use nom::IResult; use nom::combinator::{value, map, map_res, opt, all_consuming}; use nom::sequence::{terminated, preceded, pair}; use nom::bytes::complete::{tag, tag_no_case, take_while}; use nom::character::complete::digit1; use nom::character::is_space; use nom::branch::{permutation, alt}; use nom::number::complete::{float, double}; use heapless::{ Vec, String, consts::* }; use ryu; use embedded_hal::blocking::spi::Transfer; use core::convert::TryInto; use crate::urukul::ClockSource as UrukulClockSource; use crate::urukul::Urukul; use crate::urukul::Error; use crate::flash_store::{ FlashStore, update_flash }; use crate::flash::Flash; use crate::config::{ UrukulConfig, ChannelConfig }; #[derive(Debug, Clone)] pub enum MqttTopic { Reset, Switch(u8), Attenuation(u8), Clock, ClockSource, ClockFrequency, ClockDivision, SystemClock(u8), Singletone(u8, u8), SingletoneFrequency(u8, u8), SingletoneAmplitude(u8, u8), SingletonePhase(u8, u8), Profile, Save, Load, } // Prossible change: Make this enum public to all comm protocol (if any) // Such that Urukul accepts the enum directly #[derive(Debug, Clone)] pub enum MqttCommand { ProcessError(&'static str), Reset, Switch(u8, bool), Attenuation(u8, f32), Clock(UrukulClockSource, f64, u8), ClockSource(UrukulClockSource), ClockFrequency(f64), ClockDivision(u8), SystemClock(u8, f64), Singletone(u8, u8, f64, f64, f64), SingletoneFrequency(u8, u8, f64), SingletoneAmplitude(u8, u8, f64), SingletonePhase(u8, u8, f64), Profile(u8), Save, Load, } pub struct MqttMux<'s, SPI> { urukul: Urukul, yet_to_respond: Option, flash_controller: Flash, flash_store: FlashStore, name: &'s str, float_buffer: ryu::Buffer, } const CHANNELS: [&str; 4] = [ "ch0", "ch1", "ch2", "ch3" ]; static mut SERDE_BUFFER: [u8; 64] = [0; 64]; impl<'s, SPI, E> MqttMux<'s, SPI> where SPI: Transfer { pub fn new(urukul: Urukul, flash_controller: Flash, flash_store: FlashStore, name: &'s str) -> Self { Self { urukul: urukul, yet_to_respond: None, flash_controller, flash_store, name: name, float_buffer: ryu::Buffer::new(), } } fn load_device(&mut self) -> Result<(), Error> { self.urukul.reset()?; let profile = match self.flash_store .read_value::("urukul") .unwrap() { Some(urukul_config) => { self.urukul.set_clock( urukul_config.clk_src, urukul_config.clk_freq, urukul_config.clk_div )?; self.urukul.set_profile(urukul_config.profile)?; urukul_config.profile }, None => 0, }; for (channel, channel_tag) in CHANNELS.iter().enumerate() { match self.flash_store .read_value::(channel_tag) .unwrap() { Some(channel_config) => { self.urukul.set_channel_switch( channel as u32, channel_config.sw )?; self.urukul.set_channel_attenuation( channel as u8, channel_config.att )?; self.urukul.set_channel_sys_clk( channel as u8, channel_config.sys_clk )?; self.urukul.set_channel_single_tone_profile( channel as u8, profile, channel_config.freq, channel_config.phase, channel_config.asf, )?; }, None => () }; } Ok(()) } fn save_device(&mut self) -> Result<(), Error> { let urukul_config = UrukulConfig { clk_src: { self.urukul.get_clock_source()? }, clk_freq: { self.urukul.get_clock_frequency() }, clk_div: { self.urukul.get_clock_division()? }, profile: { self.urukul.get_profile()? } }; unsafe { self.flash_store.write_value("urukul", &urukul_config, &mut SERDE_BUFFER).unwrap(); } for channel in 0..4 { let (freq, phase, asf) = self.urukul.get_channel_single_tone_profile( channel as u8, urukul_config.profile )?; let channel_config = ChannelConfig { sw: { self.urukul.get_channel_switch_status(channel as u32)? }, att: { self.urukul.get_channel_attenuation(channel