Improved instructions to build the image

Dockerfile

@@ -0,0 +1,8 @@
+FROM python:3.13-slim
+RUN useradd --create-home --shell /bin/bash solarcontrol
+WORKDIR /script
+COPY solarcontrol.py ./
+RUN pip install --upgrade pip
+USER solarcontrol
+RUN pip install --user --no-cache-dir paho-mqtt python-dotenv requests
+CMD ["python", "solarcontrol.py"]

README.md

@@ -1,3 +1,39 @@
 # SolarControl
 
 Enforce a zero export (or whatever consumption you like) policy with an OpenDTU-controlled inverter and energy data from MQTT
+
+
+## Configuring and usage
+
+
+### Docker
+
+Todo
+
+
+### Bare-bone
+
+The script can be configured using the .env file where you can adjust it (hopefully perfect) to your needs. After that, just run the script:
+
+```bash
+python3 lge320reader.py
+```
+
+Please note: the .env file needs to be in the same folder or any other folder higher up in the directory structure as the script (more specifically, the WORKDIR). It is just a help, actually, the script searches for specific variables in its environment variables. It only loads the .env file so that you do not need to `export` all the files before running (see https://pypi.org/project/python-dotenv/ for more details). This also means that when using it in docker, you can set the docker containers environment file to that .env file and it will be accepted too.
+
+
+## Building docker
+
+To build the image for docker, simply use the following commands:
+
+```bash
+docker login  # login to docker hub
+docker buildx create --name buildx-multi-arch
+docker buildx use buildx-multi-arch
+docker buildx build --no-cache --platform linux/amd64,linux/386,linux/arm/v5,linux/arm/v7,linux/arm64/v8,linux/ppc64le,linux/s390x -t bluefox42/solarcontrol:<VERSION> -t bluefox42/solarcontrol:latest . --push
+```
+
+
+## License
+
+This project is licensed under the terms of the GNU General Public License v3.0 or later, see [COPYING](COPYING).

docker-compose.yaml

@@ -0,0 +1,8 @@
+services:
+  solarcontrol:
+    image: bluefox42/solarcontrol:latest
+    hostname: solarcontrol
+    container_name: solarcontrol
+    env_file: ".env"
+    restart: unless-stopped
+    stop_grace_period: 15s

solarcontrol.py

@@ -1,5 +1,6 @@
 #!/usr/bin/python3
 
+
 import paho.mqtt.client as mqtt
 import os
 from dotenv import load_dotenv
@@ -7,8 +8,23 @@ from time import time, sleep
 import json
 from threading import Thread
 import requests
+import urllib3  # only for exception handling
 import math
 
+
+# let's get colorful!
+class bcolors:
+    HEADER = '\033[95m'
+    OKBLUE = '\033[94m'
+    OKCYAN = '\033[96m'
+    OKGREEN = '\033[92m'
+    WARNING = '\033[93m'
+    FAIL = '\033[91m'
+    ENDC = '\033[0m'
+    BOLD = '\033[1m'
+    UNDERLINE = '\033[4m'
+
+
 # get env vars
 load_dotenv()
 mq_broker = os.getenv('MQBROKER', None)
@@ -45,11 +61,11 @@ powers = {"total": None, "total_house": None, "total_solar": None, "timestamp":
 
 # define mqtt callbacks
 def on_connect(client, userdata, flags, reason_code, properties):
-    print(f"Connected with result code {reason_code}")
+    print(f"{bcolors.OKGREEN}Connected with result code {bcolors.ENDC}{reason_code}")
     client.subscribe("lge320/#")
     client.subscribe("solar/ac/#")
 def on_message(client, userdata, msg):
-    #print(f"{msg.topic}: {msg.payload}")
+    #print(f"{msg.topic}: {msg.payload}")  # just for debug / development reasons
     if msg.topic == mq_topic_p_house:
         powers_raw["house_ts"] = time()
         powers_raw["house"] = math.floor(((powers_raw["house"] + float(json.loads(msg.payload)["total_act_power"])) / 2)*10)/10
@@ -73,7 +89,7 @@ def threaded_current_power_calculation():
         while last_powers == powers_raw:
             sleep(0.2)
         if abs(powers_raw["solar_ts"] - powers_raw["house_ts"]) < maximum_data_ts_deviation and powers_raw["solar"] != None and powers_raw["house"] != None:
-            print(f"Current total P: {powers_raw['solar'] + powers_raw['house']} | Solar P: {powers_raw['solar']} | House P: {powers_raw['house']}")
+            print(f"{bcolors.OKCYAN}Current total P: {bcolors.BOLD}{(powers_raw['solar'] + powers_raw['house']):.2f}{bcolors.ENDC} | {bcolors.WARNING}Solar P: {bcolors.BOLD}{powers_raw['solar']:.2f}{bcolors.ENDC} | {bcolors.OKBLUE}House P: {bcolors.BOLD}{powers_raw['house']:.2f}{bcolors.ENDC}")
             powers["total"] = powers_raw["solar"] + powers_raw["house"]
             powers["total_house"] = powers_raw["house"]
             powers["total_solar"] = powers_raw["solar"]
@@ -87,12 +103,17 @@ def threaded_solar_power_limit_setting():
     last_time = time()
     while True:
         # Get current openDTU current limit status
-        status = requests.get(opendtu_address.strip("/") + "/api/limit/status", auth=(opendtu_user, opendtu_pwd)).json().copy()
+        try:
+            status = requests.get(opendtu_address.strip("/") + "/api/limit/status", auth=(opendtu_user, opendtu_pwd)).json().copy()
+        except (requests.exceptions.RequestException, urllib3.exceptions.HTTPError) as e:
+            print(f"{bcolors.ERROR}Some error occured while trying to reach out to OpenDTU to get latest data about the inverter limit status. Skipping for now.{bcolors.ENDC}\n==== START OF EXCEPTION ====\n{e}\n==== END OF EXCEPTION ====")
+            sleep(0.2)  # wait some time (to avaid cpu overload on continuous unavailability of the service)
+            continue  # skip this loop pass
 
