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/* ***********************************************************
* This file was automatically generated on 2024-02-27. *
* *
* Rust Bindings Version 2.0.21 *
* *
* If you have a bugfix for this file and want to commit it, *
* please fix the bug in the generator. You can find a link *
* to the generators git repository on tinkerforge.com *
*************************************************************/
//! Measures IAQ index, temperature, humidity and air pressure.
//!
//! See also the documentation [here](https://www.tinkerforge.com/en/doc/Software/Bricklets/AirQuality_Bricklet_Rust.html).
use crate::{
byte_converter::*, converting_callback_receiver::ConvertingCallbackReceiver, converting_receiver::ConvertingReceiver, device::*,
ip_connection::GetRequestSender,
};
pub enum AirQualityBrickletFunction {
GetAllValues,
SetTemperatureOffset,
GetTemperatureOffset,
SetAllValuesCallbackConfiguration,
GetAllValuesCallbackConfiguration,
GetIaqIndex,
SetIaqIndexCallbackConfiguration,
GetIaqIndexCallbackConfiguration,
GetTemperature,
SetTemperatureCallbackConfiguration,
GetTemperatureCallbackConfiguration,
GetHumidity,
SetHumidityCallbackConfiguration,
GetHumidityCallbackConfiguration,
GetAirPressure,
SetAirPressureCallbackConfiguration,
GetAirPressureCallbackConfiguration,
RemoveCalibration,
SetBackgroundCalibrationDuration,
GetBackgroundCalibrationDuration,
GetSpitfpErrorCount,
SetBootloaderMode,
GetBootloaderMode,
SetWriteFirmwarePointer,
WriteFirmware,
SetStatusLedConfig,
GetStatusLedConfig,
GetChipTemperature,
Reset,
WriteUid,
ReadUid,
GetIdentity,
CallbackAllValues,
CallbackIaqIndex,
CallbackTemperature,
CallbackHumidity,
CallbackAirPressure,
}
impl From<AirQualityBrickletFunction> for u8 {
fn from(fun: AirQualityBrickletFunction) -> Self {
match fun {
AirQualityBrickletFunction::GetAllValues => 1,
AirQualityBrickletFunction::SetTemperatureOffset => 2,
AirQualityBrickletFunction::GetTemperatureOffset => 3,
AirQualityBrickletFunction::SetAllValuesCallbackConfiguration => 4,
AirQualityBrickletFunction::GetAllValuesCallbackConfiguration => 5,
AirQualityBrickletFunction::GetIaqIndex => 7,
AirQualityBrickletFunction::SetIaqIndexCallbackConfiguration => 8,
AirQualityBrickletFunction::GetIaqIndexCallbackConfiguration => 9,
AirQualityBrickletFunction::GetTemperature => 11,
AirQualityBrickletFunction::SetTemperatureCallbackConfiguration => 12,
AirQualityBrickletFunction::GetTemperatureCallbackConfiguration => 13,
AirQualityBrickletFunction::GetHumidity => 15,
AirQualityBrickletFunction::SetHumidityCallbackConfiguration => 16,
AirQualityBrickletFunction::GetHumidityCallbackConfiguration => 17,
AirQualityBrickletFunction::GetAirPressure => 19,
AirQualityBrickletFunction::SetAirPressureCallbackConfiguration => 20,
AirQualityBrickletFunction::GetAirPressureCallbackConfiguration => 21,
AirQualityBrickletFunction::RemoveCalibration => 23,
AirQualityBrickletFunction::SetBackgroundCalibrationDuration => 24,
AirQualityBrickletFunction::GetBackgroundCalibrationDuration => 25,
AirQualityBrickletFunction::GetSpitfpErrorCount => 234,
AirQualityBrickletFunction::SetBootloaderMode => 235,
AirQualityBrickletFunction::GetBootloaderMode => 236,
AirQualityBrickletFunction::SetWriteFirmwarePointer => 237,
AirQualityBrickletFunction::WriteFirmware => 238,
AirQualityBrickletFunction::SetStatusLedConfig => 239,
AirQualityBrickletFunction::GetStatusLedConfig => 240,
AirQualityBrickletFunction::GetChipTemperature => 242,
AirQualityBrickletFunction::Reset => 243,
AirQualityBrickletFunction::WriteUid => 248,
AirQualityBrickletFunction::ReadUid => 249,
AirQualityBrickletFunction::GetIdentity => 255,
AirQualityBrickletFunction::CallbackAllValues => 6,
AirQualityBrickletFunction::CallbackIaqIndex => 10,
AirQualityBrickletFunction::CallbackTemperature => 14,
AirQualityBrickletFunction::CallbackHumidity => 18,
AirQualityBrickletFunction::CallbackAirPressure => 22,
}
}
}
pub const AIR_QUALITY_BRICKLET_ACCURACY_UNRELIABLE: u8 = 0;
pub const AIR_QUALITY_BRICKLET_ACCURACY_LOW: u8 = 1;
pub const AIR_QUALITY_BRICKLET_ACCURACY_MEDIUM: u8 = 2;
pub const AIR_QUALITY_BRICKLET_ACCURACY_HIGH: u8 = 3;
pub const AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_OFF: char = 'x';
pub const AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_OUTSIDE: char = 'o';
pub const AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_INSIDE: char = 'i';
pub const AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_SMALLER: char = '<';
pub const AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_GREATER: char = '>';
pub const AIR_QUALITY_BRICKLET_DURATION_4_DAYS: u8 = 0;
pub const AIR_QUALITY_BRICKLET_DURATION_28_DAYS: u8 = 1;
pub const AIR_QUALITY_BRICKLET_BOOTLOADER_MODE_BOOTLOADER: u8 = 0;
pub const AIR_QUALITY_BRICKLET_BOOTLOADER_MODE_FIRMWARE: u8 = 1;
pub const AIR_QUALITY_BRICKLET_BOOTLOADER_MODE_BOOTLOADER_WAIT_FOR_REBOOT: u8 = 2;
pub const AIR_QUALITY_BRICKLET_BOOTLOADER_MODE_FIRMWARE_WAIT_FOR_REBOOT: u8 = 3;
pub const AIR_QUALITY_BRICKLET_BOOTLOADER_MODE_FIRMWARE_WAIT_FOR_ERASE_AND_REBOOT: u8 = 4;
pub const AIR_QUALITY_BRICKLET_BOOTLOADER_STATUS_OK: u8 = 0;
pub const AIR_QUALITY_BRICKLET_BOOTLOADER_STATUS_INVALID_MODE: u8 = 1;
pub const AIR_QUALITY_BRICKLET_BOOTLOADER_STATUS_NO_CHANGE: u8 = 2;
pub const AIR_QUALITY_BRICKLET_BOOTLOADER_STATUS_ENTRY_FUNCTION_NOT_PRESENT: u8 = 3;
