Example #1
0
def split_into_bytes(data: int,
                     no_of_bytes: int = -1,
                     little_endian: bool = False,
                     signed: bool = False):
    """
    This function will split a given integer into a integer list representing the bytes to be split;
    :param data: A integer that represents the value of the bytes to be split
    :param no_of_bytes: The number of bytes the integer to be converted into. If the
     no_of_bytes is too small the method returns None.
    :return: A integer list representing a bytes list version of the given integer
    """

    byteorder_indicator = "little" if little_endian is True else "big"

    if no_of_bytes == -1:
        no_of_bytes = ceil(data / 255)
    try:
        byte_string = data.to_bytes(no_of_bytes,
                                    byteorder=byteorder_indicator,
                                    signed=signed)
    except OverflowError as e:
        PTLogger.error(e)
        return None

    return [i for i in bytearray(byte_string)]
 def write_word(self, register_address: int, word_value: int, little_endian: bool = False, signed: bool = False):
     word_to_write = split_into_bytes(
         word_value, 2, little_endian=little_endian, signed=signed)
     if word_to_write is None:
         PTLogger.error(
             "Error splitting word into bytes list. Value: ", word_value)
     else:
         self.write_n_bytes(register_address, word_to_write)
    def write_byte(self, register_address: int, byte_value: int):
        if byte_value > 0xFF:
            PTLogger.warning(
                "Possible unintended overflow writing value to register "
                + hex(register_address)
            )

        self.write_n_bytes(register_address, [byte_value & 0xFF])
    def disconnect(self):
        PTLogger.debug("I2C: Disconnecting...")

        if self._write_device is not None:
            self._write_device.close()

        if self._read_device is not None:
            self._read_device.close()
 def write_byte(self, register_address: int, byte_value: int):
     if byte_value > 0xFF:
         PTLogger.warning(
             "Possible unintended overflow writing value to register "
             + hex(register_address)
         )
     self._bus.write_byte_data(
         self._device_address, register_address, byte_value)
def run_command_background(command_str: str, print_output=False) -> Popen:
    PTLogger.debug("Function: run_command_background(command_str=%s)" %
                   command_str)

    return Popen(split(command_str),
                 env=__get_env(),
                 stderr=None if print_output else DEVNULL,
                 stdout=None if print_output else DEVNULL)
    def connect(self):
        PTLogger.debug(
            "I2C (SMBus): Connecting to address "
            + hex(self._device_address)
            + " on bus "
            + str(self._bus_number)
        )

        self._bus = SMBus(self._bus_number)
 def write_n_bytes(self, register_address: int, byte_list: list):
     """
     Base function to write to an I2C device
     """
     PTLogger.debug(
         "I2C: Writing byte/s " +
         str(byte_list) + " to " + hex(register_address)
     )
     self.__run_transaction([register_address] + byte_list, 0)
    def write_word(self, register_address: int, word_value: int, little_endian: bool, signed: bool):
        bytes_to_write = split_into_bytes(
            word_value, 2, little_endian=little_endian, signed=signed)
        if bytes_to_write is None:
            PTLogger.error(
                "Error splitting word into bytes list. Value: ", word_value)
            return

        self.write_n_bytes(register_address, bytes_to_write)
 def write_n_bytes(self, register_address: int, byte_list: list):
     """
     Base function to write to an I2C device
     """
     PTLogger.debug(
         "I2C: Writing byte/s " +
         str(byte_list) + " to " + hex(register_address)
     )
     self._bus.write_i2c_block_data(
         self._device_address, register_address, byte_list)
    def __init__(self, id, _single_purpose=False):
        self.path = "/tmp/%s.lock" % id

        self._thread_lock = Lock()
        self._single_purpose = _single_purpose

        lock_file_already_existed = exists(self.path)
        self.__lock_file_handle = open(self.path, "w")
        if not lock_file_already_existed:
            chmod(self.path, S_IWUSR | S_IWGRP | S_IWOTH)

        PTLogger.debug("Creating PTLock with path: {}".format(self.path))
def send_notification(title: str,
                      text: str,
                      icon_name: str = "",
                      timeout: int = 0,
                      app_name: str = "",
                      notification_id: int = -1,
                      actions_manager: NotificationActionManager = None,
                      urgency_level: NotificationUrgencyLevel = None,
                      capture_notification_id: bool = True) -> str:

