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@@ -216,6 +216,8 @@ def read_complete_response(serial_connection, timeout=2, end_of_response_timeout
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# Open and read the JSON file
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try:
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# Send the command to request data (e.g., data for 60 seconds)
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print("SART LOOP")
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print("Getting NPM values")
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ser_NPM.write(b'\x81\x12\x6D')
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# Read the response
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@@ -242,6 +244,7 @@ try:
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# Sonde BME280 connected
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if bme_280_config:
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print("Getting BME280 values")
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#on récupère les infos du BME280 et on les ajoute au payload_csv
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i2c = busio.I2C(board.SCL, board.SDA)
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bme280 = adafruit_bme280.Adafruit_BME280_I2C(i2c, address=0x76)
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@@ -314,7 +317,7 @@ try:
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print(f"No serial connection for {name}")
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# Getting the LTE Signal
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print("-> Getting signal <-")
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print("-> Getting LTE signal <-")
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ser_sara.write(b'AT+CSQ\r')
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response2 = read_complete_response(ser_sara)
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print("Response:")
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@@ -349,7 +352,7 @@ try:
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ser_sara.write(csv_string.encode())
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response_SARA_2 = read_complete_response(ser_sara)
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if need_to_log:
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print("Write to memory:")
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print("Write data to memory:")
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print(response_SARA_2)
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#3. Send to endpoint (with device ID)
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@@ -357,114 +360,112 @@ try:
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command= f'AT+UHTTPC=0,4,"/pro_4G/data.php?sensor_id={device_id}","server_response.txt","sensordata_csv.json",4\r'
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ser_sara.write(command.encode('utf-8'))
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print("Waiting for +UUHTTPCR response...")
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response_received = False
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while not response_received:
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response_SARA_3 = read_complete_response(ser_sara, timeout=5)
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print(response_SARA_3)
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if "+UUHTTPCR" in response_SARA_3:
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response_received = True
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response_SARA_3 = read_complete_response(ser_sara, timeout=5)
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print(response_SARA_3)
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if "+UUHTTPCR" in response_SARA_3:
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print("Received +UUHTTPCR response.")
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response_received = True
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# Les types de réponse
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# Les types de réponse
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# 1.La commande n'a pas fonctionné
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# +CME ERROR: No connection to phone
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# +CME ERROR: Operation not allowed
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# 1.La commande n'a pas fonctionné
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# +CME ERROR: No connection to phone
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# +CME ERROR: Operation not allowed
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# 2.La commande fonctionne: elle renvoie un code
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# +UUHTTPCR: <profile_id>,<http_command>,<http_result>
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# <http_result>: 1 pour sucess et 0 pour fail
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# +UUHTTPCR: 0,4,1 -> OK
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# +UUHTTPCR: 0,4,0 -> error
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# 2.La commande fonctionne: elle renvoie un code
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# +UUHTTPCR: <profile_id>,<http_command>,<http_result>
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# <http_result>: 1 pour sucess et 0 pour fail
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# +UUHTTPCR: 0,4,1 -> OK
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# +UUHTTPCR: 0,4,0 -> error
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# Split response into lines
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lines = response_SARA_3.strip().splitlines()
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# Split response into lines
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lines = response_SARA_3.strip().splitlines()
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# 1.Vérifier si la réponse contient un message d'erreur CME
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if "+CME ERROR" in lines[-1]:
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# 1.Vérifier si la réponse contient un message d'erreur CME
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if "+CME ERROR" in lines[-1]:
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print("*****")
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print('<span style="color: red;font-weight: bold;">ATTENTION: CME ERROR</span>')
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print("error:", lines[-1])
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print("*****")
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#update status
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update_json_key(config_file, "SARA_R4_network_status", "disconnected")
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# Gestion de l'erreur spécifique
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if "No connection to phone" in lines[-1]:
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print("No connection to the phone. Retrying or reset may be required.")
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# Actions spécifiques pour ce type d'erreur (par exemple, réinitialiser ou tenter de reconnecter)
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# need to reconnect to network
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# and reset HTTP profile (AT+UHTTP=0) -> ne fonctionne pas..
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# tester un reset avec CFUN 15
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# 1.Reconnexion au réseau (AT+COPS)
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command = f'AT+COPS=1,2,"{selected_networkID}"\r'
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ser_sara.write(command.encode('utf-8'))
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responseReconnect = read_complete_response(ser_sara)
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print("Response reconnect:")
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print(responseReconnect)
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print("End response reconnect")
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elif "Operation not allowed" in lines[-1]:
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print("Operation not allowed. This may require a different configuration.")
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# Actions spécifiques pour ce type d'erreur
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# Clignotement LED en cas d'erreur
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GPIO.output(23, GPIO.LOW) # Éteindre la LED définitivement
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for _ in range(4):
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GPIO.output(23, GPIO.HIGH) # Allumer la LED
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time.sleep(0.1)
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GPIO.output(23, GPIO.LOW) # Éteindre la LED
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time.sleep(0.1)
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GPIO.output(23, GPIO.LOW) # Turn off the LED
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else:
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# 2.Si la réponse contient une réponse HTTP valide
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# Extract HTTP response code from the last line
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# ATTENTION: lines[-1] renvoie l'avant dernière ligne et il peut y avoir un soucis avec le OK
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# rechercher plutot
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http_response = lines[-1] # "+UUHTTPCR: 0,4,0"
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parts = http_response.split(',')
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# 2.1 code 0 (HTTP failed)
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if len(parts) == 3 and parts[-1] == '0': # The third value indicates success
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print("*****")
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print('<span style="color: red;font-weight: bold;">ATTENTION: CME ERROR</span>')
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print("error:", lines[-1])
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print("*****")
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#update status
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print('<span style="color: red;font-weight: bold;">ATTENTION: HTTP operation failed</span>')
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update_json_key(config_file, "SARA_R4_network_status", "disconnected")
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# Gestion de l'erreur spécifique
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if "No connection to phone" in lines[-1]:
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print("No connection to the phone. Retrying or reset may be required.")