pub const AIR_QUALITY_BRICKLET_BOOTLOADER_STATUS_DEVICE_IDENTIFIER_INCORRECT: u8 = 4;
pub const AIR_QUALITY_BRICKLET_BOOTLOADER_STATUS_CRC_MISMATCH: u8 = 5;
pub const AIR_QUALITY_BRICKLET_STATUS_LED_CONFIG_OFF: u8 = 0;
pub const AIR_QUALITY_BRICKLET_STATUS_LED_CONFIG_ON: u8 = 1;
pub const AIR_QUALITY_BRICKLET_STATUS_LED_CONFIG_SHOW_HEARTBEAT: u8 = 2;
pub const AIR_QUALITY_BRICKLET_STATUS_LED_CONFIG_SHOW_STATUS: u8 = 3;
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Hash)]
pub struct AllValues {
pub iaq_index: i32,
pub iaq_index_accuracy: u8,
pub temperature: i32,
pub humidity: i32,
pub air_pressure: i32,
}
impl FromByteSlice for AllValues {
fn bytes_expected() -> usize { 17 }
fn from_le_byte_slice(bytes: &[u8]) -> AllValues {
AllValues {
iaq_index: <i32>::from_le_byte_slice(&bytes[0..4]),
iaq_index_accuracy: <u8>::from_le_byte_slice(&bytes[4..5]),
temperature: <i32>::from_le_byte_slice(&bytes[5..9]),
humidity: <i32>::from_le_byte_slice(&bytes[9..13]),
air_pressure: <i32>::from_le_byte_slice(&bytes[13..17]),
}
}
}
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Hash)]
pub struct AllValuesCallbackConfiguration {
pub period: u32,
pub value_has_to_change: bool,
}
impl FromByteSlice for AllValuesCallbackConfiguration {
fn bytes_expected() -> usize { 5 }
fn from_le_byte_slice(bytes: &[u8]) -> AllValuesCallbackConfiguration {
AllValuesCallbackConfiguration {
period: <u32>::from_le_byte_slice(&bytes[0..4]),
value_has_to_change: <bool>::from_le_byte_slice(&bytes[4..5]),
}
}
}
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Hash)]
pub struct AllValuesEvent {
pub iaq_index: i32,
pub iaq_index_accuracy: u8,
pub temperature: i32,
pub humidity: i32,
pub air_pressure: i32,
}
impl FromByteSlice for AllValuesEvent {
fn bytes_expected() -> usize { 17 }
fn from_le_byte_slice(bytes: &[u8]) -> AllValuesEvent {
AllValuesEvent {
iaq_index: <i32>::from_le_byte_slice(&bytes[0..4]),
iaq_index_accuracy: <u8>::from_le_byte_slice(&bytes[4..5]),
temperature: <i32>::from_le_byte_slice(&bytes[5..9]),
humidity: <i32>::from_le_byte_slice(&bytes[9..13]),
air_pressure: <i32>::from_le_byte_slice(&bytes[13..17]),
}
}
}
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Hash)]
pub struct IaqIndex {
pub iaq_index: i32,
pub iaq_index_accuracy: u8,
}
impl FromByteSlice for IaqIndex {
fn bytes_expected() -> usize { 5 }
fn from_le_byte_slice(bytes: &[u8]) -> IaqIndex {
IaqIndex { iaq_index: <i32>::from_le_byte_slice(&bytes[0..4]), iaq_index_accuracy: <u8>::from_le_byte_slice(&bytes[4..5]) }
}
}
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Hash)]
pub struct IaqIndexCallbackConfiguration {
pub period: u32,
pub value_has_to_change: bool,
}
impl FromByteSlice for IaqIndexCallbackConfiguration {
fn bytes_expected() -> usize { 5 }
fn from_le_byte_slice(bytes: &[u8]) -> IaqIndexCallbackConfiguration {
IaqIndexCallbackConfiguration {
period: <u32>::from_le_byte_slice(&bytes[0..4]),
value_has_to_change: <bool>::from_le_byte_slice(&bytes[4..5]),
}
}
}
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Hash)]
pub struct IaqIndexEvent {
pub iaq_index: i32,
pub iaq_index_accuracy: u8,
}
impl FromByteSlice for IaqIndexEvent {
fn bytes_expected() -> usize { 5 }
fn from_le_byte_slice(bytes: &[u8]) -> IaqIndexEvent {
IaqIndexEvent { iaq_index: <i32>::from_le_byte_slice(&bytes[0..4]), iaq_index_accuracy: <u8>::from_le_byte_slice(&bytes[4..5]) }
}
}
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Hash)]
pub struct TemperatureCallbackConfiguration {
pub period: u32,
pub value_has_to_change: bool,
pub option: char,
pub min: i32,
pub max: i32,
}
impl FromByteSlice for TemperatureCallbackConfiguration {
fn bytes_expected() -> usize { 14 }
fn from_le_byte_slice(bytes: &[u8]) -> TemperatureCallbackConfiguration {
TemperatureCallbackConfiguration {
period: <u32>::from_le_byte_slice(&bytes[0..4]),
value_has_to_change: <bool>::from_le_byte_slice(&bytes[4..5]),
option: <char>::from_le_byte_slice(&bytes[5..6]),
min: <i32>::from_le_byte_slice(&bytes[6..10]),
max: <i32>::from_le_byte_slice(&bytes[10..14]),
}
}
}
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Hash)]
pub struct HumidityCallbackConfiguration {
pub period: u32,
pub value_has_to_change: bool,
pub option: char,
pub min: i32,
pub max: i32,
}
impl FromByteSlice for HumidityCallbackConfiguration {
fn bytes_expected() -> usize { 14 }
fn from_le_byte_slice(bytes: &[u8]) -> HumidityCallbackConfiguration {
HumidityCallbackConfiguration {
period: <u32>::from_le_byte_slice(&bytes[0..4]),
value_has_to_change: <bool>::from_le_byte_slice(&bytes[4..5]),
option: <char>::from_le_byte_slice(&bytes[5..6]),
min: <i32>::from_le_byte_slice(&bytes[6..10]),
max: <i32>::from_le_byte_slice(&bytes[10..14]),
}
}
}
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Hash)]
pub struct AirPressureCallbackConfiguration {
pub period: u32,
pub value_has_to_change: bool,
pub option: char,
pub min: i32,
pub max: i32,
}
impl FromByteSlice for AirPressureCallbackConfiguration {
fn bytes_expected() -> usize { 14 }
fn from_le_byte_slice(bytes: &[u8]) -> AirPressureCallbackConfiguration {
AirPressureCallbackConfiguration {
period: <u32>::from_le_byte_slice(&bytes[0..4]),
value_has_to_change: <bool>::from_le_byte_slice(&bytes[4..5]),
option: <char>::from_le_byte_slice(&bytes[5..6]),
min: <i32>::from_le_byte_slice(&bytes[6..10]),
max: <i32>::from_le_byte_slice(&bytes[10..14]),
}
}
}
