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40
GPIO/control.py Normal file
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@@ -0,0 +1,40 @@
'''
____ ____ ___ ___
/ ___| _ \_ _/ _ \
| | _| |_) | | | | |
| |_| | __/| | |_| |
\____|_| |___\___/
script to control GPIO output
GPIO 16 -> SARA 5V
GPIO 20 -> SARA PWR ON
option 1:
CLI tool like pinctrl
pinctrl set 16 op
pinctrl set 16 dh
pinctrl set 16 dl
option 2:
python library RPI.GPIO
/usr/bin/python3 /var/www/nebuleair_pro_4g/GPIO/control.py
'''
import RPi.GPIO as GPIO
import time
selected_GPIO = 16
GPIO.setmode(GPIO.BCM) # Use BCM numbering
GPIO.setup(selected_GPIO, GPIO.OUT) # Set GPIO17 as an output
while True:
GPIO.output(selected_GPIO, GPIO.HIGH) # Turn ON
time.sleep(1) # Wait 1 sec
GPIO.output(selected_GPIO, GPIO.LOW) # Turn OFF
time.sleep(1) # Wait 1 sec

225
MPPT/read.py Normal file
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@@ -0,0 +1,225 @@
'''
__ __ ____ ____ _____
| \/ | _ \| _ \_ _|
| |\/| | |_) | |_) || |
| | | | __/| __/ | |
|_| |_|_| |_| |_|
Chargeur solaire Victron MPPT interface UART
MPPT connections
5V / Rx / TX / GND
RPI connection
-- / GPIO9 / GPIO8 / GND
* pas besoin de connecter le 5V (le GND uniquement)
typical response from uart:
PID 0xA075 ->product ID
FW 164 ->firmware version
SER# HQ2249VJV9W ->serial num
V 13310 ->Battery voilatage in mV
I -130 ->Battery current in mA (negative means its discharging)
VPV 10 ->Solar Panel voltage
PPV 0 ->Solar Panel power (in W)
CS 0 ->Charger status:
0=off (no charging),
2=Bulk (Max current is being delivered to the battery),
3=Absorbtion (battery is nearly full,voltage is held constant.),
4=Float (Battery is fully charged, only maintaining charge)
MPPT 0 ->MPPT (Maximum Power Point Tracking) state: 0 = Off, 1 = Active, 2 = Not tracking
OR 0x00000001
ERR 0
LOAD ON
IL 100
H19 18 ->historical data (Total energy absorbed in kWh)
H20 0 -> Total energy discharged in kWh
H21 0
H22 9
H23 92
HSDS 19
Checksum u
sudo /usr/bin/python3 /var/www/nebuleair_pro_4g/MPPT/read.py
'''
import serial
import time
import sqlite3
# Connect to the SQLite database
conn = sqlite3.connect("/var/www/nebuleair_pro_4g/sqlite/sensors.db")
cursor = conn.cursor()
def read_vedirect(port='/dev/ttyAMA4', baudrate=19200, timeout=20, max_attempts=3):
"""
Read and parse data from Victron MPPT controller with retry logic
Returns parsed data as a dictionary or None if all attempts fail
"""
required_keys = ['V', 'I', 'VPV', 'PPV', 'CS'] # Essential keys we need
for attempt in range(max_attempts):
try:
print(f"Attempt {attempt+1} of {max_attempts}...")
ser = serial.Serial(port, baudrate, timeout=1)
# Initialize data dictionary and tracking variables
data = {}
start_time = time.time()
while time.time() - start_time < timeout:
line = ser.readline().decode('utf-8', errors='ignore').strip()
if not line:
continue
# Check if line contains a key-value pair
if '\t' in line:
key, value = line.split('\t', 1)
data[key] = value
print(f"{key}: {value}")
else:
print(f"Info: {line}")
# Check if we have a complete data block
if 'Checksum' in data:
# Check if we have all required keys
missing_keys = [key for key in required_keys if key not in data]
if not missing_keys:
ser.close()
return data
else:
print(f"Incomplete data, missing: {', '.join(missing_keys)}")
# Clear data and continue reading
data = {}
# Timeout occurred
print(f"Timeout on attempt {attempt+1}: Could not get complete data")
ser.close()
# Add small delay between attempts
if attempt < max_attempts - 1:
print("Waiting before next attempt...")
time.sleep(2)
except Exception as e:
print(f"Error on attempt {attempt+1}: {e}")
try:
ser.close()
except:
pass
print("All attempts failed")
return None
def parse_values(data):
"""Convert string values to appropriate types"""
if not data:
return None
parsed = {}
# Define conversions for each key
conversions = {
'PID': str,
'FW': int,
'SER#': str,
'V': lambda x: float(x)/1000, # Convert mV to V
'I': lambda x: float(x)/1000, # Convert mA to A
'VPV': lambda x: float(x)/1000 if x != '---' else 0, # Convert mV to V
'PPV': int,
'CS': int,
'MPPT': int,
'OR': str,
'ERR': int,
'LOAD': str,
'IL': int,
'H19': int, # Total energy absorbed in kWh
'H20': int, # Total energy discharged in kWh
'H21': int,
'H22': int,
'H23': int,
'HSDS': int
}
# Convert values according to their type
for key, value in data.items():
if key in conversions:
try:
parsed[key] = conversions[key](value)
except (ValueError, TypeError):
parsed[key] = value # Keep as string if conversion fails
else:
parsed[key] = value
return parsed
def get_charger_status(cs_value):
"""Convert CS numeric value to human-readable status"""
status_map = {
0: "Off",
1: "Low power mode",
2: "Fault",
3: "Bulk",
4: "Absorption",
5: "Float",
6: "Storage",
7: "Equalize",
9: "Inverting",
11: "Power supply",
245: "Starting-up",
247: "Repeated absorption",
252: "External control"
}
return status_map.get(cs_value, f"Unknown ({cs_value})")
if __name__ == "__main__":
# Read data (with retry logic)
raw_data = read_vedirect()
if raw_data:
# Parse data
parsed_data = parse_values(raw_data)
if parsed_data:
# Check if we have valid battery voltage
if parsed_data.get('V', 0) > 0:
print("\n===== MPPT Summary =====")
print(f"Battery: {parsed_data.get('V', 0):.2f}V, {parsed_data.get('I', 0):.2f}A")
print(f"Solar: {parsed_data.get('VPV', 0):.2f}V, {parsed_data.get('PPV', 0)}W")
print(f"Charger status: {get_charger_status(parsed_data.get('CS', 0))}")
# Save to SQLite
cursor.execute("SELECT * FROM timestamp_table LIMIT 1")
row = cursor.fetchone()
rtc_time_str = row[1]
# Extract values
battery_voltage = parsed_data.get('V', 0)
battery_current = parsed_data.get('I', 0)
solar_voltage = parsed_data.get('VPV', 0)
solar_power = parsed_data.get('PPV', 0)
charger_status = parsed_data.get('CS', 0)
try:
cursor.execute('''
INSERT INTO data_MPPT (timestamp, battery_voltage, battery_current, solar_voltage, solar_power, charger_status)
VALUES (?, ?, ?, ?, ?, ?)''',
(rtc_time_str, battery_voltage, battery_current, solar_voltage, solar_power, charger_status))
conn.commit()
print("MPPT data saved successfully!")
except Exception as e:
print(f"Database error: {e}")
else:
print("Invalid data: Battery voltage is zero or missing")
else:
print("Failed to parse data")
else:
print("No valid data received from MPPT controller")
# Always close the connection
conn.close()

4
NPM/get_data_modbus_v3.py
View File

@@ -52,9 +52,7 @@ def load_config(config_file):
return {}
# Load the configuration data
config_file = '/var/www/nebuleair_pro_4g/config.json'
config = load_config(config_file)
npm_solo_port = config.get('NPM_solo_port', '') #port du NPM solo
npm_solo_port = "/dev/ttyAMA5" #port du NPM solo
#GET RTC TIME from SQlite
cursor.execute("SELECT * FROM timestamp_table LIMIT 1")

8
README.md
View File

@@ -28,17 +28,19 @@ Line by line installation.
```
sudo apt update
sudo apt install git gh apache2 php php-sqlite3 python3 python3-pip jq autossh i2c-tools python3-smbus -y
sudo pip3 install pyserial requests RPi.GPIO adafruit-circuitpython-bme280 crcmod psutil ntplib pytz --break-system-packages
sudo apt install git gh apache2 sqlite3 php php-sqlite3 python3 python3-pip jq autossh i2c-tools python3-smbus -y
sudo pip3 install pyserial requests RPi.GPIO adafruit-circuitpython-bme280 crcmod psutil ntplib pytz gpiozero adafruit-circuitpython-ads1x15 numpy --break-system-packages
sudo mkdir -p /var/www/.ssh
sudo ssh-keygen -t rsa -b 4096 -f /var/www/.ssh/id_rsa -N ""
sudo ssh-copy-id -i /var/www/.ssh/id_rsa.pub -p 50221 airlab_server1@aircarto.fr
sudo git clone http://gitea.aircarto.fr/PaulVua/nebuleair_pro_4g.git /var/www/nebuleair_pro_4g
sudo mkdir /var/www/nebuleair_pro_4g/logs
sudo touch /var/www/nebuleair_pro_4g/logs/app.log /var/www/nebuleair_pro_4g/logs/loop.log /var/www/nebuleair_pro_4g/wifi_list.csv
sudo cp /var/www/nebuleair_pro_4g/config.json.dist /var/www/nebuleair_pro_4g/config.json
/usr/bin/python3 /var/www/nebuleair_pro_4g/sqlite/create_db.py
/usr/bin/python3 /var/www/nebuleair_pro_4g/sqlite/set_config.py
sudo chmod -R 777 /var/www/nebuleair_pro_4g/
git config --global core.fileMode false
git -C /var/www/nebuleair_pro_4g config core.fileMode false
git config --global --add safe.directory /var/www/nebuleair_pro_4g
sudo crontab /var/www/nebuleair_pro_4g/cron_jobs
sudo /usr/bin/python3 /var/www/nebuleair_pro_4g/sqlite/create_db.py

104
RTC/set_with_NTP.py
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@@ -1,11 +1,15 @@
#!/usr/bin/python3
"""
Script to set the RTC using an NTP server.
____ _____ ____
| _ \_ _/ ___|
| |_) || || |
| _ < | || |___
|_| \_\|_| \____|
Script to set the RTC using an NTP server (script used by web UI)
RPI needs to be connected to the internet (WIFI).
Requires ntplib and pytz:
sudo pip3 install ntplib pytz --break-system-packages
/usr/bin/python3 /var/www/nebuleair_pro_4g/RTC/set_with_NTP.py
"""
import smbus2
import time
@@ -49,29 +53,95 @@ def set_time(bus, year, month, day, hour, minute, second):
])
def read_time(bus):
"""Read the RTC time."""
"""Read the RTC time and validate the values."""
try:
data = bus.read_i2c_block_data(DS3231_ADDR, REG_TIME, 7)
# Convert from BCD
second = bcd_to_dec(data[0] & 0x7F)
minute = bcd_to_dec(data[1])
hour = bcd_to_dec(data[2] & 0x3F)
day = bcd_to_dec(data[4])
month = bcd_to_dec(data[5])
year = bcd_to_dec(data[6]) + 2000
# Print raw values for debugging
print(f"Raw RTC values: {data}")
print(f"Decoded values: Y:{year} M:{month} D:{day} H:{hour} M:{minute} S:{second}")
# Validate date values
if not (1 <= month <= 12):
print(f"Invalid month value: {month}, using default")
month = 1
# Check days in month (simplified)
days_in_month = [0, 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31]
if not (1 <= day <= days_in_month[month]):
print(f"Invalid day value: {day} for month {month}, using default")
day = 1
# Validate time values
if not (0 <= hour <= 23):
print(f"Invalid hour value: {hour}, using default")
hour = 0
if not (0 <= minute <= 59):
print(f"Invalid minute value: {minute}, using default")
minute = 0
if not (0 <= second <= 59):
print(f"Invalid second value: {second}, using default")
second = 0
return (year, month, day, hour, minute, second)
except Exception as e:
print(f"Error reading RTC: {e}")
# Return a safe default date (2023-01-01 00:00:00)
return (2023, 1, 1, 0, 0, 0)
def get_internet_time():
"""Get the current time from an NTP server."""
ntp_client = ntplib.NTPClient()
response = ntp_client.request('pool.ntp.org')
# Try multiple NTP servers in case one fails
servers = ['pool.ntp.org', 'time.google.com', 'time.windows.com', 'time.apple.com']
for server in servers:
try:
print(f"Trying NTP server: {server}")
response = ntp_client.request(server, timeout=2)
utc_time = datetime.utcfromtimestamp(response.tx_time)
print(f"Successfully got time from {server}")
return utc_time
except Exception as e:
print(f"Failed to get time from {server}: {e}")
# If all servers fail, raise exception
raise Exception("All NTP servers failed")
def main():
try:
bus = smbus2.SMBus(1)
# Test if RTC is accessible
try:
bus.read_byte(DS3231_ADDR)
print("RTC module is accessible")
except Exception as e:
print(f"Error accessing RTC module: {e}")
print("Please check connections and I2C configuration")
return
# Get the current time from the RTC
try:
year, month, day, hours, minutes, seconds = read_time(bus)
# Create datetime object with validation to handle invalid dates
rtc_time = datetime(year, month, day, hours, minutes, seconds)
print(f"Actual RTC Time : {rtc_time.strftime('%Y-%m-%d %H:%M:%S')}")
except ValueError as e:
print(f"Invalid date/time read from RTC: {e}")
print("Will proceed with setting RTC from internet time")
rtc_time = None
# Get current UTC time from an NTP server
try:
@@ -79,19 +149,35 @@ def main():
print(f"Time from Internet (UTC) : {internet_utc_time.strftime('%Y-%m-%d %H:%M:%S')}")
except Exception as e:
print(f"Error retrieving time from the internet: {e}")
if rtc_time is None:
print("Cannot proceed without either valid RTC time or internet time")
return
print("Will keep current RTC time")
return
# Print current RTC time
print(f"Actual RTC Time : {rtc_time.strftime('%Y-%m-%d %H:%M:%S')}")
# Set the RTC to UTC time
print("Setting RTC to internet time...")
set_time(bus, internet_utc_time.year, internet_utc_time.month, internet_utc_time.day,
internet_utc_time.hour, internet_utc_time.minute, internet_utc_time.second)
# Read and print the new time from RTC
print("Reading back new RTC time...")
year, month, day, hour, minute, second = read_time(bus)
rtc_time_new = datetime(year, month, day, hour, minute, second)
print(f"New RTC Time (UTC) : {rtc_time_new.strftime('%Y-%m-%d %H:%M:%S')}")
# Calculate difference to verify accuracy
time_diff = abs((rtc_time_new - internet_utc_time).total_seconds())
print(f"Time difference : {time_diff:.2f} seconds")
if time_diff > 5:
print("Warning: RTC time differs significantly from internet time")
print("You may need to retry or check RTC module")
else:
print("RTC successfully synchronized with internet time")
except Exception as e:
print(f"Unexpected error: {e}")
if __name__ == "__main__":
main()

8
RTC/set_with_browserTime.py
View File

@@ -1,5 +1,11 @@
"""
Script to set the RTC using the browser time.
____ _____ ____
| _ \_ _/ ___|
| |_) || || |
| _ < | || |___
|_| \_\|_| \____|
Script to set the RTC using the browser time (script used by the web UI).
/usr/bin/python3 /var/www/nebuleair_pro_4g/RTC/set_with_browserTime.py '2024-01-30 12:48:39'

166
SARA/R5/setPDP.py Normal file
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@@ -0,0 +1,166 @@
'''
____ _ ____ _
/ ___| / \ | _ \ / \
\___ \ / _ \ | |_) | / _ \
___) / ___ \| _ < / ___ \
|____/_/ \_\_| \_\/_/ \_\
Script to set the PDP context for the SARA R5
/usr/bin/python3 /var/www/nebuleair_pro_4g/SARA/R5/setPDP.py
'''
import serial
import time
import sys
import json
import re
#get data from config
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
#Fonction pour mettre à jour le JSON de configuration
def update_json_key(file_path, key, value):
"""
Updates a specific key in a JSON file with a new value.
:param file_path: Path to the JSON file.
:param key: The key to update in the JSON file.
:param value: The new value to assign to the key.
"""
try:
# Load the existing data
with open(file_path, "r") as file:
data = json.load(file)
# Check if the key exists in the JSON file
if key in data:
data[key] = value # Update the key with the new value
else:
print(f"Key '{key}' not found in the JSON file.")
return
# Write the updated data back to the file
with open(file_path, "w") as file:
json.dump(data, file, indent=2) # Use indent for pretty printing
print(f"💾 updating '{key}' to '{value}'.")
except Exception as e:
print(f"Error updating the JSON file: {e}")
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
baudrate = config.get('SaraR4_baudrate', 115200) #baudrate du sara R4
device_id = config.get('deviceID', '').upper() #device ID en maj
ser_sara = serial.Serial(
port='/dev/ttyAMA2',
baudrate=baudrate, #115200 ou 9600
parity=serial.PARITY_NONE, #PARITY_NONE, PARITY_EVEN or PARITY_ODD
stopbits=serial.STOPBITS_ONE,
bytesize=serial.EIGHTBITS,
timeout = 2
)
def read_complete_response(serial_connection, timeout=2, end_of_response_timeout=2, wait_for_lines=None, debug=True):
'''
Fonction très importante !!!
Reads the complete response from a serial connection and waits for specific lines.
'''
if wait_for_lines is None:
wait_for_lines = [] # Default to an empty list if not provided
response = bytearray()
serial_connection.timeout = timeout
end_time = time.time() + end_of_response_timeout
start_time = time.time()
while True:
elapsed_time = time.time() - start_time # Time since function start
if serial_connection.in_waiting > 0:
data = serial_connection.read(serial_connection.in_waiting)
response.extend(data)
end_time = time.time() + end_of_response_timeout # Reset timeout on new data
# Decode and check for any target line
decoded_response = response.decode('utf-8', errors='replace')
for target_line in wait_for_lines:
if target_line in decoded_response:
if debug:
print(f"[DEBUG] 🔎 Found target line: {target_line} (in {elapsed_time:.2f}s)")
return decoded_response # Return response immediately if a target line is found
elif time.time() > end_time:
if debug:
print(f"[DEBUG] Timeout reached. No more data received.")
break
time.sleep(0.1) # Short sleep to prevent busy waiting
# Final response and debug output
total_elapsed_time = time.time() - start_time
if debug:
print(f"[DEBUG] ⏱️ elapsed time: {total_elapsed_time:.2f}s. ⏱️")
# Check if the elapsed time exceeded 10 seconds
if total_elapsed_time > 10 and debug:
print(f"[ALERT] 🚨 The operation took too long 🚨")
print(f'<span style="color: red;font-weight: bold;">[ALERT] ⚠️{total_elapsed_time:.2f}s⚠</span>')
return response.decode('utf-8', errors='replace') # Return the full response if no target line is found
try:
print('Start script')
# 1. Check connection
print('Check SARA R5 connexion')
command = f'ATI0\r'
ser_sara.write(command.encode('utf-8'))
response_SARA_1 = read_complete_response(ser_sara, wait_for_lines=["OK"])
print(response_SARA_1, end="")
time.sleep(1)
# 2. Activate PDP context 1
print('Activate PDP context 1')
command = f'AT+CGACT=1,1\r'
ser_sara.write(command.encode('utf-8'))
response_SARA_2 = read_complete_response(ser_sara, wait_for_lines=["OK"])
print(response_SARA_2, end="")
time.sleep(1)
# 2. Set the PDP type
print('Set the PDP type to IPv4 referring to the outputof the +CGDCONT read command')
command = f'AT+UPSD=0,0,0\r'
ser_sara.write(command.encode('utf-8'))
response_SARA_3 = read_complete_response(ser_sara, wait_for_lines=["OK"])
print(response_SARA_3, end="")
time.sleep(1)
# 2. Profile #0 is mapped on CID=1.
print('Profile #0 is mapped on CID=1.')
command = f'AT+UPSD=0,100,1\r'
ser_sara.write(command.encode('utf-8'))
response_SARA_3 = read_complete_response(ser_sara, wait_for_lines=["OK"])
print(response_SARA_3, end="")
time.sleep(1)
# 2. Set the PDP type
print('Activate the PSD profile #0: the IPv4 address is already assigned by the network.')
command = f'AT+UPSDA=0,3\r'
ser_sara.write(command.encode('utf-8'))
response_SARA_3 = read_complete_response(ser_sara, wait_for_lines=["OK","+UUPSDA"])
print(response_SARA_3, end="")
time.sleep(1)
except Exception as e:
print("An error occurred:", e)
traceback.print_exc() # This prints the full traceback

19
SARA/SSL/full_test_HTTP.py
View File

@@ -25,23 +25,8 @@ url = parameter[1] # ex: data.mobileair.fr
profile_id = 3
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
send_uSpot = config.get('send_uSpot', False)
baudrate = 115200
send_uSpot = False
def read_complete_response(serial_connection, timeout=2, end_of_response_timeout=2, wait_for_line=None):
response = bytearray()

19
SARA/SSL/full_test_HTTPS.py
View File

@@ -26,23 +26,8 @@ url = parameter[1] # ex: data.mobileair.fr
profile_id = 3
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
send_uSpot = config.get('send_uSpot', False)
baudrate = 115200
send_uSpot = False
def read_complete_response(serial_connection, timeout=2, end_of_response_timeout=2):
response = bytearray()

19
SARA/SSL/full_test_HTTPS_POST.py
View File

@@ -28,23 +28,8 @@ url = parameter[1] # ex: data.mobileair.fr
endpoint = parameter[2]
profile_id = 2
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
send_uSpot = config.get('send_uSpot', False)
baudrate = 115200
send_uSpot = False
def color_text(text, color):
colors = {

19
SARA/SSL/full_test_HTTP_POST.py
View File

@@ -31,23 +31,8 @@ endpoint = parameter[2]
profile_id = 3
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
send_uSpot = config.get('send_uSpot', False)
baudrate = 115200
send_uSpot = False
def read_complete_response(serial_connection, timeout=2, end_of_response_timeout=2):
response = bytearray()

19
SARA/SSL/prepareUspotProfile.py
View File

@@ -21,23 +21,8 @@ port='/dev/'+parameter[0] # ex: ttyAMA2
url = parameter[1] # ex: data.mobileair.fr
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
send_uSpot = config.get('send_uSpot', False)
baudrate = 115200
send_uSpot = False
def read_complete_response(serial_connection, timeout=2, end_of_response_timeout=2):
response = bytearray()

20
SARA/SSL/prepareUspotProfile_V2.py
View File

@@ -23,24 +23,8 @@ parameter = sys.argv[1:] # Exclude the script name
port='/dev/'+parameter[0] # ex: ttyAMA2
url = parameter[1] # ex: data.mobileair.fr
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
send_uSpot = config.get('send_uSpot', False)
baudrate = 115200
send_uSpot = False
def read_complete_response(serial_connection, timeout=2, end_of_response_timeout=2):
response = bytearray()

14
SARA/SSL/sara_add_certif_v2.py
View File

@@ -14,19 +14,7 @@ parameter = sys.argv[1:] # Exclude the script name
port = '/dev/' + parameter[0] # e.g., ttyAMA2
timeout = float(parameter[1]) # e.g., 2 seconds
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
config = load_config(config_file)
baudrate = config.get('SaraR4_baudrate', 115200)
baudrate = 115200
def read_complete_response(serial_connection, timeout=2, end_of_response_timeout=2):
response = bytearray()

103
SARA/cellLocate/server_conf.py Normal file
View File

@@ -0,0 +1,103 @@
'''
____ _ ____ _
/ ___| / \ | _ \ / \
\___ \ / _ \ | |_) | / _ \
___) / ___ \| _ < / ___ \
|____/_/ \_\_| \_\/_/ \_\
Script to Configures the network connection to a Multi GNSS Assistance (MGA) server used also per CellLocate
/usr/bin/python3 /var/www/nebuleair_pro_4g/SARA/cellLocate/server_conf.py ttyAMA2 1
AT+UGSRV="cell-live1.services.u-blox.com","cell-live2.services.u-blox.com","XkEKfGqVSbmNE1eZfBZm4Q"
'''
import serial
import time
import sys
import json
parameter = sys.argv[1:] # Exclude the script name
port='/dev/'+parameter[0] # ex: ttyAMA2
timeout = float(parameter[1]) # ex:2
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
ser = serial.Serial(
port=port, #USB0 or ttyS0
baudrate=baudrate, #115200 ou 9600
parity=serial.PARITY_NONE, #PARITY_NONE, PARITY_EVEN or PARITY_ODD
stopbits=serial.STOPBITS_ONE,
bytesize=serial.EIGHTBITS,
timeout = timeout
)
def read_complete_response(serial_connection, timeout=2, end_of_response_timeout=2, wait_for_lines=None, debug=True):
'''
Fonction très importante !!!
