diff --git a/ad9959/src/lib.rs b/ad9959/src/lib.rs index 025f7d4f..59578cce 100644 --- a/ad9959/src/lib.rs +++ b/ad9959/src/lib.rs @@ -2,8 +2,24 @@ use bit_field::BitField; use bitflags::bitflags; +use core::ops::Range; use embedded_hal::{blocking::delay::DelayUs, digital::v2::OutputPin}; +/// The minimum reference clock input frequency with REFCLK multiplier disabled. +const MIN_REFCLK_FREQUENCY: f32 = 1e6; +/// The minimum reference clock input frequency with REFCLK multiplier enabled. +const MIN_MULTIPLIED_REFCLK_FREQUENCY: f32 = 10e6; +/// The system clock frequency range with high gain configured for the internal VCO. +const HIGH_GAIN_VCO_RANGE: Range = Range { + start: 255e6, + end: 500e6, +}; +/// The system clock frequency range with low gain configured for the internal VCO. +const LOW_GAIN_VCO_RANGE: Range = Range { + start: 100e6, + end: 160e6, +}; + /// A device driver for the AD9959 direct digital synthesis (DDS) chip. /// /// This chip provides four independently controllable digital-to-analog output sinusoids with @@ -218,23 +234,17 @@ impl Ad9959 { reference_clock_frequency: f32, multiplier: u8, ) -> Result { + let frequency = + validate_clocking(reference_clock_frequency, multiplier)?; self.reference_clock_frequency = reference_clock_frequency; - if multiplier != 1 && !(4..=20).contains(&multiplier) { - return Err(Error::Bounds); - } - - let frequency = multiplier as f32 * self.reference_clock_frequency; - if frequency > 500_000_000.0f32 { - return Err(Error::Frequency); - } - // TODO: Update / disable any enabled channels? let mut fr1: [u8; 3] = [0, 0, 0]; self.read(Register::FR1, &mut fr1)?; fr1[0].set_bits(2..=6, multiplier); - let vco_range = frequency > 255e6; + let vco_range = HIGH_GAIN_VCO_RANGE.contains(&frequency) + || frequency == HIGH_GAIN_VCO_RANGE.end; fr1[0].set_bit(7, vco_range); self.write(Register::FR1, &fr1)?; @@ -365,9 +375,7 @@ impl Ad9959 { channel: Channel, phase_turns: f32, ) -> Result { - let phase_offset: u16 = - (phase_turns * (1 << 14) as f32) as u16 & 0x3FFFu16; - + let phase_offset = phase_to_pow(phase_turns)?; self.modify_channel( channel, Register::CPOW0, @@ -513,6 +521,108 @@ impl Ad9959 { } } +/// Validate the internal system clock configuration of the chip. +/// +/// Arguments: +/// * `reference_clock_frequency` - The reference clock frequency provided to the AD9959 core. +/// * `multiplier` - The frequency multiplier of the system clock. Must be 1 or 4-20. +/// +/// Returns: +/// The system clock frequency to be configured. +pub fn validate_clocking( + reference_clock_frequency: f32, + multiplier: u8, +) -> Result { + // The REFCLK frequency must be at least 1 MHz with REFCLK multiplier disabled. + if reference_clock_frequency < MIN_REFCLK_FREQUENCY { + return Err(Error::Bounds); + } + // If the REFCLK multiplier is enabled, the multiplier (FR1[22:18]) must be between 4 to 20. + // Alternatively, the clock multiplier can be disabled. The multiplication factor is 1. + if multiplier != 1 && !(4..=20).contains(&multiplier) { + return Err(Error::Bounds); + } + // If the REFCLK multiplier is enabled, the REFCLK frequency must be at least 10 MHz. + if multiplier != 1 + && reference_clock_frequency < MIN_MULTIPLIED_REFCLK_FREQUENCY + { + return Err(Error::Bounds); + } + let frequency = multiplier as f32 * reference_clock_frequency; + // SYSCLK frequency between 255 MHz and 500 MHz (inclusive) is valid with high range VCO + if HIGH_GAIN_VCO_RANGE.contains(&frequency) + || frequency == HIGH_GAIN_VCO_RANGE.end + { + return Ok(frequency); + } + + // SYSCLK frequency between 100 MHz and 160 MHz (inclusive) is valid with low range VCO + if LOW_GAIN_VCO_RANGE.contains(&frequency) + || frequency == LOW_GAIN_VCO_RANGE.end + { + return Ok(frequency); + } + + // When the REFCLK multiplier is disabled, SYSCLK frequency can go below 100 MHz + if multiplier == 1 && (0.0..=LOW_GAIN_VCO_RANGE.start).contains(&frequency) + { + return Ok(frequency); + } + + Err(Error::Frequency) +} + +/// Convert and validate frequency into frequency tuning word. +/// +/// Arguments: +/// * `dds_frequency` - The DDS frequency to be converted and validated. +/// * `system_clock_frequency` - The system clock frequency of the AD9959 core. +/// +/// Returns: +/// The corresponding frequency tuning word. +pub fn frequency_to_ftw( + dds_frequency: f32, + system_clock_frequency: f32, +) -> Result { + // Output frequency should not exceed the Nyquist's frequency. + if !(0.0..=(system_clock_frequency / 2.0)).contains(&dds_frequency) { + return Err(Error::Bounds); + } + // The function for channel frequency is `f_out = FTW * f_s / 2^32`, where FTW is the + // frequency tuning word and f_s is the system clock rate. + Ok(((dds_frequency / system_clock_frequency) * (1u64 << 32) as f32) as u32) +} + +/// Convert phase into phase offset word. +/// +/// Arguments: +/// * `phase_turns` - The normalized number of phase turns of a DDS channel. +/// +/// Returns: +/// The corresponding phase offset word. +pub fn phase_to_pow(phase_turns: f32) -> Result { + Ok((phase_turns * (1 << 14) as f32) as u16 & 0x3FFFu16) +} + +/// Convert amplitude into amplitude control register values. +/// +/// Arguments: +/// * `amplitude` - The normalized amplitude of a DDS channel. +/// +/// Returns: +/// The corresponding value in the amplitude control register. +pub fn amplitude_to_acr(amplitude: f32) -> Result { + if !(0.0..=1.0).contains(&litude) { + return Err(Error::Bounds); + } + + let acr: u32 = *0u32 + .set_bits(0..=9, ((amplitude * (1 << 10) as f32) as u32) & 0x3FF) + .set_bit(12, amplitude != 1.0); + + Ok(acr as u32) +} + /// Represents a means of serializing a DDS profile for writing to a stream. pub struct ProfileSerializer { // heapless::Vec, especially its extend_from_slice() is slow @@ -568,6 +678,39 @@ impl ProfileSerializer { } } + /// Update the system clock configuration. + /// + /// # Args + /// * `reference_clock_frequency` - The reference clock frequency provided to the AD9959 core. + /// * `multiplier` - The frequency multiplier of the system clock. Must be 1 or 4-20. + /// + /// # Limitations + /// The correctness of the FR1 register setting code rely on FR1\[0:17\] staying 0. + pub fn set_system_clock( + &mut self, + reference_clock_frequency: f32, + multiplier: u8, + ) -> Result { + let frequency = reference_clock_frequency * multiplier as f32; + + // The enabled channel will be updated after clock reconfig + let mut fr1 = [0u8; 3]; + + // The ad9959 crate does not modify FR1[0:17]. These bits keep their default value. + // These bits by default are 0. + // Reading the register then update is not possible to implement in a serializer, where + // many QSPI writes are performed in burst. Switching between read and write requires + // breaking the QSPI indirect write mode and switch into the QSPI indirect read mode. + fr1[0].set_bits(2..=6, multiplier); + + // Frequencies within the VCO forbidden range (160e6, 255e6) are already rejected. + let vco_range = HIGH_GAIN_VCO_RANGE.contains(&frequency); + fr1[0].set_bit(7, vco_range); + + self.add_write(Register::FR1, &fr1); + Ok(frequency) + } + /// Add a register write to the serialization data. fn add_write(&mut self, register: Register, value: &[u8]) { let data = &mut self.data[self.index..]; diff --git a/src/bin/dual-iir.rs b/src/bin/dual-iir.rs index d4146cc2..0c72054d 100644 --- a/src/bin/dual-iir.rs +++ b/src/bin/dual-iir.rs @@ -28,7 +28,7 @@ #![no_std] #![no_main] -use core::mem::MaybeUninit; +use core::mem::{MaybeUninit, size_of}; use core::sync::atomic::{fence, Ordering}; use miniconf::{Leaf, Tree}; use serde::{Deserialize, Serialize}; @@ -48,6 +48,8 @@ use stabilizer::{ dac::{Dac0Output, Dac1Output, DacCode}, hal, signal_generator::{self, SignalGenerator}, + pounder::{ClockConfig, PounderConfig}, + setup::PounderDevices as Pounder, timers::SamplingTimer, DigitalInput0, DigitalInput1, SerialTerminal, SystemTimer, Systick, UsbDevice, AFE0, AFE1, @@ -173,6 +175,16 @@ pub struct DualIir { /// # Value /// See [signal_generator::BasicConfig#miniconf] source: [signal_generator::BasicConfig; 2], + + /// Specifies the config for pounder DDS clock configuration, DDS channels & attenuations + /// + /// # Path + /// `pounder` + /// + /// # Value + /// See [PounderConfig#miniconf] + #[tree] + pounder: Option, } impl Default for DualIir { @@ -200,6 +212,8 @@ impl Default for DualIir { source: Default::default(), stream: Default::default(), + + pounder: None.into(), } } } @@ -211,22 +225,24 @@ mod app { #[shared] struct Shared { usb: UsbDevice, - network: NetworkUsers, + network: NetworkUsers, settings: Settings, active_settings: DualIir, telemetry: TelemetryBuffer, source: [SignalGenerator; 2], + pounder: Option, } #[local] struct Local { - usb_terminal: SerialTerminal, + usb_terminal: SerialTerminal, sampling_timer: SamplingTimer, digital_inputs: (DigitalInput0, DigitalInput1), afes: (AFE0, AFE1), adcs: (Adc0Input, Adc1Input), dacs: (Dac0Output, Dac1Output), iir_state: [[[f32; 4]; IIR_CASCADE_LENGTH]; 2], + dds_clock_state: Option, generator: FrameGenerator, cpu_temp_sensor: stabilizer::hardware::cpu_temp_sensor::CpuTempSensor, } @@ -236,7 +252,7 @@ mod app { let clock = SystemTimer::new(|| Systick::now().ticks()); // Configure the microcontroller - let (stabilizer, _pounder) = hardware::setup::setup::( + let (mut stabilizer, pounder) = hardware::setup::setup::( c.core, c.device, clock, @@ -255,6 +271,13 @@ mod app { let generator = network.configure_streaming(StreamFormat::AdcDacData); + let dds_clock_state = pounder.as_ref().map(|_| ClockConfig::default()); + if pounder.is_some() { + stabilizer.settings.dual_iir + .pounder + .replace(PounderConfig::default()); + } + let shared = Shared { usb: stabilizer.usb, network, @@ -273,6 +296,7 @@ mod app { ), ], settings: stabilizer.settings, + pounder }; let mut local = Local { @@ -283,6 +307,7 @@ mod app { adcs: stabilizer.adcs, dacs: stabilizer.dacs, iir_state: [[[0.; 4]; IIR_CASCADE_LENGTH]; 2], + dds_clock_state, generator, cpu_temp_sensor: stabilizer.temperature_sensor, }; @@ -452,7 +477,7 @@ mod app { } } - #[task(priority = 1, local=[afes], shared=[network, settings, active_settings, source])] + #[task(priority = 1, local=[afes, dds_clock_state], shared=[network, settings, active_settings, source, pounder])] async fn settings_update(mut c: settings_update::Context) { c.shared.settings.lock(|settings| { c.local.afes.0.set_gain(*settings.dual_iir.afe[0]); @@ -474,6 +499,17 @@ mod app { ), } } + // Update Pounder configurations + c.shared.pounder.lock(|pounder| { + if let Some(pounder) = pounder { + let pounder_settings = settings.dual_iir.pounder.as_ref().unwrap(); + // let mut clocking = c.local.dds_clock_state; + pounder.update_dds( + *pounder_settings, + c.local.dds_clock_state.as_mut().unwrap(), + ); + } + }); c.shared .network @@ -485,22 +521,31 @@ mod app { }); } - #[task(priority = 1, shared=[network, settings, telemetry], local=[cpu_temp_sensor])] + #[task(priority = 1, shared=[network, settings, telemetry, pounder], local=[cpu_temp_sensor])] async fn telemetry(mut c: telemetry::Context) { loop { let telemetry = c.shared.telemetry.lock(|telemetry| telemetry.clone()); - let (gains, telemetry_period) = + let (gains, telemetry_period, pounder_config) = c.shared.settings.lock(|settings| { - (settings.dual_iir.afe, *settings.dual_iir.telemetry_period) + ( + settings.dual_iir.afe, + *settings.dual_iir.telemetry_period, + settings.dual_iir.pounder + ) }); + let pounder_telemetry = c.shared.pounder.lock(|pounder| { + pounder.as_mut().map(|pdr| pdr.get_telemetry(pounder_config.unwrap())) + }); + c.shared.network.lock(|net| { net.telemetry.publish(&telemetry.finalize( *gains[0], *gains[1], c.local.cpu_temp_sensor.get_temperature().unwrap(), + pounder_telemetry, )) }); diff --git a/src/bin/lockin.rs b/src/bin/lockin.rs index d8d193dd..aa941db7 100644 --- a/src/bin/lockin.rs +++ b/src/bin/lockin.rs @@ -29,7 +29,7 @@ use core::{ convert::TryFrom, - mem::MaybeUninit, + mem::{MaybeUninit, size_of}, sync::atomic::{fence, Ordering}, }; @@ -248,7 +248,7 @@ mod app { #[shared] struct Shared { usb: UsbDevice, - network: NetworkUsers, + network: NetworkUsers, settings: Settings, active_settings: Lockin, telemetry: TelemetryBuffer, @@ -543,6 +543,7 @@ mod app { *gains[0], *gains[1], c.local.cpu_temp_sensor.get_temperature().unwrap(), + None, )) }); diff --git a/src/bin/urukul.rs b/src/bin/urukul.rs index fc7faf40..1ebb8e6c 100644 --- a/src/bin/urukul.rs +++ b/src/bin/urukul.rs @@ -104,21 +104,21 @@ mod app { #[shared] struct Shared { usb: UsbDevice, - network: NetworkUsers, + network: NetworkUsers, settings: Settings, } #[local] struct Local { urukul: Urukul, - usb_terminal: SerialTerminal, + usb_terminal: SerialTerminal, } #[init] fn init(c: init::Context) -> (Shared, Local) { let clock = SystemTimer::new(|| Systick::now().ticks()); - let (stabilizer, _pounder) = hardware::setup::setup::( + let (stabilizer, _pounder) = hardware::setup::setup::( c.core, c.device, clock, diff --git a/src/hardware/pounder/attenuators.rs b/src/hardware/pounder/attenuators.rs index cfd08b7f..2570f506 100644 --- a/src/hardware/pounder/attenuators.rs +++ b/src/hardware/pounder/attenuators.rs @@ -52,10 +52,9 @@ pub trait AttenuatorInterface { fn get_attenuation(&mut self, channel: Channel) -> Result { let mut channels = [0_u8; 4]; - // Reading the data always shifts data out of the staging registers, so we perform a - // duplicate write-back to ensure the staging register is always equal to the output - // register. - self.transfer_attenuators(&mut channels)?; + // Reading the data always shifts data out of the staging registers, so a duplicate + // write-back will be performed to ensure the staging register is always equal to the + // output register. self.transfer_attenuators(&mut channels)?; // The attenuation code is stored in the upper 6 bits of the register, where each LSB @@ -66,6 +65,9 @@ pub trait AttenuatorInterface { // care) would contain erroneous data. let attenuation_code = (!channels[channel as usize]) >> 2; + // The write-back transfer is performed. Staging register is now restored. + self.transfer_attenuators(&mut channels)?; + // Convert the desired channel code into dB of attenuation. Ok(attenuation_code as f32 / 2.0) } diff --git a/src/hardware/pounder/dds_output.rs b/src/hardware/pounder/dds_output.rs index 3ae1ce90..cd978b01 100644 --- a/src/hardware/pounder/dds_output.rs +++ b/src/hardware/pounder/dds_output.rs @@ -55,7 +55,7 @@ use log::warn; use stm32h7xx_hal as hal; -use super::{hrtimer::HighResTimerE, QspiInterface}; +use super::{hrtimer::HighResTimerE, Profile, QspiInterface}; use ad9959::{Channel, Mode, ProfileSerializer}; /// The DDS profile update stream. @@ -157,6 +157,46 @@ impl<'a> ProfileBuilder<'a> { self } + /// Update a number of channels with fully defined profile settings. + /// + /// # Args + /// * `channels` - A set of channels to apply the configuration to. + /// * `profile` - The complete DDS profile, which defines the frequency tuning word, + /// amplitude control register & the phase offset word of the channels. + /// # Note + /// The ACR should be stored in the 3 LSB of the word. + /// If amplitude scaling is to be used, the "Amplitude multiplier enable" bit must be set. + #[inline] + pub fn update_channels_with_profile( + &mut self, + channels: Channel, + profile: Profile, + ) -> &mut Self { + self.serializer.update_channels( + channels, + Some(profile.frequency_tuning_word), + Some(profile.phase_offset), + Some(profile.amplitude_control), + ); + self + } + + /// Update the system clock configuration. + /// + /// # Args + /// * `reference_clock_frequency` - The reference clock frequency provided to the AD9959 core. + /// * `multiplier` - The frequency multiplier of the system clock. Must be 1 or 4-20. + #[inline] + pub fn set_system_clock( + &mut self, + reference_clock_frequency: f32, + multiplier: u8, + ) -> Result<&mut Self, ad9959::Error> { + self.serializer + .set_system_clock(reference_clock_frequency, multiplier)?; + Ok(self) + } + /// Write the profile to the DDS asynchronously. #[allow(dead_code)] #[inline] diff --git a/src/hardware/pounder/mod.rs b/src/hardware/pounder/mod.rs index c144db0c..a6831605 100644 --- a/src/hardware/pounder/mod.rs +++ b/src/hardware/pounder/mod.rs @@ -1,10 +1,17 @@ use self::attenuators::AttenuatorInterface; use super::hal; -use crate::hardware::{shared_adc::AdcChannel, I2c1Proxy}; +use crate::hardware::{setup, shared_adc::AdcChannel, I2c1Proxy}; +use crate::net::telemetry::PounderTelemetry; +use ad9959::{ + amplitude_to_acr, frequency_to_ftw, phase_to_pow, validate_clocking, +}; use embedded_hal_02::blocking::spi::Transfer; use enum_iterator::Sequence; +use miniconf::{Leaf, Tree}; +use rf_power::PowerMeasurementInterface; use serde::{Deserialize, Serialize}; +use stm32h7xx_hal::time::MegaHertz; pub mod attenuators; pub mod dds_output; @@ -120,38 +127,97 @@ impl From for GpioPin { } } -#[derive(Serialize, Deserialize, Copy, Clone, Debug)] -pub struct DdsChannelState { - pub phase_offset: f32, - pub frequency: f32, - pub amplitude: f32, - pub enabled: bool, +#[derive(Serialize, Deserialize, Copy, Clone, Debug, Tree)] +pub struct DdsChannelConfig { + pub frequency: Leaf, + pub phase_offset: Leaf, + pub amplitude: Leaf, } -#[derive(Serialize, Deserialize, Copy, Clone, Debug)] -pub struct ChannelState { - pub parameters: DdsChannelState, - pub attenuation: f32, +impl Default for DdsChannelConfig { + fn default() -> Self { + Self { + frequency: 0.0.into(), + phase_offset: 0.0.into(), + amplitude: 0.0.into(), + } + } } -#[derive(Serialize, Deserialize, Copy, Clone, Debug)] -pub struct InputChannelState { - pub attenuation: f32, - pub power: f32, - pub mixer: DdsChannelState, +/// Represents a fully defined DDS profile, with parameters expressed in machine units +pub struct Profile { + /// A 32-bits representation of DDS frequency in relation to the system clock frequency. + /// This value corresponds to the AD9959 CFTW0 register, which specifies the frequency + /// of DDS channels. + pub frequency_tuning_word: u32, + /// The DDS phase offset. It corresponds to the AD9959 CPOW0 register, which specifies + /// the phase offset of DDS channels. + pub phase_offset: u16, + /// Control amplitudes of DDS channels. It corresponds to the AD9959 ACR register, which + /// controls the amplitude scaling factor of DDS channels. + pub amplitude_control: u32, } -#[derive(Serialize, Deserialize, Copy, Clone, Debug)] -pub struct OutputChannelState { - pub attenuation: f32, - pub channel: DdsChannelState, +impl TryFrom<(ClockConfig, ChannelConfig)> for Profile { + type Error = ad9959::Error; + + fn try_from( + (clocking, channel): (ClockConfig, ChannelConfig), + ) -> Result { + let system_clock_frequency = + *clocking.reference_clock * *clocking.multiplier as f32; + Ok(Profile { + frequency_tuning_word: frequency_to_ftw( + *channel.dds.frequency, + system_clock_frequency, + )?, + phase_offset: phase_to_pow(*channel.dds.phase_offset)?, + amplitude_control: amplitude_to_acr(*channel.dds.amplitude)?, + }) + } } -#[derive(Serialize, Deserialize, Copy, Clone, Debug)] -pub struct DdsClockConfig { - pub multiplier: u8, - pub reference_clock: f32, - pub external_clock: bool, +#[derive(Serialize, Deserialize, Copy, Clone, Debug, Tree)] +pub struct ChannelConfig { + #[tree] + pub dds: DdsChannelConfig, + pub attenuation: Leaf, +} + +impl Default for ChannelConfig { + fn default() -> Self { + ChannelConfig { + dds: DdsChannelConfig::default(), + attenuation: 31.5.into(), + } + } +} + +#[derive(Serialize, Deserialize, Copy, Clone, Debug, PartialEq, Tree)] +pub struct ClockConfig { + pub multiplier: Leaf, + pub reference_clock: Leaf, + pub external_clock: Leaf, +} + +impl Default for ClockConfig { + fn default() -> Self { + Self { + multiplier: 5.into(), + reference_clock: (MegaHertz::MHz(100).to_Hz() as f32).into(), + external_clock: false.into(), + } + } +} + +#[derive(Copy, Clone, Debug, Default, Deserialize, Serialize, Tree)] +pub struct PounderConfig { + #[tree] + pub clock: ClockConfig, + #[tree] + pub in_channel: [ChannelConfig; 2], + #[tree] + pub out_channel: [ChannelConfig; 2], } impl From for ad9959::Channel { @@ -585,3 +651,78 @@ impl rf_power::PowerMeasurementInterface for PounderDevices { Ok(adc_scale * 2.048) } } + +impl setup::PounderDevices { + pub fn update_dds( + &mut self, + settings: PounderConfig, + clocking: &mut ClockConfig, + ) { + if *clocking != settings.clock { + match validate_clocking( + *settings.clock.reference_clock, + *settings.clock.multiplier, + ) { + Ok(_frequency) => { + self.pounder + .set_ext_clk(*settings.clock.external_clock) + .unwrap(); + + self.dds_output + .builder() + .set_system_clock( + *settings.clock.reference_clock, + *settings.clock.multiplier, + ) + .unwrap() + .write(); + + *clocking = settings.clock; + } + Err(err) => { + log::error!("Invalid AD9959 clocking parameters: {:?}", err) + } + } + } + + for (channel_config, pounder_channel) in settings + .in_channel + .iter() + .chain(settings.out_channel.iter()) + .zip([Channel::In0, Channel::In1, Channel::Out0, Channel::Out1]) + { + match Profile::try_from((*clocking, *channel_config)) { + Ok(dds_profile) => { + self.dds_output + .builder() + .update_channels_with_profile( + pounder_channel.into(), + dds_profile, + ) + .write(); + + if let Err(err) = self.pounder.set_attenuation( + pounder_channel, + *channel_config.attenuation, + ) { + log::error!("Invalid attenuation settings: {:?}", err) + } + } + Err(err) => { + log::error!("Invalid AD9959 profile settings: {:?}", err) + } + } + } + } + + pub fn get_telemetry(&mut self, config: PounderConfig) -> PounderTelemetry { + PounderTelemetry { + temperature: self.pounder.lm75.read_temperature().unwrap(), + input_power: [ + self.pounder.measure_power(Channel::In0).unwrap(), + self.pounder.measure_power(Channel::In1).unwrap(), + ], + config, + } + } +} diff --git a/src/net/data_stream.rs b/src/net/data_stream.rs index 714ec57f..d442f197 100644 --- a/src/net/data_stream.rs +++ b/src/net/data_stream.rs @@ -25,7 +25,7 @@ #![allow(non_camel_case_types)] // https://github.com/rust-embedded/heapless/issues/411 -use core::{fmt::Write, mem::MaybeUninit}; +use core::{fmt::Write, mem::{MaybeUninit, size_of_val}}; use heapless::{ box_pool, pool::boxed::{Box, BoxBlock}, diff --git a/src/net/mod.rs b/src/net/mod.rs index 8d815e51..5541f8ba 100644 --- a/src/net/mod.rs +++ b/src/net/mod.rs @@ -32,14 +32,14 @@ pub type NetworkReference = pub struct MqttStorage { telemetry: [u8; 2048], - settings: [u8; 1024], + settings: [u8; 1536], } impl Default for MqttStorage { fn default() -> Self { Self { telemetry: [0u8; 2048], - settings: [0u8; 1024], + settings: [0u8; 1536], } } } diff --git a/src/net/telemetry.rs b/src/net/telemetry.rs index 6b42b97c..48f9828e 100644 --- a/src/net/telemetry.rs +++ b/src/net/telemetry.rs @@ -16,7 +16,7 @@ use minimq::{DeferredPublication, Publication}; use serde::Serialize; use super::NetworkReference; -use crate::hardware::{adc::AdcCode, afe::Gain, dac::DacCode, SystemTimer}; +use crate::hardware::{adc::AdcCode, afe::Gain, dac::DacCode, SystemTimer, pounder::PounderConfig}; /// Default metadata message if formatting errors occur. const DEFAULT_METADATA: &str = "{\"message\":\"Truncated: See USB terminal\"}"; @@ -68,6 +68,26 @@ pub struct Telemetry { /// The CPU temperature in degrees Celsius. pub cpu_temp: f32, + + /// Measurements related to Pounder + pub pounder: Option, +} + +/// The structure that holds the telemetry related to Pounder. +/// +/// # Note +/// This structure should be generated on-demand by the buffer when required to minimize conversion +/// overhead. +#[derive(Copy, Clone, Serialize)] +pub struct PounderTelemetry { + /// The Pounder temperature in degrees Celsius + pub temperature: f32, + + /// The detected RF power into IN channels + pub input_power: [f32; 2], + + /// The configuration of the clock and DDS channels + pub config: PounderConfig, } impl TelemetryBuffer { @@ -77,10 +97,17 @@ impl TelemetryBuffer { /// * `afe0` - The current AFE configuration for channel 0. /// * `afe1` - The current AFE configuration for channel 1. /// * `cpu_temp` - The current CPU temperature. + /// * `pounder` - The current Pounder telemetry. /// /// # Returns /// The finalized telemetry structure that can be serialized and reported. - pub fn finalize(self, afe0: Gain, afe1: Gain, cpu_temp: f32) -> Telemetry { + pub fn finalize( + self, + afe0: Gain, + afe1: Gain, + cpu_temp: f32, + pounder: Option, + ) -> Telemetry { let in0_volts = Into::::into(self.adcs[0]) / afe0.as_multiplier(); let in1_volts = Into::::into(self.adcs[1]) / afe1.as_multiplier(); @@ -89,6 +116,7 @@ impl TelemetryBuffer { adcs: [in0_volts, in1_volts], dacs: [self.dacs[0].into(), self.dacs[1].into()], digital_inputs: self.digital_inputs, + pounder, } } }