#[derive(Clone, Copy, Debug, Default, PartialEq, Eq, Hash)]
pub struct SpitfpErrorCount {
pub error_count_ack_checksum: u32,
pub error_count_message_checksum: u32,
pub error_count_frame: u32,
pub error_count_overflow: u32,
}
impl FromByteSlice for SpitfpErrorCount {
fn bytes_expected() -> usize { 16 }
fn from_le_byte_slice(bytes: &[u8]) -> SpitfpErrorCount {
SpitfpErrorCount {
error_count_ack_checksum: <u32>::from_le_byte_slice(&bytes[0..4]),
error_count_message_checksum: <u32>::from_le_byte_slice(&bytes[4..8]),
error_count_frame: <u32>::from_le_byte_slice(&bytes[8..12]),
error_count_overflow: <u32>::from_le_byte_slice(&bytes[12..16]),
}
}
}
#[derive(Clone, Debug, Default, PartialEq, Eq, Hash)]
pub struct Identity {
pub uid: String,
pub connected_uid: String,
pub position: char,
pub hardware_version: [u8; 3],
pub firmware_version: [u8; 3],
pub device_identifier: u16,
}
impl FromByteSlice for Identity {
fn bytes_expected() -> usize { 25 }
fn from_le_byte_slice(bytes: &[u8]) -> Identity {
Identity {
uid: <String>::from_le_byte_slice(&bytes[0..8]),
connected_uid: <String>::from_le_byte_slice(&bytes[8..16]),
position: <char>::from_le_byte_slice(&bytes[16..17]),
hardware_version: <[u8; 3]>::from_le_byte_slice(&bytes[17..20]),
firmware_version: <[u8; 3]>::from_le_byte_slice(&bytes[20..23]),
device_identifier: <u16>::from_le_byte_slice(&bytes[23..25]),
}
}
}
/// Measures IAQ index, temperature, humidity and air pressure
#[derive(Clone)]
pub struct AirQualityBricklet {
device: Device,
}
impl AirQualityBricklet {
pub const DEVICE_IDENTIFIER: u16 = 297;
pub const DEVICE_DISPLAY_NAME: &'static str = "Air Quality Bricklet";
/// Creates an object with the unique device ID `uid`. This object can then be used after the IP Connection `ip_connection` is connected.
pub fn new<T: GetRequestSender>(uid: &str, req_sender: T) -> AirQualityBricklet {
let mut result = AirQualityBricklet { device: Device::new([2, 0, 1], uid, req_sender, 0) };
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetAllValues) as usize] = ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::SetTemperatureOffset) as usize] = ResponseExpectedFlag::False;
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetTemperatureOffset) as usize] =
ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::SetAllValuesCallbackConfiguration) as usize] =
ResponseExpectedFlag::True;
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetAllValuesCallbackConfiguration) as usize] =
ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetIaqIndex) as usize] = ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::SetIaqIndexCallbackConfiguration) as usize] =
ResponseExpectedFlag::True;
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetIaqIndexCallbackConfiguration) as usize] =
ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetTemperature) as usize] = ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::SetTemperatureCallbackConfiguration) as usize] =
ResponseExpectedFlag::True;
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetTemperatureCallbackConfiguration) as usize] =
ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetHumidity) as usize] = ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::SetHumidityCallbackConfiguration) as usize] =
ResponseExpectedFlag::True;
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetHumidityCallbackConfiguration) as usize] =
ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetAirPressure) as usize] = ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::SetAirPressureCallbackConfiguration) as usize] =
ResponseExpectedFlag::True;
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetAirPressureCallbackConfiguration) as usize] =
ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::RemoveCalibration) as usize] = ResponseExpectedFlag::False;
result.device.response_expected[u8::from(AirQualityBrickletFunction::SetBackgroundCalibrationDuration) as usize] =
ResponseExpectedFlag::False;
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetBackgroundCalibrationDuration) as usize] =
ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetSpitfpErrorCount) as usize] =
ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::SetBootloaderMode) as usize] =
ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetBootloaderMode) as usize] =
ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::SetWriteFirmwarePointer) as usize] =
ResponseExpectedFlag::False;
result.device.response_expected[u8::from(AirQualityBrickletFunction::WriteFirmware) as usize] = ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::SetStatusLedConfig) as usize] = ResponseExpectedFlag::False;
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetStatusLedConfig) as usize] =
ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetChipTemperature) as usize] =
ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::Reset) as usize] = ResponseExpectedFlag::False;
result.device.response_expected[u8::from(AirQualityBrickletFunction::WriteUid) as usize] = ResponseExpectedFlag::False;
result.device.response_expected[u8::from(AirQualityBrickletFunction::ReadUid) as usize] = ResponseExpectedFlag::AlwaysTrue;
result.device.response_expected[u8::from(AirQualityBrickletFunction::GetIdentity) as usize] = ResponseExpectedFlag::AlwaysTrue;
result
}
/// Returns the response expected flag for the function specified by the function ID parameter.