Reads the complete response from a serial connection and waits for specific lines.
'''
if wait_for_lines is None:
wait_for_lines = [] # Default to an empty list if not provided
response = bytearray()
serial_connection.timeout = timeout
end_time = time.time() + end_of_response_timeout
start_time = time.time()
while True:
elapsed_time = time.time() - start_time # Time since function start
if serial_connection.in_waiting > 0:
data = serial_connection.read(serial_connection.in_waiting)
response.extend(data)
end_time = time.time() + end_of_response_timeout # Reset timeout on new data
# Decode and check for any target line
decoded_response = response.decode('utf-8', errors='replace')
for target_line in wait_for_lines:
if target_line in decoded_response:
if debug:
print(f"[DEBUG] 🔎 Found target line: {target_line} (in {elapsed_time:.2f}s)")
return decoded_response # Return response immediately if a target line is found
elif time.time() > end_time:
if debug:
print(f"[DEBUG] Timeout reached. No more data received.")
break
time.sleep(0.1) # Short sleep to prevent busy waiting
# Final response and debug output
total_elapsed_time = time.time() - start_time
if debug:
print(f"[DEBUG] ⏱️ elapsed time: {total_elapsed_time:.2f}s. ⏱️")
# Check if the elapsed time exceeded 10 seconds
if total_elapsed_time > 10 and debug:
print(f"[ALERT] 🚨 The operation took too long 🚨")
print(f'<span style="color: red;font-weight: bold;">[ALERT] ⚠️{total_elapsed_time:.2f}s⚠</span>')
return response.decode('utf-8', errors='replace') # Return the full response if no target line is found
#command = f'ATI\r'
command = f'AT+UGSRV="cell-live1.services.u-blox.com","cell-live2.services.u-blox.com","XkEKfGqVSbmNE1eZfBZm4Q"\r'
ser.write((command + '\r').encode('utf-8'))
response = read_complete_response(ser, wait_for_lines=["+UULOC"])
print(response)

298
SARA/reboot/start.py
View File

@@ -13,57 +13,110 @@ Script that starts at the boot of the RPI (with cron)
'''
import serial
import RPi.GPIO as GPIO
import time
import sys
import json
import re
import sqlite3
#get data from config
def load_config(config_file):
#GPIO
SARA_power_GPIO = 16
SARA_ON_GPIO = 20
GPIO.setmode(GPIO.BCM) # Use BCM numbering
GPIO.setup(SARA_power_GPIO, GPIO.OUT) # Set GPIO17 as an output
# database connection
conn = sqlite3.connect("/var/www/nebuleair_pro_4g/sqlite/sensors.db")
cursor = conn.cursor()
#get config data from SQLite table
def load_config_sqlite():
"""
Load configuration data from SQLite config table
Returns:
dict: Configuration data with proper type conversion
"""
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
# Query the config table
cursor.execute("SELECT key, value, type FROM config_table")
rows = cursor.fetchall()
# Create config dictionary
config_data = {}
for key, value, type_name in rows:
# Convert value based on its type
if type_name == 'bool':
config_data[key] = value == '1' or value == 'true'
elif type_name == 'int':
config_data[key] = int(value)
elif type_name == 'float':
config_data[key] = float(value)
else:
config_data[key] = value
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
print(f"Error loading config from SQLite: {e}")
return {}
#Fonction pour mettre à jour le JSON de configuration
def update_json_key(file_path, key, value):
def update_sqlite_config(key, value):
"""
Updates a specific key in a JSON file with a new value.
Updates a specific key in the SQLite config_table with a new value.
:param file_path: Path to the JSON file.
:param key: The key to update in the JSON file.
:param key: The key to update in the config_table.
:param value: The new value to assign to the key.
"""
try:
# Load the existing data
with open(file_path, "r") as file:
data = json.load(file)
# Check if the key exists in the JSON file
if key in data:
data[key] = value # Update the key with the new value
else:
print(f"Key '{key}' not found in the JSON file.")
# Check if the key exists and get its type
cursor.execute("SELECT type FROM config_table WHERE key = ?", (key,))
result = cursor.fetchone()
if result is None:
print(f"Key '{key}' not found in the config_table.")
conn.close()
return
# Write the updated data back to the file
with open(file_path, "w") as file:
json.dump(data, file, indent=2) # Use indent for pretty printing
# Get the type of the value from the database
value_type = result[0]
print(f"💾 updating '{key}' to '{value}'.")
# Convert the value to the appropriate string representation based on its type
if value_type == 'bool':
# Convert Python boolean or string 'true'/'false' to '1'/'0'
if isinstance(value, bool):
str_value = '1' if value else '0'
else:
str_value = '1' if str(value).lower() in ('true', '1', 'yes', 'y') else '0'
elif value_type == 'int':
str_value = str(int(value))
elif value_type == 'float':
str_value = str(float(value))
else:
str_value = str(value)
# Update the value in the database
cursor.execute("UPDATE config_table SET value = ? WHERE key = ?", (str_value, key))
# Commit the changes and close the connection
conn.commit()
print(f"💾 Updated '{key}' to '{value}' in database.")
except Exception as e:
print(f"Error updating the JSON file: {e}")
print(f"Error updating the SQLite database: {e}")
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
#Load config
config = load_config_sqlite()
#config
baudrate = config.get('SaraR4_baudrate', 115200) #baudrate du sara R4
device_id = config.get('deviceID', '').upper() #device ID en maj
sara_r5_DPD_setup = False
ser_sara = serial.Serial(
port='/dev/ttyAMA2',
baudrate=baudrate, #115200 ou 9600
@@ -120,20 +173,46 @@ def read_complete_response(serial_connection, timeout=2, end_of_response_timeout
try:
print('<h3>Start reboot python script</h3>')
#First we need to power on the module (if connected to mosfet via gpio16)
GPIO.output(SARA_power_GPIO, GPIO.HIGH)
time.sleep(5)
#check modem status
#Attention:
# SARA R4 response: Manufacturer: u-blox Model: SARA-R410M-02B
# SArA R5 response: SARA-R500S-01B-00
print("Check SARA Status")
command = f'ATI\r'
ser_sara.write(command.encode('utf-8'))
response_SARA_ATI = read_complete_response(ser_sara, wait_for_lines=["IMEI"])
print(response_SARA_ATI)
match = re.search(r"Model:\s*(.+)", response_SARA_ATI)
model = match.group(1).strip() if match else "Unknown" # Strip unwanted characters
print(f" Model: {model}")
update_json_key(config_file, "modem_version", model)
# Check for SARA model with more robust regex
model = "Unknown"
if "SARA-R410M" in response_SARA_ATI:
model = "SARA-R410M"
print("📱 Detected SARA R4 modem")
elif "SARA-R500" in response_SARA_ATI:
model = "SARA-R500"
print("📱 Detected SARA R5 modem")
sara_r5_DPD_setup = True
else:
# Fallback to regex match if direct string match fails
match = re.search(r"Model:\s*([A-Za-z0-9\-]+)", response_SARA_ATI)
if match:
model = match.group(1).strip()
else:
model = "Unknown"
print("⚠️ Could not identify modem model")
print(f"🔍 Model: {model}")
update_sqlite_config("modem_version", model)
time.sleep(1)
# 1. Set AIRCARTO URL
'''
AIRCARTO
'''
# 1. Set AIRCARTO URL (profile id = 0)
print('Set aircarto URL')
aircarto_profile_id = 0
aircarto_url="data.nebuleair.fr"
@@ -143,26 +222,155 @@ try:
print(response_SARA_1)
time.sleep(1)
#2. Set uSpot URL
print('Set uSpot URL')
'''
uSpot
'''
print("Set uSpot URL with SSL")
security_profile_id = 1
uSpot_profile_id = 1
uSpot_url="api-prod.uspot.probesys.net"
command = f'AT+UHTTP={uSpot_profile_id},1,"{uSpot_url}"\r'
ser_sara.write(command.encode('utf-8'))
response_SARA_2 = read_complete_response(ser_sara, wait_for_lines=["OK"])
#step 1: import the certificate
print("➡️ import certificate")
certificate_name = "e6"
with open("/var/www/nebuleair_pro_4g/SARA/SSL/certificate/e6.pem", "rb") as cert_file:
certificate = cert_file.read()
size_of_string = len(certificate)
# AT+USECMNG=0,<type>,<internal_name>,<data_size>
# type-> 0 -> trusted root CA
command = f'AT+USECMNG=0,0,"{certificate_name}",{size_of_string}\r'
ser_sara.write((command + '\r').encode('utf-8'))
response_SARA_1 = read_complete_response(ser_sara)
print(response_SARA_1)
time.sleep(0.5)
print("➡️ add certificate")
ser_sara.write(certificate)
response_SARA_2 = read_complete_response(ser_sara)
print(response_SARA_2)
time.sleep(0.5)
# op_code: 0 -> certificate validation level
# param_val : 0 -> Level 0 No validation; 1-> Level 1 Root certificate validation
print("Set the security profile (params)")
certification_level=0
command = f'AT+USECPRF={security_profile_id},0,{certification_level}\r'
ser_sara.write((command + '\r').encode('utf-8'))
response_SARA_5b = read_complete_response(ser_sara, wait_for_lines=["OK"])
print(response_SARA_5b)
time.sleep(0.5)
# op_code: 1 -> minimum SSL/TLS version
# param_val : 0 -> any; server can use any version for the connection; 1-> LSv1.0; 2->TLSv1.1; 3->TLSv1.2;
print("Set the security profile (params)")
minimum_SSL_version = 0
command = f'AT+USECPRF={security_profile_id},1,{minimum_SSL_version}\r'
ser_sara.write((command + '\r').encode('utf-8'))
response_SARA_5bb = read_complete_response(ser_sara, wait_for_lines=["OK"])
print(response_SARA_5bb)
time.sleep(0.5)
#op_code: 2 -> legacy cipher suite selection
# 0 (factory-programmed value): a list of default cipher suites is proposed at the beginning of handshake process, and a cipher suite will be negotiated among the cipher suites proposed in the list.
print("Set cipher")
cipher_suite = 0
command = f'AT+USECPRF={security_profile_id},2,{cipher_suite}\r'
ser_sara.write((command + '\r').encode('utf-8'))
response_SARA_5cc = read_complete_response(ser_sara, wait_for_lines=["OK"])
print(response_SARA_5cc)
time.sleep(0.5)
# op_code: 3 -> trusted root certificate internal name
print("Set the security profile (choose cert)")
command = f'AT+USECPRF={security_profile_id},3,"{certificate_name}"\r'
ser_sara.write((command + '\r').encode('utf-8'))
response_SARA_5c = read_complete_response(ser_sara, wait_for_lines=["OK"])
print(response_SARA_5c)
time.sleep(0.5)
# op_code: 10 -> SNI (server name indication)
print("Set the SNI")
command = f'AT+USECPRF={security_profile_id},10,"{uSpot_url}"\r'
ser_sara.write((command + '\r').encode('utf-8'))
response_SARA_5cf = read_complete_response(ser_sara, wait_for_lines=["OK"])
print(response_SARA_5cf)
time.sleep(0.5)
#step 4: set url (op_code = 1)
print("SET URL")
command = f'AT+UHTTP={uSpot_profile_id},1,"{uSpot_url}"\r'
ser_sara.write((command + '\r').encode('utf-8'))
response_SARA_5 = read_complete_response(ser_sara, wait_for_lines=["OK"])
print(response_SARA_5)
time.sleep(1)
print("set port 81")
command = f'AT+UHTTP={uSpot_profile_id},5,81\r'
#step 4: set PORT (op_code = 5)
print("SET PORT")
port = 443
command = f'AT+UHTTP={uSpot_profile_id},5,{port}\r'
ser_sara.write((command + '\r').encode('utf-8'))
response_SARA_55 = read_complete_response(ser_sara, wait_for_lines=["OK"])
print(response_SARA_55)
time.sleep(1)
#step 4: set url to SSL (op_code = 6) (http_secure = 1 for HTTPS)(USECMNG_PROFILE = 2)
print("SET SSL")
http_secure = 1
command = f'AT+UHTTP={uSpot_profile_id},6,{http_secure},{security_profile_id}\r'
ser_sara.write(command.encode('utf-8'))
response_SARA_5fg = read_complete_response(ser_sara, wait_for_lines=["OK"])
print(response_SARA_5fg)
time.sleep(1)
'''
SARA R5
'''
if sara_r5_DPD_setup:
print("SARA R5 PDP SETUP")
# 2. Activate PDP context 1
print('Activate PDP context 1')
command = f'AT+CGACT=1,1\r'
ser_sara.write(command.encode('utf-8'))
response_SARA_2 = read_complete_response(ser_sara, wait_for_lines=["OK"])
print(response_SARA_2, end="")
time.sleep(1)
# 2. Set the PDP type
print('Set the PDP type to IPv4 referring to the outputof the +CGDCONT read command')
command = f'AT+UPSD=0,0,0\r'
ser_sara.write(command.encode('utf-8'))
response_SARA_3 = read_complete_response(ser_sara, wait_for_lines=["OK"])
print(response_SARA_3, end="")
time.sleep(1)
# 2. Profile #0 is mapped on CID=1.
print('Profile #0 is mapped on CID=1.')
command = f'AT+UPSD=0,100,1\r'
ser_sara.write(command.encode('utf-8'))
response_SARA_3 = read_complete_response(ser_sara, wait_for_lines=["OK"])
print(response_SARA_3, end="")
time.sleep(1)
# 2. Set the PDP type
print('Activate the PSD profile #0: the IPv4 address is already assigned by the network.')
command = f'AT+UPSDA=0,3\r'
ser_sara.write(command.encode('utf-8'))
response_SARA_3 = read_complete_response(ser_sara, wait_for_lines=["OK","+UUPSDA"])
print(response_SARA_3, end="")
time.sleep(1)
#3. Get localisation (CellLocate)
mode = 2
sensor = 2
mode = 2 #single shot position
sensor = 2 #use cellular CellLocate® location information
response_type = 0
timeout_s = 2
accuracy_m = 1
@@ -179,9 +387,9 @@ try:
else:
print("❌ Failed to extract coordinates.")
#update config.json
update_json_key(config_file, "latitude_raw", float(latitude))
update_json_key(config_file, "longitude_raw", float(longitude))
#update sqlite table
update_sqlite_config("latitude_raw", float(latitude))
update_sqlite_config("longitude_raw", float(longitude))
time.sleep(1)

82
SARA/sara.py
View File

@@ -7,6 +7,8 @@
Script to see if the SARA-R410 is running
ex:
python3 /var/www/nebuleair_pro_4g/SARA/sara.py ttyAMA2 ATI 2
ex 1 (get SIM infos)
python3 /var/www/nebuleair_pro_4g/SARA/sara.py ttyAMA2 AT+CCID? 2
ex 2 (turn on blue light):
python3 /var/www/nebuleair_pro_4g/SARA/sara.py ttyAMA2 AT+UGPIOC=16,2 2
@@ -14,6 +16,8 @@ ex 3 (reconnect network)
python3 /var/www/nebuleair_pro_4g/SARA/sara.py ttyAMA2 AT+COPS=1,2,20801 20
ex 4 (get HTTP Profiles)
python3 /var/www/nebuleair_pro_4g/SARA/sara.py ttyAMA2 AT+UHTTP? 2
ex 5 (get IP addr)
python3 /var/www/nebuleair_pro_4g/SARA/sara.py ttyAMA2 AT+CGPADDR=1 2
'''
@@ -28,68 +32,64 @@ port='/dev/'+parameter[0] # ex: ttyAMA2
command = parameter[1] # ex: AT+CCID?
timeout = float(parameter[2]) # ex:2
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
baudrate = 115200
ser = serial.Serial(
try:
ser = serial.Serial(
port=port, #USB0 or ttyS0
baudrate=baudrate, #115200 ou 9600
parity=serial.PARITY_NONE, #PARITY_NONE, PARITY_EVEN or PARITY_ODD
stopbits=serial.STOPBITS_ONE,
bytesize=serial.EIGHTBITS,
timeout = timeout
)
)
ser.write((command + '\r').encode('utf-8'))
ser.write((command + '\r').encode('utf-8'))
#ser.write(b'ATI\r') #General Information
#ser.write(b'AT+CCID?\r') #SIM card number
#ser.write(b'AT+CPIN?\r') #Check the status of the SIM card
#ser.write(b'AT+CIND?\r') #Indication state (last number is SIM detection: 0 no SIM detection, 1 SIM detected, 2 not available)
#ser.write(b'AT+UGPIOR=?\r') #Reads the current value of the specified GPIO pin
#ser.write(b'AT+UGPIOC?\r') #GPIO select configuration
#ser.write(b'AT+COPS=?\r') #Check the network and cellular technology the modem is currently using
#ser.write(b'AT+COPS=1,2,20801') #connext to orange
#ser.write(b'AT+CFUN=?\r') #Selects/read the level of functionality
#ser.write(b'AT+URAT=?\r') #Radio Access Technology
#ser.write(b'AT+USIMSTAT?')
#ser.write(b'AT+IPR=115200') #Check/Define baud rate
#ser.write(b'AT+CMUX=?')
#ser.write(b'ATI\r') #General Information
#ser.write(b'AT+CCID?\r') #SIM card number
#ser.write(b'AT+CPIN?\r') #Check the status of the SIM card
#ser.write(b'AT+CIND?\r') #Indication state (last number is SIM detection: 0 no SIM detection, 1 SIM detected, 2 not available)
#ser.write(b'AT+UGPIOR=?\r') #Reads the current value of the specified GPIO pin
#ser.write(b'AT+UGPIOC?\r') #GPIO select configuration
#ser.write(b'AT+COPS=?\r') #Check the network and cellular technology the modem is currently using
#ser.write(b'AT+COPS=1,2,20801') #connext to orange
#ser.write(b'AT+CFUN=?\r') #Selects/read the level of functionality
#ser.write(b'AT+URAT=?\r') #Radio Access Technology
#ser.write(b'AT+USIMSTAT?')
#ser.write(b'AT+IPR=115200') #Check/Define baud rate
#ser.write(b'AT+CMUX=?')
try:
# Read lines until a timeout occurs
response_lines = []
while True:
line = ser.readline().decode('utf-8').strip()
if not line:
break # Break the loop if an empty line is encountered
start_time = time.time()
while (time.time() - start_time) < timeout:
line = ser.readline().decode('utf-8', errors='ignore').strip()
if line:
response_lines.append(line)
# Check if we received any data
if not response_lines:
print(f"ERROR: No response received from {port} after sending command: {command}")
sys.exit(1)
# Print the response
for line in response_lines:
print(line)
except serial.SerialException as e:
print(f"Error: {e}")
print(f"ERROR: Serial communication error: {e}")
sys.exit(1)
except Exception as e:
print(f"ERROR: Unexpected error: {e}")
sys.exit(1)
finally:
if ser.is_open:
# Close the serial port if it's open
if 'ser' in locals() and ser.is_open:
ser.close()
#print("Serial closed")

63
SARA/sara_checkDNS.py Normal file
View File

@@ -0,0 +1,63 @@
'''
____ _ ____ _
/ ___| / \ | _ \ / \
\___ \ / _ \ | |_) | / _ \
___) / ___ \| _ < / ___ \
|____/_/ \_\_| \_\/_/ \_\
Script to resolve DNS (get IP from domain name) with AT+UDNSRN command
Ex:
/usr/bin/python3 /var/www/nebuleair_pro_4g/SARA/sara_checkDNS.py ttyAMA2 data.nebuleair.fr
To do: need to add profile id as parameter
'''
import serial
import time
import sys
import json
parameter = sys.argv[1:] # Exclude the script name
#print("Parameters received:")
port='/dev/'+parameter[0] # ex: ttyAMA2
url = parameter[1] # ex: data.mobileair.fr
baudrate = 115200
ser = serial.Serial(
port=port, #USB0 or ttyS0
baudrate=baudrate, #115200 ou 9600
parity=serial.PARITY_NONE, #PARITY_NONE, PARITY_EVEN or PARITY_ODD
stopbits=serial.STOPBITS_ONE,
bytesize=serial.EIGHTBITS,
timeout = 2
)
command = f'AT+UDNSRN=0,"{url}"\r'
ser.write((command + '\r').encode('utf-8'))
print("****")
print("DNS check")
try:
# Read lines until a timeout occurs
response_lines = []
while True:
line = ser.readline().decode('utf-8').strip()
if not line:
break # Break the loop if an empty line is encountered
response_lines.append(line)
# Print the response
for line in response_lines:
print(line)
except serial.SerialException as e:
print(f"Error: {e}")
finally:
if ser.is_open:
ser.close()
print("****")
#print("Serial closed")

76
SARA/sara_connectNetwork.py
View File

@@ -26,22 +26,54 @@ networkID = parameter[1] # ex: 20801
timeout = float(parameter[2]) # ex:2
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
def read_complete_response(serial_connection, timeout=2, end_of_response_timeout=2, wait_for_lines=None, debug=True):
'''
Fonction très importante !!!
Reads the complete response from a serial connection and waits for specific lines.