         while(time() - powers["timestamp"] > 1): # wait until recent data is available
             sleep(0.2)
 
-        if status[opendtu_inverter_sn]["limit_set_status"] == "Ok" and powers["total"] != None:
+        if status[opendtu_inverter_sn]["limit_set_status"] == "Ok" and powers["total"] != None and status[opendtu_inverter_sn]["max_power"] != 0:
             # calculate percentage to set the limit to
             new_ideal_limit = math.floor(((powers["total"]-power_target) / status[opendtu_inverter_sn]["max_power"]) * limit_correction_factor * 1000)/10  # * 100 because its a percentage
             if new_ideal_limit > power_target_max: new_ideal_limit = power_target_max
@@ -112,17 +133,29 @@ def threaded_solar_power_limit_setting():
                 if new_dampened_limit > power_target_max: new_dampened_limit = power_target_max
                 if new_dampened_limit < power_target_min: new_dampened_limit = power_target_min
                 if not dry_run:
+                    request_failed = False
                     data_to_send = 'data={"serial":"'+opendtu_inverter_sn+'","limit_type":'+str(power_limit_type)+',"limit_value":'+str(new_dampened_limit)+'}'
-                    r = requests.post(opendtu_address.strip("/") + "/api/limit/config", data=data_to_send, headers={'Content-Type':'text/plain'}, auth=(opendtu_user, opendtu_pwd))
-                    print("Setting new limit over the API: " + str(new_dampened_limit) + f"% (previously: {cur_limit}% | currently targeting: {new_ideal_limit}%)... ", end="")
-                    #print(f"Current limit: {cur_limit}, new ideal limit: {new_ideal_limit}, new dampened limit: {new_dampened_limit}")
-                    if json.loads(r.text)["type"] == "success":
-                       print("Success!")
+                    print(f"Setting new limit via the API: {bcolors.OKBLUE}{bcolors.BOLD}{str(new_dampened_limit)}%{bcolors.ENDC} ({bcolors.OKGREEN}previously: {bcolors.BOLD}{cur_limit}%{bcolors.ENDC} | {bcolors.WARNING}currently targeting: {bcolors.BOLD}{new_ideal_limit}%{bcolors.ENDC})... ", end="")
+                    try:
+                        r = requests.post(opendtu_address.strip("/") + "/api/limit/config", data=data_to_send, headers={'Content-Type':'text/plain'}, auth=(opendtu_user, opendtu_pwd))
+                    except BaseException as e:
+                        request_failed = True
+
+                    if request_failed:
+                        print(f"{bcolors.FAIL}Unsuccessful :( The http request failed somehow. Printing traceback.{bcolors.ENDC}\n{e}")
                     else:
-                       print(f"Unsuccessful :( Code: {json.loads(r.text)['code']} ({json.loads(r.text)['type']})")
-                       print(r.text)  # keep and uncomment for debug reasons
+                        if "type" in json.loads(r.text).keys() and "code" in json.loads(r.text).keys():
+                            if json.loads(r.text)["type"] == "success":
+                                print(f"{bcolors.OKGREEN}Success!{bcolors.ENDC}")
+                            else:
+                                print(f"{bcolors.FAIL}Unsuccessful :( Code: {bcolors.BOLD}{json.loads(r.text)['code']} ({json.loads(r.text)['type']}){bcolors.ENDC}")
+                                print(r.text)  # keep and uncomment for debug reasons
+                        else:
+                            print(f"{bcolors.FAIL}Failed. Got some weird response from OpenDTU while trying to set the new limit. Maybe the OpenDTU API has changed?{bcolors.ENDC}\nOpenDTUs response: (needs to be in JSON and contain the keys 'code' and 'type')\n{r.text}")
                 else:
-                    print("Now the new limit would be set over the API (but DRY_RUN is either not specified or True): " + str(new_limit) + "%")
+                    print(f"{bcolors.WARNING}Now the new limit would be set via the API (but DRY_RUN is either not specified or True): {str(new_limit)}%")
+        elif status[opendtu_inverter_sn]["max_power"] == 0:
+            print(f"{bcolors.ERROR}OpenDTU is reporting strange values for the inverter's maximum power output. Skipping it for now.{bcolors.ENDC}")
 
 
         while (time() - last_time) < limit_update_interval: