Estoy generando datos aleatorios en un Arduino que permanece conectado a mi ordenador y me gustaría transferir estos datos a una base de datos local en mi ordenador o a un puerto.
He intentado adaptar el código de este post pero que utilisa el port /dev/ttyACM0 y cuando utiliso el script obtengo:
serial.serialutil.SerialException: could not open port '/dev/ttyACM0':
FileNotFoundError(2, 'The system cannot find the path specified.', None, 3)
Cambio por el com que utilisa el Arduino pero me crea problemas:
Arduino: 1.8.19 (Windows 10), Board: "Arduino Uno"
Sketch uses 4494 bytes (13%) of program storage space. Maximum is 32256 bytes.
Global variables use 230 bytes (11%) of dynamic memory, leaving 1818 bytes for local variables. Maximum is 2048 bytes.
Error opening serial port 'COM7'. (Port busy)
Error opening serial port 'COM7'. (Port busy)
This report would have more information with
"Show verbose output during compilation"
option enabled in File -> Preferences.
Basta de bla, bla, bla. Aqui es los mios codigos.
Lado Arduino, qu utilisa Port COM 7, para generar datos:
void setup() {
Serial.begin(115200);
randomSeed(analogRead(0));
}
void loop() {
SendSensorData();
}
//function to send sensor data
void SendSensorData() {
String sensorData1,sensorData2,sensorData3, postData;
sensorData1=random(25, 200);
sensorData2=random(25, 200);
sensorData3=random(25, 200);
//Post Data
postData = "sensor1=" + sensorData1 + "&sensor2=" + sensorData2+ "&sensor3=" + sensorData3;
Serial.println(postData);
delay(1000);
}
Y, Lado PC main.py, para recibir los datos del Arduino:
import serial
import time
startMarker = '<'
endMarker = '>'
dataStarted = False
dataBuf = ""
messageComplete = False
# ========================
# ========================
# the functions
def setupSerial(baudRate, serialPortName):
global serialPort
serialPort = serial.Serial(port=serialPortName, baudrate=baudRate, timeout=0, rtscts=True)
print("Serial port " + serialPortName + " opened Baudrate " + str(baudRate))
waitForArduino()
# ========================
def sendToArduino(stringToSend):
# this adds the start- and end-markers before sending
global startMarker, endMarker, serialPort
stringWithMarkers = (startMarker)
stringWithMarkers += stringToSend
stringWithMarkers += (endMarker)
serialPort.write(stringWithMarkers.encode('utf-8')) # encode needed for Python3
# ==================
def recvLikeArduino():
global startMarker, endMarker, serialPort, dataStarted, dataBuf, messageComplete
if serialPort.inWaiting() > 0 and messageComplete == False:
x = serialPort.read().decode("utf-8") # decode needed for Python3
if dataStarted == True:
if x != endMarker:
dataBuf = dataBuf + x
else:
dataStarted = False
messageComplete = True
elif x == startMarker:
dataBuf = ''
dataStarted = True
if (messageComplete == True):
messageComplete = False
return dataBuf
else:
return "XXX"
# ==================
def waitForArduino():
# wait until the Arduino sends 'Arduino is ready' - allows time for Arduino reset
# it also ensures that any bytes left over from a previous message are discarded
print("Waiting for Arduino to reset")
msg = ""
while msg.find("Arduino is ready") == -1:
msg = recvLikeArduino()
if not (msg == 'XXX'):
print(msg)
# ====================
# ====================
# the program
if __name__ == "__main__":
setupSerial(115200, "/dev/ttyACM0")
count = 0
prevTime = time.time()
while True:
# check for a reply
arduinoReply = recvLikeArduino()
if not (arduinoReply == 'XXX'):
print("Time %s Reply %s" % (time.time(), arduinoReply))
# send a message at intervals
if time.time() - prevTime > 1.0:
sendToArduino("this is a test " + str(count))
prevTime = time.time()
count += 1