as u8)? }, sys_clk: { self.urukul.get_channel_sys_clk(channel as u8)? }, freq, phase, asf }; unsafe { self.flash_store.write_value(CHANNELS[channel], &channel_config, &mut SERDE_BUFFER).unwrap(); } } update_flash(&mut self.flash_controller, &mut self.flash_store).unwrap(); Ok(()) } // Instead of using a return type, the result of processing the command is stored internally // Invoke process_mqtt_egress to get a response after invoking ingress handler pub fn process_mqtt_ingress(&mut self, topic: &str, message: &[u8]) { let topic = match self.parse_topic(topic) { Ok(t) => t, Err(_) => { self.yet_to_respond = Some(MqttCommand::ProcessError("Cannot prase MQTT topic")); return; } }; let command = match self.parse_message(topic, message) { Ok((_, cmd)) => cmd, Err(_) => { self.yet_to_respond = Some(MqttCommand::ProcessError("Cannot parse MQTT message")); return; } }; self.yet_to_respond = match self.execute(command.clone()) { Err(_) => Some(MqttCommand::ProcessError("Cannot execute MQTT command")), Ok(()) => Some(command) }; } // Be sure to call egress function after each ingress. // Otherwise, response will be lost if successive valid MQTT messages were captured // without calling egress in between pub fn process_mqtt_egress(&mut self) -> Result, String), U4>, Error> { // Remove previously executed command, and process it afterwards let prev_cmd = self.yet_to_respond.clone(); self.yet_to_respond = None; let mut vec = Vec::new(); match prev_cmd { Some(cmd) => match cmd { MqttCommand::ProcessError(e_str) => { vec.push(( { let mut topic_string = String::from(self.name); topic_string.push_str("/Feedback/Error") .map_err(|_| Error::StringOutOfSpace)?; topic_string }, String::from(e_str) )).map_err(|_| Error::VectorOutOfSpace)?; Ok(vec) } MqttCommand::Reset => { vec.push(( { let mut topic_string = String::from(self.name); topic_string.push_str("/Feedback/Reset") .map_err(|_| Error::StringOutOfSpace)?; topic_string }, String::from( match self.urukul.test() { Ok(0) => "Reset successful.", _ => "Reset error!", } ) )).map_err(|_| Error::VectorOutOfSpace)?; Ok(vec) } MqttCommand::Switch(ch, _) => { vec.push(( { let mut topic_string = String::from(self.name); topic_string.push_str("/Feedback/Channel") .map_err(|_| Error::StringOutOfSpace)?; topic_string.push(char::from_digit(ch.into(), 10).unwrap()) .map_err(|_| Error::StringOutOfSpace)?; topic_string.push_str("/Switch") .map_err(|_| Error::StringOutOfSpace)?; topic_string }, { String::from( if self.urukul.get_channel_switch_status(ch.into())? { "on" } else { "off" } ) } )).map_err(|_| Error::VectorOutOfSpace)?; Ok(vec) } MqttCommand::Attenuation(ch, _) => { vec.push(( { let mut topic_string = String::from(self.name); topic_string.push_str("/Feedback/Channel") .map_err(|_| Error::StringOutOfSpace)?; topic_string.push(char::from_digit(ch.into(), 10).unwrap()) .map_err(|_| Error::StringOutOfSpace)?; topic_string.push_str("/Attenuation") .map_err(|_| Error::StringOutOfSpace)?; topic_string }, { String::from( self.float_buffer.format_finite( self.urukul.get_channel_attenuation(ch)? ) ) } )).map_err(|_| Error::VectorOutOfSpace)?; Ok(vec) } MqttCommand::Clock(_, _, _) => { vec.push( self.get_clock_source_message()? ).map_err(|_| Error::VectorOutOfSpace)?; vec.push( self.get_clock_frequency_message()? ).map_err(|_| Error::VectorOutOfSpace)?; vec.push( self.get_clock_division_message()? ).map_err(|_| Error::VectorOutOfSpace)?; Ok(vec) } MqttCommand::ClockSource(_) => { vec.push( self.get_clock_source_message()? ).map_err(|_| Error::VectorOutOfSpace)?; Ok(vec) } MqttCommand::ClockFrequency(_) => { vec.push( self.get_clock_frequency_message()? ).map_err(|_| Error::VectorOutOfSpace)?; Ok(vec) } MqttCommand::ClockDivision(_) => { vec.push( self.get_clock_division_message()? ).map_err(|_| Error::VectorOutOfSpace)?; Ok(vec) } MqttCommand::SystemClock(ch, _) => { vec.push(( { let mut topic_string = String::from(self.name); topic_string.push_str("/Feedback/Channel") .map_err(|_| Error::StringOutOfSpace)?; topic_string.push(char::from_digit(ch.into(), 10).unwrap()) .map_err(|_| Error::StringOutOfSpace)?; topic_string.push_str("/SystemClock") .map_err(|_| Error::StringOutOfSpace)?; topic_string }, { let mut message_str = String::from( self.float_buffer.format_finite( self.urukul.get_channel_sys_clk(ch)? ) ); message_str.push_str(" Hz") .map_err(|_| Error::StringOutOfSpace)?; message_str } )).map_err(|_| Error::VectorOutOfSpace)?; Ok(vec) } MqttCommand::Singletone(ch, pr, _, _, _) | MqttCommand::SingletoneFrequency(ch, pr, _) | MqttCommand::SingletoneAmplitude(ch, pr, _) | MqttCommand::SingletonePhase(ch, pr, _) => { let (f_out, phase, ampl) = self.urukul.get_channel_single_tone_profile(ch, pr)?; vec.push(self.get_single_tone_frequency_message(ch, f_out)?) .map_err(|_| Error::StringOutOfSpace)?; vec.push(self.get_single_tone_phase_message(ch, phase)?) .map_err(|_| Error::StringOutOfSpace)?; vec.push(self.get_single_tone_amplitude_message(ch, ampl)?) .map_err(|_| Error::StringOutOfSpace)?; Ok(vec) } MqttCommand::Profile(_) => { vec.push(( { let mut topic_string = String::from(self.name); topic_string.push_str("/Feedback/Profile") .map_err(|_| Error::StringOutOfSpace)?; topic_string }, { let mut message_str = String::new(); let prof = self.urukul.get_profile()?; message_str.push(char::from_digit(prof.into(), 10).unwrap()) .map_err(|_| Error::StringOutOfSpace)?; message_str } )).map_err(|_| Error::VectorOutOfSpace)?; Ok(vec) } MqttCommand::Save => { vec.push(( { let mut topic_string = String::from(self.name); topic_string.push_str("/Feedback/Save") .map_err(|_| Error::StringOutOfSpace)?; topic_string }, String::from("Saved device.") )).map_err(|_| Error::VectorOutOfSpace)?; Ok(vec) } MqttCommand::Load => { vec.push(( { let mut topic_string = String::from(self.name); topic_string.push_str("/Feedback/Load") .map_err(|_| Error::StringOutOfSpace)?; topic_string }, String::from("Loaded from flash.") )).map_err(|_| Error::VectorOutOfSpace)?; Ok(vec) } }, None => Ok(vec), } } fn parse_topic<'a>(&mut self, topic: &'a str) -> Result> { let mut assigned_channel = false; let mut assigned_profile = false; let mut channel :u8 = 0; let mut profile :u8 = 0; // Verify that the topic starts with /Control/ or //Control/ let mut header = { let mut topic_builder_with_slash: String = String::from("/"); topic_builder_with_slash.push_str(self.name) .map_err(|_| Error::StringOutOfSpace)?; topic_builder_with_slash.push_str("/Control/") .map_err(|_| Error::StringOutOfSpace)?; let topic_builder: &str = topic_builder_with_slash.as_str() .strip_prefix("/") .ok_or(Error::StringOutOfSpace)?; topic.strip_prefix(topic_builder_with_slash.as_str()) .or_else(|| topic.strip_prefix(topic_builder)) .ok_or(Error::MqttCommandError)? }; loop { match header { // The topic has a channel subtopic _ if header.starts_with("Channel") => { // MQTT command should only mention channel once appropriately // Channel must be referred before profile, // as a channel is broader than a profile if assigned_channel || assigned_profile { return Err(Error::MqttCommandError); } // Remove the "Channel" part of the subtopic header = header.strip_prefix("Channel") .ok_or(Error::MqttCommandError)?; // Remove