    # TODO: check that `pt-notify-send` is available, as it's not a hard dependency of the package

    cmd = "/usr/bin/pt-notify-send "
    cmd += "--print-id "
    cmd += "--expire-time=" + str(timeout) + " "

    if icon_name:
        cmd += "--icon=" + icon_name + " "

    if notification_id >= 0:
        cmd += "--replace=" + str(notification_id) + " "

    if actions_manager is not None:
        for action in actions_manager.actions:
            cmd += "--action=\"" + action.call_to_action_text + \
                ":" + action.command_str + "\" "

        if actions_manager.default_action is not None:
            cmd += "--default-action=" + actions_manager.default_action.command_str + " "

        if actions_manager.close_action is not None:
            cmd += "--close-action=" + actions_manager.close_action.command_str + " "

    if app_name:
        cmd += "--app-name=" + app_name + " "

    if urgency_level is not None:
        cmd += "--urgency=" + urgency_level.name + " "

    cmd += " \"" + title + "\" "
    cmd += "\"" + text + "\""

    PTLogger.info("pt-notify-send command: {}".format(cmd))

    try:
        resp_stdout = run_command(cmd,
                                  2000,
                                  capture_output=capture_notification_id)
    except Exception as e:
        PTLogger.warning("Failed to show message: {}".format(e))
        raise
    return resp_stdout
    def is_locked(self):
        if self.__locked_by_self:
            return self.__locked_by_self

        lock_status = False
        try:
            flock(self.__lock_file_handle, LOCK_EX | LOCK_NB)
            flock(self.__lock_file_handle, LOCK_UN)
        except BlockingIOError:
            lock_status = True

        PTLogger.debug("Lock file at {} is {}locked".format(
            self.path, "not " if not lock_status else ""))
        return lock_status
Example #14
0
def get_list_of_displays() -> int:
    def represents_int(s):
        try:
            int(s)
            return True
        except ValueError:
            return False

    displays = [
        f.replace('X', ':') for f in listdir("/tmp/.X11-unix/")
        if represents_int(f.replace('X', ''))
    ]
    PTLogger.debug("List of displays found: {}".format(displays))
    return displays
    def __read_n_bytes(
        self,
        register_address: int,
        number_of_bytes: int,
        signed: bool = False,
        little_endian: bool = False,
    ):
        """
        Base function to read from an I2C device
        :param register_address: Register address to target for reading
        :param number_of_bytes: Number of bytes to attempt to read from register address
        :param signed: Indicates whether or not the value could potentially have a negative value, and is therefore
        represented with a signed number representation
        :param little_endian: Indicates whether the data to be read is in little-endian byte-order
        :return: result: The response from the read attempt via I2C
        """

        # Read from device
        result_array = self.__run_transaction(
            [register_address],
            number_of_bytes
        )

        # Check response length is correct
        if len(result_array) != number_of_bytes:
            return None

        # Invert byte ordering, if appropriate
        if little_endian:
            result_array.reverse()

        # Convert array into integer
        result = join_bytes(result_array)

        # Process signed number if appropriate
        if signed:
            if result & (1 << ((8 * number_of_bytes) - 1)):
                result = -(1 << (8 * number_of_bytes)) + result

        PTLogger.debug(
            "I2C: Read " + str(number_of_bytes) + " bytes from " + hex(register_address) + " (" + (
                "Signed," if signed else "Unsigned,") + ("LE" if little_endian else "BE") + ")"
        )
        PTLogger.debug(str(result_array) + " : " + str(result))

        return result
    def release(self) -> bool:
        """
        Attempt to release lock
        """
        if not self._thread_lock.locked():
            PTLogger.debug("Attempting to release thread lock, which is currently already acquired.")

        if not self.is_locked():
            PTLogger.debug(f"Attempting to release lock file ({self.path}), which is currently already globally acquired.")

        PTLogger.debug("Releasing thread lock")
        self._thread_lock.release()
        PTLogger.debug("Releasing lock file at {}".format(self.path))
        flock(self.__lock_file_handle, LOCK_UN)
        self.__locked_by_self = False
    def acquire(self) -> bool:
        """
        Block until lock can be acquired
        """
        if self._thread_lock.locked():
            PTLogger.debug("Attempting to acquire thread lock, which is currently already acquired.")

        if self.is_locked():
            PTLogger.debug(f"Attempting to acquire lock file ({self.path}), which is currently already globally acquired.")

