | `FWU_CHUNK_SIZE` | Firmware-Update | Grösse des nächsten Chunks in Bytes (max. 256). |
| **0x0180** | `FWU_DATA_BUFFER` | Firmware-Update | **Startadresse** eines 128x16-bit Puffers (256 Bytes). Entspricht den Registern `40384` bis `40511`. |
## 4. Detaillierter Firmware-Update-Prozess
@ -85,10 +76,10 @@ Diese Register gehören zum externen Füllstandsensor und können auf dem Bus eb
| Adresse (hex) | Name | R/W | Beschreibung |
| :------------ | :------------------------- | :-- | :---------------------------------------------------------------------------------------------------------------------------------------- |
| **0x0000** | `NODE_ADDRESS` | R/W | Geräteadresse des Sensors (1-255). |
| **0x0000** | `NODE_ADRESSE` | R/W | Geräteadresse des Sensors (1-255). |
| **0x0001** | `BAUDRATE` | R/W | `0`=1200, `1`=2400, `2`=4800, `3`=9600, `4`=19200, `5`=38400, `6`=57600, `7`=115200. |
| **0x0002** | `UNIT` | R/W | `0`=Keine, `1`=cm, `2`=mm, `3`=MPa, `4`=Pa, `5`=kPa. |
| **0x0003** | `DECIMAL_PLACES` | R/W | Anzahl der Dezimalstellen für den Messwert (0-3). |
| **0x0004** | `CURRENT_MEASUREMENT` | R | Der skalierte Messwert als vorzeichenbehafteter 16-Bit-Integer. |
| **0x0005** | `MEASUREMENT_RANGE_ZERO_POINT` | R/W | Rohwert für den Nullpunkt der Skala. |
| **0x0006** | `MEASUREMENT_RANGE_END_POINT` | R/W | Rohwert für den Endpunkt der Skala. |
| **0x0002** | `EINHEIT` | R/W | `0`=Keine, `1`=cm, `2`=mm, `3`=MPa, `4`=Pa, `5`=kPa. |
| **0x0003** | `NACHKOMMASTELLEN` | R/W | Anzahl der Dezimalstellen für den Messwert (0-3). |
| **0x0004** | `MESSWERT_AKTUELL` | R | Der skalierte Messwert als vorzeichenbehafteter 16-Bit-Integer. |
| **0x0005** | `MESSBEREICH_NULLPUNKT` | R/W | Rohwert für den Nullpunkt der Skala. |
| **0x0006** | `MESSBEREICH_ENDPUNKT` | R/W | Rohwert für den Endpunkt der Skala. |

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<img src="./img/logo.png" alt="Logo" width="100"/>
[🇩🇪 Deutsch](modbus-registers.de.md) | 🇬🇧 English | [🇫🇷 Français](modbus-registers.fr.md) | [🇪🇸 Español](modbus-registers.es.md)
# MODBUS Register Map Definition v1.0

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<img src="./img/logo.png" alt="Logo" width="100"/>
[🇩🇪 Deutsch](modbus-registers.de.md) | [🇬🇧 English](modbus-registers.en.md) | [🇫🇷 Français](modbus-registers.fr.md) | 🇪🇸 Español
# Definición del mapa de registros MODBUS v1.0

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<img src="./img/logo.png" alt="Logo" width="100"/>
[🇩🇪 Deutsch](modbus-registers.de.md) | [🇬🇧 English](modbus-registers.en.md) | 🇫🇷 Français | [🇪🇸 Español](modbus-registers.es.md)
# Définition de la carte des registres MODBUS v1.0

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<img src="./img/logo.png" alt="Logo" width="100"/>
🇩🇪 Deutsch | [🇬🇧 English](planning.en.md) | [🇫🇷 Français](planning.fr.md) | [🇪🇸 Español](planning.es.md)
# Projektplan: Modulares Bewässerungssystem
@ -9,13 +7,11 @@
| ✅ | **Phase 0: Planung & Definition** | | |
| ✅ | Konzept erstellen und finalisieren | 30.06.2025 | Architektur, Komponenten und grundlegende Architektur sind festgelegt. |
| ✅ | MODBUS Register Map definieren | 30.06.2025 | Die "API" der Slaves ist definiert und bildet die Grundlage für die Software-Entwicklung. |
| ✅ | Header- und deutsche Dokumentation aktualisiert | 10.07.2025 | Doxygen-Kommentare in Headern und deutsche .md-Dateien auf den neuesten Stand gebracht und übersetzt. |
| ☐ | **Phase 1: Slave-Node Prototyp (STM32 Eval-Board)** | | **Ziel:** Ein einzelner Slave wird auf dem Eval-Board zum Leben erweckt. |
| ✅ | 1.1 Entwicklungsumgebung für STM32/Zephyr einrichten | 30.06.2025 | Toolchain, VS Code, Zephyr-SDK, MCUBoot etc. installieren und ein "Hello World" zum Laufen bringen. |
| ✅ | 1.2 Hardware-Abstraktion (VND7050AJ, RS485) | 10.07.2025 | Implementierung der Treiber für den VND7050AJ und die RS485-Kommunikation. |
| ✅ | 1.3 Basis-Firmware für Slave-Node erstellen | 10.07.2025 | Hardware-Abstraktion (GPIOs) implementiert. |
| ✅ | 1.3 MODBUS-RTU Stack auf dem Slave implementieren | 10.07.2025 | Basierend auf der definierten Register-Map. Zuerst nur lesende Funktionen (Status, Version). |
| ✅ | 1.4 Kernlogik implementieren (z.B. Ventilsteuerung) | 10.07.2025 | Umsetzung der `VALVE_STATE_MOVEMENT` Logik, Strommessung für Endlagen etc. |
| ☐ | 1.2 Basis-Firmware für Slave-Node erstellen | | Hardware-Abstraktion (GPIOs, ADC, UART für RS485) implementieren. |
| ☐ | 1.3 MODBUS-RTU Stack auf dem Slave implementieren | | Basierend auf der definierten Register-Map. Zuerst nur lesende Funktionen (Status, Version). |
| ☐ | 1.4 Kernlogik implementieren (z.B. Ventilsteuerung) | | Umsetzung der `VENTIL_ZUSTAND_BEWEGUNG` Logik, Strommessung für Endlagen etc. |
| ☐ | **Phase 2: Verifikation der Slave-Firmware** | | **Ziel:** Nachweisen, dass der Slave sich exakt an die MODBUS-Spezifikation hält. |
| ☐ | 2.1 Slave-Node mit PC via USB-MODBUS-Adapter testen | | **Kritischer Meilenstein.** Mit Tools wie "QModMaster" oder einem Python-Skript die Register lesen & schreiben. Die Slave-Firmware wird so unabhängig vom Gateway validiert. |
| ☐ | 2.2 Firmware-Update Mechanismus testen | | Den kompletten Update-Prozess (Chunking, CRC-Check) mit einem Skript vom PC aus testen. Der Slave schreibt die Firmware dabei vorerst nur in einen ungenutzten RAM-Bereich. |

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@ -1,5 +1,3 @@
<img src="./img/logo.png" alt="Logo" width="100"/>
[🇩🇪 Deutsch](planning.de.md) | 🇬🇧 English | [🇫🇷 Français](planning.fr.md) | [🇪🇸 Español](planning.es.md)
# Project Plan: Modular Irrigation System

2
docs/planning.es.md
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@ -1,5 +1,3 @@
<img src="./img/logo.png" alt="Logo" width="100"/>
[🇩🇪 Deutsch](planning.de.md) | [🇬🇧 English](planning.en.md) | [🇫🇷 Français](planning.fr.md) | 🇪🇸 Español
# Plan del proyecto: Sistema de riego modular

2
docs/planning.fr.md
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@ -1,5 +1,3 @@
<img src="./img/logo.png" alt="Logo" width="100"/>
[🇩🇪 Deutsch](planning.de.md) | [🇬🇧 English](planning.en.md) | 🇫🇷 Français | [🇪🇸 Español](planning.es.md)
# Plan de projet : Système d'irrigation modulaire

56
setup-format-hook.sh
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@ -1,56 +0,0 @@
#!/bin/sh
# This script sets up a Git pre-commit hook to automatically format C/C++ files
# in the 'software/' subdirectory using clang-format.
# Define the path for the pre-commit hook
HOOK_DIR=".git/hooks"
HOOK_FILE="$HOOK_DIR/pre-commit"
# Create the hooks directory if it doesn't exist
mkdir -p "$HOOK_DIR"
# Create the pre-commit hook script using a 'here document'
cat > "$HOOK_FILE" << 'EOF'
#!/bin/sh
# --- Pre-commit hook for clang-format ---
#
# This hook formats staged C, C++, and Objective-C files in the 'software/'
# subdirectory before a commit is made.
# It automatically finds the .clang-format file in the software/ directory.
#
# Directory to be formatted
TARGET_DIR="software/"
# Use git diff to find staged files that are Added (A), Copied (C), or Modified (M).
# We filter for files only within the TARGET_DIR.
# The grep regex matches common C/C++ and Objective-C file extensions.
FILES_TO_FORMAT=$(git diff --cached --name-only --diff-filter=ACM "$TARGET_DIR" | grep -E '\.(c|h|cpp|hpp|cxx|hxx|cc|hh|m|mm)$')
if [ -z "$FILES_TO_FORMAT" ]; then
# No relevant files to format, exit successfully.
exit 0
fi
echo " Running clang-format on staged files in '$TARGET_DIR'..."
# Run clang-format in-place on the identified files.
# clang-format will automatically find the .clang-format file in the software/ directory
# or any of its parent directories.
echo "$FILES_TO_FORMAT" | xargs clang-format -i
# Since clang-format may have changed the files, we need to re-stage them.
echo "$FILES_TO_FORMAT" | xargs git add
echo " Formatting complete."
exit 0
EOF
# Make the hook executable
chmod +x "$HOOK_FILE"
echo "✅ Git pre-commit hook has been set up successfully."
echo " It will now automatically format files in the '$PWD/software' directory before each commit."