the channel number at the end of the subtopic // But store the channel as a char, so it can be removed easily let numeric_char :char = header.chars() .next() .ok_or(Error::MqttCommandError)?; // Record the channel number channel = numeric_char.to_digit(10) .ok_or(Error::MqttCommandError)? .try_into() .unwrap(); assigned_channel = true; header = header.strip_prefix(numeric_char) .ok_or(Error::MqttCommandError)?; // Remove forward slash ("/") header = header.strip_prefix("/") .ok_or(Error::MqttCommandError)?; }, _ if (header.starts_with("Profile") && assigned_channel) => { // MQTT command should only mention profile once appropriately if assigned_profile { return Err(Error::MqttCommandError); } // Remove the "Profile" part of the subtopic header = header.strip_prefix("Profile") .ok_or(Error::MqttCommandError)?; // Remove the profile number at the end of the subtopic // But store the profile as a char, so it can be removed easily let numeric_char :char = header.chars() .next() .ok_or(Error::MqttCommandError)?; // Record the channel number profile = numeric_char.to_digit(10) .ok_or(Error::MqttCommandError)? .try_into() .unwrap(); assigned_profile = true; header = header.strip_prefix(numeric_char) .ok_or(Error::MqttCommandError)?; // Remove forward slash ("/") header = header.strip_prefix("/") .ok_or(Error::MqttCommandError)?; }, "Reset" => { if assigned_channel || assigned_profile { return Err(Error::MqttCommandError); } return Ok(MqttTopic::Reset); }, "Switch" => { // Switch is a channel specific topic if !(assigned_channel && !assigned_profile) { return Err(Error::MqttCommandError); } return Ok(MqttTopic::Switch(channel)); }, "Attenuation" => { // Attenuation is a channel specific topic if !(assigned_channel && !assigned_profile) { return Err(Error::MqttCommandError); } return Ok(MqttTopic::Attenuation(channel)); }, "Clock" => { if assigned_channel || assigned_profile { return Err(Error::MqttCommandError); } return Ok(MqttTopic::Clock); }, "Clock/Source" => { // Clock/Source refers to the Urukul clock source // It should be common for all channels and profiles if assigned_channel || assigned_profile { return Err(Error::MqttCommandError); } return Ok(MqttTopic::ClockSource); }, "Clock/Frequency" => { // Clock/Frequency refers to the Urukul clock frequency // It should be common for all channels and profiles if assigned_channel || assigned_profile { return Err(Error::MqttCommandError); } return Ok(MqttTopic::ClockFrequency); }, "Clock/Division" => { // Clock/Division refers to the Urukul clock division // It should be common for all channels and profiles if assigned_channel || assigned_profile { return Err(Error::MqttCommandError); } return Ok(MqttTopic::ClockDivision); }, "SystemClock" => { if !(assigned_channel && !assigned_profile) { return Err(Error::MqttCommandError); } return Ok(MqttTopic::SystemClock(channel)); } "Singletone" => { if !(assigned_channel && assigned_profile) { return Err(Error::MqttCommandError) } return Ok(MqttTopic::Singletone(channel, profile)); } "Singletone/Frequency" => { if !(assigned_channel && assigned_profile) { return Err(Error::MqttCommandError) } return Ok(MqttTopic::SingletoneFrequency(channel, profile)); } "Singletone/Amplitude" => { if !(assigned_channel && assigned_profile) { return Err(Error::MqttCommandError) } return Ok(MqttTopic::SingletoneAmplitude(channel, profile)); } "Singletone/Phase" => { if !