        PTLogger.debug("Acquiring thread lock")
        self._thread_lock.acquire()
        PTLogger.debug("Acquiring lock file at {}".format(self.path))
        flock(self.__lock_file_handle, LOCK_EX)
        self.__locked_by_self = True
Example #18
0
    def __connect_to_socket(self):
        self.__zmq_context = zmq.Context()
        self.__zmq_socket = self.__zmq_context.socket(zmq.REQ)
        self.__zmq_socket.sndtimeo = _TIMEOUT_MS
        self.__zmq_socket.rcvtimeo = _TIMEOUT_MS

        try:
            self.__zmq_socket.connect("tcp://127.0.0.1:3782")
            PTLogger.debug("pt-device-manager request client is ready")

        except zmq.error.ZMQError as e:
            PTLogger.error("Error starting the request client: " + str(e))
            PTLogger.info(format_exc())
            raise
Example #19
0
    def __connect_to_socket(self):
        self.__zmq_context = zmq.Context()
        self.__zmq_socket = self.__zmq_context.socket(zmq.SUB)
        self.__zmq_socket.setsockopt_string(zmq.SUBSCRIBE, "")

        try:
            self.__zmq_socket.connect("tcp://127.0.0.1:3781")
            PTLogger.debug("pt-device-manager subscribe client is ready")

        except zmq.error.ZMQError as e:
            PTLogger.error("Error starting the subscribe client: " + str(e))
            PTLogger.info(format_exc())

            return False

        return True
    def connect(self, read_test=True):
        PTLogger.debug(
            "I2C: Connecting to address "
            + hex(self._device_address)
            + " on "
            + self._device_path
        )

        self._read_device = iopen(self._device_path, "rb", buffering=0)
        self._write_device = iopen(self._device_path, "wb", buffering=0)

        ioctl(self._read_device, self.I2C_SLAVE, self._device_address)
        ioctl(self._write_device, self.I2C_SLAVE, self._device_address)

        if read_test is True:
            PTLogger.debug("I2C: Test read 1 byte")
            self._read_device.read(1)
            PTLogger.debug("I2C: OK")
 def disconnect(self):
     PTLogger.debug("I2C (SMBus): Disconnecting...")
     self._bus.close()
Example #22
0
def get_first_display() -> int:
    displays = get_list_of_displays()
    first_display = displays[0] if len(displays) > 0 else None
    PTLogger.debug("First display is: {}".format(first_display))
    return first_display
def run_command(command_str: str,
                timeout: int,
                check: bool = True,
                capture_output: bool = True,
                log_errors: bool = True) -> str:
    PTLogger.debug(
        f"Function: run_command(command_str={command_str}, timeout={timeout}, check={check}, capture_output={capture_output}, \
         log_errors={log_errors})")

    resp_stdout = None

    try:
        resp = run(split(command_str),
                   check=check,
                   capture_output=capture_output,
                   timeout=timeout,
                   env=__get_env())

        if capture_output:
            resp_stdout = str(resp.stdout, 'utf8')
            resp_stderr = str(resp.stderr, 'utf8')

            PTLogger.debug(f"run_command("
                           f"command_str='{command_str}', "
                           f"timeout={timeout}, "
                           f"check='{check}', "
                           f"capture_output='{capture_output}'"
                           f") stdout:\n{resp_stdout}")
            PTLogger.debug(f"run_command("
                           f"command_str='{command_str}', "
                           f"timeout={timeout}, "
                           f"check='{check}', "
                           f"capture_output='{capture_output}'"
                           f") stderr:\n{resp_stderr}")

        if not check:
            PTLogger.debug(f"run_command("
                           f"command_str='{command_str}', "
                           f"timeout={timeout}, "
                           f"check='{check}', "
                           f"capture_output='{capture_output}'"
                           f") exit code: {resp.returncode}")

    except (CalledProcessError, TimeoutExpired) as e:
        if log_errors:
            PTLogger.error(str(e))
        raise e
    except Exception as e:
        if log_errors:
            PTLogger.error(str(e))

    return resp_stdout