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start splitting board hal enum into structs

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This commit is contained in:
ju6ge 2025-06-19 13:57:36 +02:00
parent e2cce88390
commit c429c829b4
Signed by: judge
GPG Key ID: 6512C30DD8E017B5
1 changed files with 538 additions and 174 deletions
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630
rust/src/hal/mod.rs
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@ -1,7 +1,7 @@
mod esp;
pub(crate) mod battery;
mod esp;
use bq34z100::{Bq34z100g1Driver};
use bq34z100::Bq34z100g1Driver;
use crate::log::LogMessage;
use ds323x::{DateTimeAccess, Ds323x};
@ -28,7 +28,7 @@ use esp_idf_sys::{
use once_cell::sync::Lazy;
use plant_ctrl2::sipo::ShiftRegister40;
use anyhow::{anyhow};
use anyhow::anyhow;
use anyhow::{bail, Ok, Result};
use serde::{Deserialize, Serialize};
@ -45,8 +45,15 @@ use crate::hal::BoardHal::{Initial, V3, V4};
use crate::log::log;
use embedded_hal::digital::OutputPin;
use esp_idf_hal::delay::Delay;
use esp_idf_hal::gpio::{AnyInputPin, Gpio0, Gpio1, Gpio10, Gpio11, Gpio12, Gpio13, Gpio14, Gpio15, Gpio16, Gpio17, Gpio18, Gpio19, Gpio2, Gpio20, Gpio21, Gpio22, Gpio23, Gpio24, Gpio25, Gpio26, Gpio27, Gpio28, Gpio29, Gpio3, Gpio30, Gpio4, Gpio5, Gpio6, Gpio7, Gpio8, IOPin, InputOutput, Level, Output, PinDriver, Pull};
use esp_idf_hal::pcnt::{PcntChannel, PcntChannelConfig, PcntControlMode, PcntCountMode, PcntDriver, PinIndex, PCNT0};
use esp_idf_hal::gpio::{
AnyInputPin, Gpio0, Gpio1, Gpio10, Gpio11, Gpio12, Gpio13, Gpio14, Gpio15, Gpio16, Gpio17,
Gpio18, Gpio19, Gpio2, Gpio20, Gpio21, Gpio22, Gpio23, Gpio24, Gpio25, Gpio26, Gpio27, Gpio28,
Gpio29, Gpio3, Gpio30, Gpio4, Gpio5, Gpio6, Gpio7, Gpio8, IOPin, InputOutput, Level, Output,
PinDriver, Pull,
};
use esp_idf_hal::pcnt::{
PcntChannel, PcntChannelConfig, PcntControlMode, PcntCountMode, PcntDriver, PinIndex, PCNT0,
};
use esp_idf_hal::prelude::Peripherals;
use esp_idf_hal::reset::ResetReason;
use esp_idf_svc::sntp::{self, SyncStatus};
@ -67,7 +74,6 @@ pub static I2C_DRIVER: Lazy<Mutex<I2cDriver<'static>>> = Lazy::new(PlantHal::cre
struct V3Constants;
impl V3Constants {
const PUMP8_BIT: usize = 0;
const PUMP1_BIT: usize = 1;
const PUMP2_BIT: usize = 2;
@ -102,9 +108,6 @@ impl V3Constants {
const SENSOR_B_8: u8 = 15;
}
const CHARGING: usize = 14;
const AWAKE: usize = 15;
@ -117,10 +120,35 @@ const FAULT_4: usize = 21;
const FAULT_1: usize = 22;
const FAULT_2: usize = 23;
const X25: crc::Crc<u16> = crc::Crc::<u16>::new(&crc::CRC_16_IBM_SDLC);
fn deep_sleep(duration_in_ms: u64) -> ! {
unsafe {
//if we don't do this here, we might just revert newly flashed firmware
mark_app_valid();
//allow early wakeup by pressing the boot button
if duration_in_ms == 0 {
esp_restart();
} else {
//configure gpio 1 to wakeup on low, reused boot button for this
esp_sleep_enable_ext1_wakeup(
0b10u64,
esp_sleep_ext1_wakeup_mode_t_ESP_EXT1_WAKEUP_ANY_LOW,
);
esp_deep_sleep(duration_in_ms);
}
};
}
fn get_restart_to_conf() -> bool {
unsafe { RESTART_TO_CONF }
}
fn set_restart_to_conf(to_conf: bool) {
unsafe {
RESTART_TO_CONF = to_conf;
}
}
#[link_section = ".rtc.data"]
static mut LAST_WATERING_TIMESTAMP: [i64; PLANT_COUNT] = [0; PLANT_COUNT];
#[link_section = ".rtc.data"]
@ -139,22 +167,148 @@ pub enum Sensor {
pub struct PlantHal {}
pub struct HAL<'a>{
pub struct HAL<'a> {
pub config: PlantControllerConfig,
pub board_hal: BoardHal<'a>,
pub board_hal: Box<dyn BoardInteraction>,
pub esp: ESP<'a>,
pub battery_monitor: BatteryMonitor<'a>
pub battery_monitor: BatteryMonitor<'a>,
}
pub struct Initial {
general_fault: PinDriver<'a, esp_idf_hal::gpio::AnyIOPin, InputOutput>,
}