(assigned_channel && assigned_profile) { return Err(Error::MqttCommandError) } return Ok(MqttTopic::SingletonePhase(channel, profile)); } "Profile" => { if assigned_channel || assigned_profile { return Err(Error::MqttCommandError) } return Ok(MqttTopic::Profile); } "Save" => { if assigned_channel || assigned_profile { return Err(Error::MqttCommandError) } return Ok(MqttTopic::Save); } "Load" => { if assigned_channel || assigned_profile { return Err(Error::MqttCommandError) } return Ok(MqttTopic::Load); } _ => return Err(Error::MqttCommandError), }; } } fn parse_message<'a>(&mut self, topic: MqttTopic, message: &'a [u8]) -> IResult<&'a [u8], MqttCommand> { match topic { MqttTopic::Reset => Ok((message, MqttCommand::Reset)), MqttTopic::Switch(ch) => switch_message(ch, message), MqttTopic::Attenuation(ch) => attenuation_message(ch, message), MqttTopic::Clock => clock_message(message), MqttTopic::ClockSource => clock_source_message(message), MqttTopic::ClockFrequency => clock_frequency_message(message), MqttTopic::ClockDivision => clock_division_message(message), MqttTopic::SystemClock(ch) => system_clock_message(ch, message), MqttTopic::Singletone(ch, prof) => singletone_message(ch, prof, message), MqttTopic::SingletoneFrequency(ch, prof) => singletone_frequency_message(ch, prof, message), MqttTopic::SingletoneAmplitude(ch, prof) => singletone_amplitude_message(ch, prof, message), MqttTopic::SingletonePhase(ch, prof) => singletone_phase_message(ch, prof, message), MqttTopic::Profile => profile_message(message), MqttTopic::Save => Ok((message, MqttCommand::Save)), MqttTopic::Load => Ok((message, MqttCommand::Load)), } } fn execute(&mut self, command: MqttCommand) -> Result<(), Error> { match command { MqttCommand::ProcessError(_) => Ok(()), MqttCommand::Reset => self.urukul.reset(), MqttCommand::Switch(ch, state) => self.urukul.set_channel_switch(ch.into(), state), MqttCommand::Attenuation(ch, ampl) => self.urukul.set_channel_attenuation(ch, ampl), MqttCommand::Clock(src, freq, div) => self.urukul.set_clock(src, freq, div), MqttCommand::ClockSource(src) => self.urukul.set_clock_source(src), MqttCommand::ClockFrequency(freq) => self.urukul.set_clock_frequency(freq), MqttCommand::ClockDivision(div) => self.urukul.set_clock_division(div), MqttCommand::SystemClock(ch, freq) => self.urukul.set_channel_sys_clk(ch, freq), MqttCommand::Singletone(ch, prof, freq, ampl, deg) => self.urukul.set_channel_single_tone_profile(ch, prof, freq, ampl, deg), MqttCommand::SingletoneFrequency(ch, prof, freq) => self.urukul.set_channel_single_tone_profile_frequency(ch, prof, freq), MqttCommand::SingletoneAmplitude(ch, prof, ampl) => self.urukul.set_channel_single_tone_profile_amplitude(ch, prof, ampl), MqttCommand::SingletonePhase(ch, prof, deg) => self.urukul.set_channel_single_tone_profile_phase(ch, prof, deg), MqttCommand::Profile(prof) => self.urukul.set_profile(prof), MqttCommand::Save => self.save_device(), MqttCommand::Load => self.load_device(), } } fn get_clock_source_message(&mut self) -> Result<(String, String), Error> { Ok(( { let mut topic_string = String::from(self.name); topic_string.push_str("/Feedback/Clock/Source") .map_err(|_| Error::StringOutOfSpace)?; topic_string }, self.urukul.get_clock_source().map( |src| match src { UrukulClockSource::OSC => String::from("OSC"), UrukulClockSource::MMCX => String::from("MMCX"), UrukulClockSource::SMA => String::from("SMA") } )? )) } fn get_clock_frequency_message(&mut self) -> Result<(String, String), Error> { Ok(( { let mut topic_string = String::from(self.name); topic_string.push_str("/Feedback/Clock/Frequency") .map_err(|_| Error::StringOutOfSpace)?; topic_string }, { let mut freq_str = String::from( self.float_buffer.format_finite( self.urukul.get_clock_frequency() ) ); freq_str.push_str(" Hz").map_err(|_| Error::StringOutOfSpace)?; freq_str } )) } fn get_clock_division_message(&mut self) -> Result<(String, String), Error> { Ok(( { let mut topic_string = String::from(self.name); topic_string.push_str("/Feedback/Clock/Division") .map_err(|_| Error::StringOutOfSpace)?; topic_string }, { self.urukul.get_clock_division().map( |src| match src { 1 => String::from("1"), 2 => String::from("2"), 4 => String::from("4"), _ => unreachable!