/// It is true if the function is expected to send a response, false otherwise.
///
/// For getter functions this is enabled by default and cannot be disabled, because those
/// functions will always send a response. For callback configuration functions it is enabled
/// by default too, but can be disabled by [`set_response_expected`](crate::air_quality_bricklet::AirQualityBricklet::set_response_expected).
/// For setter functions it is disabled by default and can be enabled.
///
/// Enabling the response expected flag for a setter function allows to detect timeouts
/// and other error conditions calls of this setter as well. The device will then send a response
/// for this purpose. If this flag is disabled for a setter function then no response is sent
/// and errors are silently ignored, because they cannot be detected.
///
/// See [`set_response_expected`](crate::air_quality_bricklet::AirQualityBricklet::set_response_expected) for the list of function ID constants available for this function.
pub fn get_response_expected(&mut self, fun: AirQualityBrickletFunction) -> Result<bool, GetResponseExpectedError> {
self.device.get_response_expected(u8::from(fun))
}
/// Changes the response expected flag of the function specified by the function ID parameter.
/// This flag can only be changed for setter (default value: false) and callback configuration
/// functions (default value: true). For getter functions it is always enabled.
///
/// Enabling the response expected flag for a setter function allows to detect timeouts and
/// other error conditions calls of this setter as well. The device will then send a response
/// for this purpose. If this flag is disabled for a setter function then no response is sent
/// and errors are silently ignored, because they cannot be detected.
pub fn set_response_expected(
&mut self,
fun: AirQualityBrickletFunction,
response_expected: bool,
) -> Result<(), SetResponseExpectedError> {
self.device.set_response_expected(u8::from(fun), response_expected)
}
/// Changes the response expected flag for all setter and callback configuration functions of this device at once.
pub fn set_response_expected_all(&mut self, response_expected: bool) { self.device.set_response_expected_all(response_expected) }
/// Returns the version of the API definition (major, minor, revision) implemented by this API bindings.
/// This is neither the release version of this API bindings nor does it tell you anything about the represented Brick or Bricklet.
pub fn get_api_version(&self) -> [u8; 3] { self.device.api_version }
/// This receiver is triggered periodically according to the configuration set by
/// [`set_all_values_callback_configuration`].
///
/// The parameters are the same as [`get_all_values`].
///
/// [`get_all_values`]: #method.get_all_values
/// [`set_all_values_callback_configuration`]: #method.set_all_values_callback_configuration
pub fn get_all_values_callback_receiver(&self) -> ConvertingCallbackReceiver<AllValuesEvent> {
self.device.get_callback_receiver(u8::from(AirQualityBrickletFunction::CallbackAllValues))
}
/// This receiver is triggered periodically according to the configuration set by
/// [`set_iaq_index_callback_configuration`].
///
/// The parameters are the same as [`get_iaq_index`].
pub fn get_iaq_index_callback_receiver(&self) -> ConvertingCallbackReceiver<IaqIndexEvent> {
self.device.get_callback_receiver(u8::from(AirQualityBrickletFunction::CallbackIaqIndex))
}
/// This receiver is triggered periodically according to the configuration set by
/// [`set_temperature_callback_configuration`].
///
/// The parameter is the same as [`get_temperature`].
pub fn get_temperature_callback_receiver(&self) -> ConvertingCallbackReceiver<i32> {
self.device.get_callback_receiver(u8::from(AirQualityBrickletFunction::CallbackTemperature))
}
/// This receiver is triggered periodically according to the configuration set by
/// [`set_humidity_callback_configuration`].
///
/// The parameter is the same as [`get_humidity`].
pub fn get_humidity_callback_receiver(&self) -> ConvertingCallbackReceiver<i32> {
self.device.get_callback_receiver(u8::from(AirQualityBrickletFunction::CallbackHumidity))
}
/// This receiver is triggered periodically according to the configuration set by
/// [`set_air_pressure_callback_configuration`].
///
/// The parameter is the same as [`get_air_pressure`].
pub fn get_air_pressure_callback_receiver(&self) -> ConvertingCallbackReceiver<i32> {
self.device.get_callback_receiver(u8::from(AirQualityBrickletFunction::CallbackAirPressure))
}
/// Returns all values measured by the Air Quality Bricklet. The values are
/// IAQ (Indoor Air Quality) Index (higher value means greater level of air pollution), IAQ Index Accuracy, Temperature, Humidity and
/// Air Pressure.
///
/// .. image:: /Images/Misc/bricklet_air_quality_iaq_index.png
/// :scale: 100 %
/// :alt: Air Quality Index description
/// :align: center
/// :target: ../../_images/Misc/bricklet_air_quality_iaq_index.png
///
/// Associated constants:
/// * AIR_QUALITY_BRICKLET_ACCURACY_UNRELIABLE
/// * AIR_QUALITY_BRICKLET_ACCURACY_LOW
/// * AIR_QUALITY_BRICKLET_ACCURACY_MEDIUM
/// * AIR_QUALITY_BRICKLET_ACCURACY_HIGH
pub fn get_all_values(&self) -> ConvertingReceiver<AllValues> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetAllValues), payload)
}
/// Sets a temperature offset. A offset of 10 will decrease the measured temperature by 0.1 °C.