142
software/.clang-format
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@ -1,142 +0,0 @@
# Zephyr Project .clang-format configuration
# Based on Linux kernel style with Zephyr-specific adaptations
# Use LLVM as the base style and customize from there
BasedOnStyle: LLVM
# Language settings
Language: Cpp
# Indentation settings
IndentWidth: 8
TabWidth: 8
UseTab: ForIndentation
# Line length
ColumnLimit: 100
# Brace settings
BreakBeforeBraces: Linux
BraceWrapping:
AfterClass: true
AfterControlStatement: false
AfterEnum: true
AfterFunction: true
AfterNamespace: true
AfterStruct: true
AfterUnion: true
BeforeCatch: true
BeforeElse: false
IndentBraces: false
SplitEmptyFunction: true
SplitEmptyRecord: true
SplitEmptyNamespace: true
# Always add braces for control statements (Zephyr requirement)
RemoveBracesLLVM: false
# Control statement settings
SpaceBeforeParens: ControlStatements
SpacesInParentheses: false
# Function settings
AllowShortFunctionsOnASingleLine: None
AllowShortBlocksOnASingleLine: Empty
AllowShortIfStatementsOnASingleLine: Never
AllowShortLoopsOnASingleLine: false
AllowShortCaseLabelsOnASingleLine: false
# Pointer and reference alignment
PointerAlignment: Right
ReferenceAlignment: Right
# Spacing settings
SpaceAfterCStyleCast: false
SpaceAfterLogicalNot: false
SpaceBeforeAssignmentOperators: true
SpaceBeforeCpp11BracedList: false
SpaceBeforeCtorInitializerColon: true
SpaceBeforeInheritanceColon: true
SpaceBeforeRangeBasedForLoopColon: true
SpaceInEmptyParentheses: false
SpacesBeforeTrailingComments: 1
SpacesInAngles: false
SpacesInCStyleCastParentheses: false
SpacesInContainerLiterals: false
SpacesInSquareBrackets: false
# Alignment settings
AlignAfterOpenBracket: DontAlign
AlignConsecutiveAssignments: false
AlignConsecutiveDeclarations: false
AlignEscapedNewlines: Right
AlignOperands: false
AlignTrailingComments: false
# Breaking settings
AlwaysBreakAfterDefinitionReturnType: None
AlwaysBreakAfterReturnType: None
AlwaysBreakBeforeMultilineStrings: false
AlwaysBreakTemplateDeclarations: false
BinPackArguments: false
BinPackParameters: false
BreakBeforeBinaryOperators: None
BreakBeforeTernaryOperators: true
BreakConstructorInitializersBeforeComma: false
BreakAfterJavaFieldAnnotations: false
BreakStringLiterals: true
# Penalties (used for line breaking decisions)
PenaltyBreakAssignment: 2
PenaltyBreakBeforeFirstCallParameter: 19
PenaltyBreakComment: 300
PenaltyBreakFirstLessLess: 120
PenaltyBreakString: 1000
PenaltyExcessCharacter: 1000000
PenaltyReturnTypeOnItsOwnLine: 60
# Comment settings
ReflowComments: true
CommentPragmas: '^ IWYU pragma:'
# Sorting settings
SortIncludes: true
SortUsingDeclarations: true
# Preprocessor settings
IndentPPDirectives: None
MacroBlockBegin: ''
MacroBlockEnd: ''
# Misc settings
CompactNamespaces: false
ConstructorInitializerAllOnOneLineOrOnePerLine: false
ConstructorInitializerIndentWidth: 4
ContinuationIndentWidth: 4
Cpp11BracedListStyle: true
DerivePointerAlignment: false
DisableFormat: false
ExperimentalAutoDetectBinPacking: false
FixNamespaceComments: true
ForEachMacros: ['LISTIFY', 'FOR_EACH', 'FOR_EACH_FIXED_ARG', 'FOR_EACH_IDX', 'FOR_EACH_IDX_FIXED_ARG', 'FOR_EACH_NONEMPTY_TERM', 'Z_FOR_EACH', 'Z_FOR_EACH_FIXED_ARG', 'Z_FOR_EACH_IDX', 'Z_FOR_EACH_IDX_FIXED_ARG']
IncludeBlocks: Preserve
IncludeCategories:
- Regex: '^<zephyr/.*\.h>'
Priority: 1
- Regex: '^<.*\.h>'
Priority: 2
- Regex: '^<.*'
Priority: 3
- Regex: '.*'
Priority: 4
IndentCaseLabels: false
IndentWrappedFunctionNames: false
JavaScriptQuotes: Leave
JavaScriptWrapImports: true
KeepEmptyLinesAtTheStartOfBlocks: false
MaxEmptyLinesToKeep: 1
NamespaceIndentation: None
ObjCBinPackProtocolList: Auto
ObjCBlockIndentWidth: 2
ObjCSpaceAfterProperty: false
ObjCSpaceBeforeProtocolList: true

9
software/.vscode/settings.json vendored
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@ -1,15 +1,12 @@
{
// Hush CMake
"cmake.configureOnOpen": false,
// IntelliSense
"C_Cpp.default.compilerPath": "${userHome}/zephyr-sdk-0.17.1/arm-zephyr-eabi/bin/arm-zephyr-eabi-gcc.exe",
"C_Cpp.default.compileCommands": "${workspaceFolder}/build/compile_commands.json",
// File Associations
"files.associations": {
"app_version.h": "c"
},
"C_Cpp.clang_format_style": "file",
"nrf-connect.applications": [
"${workspaceFolder}/apps/slave_node"
],
}
}

28
software/.vscode/tasks.json vendored
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@ -2,19 +2,31 @@
"version": "2.0.0",
"tasks": [
{
"label": "Format All C/C++ Files",
"label": "West Build",
"type": "shell",
"command": "find . -name \"*.c\" -o -name \"*.h\" | xargs clang-format -i",
"problemMatcher": [],
"group": {
"kind": "build",
"isDefault": true
},
"presentation": {
"reveal": "silent",
"clear": true,
"panel": "shared"
}
"linux": {
"command": "${userHome}/zephyrproject/.venv/bin/west"
},
"windows": {
"command": "${userHome}/zephyrproject/.venv/Scripts/west.exe"
},
"osx": {
"command": "${userHome}/zephyrproject/.venv/bin/west"
},
"args": [
"build",
"-p",
"auto",
"-b",
"valve_node"
],
"problemMatcher": [
"$gcc"
]
},
{
"label": "West Configurable Build",

14
software/CMakeLists.txt Normal file
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@ -0,0 +1,14 @@
# SPDX-License-Identifier: Apache-2.0
cmake_minimum_required(VERSION 3.20.0)
# This line should ideally be after project() and find_package(Zephyr)
# target_include_directories(app PRIVATE ${ZEPHYR_BASE}/include/zephyr/drivers) # <-- WRONG POSITION
list(APPEND BOARD_ROOT ${CMAKE_CURRENT_SOURCE_DIR})
find_package(Zephyr REQUIRED HINTS $ENV{ZEPHYR_BASE})
project(valve_node)
target_include_directories(app PRIVATE ${ZEPHYR_BASE}/include/zephyr/drivers)
target_sources(app PRIVATE src/main2.c)

25
software/CMakeLists.txt.orig Normal file
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@ -0,0 +1,25 @@
# SPDX-License-Identifier: Apache-2.0
cmake_minimum_required(VERSION 3.20.0)
list(APPEND BOARD_ROOT ${CMAKE_CURRENT_SOURCE_DIR})
find_package(Zephyr REQUIRED HINTS $ENV{ZEPHYR_BASE})
project(valve_node)
target_sources(app PRIVATE src/main.c)
target_sources(app PRIVATE lib/canbus.c)
# source files for modbus waterlevel sensor
zephyr_library_sources_ifdef(CONFIG_HAS_MODBUS_WATERLEVEL_SENSOR
lib/waterlevel_sensor.c
)
#source files for valve
zephyr_library_sources_ifdef(CONFIG_HAS_VALVE
lib/valve.c
)
zephyr_include_directories(
lib
)

1
software/Kconfig
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@ -1 +0,0 @@
rsource "lib/Kconfig"

7
software/apps/bl_test/CMakeLists.txt
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@ -1,7 +0,0 @@
cmake_minimum_required(VERSION 3.20.0)
find_package(Zephyr REQUIRED HINTS $ENV{ZEPHYR_BASE})
project(bl_test)
# Add application source files
target_sources(app PRIVATE src/main.c)

5
software/apps/bl_test/VERSION
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@ -1,5 +0,0 @@
VERSION_MAJOR = 0
VERSION_MINOR = 0
PATCHLEVEL = 1
VERSION_TWEAK = 1
EXTRAVERSION = devel

46
software/apps/bl_test/prj.conf
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@ -1,46 +0,0 @@
# Enable Console and printk for logging via UART
CONFIG_CONSOLE=y
CONFIG_LOG=y
CONFIG_UART_CONSOLE=y
# Enable more detailed MCUMGR logging
CONFIG_MCUMGR_LOG_LEVEL_DBG=y
CONFIG_IMG_MANAGER_LOG_LEVEL_DBG=y
CONFIG_STREAM_FLASH_LOG_LEVEL_DBG=y
# Enable USB for MCUMGR only
CONFIG_USB_DEVICE_STACK=y
CONFIG_USB_CDC_ACM=y
CONFIG_USB_DEVICE_INITIALIZE_AT_BOOT=y
# USB CDC ACM buffer configuration for better MCUMGR performance
CONFIG_USB_CDC_ACM_RINGBUF_SIZE=1024
# Set log level to info for reasonable size
CONFIG_LOG_DEFAULT_LEVEL=3
# Enable MCUMGR info logging (not debug to save space)
CONFIG_MCUMGR_LOG_LEVEL_INF=y
# Enable USB CDC info logging
CONFIG_USB_CDC_ACM_LOG_LEVEL_INF=y
# STEP 5.2 - Enable mcumgr DFU in application
# Enable MCUMGR
CONFIG_MCUMGR=y # Enable MCUMGR management for both OS and Images
CONFIG_MCUMGR_GRP_OS=y
CONFIG_MCUMGR_GRP_IMG=y
# Configure MCUMGR transport to UART (will use USB-CDC via chosen device)
CONFIG_MCUMGR_TRANSPORT_UART=y
# Dependencies
# Configure dependencies for CONFIG_MCUMGR
CONFIG_NET_BUF=y
CONFIG_ZCBOR=y
CONFIG_CRC=y # Configure dependencies for CONFIG_MCUMGR_GRP_IMG
CONFIG_FLASH=y
CONFIG_IMG_MANAGER=y # Configure dependencies for CONFIG_IMG_MANAGER
CONFIG_STREAM_FLASH=y
CONFIG_FLASH_MAP=y # Configure dependencies for CONFIG_MCUMGR_TRANSPORT_USB_CDC
CONFIG_BASE64=y

11
software/apps/bl_test/src/main.c
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@ -1,11 +0,0 @@
#include <zephyr/kernel.h>
#include <zephyr/logging/log.h>
#include <app_version.h>
LOG_MODULE_REGISTER(bl_test_app, LOG_LEVEL_INF);
int main(void)
{
LOG_INF("Hello World from bl_test! This is version %s", APP_VERSION_EXTENDED_STRING);
return 0;
}

1
software/apps/bl_test/sysbuild.conf
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@ -1 +0,0 @@
SB_CONFIG_BOOTLOADER_MCUBOOT=y

9
software/apps/bl_test/sysbuild/bl_test.overlay
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@ -1,9 +0,0 @@
#include "common.dtsi"
/* Application Configuration - Firmware wird in slot0_partition geschrieben */
/ {
chosen {
zephyr,code-partition = &slot0_partition;
zephyr,uart-mcumgr = &cdc_acm_uart0;
};
};

94
software/apps/bl_test/sysbuild/common.dtsi
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@ -1,94 +0,0 @@
/*
* Common Devicetree Configuration für weact_stm32g431_core
* - Konfiguriert einen W25Q128 Flash-Speicher auf SPI2
* - Konfiguriert USB-CDC für MCUMGR
* - Setzt den Chip Select (CS) Pin auf PA5
* - Weist das Label "flash1" zu
*/
/* Partitions für internes Flash (STM32G431) */
&flash0 {
/delete-node/ partitions; /* Entferne die Standard-Partitionen */
partitions {
compatible = "fixed-partitions";
#address-cells = <1>;
#size-cells = <1>;
/* MCUboot bootloader - 48 KB */
boot_partition: partition@0 {
label = "mcuboot";
reg = <0x00000000 0x0000C000>;
};
/* Slot0 partition für primäres Application Image - 80 KB (20 sectors @ 4KB) */
slot0_partition: partition@C000 {
label = "image-0";
reg = <0x0000C000 0x00014000>;
};
};
};
/* USB-CDC Konfiguration für MCUMGR */
&usb {
status = "okay";
cdc_acm_uart0: cdc_acm_uart0 {
compatible = "zephyr,cdc-acm-uart";
};
};
/ {
chosen {
zephyr,uart-mcumgr = &cdc_acm_uart0;
};
};
&spi2 {
/* Definiere die Pins für SCK, MISO, MOSI auf Port B */
pinctrl-0 = <&spi2_sck_pb13 &spi2_miso_pb14 &spi2_mosi_pb15>;
pinctrl-names = "default";
status = "okay";
/* === Chip Select (CS) auf PA5 gesetzt === */
cs-gpios = <&gpioa 5 (GPIO_ACTIVE_LOW | GPIO_PULL_UP)>;
/* Definiere den Flash-Chip als SPI NOR Gerät */
flash1: flash@0 {
compatible = "jedec,spi-nor";
reg = <0>;
label = "flash1";
/* JEDEC ID für einen Winbond W25Q128 (16 MBytes) */
jedec-id = [ef 40 18];
/* Speichergröße in Bytes (16 MBytes) */
size = <DT_SIZE_M(16)>;
/* Maximale Taktfrequenz - angepasst an STM32G431 Limits */
spi-max-frequency = <1000000>;
/* Partitions für externes Flash */
partitions {
compatible = "fixed-partitions";
#address-cells = <1>;
#size-cells = <1>;
/* Slot1 partition für MCUboot (sekundäres Image) - 80 KB (20 sectors @ 4KB) */
slot1_partition: partition@0 {
label = "image-1";
reg = <0x00000000 0x00014000>;
};
/* Scratch partition für MCUboot - 80 KB (20 sectors @ 4KB) */
scratch_partition: partition@14000 {
label = "scratch";
reg = <0x00014000 0x00014000>;
};
/* Speicher partition für LittleFS - ~15.83 MB */
storage_partition: partition@28000 {
label = "storage";
reg = <0x00028000 0x00FD8000>;
};
};
};
};