'''
if wait_for_lines is None:
wait_for_lines = [] # Default to an empty list if not provided
response = bytearray()
serial_connection.timeout = timeout
end_time = time.time() + end_of_response_timeout
start_time = time.time()
while True:
elapsed_time = time.time() - start_time # Time since function start
if serial_connection.in_waiting > 0:
data = serial_connection.read(serial_connection.in_waiting)
response.extend(data)
end_time = time.time() + end_of_response_timeout # Reset timeout on new data
# Decode and check for any target line
decoded_response = response.decode('utf-8', errors='replace')
for target_line in wait_for_lines:
if target_line in decoded_response:
if debug:
print(f"[DEBUG] 🔎 Found target line: {target_line} (in {elapsed_time:.2f}s)")
return decoded_response # Return response immediately if a target line is found
elif time.time() > end_time:
if debug:
print(f"[DEBUG] Timeout reached. No more data received.")
break
time.sleep(0.1) # Short sleep to prevent busy waiting
# Final response and debug output
total_elapsed_time = time.time() - start_time
if debug:
print(f"[DEBUG] ⏱️ elapsed time: {total_elapsed_time:.2f}s. ⏱️")
# Check if the elapsed time exceeded 10 seconds
if total_elapsed_time > 10 and debug:
print(f"[ALERT] 🚨 The operation took too long 🚨")
print(f'<span style="color: red;font-weight: bold;">[ALERT] ⚠️{total_elapsed_time:.2f}s⚠</span>')
return response.decode('utf-8', errors='replace') # Return the full response if no target line is found
baudrate = 115200
ser = serial.Serial(
port=port, #USB0 or ttyS0
@@ -57,17 +89,11 @@ ser.write((command + '\r').encode('utf-8'))
try:
# Read lines until a timeout occurs
response_lines = []
while True:
line = ser.readline().decode('utf-8').strip()
if not line:
break # Break the loop if an empty line is encountered
response_lines.append(line)
response = read_complete_response(ser, wait_for_lines=["OK", "ERROR"],timeout=5, end_of_response_timeout=120, debug=True)
# Print the response
for line in response_lines:
print(line)
print('<p class="text-danger-emphasis">')
print(response)
print("</p>", end="")
except serial.SerialException as e:
print(f"Error: {e}")

17
SARA/sara_eraseMessage.py
View File

@@ -11,22 +11,7 @@ parameter = sys.argv[1:] # Exclude the script name
port='/dev/'+parameter[0] # ex: ttyAMA2
message = parameter[1] # ex: Hello
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
baudrate = 115200
ser = serial.Serial(
port=port, #USB0 or ttyS0

19
SARA/sara_google_ping.py
View File

@@ -18,24 +18,7 @@ import sys
import json
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
baudrate = 115200
ser = serial.Serial(
port='/dev/ttyAMA2',

67
SARA/sara_ping.py
View File

@@ -17,23 +17,7 @@ import json
# SARA R4 UHTTPC profile IDs
aircarto_profile_id = 0
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
baudrate = 115200
ser_sara = serial.Serial(
port='/dev/ttyAMA2',
@@ -89,6 +73,24 @@ def read_complete_response(serial_connection, timeout=2, end_of_response_timeout
return response.decode('utf-8', errors='replace') # Return the full response if no target line is found
def extract_error_code(response):
"""
Extract just the error code from AT+UHTTPER response
"""
for line in response.split('\n'):
if '+UHTTPER' in line:
try:
# Split the line and get the third value (error code)
parts = line.split(':')[1].strip().split(',')
if len(parts) >= 3:
error_code = int(parts[2])
return error_code
except:
pass
# Return None if we couldn't find the error code
return None
try:
#3. Send to endpoint (with device ID)
print("Send data (GET REQUEST):")
@@ -111,7 +113,36 @@ try:
parts = http_response.split(',')
# 2.1 code 0 (HTTP failed) ⛔⛔⛔
if len(parts) == 3 and parts[-1] == '0': # The third value indicates success
print("⛔ATTENTION: HTTP operation failed")
print("ATTENTION: HTTP operation failed")
#get error code
print("Getting error code (11->Server connection error, 73->Secure socket connect error)")
command = f'AT+UHTTPER={aircarto_profile_id}\r'
ser_sara.write(command.encode('utf-8'))
response_SARA_9 = read_complete_response(ser_sara, wait_for_lines=["OK"], debug=False)
print('<p class="text-danger-emphasis">')
print(response_SARA_9)
print("</p>", end="")
# Extract just the error code
error_code = extract_error_code(response_SARA_9)
if error_code is not None:
# Display interpretation based on error code
if error_code == 0:
print('<p class="text-success">No error detected</p>')
elif error_code == 4:
print('<p class="text-danger">Error 4: Invalid server Hostname</p>')
elif error_code == 11:
print('<p class="text-danger">Error 11: Server connection error</p>')
elif error_code == 22:
print('<p class="text-danger">Error 22: PSD or CSD connection not established</p>')
elif error_code == 73:
print('<p class="text-danger">Error 73: Secure socket connect error</p>')
else:
print(f'<p class="text-danger">Unknown error code: {error_code}</p>')
else:
print('<p class="text-danger">Could not extract error code from response</p>')
# 2.2 code 1 (HHTP succeded)
else:
# Si la commande HTTP a réussi

17
SARA/sara_readMessage.py
View File

@@ -11,22 +11,7 @@ parameter = sys.argv[1:] # Exclude the script name
port='/dev/'+parameter[0] # ex: ttyAMA2
message = parameter[1] # ex: Hello
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
baudrate = 115200
ser = serial.Serial(
port=port, #USB0 or ttyS0

17
SARA/sara_sendMessage.py
View File

@@ -12,22 +12,7 @@ port='/dev/'+parameter[0] # ex: ttyAMA2
endpoint = parameter[1] # ex: /pro_4G/notif_message.php
profile_id = parameter[2]
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
baudrate = 115200
ser = serial.Serial(
port=port, #USB0 or ttyS0

20
SARA/sara_setAPN.py
View File

@@ -21,23 +21,7 @@ port='/dev/'+parameter[0] # ex: ttyAMA2
apn_address = parameter[1] # ex: data.mono
timeout = float(parameter[2]) # ex:2
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
baudrate = 115200
ser = serial.Serial(
port=port, #USB0 or ttyS0
@@ -49,6 +33,8 @@ ser = serial.Serial(
)
command = f'AT+CGDCONT=1,"IP","{apn_address}"\r'
#command = f'AT+CGDCONT=1,"IPV4V6","{apn_address}"\r'
#command = f'AT+CGDCONT=1,"IP","{apn_address}",0,0\r'
ser.write((command + '\r').encode('utf-8'))

18
SARA/sara_setURL.py
View File

@@ -8,7 +8,6 @@
Script to set the URL for a HTTP request
Ex:
/usr/bin/python3 /var/www/nebuleair_pro_4g/SARA/sara_setURL.py ttyAMA2 data.nebuleair.fr 0
To do: need to add profile id as parameter
First profile id:
AT+UHTTP=0,1,"data.nebuleair.fr"
@@ -28,22 +27,7 @@ url = parameter[1] # ex: data.mobileair.fr
profile_id = parameter[2] #ex: 0
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
baudrate = 115200
ser = serial.Serial(
port=port, #USB0 or ttyS0

17
SARA/sara_setURL_uSpot_noSSL.py
View File

@@ -40,22 +40,7 @@ def read_complete_response(serial_connection, timeout=2, end_of_response_timeout
return response.decode('utf-8', errors='replace')
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
baudrate = 115200
ser_sara = serial.Serial(
port=port, #USB0 or ttyS0

16
SARA/sara_writeMessage.py
View File

@@ -12,21 +12,7 @@ port='/dev/'+parameter[0] # ex: ttyAMA2
message = parameter[1] # ex: Hello
#get baudrate
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Access the shared variables
baudrate = config.get('SaraR4_baudrate', 115200)
baudrate = 115200
ser = serial.Serial(
port=port, #USB0 or ttyS0

30
boot_hotspot.sh
View File

@@ -2,9 +2,10 @@
# Script to check if wifi is connected and start hotspot if not
# will also retreive unique RPi ID and store it to deviceID.txt
# script that starts at boot:
# @reboot /var/www/nebuleair_pro_4g/boot_hotspot.sh >> /var/www/nebuleair_pro_4g/logs/app.log 2>&1
OUTPUT_FILE="/var/www/nebuleair_pro_4g/wifi_list.csv"
JSON_FILE="/var/www/nebuleair_pro_4g/config.json"
echo "-------------------"
@@ -12,6 +13,8 @@ echo "-------------------"
echo "NebuleAir pro started at $(date)"
chmod -R 777 /var/www/nebuleair_pro_4g/
# Blink GPIO 23 and 24 five times
for i in {1..5}; do
# Turn GPIO 23 and 24 ON
@@ -25,15 +28,19 @@ for i in {1..5}; do
sleep 1
done
echo "getting SARA R4 serial number"
echo "getting RPI serial number"
# Get the last 8 characters of the serial number and write to text file
serial_number=$(cat /proc/cpuinfo | grep Serial | awk '{print substr($3, length($3) - 7)}')
# Use jq to update the "deviceID" in the JSON file
jq --arg serial_number "$serial_number" '.deviceID = $serial_number' "$JSON_FILE" > temp.json && mv temp.json "$JSON_FILE"
# update Sqlite database
echo "Updating SQLite database with device ID: $serial_number"
sqlite3 /var/www/nebuleair_pro_4g/sqlite/sensors.db "UPDATE config_table SET value='$serial_number' WHERE key='deviceID';"
echo "id: $serial_number"
#get the SSH port for tunneling
SSH_TUNNEL_PORT=$(jq -r '.sshTunnel_port' "$JSON_FILE")
# Get SSH tunnel port from SQLite config_table
SSH_TUNNEL_PORT=$(sqlite3 /var/www/nebuleair_pro_4g/sqlite/sensors.db "SELECT value FROM config_table WHERE key='sshTunnel_port'")
#need to wait for the network manager to be ready
sleep 20
@@ -51,19 +58,16 @@ if [ "$STATE" == "30 (disconnected)" ]; then
echo "Starting hotspot..."
sudo nmcli device wifi hotspot ifname wlan0 ssid nebuleair_pro password nebuleaircfg
# Update JSON to reflect hotspot mode
jq --arg status "hotspot" '.WIFI_status = $status' "$JSON_FILE" > temp.json && mv temp.json "$JSON_FILE"
# Update SQLite to reflect hotspot mode
sqlite3 /var/www/nebuleair_pro_4g/sqlite/sensors.db "UPDATE config_table SET value='hotspot' WHERE key='WIFI_status'"
else
echo "🛜Success: wlan0 is connected!🛜"
CONN_SSID=$(nmcli -g GENERAL.CONNECTION device show wlan0)
echo "Connection: $CONN_SSID"
#update config JSON file
jq --arg status "connected" '.WIFI_status = $status' "$JSON_FILE" > temp.json && mv temp.json "$JSON_FILE"
sudo chmod 777 "$JSON_FILE"
# Update SQLite to reflect hotspot mode
sqlite3 /var/www/nebuleair_pro_4g/sqlite/sensors.db "UPDATE config_table SET value='connected' WHERE key='WIFI_status'"
# Lancer le tunnel SSH
#echo "Démarrage du tunnel SSH sur le port $SSH_TUNNEL_PORT..."

8
cron_jobs
View File

@@ -4,4 +4,10 @@
@reboot sleep 30 && /usr/bin/python3 /var/www/nebuleair_pro_4g/SARA/reboot/start.py >> /var/www/nebuleair_pro_4g/logs/app.log 2>&1
0 0 * * * > /var/www/nebuleair_pro_4g/logs/master.log
#0 0 * * * > /var/www/nebuleair_pro_4g/logs/master.log
#0 0 * * * > /var/www/nebuleair_pro_4g/logs/master_errors.log
#0 0 * * * > /var/www/nebuleair_pro_4g/logs/app.log
0 0 * * * find /var/www/nebuleair_pro_4g/logs -name "*.log" -type f -exec truncate -s 0 {} \;

29
envea/read_value_v2.py
View File

@@ -28,31 +28,14 @@ cursor.execute("SELECT * FROM timestamp_table LIMIT 1")
row = cursor.fetchone() # Get the first (and only) row
rtc_time_str = row[1] # '2025-02-07 12:30:45'
# Function to load config data
def load_config(config_file):
try:
with open(config_file, 'r') as file:
config_data = json.load(file)
return config_data
except Exception as e:
print(f"Error loading config file: {e}")
return {}
# Fetch connected ENVEA sondes from SQLite config table
cursor.execute("SELECT port, name, coefficient FROM envea_sondes_table WHERE connected = 1")
connected_envea_sondes = cursor.fetchall() # List of tuples (port, name, coefficient)
# Define the config file path
config_file = '/var/www/nebuleair_pro_4g/config.json'
# Load the configuration data
config = load_config(config_file)
# Initialize sensors and serial connections
envea_sondes = config.get('envea_sondes', [])
connected_envea_sondes = [sonde for sonde in envea_sondes if sonde.get('connected', False)]
serial_connections = {}
if connected_envea_sondes:
for device in connected_envea_sondes:
port = device.get('port', 'Unknown')
name = device.get('name', 'Unknown')
for port, name, coefficient in connected_envea_sondes:
try:
serial_connections[name] = serial.Serial(
port=f'/dev/{port}',
@@ -74,9 +57,7 @@ data_nh3 = 0
try:
if connected_envea_sondes:
for device in connected_envea_sondes:
name = device.get('name', 'Unknown')
coefficient = device.get('coefficient', 1)
for port, name, coefficient in connected_envea_sondes:
if name in serial_connections:
serial_connection = serial_connections[name]
try:

688
html/admin.html
View File

@@ -55,52 +55,13 @@
<div class="row mb-3">
<div class="col-lg-3 col-12">
<h3 class="mt-4">Parameters</h3>
<h3 class="mt-4">Parameters (config)</h3>
<form>
<!--
<div class="form-check form-switch mb-2">
<input class="form-check-input" type="checkbox" role="switch" id="flex_loop" onchange="update_config('loop_activation',this.checked)">
<label class="form-check-label" for="flex_loop">Loop activation</label>
</div>
<div class="form-check form-switch mb-2">
<input class="form-check-input" type="checkbox" role="switch" id="flex_loop_log" onchange="update_config('loop_log', this.checked)">
<label class="form-check-label" for="flex_loop_log">Loop Logs</label>
</div>
<div class="form-check form-switch mb-2">
<input class="form-check-input" type="checkbox" role="switch" id="flex_start_log" onchange="update_config('boot_log', this.checked)">
<label class="form-check-label" for="flex_start_log">Boot Logs</label>
</div>
-->
<div class="form-check mb-3">
<input class="form-check-input" type="checkbox" value="" id="check_NPM_5channels" onchange="update_config('NextPM_5channels', this.checked)">
<label class="form-check-label" for="check_NPM_5channels">
Next PM 5 canaux
</label>
</div>
<div class="form-check mb-3">
<input class="form-check-input" type="checkbox" value="" id="check_bme280" onchange="update_config('BME280/get_data_v2.py', this.checked)">
<label class="form-check-label" for="check_bme280">
Sonde temp/hum (BME280)
</label>
</div>
<div class="form-check mb-3">
<input class="form-check-input" type="checkbox" value="" id="check_envea" onchange="update_config('envea/read_value_v2.py', this.checked)">
<label class="form-check-label" for="check_envea">
Sonde Envea
</label>
</div>
<div class="mb-3">
<label for="device_name" class="form-label">Device Name</label>
<input type="text" class="form-control" id="device_name" onchange="update_config('deviceName', this.value)">
<input type="text" class="form-control" id="device_name" onchange="update_config_sqlite('deviceName', this.value)">
</div>
<div class="mb-3">
@@ -108,6 +69,68 @@
<input type="text" class="form-control" id="device_ID" disabled>
</div>
<div class="mb-3">
<label for="modem_version" class="form-label">Modem Version</label>
<input type="text" class="form-control" id="modem_version" disabled>
</div>
<!-- config_scripts_table -->
<div class="form-check mb-3">
<input class="form-check-input" type="checkbox" value="" id="check_NPM" onchange="update_config_scripts_sqlite('NPM/get_data_modbus_v3.py', this.checked)">
<label class="form-check-label" for="check_NPM">
Next PM
</label>
</div>
<div class="form-check mb-3">
<input class="form-check-input" type="checkbox" value="" id="check_NPM_5channels" onchange="update_config_sqlite('npm_5channel', this.checked)">
<label class="form-check-label" for="check_NPM_5channels">
Next PM send 5 channels (no script)
</label>
</div>
<div class="form-check mb-3">
<input class="form-check-input" type="checkbox" value="" id="check_bme280" onchange="update_config_scripts_sqlite('BME280/get_data_v2.py', this.checked)">
<label class="form-check-label" for="check_bme280">
Sonde temp/hum (BME280)
</label>
</div>
<div class="form-check mb-3">
<input class="form-check-input" type="checkbox" value="" id="check_envea" onchange="update_config_scripts_sqlite('envea/read_value_v2.py', this.checked)">
<label class="form-check-label" for="check_envea">
Sonde Envea
</label>
</div>
<div class="form-check mb-3">
<input class="form-check-input" type="checkbox" value="" id="check_solarBattery" onchange="update_config_scripts_sqlite('MPPT/read.py', this.checked)">
<label class="form-check-label" for="check_solarBattery">
Solar / Battery MPPT
</label>
</div>
<div class="form-check mb-3">
<input class="form-check-input" type="checkbox" value="" id="check_WindMeter" onchange="update_config_sqlite('windMeter', this.checked)">
<label class="form-check-label" for="check_WindMeter">
Wind Meter (no script -> systemd service)
</label>
</div>
<div class="form-check mb-3">
<input class="form-check-input" type="checkbox" value="" id="check_uSpot" onchange="update_config_sqlite('send_uSpot', this.checked)" disabled>
<label class="form-check-label" for="check_uSpot">
uSpot
</label>
</div>
<div class="input-group mb-3" id="sondes_envea_div"></div>
<div id="envea_table"></div>
<!--<button type="submit" class="btn btn-primary">Submit</button>-->
</form>
</div>
@@ -117,13 +140,6 @@
<h3 class="mt-4">Clock</h3>
<div class="form-check mb-3">
<input class="form-check-input" type="checkbox" value="" id="check_RTC" onchange="update_config('i2c_RTC', this.checked)">
<label class="form-check-label" for="check_RTC">
RTC module (DS3231)
</label>
</div>
<div class="mb-3">
<label for="sys_local_time" class="form-label">System time (local)</label>
<input type="text" class="form-control" id="sys_local_time" disabled>
@@ -161,6 +177,22 @@
</div>
</div>
<!-- toast -->
<div class="toast-container position-fixed bottom-0 end-0 p-3">
<div id="liveToast" class="toast align-items-center text-bg-primary border-1" role="alert" aria-live="assertive" aria-atomic="true">
<div class="d-flex">
<div class="toast-body">
Hello, world! This is a toast message.