///
/// If you install this Bricklet into an enclosure and you want to measure the ambient
/// temperature, you may have to decrease the measured temperature by some value to
/// compensate for the error because of the heating inside of the enclosure.
///
/// We recommend that you leave the parts in the enclosure running for at least
/// 24 hours such that a temperature equilibrium can be reached. After that you can measure
/// the temperature directly outside of enclosure and set the difference as offset.
///
/// This temperature offset is used to calculate the relative humidity and
/// IAQ index measurements. In case the Bricklet is installed in an enclosure, we
/// recommend to measure and set the temperature offset to improve the accuracy of
/// the measurements.
pub fn set_temperature_offset(&self, offset: i32) -> ConvertingReceiver<()> {
let mut payload = vec![0; 4];
payload[0..4].copy_from_slice(&<i32>::to_le_byte_vec(offset));
self.device.set(u8::from(AirQualityBrickletFunction::SetTemperatureOffset), payload)
}
/// Returns the temperature offset as set by
/// [`set_temperature_offset`].
pub fn get_temperature_offset(&self) -> ConvertingReceiver<i32> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetTemperatureOffset), payload)
}
/// The period is the period with which the [`get_all_values_callback_receiver`]
/// receiver is triggered periodically. A value of 0 turns the receiver off.
///
/// If the `value has to change`-parameter is set to true, the receiver is only
/// triggered after at least one of the values has changed. If the values didn't
/// change within the period, the receiver is triggered immediately on change.
///
/// If it is set to false, the receiver is continuously triggered with the period,
/// independent of the value.
pub fn set_all_values_callback_configuration(&self, period: u32, value_has_to_change: bool) -> ConvertingReceiver<()> {
let mut payload = vec![0; 5];
payload[0..4].copy_from_slice(&<u32>::to_le_byte_vec(period));
payload[4..5].copy_from_slice(&<bool>::to_le_byte_vec(value_has_to_change));
self.device.set(u8::from(AirQualityBrickletFunction::SetAllValuesCallbackConfiguration), payload)
}
/// Returns the receiver configuration as set by
/// [`set_all_values_callback_configuration`].
pub fn get_all_values_callback_configuration(&self) -> ConvertingReceiver<AllValuesCallbackConfiguration> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetAllValuesCallbackConfiguration), payload)
}
/// Returns the IAQ index and accuracy. The higher the IAQ index, the greater the level of air pollution.
///
/// .. image:: /Images/Misc/bricklet_air_quality_iaq_index.png
/// :scale: 100 %
/// :alt: IAQ index description
/// :align: center
/// :target: ../../_images/Misc/bricklet_air_quality_iaq_index.png
///
/// If you want to get the value periodically, it is recommended to use the
/// [`get_iaq_index_callback_receiver`] receiver. You can set the receiver configuration
/// with [`set_iaq_index_callback_configuration`].
///
/// Associated constants:
/// * AIR_QUALITY_BRICKLET_ACCURACY_UNRELIABLE
/// * AIR_QUALITY_BRICKLET_ACCURACY_LOW
/// * AIR_QUALITY_BRICKLET_ACCURACY_MEDIUM
/// * AIR_QUALITY_BRICKLET_ACCURACY_HIGH
pub fn get_iaq_index(&self) -> ConvertingReceiver<IaqIndex> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetIaqIndex), payload)
}
/// The period is the period with which the [`get_iaq_index_callback_receiver`]
/// receiver is triggered periodically. A value of 0 turns the receiver off.
///
/// If the `value has to change`-parameter is set to true, the receiver is only
/// triggered after at least one of the values has changed. If the values didn't
/// change within the period, the receiver is triggered immediately on change.
///
/// If it is set to false, the receiver is continuously triggered with the period,
/// independent of the value.
pub fn set_iaq_index_callback_configuration(&self, period: u32, value_has_to_change: bool) -> ConvertingReceiver<()> {
let mut payload = vec![0; 5];
payload[0..4].copy_from_slice(&<u32>::to_le_byte_vec(period));
payload[4..5].copy_from_slice(&<bool>::to_le_byte_vec(value_has_to_change));
self.device.set(u8::from(AirQualityBrickletFunction::SetIaqIndexCallbackConfiguration), payload)
}
/// Returns the receiver configuration as set by
/// [`set_iaq_index_callback_configuration`].
pub fn get_iaq_index_callback_configuration(&self) -> ConvertingReceiver<IaqIndexCallbackConfiguration> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetIaqIndexCallbackConfiguration), payload)
}
/// Returns temperature.
///
///
/// If you want to get the value periodically, it is recommended to use the
/// [`get_temperature_callback_receiver`] receiver. You can set the receiver configuration
/// with [`set_temperature_callback_configuration`].
pub fn get_temperature(&self) -> ConvertingReceiver<i32> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetTemperature), payload)
}
/// The period is the period with which the [`get_temperature_callback_receiver`] receiver is triggered
/// periodically. A value of 0 turns the receiver off.
///
/// If the `value has to change`-parameter is set to true, the receiver is only
/// triggered after the value has changed. If the value didn't change
/// within the period, the receiver is triggered immediately on change.
///
/// If it is set to false, the receiver is continuously triggered with the period,
/// independent of the value.
///
/// It is furthermore possible to constrain the receiver with thresholds.
///
/// The `option`-parameter together with min/max sets a threshold for the [`get_temperature_callback_receiver`] receiver.
///
/// The following options are possible:
///
/// Option| Description
/// --- | ---
/// 'x'| Threshold is turned off
/// 'o'| Threshold is triggered when the value is *outside* the min and max values
/// 'i'| Threshold is triggered when the value is *inside* or equal to the min and max values
/// '<'| Threshold is triggered when the value is smaller than the min value (max is ignored)
/// '>'| Threshold is triggered when the value is greater than the min value (max is ignored)
///
/// If the option is set to 'x' (threshold turned off) the receiver is triggered with the fixed period.