impl BoardInteraction for Initial {
fn set_charge_indicator(&mut self, charging: bool) -> Result<()> {
bail!("Please configure board revision")
}
pub enum BoardHal<'a>{
Initial {
general_fault: PinDriver<'a, esp_idf_hal::gpio::AnyIOPin, InputOutput>
},
V3 {
fn deep_sleep(&mut self, duration_in_ms: u64) -> ! {
deep_sleep(duration_in_ms)
}
fn get_backup_info(&mut self) -> Result<BackupHeader> {
bail!("Please configure board revision")
}
fn get_backup_config(&mut self) -> Result<Vec<u8>> {
bail!("Please configure board revision")
}
fn backup_config(&mut self, bytes: &[u8]) -> Result<()> {
bail!("Please configure board revision")
}
fn is_day(&self) -> bool {
bail!("Please configure board revision")
}
fn water_temperature_c(&mut self) -> Result<f32> {
bail!("Please configure board revision")
}
fn tank_sensor_voltage(&mut self) -> Result<f32> {
bail!("Please configure board revision")
}
fn set_low_voltage_in_cycle(&mut self) {
bail!("Please configure board revision")
}
fn clear_low_voltage_in_cycle(&mut self) {
bail!("Please configure board revision")
}
fn light(&mut self, enable: bool) -> Result<()> {
bail!("Please configure board revision")
}
fn pump(&mut self, plant: usize, enable: bool) -> Result<()> {
bail!("Please configure board revision")
}
fn last_pump_time(&self, plant: usize) -> Option<DateTime<Utc>> {
bail!("Please configure board revision")
}
fn store_last_pump_time(&mut self, plant: usize, time: DateTime<Utc>) {
bail!("Please configure board revision")
}
fn store_consecutive_pump_count(&mut self, plant: usize, count: u32) {
bail!("Please configure board revision")
}
fn consecutive_pump_count(&mut self, plant: usize) -> u32 {
bail!("Please configure board revision")
}
fn fault(&mut self, plant: usize, enable: bool) -> Result<()> {
bail!("Please configure board revision")
}
fn low_voltage_in_cycle(&mut self) -> bool {
bail!("Please configure board revision")
}
fn any_pump(&mut self, enable: bool) -> Result<()> {
bail!("Please configure board revision")
}
fn time(&mut self) -> Result<DateTime<Utc>> {
bail!("Please configure board revision")
}
fn sntp(&mut self, max_wait_ms: u32) -> Result<DateTime<Utc>> {
bail!("Please configure board revision")
}
fn measure_moisture_hz(&mut self, plant: usize, sensor: Sensor) -> Result<f32> {
bail!("Please configure board revision")
}
fn general_fault(&mut self, enable: bool) {
let _ = self.general_fault.set_state(enable.into());
}
fn mode_override_pressed(&mut self) -> bool {
bail!("Please configure board revision")
}
fn factory_reset(&mut self) -> Result<()> {
bail!("Please configure board revision")
}
fn get_rtc_time(&mut self) -> Result<DateTime<Utc>> {
bail!("Please configure board revision")
}
fn set_rtc_time(&mut self, time: &DateTime<Utc>) -> Result<()> {
bail!("Please configure board revision")
}
fn wifi_scan(&mut self) -> Result<Vec<AccessPointInfo>> {
bail!("Please configure board revision")
}
fn test_pump(&mut self, plant: usize) -> Result<()> {
bail!("Please configure board revision")
}
fn test(&mut self) -> Result<()> {
bail!("Please configure board revision")
}
fn get_restart_to_conf(&mut self) -> bool {
get_restart_to_conf()
}
fn set_restart_to_conf(&mut self, to_conf: bool) {
set_restart_to_conf(to_conf);
}
}
pub struct V3 {
shift_register: ShiftRegister40<
PinDriver<'a, esp_idf_hal::gpio::AnyIOPin, InputOutput>,
PinDriver<'a, esp_idf_hal::gpio::AnyIOPin, InputOutput>,
@ -178,8 +332,248 @@ pub enum BoardHal<'a>{
eeprom24x::addr_size::TwoBytes,
eeprom24x::unique_serial::No,
>,
},
V4 {
}
impl BoardInteraction for V3 {
fn set_charge_indicator(&mut self, charging: bool) -> Result<()> {
Ok(self.shift_register.decompose()[CHARGING].set_state(charging.into())?)
}
fn deep_sleep(&mut self, duration_in_ms: u64) -> ! {
let _ = self.shift_register.decompose()[AWAKE].set_low();
deep_sleep(duration_in_ms)
}
fn get_backup_info(&mut self) -> Result<BackupHeader> {
let store = bincode::serialize(&BackupHeader::default())?.len();
let mut header_page_buffer = vec![0_u8; store];
self.eeprom
.read_data(0, &mut header_page_buffer)
.map_err(|err| bail!("Error reading eeprom header {:?}", err))?;
println!("Raw header is {:?} with size {}", header_page_buffer, store);
let header: BackupHeader = bincode::deserialize(&header_page_buffer)?;
Ok(header)
}
fn get_backup_config(&mut self) -> Result<Vec<u8>> {
let store = bincode::serialize(&BackupHeader::default())?.len();
let mut header_page_buffer = vec![0_u8; store];
self.eeprom
.read_data(0, &mut header_page_buffer)
.map_err(|err| bail!("Error reading eeprom header {:?}", err))?;
let header: BackupHeader = bincode::deserialize(&header_page_buffer)?;
//skip page 0, used by the header
let data_start_address = eeprom.page_size() as u32;
let mut data_buffer = vec![0_u8; header.size];
self.eeprom
.read_data(data_start_address, &mut data_buffer)
.map_err(|err| bail!("Error reading eeprom data {:?}", err))?;
let checksum = X25.checksum(&data_buffer);
if checksum != header.crc16 {
bail!(
"Invalid checksum, got {} but expected {}",
checksum,
header.crc16
);
}
Ok(data_buffer)
}
fn backup_config(&mut self, bytes: &[u8]) -> Result<()> {
let time = self.get_rtc_time()?.timestamp_millis();
let delay = Delay::new_default();
let checksum = X25.checksum(bytes);
let page_size = eeprom.page_size();
let header = BackupHeader {
crc16: checksum,
timestamp: time,
size: bytes.len(),
};
let encoded = bincode::serialize(&header)?;
if encoded.len() > page_size {
bail!(
"Size limit reached header is {}, but firest page is only {}",
encoded.len(),
page_size
)
}
let as_u8: &[u8] = &encoded;
match self.eeprom.write_page(0, as_u8) {
OkStd(_) => {}
Err(err) => bail!("Error writing eeprom {:?}", err),
};
delay.delay_ms(5);
let to_write = bytes.chunks(page_size);
let mut lastiter = 0;
let mut current_page = 1;
for chunk in to_write {
let address = current_page * page_size as u32;
self.eeprom
.write_page(address, chunk)
.map_err(|err| bail!("Error writing eeprom {:?}", err))?;
current_page += 1;
let iter = (current_page % 8) as usize;
if iter != lastiter {
for i in 0..PLANT_COUNT {
let _ = self.fault(i, iter == i);
}
lastiter = iter;
}
delay.delay_ms(5);
}
Ok(())
}
fn is_day(&self) -> bool {
self.solar_is_day.get_level().into()
}
fn water_temperature_c(&mut self) -> Result<f32> {
self.one_wire_bus
.reset(&mut self.esp.delay)
.map_err(|err| -> anyhow::Error { anyhow!("Missing attribute: {:?}", err) })?;
let first = one_wire_bus.devices(false, &mut self.esp.delay).next();
if first.is_none() {
bail!("Not found any one wire Ds18b20");
}
let device_address = first
.unwrap()
.map_err(|err| -> anyhow::Error { anyhow!("Missing attribute: {:?}", err) })?;
let water_temp_sensor = Ds18b20::new::<EspError>(device_address)
.map_err(|err| -> anyhow::Error { anyhow!("Missing attribute: {:?}", err) })?;
water_temp_sensor
.start_temp_measurement(one_wire_bus, &mut self.esp.delay)
.map_err(|err| -> anyhow::Error { anyhow!("Missing attribute: {:?}", err) })?;
ds18b20::Resolution::Bits12.delay_for_measurement_time(&mut self.esp.delay);
let sensor_data = water_temp_sensor
.read_data(one_wire_bus, &mut self.esp.delay)
.map_err(|err| -> anyhow::Error { anyhow!("Missing attribute: {:?}", err) })?;
if sensor_data.temperature == 85_f32 {
bail!("Ds18b20 dummy temperature returned");
}
Ok(sensor_data.temperature / 10_f32)
}
fn tank_sensor_voltage(&mut self) -> Result<f32> {
todo!()
}
fn set_low_voltage_in_cycle(&mut self) {
todo!()
}
fn clear_low_voltage_in_cycle(&mut self) {
todo!()
}
fn light(&mut self, enable: bool) -> Result<()> {
todo!()
}
fn pump(&mut self, plant: usize, enable: bool) -> Result<()> {
todo!()
}
fn last_pump_time(&self, plant: usize) -> Option<DateTime<Utc>> {
todo!()
}
fn store_last_pump_time(&mut self, plant: usize, time: DateTime<Utc>) {
todo!()
}
fn store_consecutive_pump_count(&mut self, plant: usize, count: u32) {
todo!()
}
fn consecutive_pump_count(&mut self, plant: usize) -> u32 {
todo!()
}
fn fault(&mut self, plant: usize, enable: bool) -> Result<()> {
todo!()
}
fn low_voltage_in_cycle(&mut self) -> bool {
todo!()
}
fn any_pump(&mut self, enable: bool) -> Result<()> {
todo!()
}
fn time(&mut self) -> Result<DateTime<Utc>> {
todo!()
}
fn sntp(&mut self, max_wait_ms: u32) -> Result<DateTime<Utc>> {
todo!()
}
fn measure_moisture_hz(&mut self, plant: usize, sensor: Sensor) -> Result<f32> {
todo!()
}
fn general_fault(&mut self, enable: bool) {
todo!()
}
fn mode_override_pressed(&mut self) -> bool {
todo!()
}
fn factory_reset(&mut self) -> Result<()> {
todo!()
}
fn get_rtc_time(&mut self) -> Result<DateTime<Utc>> {
todo!()
}
fn set_rtc_time(&mut self, time: &DateTime<Utc>) -> Result<()> {
todo!()
}
fn wifi_scan(&mut self) -> Result<Vec<AccessPointInfo>> {
todo!()
}
fn test_pump(&mut self, plant: usize) -> Result<()> {
todo!()
}
fn test(&mut self) -> Result<()> {
todo!()
}
fn get_restart_to_conf(&mut self) -> bool {
todo!()
}
fn set_restart_to_conf(&mut self, to_conf: bool) {
todo!()
}
}
pub struct V4 {
tank_channel: AdcChannelDriver<'a, Gpio5, AdcDriver<'a, esp_idf_hal::adc::ADC1>>,
solar_is_day: PinDriver<'a, esp_idf_hal::gpio::AnyIOPin, esp_idf_hal::gpio::Input>,
signal_counter: PcntDriver<'a>,
@ -199,12 +593,8 @@ pub enum BoardHal<'a>{
general_fault: PinDriver<'a, esp_idf_hal::gpio::AnyIOPin, InputOutput>,
pump_expander: Pca9535Immediate<MutexDevice<'a, I2cDriver<'a>>>,
sensor_expander: Pca9535Immediate<MutexDevice<'a, I2cDriver<'a>>>,
}
}
#[derive(Serialize, Deserialize, PartialEq, Debug)]
pub struct BackupHeader {
pub timestamp: i64,
@ -212,6 +602,16 @@ pub struct BackupHeader {
pub size: usize,
}
impl Default for BackupHeader {
fn default() -> Self {
Self {
timestamp: Default::default(),
crc16: Default::default(),
size: Default::default(),
}
}
}
impl BoardInteraction for HAL<'_> {
fn set_charge_indicator(&mut self, charging: bool) {
match &mut self.board_hal {
@ -220,12 +620,12 @@ impl BoardInteraction for HAL<'_> {
.set_state(charging.into())
.unwrap();
}
V4 { charge_indicator , ..} => {
V4 {
charge_indicator, ..