() } )? } )) } fn get_single_tone_frequency_message(&mut self, ch: u8, f_out: f64) -> Result<(String, String), Error> { Ok(( { let mut topic_string = String::from(self.name); topic_string.push_str("/Feedback/Channel") .map_err(|_| Error::StringOutOfSpace)?; topic_string.push(char::from_digit(ch.into(), 10).unwrap()) .map_err(|_| Error::StringOutOfSpace)?; topic_string.push_str("/Singletone/Frequency") .map_err(|_| Error::StringOutOfSpace)?; topic_string }, { let mut message_str = String::from( self.float_buffer.format_finite(f_out) ); message_str.push_str(" Hz") .map_err(|_| Error::StringOutOfSpace)?; message_str } )) } fn get_single_tone_amplitude_message(&mut self, ch: u8, ampl: f64) -> Result<(String, String), Error> { Ok(( { let mut topic_string = String::from(self.name); topic_string.push_str("/Feedback/Channel") .map_err(|_| Error::StringOutOfSpace)?; topic_string.push(char::from_digit(ch.into(), 10).unwrap()) .map_err(|_| Error::StringOutOfSpace)?; topic_string.push_str("/Singletone/Amplitude") .map_err(|_| Error::StringOutOfSpace)?; topic_string }, { let message_str = String::from( self.float_buffer.format_finite(ampl) ); message_str } )) } fn get_single_tone_phase_message(&mut self, ch: u8, phase: f64) -> Result<(String, String), Error> { Ok(( { let mut topic_string = String::from(self.name); topic_string.push_str("/Feedback/Channel") .map_err(|_| Error::StringOutOfSpace)?; topic_string.push(char::from_digit(ch.into(), 10).unwrap()) .map_err(|_| Error::StringOutOfSpace)?; topic_string.push_str("/Singletone/Phase") .map_err(|_| Error::StringOutOfSpace)?; topic_string }, { let mut message_str = String::from( self.float_buffer.format_finite(phase) ); message_str.push_str(" deg") .map_err(|_| Error::StringOutOfSpace)?; message_str } )) } } // Read message parameter separator (optional comma and whitespace) fn message_separator(message: &[u8]) -> IResult<&[u8], ()> { preceded( opt( tag(",") ), whitespace )(message) } // Read whitespace fn whitespace(message: &[u8]) -> IResult<&[u8], ()> { value((), take_while(is_space))(message) } // Reader for uom instances fn read_frequency(message: &[u8]) -> IResult<&[u8], f64> { map( pair( double, opt( preceded( whitespace, alt(( value(1.0, tag_no_case("hz")), value(1_000.0, tag_no_case("khz")), value(1_000_000.0, tag_no_case("mhz")), value(1_000_000_000.0, tag_no_case("ghz")) )) ) ) ), |(freq, unit): (f64, Option)| { freq * unit.map_or(1.0, |mul| mul) } )(message) } // Parser for Switch Command Message fn switch_message(channel: u8, message: &[u8]) -> IResult<&[u8], MqttCommand> { all_consuming( map( alt(( value(true, tag("on")), value(false, tag("off")) )), |switch| MqttCommand::Switch(channel, switch) ) )(message) } // Parser for Attenuation Command Message fn attenuation_message(channel: u8, message: &[u8]) -> IResult<&[u8], MqttCommand> { all_consuming( map( terminated( float, opt( preceded( whitespace, tag_no_case("db") ) ) ), |att: f32| MqttCommand::Attenuation(channel, att) ) )(message) } // Parser for Clock Source Command Message fn clock_source_message(message: &[u8]) -> IResult<&[u8], MqttCommand> { all_consuming( alt(( value(MqttCommand::ClockSource(UrukulClockSource::OSC), tag_no_case("OSC")), value(MqttCommand::ClockSource(UrukulClockSource::MMCX), tag_no_case("MMCX")), value(MqttCommand::ClockSource(UrukulClockSource::SMA), tag_no_case("SMA")) )) )(message) } // Parser for Clock Frequency Command Message fn clock_frequency_message(message: &[u8]) -> IResult<&[u8], MqttCommand> { all_consuming( map( read_frequency, |freq: f64| MqttCommand::ClockFrequency(freq) ) )(message) } // Parser for Clock Division Command Message fn clock_division_message(message: &[u8]) -> IResult<&[u8], MqttCommand> { all_consuming( map( digit1, |div: &[u8]| MqttCommand::ClockDivision( u8::from_str_radix( core::str::from_utf8(div).unwrap(), 10 ).unwrap() ) ) )(message) } // Parser for one-command master clock setup message fn clock_message(message: &[u8]) -> IResult<&[u8], MqttCommand> { all_consuming( map( permutation(( preceded( tag_no_case("source:"), preceded( whitespace, terminated( alt(( value(UrukulClockSource::OSC, tag_no_case("OSC")), value(UrukulClockSource::MMCX, tag_no_case("MMCX")), value(UrukulClockSource::SMA, tag_no_case("SMA")) )), message_separator ) ) ), preceded( tag_no_case("frequency:"), preceded( whitespace, terminated( read_frequency, message_separator ) ) ), preceded( tag_no_case("division:"), preceded( whitespace, terminated( map_res( digit1, |div: &[u8]| u8::from_str_radix(core::str::from_utf8(div).unwrap(), 10) ), message_separator ) ) ) )), |(src, freq, div): (UrukulClockSource, f64, u8)| MqttCommand::Clock(src, freq, div) ) )(message) } // Message parser for f_sys_clk of any channels fn system_clock_message(channel: u8, message: &[u8]) -> IResult<&[u8], MqttCommand> { all_consuming( map( read_frequency, |freq: f64| MqttCommand::SystemClock(channel, freq) ) )(message) } // Parser for Singletone frequency Command Message fn singletone_frequency_message(channel: u8, profile: u8, message: &[u8]) -> IResult<&[u8], MqttCommand> { all_consuming( map( read_frequency, |freq: f64| MqttCommand::SingletoneFrequency(channel, profile, freq) ) )(message) } // Parser for Singletone AMplitude Command Message fn singletone_amplitude_message(channel: u8, profile: u8, message: &[u8]) -> IResult<&[u8], MqttCommand> { all_consuming( map( double, |ampl: f64| MqttCommand::SingletoneAmplitude(channel, profile, ampl) ) )(message) } // Parser for Phase Command Message fn singletone_phase_message(channel: u8, profile: u8, message: &[u8]) -> IResult<&[u8], MqttCommand> { all_consuming( map( terminated( double, opt( preceded( whitespace, tag_no_case("deg") ) ) ), |deg: f64| MqttCommand::SingletonePhase(channel, profile, deg) ) )(message) } // Parser for one-command singletone profile Command fn singletone_message(channel: u8, profile: u8, message: &[u8]) -> IResult<&[u8], MqttCommand> { all_consuming( map( permutation(( preceded( tag_no_case("frequency:"), preceded( whitespace, terminated( read_frequency, message_separator ) ) ), preceded( tag_no_case("phase:"), preceded( whitespace, terminated( double, preceded( opt( preceded( whitespace, tag_no_case("deg") ) ), message_separator ) ) ) ), preceded( tag_no_case("amplitude:"), preceded( whitespace, terminated( double, message_separator ) ) ) )), |(freq, phase, ampl): (f64, f64, f64)| MqttCommand::Singletone(channel, profile, freq, phase, ampl) ) )(message) } fn profile_message(message: &[u8]) -> IResult<&[u8], MqttCommand> { all_consuming( map( digit1, |num: &[u8]| { MqttCommand::Profile( u8::from_str_radix(core::str::from_utf8(num).unwrap(), 10).unwrap() ) } ) )(message) }