///
/// Associated constants:
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_OFF
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_OUTSIDE
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_INSIDE
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_SMALLER
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_GREATER
pub fn set_temperature_callback_configuration(
&self,
period: u32,
value_has_to_change: bool,
option: char,
min: i32,
max: i32,
) -> ConvertingReceiver<()> {
let mut payload = vec![0; 14];
payload[0..4].copy_from_slice(&<u32>::to_le_byte_vec(period));
payload[4..5].copy_from_slice(&<bool>::to_le_byte_vec(value_has_to_change));
payload[5..6].copy_from_slice(&<char>::to_le_byte_vec(option));
payload[6..10].copy_from_slice(&<i32>::to_le_byte_vec(min));
payload[10..14].copy_from_slice(&<i32>::to_le_byte_vec(max));
self.device.set(u8::from(AirQualityBrickletFunction::SetTemperatureCallbackConfiguration), payload)
}
/// Returns the receiver configuration as set by [`set_temperature_callback_configuration`].
///
/// Associated constants:
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_OFF
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_OUTSIDE
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_INSIDE
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_SMALLER
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_GREATER
pub fn get_temperature_callback_configuration(&self) -> ConvertingReceiver<TemperatureCallbackConfiguration> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetTemperatureCallbackConfiguration), payload)
}
/// Returns relative humidity.
///
///
/// If you want to get the value periodically, it is recommended to use the
/// [`get_humidity_callback_receiver`] receiver. You can set the receiver configuration
/// with [`set_humidity_callback_configuration`].
pub fn get_humidity(&self) -> ConvertingReceiver<i32> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetHumidity), payload)
}
/// The period is the period with which the [`get_humidity_callback_receiver`] receiver is triggered
/// periodically. A value of 0 turns the receiver off.
///
/// If the `value has to change`-parameter is set to true, the receiver is only
/// triggered after the value has changed. If the value didn't change
/// within the period, the receiver is triggered immediately on change.
///
/// If it is set to false, the receiver is continuously triggered with the period,
/// independent of the value.
///
/// It is furthermore possible to constrain the receiver with thresholds.
///
/// The `option`-parameter together with min/max sets a threshold for the [`get_humidity_callback_receiver`] receiver.
///
/// The following options are possible:
///
/// Option| Description
/// --- | ---
/// 'x'| Threshold is turned off
/// 'o'| Threshold is triggered when the value is *outside* the min and max values
/// 'i'| Threshold is triggered when the value is *inside* or equal to the min and max values
/// '<'| Threshold is triggered when the value is smaller than the min value (max is ignored)
/// '>'| Threshold is triggered when the value is greater than the min value (max is ignored)
///
/// If the option is set to 'x' (threshold turned off) the receiver is triggered with the fixed period.
///
/// Associated constants:
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_OFF
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_OUTSIDE
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_INSIDE
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_SMALLER
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_GREATER
pub fn set_humidity_callback_configuration(
&self,
period: u32,
value_has_to_change: bool,
option: char,
min: i32,
max: i32,
) -> ConvertingReceiver<()> {
let mut payload = vec![0; 14];
payload[0..4].copy_from_slice(&<u32>::to_le_byte_vec(period));
payload[4..5].copy_from_slice(&<bool>::to_le_byte_vec(value_has_to_change));
payload[5..6].copy_from_slice(&<char>::to_le_byte_vec(option));
payload[6..10].copy_from_slice(&<i32>::to_le_byte_vec(min));
payload[10..14].copy_from_slice(&<i32>::to_le_byte_vec(max));
self.device.set(u8::from(AirQualityBrickletFunction::SetHumidityCallbackConfiguration), payload)
}
/// Returns the receiver configuration as set by [`set_humidity_callback_configuration`].
///
/// Associated constants:
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_OFF
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_OUTSIDE
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_INSIDE
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_SMALLER
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_GREATER
pub fn get_humidity_callback_configuration(&self) -> ConvertingReceiver<HumidityCallbackConfiguration> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetHumidityCallbackConfiguration), payload)
}
/// Returns air pressure.
///
///
/// If you want to get the value periodically, it is recommended to use the
/// [`get_air_pressure_callback_receiver`] receiver. You can set the receiver configuration
/// with [`set_air_pressure_callback_configuration`].
pub fn get_air_pressure(&self) -> ConvertingReceiver<i32> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetAirPressure), payload)
}
/// The period is the period with which the [`get_air_pressure_callback_receiver`] receiver is triggered
/// periodically. A value of 0 turns the receiver off.
///
/// If the `value has to change`-parameter is set to true, the receiver is only
/// triggered after the value has changed. If the value didn't change
/// within the period, the receiver is triggered immediately on change.
///
/// If it is set to false, the receiver is continuously triggered with the period,
/// independent of the value.
///
/// It is furthermore possible to constrain the receiver with thresholds.
///
/// The `option`-parameter together with min/max sets a threshold for the [`get_air_pressure_callback_receiver`] receiver.
///
/// The following options are possible:
///
/// Option| Description
/// --- | ---
/// 'x'| Threshold is turned off
/// 'o'| Threshold is triggered when the value is *outside* the min and max values
/// 'i'| Threshold is triggered when the value is *inside* or equal to the min and max values
/// '<'| Threshold is triggered when the value is smaller than the min value (max is ignored)
/// '>'| Threshold is triggered when the value is greater than the min value (max is ignored)
///
/// If the option is set to 'x' (threshold turned off) the receiver is triggered with the fixed period.