0
software/apps/bl_test/sysbuild/flash.dtsi
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23
software/apps/bl_test/sysbuild/mcuboot.conf
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@ -1,23 +0,0 @@
CONFIG_LOG=y
CONFIG_MCUBOOT_LOG_LEVEL_INF=y
# Enable UART console for MCUboot debug output
CONFIG_UART_CONSOLE=y
CONFIG_CONSOLE=y
CONFIG_MCUBOOT_INDICATION_LED=y
# Enable external SPI flash support
CONFIG_SPI=y
CONFIG_SPI_NOR=y
CONFIG_SPI_NOR_SFDP_DEVICETREE=n
CONFIG_FLASH=y
CONFIG_FLASH_MAP=y
CONFIG_GPIO=y
# Add SPI NOR specific configurations - use 4KB page size (required by driver)
CONFIG_SPI_NOR_FLASH_LAYOUT_PAGE_SIZE=4096
CONFIG_SPI_NOR_INIT_PRIORITY=80
# Set maximum image sectors manually since auto doesn't work with external flash
CONFIG_BOOT_MAX_IMG_SECTORS_AUTO=n
CONFIG_BOOT_MAX_IMG_SECTORS=80

8
software/apps/bl_test/sysbuild/mcuboot.overlay
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@ -1,8 +0,0 @@
#include "common.dtsi"
/* MCUboot Configuration - Bootloader wird in boot_partition geschrieben */
/ {
chosen {
zephyr,code-partition = &boot_partition;
};
};

10
software/apps/can_node/CMakeLists.txt
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@ -1,10 +0,0 @@
cmake_minimum_required(VERSION 3.20)
find_package(Zephyr REQUIRED HINTS $ENV{ZEPHYR_BASE})
project(can_node LANGUAGES C)
zephyr_include_directories(../../include)
add_subdirectory(../../lib lib)
target_sources(app PRIVATE src/main.c)

2
software/apps/can_node/Kconfig
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@ -1,2 +0,0 @@
rsource "../../lib/Kconfig"
source "Kconfig.zephyr"

5
software/apps/can_node/VERSION
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@ -1,5 +0,0 @@
VERSION_MAJOR = 0
VERSION_MINOR = 0
PATCHLEVEL = 1
VERSION_TWEAK = 1
EXTRAVERSION = devel

7
software/apps/can_node/boards/bluepill_f103rb.conf
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@ -1,7 +0,0 @@
# Disable UART console
CONFIG_UART_CONSOLE=n
# Enable RTT console
CONFIG_RTT_CONSOLE=y
CONFIG_USE_SEGGER_RTT=y
CONFIG_SHELL_BACKEND_RTT=y

43
software/apps/can_node/boards/bluepill_f103rb.overlay
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@ -1,43 +0,0 @@
/ {
chosen {
zephyr,console = &rtt;
zephyr,shell = &rtt;
zephyr,settings-partition = &storage_partition;
};
rtt: rtt {
compatible = "segger,rtt-uart";
#address-cells = <1>;
#size-cells = <0>;
label = "RTT";
status = "okay";
};
};
&flash0 {
partitions {
compatible = "fixed-partitions";
#address-cells = <1>;
#size-cells = <1>;
/* Application partition starts at the beginning of flash */
slot0_partition: partition@0 {
label = "image-0";
reg = <0x00000000 DT_SIZE_K(120)>;
};
/* Use the last 8K for settings */
storage_partition: partition@1E000 {
label = "storage";
reg = <0x0001E000 DT_SIZE_K(8)>;
};
};
};
&usart1 {
modbus0 {
compatible = "zephyr,modbus-serial";
status = "okay";
};
status = "okay";
};

47
software/apps/can_node/boards/native_sim.overlay
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@ -1,47 +0,0 @@
/ {
aliases {
vnd7050aj = &vnd7050aj;
};
vnd7050aj: vnd7050aj {
compatible = "st,vnd7050aj";
status = "okay";
input0-gpios = <&gpio0 1 GPIO_ACTIVE_HIGH>;
input1-gpios = <&gpio0 2 GPIO_ACTIVE_HIGH>;
select0-gpios = <&gpio0 3 GPIO_ACTIVE_HIGH>;
select1-gpios = <&gpio0 4 GPIO_ACTIVE_HIGH>;
sense-enable-gpios = <&gpio0 5 GPIO_ACTIVE_HIGH>;
fault-reset-gpios = <&gpio0 6 GPIO_ACTIVE_LOW>;
io-channels = <&adc0 0>;
r-sense-ohms = <1500>;
k-vcc = <4000>;
};
modbus_uart: uart_2 {
compatible = "zephyr,native-pty-uart";
status = "okay";
current-speed = <19200>;
modbus0: modbus0 {
compatible = "zephyr,modbus-serial";
status = "okay";
};
};
};
&adc0 {
#address-cells = <1>;
#size-cells = <0>;
ref-internal-mv = <3300>;
ref-external1-mv = <5000>;
channel@0 {
reg = <0>;
zephyr,gain = "ADC_GAIN_1";
zephyr,reference = "ADC_REF_INTERNAL";
zephyr,acquisition-time = <ADC_ACQ_TIME_DEFAULT>;
zephyr,resolution = <12>;
};
};

48
software/apps/can_node/boards/weact_stm32g431_core.overlay
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@ -1,48 +0,0 @@
/ {
aliases {
vnd7050aj = &vnd7050aj;
};
vnd7050aj: vnd7050aj {
compatible = "st,vnd7050aj";
status = "okay";
input0-gpios = <&gpiob 3 GPIO_ACTIVE_HIGH>;
input1-gpios = <&gpiob 4 GPIO_ACTIVE_HIGH>;
select0-gpios = <&gpiob 0 GPIO_ACTIVE_HIGH>;
select1-gpios = <&gpiob 1 GPIO_ACTIVE_HIGH>;
sense-enable-gpios = <&gpiob 6 GPIO_ACTIVE_HIGH>;
fault-reset-gpios = <&gpiob 5 GPIO_ACTIVE_LOW>;
io-channels = <&adc1 1>;
r-sense-ohms = <1500>;
k-vcc = <4000>;
};
};
&adc1 {
status = "okay";
pinctrl-0 = <&adc1_in1_pa0>;
pinctrl-names = "default";
st,adc-clock-source = "SYNC";
st,adc-prescaler = <4>;
#address-cells = <1>;
#size-cells = <0>;
channel@1 {
reg = <1>;
zephyr,gain = "ADC_GAIN_1";
zephyr,reference = "ADC_REF_INTERNAL";
zephyr,acquisition-time = <ADC_ACQ_TIME_DEFAULT>;
zephyr,resolution = <12>;
};
};
&usart1 {
modbus0 {
compatible = "zephyr,modbus-serial";
status = "okay";
};
status = "okay";
pinctrl-0 = <&usart1_tx_pa9 &usart1_rx_pa10>; // PA9=TX, PA10=RX for Modbus communication
pinctrl-names = "default";
};

16
software/apps/can_node/cdc-acm.overlay
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@ -1,16 +0,0 @@
#include <zephyr/dt-bindings/gpio/gpio.h>
&zephyr_udc0 {
cdc_acm_uart0: cdc_acm_uart0 {
compatible = "zephyr,cdc-acm-uart";
modbus0 {
compatible = "zephyr,modbus-serial";
status = "okay";
};
};
};
&usart1 {
/delete-node/ modbus0;
};

88
software/apps/can_node/dts/bindings/st,vnd7050aj.yaml
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@ -1,88 +0,0 @@
# Copyright (c) 2024, Eduard Iten
# SPDX-License-Identifier: Apache-2.0
description: |
STMicroelectronics VND7050AJ dual-channel high-side driver.
This is a GPIO and ADC controlled device.
compatible: "st,vnd7050aj"
include: base.yaml
properties:
input0-gpios:
type: phandle-array
required: true
description: GPIO to control output channel 0.
input1-gpios:
type: phandle-array
required: true
description: GPIO to control output channel 1.
select0-gpios:
type: phandle-array
required: true
description: GPIO for MultiSense selection bit 0.
select1-gpios:
type: phandle-array
required: true
description: GPIO for MultiSense selection bit 1.
sense-enable-gpios:
type: phandle-array
required: true
description: GPIO to enable the MultiSense output.
fault-reset-gpios:
type: phandle-array
required: true
description: GPIO to reset a latched fault (active-low).
io-channels:
type: phandle-array
required: true
description: |
ADC channel connected to the MultiSense pin. This should be an
io-channels property pointing to the ADC controller and channel number.
r-sense-ohms:
type: int
required: true
description: |
Value of the external sense resistor connected from the MultiSense
pin to GND, specified in Ohms. This is critical for correct
conversion of the analog readings.
k-factor:
type: int
default: 1500
description: |
Factor between PowerMOS and SenseMOS.
k-vcc:
type: int
default: 8000
description: |
VCC sense ratio multiplied by 1000. Used for supply voltage calculation.
t-sense-0:
type: int
default: 25
description: |
Temperature sense reference temperature in degrees Celsius.
v-sense-0:
type: int
default: 2070
description: |
Temperature sense reference voltage in millivolts.
k-tchip:
type: int
default: -5500
description: |
Temperature sense gain coefficient multiplied by 1000.
Used for chip temperature calculation.

4
software/apps/can_node/overlay-cdc-acm.conf
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@ -1,4 +0,0 @@
CONFIG_USB_DEVICE_STACK=y
CONFIG_USB_DEVICE_PRODUCT="Modbus slave node"
CONFIG_UART_LINE_CTRL=y
CONFIG_USB_DEVICE_INITIALIZE_AT_BOOT=n

31
software/apps/can_node/prj.conf
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@ -1,31 +0,0 @@
# Enable Console and printk for logging
CONFIG_CONSOLE=y
CONFIG_LOG=y
# Enable Shell
CONFIG_SHELL=y
CONFIG_REBOOT=y
CONFIG_SHELL_MODBUS=n
CONFIG_SHELL_VALVE=y
CONFIG_SHELL_SYSTEM=y
# Enable Settings Subsystem
CONFIG_SETTINGS=y
CONFIG_SETTINGS_NVS=y
CONFIG_NVS=y
CONFIG_FLASH=y
CONFIG_FLASH_MAP=y
CONFIG_FLASH_PAGE_LAYOUT=y
# Config modbus
CONFIG_UART_INTERRUPT_DRIVEN=y
CONFIG_MODBUS=y
CONFIG_MODBUS_ROLE_SERVER=y
CONFIG_MODBUS_LOG_LEVEL_DBG=y
# enable Valve Driver
CONFIG_LIB_VALVE=y
CONFIG_LOG_VALVE_LEVEL=4
# Enable VND7050AJ
CONFIG_VND7050AJ=y

40
software/apps/can_node/src/main.c
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@ -1,40 +0,0 @@
#include <zephyr/kernel.h>
#include <zephyr/logging/log.h>
#include <zephyr/settings/settings.h>
#include <app_version.h>
#include <lib/valve.h>
#include <lib/vnd7050aj.h>
LOG_MODULE_REGISTER(main, LOG_LEVEL_INF);
int main(void)
{
int rc;
LOG_INF("Starting Irrigation System CAN Node, Version %s", APP_VERSION_EXTENDED_STRING);
/* Initialize settings subsystem */
rc = settings_subsys_init();
if (rc != 0) {
LOG_ERR("Failed to initialize settings subsystem (%d)", rc);
return rc;
}
LOG_INF("Settings subsystem initialized");
/* Load settings from storage */
rc = settings_load();
if (rc == 0) {
LOG_INF("Settings loaded successfully");
} else {
LOG_WRN("Failed to load settings (%d)", rc);
}
/* Initialize valve system */
rc = valve_init();
if (rc != 0) {
LOG_ERR("Failed to initialize valve system (%d)", rc);
return rc;
}
LOG_INF("Valve system initialized");
return 0;
}

5
software/apps/can_node/sysbuild.conf
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@ -1,5 +0,0 @@
SB_CONFIG_BOOTLOADER_MCUBOOT=y
SB_CONFIG_MCUBOOT_MODE_SINGLE_APP=y
CONFIG_LOG=y
CONFIG_MCUBOOT_LOG_LEVEL_INF=y

8
software/apps/gateway/CMakeLists.txt
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@ -1,8 +0,0 @@
cmake_minimum_required(VERSION 3.20.5)
find_package(Zephyr REQUIRED HINTS $ENV{ZEPHYR_BASE})
project(gateway)
target_sources(app PRIVATE src/main.c)
target_include_directories(app PRIVATE include)

44
software/apps/gateway/README.md
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@ -1,44 +0,0 @@
# README for the Hello World Zephyr Application
## Overview
This is a minimal Hello World application built using the Zephyr RTOS. The application demonstrates basic logging functionality by printing a message every 5 seconds, including the version number of the application.
## Project Structure
The project consists of the following files:
- `src/main.c`: The entry point of the application that initializes logging and sets up a timer.
- `include/app_version.h`: Header file that defines the application version.
- `VERSION`: A text file containing the version number of the application.
- `prj.conf`: Configuration file for the Zephyr project, specifying necessary options.
- `CMakeLists.txt`: Build configuration file for CMake.
- `README.md`: Documentation for the project.
## Building the Application
To build the application, follow these steps:
1. Ensure you have the Zephyr development environment set up.
2. Navigate to the `apps/gateway` directory.
3. Run the following command to build the application:
```
west build -b <your_board> .
```
Replace `<your_board>` with the appropriate board name.
## Running the Application
After building the application, you can flash it to your board using:
```
west flash
```
Once the application is running, you will see log messages printed every 5 seconds, including the version number.
## Version
The version of this application can be found in the `VERSION` file and is also included in the log messages.