</div>
<button type="button" class="btn-close btn-close-white me-2 m-auto" data-bs-dismiss="toast" aria-label="Close"></button>
</div>
</div>
</div>
</main>
</div>
</div>
@@ -193,27 +225,108 @@
});
});
//end document.addEventListener
/*
___ _ _
/ _ \ _ __ | | ___ __ _ __| |
| | | | '_ \| | / _ \ / _` |/ _` |
| |_| | | | | |__| (_) | (_| | (_| |
\___/|_| |_|_____\___/ \__,_|\__,_|
*/
window.onload = function() {
//NEW way to get config (SQLite)
$.ajax({
url: 'launcher.php?type=get_config_sqlite',
dataType:'json',
//dataType: 'json', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
success: function(response) {
console.log("Getting SQLite config table:");
console.log(response);
//device name
const deviceName = document.getElementById("device_name");
deviceName.value = response.deviceName;
//device name_side bar
const elements = document.querySelectorAll('.sideBar_sensorName');
elements.forEach((element) => {
element.innerText = response.deviceName;
});
//device name html page title
if (response.deviceName) {
document.title = response.deviceName;
}
//device ID
const deviceID = response.deviceID.trim().toUpperCase();
const device_ID = document.getElementById("device_ID");
device_ID.value = response.deviceID.toUpperCase();
//modem_version
const modem_version = document.getElementById("modem_version");
modem_version.value = response.modem_version;
//nextPM send 5 channels
const checkbox_nmp5channels = document.getElementById("check_NPM_5channels");
checkbox_nmp5channels.checked = response.npm_5channel;
//windMeter (as a config not a script -> it's running with a systemd service)
const checkbox_wind = document.getElementById("check_WindMeter");
checkbox_wind.checked = response["windMeter"];
//send uSpot
const checkbox_uSpot = document.getElementById("check_uSpot");
checkbox_uSpot.checked = response["send_uSpot"];
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});//end AJAX
//getting config_scripts table
$.ajax({
url: 'launcher.php?type=get_config_scripts_sqlite',
dataType:'json',
//dataType: 'json', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
success: function(response) {
console.log("Getting SQLite config scripts table:");
console.log(response);
const checkbox_NPM = document.getElementById("check_NPM");
const checkbox_bme = document.getElementById("check_bme280");
const checkbox_envea = document.getElementById("check_envea");
const checkbox_solar = document.getElementById("check_solarBattery");
checkbox_NPM.checked = response["NPM/get_data_modbus_v3.py"];
checkbox_bme.checked = response["BME280/get_data_v2.py"];
checkbox_envea.checked = response["envea/read_value_v2.py"];
checkbox_solar.checked = response["MPPT/read.py"];
//si sonde envea is true
if (response["envea/read_value_v2.py"]) {
add_sondeEnveaContainer();
}
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});//end AJAX
//OLD way to get config (JSON)
/*
fetch('../config.json') // Replace 'deviceID.txt' with 'config.json'
.then(response => response.json()) // Parse response as JSON
.then(data => {
console.log("Getting config file (onload)");
//get device ID
const deviceID = data.deviceID.trim().toUpperCase();
//document.getElementById('pageTitle_plus_ID').innerText = 'token: ' + deviceID;
//get device Name
const deviceName = data.deviceName;
console.log("Device Name: " + deviceName);
console.log("Device ID: " + deviceID);
const elements = document.querySelectorAll('.sideBar_sensorName');
elements.forEach((element) => {
element.innerText = deviceName;
});
//const deviceName = data.deviceName;
//get BME check
const checkbox = document.getElementById("check_bme280");
@@ -227,18 +340,16 @@ window.onload = function() {
const checkbox_envea = document.getElementById("check_envea");
checkbox_envea.checked = data["envea/read_value_v2.py"];
//get RTC check
const checkbox_RTC = document.getElementById("check_RTC");
checkbox_RTC.checked = data.i2c_RTC;
//device name
const device_name = document.getElementById("device_name");
device_name.value = data.deviceName;
//const device_name = document.getElementById("device_name");
//device_name.value = data.deviceName;
})
.catch(error => console.error('Error loading config.json:', error));
*/
//device ID
const device_ID = document.getElementById("device_ID");
device_ID.value = data.deviceID.toUpperCase();
//get system time and RTC module
$.ajax({
@@ -246,6 +357,8 @@ window.onload = function() {
dataType: 'json', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
success: function(response) {
console.log("Getting RTC times");
console.log(response);
// Update the input fields with the received JSON data
document.getElementById("sys_local_time").value = response.system_local_time;
@@ -279,7 +392,7 @@ window.onload = function() {
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});
});//end AJAX
//get local RTC
$.ajax({
@@ -287,19 +400,128 @@ window.onload = function() {
dataType: 'text', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
success: function(response) {
console.log("Local RTC: " + response);
//console.log("Local RTC: " + response);
const RTC_Element = document.getElementById("RTC_time");
RTC_Element.textContent = response;
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});
}); //end AJAx
})
.catch(error => console.error('Error loading config.json:', error));
} //end window.onload
function update_config_sqlite(param, value){
console.log("Updating sqlite ",param," : ", value);
const toastLiveExample = document.getElementById('liveToast')
const toastBody = toastLiveExample.querySelector('.toast-body');
$.ajax({
url: 'launcher.php?type=update_config_sqlite&param='+param+'&value='+value,
dataType: 'json', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
cache: false, // Prevent AJAX from caching
success: function(response) {
console.log(response);
// Format the response nicely
let formattedMessage = '';
if (response.success) {
// Success message
toastLiveExample.classList.remove('text-bg-danger');
toastLiveExample.classList.add('text-bg-success');
formattedMessage = `
<strong>Success!</strong><br>
Parameter: ${response.param || param}<br>
Value: ${response.value || checked}<br>
${response.message || ''}
`;
} else {
// Error message
toastLiveExample.classList.remove('text-bg-success');
toastLiveExample.classList.add('text-bg-danger');
formattedMessage = `
<strong>Error!</strong><br>
${response.error || 'Unknown error'}<br>
Parameter: ${response.param || param}
`;
}
// Update the toast body with formatted content
toastBody.innerHTML = formattedMessage;
// Show the toast
const toastBootstrap = bootstrap.Toast.getOrCreateInstance(toastLiveExample)
toastBootstrap.show()
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});
}
function update_config_scripts_sqlite(param, value) {
console.log("Updating scripts sqlite ", param, " : ", value);
const toastLiveExample = document.getElementById('liveToast')
const toastBody = toastLiveExample.querySelector('.toast-body');
$.ajax({
url: 'launcher.php?type=update_config_scripts_sqlite&param=' + param + '&value=' + value,
dataType: 'json',
method: 'GET',
cache: false,
success: function(response) {
console.log(response);
// Format the response nicely
let formattedMessage = '';
if (response.success) {
// Success message
toastLiveExample.classList.remove('text-bg-danger');
toastLiveExample.classList.add('text-bg-success');
formattedMessage = `
<strong>Success!</strong><br>
Parameter: ${response.script_path || param}<br>
Value: ${response.enabled !== undefined ? response.enabled : value}<br>
${response.message || ''}
`;
if (response.script_path == "envea/read_value_v2.py") {
console.log("envea sondes activated");
add_sondeEnveaContainer();
}
} else {
// Error message
toastLiveExample.classList.remove('text-bg-success');
toastLiveExample.classList.add('text-bg-danger');
formattedMessage = `
<strong>Error!</strong><br>
${response.error || 'Unknown error'}<br>
Parameter: ${response.script_path || param}
`;
}
// Update the toast body with formatted content
toastBody.innerHTML = formattedMessage;
// Show the toast
const toastBootstrap = bootstrap.Toast.getOrCreateInstance(toastLiveExample)
toastBootstrap.show()
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});
}
function update_config(param, value){
console.log("Updating ",param," : ", value);
@@ -358,7 +580,7 @@ function set_RTC_withNTP(){
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});
}); //end ajax
}
function set_RTC_withBrowser(){
@@ -386,6 +608,320 @@ function set_RTC_withBrowser(){
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
}); //end ajax
}
/*
____ _ _____
/ ___| ___ _ __ __| | ___ ___ | ____|_ ____ _____ __ _
\___ \ / _ \| '_ \ / _` |/ _ \/ __| | _| | '_ \ \ / / _ \/ _` |
___) | (_) | | | | (_| | __/\__ \ | |___| | | \ V / __/ (_| |
|____/ \___/|_| |_|\__,_|\___||___/ |_____|_| |_|\_/ \___|\__,_|
*/
function add_sondeEnveaContainer() {
console.log("Sonde Envea is true: need to add container!");
// Getting envea_sondes_table data
$.ajax({
url: 'launcher.php?type=get_envea_sondes_table_sqlite',
dataType: 'json',
method: 'GET',
success: function(sondes) {
console.log("Getting SQLite envea sondes table:");
console.log(sondes);
// Create container div if it doesn't exist
if ($('#sondes_envea_div').length === 0) {
$('#advanced_options').append('<div id="sondes_envea_div" class="input-group mt-4 border p-3 rounded"><legend>Sondes Envea</legend><p>Plouf</p></div>');
} else {
// Clear existing content if container exists
$('#sondes_envea_div').html('<legend>Sondes Envea</legend>');
$('#envea_table').html('<table class="table table-striped table-bordered">'+
'<thead><tr><th scope="col">Software</th><th scope="col">Hardware (PCB)</th></tr></thead>'+
'<tbody>' +
'<tr><td>ttyAMA5</td><td>NPM1</td></tr>' +
'<tr><td>ttyAMA4</td><td>NPM2</td></tr>' +
'<tr><td>ttyAMA3</td><td>NPM3</td></tr>' +
'<tr><td>ttyAMA2</td><td>SARA</td></tr>' +
'</tbody></table>');
}
// Loop through each sonde and create UI elements
sondes.forEach(function(sonde) {
// Create a unique ID for this sonde
const sondeId = `sonde_${sonde.id}`;
// Create HTML for this sonde
const sondeHtml = `
<div class="input-group mb-3" id="${sondeId}_container">
<div class="input-group-text">
<input class="form-check-input mt-0" type="checkbox" id="${sondeId}_enabled"
${sonde.connected ? 'checked' : ''}
onchange="updateSondeStatus(${sonde.id}, this.checked)">
</div>
<input type="text" class="form-control" placeholder="Name" value="${sonde.name}"
id="${sondeId}_name" onchange="updateSondeName(${sonde.id}, this.value)">
<input type="text" class="form-control" placeholder="Port" value="${sonde.port}"
id="${sondeId}_port" onchange="updateSondePort(${sonde.id}, this.value)">
<input type="number" class="form-control" placeholder="Coefficient" value="${sonde.coefficient}"
id="${sondeId}_coefficient" onchange="updateSondeCoefficient(${sonde.id}, this.value)">
</div>
`;
// Append this sonde to the container
$('#sondes_envea_div').append(sondeHtml);
});
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});
}
// Helper functions for updating sonde properties
function updateSondeStatus(id, connected) {
console.log(`Updating sonde ${id} connected status to: ${connected}`);
const toastLiveExample = document.getElementById('liveToast');
const toastBody = toastLiveExample.querySelector('.toast-body');
$.ajax({
url: `launcher.php?type=update_sonde&id=${id}&field=connected&value=${connected ? 1 : 0}`,
dataType: 'json',
method: 'GET',
cache: false,
success: function(response) {
console.log('Sonde status updated:', response);
// Format the response for toast
let formattedMessage = '';
if (response.success) {
// Success message
toastLiveExample.classList.remove('text-bg-danger');
toastLiveExample.classList.add('text-bg-success');
formattedMessage = `
<strong>Success!</strong><br>
Sonde ID: ${response.id}<br>
Connected: ${connected ? "Yes" : "No"}<br>
${response.message || ''}
`;
} else {
// Error message
toastLiveExample.classList.remove('text-bg-success');
toastLiveExample.classList.add('text-bg-danger');
formattedMessage = `
<strong>Error!</strong><br>
${response.error || 'Unknown error'}<br>
Sonde ID: ${id}
`;
}
// Update and show toast
toastBody.innerHTML = formattedMessage;
const toastBootstrap = bootstrap.Toast.getOrCreateInstance(toastLiveExample);
toastBootstrap.show();
},
error: function(xhr, status, error) {
console.error('Failed to update sonde status:', error);
// Show error toast
toastLiveExample.classList.remove('text-bg-success');
toastLiveExample.classList.add('text-bg-danger');
toastBody.innerHTML = `
<strong>Request Failed!</strong><br>
Error: ${error}<br>
Sonde ID: ${id}
`;
const toastBootstrap = bootstrap.Toast.getOrCreateInstance(toastLiveExample);
toastBootstrap.show();
}
});
}
function updateSondeName(id, name) {
console.log(`Updating sonde ${id} name to: ${name}`);
const toastLiveExample = document.getElementById('liveToast');
const toastBody = toastLiveExample.querySelector('.toast-body');
$.ajax({
url: `launcher.php?type=update_sonde&id=${id}&field=name&value=${encodeURIComponent(name)}`,
dataType: 'json',
method: 'GET',
cache: false,
success: function(response) {
console.log('Sonde name updated:', response);
// Format the response for toast
let formattedMessage = '';
if (response.success) {
// Success message
toastLiveExample.classList.remove('text-bg-danger');
toastLiveExample.classList.add('text-bg-success');
formattedMessage = `
<strong>Success!</strong><br>
Sonde ID: ${response.id}<br>
Name: ${name}<br>
${response.message || ''}
`;
} else {
// Error message
toastLiveExample.classList.remove('text-bg-success');
toastLiveExample.classList.add('text-bg-danger');
formattedMessage = `
<strong>Error!</strong><br>
${response.error || 'Unknown error'}<br>
Sonde ID: ${id}
`;
}
// Update and show toast
toastBody.innerHTML = formattedMessage;
const toastBootstrap = bootstrap.Toast.getOrCreateInstance(toastLiveExample);
toastBootstrap.show();
},
error: function(xhr, status, error) {
console.error('Failed to update sonde name:', error);
// Show error toast
toastLiveExample.classList.remove('text-bg-success');
toastLiveExample.classList.add('text-bg-danger');
toastBody.innerHTML = `
<strong>Request Failed!</strong><br>
Error: ${error}<br>
Sonde ID: ${id}
`;
const toastBootstrap = bootstrap.Toast.getOrCreateInstance(toastLiveExample);
toastBootstrap.show();
}
});
}
function updateSondePort(id, port) {
console.log(`Updating sonde ${id} port to: ${port}`);
const toastLiveExample = document.getElementById('liveToast');
const toastBody = toastLiveExample.querySelector('.toast-body');
$.ajax({
url: `launcher.php?type=update_sonde&id=${id}&field=port&value=${encodeURIComponent(port)}`,
dataType: 'json',
method: 'GET',
cache: false,
success: function(response) {
console.log('Sonde port updated:', response);
// Format the response for toast
let formattedMessage = '';
if (response.success) {
// Success message
toastLiveExample.classList.remove('text-bg-danger');
toastLiveExample.classList.add('text-bg-success');
formattedMessage = `
<strong>Success!</strong><br>
Sonde ID: ${response.id}<br>
Port: ${port}<br>
${response.message || ''}
`;
} else {
// Error message
toastLiveExample.classList.remove('text-bg-success');
toastLiveExample.classList.add('text-bg-danger');
formattedMessage = `
<strong>Error!</strong><br>
${response.error || 'Unknown error'}<br>
Sonde ID: ${id}
`;
}
// Update and show toast
toastBody.innerHTML = formattedMessage;
const toastBootstrap = bootstrap.Toast.getOrCreateInstance(toastLiveExample);
toastBootstrap.show();
},
error: function(xhr, status, error) {
console.error('Failed to update sonde port:', error);
// Show error toast
toastLiveExample.classList.remove('text-bg-success');
toastLiveExample.classList.add('text-bg-danger');
toastBody.innerHTML = `
<strong>Request Failed!</strong><br>
Error: ${error}<br>
Sonde ID: ${id}
`;
const toastBootstrap = bootstrap.Toast.getOrCreateInstance(toastLiveExample);
toastBootstrap.show();
}
});
}
function updateSondeCoefficient(id, coefficient) {
console.log(`Updating sonde ${id} coefficient to: ${coefficient}`);
const toastLiveExample = document.getElementById('liveToast');
const toastBody = toastLiveExample.querySelector('.toast-body');
$.ajax({
url: `launcher.php?type=update_sonde&id=${id}&field=coefficient&value=${coefficient}`,
dataType: 'json',
method: 'GET',
cache: false,
success: function(response) {
console.log('Sonde coefficient updated:', response);
// Format the response for toast
let formattedMessage = '';
if (response.success) {
// Success message
toastLiveExample.classList.remove('text-bg-danger');
toastLiveExample.classList.add('text-bg-success');
formattedMessage = `
<strong>Success!</strong><br>
Sonde ID: ${response.id}<br>
Coefficient: ${coefficient}<br>
${response.message || ''}
`;
} else {
// Error message
toastLiveExample.classList.remove('text-bg-success');
toastLiveExample.classList.add('text-bg-danger');
formattedMessage = `
<strong>Error!</strong><br>
${response.error || 'Unknown error'}<br>
Sonde ID: ${id}
`;
}
// Update and show toast
toastBody.innerHTML = formattedMessage;
const toastBootstrap = bootstrap.Toast.getOrCreateInstance(toastLiveExample);
toastBootstrap.show();
},
error: function(xhr, status, error) {
console.error('Failed to update sonde coefficient:', error);
// Show error toast
toastLiveExample.classList.remove('text-bg-success');
toastLiveExample.classList.add('text-bg-danger');
toastBody.innerHTML = `
<strong>Request Failed!</strong><br>
Error: ${error}<br>
Sonde ID: ${id}
`;
const toastBootstrap = bootstrap.Toast.getOrCreateInstance(toastLiveExample);
toastBootstrap.show();
}
});
}

56
html/database.html
View File

@@ -71,6 +71,8 @@
<button class="btn btn-primary" onclick="get_data_sqlite('data_BME280',getSelectedLimit(),false)">Mesures Temp/Hum</button>
<button class="btn btn-primary" onclick="get_data_sqlite('data_NPM_5channels',getSelectedLimit(),false)">Mesures PM (5 canaux)</button>
<button class="btn btn-primary" onclick="get_data_sqlite('data_envea',getSelectedLimit(),false)">Sonde Cairsens</button>
<button class="btn btn-primary" onclick="get_data_sqlite('data_WIND',getSelectedLimit(),false)">Sonde Vent</button>
<button class="btn btn-warning" onclick="get_data_sqlite('timestamp_table',getSelectedLimit(),false)">Timestamp Table</button>
</div>
@@ -147,23 +149,37 @@
window.onload = function() {
fetch('../config.json') // Replace 'deviceID.txt' with 'config.json'
.then(response => response.json()) // Parse response as JSON
.then(data => {
console.log("Getting config file (onload)");
//get device ID
const deviceID = data.deviceID.trim().toUpperCase();
//document.getElementById('pageTitle_plus_ID').innerText = 'token: ' + deviceID;
window.onload = function() {
//get device Name
const deviceName = data.deviceName;
//NEW way to get data from SQLITE
$.ajax({
url: 'launcher.php?type=get_config_sqlite',
dataType:'json',
//dataType: 'json', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
success: function(response) {
console.log("Getting SQLite config table:");
console.log(response);
//get device Name (for the side bar)
const deviceName = response.deviceName;
const elements = document.querySelectorAll('.sideBar_sensorName');
elements.forEach((element) => {
element.innerText = deviceName;
});
//device name html page title
if (response.deviceName) {
document.title = response.deviceName;
}
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
}); //end ajax
//get local RTC
$.ajax({
@@ -178,11 +194,10 @@
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});
}); //end AJAX
})
.catch(error => console.error('Error loading config.json:', error));
}
}
@@ -199,7 +214,6 @@ function get_data_sqlite(table, limit, download , startDate = "", endDate = "")
console.log(url);
$.ajax({
url: url,
dataType: 'text', // Specify that you expect a JSON response
@@ -260,6 +274,12 @@ function get_data_sqlite(table, limit, download , startDate = "", endDate = "")
tableHTML += `
<th>Timestamp</th>
`;
}else if (table === "data_WIND") {
tableHTML += `
<th>Timestamp</th>
<th>speed (km/h)</th>
<th>Direction (V)</th>
`;
}
tableHTML += `</tr></thead><tbody>`;
@@ -310,6 +330,12 @@ function get_data_sqlite(table, limit, download , startDate = "", endDate = "")
tableHTML += `
<td>${columns[1]}</td>
`;
}else if (table === "data_WIND") {
tableHTML += `
<td>${columns[0]}</td>
<td>${columns[1]}</td>
<td>${columns[2]}</td>
`;
}
tableHTML += "</tr>";

38
html/index.html
View File

@@ -135,6 +135,35 @@
window.onload = function() {
//NEW way to get data from SQLITE
$.ajax({
url: 'launcher.php?type=get_config_sqlite',
dataType:'json',
//dataType: 'json', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
success: function(response) {
console.log("Getting SQLite config table:");
console.log(response);
//get device Name (for the side bar)
const deviceName = response.deviceName;
const elements = document.querySelectorAll('.sideBar_sensorName');
elements.forEach((element) => {
element.innerText = deviceName;
});
//device name html page title
if (response.deviceName) {
document.title = response.deviceName;
}
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
}); //end ajax
/* OLD way of getting config data
fetch('../config.json') // Replace 'deviceID.txt' with 'config.json'
.then(response => response.json()) // Parse response as JSON
.then(data => {
@@ -152,6 +181,11 @@ window.onload = function() {
element.innerText = deviceName;
});
//end fetch config
})
.catch(error => console.error('Error loading config.json:', error));
//end windows on load
*/
//get local RTC
$.ajax({
url: 'launcher.php?type=RTC_time',
@@ -421,10 +455,6 @@ window.onload = function() {
//end fetch config
})
.catch(error => console.error('Error loading config.json:', error));
//end windows on load
}
</script>

598
html/launcher.php
View File

@@ -1,13 +1,16 @@
<?php
//Prevents caching → Adds headers to ensure fresh response.
//Prevents caching → Adds headers to ensure fresh response.
// to test this page http://192.168.1.127/html/launcher.php?type=get_config_scripts_sqlite
header("Content-Type: application/json");
header("Cache-Control: no-store, no-cache, must-revalidate, max-age=0");
header("Pragma: no-cache");
$database_path = "/var/www/nebuleair_pro_4g/sqlite/sensors.db";
$type=$_GET['type'];
if ($type == "get_npm_sqlite_data") {
$database_path = "/var/www/nebuleair_pro_4g/sqlite/sensors.db";
//echo "Getting data from sqlite database";
try {
$db = new PDO("sqlite:$database_path");
@@ -25,8 +28,327 @@ if ($type == "get_npm_sqlite_data") {
}
}
/*
*/
//GETING data from config_table (SQLite DB)
if ($type == "get_config_sqlite") {
try {
$db = new PDO("sqlite:$database_path");
$db->setAttribute(PDO::ATTR_ERRMODE, PDO::ERRMODE_EXCEPTION);
// Get all main configuration entries
$config_query = $db->query("SELECT key, value, type FROM config_table");
$config_data = $config_query->fetchAll(PDO::FETCH_ASSOC);
// Convert data types according to their 'type' field
$result = [];
foreach ($config_data as $item) {
$key = $item['key'];
$value = $item['value'];
$type = $item['type'];
// Convert value based on its type
switch ($type) {
case 'bool':
$parsed_value = ($value == '1' || $value == 'true') ? true : false;
break;
case 'int':
$parsed_value = intval($value);
break;
case 'float':
$parsed_value = floatval($value);
break;
default:
$parsed_value = $value;
}
$result[$key] = $parsed_value;
}
// Return JSON response
header('Content-Type: application/json');
echo json_encode($result, JSON_PRETTY_PRINT);
} catch (PDOException $e) {
// Return error as JSON
header('Content-Type: application/json');
echo json_encode(['error' => 'Database error: ' . $e->getMessage()]);
}
}
/*
*/
//GETING data from config_scrips_table (SQLite DB)
if ($type == "get_config_scripts_sqlite") {
try {
$db = new PDO("sqlite:$database_path");
$db->setAttribute(PDO::ATTR_ERRMODE, PDO::ERRMODE_EXCEPTION);
// Get all main configuration entries
$config_query = $db->query("SELECT * FROM config_scripts_table");
$config_data = $config_query->fetchAll(PDO::FETCH_ASSOC);
// Convert data types according to their 'type' field
$result = [];
foreach ($config_data as $item) {
$script_path = $item['script_path'];
$enabled = $item['enabled'];
// Convert the enabled field to a proper boolean
$result[$script_path] = ($enabled == 1);
}
// Return JSON response
header('Content-Type: application/json');
echo json_encode($result, JSON_PRETTY_PRINT | JSON_UNESCAPED_SLASHES);
} catch (PDOException $e) {
// Return error as JSON
header('Content-Type: application/json');
echo json_encode(['error' => 'Database error: ' . $e->getMessage()]);
}
}
/*
*/
//GETING data from envea_sondes_table (SQLite DB)
if ($type == "get_envea_sondes_table_sqlite") {
try {
$db = new PDO("sqlite:$database_path");
$db->setAttribute(PDO::ATTR_ERRMODE, PDO::ERRMODE_EXCEPTION);
// Get all entries from envea_sondes_table
$query = $db->query("SELECT id, connected, port, name, coefficient FROM envea_sondes_table");
$data = $query->fetchAll(PDO::FETCH_ASSOC);
// Convert data types appropriately
$result = [];
foreach ($data as $item) {
// Create object for each sonde with proper data types
$sonde = [
'id' => (int)$item['id'],
'connected' => $item['connected'] == 1, // Convert to boolean
'port' => $item['port'],
'name' => $item['name'],
'coefficient' => (float)$item['coefficient'] // Convert to float
];
// Add to results array
$result[] = $sonde;
}
// Return JSON response
header('Content-Type: application/json');
echo json_encode($result, JSON_PRETTY_PRINT | JSON_UNESCAPED_SLASHES);
} catch (PDOException $e) {
// Return error as JSON
header('Content-Type: application/json');
echo json_encode(['error' => 'Database error: ' . $e->getMessage()]);
}
}
//UPDATING the config_table from SQLite DB
if ($type == "update_config_sqlite") {
$param = $_GET['param'] ?? null;
$value = $_GET['value'] ?? null;
if ($param === null || $value === null) {
echo json_encode(["error" => "Missing parameter or value"]);
exit;
}
try {
$db = new PDO("sqlite:$database_path");
$db->setAttribute(PDO::ATTR_ERRMODE, PDO::ERRMODE_EXCEPTION);
// First, check if parameter exists and get its type
$checkStmt = $db->prepare("SELECT type FROM config_table WHERE key = :param");
$checkStmt->bindParam(':param', $param);
$checkStmt->execute();
$result = $checkStmt->fetch(PDO::FETCH_ASSOC);
if ($result) {
// Parameter exists, determine type and update
$type = $result['type'];
// Convert value according to type if needed
$convertedValue = $value;
if ($type == "bool") {
// Convert various boolean representations to 0/1
$convertedValue = (filter_var($value, FILTER_VALIDATE_BOOLEAN)) ? "1" : "0";
} elseif ($type == "int") {
$convertedValue = (string)intval($value);
} elseif ($type == "float") {
$convertedValue = (string)floatval($value);
}
// Update the value
$updateStmt = $db->prepare("UPDATE config_table SET value = :value WHERE key = :param");
$updateStmt->bindParam(':value', $convertedValue);
$updateStmt->bindParam(':param', $param);
$updateStmt->execute();
echo json_encode([
"success" => true,
"message" => "Configuration updated successfully",
"param" => $param,
"value" => $convertedValue,
"type" => $type
]);
} else {
echo json_encode([
"error" => "Parameter not found in configuration",
"param" => $param
]);
}
} catch (PDOException $e) {
echo json_encode(["error" => $e->getMessage()]);
}
}
//UPDATING the config_scripts table from SQLite DB
if ($type == "update_config_scripts_sqlite") {
$script_path = $_GET['param'] ?? null;
$enabled = $_GET['value'] ?? null;
if ($script_path === null || $enabled === null) {
echo json_encode(["error" => "Missing parameter or value"]);
exit;
}
try {
$db = new PDO("sqlite:$database_path");
$db->setAttribute(PDO::ATTR_ERRMODE, PDO::ERRMODE_EXCEPTION);
// First, check if parameter exists and get its type
$checkStmt = $db->prepare("SELECT enabled FROM config_scripts_table WHERE script_path = :script_path");
$checkStmt->bindParam(':script_path', $script_path);
$checkStmt->execute();
$result = $checkStmt->fetch(PDO::FETCH_ASSOC);
if ($result) {
// Convert enabled value to 0 or 1
$enabledValue = (filter_var($enabled, FILTER_VALIDATE_BOOLEAN)) ? 1 : 0;
// Update the enabled status
$updateStmt = $db->prepare("UPDATE config_scripts_table SET enabled = :enabled WHERE script_path = :script_path");
$updateStmt->bindParam(':enabled', $enabledValue, PDO::PARAM_INT);
$updateStmt->bindParam(':script_path', $script_path);
$updateStmt->execute();
echo json_encode([
"success" => true,
"message" => "Script configuration updated successfully",
"script_path" => $script_path,
"enabled" => (bool)$enabledValue
], JSON_UNESCAPED_SLASHES); // Prevent escaping forward slashes
} else {
echo json_encode([
"error" => "Script path not found in configuration",
"script_path" => $script_path
], JSON_UNESCAPED_SLASHES); // Prevent escaping forward slashes
}
} catch (PDOException $e) {
echo json_encode(["error" => $e->getMessage()]);
}
}
//UPDATING the envea_sondes_table table from SQLite DB
if ($type == "update_sonde") {
$id = $_GET['id'] ?? null;
$field = $_GET['field'] ?? null;
$value = $_GET['value'] ?? null;
// Validate parameters
if ($id === null || $field === null || $value === null) {
echo json_encode([
"success" => false,
"error" => "Missing required parameters (id, field, or value)"
]);
exit;
}
// Validate field name (whitelist approach for security)
$allowed_fields = ['connected', 'port', 'name', 'coefficient'];
if (!in_array($field, $allowed_fields)) {
echo json_encode([
"success" => false,
"error" => "Invalid field name: " . $field
]);
exit;
}
try {
// Connect to the database
$db = new PDO("sqlite:$database_path");
$db->setAttribute(PDO::ATTR_ERRMODE, PDO::ERRMODE_EXCEPTION);
// Check if the sonde exists
$checkStmt = $db->prepare("SELECT id FROM envea_sondes_table WHERE id = :id");
$checkStmt->bindParam(':id', $id, PDO::PARAM_INT);
$checkStmt->execute();
if (!$checkStmt->fetch()) {
echo json_encode([
"success" => false,
"error" => "Sonde with ID $id not found"
]);
exit;
}
// Process value based on field type
if ($field == 'connected') {
// Convert to integer (0 or 1)
$processedValue = filter_var($value, FILTER_VALIDATE_BOOLEAN) ? 1 : 0;
$paramType = PDO::PARAM_INT;
} else if ($field == 'coefficient') {
// Convert to float
$processedValue = floatval($value);
$paramType = PDO::PARAM_STR; // SQLite doesn't have PARAM_FLOAT
} else {
// For text fields (port, name)
$processedValue = $value;
$paramType = PDO::PARAM_STR;
}
// Update the sonde record
$updateStmt = $db->prepare("UPDATE envea_sondes_table SET $field = :value WHERE id = :id");
$updateStmt->bindParam(':value', $processedValue, $paramType);
$updateStmt->bindParam(':id', $id, PDO::PARAM_INT);
$updateStmt->execute();
// Return success response
echo json_encode([
"success" => true,
"message" => "Sonde $id updated successfully",
"field" => $field,
"value" => $processedValue
]);
} catch (PDOException $e) {
// Return error as JSON
echo json_encode([
"success" => false,
"error" => "Database error: " . $e->getMessage()
]);
}
}
//update the config (old JSON updating)
if ($type == "update_config") {
echo "updating....";
echo "updating.... ";
$param=$_GET['param'];
$value=$_GET['value'];
$configFile = '../config.json';
@@ -101,9 +423,50 @@ if ($type == "set_RTC_withBrowser") {
if ($type == "clear_loopLogs") {
$command = 'truncate -s 0 /var/www/nebuleair_pro_4g/logs/loop.log';
$output = shell_exec($command);
echo $output;
$response = array();
try {
$logPath = '/var/www/nebuleair_pro_4g/logs/master.log';
// Check if file exists and is writable
if (!file_exists($logPath)) {
throw new Exception("Log file does not exist");
}
if (!is_writable($logPath)) {
throw new Exception("Log file is not writable");
}
// Execute the command
$command = 'truncate -s 0 ' . escapeshellarg($logPath);
$output = shell_exec($command . ' 2>&1');
// Check if there was any error output
if (!empty($output)) {
throw new Exception("Command error: " . $output);
}
// Success response
$response = array(
'status' => 'success',
'message' => 'Logs cleared successfully',
'timestamp' => date('Y-m-d H:i:s')
);
} catch (Exception $e) {
// Error response
$response = array(
'status' => 'error',
'message' => $e->getMessage(),
'timestamp' => date('Y-m-d H:i:s')
);
}
// Set content type to JSON
header('Content-Type: application/json');
// Return the JSON response
echo json_encode($response);
exit;
}
if ($type == "database_size") {
@@ -268,34 +631,62 @@ if ($type == "sara_connectNetwork") {
$port=$_GET['port'];
$timeout=$_GET['timeout'];
$networkID=$_GET['networkID'];
$param="SARA_R4_neworkID";
//echo "updating SARA_R4_networkID in config file";
//OLD way to store data (JSON file)
// Convert `networkID` to an integer (or float if needed)
//$networkID = is_numeric($networkID) ? (strpos($networkID, '.') !== false ? (float)$networkID : (int)$networkID) : 0;
#save to config.json
//$configFile = '/var/www/nebuleair_pro_4g/config.json';
// Read the JSON file
//$jsonData = file_get_contents($configFile);
// Decode JSON data into an associative array
//$config = json_decode($jsonData, true);
// Check if decoding was successful
//if ($config === null) {
// die("Error: Could not decode JSON file.");
//}
// Update the value of SARA_R4_networkID
//$config['SARA_R4_neworkID'] = $networkID; // Replace 42 with the desired value
// Encode the array back to JSON with pretty printing
//$newJsonData = json_encode($config, JSON_PRETTY_PRINT);
// Check if encoding was successful
//if ($newJsonData === false) {
// die("Error: Could not encode JSON data.");
//}
// Write the updated JSON back to the file
//if (file_put_contents($configFile, $newJsonData) === false) {
// die("Error: Could not write to JSON file.");
//}
//echo "SARA_R4_networkID updated successfully.";
//NEW way to store data -> use SQLITE
try {
$db = new PDO("sqlite:$database_path");
$db->setAttribute(PDO::ATTR_ERRMODE, PDO::ERRMODE_EXCEPTION);
$updateStmt = $db->prepare("UPDATE config_table SET value = :value WHERE key = :param");
$updateStmt->bindParam(':value', $networkID);
$updateStmt->bindParam(':param', $param);
$updateStmt->execute();
echo "SARA_R4_networkID updated successfully.";
} catch (PDOException $e) {
// Return error as JSON
header('Content-Type: application/json');
echo json_encode(['error' => 'Database error: ' . $e->getMessage()]);
}
//echo "connecting to network... please wait...";
$command = 'sudo /usr/bin/python3 /var/www/nebuleair_pro_4g/SARA/sara_connectNetwork.py ' . $port . ' ' . $networkID . ' ' . $timeout;
$output = shell_exec($command);
echo $output;
#save to config.json
$configFile = '/var/www/nebuleair_pro_4g/config.json';
// Read the JSON file
$jsonData = file_get_contents($configFile);
// Decode JSON data into an associative array
$config = json_decode($jsonData, true);
// Check if decoding was successful
if ($config === null) {
die("Error: Could not decode JSON file.");
}
// Update the value of SARA_R4_networkID
$config['SARA_R4_neworkID'] = $networkID; // Replace 42 with the desired value
// Encode the array back to JSON with pretty printing
$newJsonData = json_encode($config, JSON_PRETTY_PRINT);
// Check if encoding was successful
if ($newJsonData === false) {
die("Error: Could not encode JSON data.");
}
// Write the updated JSON back to the file
if (file_put_contents($configFile, $newJsonData) === false) {
die("Error: Could not write to JSON file.");
}
echo "SARA_R4_networkID updated successfully.";
}
@@ -476,3 +867,150 @@ if ($type == "wifi_scan_old") {
echo $json_data;
}
/*
_____ _ _
|_ _|__ _ __ _ __ ___ (_)_ __ __ _| |
| |/ _ \ '__| '_ ` _ \| | '_ \ / _` | |
| | __/ | | | | | | | | | | | (_| | |
|_|\___|_| |_| |_| |_|_|_| |_|\__,_|_|
*/
// Execute shell command with security restrictions
if ($type == "execute_command") {
// Verify that the request is using POST method
if ($_SERVER['REQUEST_METHOD'] !== 'POST') {
echo json_encode(['success' => false, 'message' => 'Invalid request method']);
exit;
}
// Get the command from POST data
$command = isset($_POST['command']) ? $_POST['command'] : '';
if (empty($command)) {
echo json_encode(['success' => false, 'message' => 'No command provided']);
exit;
}
// List of allowed commands (prefixes)
$allowedCommands = [
'ls', 'cat', 'cd', 'pwd', 'df', 'free', 'ifconfig', 'ip', 'ps', 'date', 'uptime',
'systemctl status', 'whoami', 'hostname', 'uname', 'grep', 'tail', 'head', 'find',
'less', 'more', 'du', 'echo', 'git'
];
// Check if command is allowed
$allowed = false;
foreach ($allowedCommands as $allowedCmd) {
if (strpos($command, $allowedCmd) === 0) {
$allowed = true;
break;
}
}
// Special case for systemctl restart and reboot
if (strpos($command, 'systemctl restart') === 0 || $command === 'reboot') {
// These commands don't return output through shell_exec since they change process state
// We'll just acknowledge them
if ($command === 'reboot') {
// Execute the command with exec to avoid waiting for output
exec('sudo reboot > /dev/null 2>&1 &');
echo json_encode([
'success' => true,
'output' => 'System is rebooting...'
]);
} else {
// For systemctl restart, execute it and acknowledge
$serviceName = str_replace('systemctl restart ', '', $command);
exec('sudo systemctl restart ' . escapeshellarg($serviceName) . ' > /dev/null 2>&1 &');
echo json_encode([
'success' => true,
'output' => 'Service ' . $serviceName . ' is restarting...'
]);
}
exit;
}
// Check for prohibited patterns
$prohibitedPatterns = [
'sudo rm', ';', '&&', '||', '|', '>', '>>', '&',
'wget', 'curl', 'nc', 'ssh', 'scp', 'ftp', 'telnet',
'iptables', 'passwd', 'chown', 'chmod', 'mkfs', ' dd ',
'mount', 'umount', 'kill', 'killall'
];
foreach ($prohibitedPatterns as $pattern) {
if (strpos($command, $pattern) !== false) {
echo json_encode([
'success' => false,
'message' => 'Command contains prohibited operation: ' . $pattern
]);
exit;
}
}
if (!$allowed) {
echo json_encode([
'success' => false,
'message' => 'Command not allowed for security reasons'
]);
exit;
}
// Execute the command with timeout protection
$descriptorspec = [
0 => ["pipe", "r"], // stdin
1 => ["pipe", "w"], // stdout
2 => ["pipe", "w"] // stderr
];
// Escape the command to prevent shell injection
$escapedCommand = escapeshellcmd($command);
// Add timeout of 5 seconds to prevent long-running commands
$process = proc_open("timeout 5 $escapedCommand", $descriptorspec, $pipes);
if (is_resource($process)) {
// Close stdin pipe
fclose($pipes[0]);
// Get output from stdout
$output = stream_get_contents($pipes[1]);
fclose($pipes[1]);
// Get any errors
$errors = stream_get_contents($pipes[2]);
fclose($pipes[2]);
// Close the process
$returnValue = proc_close($process);
// Check for errors
if ($returnValue !== 0) {
// If there was an error, but we have output, consider it a partial success
if (!empty($output)) {
echo json_encode([
'success' => true,
'output' => $output . "\n" . $errors . "\nCommand exited with code $returnValue"
]);
} else {
echo json_encode([
'success' => false,
'message' => empty($errors) ? "Command failed with exit code $returnValue" : $errors
]);
}
} else {
// Success
echo json_encode([
'success' => true,
'output' => $output
]);
}
} else {
echo json_encode([
'success' => false,
'message' => 'Failed to execute command'
]);
}
}

170
html/logs.html
View File

@@ -56,7 +56,10 @@
<div class="col-lg-6 col-12">
<div class="card" style="height: 80vh;">
<div class="card-header">
Master logs <button type="submit" class="btn btn-secondary btn-sm" onclick="clear_loopLogs()">Clear</button>
Master logs
<button type="submit" class="btn btn-secondary btn-sm" id="refresh-master-log">Refresh</button>
<button type="submit" class="btn btn-secondary btn-sm" onclick="clear_loopLogs()">Clear</button>
<span id="script_running"></span>
</div>
<div class="card-body overflow-auto" id="card_loop_content">
@@ -69,6 +72,7 @@
<div class="card" style="height: 80vh;">
<div class="card-header">
Boot logs
<button type="submit" class="btn btn-secondary btn-sm" id="refresh-boot-log">Refresh</button>
</div>
<div class="card-body overflow-auto" id="card_boot_content">
@@ -111,65 +115,17 @@
const boot_card_content = document.getElementById('card_boot_content');
//Getting Master logs
console.log("Getting master logs");
fetch('../logs/master.log')
.then((response) => {
console.log("OK");
if (!response.ok) {
throw new Error('Failed to fetch the log file.');
}
return response.text();
})
.then((data) => {
const lines = data.split('\n');
// Format log content
const formattedLog = lines
.map((line) => line.trim()) // Remove extra whitespace
.filter((line) => line) // Remove empty lines
.join('<br>'); // Join formatted lines with line breaks
loop_card_content.innerHTML = `<pre style="white-space: pre-wrap; word-wrap: break-word; margin: 0;">${formattedLog}</pre>`;
loop_card_content.scrollTop = loop_card_content.scrollHeight; // Scroll to the bottom
})
.catch((error) => {
console.error(error);
loop_card_content.textContent = 'Error loading log file.';
});
console.log("Getting SARA logs");
displayLogFile('../logs/sara_service.log', loop_card_content, true, 1000);
console.log("Getting app/boot logs");
displayLogFile('../logs/app.log', boot_card_content, true, 1000);
//Getting App logs
fetch('../logs/app.log')
.then((response) => {
console.log("OK");
if (!response.ok) {
throw new Error('Failed to fetch the log file.');
}
return response.text();
})
.then((data) => {
const lines = data.split('\n');
// Format log content
const formattedLog = lines
.map((line) => line.trim()) // Remove extra whitespace
.filter((line) => line) // Remove empty lines
.join('<br>'); // Join formatted lines with line breaks
boot_card_content.innerHTML = `<pre style="white-space: pre-wrap; word-wrap: break-word; margin: 0;">${formattedLog}</pre>`;
boot_card_content.scrollTop = loop_card_content.scrollHeight; // Scroll to the bottom
})
.catch((error) => {
console.error(error);
boot_card_content.textContent = 'Error loading log file.';
});
// Setup master log with refresh button
setupLogRefreshButton('refresh-master-log', '../logs/sara_service.log', 'card_loop_content', 3000);
// Setup boot log with refresh button
setupLogRefreshButton('refresh-boot-log', '../logs/app.log', 'card_boot_content', 300);
});
@@ -179,21 +135,33 @@ window.onload = function() {
getModem_busy_status();
setInterval(getModem_busy_status, 2000);
fetch('../config.json') // Replace 'deviceID.txt' with 'config.json'
.then(response => response.json()) // Parse response as JSON
.then(data => {
console.log("Getting config file (onload)");
//get device ID
const deviceID = data.deviceID.trim().toUpperCase();
// document.getElementById('pageTitle_plus_ID').innerText = 'token: ' + deviceID;
//get device Name
const deviceName = data.deviceName;
//NEW way to get config (SQLite)
$.ajax({
url: 'launcher.php?type=get_config_sqlite',
dataType:'json',
//dataType: 'json', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
success: function(response) {
console.log("Getting SQLite config table:");
console.log(response);
//device name_side bar
const elements = document.querySelectorAll('.sideBar_sensorName');
elements.forEach((element) => {
element.innerText = deviceName;
element.innerText = response.deviceName;
});
//device name html page title
if (response.deviceName) {
document.title = response.deviceName;
}
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});//end AJAX
//get local RTC
$.ajax({
@@ -210,10 +178,78 @@ window.onload = function() {
}
});
}//end onload
function displayLogFile(logFilePath, containerElement, scrollToBottom = true, maxLines = 0) {
// Show loading indicator
containerElement.innerHTML = '<div class="text-center"><i>Loading log file...</i></div>';
return fetch(logFilePath)
.then((response) => {
if (!response.ok) {
throw new Error(`Failed to fetch the log file: ${response.status} ${response.statusText}`);
}
return response.text();
})
.catch(error => console.error('Error loading config.json:', error));
.then((data) => {
// Split the log into lines
let lines = data.split('\n');
// Apply max lines limit if specified
if (maxLines > 0 && lines.length > maxLines) {
lines = lines.slice(-maxLines); // Get only the last N lines
}
// Format log content
const formattedLog = lines
.map((line) => line.trim()) // Remove extra whitespace
.filter((line) => line) // Remove empty lines
.join('<br>'); // Join formatted lines with line breaks
// Display the formatted log
containerElement.innerHTML = `<pre style="white-space: pre-wrap; word-wrap: break-word; margin: 0;">${formattedLog}</pre>`;
// Scroll to bottom if requested
if (scrollToBottom) {
containerElement.scrollTop = containerElement.scrollHeight;
}
return formattedLog; // Return the formatted log in case the caller needs it
})
.catch((error) => {
console.error(`Error loading log file ${logFilePath}:`, error);
containerElement.innerHTML = `<div class="text-danger">Error loading log file: ${error.message}</div>`;
throw error; // Re-throw the error for the caller to handle if needed
});
}
/**
* Set up a refresh button for a log file
* @param {string} buttonId - ID of the button element
* @param {string} logFilePath - Path to the log file
* @param {string} containerId - ID of the container to display the log in
* @param {number} maxLines - Maximum number of lines to display (0 for all)
*/
function setupLogRefreshButton(buttonId, logFilePath, containerId, maxLines = 0) {
console.log("Refreshing logs");
const button = document.getElementById(buttonId);
const container = document.getElementById(containerId);
if (!button || !container) {
console.error('Button or container element not found');
return;
}
// Initial load
displayLogFile(logFilePath, container, true, maxLines);
// Set up button click handler
button.addEventListener('click', () => {
displayLogFile(logFilePath, container, true, maxLines);
});
}
function clear_loopLogs(){
console.log("Clearing loop logs");

227
html/saraR4.html
View File

@@ -59,11 +59,12 @@
</div>
<span id="modem_status_message"></span>
<!--
<h3>
Status
<span id="modem-status" class="badge">Loading...</span>
</h3>
-->
<div class="row mb-3">
<div class="col-sm-3">
@@ -71,7 +72,7 @@
<div class="card-body">
<p class="card-text">General information. </p>
<button class="btn btn-primary" onclick="getData_saraR4('ttyAMA2', 'ATI', 2)">Get Data</button>
<button class="btn btn-primary" onclick="getData_saraR4('ttyAMA2', 'ATI', 1)">Get Data</button>
<div id="loading_ttyAMA2_ATI" class="spinner-border spinner-border-sm" style="display: none;" role="status"></div>
<div id="response_ttyAMA2_ATI"></div>
@@ -84,7 +85,7 @@
<div class="card-body">
<p class="card-text">SIM card information.</p>
<button class="btn btn-primary" onclick="getData_saraR4('ttyAMA2', 'AT+CCID?', 2)">Get Data</button>
<button class="btn btn-primary" onclick="getData_saraR4('ttyAMA2', 'AT+CCID?', 1)">Get Data</button>
<div id="loading_ttyAMA2_AT_CCID_" class="spinner-border spinner-border-sm" style="display: none;" role="status"></div>
<div id="response_ttyAMA2_AT_CCID_"></div>
</div>
@@ -109,7 +110,7 @@
<div class="card">
<div class="card-body">
<p class="card-text">Signal strength </p>
<button class="btn btn-primary" onclick="getData_saraR4('ttyAMA2', 'AT+CSQ', 2)">Get Data</button>
<button class="btn btn-primary" onclick="getData_saraR4('ttyAMA2', 'AT+CSQ', 1)">Get Data</button>
<div id="loading_ttyAMA2_AT_CSQ" class="spinner-border spinner-border-sm" style="display: none;" role="status"></div>
<div id="response_ttyAMA2_AT_CSQ"></div>
</table>
@@ -121,7 +122,7 @@
<div class="card">
<div class="card-body">
<p class="card-text">Modem Reset </p>
<button class="btn btn-danger" onclick="getData_saraR4('ttyAMA2', 'AT+CFUN=15', 2)">Reset</button>
<button class="btn btn-danger" onclick="getData_saraR4('ttyAMA2', 'AT+CFUN=15', 1)">Reset</button>
<div id="loading_ttyAMA2_AT_CFUN_15" class="spinner-border spinner-border-sm" style="display: none;" role="status"></div>
<div id="response_ttyAMA2_AT_CFUN_15"></div>
</table>
@@ -305,6 +306,19 @@
</div>
<!-- toast -->
<div class="toast-container position-fixed bottom-0 end-0 p-3">
<div id="liveToast" class="toast align-items-center text-bg-primary border-1" role="alert" aria-live="assertive" aria-atomic="true">
<div class="d-flex">
<div class="toast-body">
Hello, world! This is a toast message.
</div>
<button type="button" class="btn-close btn-close-white me-2 m-auto" data-bs-dismiss="toast" aria-label="Close"></button>
</div>
</div>
</div>
</main>
</div>
</div>
@@ -317,7 +331,7 @@
<script src="assets/js/bootstrap.bundle.js"></script>
<script>
document.addEventListener('DOMContentLoaded', function () {
document.addEventListener('DOMContentLoaded', function () {
const elementsToLoad = [
{ id: 'topbar', file: 'topbar.html' },
{ id: 'sidebar', file: 'sidebar.html' },
@@ -336,6 +350,8 @@
.catch(error => console.error(`Error loading ${file}:`, error));
});
//OLD way to retreive data from JSON
/*
fetch('../config.json') // Replace 'deviceID.txt' with 'config.json'
.then(response => response.json()) // Parse response as JSON
.then(data => {
@@ -344,11 +360,89 @@
const check_modem_configMode = document.getElementById("check_modem_configMode");
check_modem_configMode.checked = data.modem_config_mode;
console.log("Modem configuration: " + data.modem_config_mode);
})
*/
//NEW way to get data from SQLITE
$.ajax({
url: 'launcher.php?type=get_config_sqlite',
dataType:'json',
//dataType: 'json', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
success: function(response) {
console.log("Getting SQLite config table:");
console.log(response);
//modem_version
const modem_version_html = document.getElementById("modem_version");
modem_version_html.innerText = response.modem_version;
// Set checkbox state based on the response data
const check_modem_configMode = document.getElementById("check_modem_configMode");
if (check_modem_configMode) {
check_modem_configMode.checked = response.modem_config_mode;
console.log("Modem configuration: " + response.modem_config_mode);
} else {
console.error("Checkbox element not found");
}
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});
});
window.onload = function() {
getModem_busy_status();
setInterval(getModem_busy_status, 1000);
//NEW way to get config (SQLite)
$.ajax({
url: 'launcher.php?type=get_config_sqlite',
dataType:'json',
//dataType: 'json', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
success: function(response) {
console.log("Getting SQLite config table:");
console.log(response);
//device name_side bar
const elements = document.querySelectorAll('.sideBar_sensorName');
elements.forEach((element) => {
element.innerText = response.deviceName;
});
//device name html page title
if (response.deviceName) {
document.title = response.deviceName;
}
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});//end AJAX
//get local RTC
$.ajax({
url: 'launcher.php?type=RTC_time',
dataType: 'text', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
success: function(response) {
console.log("Local RTC: " + response);
const RTC_Element = document.getElementById("RTC_time");
RTC_Element.textContent = response;
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});
}
function getData_saraR4(port, command, timeout){
console.log("Data from SaraR4");
console.log("Port: " + port );
@@ -430,8 +524,10 @@ function getData_saraR4(port, command, timeout){
} else{
// si c'est une commande AT normale
// Replace newline characters with <br> tags
const formattedResponse = response.replace(/\n/g, "<br>");
const formattedResponse = response.replace(/\n/g, "<br>")
.replace(/\b(OK)\b/g, '<span style="color: green; font-weight: bold;">$1</span>');;
$("#response_"+port+"_"+safeCommand).html(formattedResponse);
}
},
error: function(xhr, status, error) {
@@ -700,84 +796,75 @@ function getModem_busy_status() {
}
function update_modem_configMode(param, checked){
//change ('modem_config_mode', '0', 'bool') inside SQLITE db
// response type: {"success":true,"message":"Configuration updated successfully","param":"modem_config_mode","value":"0","type":"bool"}
const toastLiveExample = document.getElementById('liveToast')
const toastBody = toastLiveExample.querySelector('.toast-body');
console.log("updating modem config mode to :" + checked);
$.ajax({
url: 'launcher.php?type=update_config&param='+param+'&value='+checked,
dataType: 'text', // Specify that you expect a JSON response
url: 'launcher.php?type=update_config_sqlite&param='+param+'&value='+checked,
dataType: 'json', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
cache: false, // Prevent AJAX from caching
success: function(response) {
console.log("AJAX success:");
console.log(response);
// Format the response nicely
let formattedMessage = '';
if (response.success) {
// Success message
toastLiveExample.classList.remove('text-bg-danger');
toastLiveExample.classList.add('text-bg-success');
formattedMessage = `
<strong>Success!</strong><br>
Parameter: ${response.param || param}<br>
Value: ${response.value || checked}<br>
${response.message || ''}
`;
} else {
// Error message
toastLiveExample.classList.remove('text-bg-success');
toastLiveExample.classList.add('text-bg-danger');
formattedMessage = `
<strong>Error!</strong><br>
${response.error || 'Unknown error'}<br>
Parameter: ${response.param || param}
`;
}
// Update the toast body with formatted content
toastBody.innerHTML = formattedMessage;
// Show the toast
const toastBootstrap = bootstrap.Toast.getOrCreateInstance(toastLiveExample)
toastBootstrap.show()
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
// Update toast with error message
toastBody.textContent = 'Error: ' + error;
// Set toast to danger color
toastLiveExample.classList.remove('text-bg-success');
toastLiveExample.classList.add('text-bg-danger');
// Show the toast for errors too
const toastBootstrap = bootstrap.Toast.getOrCreateInstance(toastLiveExample);
toastBootstrap.show();
}
});
}
window.onload = function() {
getModem_busy_status();
setInterval(getModem_busy_status, 1000);
fetch('../config.json') // Replace 'deviceID.txt' with 'config.json'
.then(response => response.json()) // Parse response as JSON
.then(data => {
//get device ID
const deviceID = data.deviceID.trim().toUpperCase();
//document.getElementById('pageTitle_plus_ID').innerText = 'token: ' + deviceID;
//get device Name
const deviceName = data.deviceName;
//get modem version
const modem_version = data.modem_version;
const modem_version_html = document.getElementById("modem_version");
modem_version_html.textContent = modem_version;
const elements = document.querySelectorAll('.sideBar_sensorName');
elements.forEach((element) => {
element.innerText = deviceName;
});
//get SARA_R4 connection status
const SARA_statusElement = document.getElementById("modem-status");
console.log("SARA R4 is: " + data.SARA_R4_network_status);
if (data.SARA_R4_network_status === "connected") {
SARA_statusElement.textContent = "Connected";
SARA_statusElement.className = "badge text-bg-success";
} else if (data.SARA_R4_network_status === "disconnected") {
SARA_statusElement.textContent = "Disconnected";
SARA_statusElement.className = "badge text-bg-danger";
} else {
SARA_statusElement.textContent = "Unknown";
SARA_statusElement.className = "badge text-bg-secondary";
}
//get local RTC
$.ajax({
url: 'launcher.php?type=RTC_time',
dataType: 'text', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
success: function(response) {
console.log("Local RTC: " + response);
const RTC_Element = document.getElementById("RTC_time");
RTC_Element.textContent = response;
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});
})
.catch(error => console.error('Error loading config.json:', error));
}
</script>
</body>

213
html/sensors.html
View File

@@ -144,27 +144,25 @@ function getNPM_values(port){
}
function getENVEA_values(port, name){
console.log("Data from Envea "+ name+" (port "+port+"):");
$("#loading_envea"+name).show();
console.log("Data from Envea " + name + " (port " + port + "):");
$("#loading_envea" + name).show();
$.ajax({
url: 'launcher.php?type=envea&port='+port+'&name='+name,
dataType: 'json', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
url: 'launcher.php?type=envea&port=' + port + '&name=' + name,
dataType: 'json',
method: 'GET',
success: function(response) {
console.log(response);
const tableBody = document.getElementById("data-table-body_envea"+name);
const tableBody = document.getElementById("data-table-body_envea" + name);
tableBody.innerHTML = "";
$("#loading_envea"+name).hide();
// Create an array of the desired keys
// Create an array of the desired keys
$("#loading_envea" + name).hide();
const keysToShow = [name];
// Add only the specified elements to the table
keysToShow.forEach(key => {
if (response !== undefined) { // Check if the key exists in the response
if (response !== undefined) {
const value = response;
$("#data-table-body_envea"+name).append(`
$("#data-table-body_envea" + name).append(`
<tr>
<td>${key}</td>
<td>${value} ppb</td>
@@ -175,9 +173,21 @@ function getENVEA_values(port, name){
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
const tableBody = document.getElementById("data-table-body_envea" + name);
$("#loading_envea" + name).hide();
tableBody.innerHTML = `
<tr>
<td colspan="2" class="text-danger">
❌ Error: unable to get data from sensor.<br>
<small>${status}: ${error}</small>
</td>
</tr>
`;
}
});
}
}
function getNoise_values(){
console.log("Data from I2C Noise Sensor:");
@@ -261,92 +271,68 @@ function getBME280_values(){
window.onload = function() {
fetch('../config.json') // Replace 'deviceID.txt' with 'config.json'
.then(response => response.json()) // Parse response as JSON
.then(data => {
//get device ID
const deviceID = data.deviceID.trim().toUpperCase();
//document.getElementById('pageTitle_plus_ID').innerText = 'token: ' + deviceID;
//get device Name
const deviceName = data.deviceName;
const elements = document.querySelectorAll('.sideBar_sensorName');
elements.forEach((element) => {
element.innerText = deviceName;
});
//get local RTC
$.ajax({
url: 'launcher.php?type=RTC_time',
dataType: 'text', // Specify that you expect a JSON response
//NEW way to get config (SQLite)
$.ajax({
url: 'launcher.php?type=get_config_sqlite',
dataType:'json',
//dataType: 'json', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
success: function(response) {
console.log("Local RTC: " + response);
const RTC_Element = document.getElementById("RTC_time");
RTC_Element.textContent = response;
console.log("Getting SQLite config table:");
console.log(response);
//device name_side bar
const elements = document.querySelectorAll('.sideBar_sensorName');
elements.forEach((element) => {
element.innerText = response.deviceName;
});
},
error: function(xhr, status, error) {
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});
}
});//end AJAX
//getting config_scripts table
$.ajax({
url: 'launcher.php?type=get_config_scripts_sqlite',
dataType:'json',
//dataType: 'json', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
success: function(response) {
console.log("Getting SQLite config scripts table:");
console.log(response);
const container = document.getElementById('card-container'); // Conteneur des cartes
//creates NPM cards
const NPM_ports = data.NextPM_ports; // Récupère les ports
NPM_ports.forEach((port, index) => {
//creates NPM card
if (response["NPM/get_data_modbus_v3.py"]) {
const cardHTML = `
<div class="col-sm-3">
<div class="card">
<div class="card-header">
Port UART ${port.replace('ttyAMA', '')}
Port UART
</div>
<div class="card-body">
<h5 class="card-title">NextPM ${String.fromCharCode(65 + index)}</h5>
<h5 class="card-title">NextPM</h5>
<p class="card-text">Capteur particules fines.</p>
<button class="btn btn-primary" onclick="getNPM_values('${port}')">Get Data</button>
<div id="loading_${port}" class="spinner-border spinner-border-sm" style="display: none;" role="status"></div>
<button class="btn btn-primary" onclick="getNPM_values('ttyAMA5')">Get Data</button>
<br>
<div id="loading_ttyAMA5" class="spinner-border spinner-border-sm" style="display: none;" role="status"></div>
<table class="table table-striped-columns">
<tbody id="data-table-body_${port}"></tbody>
<tbody id="data-table-body_ttyAMA5"></tbody>
</table>
</div>
</div>
</div>`;
container.innerHTML += cardHTML; // Ajouter la carte au conteneur
});
//creates ENVEA cards
const ENVEA_sensors = data.envea_sondes.filter(sonde => sonde.connected); // Filter only connected sondes
ENVEA_sensors.forEach((sensor, index) => {
const port = sensor.port; // Port from the sensor object
const name = sensor.name; // Port from the sensor object
const coefficient = sensor.coefficient;
const cardHTML = `
<div class="col-sm-3">
<div class="card">
<div class="card-header">
Port UART ${port.replace('ttyAMA', '')}
</div>
<div class="card-body">
<h5 class="card-title">Sonde Envea ${name}</h5>
<p class="card-text">Capteur gas.</p>
<button class="btn btn-primary" onclick="getENVEA_values('${port}','${name}','${coefficient}')">Get Data</button>
<div id="loading_envea${name}" class="spinner-border spinner-border-sm" style="display: none;" role="status"></div>
<table class="table table-striped-columns">
<tbody id="data-table-body_envea${name}"></tbody>
</table>
</div>
</div>
</div>`;
container.innerHTML += cardHTML; // Ajouter la carte au conteneur
});
container.innerHTML += cardHTML; // Add the I2C card if condition is met
}
//creates i2c BME280 card
if (data["BME280/get_data_v2.py"]) {
if (response["BME280/get_data_v2.py"]) {
const i2C_BME_HTML = `
<div class="col-sm-3">
<div class="card">
@@ -370,7 +356,7 @@ window.onload = function() {
}
//creates i2c sound card
if (data.i2C_sound) {
if (response.i2C_sound) {
const i2C_HTML = `
<div class="col-sm-3">
<div class="card">
@@ -395,9 +381,80 @@ window.onload = function() {
container.innerHTML += i2C_HTML; // Add the I2C card if condition is met
}
})
.catch(error => console.error('Error loading config.json:', error));
//Si on a des SONDES ENVEA connectée il faut faire un deuxième call dans la table envea_sondes_table
//creates ENVEA cards
if (response["envea/read_value_v2.py"]) {
console.log("Need to display ENVEA sondes");
//getting config_scripts table
$.ajax({
url: 'launcher.php?type=get_envea_sondes_table_sqlite',
dataType:'json',
//dataType: 'json', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
success: function(sondes) {
console.log("Getting SQLite envea sondes table:");
console.log(sondes);
const ENVEA_sensors = sondes.filter(sonde => sonde.connected); // Filter only connected sondes
ENVEA_sensors.forEach((sensor, index) => {
const port = sensor.port; // Port from the sensor object
const name = sensor.name; // Port from the sensor object
const coefficient = sensor.coefficient;
const cardHTML = `
<div class="col-sm-3">
<div class="card">
<div class="card-header">
Port UART ${port.replace('ttyAMA', '')}
</div>
<div class="card-body">
<h5 class="card-title">Sonde Envea ${name}</h5>
<p class="card-text">Capteur gas.</p>
<button class="btn btn-primary" onclick="getENVEA_values('${port}','${name}')">Get Data</button>
<div id="loading_envea${name}" class="spinner-border spinner-border-sm" style="display: none;" role="status"></div>
<table class="table table-striped-columns">
<tbody id="data-table-body_envea${name}"></tbody>
</table>
</div>
</div>
</div>`;
container.innerHTML += cardHTML; // Ajouter la carte au conteneur
});
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});//end AJAX envea Sondes
}//end if
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});//end AJAX (config_scripts)
//get local RTC
$.ajax({
url: 'launcher.php?type=RTC_time',
dataType: 'text', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
success: function(response) {
console.log("Local RTC: " + response);
const RTC_Element = document.getElementById("RTC_time");
RTC_Element.textContent = response;
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});
} //end windows onload
</script>
</body>

6
html/sidebar.html
View File

@@ -47,6 +47,12 @@
</svg>
Carte
</a>
<a class="nav-link text-white" href="terminal.html">
<svg xmlns="http://www.w3.org/2000/svg" width="16" height="16" fill="currentColor" class="bi bi-terminal-fill" viewBox="0 0 16 16">
<path d="M0 3a2 2 0 0 1 2-2h12a2 2 0 0 1 2 2v10a2 2 0 0 1-2 2H2a2 2 0 0 1-2-2V3zm9.5 5.5h-3a.5.5 0 0 0 0 1h3a.5.5 0 0 0 0-1zm-6.354-.354a.5.5 0 1 0 .708.708l2-2a.5.5 0 0 0 0-.708l-2-2a.5.5 0 1 0-.708.708L4.793 6.5 3.146 8.146z"/>
</svg>
Terminal
</a>
<a class="nav-link text-white" href="admin.html">
<svg xmlns="http://www.w3.org/2000/svg" width="16" height="16" fill="currentColor" class="bi bi-tools" viewBox="0 0 16 16">
<path d="M1 0 0 1l2.2 3.081a1 1 0 0 0 .815.419h.07a1 1 0 0 1 .708.293l2.675 2.675-2.617 2.654A3.003 3.003 0 0 0 0 13a3 3 0 1 0 5.878-.851l2.654-2.617.968.968-.305.914a1 1 0 0 0 .242 1.023l3.27 3.27a.997.997 0 0 0 1.414 0l1.586-1.586a.997.997 0 0 0 0-1.414l-3.27-3.27a1 1 0 0 0-1.023-.242L10.5 9.5l-.96-.96 2.68-2.643A3.005 3.005 0 0 0 16 3q0-.405-.102-.777l-2.14 2.141L12 4l-.364-1.757L13.777.102a3 3 0 0 0-3.675 3.68L7.462 6.46 4.793 3.793a1 1 0 0 1-.293-.707v-.071a1 1 0 0 0-.419-.814zm9.646 10.646a.5.5 0 0 1 .708 0l2.914 2.915a.5.5 0 0 1-.707.707l-2.915-2.914a.5.5 0 0 1 0-.708M3 11l.471.242.529.026.287.445.445.287.026.529L5 13l-.242.471-.026.529-.445.287-.287.445-.529.026L3 15l-.471-.242L2 14.732l-.287-.445L1.268 14l-.026-.529L1 13l.242-.471.026-.529.445-.287.287-.445.529-.026z"/>

413
html/terminal.html Normal file
View File

@@ -0,0 +1,413 @@
<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<title>NebuleAir - Terminal</title>
<link rel="stylesheet" href="assets/css/bootstrap.min.css">
<style>
body {
overflow-x: hidden;
}
#sidebar a.nav-link {
position: relative;
display: flex;
align-items: center;
}
#sidebar a.nav-link:hover {
background-color: rgba(0, 0, 0, 0.5);
}
#sidebar a.nav-link svg {
margin-right: 8px; /* Add spacing between icons and text */
}
#sidebar {
transition: transform 0.3s ease-in-out;
}
.offcanvas-backdrop {
z-index: 1040;
}
#terminal {
width: 100%;
min-height: 400px;
max-height: 400px;
overflow-y: auto;
background-color: #000;
color: #00ff00;
font-family: monospace;
padding: 10px;
border-radius: 5px;
white-space: pre-wrap;
word-wrap: break-word;
}
#cmdLine {
width: 100%;
background-color: #000;
color: #00ff00;
font-family: monospace;
padding: 10px;
border: none;
border-radius: 0 0 5px 5px;
margin-top: -1px;
}
#cmdLine:focus {
outline: none;
}
.command-container {
display: none;
}
.password-popup {
display: none;
position: fixed;
top: 0;
left: 0;
width: 100%;
height: 100%;
background-color: rgba(0, 0, 0, 0.5);
z-index: 2000;
justify-content: center;
align-items: center;
}
.password-container {
background-color: white;
padding: 20px;
border-radius: 5px;
box-shadow: 0 0 10px rgba(0, 0, 0, 0.3);
width: 300px;
}
.limited-commands {
background-color: #f8f9fa;
padding: 15px;
border-radius: 5px;
margin-bottom: 15px;
}
.limited-commands code {
white-space: nowrap;
margin-right: 10px;
margin-bottom: 5px;
display: inline-block;
}
</style>
</head>
<body>
<!-- Topbar -->
<span id="topbar"></span>
<!-- Sidebar Offcanvas for Mobile -->
<div class="offcanvas offcanvas-start text-white bg-dark" tabindex="-1" id="sidebarOffcanvas" aria-labelledby="sidebarOffcanvasLabel">
<div class="offcanvas-header">
<h5 class="offcanvas-title" id="sidebarOffcanvasLabel">NebuleAir</h5>
<button type="button" class="btn-close btn-close-white" data-bs-dismiss="offcanvas" aria-label="Close"></button>
</div>
<div class="offcanvas-body" id="sidebar_mobile">
</div>
</div>
<div class="container-fluid mt-5">
<div class="row">
<!-- Side bar -->
<aside class="col-md-2 col-lg-1 d-none d-md-block vh-100 position-fixed bg-dark text-white" id="sidebar">
</aside>
<!-- Main content -->
<main class="col-md-10 ms-sm-auto col-lg-11 offset-md-2 offset-lg-1 px-md-4">
<h1 class="mt-4">Terminal Console</h1>
<div class="row mb-3">
<div class="col-12">
<div class="alert alert-warning">
<strong>Warning:</strong> This terminal provides direct access to system commands.
Use with caution as improper commands may affect system functionality.
</div>
<div class="limited-commands">
<h5>Quick Commands:</h5>
<div>
<code onclick="insertCommand('ls -la')">ls -la</code>
<code onclick="insertCommand('df -h')">df -h</code>
<code onclick="insertCommand('free -h')">free -h</code>
<code onclick="insertCommand('uptime')">uptime</code>
<code onclick="insertCommand('systemctl status master_nebuleair.service')">service status</code>
<code onclick="insertCommand('cat /var/www/nebuleair_pro_4g/config.json')">view config</code>
</div>
</div>
<div class="card">
<div class="card-header d-flex justify-content-between align-items-center">
<h5 class="mb-0">Command Console</h5>
<div>
<button id="accessBtn" class="btn btn-primary me-2">Access Terminal</button>
<button id="clearBtn" class="btn btn-secondary" disabled>Clear</button>
</div>
</div>
<div class="card-body p-0">
<div class="command-container" id="commandContainer">
<div id="terminal">Welcome to NebuleAir Terminal Console
Type your commands below. Type 'help' for a list of commands.
</div>
<input type="text" id="cmdLine" placeholder="Enter command..." disabled>
</div>
<div id="errorMsg" class="alert alert-danger m-3" style="display:none;"></div>
</div>
</div>
</div>
</div>
</main>
</div>
</div>
<!-- Password Modal -->
<div class="password-popup" id="passwordModal">
<div class="password-container">
<h5>Authentication Required</h5>
<p>Please enter the admin password to access the terminal:</p>
<div class="mb-3">
<input type="password" class="form-control" id="adminPassword" placeholder="Password">
</div>
<div class="mb-3 d-flex justify-content-between">
<button class="btn btn-secondary" id="cancelPasswordBtn">Cancel</button>
<button class="btn btn-primary" id="submitPasswordBtn">Submit</button>
</div>
<div id="passwordError" class="text-danger mt-2" style="display:none;"></div>
</div>
</div>
<!-- JAVASCRIPT -->
<!-- Link Ajax locally -->
<script src="assets/jquery/jquery-3.7.1.min.js"></script>
<!-- Link Bootstrap JS and Popper.js locally -->
<script src="assets/js/bootstrap.bundle.js"></script>
<script>
document.addEventListener('DOMContentLoaded', function () {
const elementsToLoad = [
{ id: 'topbar', file: 'topbar.html' },
{ id: 'sidebar', file: 'sidebar.html' },
{ id: 'sidebar_mobile', file: 'sidebar.html' }
];
elementsToLoad.forEach(({ id, file }) => {
fetch(file)
.then(response => response.text())
.then(data => {
const element = document.getElementById(id);
if (element) {
element.innerHTML = data;
}
})
.catch(error => console.error(`Error loading ${file}:`, error));
});
// Initialize elements
initializeElements();
});
window.onload = function() {
//NEW way to get config (SQLite)
$.ajax({
url: 'launcher.php?type=get_config_sqlite',
dataType:'json',
//dataType: 'json', // Specify that you expect a JSON response
method: 'GET', // Use GET or POST depending on your needs
success: function(response) {
console.log("Getting SQLite config table:");
console.log(response);
//device name_side bar
const elements = document.querySelectorAll('.sideBar_sensorName');
elements.forEach((element) => {
element.innerText = response.deviceName;
});
},
error: function(xhr, status, error) {
console.error('AJAX request failed:', status, error);
}
});//end AJAX
}
// Add admin password (should be changed to something more secure)
const ADMIN_PASSWORD = "123plouf";
// Global variables
let terminal;
let cmdLine;
let commandContainer;
let accessBtn;
let clearBtn;
let passwordModal;
let adminPassword;
let submitPasswordBtn;
let cancelPasswordBtn;
let passwordError;
let errorMsg;
let commandHistory = [];
let historyIndex = -1;
// Initialize DOM references after document is loaded
function initializeElements() {
terminal = document.getElementById('terminal');
cmdLine = document.getElementById('cmdLine');
commandContainer = document.getElementById('commandContainer');
accessBtn = document.getElementById('accessBtn');
clearBtn = document.getElementById('clearBtn');
passwordModal = document.getElementById('passwordModal');
adminPassword = document.getElementById('adminPassword');
submitPasswordBtn = document.getElementById('submitPasswordBtn');
cancelPasswordBtn = document.getElementById('cancelPasswordBtn');
passwordError = document.getElementById('passwordError');
errorMsg = document.getElementById('errorMsg');
// Set up event listeners
accessBtn.addEventListener('click', function() {
passwordModal.style.display = 'flex';
adminPassword.value = ''; // Clear password field
passwordError.style.display = 'none';
adminPassword.focus();
});
// Password submit button
submitPasswordBtn.addEventListener('click', function() {
if (adminPassword.value === ADMIN_PASSWORD) {
passwordModal.style.display = 'none';
enableTerminal();
} else {
passwordError.textContent = 'Invalid password';
passwordError.style.display = 'block';
}
});
// Enter key for password
adminPassword.addEventListener('keypress', function(e) {
if (e.key === 'Enter') {
submitPasswordBtn.click();
}
});
// Cancel password button
cancelPasswordBtn.addEventListener('click', function() {
passwordModal.style.display = 'none';
});
// Clear button
clearBtn.addEventListener('click', function() {
terminal.innerHTML = 'Terminal cleared.\n';
});
// Command line input events
cmdLine.addEventListener('keypress', function(e) {
if (e.key === 'Enter') {
const command = cmdLine.value.trim();
if (command) {
executeCommand(command);
commandHistory.push(command);
historyIndex = commandHistory.length;
cmdLine.value = '';
}
}
});
// Command history navigation with arrow keys
cmdLine.addEventListener('keydown', function(e) {
if (e.key === 'ArrowUp') {
if (historyIndex > 0) {
historyIndex--;
cmdLine.value = commandHistory[historyIndex];
}
e.preventDefault();
} else if (e.key === 'ArrowDown') {
if (historyIndex < commandHistory.length - 1) {
historyIndex++;
cmdLine.value = commandHistory[historyIndex];
} else {
historyIndex = commandHistory.length;
cmdLine.value = '';
}
e.preventDefault();
}
});
}
// Enable terminal access
function enableTerminal() {
commandContainer.style.display = 'block';
cmdLine.disabled = false;
clearBtn.disabled = false;
accessBtn.textContent = 'Authenticated';
accessBtn.classList.remove('btn-primary');
accessBtn.classList.add('btn-success');
accessBtn.disabled = true;
cmdLine.focus();
}
// Insert a predefined command
function insertCommand(cmd) {
// Only allow insertion if terminal is enabled
if (cmdLine.disabled === false) {
cmdLine.value = cmd;
cmdLine.focus();
} else {
// Alert user that they need to authenticate first
alert('Please access the terminal first by clicking "Access Terminal" and entering the password.');
}
}
// Execute a command
function executeCommand(command) {
// Add command to terminal with user prefix
terminal.innerHTML += `<span style="color: cyan;">user@nebuleair</span>:<span style="color: yellow;">~</span>$ ${command}\n`;
terminal.scrollTop = terminal.scrollHeight;
// Handle special commands
if (command === 'clear') {
terminal.innerHTML = 'Terminal cleared.\n';
return;
}
// Filter dangerous commands
const dangerousCommands = [
'rm -rf /', 'rm -rf /*', 'rm -rf ~', 'rm -rf ~/*',
'mkfs', 'dd if=/dev/zero', 'dd if=/dev/random',
'>>', '>', '|', ';', '&&', '||',
'wget', 'curl', 'ssh', 'scp', 'nc',
'chmod -R', 'chown -R'
];
// Check for dangerous commands or command chaining
const hasDangerousCommand = dangerousCommands.some(cmd => command.includes(cmd));
if (hasDangerousCommand || command.includes('&') || command.includes(';') || command.includes('|')) {
terminal.innerHTML += '<span style="color: red;">Error: This command is not allowed for security reasons.</span>\n';
terminal.scrollTop = terminal.scrollHeight;
return;
}
// Execute the command via AJAX
$.ajax({
url: 'launcher.php?type=execute_command',
method: 'POST',
dataType:'json',
data: {
type: 'execute_command',
command: command
},
success: function(response) {
console.log(response);
if (response.success) {
// Add command output to terminal
terminal.innerHTML += `<span style="color: #00ff00;">${response.output}</span>\n`;
} else {
terminal.innerHTML += `<span style="color: red;">Error: ${response.message}</span>\n`;
}
terminal.scrollTop = terminal.scrollHeight;
},
error: function(xhr, status, error) {
terminal.innerHTML += `<span style="color: red;">Error executing command: ${error}</span>\n`;
terminal.scrollTop = terminal.scrollHeight;
}
});
}
</script>
</body>
</html>

5
html/wifi.html
View File

@@ -302,6 +302,11 @@ function get_internet(){
element.innerText = deviceName;
});
//device name html page title
if (response.deviceName) {
document.title = response.deviceName;
}
//get wifi connection status
const WIFI_statusElement = document.getElementById("wifi-status");

52
installation_part1.sh
View File

@@ -23,40 +23,27 @@ fi
# Update and install necessary packages
info "Updating package list and installing necessary packages..."
sudo apt update && sudo apt install -y git gh apache2 php php-sqlite3 python3 python3-pip jq autossh i2c-tools python3-smbus || error "Failed to install required packages."
sudo apt update && sudo apt install -y git gh apache2 sqlite3 php php-sqlite3 python3 python3-pip jq autossh i2c-tools python3-smbus || error "Failed to install required packages."
# Install Python libraries
info "Installing Python libraries..."
sudo pip3 install pyserial requests RPi.GPIO adafruit-circuitpython-bme280 crcmod psutil ntplib pytz --break-system-packages || error "Failed to install Python libraries."
# Ask user if they want to set up SSH keys
read -p "Do you want to set up an SSH key for /var/www? (y/n): " answer
answer=${answer,,} # Convert to lowercase
if [[ "$answer" == "y" ]]; then
info "Setting up SSH keys..."
sudo mkdir -p /var/www/.ssh
sudo chmod 700 /var/www/.ssh
if [[ ! -f /var/www/.ssh/id_rsa ]]; then
sudo ssh-keygen -t rsa -b 4096 -f /var/www/.ssh/id_rsa -N ""
success "SSH key generated successfully."
else
warning "SSH key already exists. Skipping key generation."
fi
sudo ssh-copy-id -i /var/www/.ssh/id_rsa.pub -p 50221 airlab_server1@aircarto.fr || warning "Failed to copy SSH key. Please check the server connection."
success "SSH setup complete!"
else
warning "Skipping SSH key setup."
fi
sudo pip3 install pyserial requests RPi.GPIO adafruit-circuitpython-bme280 crcmod psutil gpiozero ntplib pytz --break-system-packages || error "Failed to install Python libraries."
# Clone the repository (check if it exists first)
REPO_DIR="/var/www/nebuleair_pro_4g"
if [[ -d "$REPO_DIR" ]]; then
warning "Repository already exists. Skipping clone."
warning "Repository already exists. Will update instead of clone."
# Save current directory
local current_dir=$(pwd)
# Navigate to repository directory
cd "$REPO_DIR"
# Stash any local changes
sudo git stash || warning "Failed to stash local changes"
# Pull latest changes
sudo git pull || error "Failed to pull latest changes"
# Return to original directory
cd "$current_dir"
success "Repository updated successfully!"
else
info "Cloning the NebuleAir Pro 4G repository..."
sudo git clone http://gitea.aircarto.fr/PaulVua/nebuleair_pro_4g.git "$REPO_DIR" || error "Failed to clone repository."
@@ -66,7 +53,6 @@ fi
info "Setting up repository files and permissions..."
sudo mkdir -p "$REPO_DIR/logs"
sudo touch "$REPO_DIR/logs/app.log" "$REPO_DIR/logs/master.log" "$REPO_DIR/logs/master_errors.log" "$REPO_DIR/wifi_list.csv"
sudo cp "$REPO_DIR/config.json.dist" "$REPO_DIR/config.json"
sudo chmod -R 755 "$REPO_DIR/"
sudo chown -R www-data:www-data "$REPO_DIR/"
sudo git config --global core.fileMode false
@@ -91,6 +77,15 @@ else
warning "Database creation script not found."
fi
# Set config
info "Set config..."
if [[ -f "$REPO_DIR/sqlite/set_config.py" ]]; then
sudo /usr/bin/python3 "$REPO_DIR/sqlite/set_config.py" || error "Failed to set config."
success "Databases created successfully."
else
warning "Database creation script not found."
fi
# Configure Apache
info "Configuring Apache..."
APACHE_CONF="/etc/apache2/sites-available/000-default.conf"
@@ -133,7 +128,6 @@ success "I2C ports enabled."
info "Creates sqlites databases..."
/usr/bin/python3 /var/www/nebuleair_pro_4g/sqlite/create_db.py
# Completion message
success "Setup completed successfully!"
info "System will reboot in 5 seconds..."

50
installation_part2.sh
View File

@@ -22,11 +22,21 @@ error() { echo -e "${RED}[ERROR]${NC} $1"; exit 1; }
if [[ "$EUID" -ne 0 ]]; then
error "This script must be run as root. Use 'sudo ./installation.sh'"
fi
REPO_DIR="/var/www/nebuleair_pro_4g"
#set up the RTC
info "Set up the RTC"
/usr/bin/python3 /var/www/nebuleair_pro_4g/RTC/set_with_NTP.py
#Wake up SARA
info "Wake Up SARA"
pinctrl set 16 op
pinctrl set 16 dh
sleep 5
#Check SARA connection
info "Check SARA connection"
/usr/bin/python3 /var/www/nebuleair_pro_4g/SARA/sara.py ttyAMA2 ATI 2
#set up SARA R4 APN
info "Set up Monogoto APN"
/usr/bin/python3 /var/www/nebuleair_pro_4g/SARA/sara_setAPN.py ttyAMA2 data.mono 2
@@ -39,29 +49,45 @@ info "Activate blue LED"
info "Connect SARA R4 to network"
python3 /var/www/nebuleair_pro_4g/SARA/sara_connectNetwork.py ttyAMA2 20810 60
#Add master_nebuleair.service
SERVICE_FILE="/etc/systemd/system/master_nebuleair.service"
info "Setting up systemd service for master_nebuleair..."
#Need to create the two service
# 1. start the scripts to set-up the services
# 2. rtc_save_to_db
#1. set-up the services (SARA, NPM, BME280, etc)
info "Setting up systemd services..."
if [[ -f "$REPO_DIR/services/setup_services.sh" ]]; then
sudo chmod +x "$REPO_DIR/services/setup_services.sh"
sudo "$REPO_DIR/services/setup_services.sh" || warning "Failed to set up systemd services"
success "Systemd services set up successfully."
else
warning "Systemd services setup script not found."
fi
#2. Add rtc_save_to_db.service
SERVICE_FILE_2="/etc/systemd/system/rtc_save_to_db.service"
info "Setting up systemd service for rtc_save_to_db..."
# Create the systemd service file (overwrite if necessary)
sudo bash -c "cat > $SERVICE_FILE" <<EOF
sudo bash -c "cat > $SERVICE_FILE_2" <<EOF
[Unit]
Description=Master manager for the Python loop scripts
Description=RTC Save to DB Script
After=network.target
[Service]
ExecStart=/usr/bin/python3 /var/www/nebuleair_pro_4g/master.py
ExecStart=/usr/bin/python3 /var/www/nebuleair_pro_4g/RTC/save_to_db.py
Restart=always
RestartSec=1
User=root
WorkingDirectory=/var/www/nebuleair_pro_4g
StandardOutput=append:/var/www/nebuleair_pro_4g/logs/master.log
StandardError=append:/var/www/nebuleair_pro_4g/logs/master_errors.log
StandardOutput=append:/var/www/nebuleair_pro_4g/logs/rtc_save_to_db.log
StandardError=append:/var/www/nebuleair_pro_4g/logs/rtc_save_to_db_errors.log
[Install]
WantedBy=multi-user.target
EOF
success "Systemd service file created: $SERVICE_FILE"
success "Systemd service file created: $SERVICE_FILE_2"
# Reload systemd to recognize the new service
info "Reloading systemd daemon..."
@@ -69,8 +95,8 @@ sudo systemctl daemon-reload
# Enable the service to start on boot
info "Enabling the service to start on boot..."
sudo systemctl enable master_nebuleair.service
sudo systemctl enable rtc_save_to_db.service
# Start the service immediately
info "Starting the service..."
sudo systemctl start master_nebuleair.service
sudo systemctl start rtc_save_to_db.service

976
loop/SARA_send_data_v2.py
View File

File diff suppressed because it is too large Load Diff

98
master.py
View File

@@ -52,17 +52,73 @@ Specific scripts can be disabled with config.json
import time
import threading
import subprocess
import json
import os
import sqlite3
# Base directory where scripts are stored
SCRIPT_DIR = "/var/www/nebuleair_pro_4g/"
CONFIG_FILE = "/var/www/nebuleair_pro_4g/config.json"
DB_PATH = "/var/www/nebuleair_pro_4g/sqlite/sensors.db"
# Lock file path for SARA script
SARA_LOCK_FILE = "/var/www/nebuleair_pro_4g/sara_script.lock"
def is_script_enabled(script_name):
"""Check if a script is enabled in the database."""
try:
conn = sqlite3.connect(DB_PATH)
cursor = conn.cursor()
cursor.execute(
"SELECT enabled FROM config_scripts_table WHERE script_path = ?",
(script_name,)
)
result = cursor.fetchone()
conn.close()
if result is None:
return True # Default to enabled if not found in database
return bool(result[0])
except Exception:
# If any database error occurs, default to enabled
return True
def create_lock_file():
"""Create a lock file for the SARA script."""
with open(SARA_LOCK_FILE, 'w') as f:
f.write(str(int(time.time())))
def remove_lock_file():
"""Remove the SARA script lock file."""
if os.path.exists(SARA_LOCK_FILE):
os.remove(SARA_LOCK_FILE)
def is_script_locked():
"""Check if the SARA script is currently locked."""
if not os.path.exists(SARA_LOCK_FILE):
return False
# Check if lock is older than 60 seconds (stale)
with open(SARA_LOCK_FILE, 'r') as f:
try:
lock_time = int(f.read().strip())
if time.time() - lock_time > 60:
# Lock is stale, remove it
remove_lock_file()
return False
except ValueError:
# Invalid lock file content
remove_lock_file()
return False
return True
def load_config():
"""Load the configuration file to determine which scripts to run."""
with open(CONFIG_FILE, "r") as f:
return json.load(f)
def run_script(script_name, interval, delay=0):
"""Run a script in a synchronized loop with an optional start delay."""
@@ -70,8 +126,17 @@ def run_script(script_name, interval, delay=0):
next_run = time.monotonic() + delay # Apply the initial delay
while True:
config = load_config()
if config.get(script_name, True): # Default to True if not found
if is_script_enabled(script_name):
# Special handling for SARA script to prevent concurrent runs
if script_name == "loop/SARA_send_data_v2.py":
if not is_script_locked():
create_lock_file()
try:
subprocess.run(["python3", script_path], timeout=200)
finally:
remove_lock_file()
else:
# Run other scripts normally
subprocess.run(["python3", script_path])
# Wait until the next exact interval
@@ -79,17 +144,19 @@ def run_script(script_name, interval, delay=0):
sleep_time = max(0, next_run - time.monotonic()) # Prevent negative sleep times
time.sleep(sleep_time)
# Define scripts and their execution intervals (seconds)
SCRIPTS = [
#("RTC/save_to_db.py", 1, 0), # SAVE RTC time every 1 second, no delay
("NPM/get_data_modbus_v3.py", 10, 0), # Get NPM data (modbus 5 channels) every 10s, with 2s delay
("envea/read_value_v2.py", 10, 0), # Get NPM data (modbus 5 channels) every 10s, with 2s delay
("loop/SARA_send_data_v2.py", 60, 1), # Send data every 60 seconds, with 2s delay
("BME280/get_data_v2.py", 120, 0), # Get BME280 data every 120 seconds, no delay
("sqlite/flush_old_data.py", 86400, 0) # flush old data inside db every day ()
# Format: (script_name, interval_in_seconds, start_delay_in_seconds)
("NPM/get_data_modbus_v3.py", 10, 0), # Get NPM data (modbus 5 channels) every 10s
("envea/read_value_v2.py", 10, 0), # Get Envea data every 10s
("loop/SARA_send_data_v2.py", 60, 1), # Send data every 60 seconds, with 1s delay
("BME280/get_data_v2.py", 120, 0), # Get BME280 data every 120 seconds
("MPPT/read.py", 120, 0), # Get MPPT data every 120 seconds
("sqlite/flush_old_data.py", 86400, 0) # Flush old data inside db every day
]
# Start threads for enabled scripts
# Start threads for scripts
for script_name, interval, delay in SCRIPTS:
thread = threading.Thread(target=run_script, args=(script_name, interval, delay), daemon=True)
thread.start()
@@ -97,4 +164,3 @@ for script_name, interval, delay in SCRIPTS:
# Keep the main script running
while True:
time.sleep(1)

5
config.json.dist → old/config.json.dist Executable file → Normal file
View File

@@ -5,8 +5,11 @@
"RTC/save_to_db.py": true,
"BME280/get_data_v2.py": true,
"envea/read_value_v2.py": false,
"MPPT/read.py": false,
"windMeter/read.py": false,
"sqlite/flush_old_data.py": true,
"deviceID": "XXXX",
"npm_5channel": false,
"latitude_raw": 0,
"longitude_raw":0,
"latitude_precision": 0,
@@ -25,7 +28,7 @@
"SARA_R4_general_status": "connected",
"SARA_R4_SIM_status": "connected",
"SARA_R4_network_status": "connected",
"SARA_R4_neworkID": 0,
"SARA_R4_neworkID": 20810,
"WIFI_status": "connected",
"MQTT_GUI": false,
"send_aircarto": true,

0
install_software.yaml → old/install_software.yaml Executable file → Normal file
View File

18
services/README.md Normal file
View File

@@ -0,0 +1,18 @@
# NebuleAir Pro Services
Les scripts importants tournent à l'aide d'un service et d'un timer associé.
Pour les installer:
sudo chmod +x /var/www/nebuleair_pro_4g/services/setup_services.sh
sudo /var/www/nebuleair_pro_4g/services/setup_services.sh
Supprimer l'ancien master:
sudo systemctl stop master_nebuleair.service
sudo systemctl disable master_nebuleair.service
# Check les services
SARA:
sudo systemctl status nebuleair-sara-data.service

39
services/check_services.sh Normal file
View File

@@ -0,0 +1,39 @@
#!/bin/bash
# File: /var/www/nebuleair_pro_4g/services/check_services.sh
# Purpose: Check status of all NebuleAir services and logs
# Install:
# sudo chmod +x /var/www/nebuleair_pro_4g/services/check_services.sh
# sudo /var/www/nebuleair_pro_4g/services/check_services.sh
echo "=== NebuleAir Services Status ==="
echo ""
# Check status of all timers
echo "--- TIMER STATUS ---"
systemctl list-timers | grep nebuleair
echo ""
# Check status of all services
echo "--- SERVICE STATUS ---"
for service in npm envea sara bme280 mppt db-cleanup; do
status=$(systemctl is-active nebuleair-$service-data.service)
timer_status=$(systemctl is-active nebuleair-$service-data.timer)
echo "nebuleair-$service-data: Service=$status, Timer=$timer_status"
done
echo ""
# Show recent logs for each service
echo "--- RECENT LOGS (last 5 entries per service) ---"
for service in npm envea sara bme280 mppt db-cleanup; do
echo "[$service service logs]"
journalctl -u nebuleair-$service-data.service -n 5 --no-pager
echo ""
done
echo "=== End of Report ==="
echo ""
echo "For detailed logs use:"
echo " sudo journalctl -u nebuleair-[service]-data.service -f"
echo "To restart a specific service timer:"
echo " sudo systemctl restart nebuleair-[service]-data.timer"

228
services/setup_services.sh Normal file
View File

@@ -0,0 +1,228 @@
#!/bin/bash
# File: /var/www/nebuleair_pro_4g/services/setup_services.sh
# Purpose: Set up all systemd services for NebuleAir data collection
# to install:
# sudo chmod +x /var/www/nebuleair_pro_4g/services/setup_services.sh
# sudo /var/www/nebuleair_pro_4g/services/setup_services.sh
echo "Setting up NebuleAir systemd services and timers..."
# Create directory for logs if it doesn't exist
mkdir -p /var/www/nebuleair_pro_4g/logs
# Create service and timer files for NPM Data
cat > /etc/systemd/system/nebuleair-npm-data.service << 'EOL'
[Unit]
Description=NebuleAir NPM Data Collection Service
After=network.target
[Service]
Type=oneshot
ExecStart=/usr/bin/python3 /var/www/nebuleair_pro_4g/NPM/get_data_modbus_v3.py
User=root
WorkingDirectory=/var/www/nebuleair_pro_4g
StandardOutput=append:/var/www/nebuleair_pro_4g/logs/npm_service.log
StandardError=append:/var/www/nebuleair_pro_4g/logs/npm_service_errors.log
[Install]
WantedBy=multi-user.target
EOL
cat > /etc/systemd/system/nebuleair-npm-data.timer << 'EOL'
[Unit]
Description=Run NebuleAir NPM Data Collection every 10 seconds
Requires=nebuleair-npm-data.service
[Timer]
OnBootSec=10s
OnUnitActiveSec=10s
AccuracySec=1s
[Install]
WantedBy=timers.target
EOL
# Create service and timer files for Envea Data
cat > /etc/systemd/system/nebuleair-envea-data.service << 'EOL'
[Unit]
Description=NebuleAir Envea Data Collection Service
After=network.target
[Service]
Type=oneshot
ExecStart=/usr/bin/python3 /var/www/nebuleair_pro_4g/envea/read_value_v2.py
User=root
WorkingDirectory=/var/www/nebuleair_pro_4g
StandardOutput=append:/var/www/nebuleair_pro_4g/logs/envea_service.log
StandardError=append:/var/www/nebuleair_pro_4g/logs/envea_service_errors.log
[Install]
WantedBy=multi-user.target
EOL
cat > /etc/systemd/system/nebuleair-envea-data.timer << 'EOL'
[Unit]
Description=Run NebuleAir Envea Data Collection every 10 seconds
Requires=nebuleair-envea-data.service
[Timer]
OnBootSec=10s
OnUnitActiveSec=10s
AccuracySec=1s
[Install]
WantedBy=timers.target
EOL
# Create service and timer files for SARA Data (No Lock File Needed)
cat > /etc/systemd/system/nebuleair-sara-data.service << 'EOL'
[Unit]
Description=NebuleAir SARA Data Transmission Service
After=network.target
[Service]
Type=oneshot
ExecStart=/usr/bin/python3 /var/www/nebuleair_pro_4g/loop/SARA_send_data_v2.py
User=root
WorkingDirectory=/var/www/nebuleair_pro_4g
StandardOutput=append:/var/www/nebuleair_pro_4g/logs/sara_service.log
StandardError=append:/var/www/nebuleair_pro_4g/logs/sara_service_errors.log
RuntimeMaxSec=200s
[Install]
WantedBy=multi-user.target
EOL
cat > /etc/systemd/system/nebuleair-sara-data.timer << 'EOL'
[Unit]
Description=Run NebuleAir SARA Data Transmission every 60 seconds
Requires=nebuleair-sara-data.service
[Timer]
OnBootSec=60s
OnUnitActiveSec=60s
AccuracySec=1s
# This is the key setting that prevents overlap
Persistent=true
[Install]
WantedBy=timers.target
EOL
# Create service and timer files for BME280 Data
cat > /etc/systemd/system/nebuleair-bme280-data.service << 'EOL'
[Unit]
Description=NebuleAir BME280 Data Collection Service
After=network.target
[Service]
Type=oneshot
ExecStart=/usr/bin/python3 /var/www/nebuleair_pro_4g/BME280/get_data_v2.py
User=root
WorkingDirectory=/var/www/nebuleair_pro_4g
StandardOutput=append:/var/www/nebuleair_pro_4g/logs/bme280_service.log
StandardError=append:/var/www/nebuleair_pro_4g/logs/bme280_service_errors.log
[Install]
WantedBy=multi-user.target
EOL
cat > /etc/systemd/system/nebuleair-bme280-data.timer << 'EOL'
[Unit]
Description=Run NebuleAir BME280 Data Collection every 120 seconds
Requires=nebuleair-bme280-data.service
[Timer]
OnBootSec=120s
OnUnitActiveSec=120s
AccuracySec=1s
[Install]
WantedBy=timers.target
EOL
# Create service and timer files for MPPT Data
cat > /etc/systemd/system/nebuleair-mppt-data.service << 'EOL'
[Unit]
Description=NebuleAir MPPT Data Collection Service
After=network.target
[Service]
Type=oneshot
ExecStart=/usr/bin/python3 /var/www/nebuleair_pro_4g/MPPT/read.py
User=root
WorkingDirectory=/var/www/nebuleair_pro_4g
StandardOutput=append:/var/www/nebuleair_pro_4g/logs/mppt_service.log
StandardError=append:/var/www/nebuleair_pro_4g/logs/mppt_service_errors.log
[Install]
WantedBy=multi-user.target
EOL
cat > /etc/systemd/system/nebuleair-mppt-data.timer << 'EOL'
[Unit]
Description=Run NebuleAir MPPT Data Collection every 120 seconds
Requires=nebuleair-mppt-data.service
[Timer]
OnBootSec=120s
OnUnitActiveSec=120s
AccuracySec=1s
[Install]
WantedBy=timers.target
EOL
# Create service and timer files for Database Cleanup
cat > /etc/systemd/system/nebuleair-db-cleanup-data.service << 'EOL'
[Unit]
Description=NebuleAir Database Cleanup Service
After=network.target
[Service]
Type=oneshot
ExecStart=/usr/bin/python3 /var/www/nebuleair_pro_4g/sqlite/flush_old_data.py
User=root
WorkingDirectory=/var/www/nebuleair_pro_4g
StandardOutput=append:/var/www/nebuleair_pro_4g/logs/db_cleanup_service.log
StandardError=append:/var/www/nebuleair_pro_4g/logs/db_cleanup_service_errors.log
[Install]
WantedBy=multi-user.target
EOL
cat > /etc/systemd/system/nebuleair-db-cleanup-data.timer << 'EOL'
[Unit]
Description=Run NebuleAir Database Cleanup daily
Requires=nebuleair-db-cleanup-data.service
[Timer]
OnBootSec=1h
OnUnitActiveSec=24h
AccuracySec=1h
[Install]
WantedBy=timers.target
EOL
# Reload systemd to recognize new services
systemctl daemon-reload
# Enable and start all timers
echo "Enabling and starting all services..."
for service in npm envea sara bme280 mppt db-cleanup; do
systemctl enable nebuleair-$service-data.timer
systemctl start nebuleair-$service-data.timer
echo "Started nebuleair-$service-data timer"
done
echo "Checking status of all timers..."
systemctl list-timers | grep nebuleair
echo "Setup complete. All NebuleAir services are now running."
echo "To check the status of a specific service:"
echo " sudo systemctl status nebuleair-npm-data.service"
echo "To view logs for a specific service:"
echo " sudo journalctl -u nebuleair-npm-data.service"
echo "To restart a specific timer:"
echo " sudo systemctl restart nebuleair-npm-data.timer"

58
sqlite/create_db.py
View File

@@ -18,6 +18,35 @@ import sqlite3
conn = sqlite3.connect("/var/www/nebuleair_pro_4g/sqlite/sensors.db")
cursor = conn.cursor()
#create a config table
cursor.execute("""
CREATE TABLE IF NOT EXISTS config_table (
key TEXT PRIMARY KEY,
value TEXT NOT NULL,
type TEXT NOT NULL
)
""")
#creates a config_scripts table
cursor.execute('''
CREATE TABLE IF NOT EXISTS config_scripts_table (
script_path TEXT PRIMARY KEY,
enabled INTEGER NOT NULL
)
''')
#creates a config table for envea sondes
cursor.execute("""
CREATE TABLE IF NOT EXISTS envea_sondes_table (
id INTEGER PRIMARY KEY AUTOINCREMENT,
connected INTEGER NOT NULL,
port TEXT NOT NULL,
name TEXT NOT NULL,
coefficient REAL NOT NULL
)
""")
# Create a table timer
cursor.execute("""
CREATE TABLE IF NOT EXISTS timestamp_table (
@@ -30,7 +59,14 @@ cursor.execute("""
VALUES (1, CURRENT_TIMESTAMP);
""")
#create a modem status table
cursor.execute("""
CREATE TABLE IF NOT EXISTS modem_status (
id INTEGER PRIMARY KEY AUTOINCREMENT,
timestamp TEXT,
status TEXT
)
""")
# Create a table NPM
cursor.execute("""
@@ -78,6 +114,26 @@ CREATE TABLE IF NOT EXISTS data_NPM_5channels (
)
""")
# Create a table WIND
cursor.execute("""
CREATE TABLE IF NOT EXISTS data_WIND (
timestamp TEXT,
wind_speed REAL,
wind_direction REAL
)
""")
# Create a table MPPT
cursor.execute("""
CREATE TABLE IF NOT EXISTS data_MPPT (
timestamp TEXT,
battery_voltage REAL,
battery_current REAL,
solar_voltage REAL,
solar_power REAL,
charger_status INTEGER
)
""")
# Commit and close the connection

2
sqlite/flush_old_data.py
View File

@@ -45,7 +45,7 @@ if row:
print(f"[INFO] Deleting records older than: {cutoff_date_str}")
# List of tables to delete old data from
tables_to_clean = ["data_NPM", "data_NPM_5channels", "data_BME280", "data_envea"]
tables_to_clean = ["data_NPM", "data_NPM_5channels", "data_BME280", "data_envea","data_WIND", "data_MPPT"]
# Loop through each table and delete old data
for table in tables_to_clean:

3
sqlite/read.py
View File

@@ -14,6 +14,8 @@ data_NPM_5channels
data_BME280
data_envea
timestamp_table
data_MPPT
data_WIND
'''
@@ -34,7 +36,6 @@ cursor = conn.cursor()
#cursor.execute("SELECT * FROM timestamp_table")
if table_name == "timestamp_table":
cursor.execute("SELECT * FROM timestamp_table")
else:
query = f"SELECT * FROM {table_name} ORDER BY timestamp DESC LIMIT ?"
cursor.execute(query, (limit_num,))

43
sqlite/read_config.py Normal file
View File

@@ -0,0 +1,43 @@
'''
____ ___ _ _ _
/ ___| / _ \| | (_) |_ ___
\___ \| | | | | | | __/ _ \
___) | |_| | |___| | || __/
|____/ \__\_\_____|_|\__\___|
Script to read data from a sqlite database
/usr/bin/python3 /var/www/nebuleair_pro_4g/sqlite/read_config.py config_table
Available table are
config_table
config_scripts_table
envea_sondes_table
'''
import sqlite3
import sys
parameter = sys.argv[1:] # Exclude the script name
#print("Parameters received:")
table_name=parameter[0]
# Connect to the SQLite database
conn = sqlite3.connect("/var/www/nebuleair_pro_4g/sqlite/sensors.db")
cursor = conn.cursor()
# Retrieve the data
query = f"SELECT * FROM {table_name}"
cursor.execute(query)
rows = cursor.fetchall()
rows.reverse() # Reverse the order in Python (to get ascending order)
# Display the results
for row in rows:
print(row)
# Close the database connection
conn.close()

96
sqlite/set_config.py Normal file
View File

@@ -0,0 +1,96 @@
'''
____ ___ _ _ _
/ ___| / _ \| | (_) |_ ___
\___ \| | | | | | | __/ _ \
___) | |_| | |___| | || __/
|____/ \__\_\_____|_|\__\___|
Script to set the config
/usr/bin/python3 /var/www/nebuleair_pro_4g/sqlite/set_config.py
in case of readonly error:
sudo chmod 777 /var/www/nebuleair_pro_4g/sqlite/sensors.db
'''
import sqlite3
# Connect to (or create if not existent) the database
conn = sqlite3.connect("/var/www/nebuleair_pro_4g/sqlite/sensors.db")
cursor = conn.cursor()
print(f"Connected to database")
# Clear existing data (if any)
cursor.execute("DELETE FROM config_table")
cursor.execute("DELETE FROM config_scripts_table")
cursor.execute("DELETE FROM envea_sondes_table")
print("Existing data cleared")
#add values
# Insert script configurations
script_configs = [
("NPM/get_data_modbus_v3.py", True),
("loop/SARA_send_data_v2.py", True),
("RTC/save_to_db.py", True),
("BME280/get_data_v2.py", True),
("envea/read_value_v2.py", False),
("MPPT/read.py", False),
("windMeter/read.py", False),
("sqlite/flush_old_data.py", True)
]
for script_path, enabled in script_configs:
cursor.execute(
"INSERT INTO config_scripts_table (script_path, enabled) VALUES (?, ?)",
(script_path, 1 if enabled else 0)
)
# Insert general configurations
config_entries = [
("modem_config_mode", "0", "bool"),
("deviceID", "XXXX", "str"),
("npm_5channel", "0", "bool"),
("latitude_raw", "0", "int"),
("longitude_raw", "0", "int"),
("latitude_precision", "0", "int"),
("longitude_precision", "0", "int"),
("deviceName", "NebuleAir-proXXX", "str"),
("SaraR4_baudrate", "115200", "int"),
("NPM_solo_port", "/dev/ttyAMA5", "str"),
("sshTunnel_port", "59228", "int"),
("SARA_R4_general_status", "connected", "str"),
("SARA_R4_SIM_status", "connected", "str"),
("SARA_R4_network_status", "connected", "str"),
("SARA_R4_neworkID", "20810", "int"),
("WIFI_status", "connected", "str"),
("send_uSpot", "0", "bool"),
("windMeter", "0", "bool"),
("modem_version", "XXX", "str")
]
for key, value, value_type in config_entries:
cursor.execute(
"INSERT INTO config_table (key, value, type) VALUES (?, ?, ?)",
(key, value, value_type)
)
# Insert envea sondes
envea_sondes = [
(False, "ttyAMA4", "h2s", 4),
(False, "ttyAMA3", "no2", 1),
(False, "ttyAMA2", "o3", 1)
]
for connected, port, name, coefficient in envea_sondes:
cursor.execute(
"INSERT INTO envea_sondes_table (connected, port, name, coefficient) VALUES (?, ?, ?, ?)",
(1 if connected else 0, port, name, coefficient)
)
# Commit and close the connection
conn.commit()
conn.close()
print("Database updated successfully!")

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windMeter/ads115.py Normal file
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'''
Script to test the abs115 an analog-to-digital converter
sudo /usr/bin/python3 /var/www/nebuleair_pro_4g/windMeter/ads115.py
'''
import time
import board
import busio
import adafruit_ads1x15.ads1115 as ADS
from adafruit_ads1x15.analog_in import AnalogIn
i2c = busio.I2C(board.SCL, board.SDA)
ads = ADS.ADS1115(i2c)
channel = AnalogIn(ads, ADS.P0)
print("Testing ADS1115 readings...")
readings = []
for i in range(5):
voltage = channel.voltage
readings.append(voltage)
print(f"Voltage: {voltage:.6f}V")
time.sleep(1)
# Calculate and display the mean
mean_voltage = sum(readings) / len(readings)
print(f"\nMean voltage: {mean_voltage:.6f}V")

140
windMeter/read.py Normal file
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'''
__ _____ _ _ ____
\ \ / /_ _| \ | | _ \
\ \ /\ / / | || \| | | | |
\ V V / | || |\ | |_| |
\_/\_/ |___|_| \_|____/
Script to read wind speed from a Davis Anémomètre-girouette Vantage Pro (6410)
https://www.shapemaker.io/blog/wind-speed-measurements-with-anemometer-and-a-raspberry-pi
Connexion:
black (wind speed ) -> gpio21
green (wind direction) -> ADS1115 (module I2C)
Yellow -> 5v
RED -> GND
Attention: The Raspberry Pi doesn't have analog inputs, so we need an analog-to-digital converter (ADC) to read the wind direction.
sudo /usr/bin/python3 /var/www/nebuleair_pro_4g/windMeter/read.py
this need to run as a service
--> sudo nano /etc/systemd/system/windMeter.service
⬇️
[Unit]
Description=Master manager for the Python wind meter scripts
After=network.target
[Service]
ExecStart=/usr/bin/python3 /var/www/nebuleair_pro_4g/windMeter/read.py
Restart=always
User=root
WorkingDirectory=/var/www/nebuleair_pro_4g
StandardOutput=append:/var/www/nebuleair_pro_4g/logs/wind.log
StandardError=append:/var/www/nebuleair_pro_4g/logs/wind_errors.log
[Install]
WantedBy=multi-user.target
⬆️
Reload systemd (first time after creating the service):
sudo systemctl daemon-reload
Enable (once), start (once and after stopping) and restart (after modification)systemd:
sudo systemctl enable windMeter.service
sudo systemctl start windMeter.service
sudo systemctl restart windMeter.service
Check the service status:
sudo systemctl status windMeter.service
'''
#!/usr/bin/python3
import time
import sqlite3
import board
import busio
import numpy as np
import threading
import adafruit_ads1x15.ads1115 as ADS
from adafruit_ads1x15.analog_in import AnalogIn
from gpiozero import Button
from datetime import datetime
# Constants
DB_PATH = "/var/www/nebuleair_pro_4g/sqlite/sensors.db"
# Initialize I2C & ADS1115
i2c = busio.I2C(board.SCL, board.SDA)
ads = ADS.ADS1115(i2c)
channel = AnalogIn(ads, ADS.P0) # Connect to A0 on the ADS1115
# Wind speed sensor setup
wind_speed_sensor = Button(21)
wind_count = 0
wind_lock = threading.Lock()
def spin():
global wind_count
with wind_lock:
wind_count += 1
def reset_wind():
global wind_count
with wind_lock:
wind_count = 0
wind_speed_sensor.when_activated = spin # More reliable
def calc_speed(spins, interval):
return spins * (2.25 / interval) * 1.60934 # Convert MPH to km/h
def get_wind_direction():
voltage = channel.voltage
return voltage
def save_to_database(wind_speed, wind_direction, spin_count):
"""Save wind data to SQLite database."""
try:
conn = sqlite3.connect(DB_PATH)
cursor = conn.cursor()
cursor.execute("SELECT * FROM timestamp_table LIMIT 1")
row = cursor.fetchone()
rtc_time_str = row[1] if row else datetime.now().strftime("%Y-%m-%d %H:%M:%S")
cursor.execute('''
INSERT INTO data_wind (timestamp, wind_speed, wind_direction)
VALUES (?, ?, ?)
''', (rtc_time_str, round(wind_speed, 2), round(wind_direction, 2)))
conn.commit()
conn.close()
print(f"Saved: {rtc_time_str}, {wind_speed:.2f} km/h, {wind_direction:.2f}V, Spins: {spin_count}")
except Exception as e:
print(f"Database error: {e}")
def main():
print("Wind monitoring started...")
try:
while True:
reset_wind()
print("Measuring for 60 seconds...")
time.sleep(60)
wind_speed_kmh = calc_speed(wind_count, 60)
wind_direction = get_wind_direction()
save_to_database(wind_speed_kmh, wind_direction, wind_count)
except KeyboardInterrupt:
print("\nMonitoring stopped.")
except Exception as e:
print(f"Error: {e}")
if __name__ == "__main__":
main()

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windMeter/read_wind_direction.py Normal file
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'''
__ _____ _ _ ____
\ \ / /_ _| \ | | _ \
\ \ /\ / / | || \| | | | |
\ V V / | || |\ | |_| |
\_/\_/ |___|_| \_|____/
Script to read wind speed from a Davis Anémomètre-girouette Vantage Pro (6410)
https://www.shapemaker.io/blog/wind-speed-measurements-with-anemometer-and-a-raspberry-pi
Connexion:
black (wind speed ) -> gpio21
green (wind direction) -> ADS1115 (module I2C)
Yellow -> 5v
RED -> GND
Attention: The Raspberry Pi doesn't have analog inputs, so we need an analog-to-digital converter (ADC) to read the wind direction.
sudo /usr/bin/python3 /var/www/nebuleair_pro_4g/windMeter/read_wind_direction.py
'''
import time
import board
import busio
import adafruit_ads1x15.ads1115 as ADS
from adafruit_ads1x15.analog_in import AnalogIn
# Create the I2C bus and ADC object
i2c = busio.I2C(board.SCL, board.SDA)
ads = ADS.ADS1115(i2c)
# Connect to the channel with your Davis wind vane
wind_dir_sensor = AnalogIn(ads, ADS.P0)
# Check the current voltage range
min_voltage = 9999
max_voltage = -9999
def get_wind_direction():
"""Get wind direction angle from Davis Vantage Pro2 wind vane"""
global min_voltage, max_voltage
# Read voltage from ADS1115
voltage = wind_dir_sensor.voltage
# Update min/max for calibration
if voltage < min_voltage:
min_voltage = voltage
if voltage > max_voltage:
max_voltage = voltage
# We'll use a safer mapping approach
# Assuming the Davis sensor is linear from 0° to 360°
estimated_max = 3.859 # Initial estimate, will refine
# Calculate angle with bounds checking
angle = (voltage / estimated_max) * 360.0
# Ensure angle is in 0-360 range
angle = angle % 360
return voltage, angle
# Main loop
try:
print("Reading wind direction. Press Ctrl+C to exit.")
print("Voltage, Angle, Min Voltage, Max Voltage")
while True:
voltage, angle = get_wind_direction()
print(f"{voltage:.3f}V, {angle:.1f}°, {min_voltage:.3f}V, {max_voltage:.3f}V")
time.sleep(1)
except KeyboardInterrupt:
print("\nProgram stopped")
print(f"Observed voltage range: {min_voltage:.3f}V to {max_voltage:.3f}V")
# Suggest calibration if we have enough data
if max_voltage > min_voltage:
print("\nSuggested calibration for your setup:")
print(f"max_voltage = {max_voltage:.3f}")
print(f"def get_wind_direction():")
print(f" voltage = wind_dir_sensor.voltage")
print(f" angle = (voltage / {max_voltage:.3f}) * 360.0")
print(f" return angle % 360")

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windMeter/read_wind_speed.py Normal file
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'''
__ _____ _ _ ____
\ \ / /_ _| \ | | _ \
\ \ /\ / / | || \| | | | |
\ V V / | || |\ | |_| |
\_/\_/ |___|_| \_|____/
Script to read wind speed from a Davis Anémomètre-girouette Vantage Pro (6410)
https://www.shapemaker.io/blog/wind-speed-measurements-with-anemometer-and-a-raspberry-pi
Connexion:
black (wind speed ) -> gpio21
green (wind direction) -> ADS1115 (module I2C)
Yellow -> 5v
RED -> GND
Attention: The Raspberry Pi doesn't have analog inputs, so we need an analog-to-digital converter (ADC) to read the wind direction.
sudo /usr/bin/python3 /var/www/nebuleair_pro_4g/windMeter/read_wind_speed.py
'''
import time
from gpiozero import Button
from signal import pause
# Setup wind speed sensor on GPIO pin 21 (instead of 5)
wind_speed_sensor = Button(21)
wind_count = 0
def spin():
global wind_count
wind_count = wind_count + 1
def calc_speed(spins, interval):
# Davis anemometer formula: V = P*(2.25/T) in MPH
# P = pulses per sample period, T = sample period in seconds
wind_speed_mph = spins * (2.25 / interval)
return wind_speed_mph
def reset_wind():
global wind_count
wind_count = 0
# Register the event handler for the sensor
wind_speed_sensor.when_pressed = spin
try:
print("Wind speed measurement started. Press Ctrl+C to exit.")
while True:
# Reset the counter
reset_wind()
# Wait for 3 seconds and count rotations
print("Measuring for 3 seconds...")
time.sleep(3)
# Calculate and display wind speed
wind_speed = calc_speed(wind_count, 3)
print(f"Wind count: {wind_count} spins")
print(f"Wind speed: {wind_speed:.2f} mph ({wind_speed * 1.60934:.2f} km/h)")
except KeyboardInterrupt:
print("\nMeasurement stopped by user")