#!/usr/bin/env python # -*- coding: utf-8 -*- """ upload-settings.py - Upload Tasmota settings file Copyright (C) 2021 Theo Arends This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . Requirements: - Python 3.x and Pip: sudo apt-get install python3 python3-pip pip3 install paho-mqtt json Instructions: Edit file and change parameters in User Configuration Section Then execute command upload-settings.py """ import paho.mqtt.client as mqtt import time import base64 import hashlib import json # **** Start of User Configuration Section broker = "domus1" # MQTT broker ip address or name broker_port = 1883 # MQTT broker port mypassword = "" # Tasmota MQTT password mytopic = "demo" # Tasmota MQTT topic myfile = "Config_demo_9.4.0.4.dmp" # Tasmota Settings file name myfiletype = 2 # Tasmota Settings file type # **** End of User Configuration Section use_base64 = True # Derive fulltopic from broker LWT message mypublish = "cmnd/"+mytopic+"/fileupload" mysubscribe = "stat/"+mytopic+"/FILEUPLOAD" # Case sensitive Ack_flag = False Err_flag = False file_id = 116 # Even id between 2 and 254 file_chunk_size = 700 # Default Tasmota MQTT max message size # The callback for when mysubscribe message is received def on_message(client, userdata, msg): global Ack_flag global Err_flag global file_chunk_size rcv_code = "" rcv_id = 0 # print("Received message =",str(msg.payload.decode("utf-8"))) root = json.loads(msg.payload.decode("utf-8")) if "FileUpload" in root: rcv_code = root["FileUpload"] if "Aborted" in rcv_code: print("Error: Aborted") Err_flag = True return if "MD5 mismatch" in rcv_code: print("Error: MD5 mismatch") Err_flag = True return if "Started" in rcv_code: return if "Error" in rcv_code: print("Error: "+rcv_code) Err_flag = True return if "Command" in root: rcv_code = root["Command"] if rcv_code == "Error": print("Error: Command error") Err_flag = True return if "Id" in root: rcv_id = root["Id"] if rcv_id == file_id: if "MaxSize" in root: file_chunk_size = root["MaxSize"] Ack_flag = False def wait_for_ack(): timeout = 100 while Ack_flag and Err_flag == False and timeout > 0: time.sleep(0.01) timeout = timeout -1 if 0 == timeout: print("Error: Timeout") return Ack_flag client = mqtt.Client() client.on_message = on_message client.connect(broker, broker_port) client.loop_start() # Start loop to process received messages client.subscribe(mysubscribe) time_start = time.time() print("Uploading file "+myfile+" to "+mytopic+" ...") fo = open(myfile,"rb") fo.seek(0, 2) # os.SEEK_END file_size = fo.tell() fo.seek(0, 0) # os.SEEK_SET client.publish(mypublish, "{\"Password\":\""+mypassword+"\",\"File\":\""+myfile+"\",\"Id\":"+str("%3d"%file_id)+",\"Type\":"+str(myfiletype)+",\"Size\":"+str(file_size)+"}") Ack_flag = True out_hash_md5 = hashlib.md5() Run_flag = True while Run_flag: if wait_for_ack(): # We use Ack here client.publish(mypublish, "0") # Abort any failed upload Run_flag = False else: chunk = fo.read(file_chunk_size) if chunk: out_hash_md5.update(chunk) # Update hash if use_base64: base64_encoded_data = base64.b64encode(chunk) base64_data = base64_encoded_data.decode('utf-8') # Message length used by Tasmota (FileTransferHeaderSize) client.publish(mypublish, "{\"Id\":"+str("%3d"%file_id)+",\"Data\":\""+base64_data+"\"}") else: client.publish(mypublish+"201", chunk) Ack_flag = True else: md5_hash = out_hash_md5.hexdigest() client.publish(mypublish, "{\"Id\":"+str("%3d"%file_id)+",\"Md5\":\""+md5_hash+"\"}") Run_flag = False fo.close() time_taken = time.time() - time_start print("Done in "+str("%.2f"%time_taken)+" seconds") client.disconnect() # Disconnect client.loop_stop() # Stop loop