5
software/apps/gateway/VERSION
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@ -1,5 +0,0 @@
VERSION_MAJOR = 0
VERSION_MINOR = 0
PATCHLEVEL = 1
VERSION_TWEAK = 0
EXTRAVERSION = devel

16
software/apps/gateway/boards/common_4MB.dtsi
View File

@ -1,16 +0,0 @@
&flash0 {
reg = <0x0 0x400000>; /* 4MB flash */
};
#include "espressif/partitions_0x0_default_4M.dtsi"
/ {
chosen {
zephyr,shell-uart = &uart0;
zephyr,uart-mcumgr = &usb_serial;
};
};
&usb_serial {
status = "okay";
};

1
software/apps/gateway/boards/esp32c6_devkitc_hpcore.overlay
View File

@ -1 +0,0 @@
#include "common_4MB.dtsi"

47
software/apps/gateway/prj.conf
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@ -1,47 +0,0 @@
# -------------------
# Logging and Console
# -------------------
CONFIG_LOG=y
CONFIG_UART_CONSOLE=y
# -------------
# Zephyr Shell
# -------------
CONFIG_SHELL=y
CONFIG_KERNEL_SHELL=y
CONFIG_REBOOT=y
# -------------------
# MCUmgr OS Management
# -------------------
CONFIG_MCUMGR=y
CONFIG_MCUMGR_GRP_OS=y
CONFIG_MCUMGR_TRANSPORT_UART=y
# -------------------
# MCUmgr Filesystem Group
# -------------------
CONFIG_MCUMGR_GRP_FS=y
# -------------------
# LittleFS and Flash
# -------------------
CONFIG_FILE_SYSTEM=y
CONFIG_FILE_SYSTEM_LITTLEFS=y
CONFIG_FLASH=y
CONFIG_FLASH_MAP=y
# -------------------
# Settings Subsystem
# -------------------
CONFIG_SETTINGS=y
CONFIG_SETTINGS_FILE=y
CONFIG_SETTINGS_FILE_PATH="/lfs/settings.bin"
# -------------------
# Dependencies
# -------------------
CONFIG_NET_BUF=y
CONFIG_ZCBOR=y
CONFIG_CRC=y
CONFIG_BASE64=y

136
software/apps/gateway/src/main.c
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@ -1,136 +0,0 @@
#include <zephyr/fs/fs.h>
#include <zephyr/fs/littlefs.h>
#include <zephyr/kernel.h>
#include <zephyr/logging/log.h>
#include <zephyr/settings/settings.h>
#include <zephyr/shell/shell.h>
#include <app_version.h>
#include <string.h>
LOG_MODULE_REGISTER(hello_world);
/* LittleFS mount configuration for 'storage_partition' partition */
FS_LITTLEFS_DECLARE_DEFAULT_CONFIG(storage_partition);
static struct fs_mount_t littlefs_mnt = {
.type = FS_LITTLEFS,
.mnt_point = "/lfs",
.fs_data = &storage_partition, // default config macro
.storage_dev = (void *)FIXED_PARTITION_ID(storage_partition),
};
static char my_setting[32] = "default";
static int my_settings_set(const char *name, size_t len, settings_read_cb read_cb, void *cb_arg)
{
if (strcmp(name, "value") == 0) {
if (len > sizeof(my_setting) - 1) {
len = sizeof(my_setting) - 1;
}
if (read_cb(cb_arg, my_setting, len) == len) {
my_setting[len] = '\0';
return 0;
}
return -EINVAL;
}
return -ENOENT;
}
static int my_settings_export(int (*export_func)(const char *, const void *, size_t))
{
return export_func("my/setting/value", my_setting, strlen(my_setting));
}
SETTINGS_STATIC_HANDLER_DEFINE(my, "my/setting", NULL, my_settings_set, NULL, my_settings_export);
static int cmd_my_get(const struct shell *shell, size_t argc, char **argv)
{
shell_print(shell, "my_setting = '%s'", my_setting);
return 0;
}
static int cmd_my_reset(const struct shell *shell, size_t argc, char **argv)
{
strcpy(my_setting, "default");
settings_save();
shell_print(shell, "my_setting reset to default");
return 0;
}
// Improved set command: join all arguments for whitespace support
static int cmd_my_set(const struct shell *shell, size_t argc, char **argv)
{
if (argc < 2) {
shell_error(shell, "Usage: my set <value>");
return -EINVAL;
}
// Join all argv[1..] with spaces
size_t i, pos = 0;
my_setting[0] = '\0';
for (i = 1; i < argc; ++i) {
size_t left = sizeof(my_setting) - 1 - pos;
if (left == 0)
break;
strncat(my_setting, argv[i], left);
pos = strlen(my_setting);
if (i < argc - 1 && left > 1) {
strncat(my_setting, " ", left - 1);
pos = strlen(my_setting);
}
}
my_setting[sizeof(my_setting) - 1] = '\0';
settings_save();
shell_print(shell, "my_setting set to '%s'", my_setting);
return 0;
}
SHELL_STATIC_SUBCMD_SET_CREATE(my_subcmds,
SHELL_CMD(get, NULL, "Get my_setting", cmd_my_get),
SHELL_CMD(set, NULL, "Set my_setting (supports spaces)", cmd_my_set),
SHELL_CMD(reset, NULL, "Reset my_setting to default and compact settings file", cmd_my_reset),
SHELL_SUBCMD_SET_END);
SHELL_CMD_REGISTER(my, &my_subcmds, "My settings commands", NULL);
static void compact_settings_file(void)
{
struct fs_file_t file;
fs_file_t_init(&file);
int rc = fs_open(&file, "/lfs/settings.bin", FS_O_WRITE | FS_O_CREATE | FS_O_TRUNC);
if (rc == 0) {
fs_close(&file);
LOG_INF("Settings file compacted (truncated and recreated)");
} else if (rc == -ENOENT) {
LOG_INF("Settings file did not exist, created new");
} else {
LOG_ERR("Failed to compact settings file (%d)", rc);
}
settings_save();
}
int main(void)
{
int rc = fs_mount(&littlefs_mnt);
if (rc < 0) {
LOG_ERR("Error mounting LittleFS [%d]", rc);
} else {
LOG_INF("LittleFS mounted at /lfs");
}
/* Initialize settings subsystem */
settings_subsys_init();
LOG_INF("Settings subsystem initialized");
/* Load settings from storage */
rc = settings_load();
if (rc == 0) {
LOG_INF("Settings loaded: my_setting='%s'", my_setting);
} else {
LOG_ERR("Failed to load settings (%d)", rc);
}
/* Compact settings file on each start */
compact_settings_file();
LOG_INF("Hello World! Version: %s", APP_VERSION_EXTENDED_STRING);
return 0;
}

2
software/apps/gateway/sysbuild.conf
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@ -1,2 +0,0 @@
SB_CONFIG_BOOTLOADER_MCUBOOT=y
SB_CONFIG_MCUBOOT_MODE_SINGLE_APP=y

8
software/apps/gateway/sysbuild/gateway.overlay
View File

@ -1,8 +0,0 @@
#include "../boards/common_4MB.dtsi"
/* Application Configuration - Firmware goes to slot0_partition (0x20000) */
/ {
chosen {
zephyr,code-partition = &slot0_partition;
};
};

3
software/apps/gateway/sysbuild/mcuboot.conf
View File

@ -1,3 +0,0 @@
CONFIG_LOG=y
CONFIG_MCUBOOT_LOG_LEVEL_INF=y
CONFIG_UART_CONSOLE=n

12
software/apps/gateway/sysbuild/mcuboot.overlay
View File

@ -1,12 +0,0 @@
#include "../boards/common_4MB.dtsi"
/* MCUboot Configuration - Bootloader goes to boot_partition (0x0) */
/ {
chosen {
zephyr,code-partition = &boot_partition;
};
aliases {
mcuboot-button0 = &user_button1;
};
};

1
software/apps/mqtt_gateway

@ -1 +0,0 @@
Subproject commit 6e669cfc4e400c3ef6e55c16401788ce0d804577

12
software/apps/slave_node/.vscode/c_cpp_properties.json vendored
View File

@ -1,12 +0,0 @@
{
"configurations": [
{
"name": "Linux",
"compileCommands": "${workspaceFolder}/build/compile_commands.json",
"cStandard": "c99",
"cppStandard": "gnu++17",
"intelliSenseMode": "linux-gcc-arm"
}
],
"version": 4
}

10
software/apps/slave_node/CMakeLists.txt
View File

@ -1,10 +0,0 @@
cmake_minimum_required(VERSION 3.20)
find_package(Zephyr REQUIRED HINTS $ENV{ZEPHYR_BASE})
project(slave_node LANGUAGES C)
zephyr_include_directories(../../include)
add_subdirectory(../../lib lib)
target_sources(app PRIVATE src/main.c)

2
software/apps/slave_node/Kconfig
View File

@ -1,2 +0,0 @@
rsource "../../lib/Kconfig"
source "Kconfig.zephyr"

5
software/apps/slave_node/VERSION
View File

@ -1,5 +0,0 @@
VERSION_MAJOR = 0
VERSION_MINOR = 0
PATCHLEVEL = 1
VERSION_TWEAK = 1
EXTRAVERSION = devel

7
software/apps/slave_node/boards/bluepill_f103rb.conf
View File

@ -1,7 +0,0 @@
# Disable UART console
CONFIG_UART_CONSOLE=n
# Enable RTT console
CONFIG_RTT_CONSOLE=y
CONFIG_USE_SEGGER_RTT=y
CONFIG_SHELL_BACKEND_RTT=y

43
software/apps/slave_node/boards/bluepill_f103rb.overlay
View File

@ -1,43 +0,0 @@
/ {
chosen {
zephyr,console = &rtt;
zephyr,shell = &rtt;
zephyr,settings-partition = &storage_partition;
};
rtt: rtt {
compatible = "segger,rtt-uart";
#address-cells = <1>;
#size-cells = <0>;
label = "RTT";
status = "okay";
};
};
&flash0 {
partitions {
compatible = "fixed-partitions";
#address-cells = <1>;
#size-cells = <1>;
/* Application partition starts at the beginning of flash */
slot0_partition: partition@0 {
label = "image-0";
reg = <0x00000000 DT_SIZE_K(120)>;
};
/* Use the last 8K for settings */
storage_partition: partition@1E000 {
label = "storage";
reg = <0x0001E000 DT_SIZE_K(8)>;
};
};
};
&usart1 {
modbus0 {
compatible = "zephyr,modbus-serial";
status = "okay";
};
status = "okay";
};