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# Actions spécifiques pour ce type d'erreur (par exemple, réinitialiser ou tenter de reconnecter)
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# need to reconnect to network
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# and reset HTTP profile (AT+UHTTP=0) -> ne fonctionne pas..
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# tester un reset avec CFUN 15
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# 1.Reconnexion au réseau (AT+COPS)
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command = f'AT+COPS=1,2,"{selected_networkID}"\r'
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ser_sara.write(command.encode('utf-8'))
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responseReconnect = read_complete_response(ser_sara)
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print("Response reconnect:")
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print(responseReconnect)
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print("End response reconnect")
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elif "Operation not allowed" in lines[-1]:
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print("Operation not allowed. This may require a different configuration.")
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# Actions spécifiques pour ce type d'erreur
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# Clignotement LED en cas d'erreur
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GPIO.output(23, GPIO.LOW) # Éteindre la LED définitivement
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for _ in range(4):
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print("*****")
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print("resetting the URL (domain name):")
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print("Turning off the blue LED...")
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for _ in range(4): # Faire clignoter 4 fois
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GPIO.output(23, GPIO.HIGH) # Allumer la LED
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time.sleep(0.1)
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time.sleep(0.1) # Attendre 100 ms
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GPIO.output(23, GPIO.LOW) # Éteindre la LED
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time.sleep(0.1)
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time.sleep(0.1) # Attendre 100 ms
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GPIO.output(23, GPIO.LOW) # Turn off the LED
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command = f'AT+UHTTP=0,1,"{url_nebuleair}"\r'
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ser_sara.write(command.encode('utf-8'))
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response_SARA_31 = read_complete_response(ser_sara)
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if need_to_log:
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print(response_SARA_31)
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# 2.2 code 1 (HHTP succeded)
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else:
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# 2.Si la réponse contient une réponse HTTP valide
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# Extract HTTP response code from the last line
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# ATTENTION: lines[-1] renvoie l'avant dernière ligne et il peut y avoir un soucis avec le OK
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# rechercher plutot
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http_response = lines[-1] # "+UUHTTPCR: 0,4,0"
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parts = http_response.split(',')
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# 2.1 code 0 (HTTP failed)
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if len(parts) == 3 and parts[-1] == '0': # The third value indicates success
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print("*****")
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print('<span style="color: red;font-weight: bold;">ATTENTION: HTTP operation failed</span>')
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update_json_key(config_file, "SARA_R4_network_status", "disconnected")
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print("*****")
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print("resetting the URL (domain name):")
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print("Turning off the blue LED...")
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for _ in range(4): # Faire clignoter 4 fois
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GPIO.output(23, GPIO.HIGH) # Allumer la LED
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time.sleep(0.1) # Attendre 100 ms
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GPIO.output(23, GPIO.LOW) # Éteindre la LED
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time.sleep(0.1) # Attendre 100 ms
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GPIO.output(23, GPIO.LOW) # Turn off the LED
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command = f'AT+UHTTP=0,1,"{url_nebuleair}"\r'
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ser_sara.write(command.encode('utf-8'))
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response_SARA_31 = read_complete_response(ser_sara)
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if need_to_log:
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print(response_SARA_31)
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# 2.2 code 1 (HHTP succeded)
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else:
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# Si la commande HTTP a réussi
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print('<span class="badge text-bg-success">HTTP operation successful.</span>')
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update_json_key(config_file, "SARA_R4_network_status", "connected")
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print("Turning on the blue LED...")
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for _ in range(4): # Faire clignoter 4 fois
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GPIO.output(23, GPIO.HIGH) # Allumer la LED
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time.sleep(0.1) # Attendre 100 ms
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GPIO.output(23, GPIO.LOW) # Éteindre la LED
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time.sleep(0.1) # Attendre 100 ms
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GPIO.output(23, GPIO.HIGH) # Turn on the LED
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#4. Read reply from server
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ser_sara.write(b'AT+URDFILE="server_response.txt"\r')
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response_SARA_4 = read_complete_response(ser_sara)
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if need_to_log:
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print("Reply from server:")
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print('<p class="text-success">')
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print(response_SARA_4)
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print('</p>')
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# Si la commande HTTP a réussi
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print('<span class="badge text-bg-success">HTTP operation successful.</span>')
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update_json_key(config_file, "SARA_R4_network_status", "connected")
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print("Turning on the blue LED...")
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for _ in range(4): # Faire clignoter 4 fois
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GPIO.output(23, GPIO.HIGH) # Allumer la LED
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time.sleep(0.1) # Attendre 100 ms
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GPIO.output(23, GPIO.LOW) # Éteindre la LED
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time.sleep(0.1) # Attendre 100 ms
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GPIO.output(23, GPIO.HIGH) # Turn on the LED
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#4. Read reply from server
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ser_sara.write(b'AT+URDFILE="server_response.txt"\r')
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response_SARA_4 = read_complete_response(ser_sara)
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if need_to_log:
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print("Reply from server:")
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print('<p class="text-success">')
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print(response_SARA_4)
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print('</p>')
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#5. empty json
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ser_sara.write(b'AT+UDELFILE="sensordata_csv.json"\r')
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