Don't crash on every error

Cargo.lock

@@ -742,13 +742,13 @@ dependencies = [
 
 [[package]]
 name = "embedded-sdmmc"
-version = "0.7.0"
+version = "0.8.0"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "da528dbf3f1c1f0b321552bc334d04799bb17c1936de55bccfb643a4f39300d8"
+checksum = "150f320125310e179b9e73b081173b349e63c5c7d4ca44db4e5b9121b10387ec"
 dependencies = [
  "byteorder",
  "embedded-hal 1.0.0",
- "heapless 0.7.17",
+ "heapless 0.8.0",
  "log",
 ]
 

Cargo.toml

@@ -49,7 +49,7 @@ log = "0.4"
 pio-proc = "0.2"
 pio = "0.2.1"
 rand = { version = "0.8.5", default-features = false }
-embedded-sdmmc = "0.7.0"
+embedded-sdmmc = "0.8.0"
 
 # Dependencies of embedded-sdmmc that I need to use directly
 byteorder = {version = "1", default-features = false}

src/main.rs

@@ -8,6 +8,8 @@
 
 mod co2;
 
+use core::fmt::Debug;
+
 use byteorder::ByteOrder;
 use core2::io::{Cursor, Write};
 use defmt::*;
@@ -20,8 +22,8 @@ use embassy_rp::{gpio, spi};
 use embassy_sync::blocking_mutex::raw::ThreadModeRawMutex;
 use embassy_sync::channel::Channel;
 use embedded_hal_bus::spi::ExclusiveDevice;
-use embedded_sdmmc::sdcard::{DummyCsPin, SdCard};
-use embedded_sdmmc::{Block, BlockDevice, BlockIdx, VolumeIdx};
+use embedded_sdmmc::sdcard::SdCard;
+use embedded_sdmmc::{Block, BlockDevice, BlockIdx, File, VolumeIdx};
 use gpio::{Level, Output};
 use {defmt_rtt as _, panic_probe as _};
 
@@ -70,43 +72,77 @@ async fn main(spawner: Spawner) {
     // Wait for sensor to boot
     Timer::after(Duration::from_secs(1)).await;
 
-    let status = co2::get_status(&mut i2c).await.unwrap();
+    loop {
+        let init_sensor = async {
+            let status = co2::get_status(&mut i2c).await?;
 
-    info!("CO2 sesor reported status on boot: {}", status);
+            info!("CO2 sesor reported status on boot: {}", status);
+            // Byte 7 is FW_MODE which indicates if the app is already running.
+            if status & 128u8 == 0 {
+                info!("App is not running yet. Booting sensor...");
+                // App is not running
+                co2::start_app(&mut i2c).await.unwrap();
+                // After APP_START, we have to wait at least 1 ms (according to datasheet)
+                Timer::after(Duration::from_millis(2)).await;
 
-    // Byte 7 is FW_MODE which indicates if the app is already running.
-    if status & 128u8 == 0 {
-        info!("App is not running yet. Booting sensor...");
-        // App is not running
-        co2::start_app(&mut i2c).await.unwrap();
-        // After APP_START, we have to wait at least 1 ms (according to datasheet)
-        Timer::after(Duration::from_millis(2)).await;
+                if co2::get_status(&mut i2c).await.unwrap() & 128u8 == 0 {
+                    error!("App still not running after boot! Aborting initialization...");
+                    // FIXME: Can't be bothered to come up with a different error type
+                    return Err(embassy_rp::i2c::Error::Abort(i2c::AbortReason::Other(1337)));
+                }
+            } else {
+                info!("App is already running. Skipping boot...");
+            }
+            // 16 is measurement mode 1 => do 1 measurement per second
+            co2::set_measurement_mode(&mut i2c, 16).await?;
+            co2::set_environment_values(&mut i2c, 25000, 660).await
+        };
 
-        if co2::get_status(&mut i2c).await.unwrap() & 128u8 == 0 {
-            error!("App still not running after boot! Terminating...");
-            return;
+        if let Err(e) = init_sensor.await {
+            error!(
+                "Failed to init CO2 sensor: {:?}. Retrying...",
+                defmt::Debug2Format(&e)
+            );
+            continue;
+        } else {
+            break;
         }
-    } else {
-        info!("App is already running. Skipping boot...");
     }
 