47
software/apps/slave_node/boards/native_sim.overlay
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@ -1,47 +0,0 @@
/ {
aliases {
vnd7050aj = &vnd7050aj;
};
vnd7050aj: vnd7050aj {
compatible = "st,vnd7050aj";
status = "okay";
input0-gpios = <&gpio0 1 GPIO_ACTIVE_HIGH>;
input1-gpios = <&gpio0 2 GPIO_ACTIVE_HIGH>;
select0-gpios = <&gpio0 3 GPIO_ACTIVE_HIGH>;
select1-gpios = <&gpio0 4 GPIO_ACTIVE_HIGH>;
sense-enable-gpios = <&gpio0 5 GPIO_ACTIVE_HIGH>;
fault-reset-gpios = <&gpio0 6 GPIO_ACTIVE_LOW>;
io-channels = <&adc0 0>;
r-sense-ohms = <1500>;
k-vcc = <4000>;
};
modbus_uart: uart_2 {
compatible = "zephyr,native-pty-uart";
status = "okay";
current-speed = <19200>;
modbus0: modbus0 {
compatible = "zephyr,modbus-serial";
status = "okay";
};
};
};
&adc0 {
#address-cells = <1>;
#size-cells = <0>;
ref-internal-mv = <3300>;
ref-external1-mv = <5000>;
channel@0 {
reg = <0>;
zephyr,gain = "ADC_GAIN_1";
zephyr,reference = "ADC_REF_INTERNAL";
zephyr,acquisition-time = <ADC_ACQ_TIME_DEFAULT>;
zephyr,resolution = <12>;
};
};

48
software/apps/slave_node/boards/weact_stm32g431_core.overlay
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@ -1,48 +0,0 @@
/ {
aliases {
vnd7050aj = &vnd7050aj;
};
vnd7050aj: vnd7050aj {
compatible = "st,vnd7050aj";
status = "okay";
input0-gpios = <&gpiob 3 GPIO_ACTIVE_HIGH>;
input1-gpios = <&gpiob 4 GPIO_ACTIVE_HIGH>;
select0-gpios = <&gpiob 7 GPIO_ACTIVE_HIGH>;
select1-gpios = <&gpiob 9 GPIO_ACTIVE_HIGH>;
sense-enable-gpios = <&gpiob 6 GPIO_ACTIVE_HIGH>;
fault-reset-gpios = <&gpiob 5 GPIO_ACTIVE_LOW>;
io-channels = <&adc1 1>;
r-sense-ohms = <1500>;
k-vcc = <4000>;
};
};
&adc1 {
status = "okay";
pinctrl-0 = <&adc1_in1_pa0>;
pinctrl-names = "default";
st,adc-clock-source = "SYNC";
st,adc-prescaler = <4>;
#address-cells = <1>;
#size-cells = <0>;
channel@1 {
reg = <1>;
zephyr,gain = "ADC_GAIN_1";
zephyr,reference = "ADC_REF_INTERNAL";
zephyr,acquisition-time = <ADC_ACQ_TIME_DEFAULT>;
zephyr,resolution = <12>;
};
};
&usart1 {
modbus0 {
compatible = "zephyr,modbus-serial";
status = "okay";
};
status = "okay";
pinctrl-0 = <&usart1_tx_pa9 &usart1_rx_pa10>; // PA9=TX, PA10=RX for Modbus communication
pinctrl-names = "default";
};

16
software/apps/slave_node/cdc-acm.overlay
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@ -1,16 +0,0 @@
#include <zephyr/dt-bindings/gpio/gpio.h>
&zephyr_udc0 {
cdc_acm_uart0: cdc_acm_uart0 {
compatible = "zephyr,cdc-acm-uart";
modbus0 {
compatible = "zephyr,modbus-serial";
status = "okay";
};
};
};
&usart1 {
/delete-node/ modbus0;
};

88
software/apps/slave_node/dts/bindings/st,vnd7050aj.yaml
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@ -1,88 +0,0 @@
# Copyright (c) 2024, Eduard Iten
# SPDX-License-Identifier: Apache-2.0
description: |
STMicroelectronics VND7050AJ dual-channel high-side driver.
This is a GPIO and ADC controlled device.
compatible: "st,vnd7050aj"
include: base.yaml
properties:
input0-gpios:
type: phandle-array
required: true
description: GPIO to control output channel 0.
input1-gpios:
type: phandle-array
required: true
description: GPIO to control output channel 1.
select0-gpios:
type: phandle-array
required: true
description: GPIO for MultiSense selection bit 0.
select1-gpios:
type: phandle-array
required: true
description: GPIO for MultiSense selection bit 1.
sense-enable-gpios:
type: phandle-array
required: true
description: GPIO to enable the MultiSense output.
fault-reset-gpios:
type: phandle-array
required: true
description: GPIO to reset a latched fault (active-low).
io-channels:
type: phandle-array
required: true
description: |
ADC channel connected to the MultiSense pin. This should be an
io-channels property pointing to the ADC controller and channel number.
r-sense-ohms:
type: int
required: true
description: |
Value of the external sense resistor connected from the MultiSense
pin to GND, specified in Ohms. This is critical for correct
conversion of the analog readings.
k-factor:
type: int
default: 1500
description: |
Factor between PowerMOS and SenseMOS.
k-vcc:
type: int
default: 8000
description: |
VCC sense ratio multiplied by 1000. Used for supply voltage calculation.
t-sense-0:
type: int
default: 25
description: |
Temperature sense reference temperature in degrees Celsius.
v-sense-0:
type: int
default: 2070
description: |
Temperature sense reference voltage in millivolts.
k-tchip:
type: int
default: -5500
description: |
Temperature sense gain coefficient multiplied by 1000.
Used for chip temperature calculation.

4
software/apps/slave_node/overlay-cdc-acm.conf
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@ -1,4 +0,0 @@
CONFIG_USB_DEVICE_STACK=y
CONFIG_USB_DEVICE_PRODUCT="Modbus slave node"
CONFIG_UART_LINE_CTRL=y
CONFIG_USB_DEVICE_INITIALIZE_AT_BOOT=n

28
software/apps/slave_node/prj.conf
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@ -1,28 +0,0 @@
# Enable Console and printk for logging
CONFIG_CONSOLE=y
CONFIG_LOG=y
# Enable Shell
CONFIG_SHELL=y
CONFIG_REBOOT=y
CONFIG_SHELL_MODBUS=y
CONFIG_SHELL_VALVE=y
CONFIG_SHELL_SYSTEM=y
# Enable Settings Subsystem
CONFIG_SETTINGS=y
CONFIG_SETTINGS_NVS=y
CONFIG_NVS=y
CONFIG_FLASH=y
CONFIG_FLASH_MAP=y
CONFIG_FLASH_PAGE_LAYOUT=y
CONFIG_SETTINGS_LOG_LEVEL_DBG=y
# Config modbus
CONFIG_UART_INTERRUPT_DRIVEN=y
CONFIG_MODBUS=y
CONFIG_MODBUS_ROLE_SERVER=y
CONFIG_MODBUS_LOG_LEVEL_DBG=y
# Enable VND7050AJ
CONFIG_VND7050AJ=y

30
software/apps/slave_node/src/main.c
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@ -1,30 +0,0 @@
#include <zephyr/kernel.h>
#include <zephyr/logging/log.h>
#include <zephyr/settings/settings.h>
#include <lib/fwu.h>
#include <lib/modbus_server.h>
#include <lib/valve.h>
LOG_MODULE_REGISTER(main, LOG_LEVEL_INF);
int main(void)
{
int rc;
LOG_INF("Starting Irrigation System Slave Node");
if (settings_subsys_init() || settings_load()) {
LOG_ERR("Settings initialization or loading failed");
}
valve_init();
fwu_init();
rc = modbus_server_init();
if (rc) {
LOG_ERR("Modbus server initialization failed: %d", rc);
return rc;
}
LOG_INF("Irrigation System Slave Node started successfully");
return 0;
}

5
software/apps/slave_node/sysbuild.conf
View File

@ -1,5 +0,0 @@
SB_CONFIG_BOOTLOADER_MCUBOOT=y
SB_CONFIG_MCUBOOT_MODE_SINGLE_APP=y
CONFIG_LOG=y
CONFIG_MCUBOOT_LOG_LEVEL_INF=y

5
software/boards/iten/bluepill_f103rb/Kconfig.bluepill_f103rb
View File

@ -1,5 +0,0 @@
# Copyright (c) 2025 Eduard Iten
# SPDX-License-Identifier: Apache-2.0
config BOARD_BLUEPILL_F103RB
select SOC_STM32F103XB

106
software/boards/iten/bluepill_f103rb/bluepill_f103rb.dts
View File

@ -1,106 +0,0 @@
/*
* Copyright (c) 2025 Eduard Iten
*
* SPDX-License-Identifier: Apache-2.0
*/
/dts-v1/;
#include <st/f1/stm32f1.dtsi>
#include <st/f1/stm32f103Xb.dtsi>
#include <st/f1/stm32f103r(8-b)tx-pinctrl.dtsi>
#include <zephyr/dt-bindings/input/input-event-codes.h>
/ {
model = "Blue-Pill STM32F103RB";
compatible = "iten,bluepill-f103rb";
chosen {
zephyr,console = &usart1;
zephyr,shell-uart = &usart1;
zephyr,sram = &sram0;
zephyr,flash = &flash0;
};
leds {
compatible = "gpio-leds";
led_status: led_status {
gpios = <&gpioc 13 GPIO_ACTIVE_LOW>;
label = "User LED";
};
};
aliases {
led0 = &led_status;
watchdog0 = &iwdg;
};
};
&clk_lsi {
status = "okay";
};
&clk_hse {
clock-frequency = <DT_FREQ_M(8)>;
status = "okay";
};
&pll {
mul = <9>;
clocks = <&clk_hse>;
status = "okay";
};
&rcc {
clocks = <&pll>;
clock-frequency = <DT_FREQ_M(72)>;
ahb-prescaler = <1>;
apb1-prescaler = <2>;
apb2-prescaler = <1>;
adc-prescaler = <6>;
};
&usart1 {
pinctrl-0 = <&usart1_tx_pa9 &usart1_rx_pa10>;
pinctrl-names = "default";
current-speed = <115200>;
status = "okay";
};
&iwdg {
status = "okay";
};
&clk_lsi {
status = "okay";
};
&clk_hse {
clock-frequency = <DT_FREQ_M(8)>;
status = "okay";
};
&pll {
mul = <9>;
clocks = <&clk_hse>;
status = "okay";
};
&rcc {
clocks = <&pll>;
clock-frequency = <DT_FREQ_M(72)>;
ahb-prescaler = <1>;
apb1-prescaler = <2>;
apb2-prescaler = <1>;
adc-prescaler = <6>;
};
&exti {
status = "okay";
};
&dma1 {
status = "okay";
};

4
software/boards/iten/bluepill_f103rb/bluepill_f103rb_defconfig
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@ -1,4 +0,0 @@
# Copyright (c) 2025 Eduard Iten
# SPDX-License-Identifier: Apache-2.0
CONFIG_SERIAL=y
CONFIG_GPIO=y

8
software/boards/iten/bluepill_f103rb/board.yml
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@ -1,8 +0,0 @@
# Copyright (c) 2025 Eduard Iten
# SPDX-License-Identifier: Apache-2.0
board:
name: bluepill_f103rb
vendor: iten
socs:
- name: stm32f103xb

58
software/boards/iten/valve_node/Kconfig.valve_node Normal file
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@ -0,0 +1,58 @@
config BOARD_VALVE_NODE
select SOC_STM32F103XB
mainmenu "APP CAN Settings"
config LOOPBACK_MODE
bool "Loopback LOOPBACK_MODE"
default n
help
Set the can controller to loopback mode.
This allows testing without a second board.
mainmenu "APP Logging Settings"
config LOG_CAN_LEVEL
int "Log level for CAN"
default 3
range 0 7
help
Set the log level for CAN messages.
0 = None, 1 = Error, 2 = Warning, 3 = Info, 4 = Debug, 5 = Trace, 6 = Debug2, 7 = Debug3
config LOG_SETTINGS_LEVEL
int "Log level for settings"
default 3
range 0 7
help
Set the log level for CAN messages.
0 = None, 1 = Error, 2 = Warning, 3 = Info, 4 = Debug, 5 = Trace, 6 = Debug2, 7 = Debug3
config LOG_WATERLEVELSENSOR_LEVEL
int "Log level for waterlevel sensor"
default 3
range 0 7
help
Set the log level for CAN messages.
0 = None, 1 = Error, 2 = Warning, 3 = Info, 4 = Debug, 5 = Trace, 6 = Debug2, 7 = Debug3
config LOG_VALVE_LEVEL
int "Log level for valve control"
default 3
range 0 7
help
Set the log level for valve control messages.
0 = None, 1 = Error, 2 = Warning, 3 = Info, 4 = Debug, 5 = Trace, 6 = Debug2, 7 = Debug3
mainmenu "Irrigation controller node configuration"
config HAS_MODBUS_WATERLEVEL_SENSOR
bool "Has modbus water level sensor"
default n
help
Enable modbus water level sensor support.
This allows reading the water level from a modbus device.
config HAS_VALVE
bool "Has valve control"
default n
help
Enable valve control support.
This allows controlling valves via CAN messages.

5
software/boards/iten/bluepill_f103rb/board.cmake → software/boards/iten/valve_node/board.cmake
View File

@ -1,12 +1,11 @@
# Copyright (c) 2025 Eduard Iten
# SPDX-License-Identifier: Apache-2.0
# keep first
board_runner_args(jlink "--device=STM32F103RB" "--speed=4000")
board_runner_args(stm32cubeprogrammer "--port=swd" "--reset-mode=hw")
board_runner_args(jlink "--device=STM32F103RB" "--speed=4000")
# keep first
include(${ZEPHYR_BASE}/boards/common/jlink.board.cmake)
include(${ZEPHYR_BASE}/boards/common/stm32cubeprogrammer.board.cmake)
include(${ZEPHYR_BASE}/boards/common/openocd-stm32.board.cmake)
include(${ZEPHYR_BASE}/boards/common/jlink.board.cmake)
include(${ZEPHYR_BASE}/boards/common/blackmagicprobe.board.cmake)

10
software/boards/iten/valve_node/board.yml Normal file
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@ -0,0 +1,10 @@
board:
name: valve_node
full_name: Irrigation system CANbus valve node
socs:
- name: stm32f103xb
# revision:
# format: number
# default: "1"
# revisions:
# -name: "1"

206
software/boards/iten/valve_node/valve_node.dts Normal file
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@ -0,0 +1,206 @@
/*
* Copyright (c) 2017 Linaro Limited
*
* SPDX-License-Identifier: Apache-2.0
*/
/dts-v1/;
#include <st/f1/stm32f1.dtsi>
#include <st/f1/stm32f103Xb.dtsi>
#include <st/f1/stm32f103r(8-b)tx-pinctrl.dtsi>
#include <zephyr/dt-bindings/input/input-event-codes.h>
/ {
model = "Iten engineering Valve Node";
compatible = "st,stm32f103rb";
can_loopback0: can_loopback0 {
status = "disabled";
compatible = "zephyr,can-loopback";
};
chosen {
zephyr,console = &usart1;
zephyr,shell-uart = &usart1;
zephyr,sram = &sram0;
zephyr,flash = &flash0;
zephyr,canbus = &can1;
};
leds: leds {
compatible = "gpio-leds";
green_led_2: led_2 {
gpios = <&gpiob 2 GPIO_ACTIVE_HIGH>;
label = "User LD2";
};
};
gpio_keys {
compatible = "gpio-keys";
user_button: button {
label = "User";
gpios = <&gpioc 13 GPIO_ACTIVE_LOW>;
zephyr,code = <INPUT_KEY_0>;
};
endstopopen: endstop_open {
gpios = <&gpiob 4 (GPIO_ACTIVE_LOW | GPIO_PULL_UP)>;
label = "Endstop Open";
};
endstopclose: endstop_closed {
gpios = <&gpiob 5 (GPIO_ACTIVE_LOW | GPIO_PULL_UP)>;
label = "Endstop Close";
};
statusopen: status_open {
gpios = <&gpiob 14 (GPIO_ACTIVE_LOW | GPIO_PULL_UP)>;
label = "Status Open";
};
statusclose: status_close {
gpios = <&gpioa 8 (GPIO_ACTIVE_LOW | GPIO_PULL_UP)>;
label = "Status Close";
};
};
aliases {
led0 = &green_led_2;
sw0 = &user_button;
watchdog0 = &iwdg;
die-temp0 = &die_temp;
adc-motor-current = &motor_current_channel;
adc-vref = &vref_channel;
};
};
&clk_lsi {
status = "okay";
};
&clk_hse {
clock-frequency = <DT_FREQ_M(8)>;
status = "okay";
};
&pll {
mul = <9>;
clocks = <&clk_hse>;
status = "okay";
};
&rcc {
clocks = <&pll>;
clock-frequency = <DT_FREQ_M(72)>;
ahb-prescaler = <1>;
apb1-prescaler = <2>;
apb2-prescaler = <1>;
adc-prescaler = <6>;
};
&usart1 {
pinctrl-0 = <&usart1_tx_pa9 &usart1_rx_pa10>;
pinctrl-names = "default";
status = "okay";
current-speed = <115200>;
};
&usart2 {
pinctrl-0 = <&usart2_tx_pa2 &usart2_rx_pa3>;
current-speed = <9600>;
pinctrl-names = "default";
status = "okay";
modbus0 {
compatible = "zephyr,modbus-serial";
status = "okay";
};
};
&usart3 {
pinctrl-0 = <&usart3_tx_pb10 &usart3_rx_pb11>;
current-speed = <115200>;
pinctrl-names = "default";
};
&i2c1 {
pinctrl-0 = <&i2c1_scl_remap1_pb8 &i2c1_sda_remap1_pb9>;
pinctrl-names = "default";
status = "okay";
clock-frequency = <I2C_BITRATE_FAST>;
};
&iwdg {
status = "okay";
};
&rtc {
clocks = <&rcc STM32_CLOCK_BUS_APB1 0x10000000>,
<&rcc STM32_SRC_LSI RTC_SEL(2)>;
status = "okay";
};
&adc1 {
pinctrl-0 = <&adc_pb1_pins>;
pinctrl-names = "default";
status = "okay";
#address-cells = <1>;
#size-cells = <0>;
motor_current_channel: channel@9 {
reg = <0x9>;
zephyr,gain = "ADC_GAIN_1";
zephyr,reference = "ADC_REF_VDD_1";
zephyr,acquisition-time = <49159>;
zephyr,resolution = <12>;
};
vref_channel: channel@11 { /* 17 dezimal = 11 hex */
reg = <0x11>;
zephyr,gain = "ADC_GAIN_1";
zephyr,reference = "ADC_REF_VDD_1";
zephyr,acquisition-time = <49159>;
zephyr,resolution = <12>;
};
};
&die_temp {
status = "okay";
};
&dma1 {
status = "okay";
};
&flash0 {
partitions {
compatible = "fixed-partitions";
#address-cells = <1>;
#size-cells = <1>;
storage_partition: partition@1f800 {
label = "storage";
reg = <0x0001f800 DT_SIZE_K(2)>;
};
};
};
&can1 {
pinctrl-0 = <&can_rx_pa11 &can_tx_pa12>;
pinctrl-names = "default";
status= "okay";
bitrate = <125000>;
};
&exti {
status = "okay";
};
&pinctrl {
adc_pb1_pins: adc_pb1_pins {
pinmux = <STM32F1_PINMUX('B', 1, ANALOG, NO_REMAP)>;
};
};

31
software/boards/iten/valve_node/valve_node_defconfig Normal file
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@ -0,0 +1,31 @@
# SPDX-License-Identifier: Apache-2.0
# enable uart driver
CONFIG_SERIAL=y
# enable console
CONFIG_CONSOLE=y
# enable GPIO
CONFIG_GPIO=y
# modbus config
CONFIG_UART_INTERRUPT_DRIVEN=y
CONFIG_UART_LINE_CTRL=n
CONFIG_MODBUS=y
CONFIG_MODBUS_ROLE_CLIENT=y
# can config
CONFIG_CAN=y
CONFIG_CAN_INIT_PRIORITY=80
#CONFIG_CAN_MAX_FILTER=5
CONFIG_CAN_ACCEPT_RTR=y
# settings
CONFIG_FLASH=y
CONFIG_FLASH_MAP=y
CONFIG_SETTINGS=y
CONFIG_SETTINGS_RUNTIME=y
CONFIG_NVS=y
CONFIG_SETTINGS_NVS=y
CONFIG_HEAP_MEM_POOL_SIZE=256
CONFIG_MPU_ALLOW_FLASH_WRITE=y

5
software/esphome/.gitignore vendored
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@ -1,5 +0,0 @@
# Gitignore settings for ESPHome
# This is an example and may include too much for your use-case.
# You can modify this file to suit your needs.
/.esphome/
/secrets.yaml

106
software/esphome/can.yaml
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@ -1,106 +0,0 @@
# ===================================================================
# ESPHome Configuration
# CAN-Bus Master für ein Bewässerungssystem auf Basis des ESP32-C6
#
# Version 10: Finale Korrektur der Lambda-Signatur gemäß Dokumentation
# ===================================================================
esphome:
name: can-bridge
friendly_name: Irrigation can bridge
esp32:
board: esp32-c6-devkitm-1
framework:
type: esp-idf # Erforderlich für den ESP32-C6
# --- Netzwerk & Sicherheit ---
wifi:
ssid: !secret wifi_ssid
password: !secret wifi_password
fast_connect: true
api:
encryption:
key: !secret api_key
ota:
platform: esphome
password: !secret ota_password
logger:
web_server:
# --- Globale Variablen ---
globals:
- id: ventil_2_can_state
type: int
initial_value: '0' # Startet als "geschlossen"
# --- CAN-Bus Konfiguration ---
canbus:
- platform: esp32_can
id: my_can_bus
tx_pin: GPIO5
rx_pin: GPIO4
bit_rate: 125kbps
can_id: 0x000 # Erforderlich, um Parser-Fehler zu beheben.
on_frame:
# Horcht nur auf die Statusmeldung von Knoten 2 (ID 0x422)
- can_id: 0x422
then:
- lambda: |-
if (x.size() < 1) {
ESP_LOGW("on_can_frame", "Received empty Frame for ID 0x422");
return;
}
int received_state = x[0];
id(ventil_2_can_state) = received_state;
ESP_LOGD("on_can_frame", "Received state from Valve 2: %i", received_state);
- valve.template.publish:
id: ventil_2
current_operation: !lambda |-
int state = id(ventil_2_can_state);
if (state == 2) {
return VALVE_OPERATION_OPENING;
} else if (state == 3) {
return VALVE_OPERATION_CLOSING;
} else {
return VALVE_OPERATION_IDLE;
}
# --- Home Assistant Entitäten ---
valve:
- platform: template
name: "Ventil 2"
id: ventil_2
# Diese Lambda meldet nur den binären End-Zustand (offen/geschlossen)
lambda: |-
if (id(ventil_2_can_state) == 0) {
return VALVE_CLOSED;
} else if (id(ventil_2_can_state) == 1) {
return VALVE_OPEN;
} else {
return NAN;
}
# Aktionen zum Steuern des Ventils
open_action:
- canbus.send:
canbus_id: my_can_bus
can_id: 0x210
data: [0x02, 0x01]
close_action:
- canbus.send:
canbus_id: my_can_bus
can_id: 0x210
data: [0x02, 0x00]
stop_action:
- canbus.send:
canbus_id: my_can_bus
can_id: 0x210
data: [0x02, 0x03]

