from datetime import datetime import sqlite3 from os import path import time from env import * # Function to create the database and tables if they don't exist def create_database(db_name): conn = sqlite3.connect(db_name) c = conn.cursor() # Create SensorData table c.execute('''CREATE TABLE IF NOT EXISTS Sensors (Mac TEXT PRIMARY KEY, Name TEXT)''') for mac, name in SENSORS.items(): # Use INSERT OR IGNORE to prevent duplicates based on primary key c.execute("INSERT OR IGNORE INTO Sensors (Mac, Name) VALUES (?, ?)", (mac, name)) # Create SensorData table c.execute('''CREATE TABLE IF NOT EXISTS SensorData (Id INTEGER PRIMARY KEY AUTOINCREMENT, Sensor TEXT, Timestamp TEXT, Temp INT, HR INTEGER, Bat INT, FOREIGN KEY (Sensor) REFERENCES Sensors(Name))''') c.execute('''CREATE TABLE IF NOT EXISTS settings ( id INTEGER PRIMARY KEY, smtp_id TEXT, smtp_pwd TEXT, smtp_server TEXT, smtp_port INTEGER, recipient_email TEXT);''') c.execute("INSERT OR IGNORE INTO settings (smtp_id, smtp_pwd, smtp_server, smtp_port, recipient_email) VALUES (?, ?, ?, ?, ?)", (SMTP_ID, SMTP_PWD, SMTP, SMTP_PORT, RECIPIENT)) conn.commit() conn.close() # Check if the database file exists def check_database(db_name): if not path.exists(db_name): print(f"[{datetime.now()}] Database '{db_name}' not found. Creating...") create_database(db_name) print(f"[{datetime.now()}] Database and tables created successfully.") else: print(f"[{datetime.now()}] Database '{db_name}' found.") # Function to add data to SensorData table def add_sensor_data(db_name, sensor, timestamp, temp, hr, bat): conn = sqlite3.connect(db_name) c = conn.cursor() c.execute('''INSERT INTO SensorData (Sensor, Timestamp, Temp, HR, Bat) VALUES (?, ?, ?, ?, ?)''', (sensor, timestamp, temp, hr, bat)) conn.commit() conn.close() # Function to fetch data from the database def fetch_all_data(): conn = sqlite3.connect(DBFILE) c = conn.cursor() c.execute("SELECT * FROM SensorData ") data = c.fetchall() conn.close() data.reverse() return data # Function to fetch data from the database def fetch_data_by_sensor(sensor): conn = sqlite3.connect(DBFILE) c = conn.cursor() c.execute("SELECT * FROM SensorData WHERE Sensor LIKE ? ", ('%' + sensor + '%',)) data = c.fetchall() conn.close() data.reverse() return data # Function to fetch data from the database def fetch_all_sensor(): conn = sqlite3.connect(DBFILE) c = conn.cursor() c.execute("SELECT * FROM Sensors ") data = c.fetchall() conn.close() data.reverse() return data def update_sensor_settings(new_name, old_name): # Update sensor name in the database conn = sqlite3.connect(DBFILE) c = conn.cursor() c.execute("UPDATE Sensors SET Name = ? WHERE mac = ?", (new_name, old_name)) conn.commit() conn.close() # Function to fetch email settings from the database def fetch_email_settings(): conn = sqlite3.connect(DBFILE) c = conn.cursor() c.execute("SELECT smtp_id, smtp_pwd, smtp_server, smtp_port, recipient_email FROM settings") settings = c.fetchone() conn.close() return settings # Function to update email settings in the database def update_email_settings(smtp_id, smtp_pwd, smtp_server, smtp_port, recipient_email): conn = sqlite3.connect(DBFILE) c = conn.cursor() c.execute("UPDATE settings SET smtp_id = ?, smtp_pwd = ?, smtp_server = ?, smtp_port = ?, recipient_email = ? ", (smtp_id, smtp_pwd, smtp_server, smtp_port, recipient_email)) conn.commit() print(f"[{datetime.now()}] Mail settings updated :") print_email_settings() conn.close() def print_email_settings(): # Connect to the database conn = sqlite3.connect(DBFILE) c = conn.cursor() # Fetch email settings c.execute("SELECT * FROM settings") settings = c.fetchone() # Print settings if settings: print("Email Settings:") print(f"Sender Email: {settings[1]}") print(f"SMTP pwd:{settings[2]}") print(f"SMTP Server: {settings[3]}") print(f"SMTP Port: {settings[4]}") print(f"Recipient Email: {settings[5]}") else: print("No email settings found in the database.") # Close the connection conn.close()