///
/// Associated constants:
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_OFF
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_OUTSIDE
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_INSIDE
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_SMALLER
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_GREATER
pub fn set_air_pressure_callback_configuration(
&self,
period: u32,
value_has_to_change: bool,
option: char,
min: i32,
max: i32,
) -> ConvertingReceiver<()> {
let mut payload = vec![0; 14];
payload[0..4].copy_from_slice(&<u32>::to_le_byte_vec(period));
payload[4..5].copy_from_slice(&<bool>::to_le_byte_vec(value_has_to_change));
payload[5..6].copy_from_slice(&<char>::to_le_byte_vec(option));
payload[6..10].copy_from_slice(&<i32>::to_le_byte_vec(min));
payload[10..14].copy_from_slice(&<i32>::to_le_byte_vec(max));
self.device.set(u8::from(AirQualityBrickletFunction::SetAirPressureCallbackConfiguration), payload)
}
/// Returns the receiver configuration as set by [`set_air_pressure_callback_configuration`].
///
/// Associated constants:
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_OFF
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_OUTSIDE
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_INSIDE
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_SMALLER
/// * AIR_QUALITY_BRICKLET_THRESHOLD_OPTION_GREATER
pub fn get_air_pressure_callback_configuration(&self) -> ConvertingReceiver<AirPressureCallbackConfiguration> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetAirPressureCallbackConfiguration), payload)
}
/// Deletes the calibration from flash. After you call this function,
/// you need to power cycle the Air Quality Bricklet.
///
/// On the next power up the Bricklet will start a new calibration, as
/// if it was started for the very first time.
///
/// The calibration is based on the data of the last four days, so it takes
/// four days until a full calibration is re-established.
///
///
/// .. versionadded:: 2.0.3$nbsp;(Plugin)
pub fn remove_calibration(&self) -> ConvertingReceiver<()> {
let payload = vec![0; 0];
self.device.set(u8::from(AirQualityBrickletFunction::RemoveCalibration), payload)
}
/// The Air Quality Bricklet uses an automatic background calibration mechanism to
/// calculate the IAQ Index. This calibration mechanism considers a history of
/// measured data. The duration of this history can be configured to either be
/// 4 days or 28 days.
///
/// If you keep the Bricklet mostly at one place and it does not get moved around
/// to different environments, we recommend that you use a duration of 28 days.
///
/// If you change the duration, the current calibration will be discarded and
/// the calibration will start from beginning again. The configuration of the
/// duration is saved in flash, so you should only have to call this function
/// once in the lifetime of the Bricklet.
///
/// The Bricklet has to be power cycled after this function is called
/// for a duration change to take effect.
///
/// Before firmware version 2.0.3 this was not configurable and the duration was
/// 4 days.
///
/// The default value (since firmware version 2.0.3) is 28 days.
///
///
/// .. versionadded:: 2.0.3$nbsp;(Plugin)
///
/// Associated constants:
/// * AIR_QUALITY_BRICKLET_DURATION_4_DAYS
/// * AIR_QUALITY_BRICKLET_DURATION_28_DAYS
pub fn set_background_calibration_duration(&self, duration: u8) -> ConvertingReceiver<()> {
let mut payload = vec![0; 1];
payload[0..1].copy_from_slice(&<u8>::to_le_byte_vec(duration));
self.device.set(u8::from(AirQualityBrickletFunction::SetBackgroundCalibrationDuration), payload)
}
/// Returns the background calibration duration as set by
/// [`set_background_calibration_duration`].
///
///
/// .. versionadded:: 2.0.3$nbsp;(Plugin)
///
/// Associated constants:
/// * AIR_QUALITY_BRICKLET_DURATION_4_DAYS
/// * AIR_QUALITY_BRICKLET_DURATION_28_DAYS
pub fn get_background_calibration_duration(&self) -> ConvertingReceiver<u8> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetBackgroundCalibrationDuration), payload)
}
/// Returns the error count for the communication between Brick and Bricklet.
///
/// The errors are divided into
///
/// * ACK checksum errors,
/// * message checksum errors,
/// * framing errors and
/// * overflow errors.
///
/// The errors counts are for errors that occur on the Bricklet side. All
/// Bricks have a similar function that returns the errors on the Brick side.
pub fn get_spitfp_error_count(&self) -> ConvertingReceiver<SpitfpErrorCount> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetSpitfpErrorCount), payload)
}
/// Sets the bootloader mode and returns the status after the requested
/// mode change was instigated.
///
/// You can change from bootloader mode to firmware mode and vice versa. A change
/// from bootloader mode to firmware mode will only take place if the entry function,
/// device identifier and CRC are present and correct.
///
/// This function is used by Brick Viewer during flashing. It should not be
/// necessary to call it in a normal user program.
///
/// Associated constants:
/// * AIR_QUALITY_BRICKLET_BOOTLOADER_MODE_BOOTLOADER
/// * AIR_QUALITY_BRICKLET_BOOTLOADER_MODE_FIRMWARE
/// * AIR_QUALITY_BRICKLET_BOOTLOADER_MODE_BOOTLOADER_WAIT_FOR_REBOOT
/// * AIR_QUALITY_BRICKLET_BOOTLOADER_MODE_FIRMWARE_WAIT_FOR_REBOOT
/// * AIR_QUALITY_BRICKLET_BOOTLOADER_MODE_FIRMWARE_WAIT_FOR_ERASE_AND_REBOOT
/// * AIR_QUALITY_BRICKLET_BOOTLOADER_STATUS_OK
/// * AIR_QUALITY_BRICKLET_BOOTLOADER_STATUS_INVALID_MODE
/// * AIR_QUALITY_BRICKLET_BOOTLOADER_STATUS_NO_CHANGE
/// * AIR_QUALITY_BRICKLET_BOOTLOADER_STATUS_ENTRY_FUNCTION_NOT_PRESENT
/// * AIR_QUALITY_BRICKLET_BOOTLOADER_STATUS_DEVICE_IDENTIFIER_INCORRECT
/// * AIR_QUALITY_BRICKLET_BOOTLOADER_STATUS_CRC_MISMATCH
pub fn set_bootloader_mode(&self, mode: u8) -> ConvertingReceiver<u8> {
let mut payload = vec![0; 1];
payload[0..1].copy_from_slice(&<u8>::to_le_byte_vec(mode));
self.device.get(u8::from(AirQualityBrickletFunction::SetBootloaderMode), payload)
}
/// Returns the current bootloader mode, see [`set_bootloader_mode`].