55
software/esphome/create_secrets.py
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@ -1,55 +0,0 @@
#!/usr/bin/env python3
import secrets
import string
import os
import base64
from ruamel.yaml import YAML
def generate_password(length=32):
"""Generate a random password."""
alphabet = string.ascii_letters + string.digits
return ''.join(secrets.choice(alphabet) for i in range(length))
def generate_api_key():
"""Generate a random 32-byte key and base64 encode it."""
return base64.b64encode(secrets.token_bytes(32)).decode('utf-8')
SECRETS_FILE = 'secrets.yaml'
# In a real ESPHome project, secrets are often included from a central location
# but for this script, we'll assume it's in the current directory.
# You might need to adjust this path.
secrets_path = os.path.join(os.path.dirname(os.path.abspath(__file__)), SECRETS_FILE)
yaml = YAML()
yaml.preserve_quotes = True
# To prevent line wrapping
yaml.width = 4096
try:
with open(secrets_path, 'r') as f:
secrets_data = yaml.load(f)
if secrets_data is None:
secrets_data = {}
except FileNotFoundError:
print(f"Info: '{SECRETS_FILE}' not found. A new file will be created.")
secrets_data = {}
# Generate new random passwords
new_api_key = generate_api_key()
new_ota_password = generate_password()
# Update the dictionary with the new passwords
if 'api_password' in secrets_data:
del secrets_data['api_password']
secrets_data['api_key'] = new_api_key
secrets_data['ota_password'] = new_ota_password
# Write the updated dictionary back to the YAML file
with open(secrets_path, 'w') as f:
yaml.dump(secrets_data, f)
print(f"Successfully updated '{SECRETS_FILE}'.")
print("New values:")
print(f" api_key: {new_api_key}")
print(f" ota_password: {new_ota_password}")

166
software/esphome/irrigation_system.yaml
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@ -1,166 +0,0 @@
# ===================================================================
# ESPHome Configuration - Final Version
#
# This version corrects the C++ function call inside the valve actions
# to use the correct `send` method from the ModbusDevice base class,
# which is compatible with the esp-idf framework.
# ===================================================================
esphome:
name: irrigation-system
friendly_name: Bewässerung
esp32:
board: esp32-c6-devkitm-1
framework:
type: esp-idf # Set to esp-idf as required by the ESP32-C6 board
wifi:
ssid: !secret wifi_ssid
password: !secret wifi_password
fast_connect: true
api:
encryption:
key: !secret api_key
ota:
platform: esphome
password: !secret ota_password
logger:
web_server:
# ===================================================================
# HARDWARE SETUP - COMPLETE
# ===================================================================
# --- UART for RS485 Communication ---
uart:
id: uart_bus
tx_pin: GPIO1
rx_pin: GPIO2
baud_rate: 9600
data_bits: 8
stop_bits: 1
parity: NONE
# --- Base Modbus component for the bus ---
modbus:
- id: modbus_hub
uart_id: uart_bus
# --- Modbus Controller for the specific valve device ---
modbus_controller:
- id: valve_controller
modbus_id: modbus_hub
address: 0 # The Modbus address of your valve. Change if not 0.
# update_interval: 1s
# ===================================================================
# SENSORS - COMPLETE
# ===================================================================
sensor:
# This sensor reads the raw 16-bit value from the valve's input register.
- platform: modbus_controller
modbus_controller_id: valve_controller
name: "Valve Raw Status"
id: valve_raw_status
internal: true # Hide from Home Assistant UI
register_type: read # 'read' is the valid type for input registers
address: 0x0000 # The address of the register to read
value_type: U_WORD # Read the full 16-bit unsigned word
- platform: modbus_controller
modbus_controller_id: valve_controller
name: "VDD"
id: valve_vdd
register_type: read # 'read' is the valid type for input registers
address: 0x00FC # The address of the register to read
value_type: U_WORD # Read the full 16-bit unsigned word
entity_category: diagnostic # Mark as diagnostic
unit_of_measurement: "V"
accuracy_decimals: 2 # Show two decimal places
# Apply filters to convert the raw value to volts and update periodically
filters:
- lambda: |-
// Convert the raw VDD value to volts
return x / 1000.0; // Assuming the value is in millivolts
- heartbeat: 60s # Update every 60 seconds
- delta: 200 # Only update if the value changes by more than 200 mV
# ===================================================================
# TEXT SENSORS FOR HUMAN-READABLE STATUS
# ===================================================================
text_sensor:
# 1. This text sensor extracts the HIGH BYTE for the operation status.
- platform: template
name: "Valve Operation"
id: valve_operation_status
icon: "mdi:state-machine"
lambda: |-
// Extract the high byte from the raw status sensor
// using a bitwise right shift.
int operation_code = (int)id(valve_raw_status).state >> 8;
switch (operation_code) {
case 0: return {"Idle"};
case 1: return {"Opening"};
case 2: return {"Closing"};
case 3: return {"Obstacle Detected"};
case 4: return {"End Position Not Reached"};
default: return {"Unknown Operation"};
}
# 2. This text sensor extracts the LOW BYTE for the current valve state.
- platform: template
name: "Valve Position"
id: valve_position_status
icon: "mdi:valve"
lambda: |-
// Extract the low byte from the raw status sensor
// using a bitwise AND mask.
int state_code = (int)id(valve_raw_status).state & 0xFF;
switch (state_code) {
case 0: return {"Closed"};
case 1: return {"Open"};
default: return {"Unknown"};
}
# ===================================================================
# THE MAIN VALVE COMPONENT
# ===================================================================
valve:
- platform: template
name: "Modbus Controlled Valve"
id: modbus_valve
optimistic: false
# The lambda determines the current state (open or closed) of the valve.
lambda: |-
int state_code = (int)id(valve_raw_status).state & 0xFF;
if (state_code == 1) {
return true; // Open
} else if (state_code == 0) {
return false; // Closed
} else {
return {}; // Unknown
}
# Action to execute when the "OPEN" button is pressed.
open_action:
- lambda: |-
// Use the send() command inherited from ModbusDevice
// Function 0x06: Write Single Register
// Payload for value 1 is {0x00, 0x01}
const uint8_t data[] = {0x00, 0x01};
id(valve_controller).send(0x06, 0x0000, 1, 2, data);
# Action to execute when the "CLOSE" button is pressed.
close_action:
- lambda: |-
// Payload for value 2 is {0x00, 0x02}
const uint8_t data[] = {0x00, 0x02};
id(valve_controller).send(0x06, 0x0000, 1, 2, data);
# Action to execute when the "STOP" button is pressed.
stop_action:
- lambda: |-
// Payload for value 3 is {0x00, 0x03}
const uint8_t data[] = {0x00, 0x03};
id(valve_controller).send(0x06, 0x0000, 1, 2, data);

2
software/esphome/requirements.txt
View File

@ -1,2 +0,0 @@
ruamel.yaml
esphome

4
software/esphome/secrets.yaml.example
View File

@ -1,4 +0,0 @@
wifi_ssid: 'PUT YOUR WIFI SSID HERE'
wifi_password: 'PUT YOUR WIFI PASSWORD HERE'
api_key: 'PUT YOUR KEY HERE OR USE create_secrets.py'
ota_password: 'PUT YOUR KEY HERE OR USE create_secrets.py'

41
software/include/lib/can_ids.h
View File

@ -1,41 +0,0 @@
#ifndef CAN_IDS_H
#define CAN_IDS_H
/*
CAN ID structure for the irrigation system.
PPP FFFF NNNN
PPP: Priority
000: Network segment
001: Critical error
010: Commands
100: Status messages
110: measurements
111: Info messages
FFFF: Function
0001: Valve Commands
0010: Valve States
0011: IO Commands
0100: IO States
0101: Measurements
0111: Sysem Functions (e.g. reset, firmware update)
NNNN: Node ID
*/
#define CAN_ID_PRIORITY_NETWORK 0x000
#define CAN_ID_PRIORITY_CRITICAL_ERROR 0x100
#define CAN_ID_PRIORITY_COMMANDS 0x200
#define CAN_ID_PRIORITY_STATUS 0x400
#define CAN_ID_PRIORITY_MEASUREMENTS 0x600
#define CAN_ID_PRIORITY_INFO 0x700
#define CAN_ID_FUNCTION_VALVE_COMMANDS 0x010
#define CAN_ID_FUNCTION_VALVE_STATES 0x020
#define CAN_ID_FUNCTION_IO_COMMANDS 0x030
#define CAN_ID_FUNCTION_IO_STATES 0x040
#define CAN_ID_FUNCTION_MEASUREMENTS 0x050
#define CAN_ID_FUNCTION_SYSTEM_FUNCTIONS 0x070
#endif // CAN_IDS_H

47
software/include/lib/fwu.h
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@ -1,47 +0,0 @@
#ifndef FWU_H
#define FWU_H
#include <stdint.h>
/**
* @file fwu.h
* @brief API for the Firmware Update (FWU) library.
*
* This library provides the core logic for handling the over-the-air firmware
* update process via Modbus. It manages the data buffer, processes commands,
* and calculates CRC checksums for data verification.
*/
/**
* @brief Initializes the firmware update module.
*
* This function currently does nothing but is a placeholder for future
* initialization logic.
*/
void fwu_init(void);
/**
* @brief Handles incoming Modbus register writes related to firmware updates.
*
* This function is the main entry point for the FWU process. It parses the
* address and value from a Modbus write operation and takes appropriate action,
* such as storing metadata (offset, size) or data chunks, and processing
* commands (verify, finalize).
*
* @param addr The Modbus register address being written to.
* @param reg The 16-bit value being written to the register.
*/
void fwu_handler(uint16_t addr, uint16_t reg);
/**
* @brief Gets the CRC16-CCITT of the last received firmware chunk.
*
* After a data chunk is fully received into the buffer, this function can be
* called to retrieve the calculated CRC checksum. The master can then compare
* this with its own calculated CRC to verify data integrity.
*
* @return The 16-bit CRC of the last chunk.
*/
uint16_t fwu_get_last_chunk_crc(void);
#endif // FWU_H