} => {
charge_indicator.set_state(charging.into()).unwrap();
},
Initial { .. } => {
}
Initial { .. } => {}
}
}
fn deep_sleep(&mut self, duration_in_ms: u64) -> ! {
@ -235,10 +635,8 @@ impl BoardInteraction for HAL<'_> {
}
V4 { awake, .. } => {
awake.set_low().unwrap();
},
Initial { .. } => {
}
Initial { .. } => {}
}
unsafe {
@ -259,8 +657,8 @@ impl BoardInteraction for HAL<'_> {
}
fn get_backup_info(&mut self) -> Result<BackupHeader> {
let eeprom = match &mut self.board_hal {
V3 { eeprom, .. } => {eeprom}
V4 { eeprom, .. } => {eeprom },
V3 { eeprom, .. } => eeprom,
V4 { eeprom, .. } => eeprom,
&mut Initial { .. } => {
bail!("Board not configured yet")
}
@ -283,8 +681,8 @@ impl BoardInteraction for HAL<'_> {
}
fn get_backup_config(&mut self) -> Result<Vec<u8>> {
let eeprom = match &mut self.board_hal {
V3 { eeprom, .. } => {eeprom}
V4 { eeprom, .. } => {eeprom }
V3 { eeprom, .. } => eeprom,
V4 { eeprom, .. } => eeprom,
&mut Initial { .. } => {
bail!("Board not configured yet")
}
@ -326,10 +724,8 @@ impl BoardInteraction for HAL<'_> {
fn backup_config(&mut self, bytes: &[u8]) -> Result<()> {
let time = self.get_rtc_time()?.timestamp_millis();
let eeprom = match &mut self.board_hal {
V3 { eeprom, .. } => {
eeprom
}
V4 { eeprom, .. } => { eeprom },
V3 { eeprom, .. } => eeprom,
V4 { eeprom, .. } => eeprom,
&mut Initial { .. } => {
bail!("Board not configured yet")
}
@ -369,10 +765,8 @@ impl BoardInteraction for HAL<'_> {
for chunk in to_write {
let address = current_page * page_size as u32;
let eeprom = match &mut self.board_hal {
V3 { eeprom, .. } => {
eeprom
}
V4 { eeprom, .. } => { eeprom }
V3 { eeprom, .. } => eeprom,
V4 { eeprom, .. } => eeprom,
&mut Initial { .. } => {
bail!("Board not configured yet")
}
@ -396,13 +790,11 @@ impl BoardInteraction for HAL<'_> {
}
Ok(())
}
fn is_day(& self) -> bool {
match & self.board_hal {
V3 { solar_is_day, .. } => {solar_is_day.get_level().into()}
V4 { solar_is_day, .. } => {solar_is_day.get_level().into() }
Initial { .. } => {
false
}
fn is_day(&self) -> bool {
match &self.board_hal {
V3 { solar_is_day, .. } => solar_is_day.get_level().into(),
V4 { solar_is_day, .. } => solar_is_day.get_level().into(),
Initial { .. } => false,
}
}
//should be multsampled
@ -444,14 +836,21 @@ impl BoardInteraction for HAL<'_> {
/// return median tank sensor value in milli volt
fn tank_sensor_voltage(&mut self) -> Result<f32> {
let (tank_power, tank_channel) = match &mut self.board_hal {
V3 { tank_power, tank_channel, .. } => {(tank_power,tank_channel)}
V4 { tank_power, tank_channel, .. } => {(tank_power,tank_channel) }
V3 {
tank_power,
tank_channel,
..
} => (tank_power, tank_channel),
V4 {
tank_power,
tank_channel,
..
} => (tank_power, tank_channel),
&mut Initial { .. } => {
bail!("Board not configured yet")
}
};
tank_power.set_high()?;
//let stabilize
self.esp.delay.delay_ms(100);
@ -514,7 +913,7 @@ impl BoardInteraction for HAL<'_> {
} else {
pump_expander.pin_set_low(GPIOBank::Bank0, plant.try_into()?)?;
}
},
}
&mut Initial { .. } => {
bail!("Board not configured yet")
}
@ -539,7 +938,7 @@ impl BoardInteraction for HAL<'_> {
fn consecutive_pump_count(&mut self, plant: usize) -> u32 {
unsafe { CONSECUTIVE_WATERING_PLANT[plant] }
}
fn fault(&mut self, plant: usize, enable: bool) -> Result<()>{
fn fault(&mut self, plant: usize, enable: bool) -> Result<()> {
match &mut self.board_hal {
V3 { shift_register, .. } => {
let index = match plant {
@ -553,8 +952,7 @@ impl BoardInteraction for HAL<'_> {
7 => FAULT_8,
_ => panic!("Invalid plant id {}", plant),
};
shift_register.decompose()[index]
.set_state(enable.into())?;
shift_register.decompose()[index].set_state(enable.into())?;
}
V4 { pump_expander, .. } => {
if enable {
@ -562,7 +960,6 @@ impl BoardInteraction for HAL<'_> {
} else {
pump_expander.pin_set_low(GPIOBank::Bank1, plant.try_into()?)?;
}
}
&mut Initial { .. } => {
bail!("Board not configured yet")
@ -586,7 +983,6 @@ impl BoardInteraction for HAL<'_> {
}
}
Ok(())
}
fn time(&mut self) -> Result<DateTime<Utc>> {
let time = EspSystemTime {}.now().as_millis();
@ -611,7 +1007,11 @@ impl BoardInteraction for HAL<'_> {
}
fn measure_moisture_hz(&mut self, plant: usize, sensor: Sensor) -> Result<f32> {
match &mut self.board_hal {
V3{ signal_counter, shift_register, .. } => {
V3 {
signal_counter,
shift_register,
..
} => {
let mut results = [0_f32; REPEAT_MOIST_MEASURE];
for repeat in 0..REPEAT_MOIST_MEASURE {
signal_counter.counter_pause()?;
@ -644,7 +1044,6 @@ impl BoardInteraction for HAL<'_> {
},
};
let is_bit_set = |b: u8| -> bool { sensor_channel & (1 << b) != 0 };
let pin_0 = &mut shift_register.decompose()[V3Constants::MS_0];
let pin_1 = &mut shift_register.decompose()[V3Constants::MS_1];
@ -702,14 +1101,17 @@ impl BoardInteraction for HAL<'_> {
let mid = results.len() / 2;
let median = results[mid];
Ok(median)
},
V4 {sensor_expander, signal_counter, ..} => {
}
V4 {
sensor_expander,
signal_counter,
..
} => {
let mut results = [0_f32; REPEAT_MOIST_MEASURE];
for repeat in 0..REPEAT_MOIST_MEASURE {
signal_counter.counter_pause()?;
signal_counter.counter_clear()?;
const MS0: u8 = 1_u8;
const MS1: u8 = 0_u8;
const MS2: u8 = 3_u8;
@ -720,16 +1122,10 @@ impl BoardInteraction for HAL<'_> {
sensor_expander.pin_set_high(GPIOBank::Bank0, MS4)?;
let sensor_channel = match sensor {
Sensor::A =>{
plant as u32
},
Sensor::B => {
(15 - plant) as u32
},
Sensor::A => plant as u32,
Sensor::B => (15 - plant) as u32,
};
let is_bit_set = |b: u8| -> bool { sensor_channel & (1 << b) != 0 };
if is_bit_set(0) {
sensor_expander.pin_set_high(GPIOBank::Bank0, MS0)?;
@ -792,13 +1188,12 @@ impl BoardInteraction for HAL<'_> {
bail!("Not implemented for this board")
}
}
}
fn general_fault(&mut self, enable: bool) {
let general_fault = match &mut self.board_hal {
V3 { general_fault, .. } => {general_fault}
V4 { general_fault, .. } => {general_fault},
Initial { general_fault, .. } => {general_fault}
V3 { general_fault, .. } => general_fault,
V4 { general_fault, .. } => general_fault,
Initial { general_fault, .. } => general_fault,
};
unsafe { gpio_hold_dis(general_fault.pin()) };
general_fault.set_state(enable.into()).unwrap();
@ -819,8 +1214,8 @@ impl BoardInteraction for HAL<'_> {
}
fn get_rtc_time(&mut self) -> Result<DateTime<Utc>> {
let rtc = match &mut self.board_hal {
V3 { rtc, .. } => {rtc}
V4 { rtc, .. } => {rtc},
V3 { rtc, .. } => rtc,
V4 { rtc, .. } => rtc,
Initial { .. } => {
bail!("Board not configured yet")
}
@ -834,8 +1229,8 @@ impl BoardInteraction for HAL<'_> {
}
fn set_rtc_time(&mut self, time: &DateTime<Utc>) -> Result<()> {
let rtc = match &mut self.board_hal {
V3 { rtc, .. } => {rtc}
V4 { rtc, .. } => {rtc}
V3 { rtc, .. } => rtc,
V4 { rtc, .. } => rtc,
Initial { .. } => {
bail!("Board not configured yet")
}
@ -908,21 +1303,10 @@ impl BoardInteraction for HAL<'_> {
Delay::new_default().delay_ms(10);
Ok(())
}
fn get_restart_to_conf(&mut self) -> bool {
unsafe { RESTART_TO_CONF }
}
fn set_restart_to_conf(&mut self, to_conf: bool) {
unsafe {
RESTART_TO_CONF = to_conf;
}
}
}
pub trait BoardInteraction {
fn set_charge_indicator(&mut self, charging: bool);
fn set_charge_indicator(&mut self, charging: bool) -> Result<()>;
fn deep_sleep(&mut self, duration_in_ms: u64) -> !;
fn get_backup_info(&mut self) -> Result<BackupHeader>;
fn get_backup_config(&mut self) -> Result<Vec<u8>>;
@ -956,11 +1340,8 @@ pub trait BoardInteraction {
fn test(&mut self) -> Result<()>;
fn get_restart_to_conf(&mut self) -> bool;
fn set_restart_to_conf(&mut self, to_conf: bool);
}
pub struct FreePeripherals {
pub gpio0: Gpio0,
pub gpio1: Gpio1,
@ -996,7 +1377,6 @@ pub struct FreePeripherals {
pub adc1: ADC1,
}
impl PlantHal {
fn create_i2c() -> Mutex<I2cDriver<'static>> {
let peripherals = unsafe { Peripherals::new() };
@ -1014,14 +1394,12 @@ impl PlantHal {
Mutex::new(I2cDriver::new(i2c, sda, scl, &config).unwrap())
}
pub fn create() -> Result<Mutex<HAL<'static>>> {
let peripherals = Peripherals::take()?;
let sys_loop = EspSystemEventLoop::take()?;
let nvs = EspDefaultNvsPartition::take()?;
let wifi_driver = EspWifi::new(peripherals.modem, sys_loop, Some(nvs))?;
let mut boot_button = PinDriver::input(peripherals.pins.gpio9.downgrade())?;
boot_button.set_pull(Pull::Floating)?;
@ -1062,10 +1440,9 @@ impl PlantHal {
mqtt_client: None,
wifi_driver,
boot_button,
delay: Delay::new(1000)
delay: Delay::new(1000),
};
//init,reset rtc memory depending on cause
let mut init_rtc_store: bool = false;
let mut to_config_mode: bool = false;
@ -1104,9 +1481,10 @@ impl PlantHal {
let config = esp.get_config();
let hal = match config {
Result::Ok(config) => {
let board_hal : BoardHal = match config.hardware.board {
let board_hal: BoardHal = match config.hardware.board {
BoardVersion::INITIAL => {
let mut general_fault = PinDriver::input_output(free_pins.gpio6.downgrade())?;
let mut general_fault =
PinDriver::input_output(free_pins.gpio6.downgrade())?;
general_fault.set_pull(Pull::Floating)?;
general_fault.set_low()?;
@ -1114,13 +1492,14 @@ impl PlantHal {
general_fault.set_high()?
}
Initial { general_fault}},
BoardVersion::V3 => {PlantHal::create_v3(free_pins)?},
BoardVersion::V4 => {PlantHal::create_v4(free_pins)?}
Initial { general_fault }
}
BoardVersion::V3 => PlantHal::create_v3(free_pins)?,
BoardVersion::V4 => PlantHal::create_v4(free_pins)?,
};
let battery_monitor : BatteryMonitor = match config.hardware.battery {
BatteryBoardVersion::Disabled => { BatteryMonitor::Disabled {}}
let battery_monitor: BatteryMonitor = match config.hardware.battery {
BatteryBoardVersion::Disabled => BatteryMonitor::Disabled {},
BatteryBoardVersion::BQ34Z100G1 => {
let mut battery_driver = Bq34z100g1Driver {
i2c: MutexDevice::new(&I2C_DRIVER),
@ -1142,17 +1521,14 @@ impl PlantHal {
}
BatteryMonitor::BQ34Z100G1 { battery_driver }
}
BatteryBoardVersion::WchI2cSlave => {
BatteryMonitor::WchI2cSlave {}
}
BatteryBoardVersion::WchI2cSlave => BatteryMonitor::WchI2cSlave {},
};
HAL{
HAL {
config,
board_hal,
esp,
battery_monitor
battery_monitor,
}
}
Err(err) => {
@ -1168,9 +1544,9 @@ impl PlantHal {
general_fault.set_pull(Pull::Floating)?;
general_fault.set_low()?;
HAL{
HAL {
config: Default::default(),
board_hal: Initial { general_fault},
board_hal: Initial { general_fault },
esp,
battery_monitor: BatteryMonitor::Disabled {},
}
@ -1205,7 +1581,6 @@ impl PlantHal {
let one_wire_bus = OneWire::new(one_wire_pin)
.map_err(|err| -> anyhow::Error { anyhow!("Missing attribute: {:?}", err) })?;
let rtc_time = rtc.datetime();
match rtc_time {
OkStd(tt) => {
@ -1224,7 +1599,6 @@ impl PlantHal {
}
}
let mut signal_counter = PcntDriver::new(
peripherals.pcnt0,
Some(peripherals.gpio22),
@ -1269,11 +1643,10 @@ impl PlantHal {
charge_indicator.set_pull(Pull::Floating)?;
charge_indicator.set_low()?;
let mut pump_expander = Pca9535Immediate::new(MutexDevice::new(&I2C_DRIVER), 32);
//todo error handing if init error
for pin in 0..8{
for pin in 0..8 {
let _ = pump_expander.pin_into_output(GPIOBank::Bank0, pin);
let _ = pump_expander.pin_into_output(GPIOBank::Bank1, pin);
let _ = pump_expander.pin_set_low(GPIOBank::Bank0, pin);
@ -1281,7 +1654,7 @@ impl PlantHal {
}
let mut sensor_expander = Pca9535Immediate::new(MutexDevice::new(&I2C_DRIVER), 34);
for pin in 0..8{
for pin in 0..8 {
let _ = sensor_expander.pin_into_output(GPIOBank::Bank0, pin);
let _ = sensor_expander.pin_into_output(GPIOBank::Bank1, pin);
let _ = sensor_expander.pin_set_low(GPIOBank::Bank0, pin);
@ -1301,7 +1674,7 @@ impl PlantHal {
general_fault,
pump_expander,
sensor_expander,
charge_indicator
charge_indicator,
})
}
@ -1338,7 +1711,6 @@ impl PlantHal {
println!("Init battery driver");
println!("Init rtc driver");
let mut rtc = Ds323x::new_ds3231(MutexDevice::new(&I2C_DRIVER));
@ -1371,7 +1743,6 @@ impl PlantHal {
}
}
let mut signal_counter = PcntDriver::new(
peripherals.pcnt0,
Some(peripherals.gpio22),
@ -1394,8 +1765,6 @@ impl PlantHal {
},
)?;
let adc_config = AdcChannelConfig {
attenuation: attenuation::DB_11,
resolution: Resolution::Resolution12Bit,
@ -1408,8 +1777,6 @@ impl PlantHal {
let mut solar_is_day = PinDriver::input(peripherals.gpio7.downgrade())?;
solar_is_day.set_pull(Pull::Floating)?;
let mut light = PinDriver::input_output(peripherals.gpio10.downgrade())?;
light.set_pull(Pull::Floating)?;
@ -1425,15 +1792,12 @@ impl PlantHal {
let one_wire_bus = OneWire::new(one_wire_pin)
.map_err(|err| -> anyhow::Error { anyhow!("Missing attribute: {:?}", err) })?;
let mut shift_register_enable_invert = PinDriver::output(peripherals.gpio21.downgrade())?;
unsafe { gpio_hold_dis(shift_register_enable_invert.pin()) };
shift_register_enable_invert.set_low()?;
unsafe { gpio_hold_en(shift_register_enable_invert.pin()) };
Ok(BoardHal::V3 {
shift_register,
shift_register_enable_invert,