///
/// Associated constants:
/// * AIR_QUALITY_BRICKLET_BOOTLOADER_MODE_BOOTLOADER
/// * AIR_QUALITY_BRICKLET_BOOTLOADER_MODE_FIRMWARE
/// * AIR_QUALITY_BRICKLET_BOOTLOADER_MODE_BOOTLOADER_WAIT_FOR_REBOOT
/// * AIR_QUALITY_BRICKLET_BOOTLOADER_MODE_FIRMWARE_WAIT_FOR_REBOOT
/// * AIR_QUALITY_BRICKLET_BOOTLOADER_MODE_FIRMWARE_WAIT_FOR_ERASE_AND_REBOOT
pub fn get_bootloader_mode(&self) -> ConvertingReceiver<u8> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetBootloaderMode), payload)
}
/// Sets the firmware pointer for [`write_firmware`]. The pointer has
/// to be increased by chunks of size 64. The data is written to flash
/// every 4 chunks (which equals to one page of size 256).
///
/// This function is used by Brick Viewer during flashing. It should not be
/// necessary to call it in a normal user program.
pub fn set_write_firmware_pointer(&self, pointer: u32) -> ConvertingReceiver<()> {
let mut payload = vec![0; 4];
payload[0..4].copy_from_slice(&<u32>::to_le_byte_vec(pointer));
self.device.set(u8::from(AirQualityBrickletFunction::SetWriteFirmwarePointer), payload)
}
/// Writes 64 Bytes of firmware at the position as written by
/// [`set_write_firmware_pointer`] before. The firmware is written
/// to flash every 4 chunks.
///
/// You can only write firmware in bootloader mode.
///
/// This function is used by Brick Viewer during flashing. It should not be
/// necessary to call it in a normal user program.
pub fn write_firmware(&self, data: [u8; 64]) -> ConvertingReceiver<u8> {
let mut payload = vec![0; 64];
payload[0..64].copy_from_slice(&<[u8; 64]>::to_le_byte_vec(data));
self.device.get(u8::from(AirQualityBrickletFunction::WriteFirmware), payload)
}
/// Sets the status LED configuration. By default the LED shows
/// communication traffic between Brick and Bricklet, it flickers once
/// for every 10 received data packets.
///
/// You can also turn the LED permanently on/off or show a heartbeat.
///
/// If the Bricklet is in bootloader mode, the LED is will show heartbeat by default.
///
/// Associated constants:
/// * AIR_QUALITY_BRICKLET_STATUS_LED_CONFIG_OFF
/// * AIR_QUALITY_BRICKLET_STATUS_LED_CONFIG_ON
/// * AIR_QUALITY_BRICKLET_STATUS_LED_CONFIG_SHOW_HEARTBEAT
/// * AIR_QUALITY_BRICKLET_STATUS_LED_CONFIG_SHOW_STATUS
pub fn set_status_led_config(&self, config: u8) -> ConvertingReceiver<()> {
let mut payload = vec![0; 1];
payload[0..1].copy_from_slice(&<u8>::to_le_byte_vec(config));
self.device.set(u8::from(AirQualityBrickletFunction::SetStatusLedConfig), payload)
}
/// Returns the configuration as set by [`set_status_led_config`]
///
/// Associated constants:
/// * AIR_QUALITY_BRICKLET_STATUS_LED_CONFIG_OFF
/// * AIR_QUALITY_BRICKLET_STATUS_LED_CONFIG_ON
/// * AIR_QUALITY_BRICKLET_STATUS_LED_CONFIG_SHOW_HEARTBEAT
/// * AIR_QUALITY_BRICKLET_STATUS_LED_CONFIG_SHOW_STATUS
pub fn get_status_led_config(&self) -> ConvertingReceiver<u8> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetStatusLedConfig), payload)
}
/// Returns the temperature as measured inside the microcontroller. The
/// value returned is not the ambient temperature!
///
/// The temperature is only proportional to the real temperature and it has bad
/// accuracy. Practically it is only useful as an indicator for
/// temperature changes.
pub fn get_chip_temperature(&self) -> ConvertingReceiver<i16> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetChipTemperature), payload)
}
/// Calling this function will reset the Bricklet. All configurations
/// will be lost.
///
/// After a reset you have to create new device objects,
/// calling functions on the existing ones will result in
/// undefined behavior!
pub fn reset(&self) -> ConvertingReceiver<()> {
let payload = vec![0; 0];
self.device.set(u8::from(AirQualityBrickletFunction::Reset), payload)
}
/// Writes a new UID into flash. If you want to set a new UID
/// you have to decode the Base58 encoded UID string into an
/// integer first.
///
/// We recommend that you use Brick Viewer to change the UID.
pub fn write_uid(&self, uid: u32) -> ConvertingReceiver<()> {
let mut payload = vec![0; 4];
payload[0..4].copy_from_slice(&<u32>::to_le_byte_vec(uid));
self.device.set(u8::from(AirQualityBrickletFunction::WriteUid), payload)
}
/// Returns the current UID as an integer. Encode as
/// Base58 to get the usual string version.
pub fn read_uid(&self) -> ConvertingReceiver<u32> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::ReadUid), payload)
}
/// Returns the UID, the UID where the Bricklet is connected to,
/// the position, the hardware and firmware version as well as the
/// device identifier.
///
/// The position can be 'a', 'b', 'c', 'd', 'e', 'f', 'g' or 'h' (Bricklet Port).
/// A Bricklet connected to an [Isolator Bricklet](isolator_bricklet) is always at
/// position 'z'.
///
/// The device identifier numbers can be found [here](device_identifier).
/// |device_identifier_constant|
pub fn get_identity(&self) -> ConvertingReceiver<Identity> {
let payload = vec![0; 0];
self.device.get(u8::from(AirQualityBrickletFunction::GetIdentity), payload)
}
}