0
software/include/lib/hw_shared.h
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185
software/include/lib/modbus_server.h
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@ -1,185 +0,0 @@
#ifndef MODBUS_SERVER_H
#define MODBUS_SERVER_H
#include <stdint.h>
/**
* @file modbus_server.h
* @brief API for the Modbus server implementation.
*
* This file defines the Modbus register map and provides functions to
* initialize and manage the Modbus server.
*/
/**
* @brief Modbus Input Register Addresses (Read-Only).
* @see docs/modbus-registers.de.md
*/
enum {
/**
* @brief Combined status register for the valve.
* High-Byte: Movement (0=Idle, 1=Opening, 2=Closing, 3=Error).
* Low-Byte: State (0=Closed, 1=Open).
*/
REG_INPUT_VALVE_STATE_MOVEMENT = 0x0000,
/**
* @brief Motor current during opening in milliamperes (mA).
*/
REG_INPUT_MOTOR_OPEN_CURRENT_MA = 0x0001,
/**
* @brief Motor current during closing in milliamperes (mA).
*/
REG_INPUT_MOTOR_CLOSE_CURRENT_MA = 0x0002,
/**
* @brief Bitmask of digital inputs. Bit 0: Input 1, Bit 1: Input 2.
* 1=Active.
*/
REG_INPUT_DIGITAL_INPUTS_STATE = 0x0020,
/**
* @brief Event flags for buttons (Clear-on-Read). Bit 0: Button 1 pressed.
* Bit 1: Button 2 pressed.
*/
REG_INPUT_BUTTON_EVENTS = 0x0021,
/**
* @brief Firmware version, e.g., 0x0102 for v1.2.
*/
REG_INPUT_FIRMWARE_VERSION_MAJOR_MINOR = 0x00F0,
/**
* @brief Firmware version patch level, e.g., 3 for v1.2.3.
*/
REG_INPUT_FIRMWARE_VERSION_PATCH = 0x00F1,
/**
* @brief Device status (0=OK, 1=General Error).
*/
REG_INPUT_DEVICE_STATUS = 0x00F2,
/**
* @brief Lower 16 bits of uptime in seconds.
*/
REG_INPUT_UPTIME_SECONDS_LOW = 0x00F3,
/**
* @brief Upper 16 bits of uptime in seconds.
*/
REG_INPUT_UPTIME_SECONDS_HIGH = 0x00F4,
/**
* @brief Current supply voltage in millivolts (mV).
*/
REG_INPUT_SUPPLY_VOLTAGE_MV = 0x00F5,
/**
* @brief CRC16 of the last received data chunk in the buffer for firmware
* update.
*/
REG_INPUT_FWU_LAST_CHUNK_CRC = 0x0100
};
/**
* @brief Modbus Holding Register Addresses (Read/Write).
* @see docs/modbus-registers.de.md
*/
enum {
/**
* @brief Valve control command (1=Open, 2=Close, 0=Stop movement).
*/
REG_HOLDING_VALVE_COMMAND = 0x0000,
/**
* @brief Safety timeout in seconds for the opening process.
*/
REG_HOLDING_MAX_OPENING_TIME_S = 0x0001,
/**
* @brief Safety timeout in seconds for the closing process.
*/
REG_HOLDING_MAX_CLOSING_TIME_S = 0x0002,
/**
* @brief Minimum current threshold in mA for end-position detection.
*/
REG_HOLDING_END_CURRENT_THRESHOLD_OPEN_MA = 0x0003,
/**
* @brief Minimum current threshold in mA for end-position detection during
* closing.
*/
REG_HOLDING_END_CURRENT_THRESHOLD_CLOSE_MA = 0x0004,
/**
* @brief Current threshold in mA for obstacle detection during opening.
*/
REG_HOLDING_OBSTACLE_THRESHOLD_OPEN_MA = 0x0005,
/**
* @brief Current threshold in mA for obstacle detection during closing.
*/
REG_HOLDING_OBSTACLE_THRESHOLD_CLOSE_MA = 0x0006,
/**
* @brief Bitmask for reading and writing digital outputs. Bit 0: Output 1,
* Bit 1: Output 2. 1=ON, 0=OFF.
*/
REG_HOLDING_DIGITAL_OUTPUTS_STATE = 0x0010,
/**
* @brief Fail-safe watchdog timeout in seconds. 0=Disabled.
*/
REG_HOLDING_WATCHDOG_TIMEOUT_S = 0x00F0,
/**
* @brief Writing 1 restarts the device.
*/
REG_HOLDING_DEVICE_RESET = 0x00F1,
/**
* @brief Command for firmware update.
* 1: Verify Chunk - Slave writes the last chunk to flash.
* 2: Finalize Update - Complete installation and restart.
*/
REG_HOLDING_FWU_COMMAND = 0x0100,
/**
* @brief Lower 16 bits of the 32-bit offset for the next firmware update
* chunk.
*/
REG_HOLDING_FWU_CHUNK_OFFSET_LOW = 0x0101,
/**
* @brief Upper 16 bits of the 32-bit offset for the next firmware update
* chunk.
*/
REG_HOLDING_FWU_CHUNK_OFFSET_HIGH = 0x0102,
/**
* @brief Size of the next firmware update chunk in bytes (max. 256).
*/
REG_HOLDING_FWU_CHUNK_SIZE = 0x0103,
/**
* @brief Start address of the 256-byte buffer for firmware update data.
*/
REG_HOLDING_FWU_DATA_BUFFER = 0x0180,
};
/**
* @brief Initializes the Modbus server.
*
* This function sets up the Modbus RTU server interface, loads saved settings
* (baudrate, unit ID), and starts listening for requests.
*
* @return 0 on success, or a negative error code on failure.
*/
int modbus_server_init(void);
/**
* @brief Reconfigures the Modbus server at runtime.
*
* Updates the baudrate and unit ID of the server. If the reconfiguration
* fails, the settings are saved and will be applied after a device reset.
*
* @param baudrate The new baudrate to set.
* @param unit_id The new Modbus unit ID (slave address).
* @return 0 on success, or a negative error code if immediate reconfiguration
* fails. Returns 0 even on failure if settings could be saved for the next
* boot.
*/
int modbus_reconfigure(uint32_t baudrate, uint8_t unit_id);
/**
* @brief Gets the current baudrate of the Modbus server.
*
* @return The current baudrate.
*/
uint32_t modbus_get_baudrate(void);
/**
* @brief Gets the current unit ID of the Modbus server.
*
* @return The current unit ID.
*/
uint8_t modbus_get_unit_id(void);
#endif // MODBUS_SERVER_H

214
software/include/lib/valve.h
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@ -1,214 +0,0 @@
#ifndef VALVE_H
#define VALVE_H
#include <zephyr/drivers/gpio.h>
#include <stdint.h>
/**
* @file valve.h
* @brief API for controlling the motorized valve.
*
* This library provides functions to initialize, open, close, and stop the
* valve. It also allows getting the valve's state and movement status, and
* configuring the maximum opening and closing times.
*/
#define VALVE_CHANNEL_OPEN 0
#define VALVE_CHANNEL_CLOSE 1
#define VALVE_CURRENT_CHECK_INTERVAL K_MSEC(CONFIG_VALVE_INTERVALL_CURRENT_CHECK_MS)
#define VALVE_INITIAL_CURRENT_CHECK_INTERVAL K_MSEC(CONFIG_VALVE_INITIAL_INTERVALL_CURRENT_CHECK_MS)
/**
* @brief Represents the static state of the valve (open or closed).
*/
enum valve_state {
VALVE_STATE_CLOSED, /**< The valve is fully closed. */
VALVE_STATE_OPEN, /**< The valve is fully open. */
};
/**
* @brief Represents the dynamic movement status of the valve.
*/
enum valve_movement {
VALVE_MOVEMENT_IDLE, /**< The valve is not moving. */
VALVE_MOVEMENT_OPENING, /**< The valve is currently opening. */
VALVE_MOVEMENT_CLOSING, /**< The valve is currently closing. */
VALVE_MOVEMENT_ERROR /**< An error occurred during movement. */
};
/**
* @brief Initializes the valve control system.
*
* Configures the GPIOs and loads saved settings for timeouts.
* This function must be called before any other valve functions.
*
* @return 0 on success, or a negative error code on failure.
*/
int valve_init(void);
/**
* @brief Starts opening the valve.
*
* The valve will open for the configured maximum opening time.
*/
void valve_open(void);
/**
* @brief Starts closing the valve.
*
* The valve will close for the configured maximum closing time.
*/
void valve_close(void);
/**
* @brief Stops any ongoing valve movement immediately.
*/
void valve_stop(void);
/**
* @brief Gets the current static state of the valve.
*
* @return The current valve state (VALVE_STATE_CLOSED or VALVE_STATE_OPEN).
*/
enum valve_state valve_get_state(void);
/**
* @brief Gets the current movement status of the valve.
*
* @return The current movement status.
*/
enum valve_movement valve_get_movement(void);
/**
* @brief Sets the maximum time for the valve to open.
*
* @param seconds The timeout in seconds.
*/
void valve_set_max_open_time(uint16_t seconds);
/**
* @brief Sets the maximum time for the valve to close.
*
* @param seconds The timeout in seconds.
*/
void valve_set_max_close_time(uint16_t seconds);
/**
* @brief Sets the current threshold for end-position detection during opening.
*
* @param current_ma The current threshold in milliamps.
*/
void valve_set_end_current_threshold_open(uint16_t current_ma);
/**
* @brief Sets the current threshold for end-position detection during closing.
*
* @param current_ma The current threshold in milliamps.
*/
void valve_set_end_current_threshold_close(uint16_t current_ma);
/**
* @brief Gets the current threshold for end-position detection during opening.
*
* @return The current threshold in milliamps.
*/
uint16_t valve_get_end_current_threshold_open(void);
/**
* @brief Gets the current threshold for end-position detection during closing.
*
* @return The current threshold in milliamps.
*/
uint16_t valve_get_end_current_threshold_close(void);
/**
* @brief Gets the configured maximum opening time.
*
* @return The timeout in seconds.
*/
uint16_t valve_get_max_open_time(void);
/**
* @brief Gets the configured maximum closing time.
*
* @return The timeout in seconds.
*/
uint16_t valve_get_max_close_time(void);
/**
* @brief Gets the current drawn by the valve motor during opening.
*
* @return The motor current in milliamps.
*/
int32_t valve_get_opening_current(void);
/**
* @brief Gets the current drawn by the valve motor during closing.
*
* @return The motor current in milliamps.
*/
int32_t valve_get_closing_current(void);
/**
* @brief Gets the temperature of the valve motor driver.
*
* @return The temperature in degrees Celsius.
*/
int32_t valve_get_vnd_temp(void);
/**
* @brief Gets the voltage supplied to the valve motor driver.
*
* @return The voltage in millivolts.
*/
int32_t valve_get_vnd_voltage(void);
/**
* @brief Sets the current threshold for obstacle detection during opening.
*
* @param current_ma The current threshold in milliamps.
*/
void valve_set_obstacle_threshold_open(uint16_t current_ma);
/**
* @brief Sets the current threshold for obstacle detection during closing.
*
* @param current_ma The current threshold in milliamps.
*/
void valve_set_obstacle_threshold_close(uint16_t current_ma);
/**
* @brief Gets the current threshold for obstacle detection during opening.
*
* @return The current threshold in milliamps.
*/
uint16_t valve_get_obstacle_threshold_open(void);
/**
* @brief Gets the current threshold for obstacle detection during closing.
*
* @return The current threshold in milliamps.
*/
uint16_t valve_get_obstacle_threshold_close(void);
/**
* @brief Callback function called during valve opening with current readings.
*
* This is a weak function that can be overridden to provide custom handling
* of current readings during valve opening operations.
*
* @param current_ma The current reading in milliamps.
*/
void valve_current_open_callback(int current_ma);
/**
* @brief Callback function called during valve closing with current readings.
*
* This is a weak function that can be overridden to provide custom handling
* of current readings during valve closing operations.
*
* @param current_ma The current reading in milliamps.
*/
void valve_current_close_callback(int current_ma);
#endif // VALVE_H

74
software/include/lib/vnd7050aj.h
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@ -1,74 +0,0 @@
/*
* Copyright (c) 2025, Eduard Iten
* SPDX-License-Identifier: Apache-2.0
*/
#ifndef ZEPHYR_INCLUDE_DRIVERS_MISC_VND7050AJ_H_
#define ZEPHYR_INCLUDE_DRIVERS_MISC_VND7050AJ_H_
#include <zephyr/device.h>
#include <zephyr/kernel.h>
#ifdef __cplusplus
extern "C" {
#endif
/**
* @brief Channel identifiers for the VND7050AJ.
*/
#define VND7050AJ_CHANNEL_0 0
#define VND7050AJ_CHANNEL_1 1
/**
* @brief Sets the state of a specific output channel.
*
* @param dev Pointer to the device structure for the driver instance.
* @param channel The channel to control (VND7050AJ_CHANNEL_0 or VND7050AJ_CHANNEL_1).
* @param state The desired state (true for ON, false for OFF).
* @return 0 on success, negative error code on failure.
*/
int vnd7050aj_set_output_state(const struct device *dev, uint8_t channel, bool state);
/**
* @brief Reads the load current for a specific channel.
*
* @param dev Pointer to the device structure for the driver instance.
* @param channel The channel to measure (VND7050AJ_CHANNEL_0 or VND7050AJ_CHANNEL_1).
* @param[out] current_ma Pointer to store the measured current in milliamperes (mA).
* @return 0 on success, negative error code on failure.
*/
int vnd7050aj_read_load_current(const struct device *dev, uint8_t channel, int32_t *current_ma);
/**
* @brief Reads the VCC supply voltage.
*
* @param dev Pointer to the device structure for the driver instance.
* @param[out] voltage_mv Pointer to store the measured voltage in millivolts (mV).
* @return 0 on success, negative error code on failure.
*/
int vnd7050aj_read_supply_voltage(const struct device *dev, int32_t *voltage_mv);
/**
* @brief Reads the internal chip temperature.
*
* @param dev Pointer to the device structure for the driver instance.
* @param[out] temp_c Pointer to store the measured temperature in degrees Celsius (°C).
* @return 0 on success, negative error code on failure.
*/
int vnd7050aj_read_chip_temp(const struct device *dev, int32_t *temp_c);
/**
* @brief Resets a latched fault condition.
*
* This function sends a low pulse to the FaultRST pin.
*
* @param dev Pointer to the device structure for the driver instance.
* @return 0 on success, negative error code on failure.
*/
int vnd7050aj_reset_fault(const struct device *dev);
#ifdef __cplusplus
}
#endif
#endif /* ZEPHYR_INCLUDE_DRIVERS_MISC_VND7050AJ_H_ */

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