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Fix ota, use MMU to determine running partition, use RMW wrapper for ota_data partition (littelfs handles this internally, so it was no problem prior)

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This commit is contained in:
Empire Phoenix
2026-03-18 01:22:33 +01:00
parent 66e1fe63e0
commit 39e4e733f3
11 changed files with 220 additions and 249 deletions
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6
Software/MainBoard/rust/Cargo.toml
View File

@@ -13,6 +13,10 @@ test = false
bench = false
doc = false
[features]
default = ["esp32c6"]
esp32c6 = []
#this strips the bootloader, we need that tho
#strip = true
@@ -87,6 +91,8 @@ edge-nal = "0.5.0"
edge-nal-embassy = "0.6.0"
edge-http = { version = "0.6.1", features = ["log"] }
esp32c6 = { version = "0.22.0" }
# Hardware abstraction traits and HAL adapters
embedded-hal = "1.0.0"
embedded-storage = "0.3.1"

11
Software/MainBoard/rust/src/fat_error.rs
View File

@@ -52,6 +52,7 @@ pub enum FatError {
SpawnError {
error: SpawnError,
},
OTAError,
PartitionError {
error: esp_bootloader_esp_idf::partitions::Error,
},
@@ -106,6 +107,9 @@ impl fmt::Display for FatError {
}
FatError::SNTPError { error } => write!(f, "SNTPError {error:?}"),
FatError::BMSError { error } => write!(f, "BMSError, {error}"),
FatError::OTAError => {
write!(f, "OTA missing partition")
}
}
}
}
@@ -323,13 +327,12 @@ impl From<sntpc::Error> for FatError {
}
}
impl From<BmsProtocolError> for FatError {
fn from(value: BmsProtocolError) -> Self {
match value {
BmsProtocolError::I2cCommunicationError => {
FatError::String{error: "I2C communication error".to_string()}
}
BmsProtocolError::I2cCommunicationError => FatError::String {
error: "I2C communication error".to_string(),
},
}
}
}

13
Software/MainBoard/rust/src/hal/esp.rs
View File

@@ -21,11 +21,10 @@ use embassy_sync::blocking_mutex::raw::CriticalSectionRawMutex;
use embassy_sync::mutex::{Mutex, MutexGuard};
use embassy_sync::once_lock::OnceLock;
use embassy_time::{Duration, Timer, WithTimeout};
use embedded_storage::nor_flash::{check_erase, NorFlash, ReadNorFlash};
use embedded_storage::nor_flash::{check_erase, NorFlash, ReadNorFlash, RmwNorFlashStorage};
use esp_bootloader_esp_idf::ota::OtaImageState::Valid;
use esp_bootloader_esp_idf::ota::{Ota, OtaImageState};
use esp_bootloader_esp_idf::partitions::{AppPartitionSubType, FlashRegion};
use esp_hal::Blocking;
use esp_hal::gpio::{Input, RtcPinWithResistors};
use esp_hal::rng::Rng;
use esp_hal::rtc_cntl::{
@@ -34,6 +33,7 @@ use esp_hal::rtc_cntl::{
};
use esp_hal::system::software_reset;
use esp_hal::uart::Uart;
use esp_hal::Blocking;
use esp_println::println;
use esp_radio::wifi::{
AccessPointConfig, AccessPointInfo, AuthMethod, ClientConfig, ModeConfig, ScanConfig,
@@ -130,7 +130,7 @@ pub struct Esp<'a> {
pub wake_gpio1: esp_hal::peripherals::GPIO1<'static>,
pub uart0: Uart<'a, Blocking>,
pub ota: Ota<'static, MutexFlashStorage>,
pub ota: Ota<'static, RmwNorFlashStorage<'static, &'static mut MutexFlashStorage>>,
pub ota_target: &'static mut FlashRegion<'static, MutexFlashStorage>,
pub current: AppPartitionSubType,
pub slot0_state: OtaImageState,
@@ -155,7 +155,6 @@ macro_rules! mk_static {
}
impl Esp<'_> {
pub(crate) async fn read_serial_line(&mut self) -> FatResult<Option<alloc::string::String>> {
let mut buf = [0u8; 1];
let mut line = String::new();
@@ -252,6 +251,7 @@ impl Esp<'_> {
pub(crate) async fn write_ota(&mut self, offset: u32, buf: &[u8]) -> Result<(), FatError> {
let _ = check_erase(self.ota_target, offset, offset + 4096);
info!("erasing and writing block 0x{offset:x}");
self.ota_target.erase(offset, offset + 4096)?;
let mut temp = vec![0; buf.len()];
@@ -288,8 +288,6 @@ impl Esp<'_> {
info!("switched state for new partition");
let state_new = self.ota.current_ota_state()?;
info!("state on new partition now {state_new:?}");
//determine nextslot crc
self.set_restart_to_conf(true);
Ok(())
}
@@ -597,10 +595,13 @@ impl Esp<'_> {
// Mark the current OTA image as valid if we reached here while in pending verify.
if let Ok(cur) = self.ota.current_ota_state() {
if cur == OtaImageState::PendingVerify {
info!("Marking OTA image as valid");
self.ota
.set_current_ota_state(Valid)
.expect("Could not set image to valid");
}
} else {
info!("No OTA image to mark as valid");
}
if duration_in_ms == 0 {