-    // 16 is measurement mode 1 => 1 measurement per second
-    co2::set_measurement_mode(&mut i2c, 16).await.unwrap();
-    co2::set_environment_values(&mut i2c, 25000, 660)
-        .await
-        .unwrap();
-
     loop {
-        let status = co2::get_status(&mut i2c).await.unwrap();
-        let measured_value = co2::get_measurement(&mut i2c).await.unwrap();
-        info!(
-            "Reported status: {}\tMeasured value: {}",
-            status, measured_value
-        );
+        let read_value_if_available = async {
+            let status = co2::get_status(&mut i2c).await?;
+            // Bit 3 is `DATA_READY`
+            if status & 0b00001000u8 != 0 {
+                let measured_value = co2::get_measurement(&mut i2c).await?;
+                return Ok::<Option<(u8, u16)>, embassy_rp::i2c::Error>(Some((
+                    status,
+                    measured_value,
+                )));
+            }
+            Ok(None)
+        };
 
-        MEASUREMENT_VALUES.send(measured_value).await;
-
-        Timer::after(Duration::from_secs(2)).await;
+        match read_value_if_available.await {
+            Ok(Some((status, measured_value))) => {
+                info!(
+                    "Reported status: {}\tMeasured value: {}",
+                    status, measured_value
+                );
+                MEASUREMENT_VALUES.send(measured_value).await;
+            }
+            Ok(None) => {
+                info!("No value available. Waiting for new value...")
+            }
+            Err(e) => {
+                error!(
+                    "Failed to read value from CO2 sensor: {:?}. Retrying...",
+                    defmt::Debug2Format(&e)
+                );
+            }
+        }
+        // Wait a little shorter than the measurement interval to catch all values
+        Timer::after(Duration::from_millis(900)).await;
     }
 }
 
@@ -116,12 +152,10 @@ async fn write_to_sd(spi1: SPI1, pin10: PIN_10, pin11: PIN_11, pin12: PIN_12, pi
     let mut config = spi::Config::default();
     config.frequency = 400_000;
     let spi = Spi::new_blocking(spi1, pin10, pin11, pin12, config);
-    // Use a dummy cs pin here, for embedded-hal SpiDevice compatibility reasons
-    let spi_dev = ExclusiveDevice::new_no_delay(spi, DummyCsPin);
-    // Real cs pin
     let cs = Output::new(pin16, Level::High);
+    let spi_dev = ExclusiveDevice::new_no_delay(spi, cs);
 
-    let sdcard = SdCard::new(spi_dev, cs, embassy_time::Delay);
+    let sdcard = SdCard::new(spi_dev, embassy_time::Delay);
 
     info!("Card size is {} bytes", sdcard.num_bytes().unwrap());
 
@@ -171,14 +205,17 @@ async fn write_to_sd(spi1: SPI1, pin10: PIN_10, pin11: PIN_11, pin12: PIN_12, pi
 
     info!("Creating new text file: {}", file_name);
 
+    let mut file = root_dir
+        .open_file_in_dir(file_name, embedded_sdmmc::Mode::ReadWriteCreateOrAppend)
+        .unwrap();
     loop {
         let new_value = MEASUREMENT_VALUES.receive().await;
 
-        let mut file = root_dir
-            .open_file_in_dir(file_name, embedded_sdmmc::Mode::ReadWriteCreateOrAppend)
-            .unwrap();
-
-        info!("Writing measurement value {} to file", new_value);
+        info!(
+            "Writing measurement value {} to file {}.TXT",
+            new_value,
+            file_count + 1
+        );
 
         // Space for five characters to fit numbers up to 65535 + '\n'
         let mut to_write = [b' '; 6];
@@ -186,8 +223,17 @@ async fn write_to_sd(spi1: SPI1, pin10: PIN_10, pin11: PIN_11, pin12: PIN_12, pi
         core::write!(&mut cursor, "{}", new_value)
             .expect("We have more than enough bytes to fit an u16");
         to_write[5] = b'\n';
-        file.write(&to_write).unwrap();
-        drop(file);
+
+        let mut write_flush = || {
+            file.write(&to_write)?;
+            file.flush()
+        };
+        if let Err(e) = write_flush() {
+            error!(
+                "Failed to write measuement: {:?}.\nIgnoring missing value...",
+                defmt::Debug2Format(&e)
+            );
+        }
     }
 }