Exemple #1
0
class sms:
    def __init__(self, rx, tx):
        self._uart = UART(baudrate=9600, rx=rx, tx=tx)

        # Perform self check
        if not self._check():
            ...  # TODO replace this with a buzz or something

        self._report()

        # TODO indicate sim setup complete

    def _send(self, cmd: str) -> str:
        self._uart.write(bytes((cmd+"\r\n").encode("ascii")))
        sleep_ms(SEND_DELAY_MS)
        resp = self._uart.read()
        if resp is None:
            return ""
        return resp.decode("ascii")

    def _check(self) -> bool:
        if "ok" not in self._send("at"):
            return False
        if "error" in self._send("at+ccid"):
            return False
        if "error" in self._send("at+creg?"):
            return False
        return True

    # Report will send commands to the sim800l and collect the responses.
    # Then the responses will be sent via sms to the "owner"
    def _report(self):
        rep = ""
        rep += self._send("at+csq")  # signal strength
        rep += self._send("AT+COPS?")  # connected network
        rep += self._send("AT+CBC")  # lipo state
        self.send_msg(rep)

    def send_msg(self, msg: str):
        self._send("AT+CMGF=1")  # Text message mode
        self._send(f"AT+CMGS=\"{OWNER_NUMBER}\"")
        self._send(msg)
        self._uart.write(bytes(chr(26)))

    def recv_msg(self) -> str:
        self._send("AT+CMGF=1")  # Text message mode
        self._send("AT+CNMI=1,2,0,0,0")  # Send text message over uart
        resp = ""
        while resp == "" or "+CMT" not in resp:
            resp = self._uart.read()
            if resp == None:
                resp = ""
        
        msg = resp.decode("ascii")
        words = msg.split("\r\n")
        return words[2]
Exemple #2
0
class UARTSource(Observable):
    def __init__(self):
        super().__init__()
        self.uart = UART(board.TX, board.RX, baudrate=9600)

    def tick(self):
        self.emit(self.uart.read(self.uart.in_waiting))
Exemple #3
0
'''
https://circuitpython.readthedocs.io/en/2.x/shared-bindings/busio/UART.html
     
connect D3 and D4 to test
'''

import board
from busio import UART

uart = UART(board.D4, board.D3)

uart.write('test')
uart.read(4)

uart.write('test2\n')
uart.readline()  # reads until a \n character
Exemple #4
0
def sendMeasurement(msg):

    uart.write(memoryview(bytes([len(msg)])))

    uart.write(memoryview(bytes([ord(char) for char in msg])))


# Main loop
while True:
    battValue = getMeasurement(batt, 1.47)
    currentValue = getMeasurement(current, 1.47)
    temp2Value = getMeasurement(temp2, 100, -50)

    # Receive command
    buf = uart.read(2)

    if buf is not None:
        watchdog = 0
        data = [i for i in buf]

        command = data[0]
        header = data[1]

        if command == COMMAND_DICT['batt-voltage']:
            sendMeasurement(str(battValue))

        elif command == COMMAND_DICT['current']:
            sendMeasurement(str(currentValue))
        # elif command == COMMAND_DICT['temp1']:
        #     sendMeasurement(str(getTemp(temp1)))
Exemple #5
0
class sms:
    def __init__(self, rx, tx):
        self._uart = UART(baudrate=57600, rx=rx, tx=tx)
        self.pkt_size = 0

    def _send(self, cmd: str) -> str:
        self._uart.write(bytes((cmd + "\r\n").encode("ascii")))
        sleep_ms(SEND_DELAY_MS)
        resp = self._uart.read()
        if resp is None:
            return ""
        return resp.decode("ascii")

    # Report will send commands to the sim800l and collect the responses.
    # Then the responses will be sent via sms to the "owner"
    def report(self):
        rep = ""
        rep += self._send("at")
        rep += self._send("at+ccid")
        rep += self._send("at+creg?")
        rep += self._send("at+csq")  # signal strength
        rep += self._send("AT+COPS?")  # connected network
        rep += self._send("AT+CBC")  # lipo state
        self.send_msg(rep)

    def send_msg(self, msg: str, number=OWNER_NUMBER):
        self._send("AT+CMGF=1")  # Text message mode
        self._send(f"AT+CMGS=\"{number}\"")
        self._send(msg)
        self._uart.write(bytes(chr(26).encode("ascii")))

    def send_msg_all(self, msg: str):
        for num in NUMBERS:
            self.send_msg(msg, num)
            sleep_ms(5000)

    def recv_msg(self, indicator=None) -> str:
        self._send("AT+CMGF=1")  # Text message mode
        self._send("AT+CNMI=1,2,0,0,0")  # Send text message over uart
        resp = "\r\n\r\n"
        while "+CMT" not in resp:
            if indicator is not None:
                indicator.toggle()
            resp = self._uart.read()
            if resp is None:
                resp = "\r\n\r\n"
            else:
                indicator.on()
                resp = resp.decode("ascii")
                words = resp.split("\r\n")
                return words[2]

    def connect(self):
        self._send("AT+CFUN=1")
        self._send("AT+CSTT=\"wap.vodafone.co.uk\",\"wap\",\"wap\"")
        self._send("AT+CIICR")
        sleep_ms(200)
        self._send("AT+CIFSR")
        self._send("AT+CIPSTART=\"UDP\",35.229.97.111,8080")
        sleep_ms(2000)

    #Returns the number of milliseconds that need to be waited
    #This will have some gaps though, especially when sending a new packet
    def send_pkt(self, pkt: bytes) -> int:
        if self.pkt_size == 0:
            self._uart.write(
                bytes((f"AT+CIPSEND={MAX_PKT_SIZE}\r\na").encode("ascii")))
            return 4

        self._uart.write(pkt)
        self.pkt_size += len(pkt)
        if self.pkt_size >= MAX_PKT_SIZE:
            self._uart.write(bytes("\r\n".encode("ascii")))
            return 3
        return 1

    def disconnect(self):
        self._send("AT+CIPCLOSE")
        self._send("AT+CIPSHUT")
Exemple #6
0
import board
from busio import UART
import utime

FONA_BAUD = 4800

uart = UART(board.D0, board.D2,
            baudrate=FONA_BAUD)  # for UART2 on esp32 dev board, RX:16, TX:17
uart.init(FONA_BAUD)

# clear the buffer
for i in range(3):
    uart.readline()

# check replies
for i in range(10):
    message = "AT"
    uart.write(message + '\r\n')  # \r and \n seem necessary
    print(">>\n" + message)
    utime.sleep(.1)
    response = uart.read().decode('ascii')
    print("<<")
    print(response.split())
    utime.sleep(.1)