130
Software/MainBoard/rust/src/hal/mod.rs
View File

@@ -1,5 +1,5 @@
use esp_hal::uart::Config as UartConfig;
use lib_bms_protocol::BmsReadable;
use esp_hal::uart::{Config as UartConfig};
pub(crate) mod battery;
// mod can_api; // replaced by external canapi crate
pub mod esp;
@@ -9,7 +9,6 @@ mod shared_flash;
mod v4_hal;
mod water;
use lib_bms_protocol::ProtocolVersion;
use crate::alloc::string::ToString;
use crate::hal::rtc::{DS3231Module, RTCModuleInteraction};
use esp_hal::peripherals::Peripherals;
@@ -36,6 +35,7 @@ use esp_hal::peripherals::GPIO6;
use esp_hal::peripherals::GPIO7;
use esp_hal::peripherals::GPIO8;
use esp_hal::peripherals::TWAI0;
use lib_bms_protocol::ProtocolVersion;
use crate::{
bail,
@@ -66,19 +66,21 @@ use embassy_embedded_hal::shared_bus::blocking::i2c::I2cDevice;
use embassy_sync::blocking_mutex::raw::CriticalSectionRawMutex;
use embassy_sync::blocking_mutex::CriticalSectionMutex;
use esp_bootloader_esp_idf::partitions::{
AppPartitionSubType, DataPartitionSubType, FlashRegion, PartitionEntry,
AppPartitionSubType, DataPartitionSubType, FlashRegion, PartitionEntry, PartitionTable,
PartitionType,
};
use esp_hal::clock::CpuClock;
use esp_hal::gpio::{Input, InputConfig, Pull};
use measurements::{Current, Voltage};
use crate::fat_error::{ContextExt, FatError, FatResult};
use crate::hal::battery::{WCHI2CSlave};
use crate::hal::battery::WCHI2CSlave;
use crate::hal::little_fs2storage_adapter::LittleFs2Filesystem;
use crate::hal::water::TankSensor;
use crate::log::LOG_ACCESS;
use embassy_sync::mutex::Mutex;
use embassy_sync::once_lock::OnceLock;
use embedded_storage::nor_flash::RmwNorFlashStorage;
use embedded_storage::ReadStorage;
use esp_alloc as _;
use esp_backtrace as _;
@@ -93,8 +95,8 @@ use esp_hal::rtc_cntl::{Rtc, SocResetReason};
use esp_hal::system::reset_reason;
use esp_hal::time::Rate;
use esp_hal::timer::timg::TimerGroup;
use esp_hal::Blocking;
use esp_hal::uart::Uart;
use esp_hal::Blocking;
use esp_radio::{init, Controller};
use esp_storage::FlashStorage;
use littlefs2::fs::{Allocation, Filesystem as lfs2Filesystem};
@@ -138,12 +140,6 @@ pub struct HAL<'a> {
pub board_hal: Box<dyn BoardInteraction<'a> + Send>,
}
pub struct DetectionRequest {
pub sensorsa: [Sensor; PLANT_COUNT],
pub sensorsb: [Sensor; PLANT_COUNT],
}
#[async_trait(?Send)]
pub trait BoardInteraction<'a> {
fn get_tank_sensor(&mut self) -> Result<&mut TankSensor<'a>, FatError>;
@@ -169,7 +165,7 @@ pub trait BoardInteraction<'a> {
async fn can_power(&mut self, state: bool) -> FatResult<()>;
// Return JSON string with autodetected sensors per plant. Default: not supported.
async fn detect_sensors(&mut self, request: Detection) -> FatResult<Detection> {
async fn detect_sensors(&mut self, _request: Detection) -> FatResult<Detection> {
bail!("Autodetection is only available on v4 HAL with CAN bus");
}
@@ -333,31 +329,31 @@ impl PlantHal {
);
let ota_data = mk_static!(
FlashRegion<MutexFlashStorage>,
ota_data.as_embedded_storage(flash_storage_2)
FlashRegion<RmwNorFlashStorage<&mut MutexFlashStorage>>,
ota_data.as_embedded_storage(mk_static!(
RmwNorFlashStorage<&mut MutexFlashStorage>,
RmwNorFlashStorage::new(flash_storage_2, mk_static!([u8; 4096], [0_u8; 4096]))
))
);
let state_0 = ota_state(AppPartitionSubType::Ota0, ota_data);
let state_1 = ota_state(AppPartitionSubType::Ota1, ota_data);
let mut ota = Ota::new(ota_data, 2)?;
let running = get_current_slot_and_fix_ota_data(&mut ota, state_0, state_1)?;
let running = get_current_slot(&pt, &mut ota)?;
let target = next_partition(running)?;
info!("Currently running OTA slot: {running:?}");
info!("Updates will be stored in OTA slot: {target:?}");
info!("Slot0 state: {state_0:?}");
info!("Slot1 state: {state_1:?}");
//get current_state and next_state here!
let ota_target = match target {
AppPartitionSubType::Ota0 => pt
.find_partition(esp_bootloader_esp_idf::partitions::PartitionType::App(
AppPartitionSubType::Ota0,
))?
.find_partition(PartitionType::App(AppPartitionSubType::Ota0))?
.context("Partition table invalid no ota0")?,
AppPartitionSubType::Ota1 => pt
.find_partition(esp_bootloader_esp_idf::partitions::PartitionType::App(
AppPartitionSubType::Ota1,
))?
.find_partition(PartitionType::App(AppPartitionSubType::Ota1))?
.context("Partition table invalid no ota1")?,
_ => {
bail!("Invalid target partition");
@@ -401,8 +397,8 @@ impl PlantHal {
lfs2Filesystem::mount(alloc, lfs2filesystem).expect("Could not mount lfs2 filesystem"),
));
let uart0 = Uart::new(peripherals.UART0, UartConfig::default())
.map_err(|_| FatError::String {
let uart0 =
Uart::new(peripherals.UART0, UartConfig::default()).map_err(|_| FatError::String {
error: "Uart creation failed".to_string(),
})?;
@@ -421,7 +417,7 @@ impl PlantHal {
current: running,
slot0_state: state_0,
slot1_state: state_1,
uart0
uart0,
};
//init,reset rtc memory depending on cause
@@ -571,9 +567,14 @@ impl PlantHal {
)
.await;
HAL {
board_hal: v4_hal::create_v4(free_pins, esp, PlantControllerConfig::default(),
Box::new(NoBatteryMonitor {}), rtc_module)
.await?
board_hal: v4_hal::create_v4(
free_pins,
esp,
PlantControllerConfig::default(),
Box::new(NoBatteryMonitor {}),
rtc_module,
)
.await?,
}
}
};
@@ -584,7 +585,7 @@ impl PlantHal {
fn ota_state(
slot: AppPartitionSubType,
ota_data: &mut FlashRegion<MutexFlashStorage>,
ota_data: &mut FlashRegion<RmwNorFlashStorage<&mut MutexFlashStorage>>,
) -> OtaImageState {
// Read and log OTA states for both slots before constructing Ota
// Each OTA select entry is 32 bytes: [seq:4][label:20][state:4][crc:4]
@@ -600,56 +601,40 @@ fn ota_state(
OtaImageState::try_from(raw_state).unwrap_or(OtaImageState::Undefined)
}
fn get_current_slot_and_fix_ota_data(
ota: &mut Ota<MutexFlashStorage>,
state0: OtaImageState,
state1: OtaImageState,
fn get_current_slot(
pt: &PartitionTable,
ota: &mut Ota<RmwNorFlashStorage<&mut MutexFlashStorage>>,
) -> Result<AppPartitionSubType, FatError> {
let state = ota.current_ota_state().unwrap_or_default();
let swap = match state {
OtaImageState::Invalid => true,
OtaImageState::Aborted => true,
OtaImageState::Undefined => {
info!("Undefined image in current slot, bootloader wrong?");
false
let booted = pt.booted_partition()?.ok_or(FatError::OTAError)?;
let booted_type = booted.partition_type();
let booted_ota_type = match booted_type {
PartitionType::App(subtype) => subtype,
_ => {
bail!("Booted partition is not an app partition");
}
_ => false,
};
let current = ota.current_app_partition()?;
if swap {
let other = match current {
AppPartitionSubType::Ota0 => state1,
AppPartitionSubType::Ota1 => state0,
_ => OtaImageState::Invalid,
};
match other {
OtaImageState::Invalid => {
bail!(
"cannot recover slot, as both slots in invalid state {:?} {:?} {:?}",
current,
state0,
state1
);
let expected_partition = ota.current_app_partition()?;
if expected_partition == booted_ota_type {
info!("Booted partition matches expected partition");
} else {
info!("Booted partition does not match expected partition, fixing ota entry");
ota.set_current_app_partition(booted_ota_type)?;
}
OtaImageState::Aborted => {
bail!(
"cannot recover slot, as both slots in invalid state {:?} {:?} {:?}",
current,
state0,
state1
);
}
_ => {}
}
info!("Current slot has state {state:?} other state has {other:?} swapping");
let next = next_partition(current)?;
ota.set_current_app_partition(next)?;
//we actually booted other slot, than partition table assumes
return Ok(ota.current_app_partition()?);
};
Ok(current)
let fixed = ota.current_app_partition()?;
let state = ota.current_ota_state();
info!("Expected partition: {expected_partition:?}, current partition: {booted_ota_type:?}, state: {state:?}");
if fixed != booted_ota_type {
bail!(
"Could not fix ota entry, booted partition is still not correct: {:?} != {:?}",
booted_ota_type,
fixed
);
}
Ok(booted_ota_type)
}
pub fn next_partition(current: AppPartitionSubType) -> FatResult<AppPartitionSubType> {
@@ -699,4 +684,3 @@ pub struct DetectionSensorResult {
sensor_a: bool,
sensor_b: bool,
}

2
Software/MainBoard/rust/src/hal/shared_flash.rs
View File

@@ -5,6 +5,7 @@ use embassy_sync::blocking_mutex::CriticalSectionMutex;
use embedded_storage::nor_flash::{ErrorType, NorFlash, ReadNorFlash};
use embedded_storage::ReadStorage;
use esp_storage::{FlashStorage, FlashStorageError};
use log::info;
#[derive(Clone)]
pub struct MutexFlashStorage {
@@ -52,6 +53,7 @@ impl NorFlash for MutexFlashStorage {
const ERASE_SIZE: usize = 4096;
fn erase(&mut self, from: u32, to: u32) -> Result<(), Self::Error> {
info!("Erasing flash from 0x{:x} to 0x{:x}", from, to);
self.inner
.lock(|f| NorFlash::erase(f.borrow_mut().deref_mut(), from, to))
}

144
Software/MainBoard/rust/src/hal/v4_hal.rs
View File

@@ -11,7 +11,7 @@ use crate::hal::{
};
use crate::log::{LogMessage, LOG_ACCESS};
use alloc::boxed::Box;
use alloc::string::{ToString};
use alloc::string::ToString;
use async_trait::async_trait;
use canapi::id::{classify, plant_id, MessageKind, IDENTIFY_CMD_OFFSET};
use canapi::SensorSlot;
@@ -23,7 +23,6 @@ use esp_hal::gpio::{Flex, Input, InputConfig, Level, Output, OutputConfig, Pull}
use esp_hal::i2c::master::I2c;
use esp_hal::twai::{EspTwaiError, EspTwaiFrame, StandardId, Twai, TwaiConfiguration, TwaiMode};
use esp_hal::{twai, Async, Blocking};
use esp_println::println;
use ina219::address::{Address, Pin};
use ina219::calibration::UnCalibrated;
use ina219::configuration::{Configuration, OperatingMode, Resolution};
@@ -133,10 +132,9 @@ pub struct V4<'a> {
extra1: Output<'a>,
extra2: Output<'a>,
twai_config: Option<TwaiConfiguration<'static, Blocking>>
twai_config: Option<TwaiConfiguration<'static, Blocking>>,
}
pub(crate) async fn create_v4(
peripherals: FreePeripherals<'static>,
esp: Esp<'static>,
@@ -263,12 +261,11 @@ pub(crate) async fn create_v4(
extra1,
extra2,
can_power,
twai_config
twai_config,
};
Ok(Box::new(v))
}
#[async_trait(?Send)]
impl<'a> BoardInteraction<'a> for V4<'a> {
fn get_tank_sensor(&mut self) -> Result<&mut TankSensor<'a>, FatError> {
@@ -377,69 +374,6 @@ impl<'a> BoardInteraction<'a> for V4<'a> {
Ok(moistures)
}
async fn detect_sensors(&mut self, request: Detection) -> FatResult<Detection> {
self.can_power.set_high();
let config = self.twai_config.take().expect("twai config not set");
let mut twai = config.into_async().start();
Timer::after_millis(1000).await;
info!("Sending info messages now");
// Send a few test messages per potential sensor node
for plant in 0..PLANT_COUNT {
for sensor in [Sensor::A, Sensor::B] {
let detect = if sensor == Sensor::A {
request.plant[plant].sensor_a
} else {
request.plant[plant].sensor_b
};
if !detect {
continue;
}
let target =
StandardId::new(plant_id(IDENTIFY_CMD_OFFSET, sensor.into(), (plant +1) as u16))
.context(">> Could not create address for sensor! (plant: {}) <<")?;
let can_buffer = [0_u8; 0];
info!("Sending test message to plant {} sensor {sensor:?} with id {}", plant +1, target.as_raw());
if let Some(frame) = EspTwaiFrame::new(target, &can_buffer) {
// Try a few times; we intentionally ignore rx here and rely on stub logic
let resu = twai
.transmit_async(&frame)
.with_timeout(Duration::from_millis(3000))
.await;
match resu {
Ok(_) => {
}
Err(err) => {
info!(
"Error sending test message to plant {} sensor {sensor:?}: {err:?}", plant +1
);
}
}
} else {
info!("Error building CAN frame");
}
}
}
let mut moistures = Moistures::default();
let _ = wait_for_can_measurements(&mut twai, &mut moistures)
.with_timeout(Duration::from_millis(3000))
.await;
let config = twai.stop().into_blocking();
self.twai_config.replace(config);
self.can_power.set_low();
let result = moistures.into();
info!("Autodetection result: {result:?}");
Ok(result)
}
async fn general_fault(&mut self, enable: bool) {
hold_disable(23);
self.general_fault.set_level(enable.into());
@@ -509,8 +443,74 @@ impl<'a> BoardInteraction<'a> for V4<'a> {
}
Ok(())
}
async fn detect_sensors(&mut self, request: Detection) -> FatResult<Detection> {
self.can_power.set_high();
let config = self.twai_config.take().expect("twai config not set");
let mut twai = config.into_async().start();
Timer::after_millis(1000).await;
info!("Sending info messages now");
// Send a few test messages per potential sensor node
for plant in 0..PLANT_COUNT {
for sensor in [Sensor::A, Sensor::B] {
let detect = if sensor == Sensor::A {
request.plant[plant].sensor_a
} else {
request.plant[plant].sensor_b
};
if !detect {
continue;
}
let target = StandardId::new(plant_id(
IDENTIFY_CMD_OFFSET,
sensor.into(),
(plant + 1) as u16,
))
.context(">> Could not create address for sensor! (plant: {}) <<")?;
let can_buffer = [0_u8; 0];
info!(
"Sending test message to plant {} sensor {sensor:?} with id {}",
plant + 1,
target.as_raw()
);
if let Some(frame) = EspTwaiFrame::new(target, &can_buffer) {
// Try a few times; we intentionally ignore rx here and rely on stub logic
let resu = twai
.transmit_async(&frame)
.with_timeout(Duration::from_millis(3000))
.await;
match resu {
Ok(_) => {}
Err(err) => {
info!(
"Error sending test message to plant {} sensor {sensor:?}: {err:?}",
plant + 1
);
}
}
} else {
info!("Error building CAN frame");
}
}
}
let mut moistures = Moistures::default();
let _ = wait_for_can_measurements(&mut twai, &mut moistures)
.with_timeout(Duration::from_millis(3000))
.await;
let config = twai.stop().into_blocking();
self.twai_config.replace(config);
self.can_power.set_low();
let result = moistures.into();
info!("Autodetection result: {result:?}");
Ok(result)
}
}
async fn wait_for_can_measurements(
as_async: &mut Twai<'_, Async>,
@@ -538,10 +538,12 @@ async fn wait_for_can_measurements(
let frequency = u32::from_be_bytes(bytes);
match sensor {
SensorSlot::A => {
moistures.sensor_a_hz[plant-1] = Some(frequency as f32);
moistures.sensor_a_hz[plant - 1] =
Some(frequency as f32);
}
SensorSlot::B => {
moistures.sensor_b_hz[plant-1] = Some(frequency as f32);
moistures.sensor_b_hz[plant - 1] =
Some(frequency as f32);
}
}
} else {

65
Software/MainBoard/rust/src/main.rs
View File

@@ -29,8 +29,8 @@ use ::log::{error, info, warn};
use alloc::borrow::ToOwned;
use alloc::string::{String, ToString};
use alloc::sync::Arc;
use alloc::{format, vec};
use alloc::vec::Vec;
use alloc::{format, vec};
use chrono::{DateTime, Datelike, Timelike, Utc};
use chrono_tz::Tz::{self, UTC};
use core::sync::atomic::{AtomicBool, Ordering};
@@ -501,16 +501,17 @@ async fn safe_main(spawner: Spawner) -> FatResult<()> {
info!("state of charg");
let is_day = board.board_hal.is_day();
let battery_state = board.board_hal.get_battery_monitor().get_state().await.unwrap_or(BatteryState::Unknown);
let battery_state = board
.board_hal
.get_battery_monitor()
.get_state()
.await
.unwrap_or(BatteryState::Unknown);
info!("Battery state is {battery_state:?}");
let state_of_charge = match &battery_state {
BatteryState::Unknown => {
0
}
BatteryState::Info(data) => {
data.state_of_charge
}
BatteryState::Unknown => 0,
BatteryState::Info(data) => data.state_of_charge,
};
let mut light_state = LightState {
@@ -529,22 +530,10 @@ async fn safe_main(spawner: Spawner) -> FatResult<()> {
board.board_hal.get_config().night_lamp.night_lamp_hour_end,
);
if state_of_charge
< board
.board_hal
.get_config()
.night_lamp
.low_soc_cutoff
{
if state_of_charge < board.board_hal.get_config().night_lamp.low_soc_cutoff {
board.board_hal.get_esp().set_low_voltage_in_cycle();
info!("Set low voltage in cycle");
} else if state_of_charge
> board
.board_hal
.get_config()
.night_lamp
.low_soc_restore
{
} else if state_of_charge > board.board_hal.get_config().night_lamp.low_soc_restore {
board.board_hal.get_esp().clear_low_voltage_in_cycle();
info!("Clear low voltage in cycle");
}
@@ -804,7 +793,6 @@ async fn update_charge_indicator(
Ok(())
}
async fn publish_tank_state(
board: &mut MutexGuard<'_, CriticalSectionRawMutex, HAL<'static>>,
tank_state: &TankState,
@@ -984,11 +972,7 @@ async fn publish_mppt_state(
async fn publish_battery_state(
board: &mut MutexGuard<'_, CriticalSectionRawMutex, HAL<'static>>,
) -> () {
let state = board
.board_hal
.get_battery_monitor()
.get_state()
.await;
let state = board.board_hal.get_battery_monitor().get_state().await;
let value = match state {
Ok(state) => {
let json = serde_json::to_string(&state).unwrap().to_owned();
@@ -1104,18 +1088,23 @@ async fn wait_infinity(
}
}
async fn handle_serial_config(board: &mut MutexGuard<'_, CriticalSectionRawMutex, HAL<'_>>, serial_config_receive: &AtomicBool, reboot_now: &AtomicBool) -> FatResult<()> {
async fn handle_serial_config(
board: &mut MutexGuard<'_, CriticalSectionRawMutex, HAL<'_>>,
serial_config_receive: &AtomicBool,
reboot_now: &AtomicBool,
) -> FatResult<()> {
match board.board_hal.get_esp().read_serial_line().await {
Ok(serial_line) => {
match serial_line {
None => {
Ok(())
}
Ok(serial_line) => match serial_line {
None => Ok(()),
Some(line) => {
if serial_config_receive.load(Ordering::Relaxed) {
let ll = line.as_str();
let config: PlantControllerConfig = serde_json::from_str(ll)?;
board.board_hal.get_esp().save_config(Vec::from(ll.as_bytes())).await?;
board
.board_hal
.get_esp()
.save_config(Vec::from(ll.as_bytes()))
.await?;
board.board_hal.set_config(config);
serial_config_receive.store(false, Ordering::Relaxed);
info!("Config received, rebooting");
@@ -1129,10 +1118,8 @@ async fn handle_serial_config(board: &mut MutexGuard<'_, CriticalSectionRawMutex
}
Ok(())
}
}
}
}
},
Err(_) => {
error!("Error reading serial line");
Ok(())
@@ -1158,7 +1145,7 @@ async fn main(spawner: Spawner) -> ! {
}
}
println!("Hal init done, starting logic");
panic!("test");
match safe_main(spawner).await {
// this should not get triggered, safe_main should not return but go into deep sleep or reboot
Ok(_) => {

16
Software/MainBoard/rust/src/plant_state.rs
View File

@@ -16,7 +16,6 @@ pub enum MoistureSensorError {
#[derive(Debug, PartialEq, Serialize)]
pub enum MoistureSensorState {
Disabled,
MoistureValue { raw_hz: f32, moisture_percent: f32 },
SensorError(MoistureSensorError),
}
@@ -117,12 +116,11 @@ impl PlantState {
plant_id: usize,
board: &mut HAL<'_>,
) -> Self {
let sensor_a = { //if board.board_hal.get_config().plants[plant_id].sensor_a {
let sensor_a = {
//if board.board_hal.get_config().plants[plant_id].sensor_a {
let raw = moistures.sensor_a_hz[plant_id];
match raw {
None => {
MoistureSensorState::SensorError(MoistureSensorError::NoMessage)
}
None => MoistureSensorState::SensorError(MoistureSensorError::NoMessage),
Some(raw) => {
match map_range_moisture(
raw,
@@ -141,17 +139,15 @@ impl PlantState {
}
}
}
}; // else {
// MoistureSensorState::Disabled
//};
let sensor_b = { //if board.board_hal.get_config().plants[plant_id].sensor_b {
let sensor_b = {
//if board.board_hal.get_config().plants[plant_id].sensor_b {
let raw = moistures.sensor_b_hz[plant_id];
match raw {
None => {
MoistureSensorState::SensorError(MoistureSensorError::NoMessage)
}
None => MoistureSensorState::SensorError(MoistureSensorError::NoMessage),
Some(raw) => {
match map_range_moisture(
raw,

10
Software/MainBoard/rust/src/webserver/get_json.rs
View File

@@ -5,7 +5,7 @@ use crate::plant_state::{MoistureSensorState, PlantState};
use crate::tank::determine_tank_state;
use crate::{get_version, BOARD_ACCESS};
use alloc::format;
use alloc::string::{String, ToString};
use alloc::string::String;
use alloc::vec::Vec;
use chrono_tz::Tz;
use core::str::FromStr;
@@ -43,7 +43,6 @@ where
plant_state.push(PlantState::read_hardware_state(moistures, i, &mut board).await);
}
let a = Vec::from_iter(plant_state.iter().map(|s| match &s.sensor_a {
MoistureSensorState::Disabled => "disabled".to_string(),
MoistureSensorState::MoistureValue {
raw_hz,
moisture_percent,
@@ -53,7 +52,6 @@ where
MoistureSensorState::SensorError(err) => format!("{err:?}"),
}));
let b = Vec::from_iter(plant_state.iter().map(|s| match &s.sensor_b {
MoistureSensorState::Disabled => "disabled".to_string(),
MoistureSensorState::MoistureValue {
raw_hz,
moisture_percent,
@@ -128,11 +126,7 @@ pub(crate) async fn get_battery_state<T, const N: usize>(
_request: &mut Connection<'_, T, N>,
) -> FatResult<Option<String>> {
let mut board = BOARD_ACCESS.get().await.lock().await;
let battery_state = board
.board_hal
.get_battery_monitor()
.get_state()
.await?;
let battery_state = board.board_hal.get_battery_monitor().get_state().await?;
Ok(Some(serde_json::to_string(&battery_state)?))
}

1
Software/MainBoard/rust/src/webserver/ota.rs
View File

@@ -41,7 +41,6 @@ where
let mut board = BOARD_ACCESS.get().await.lock().await;
board.board_hal.progress(chunk as u32).await;
// Erase next block if we are at a 4K boundary (including the first block at offset 0)
info!("erasing and writing block 0x{offset:x}");
board
.board_hal
.get_esp()

7
Software/MainBoard/rust/src/webserver/post_json.rs
View File

@@ -1,6 +1,6 @@
use crate::config::PlantControllerConfig;
use crate::fat_error::FatResult;
use crate::hal::{esp_set_time, Detection, DetectionRequest};
use crate::hal::{esp_set_time, Detection};
use crate::webserver::read_up_to_bytes_from_request;
use crate::{do_secure_pump, BOARD_ACCESS};
use alloc::string::{String, ToString};
@@ -142,9 +142,6 @@ where
board.board_hal.can_power(can_power_request.state).await?;
let enable = can_power_request.state;
info!(
"set can power to {enable}"
);
info!("set can power to {enable}");
Ok(None)
}