Merge branch 'main' into dma-support

examples/simple/examples/adc.rs

@@ -36,9 +36,12 @@ fn main() -> ! {
     let mut read_buf: [ChannelValue; 8] = [ChannelValue::default(); 8];
     loop {
         let single_value = adc
-            .trigger_and_read_single_channel(va416xx_hal::adc::ChannelSelect::AnIn0)
+            .trigger_and_read_single_channel(va416xx_hal::adc::ChannelSelect::TempSensor)
             .expect("reading single channel value failed");
-        rprintln!("Read single ADC value on channel 0: {:?}", single_value);
+        rprintln!(
+            "Read single ADC value on temperature sensor channel: {:?}",
+            single_value
+        );
         let read_num = adc
             .sweep_and_read_range(0, 7, &mut read_buf)
             .expect("ADC range read failed");

examples/simple/examples/wdt.rs

@@ -10,7 +10,7 @@ use rtt_target::{rprintln, rtt_init_print};
 use simple_examples::peb1;
 use va416xx_hal::pac::{self, interrupt};
 use va416xx_hal::prelude::*;
-use va416xx_hal::wdt::WdtController;
+use va416xx_hal::wdt::Wdt;
 
 static WDT_INTRPT_COUNT: Mutex<Cell<u32>> = Mutex::new(Cell::new(0));
 
@@ -43,8 +43,7 @@ fn main() -> ! {
     let mut delay_sysclk = cortex_m::delay::Delay::new(cp.SYST, clocks.apb0().raw());
 
     let mut last_interrupt_counter = 0;
-    let mut wdt_ctrl =
+    let mut wdt_ctrl = Wdt::start(&mut dp.sysconfig, dp.watch_dog, &clocks, WDT_ROLLOVER_MS);
-        WdtController::start(&mut dp.sysconfig, dp.watch_dog, &clocks, WDT_ROLLOVER_MS);
     wdt_ctrl.enable_reset();
     loop {
         if TEST_MODE != TestMode::AllowReset {

va416xx-hal/CHANGELOG.md

@@ -0,0 +1,18 @@
+Change Log
+=======
+
+All notable changes to this project will be documented in this file.
+
+The format is based on [Keep a Changelog](http://keepachangelog.com/)
+and this project adheres to [Semantic Versioning](http://semver.org/).
+
+## [unreleased]
+
+## [v0.1.1] 2024-07-01
+
+- Documentation improvements
+- Small fixes and improvements for ADC drivers
+
+## [v0.1.0] 2024-07-01
+
+- Initial release with basic HAL drivers

va416xx-hal/src/adc.rs

@@ -1,3 +1,9 @@
+//! Analog to Digital Converter (ADC) driver.
+//!
+//! ## Examples
+//!
+//! - [ADC and DAC example](https://github.com/us-irs/va416xx-rs/blob/main/examples/simple/examples/dac-adc.rs)
+//! - [ADC](https://github.com/us-irs/va416xx-rs/blob/main/examples/simple/examples/adc.rs)
 use core::marker::PhantomData;
 
 use crate::clock::Clocks;
@@ -46,6 +52,8 @@ pub enum ChannelSelect {
 }
 
 bitflags::bitflags! {
+    /// This structure is used by the ADC multi-select API to
+    /// allow selecting multiple channels in a convenient manner.
     pub struct MultiChannelSelect: u16 {
         const AnIn0 = 1;
         const AnIn1 = 1 << 1;
@@ -129,6 +137,18 @@ impl ChannelValue {
 pub enum ChannelTagEnabled {}
 pub enum ChannelTagDisabled {}
 
+/// ADC driver structure.
+///
+/// Currently, this structure supports three primary ways to measure channel value(s):
+///
+/// * Trigger and read a single value
+/// * Trigger and read a range of ADC values using the sweep functionality
+/// * Trigger and read multiple ADC values using the sweep functionality
+///
+/// The ADC channel tag feature is enabled or disabled at compile time using the
+/// [ChannelTagEnabled] and [ChannelTagDisabled]. The [Adc::new] method returns a driver instance
+/// with the channel tag enabled, while the [Adc::new_with_channel_tag] method can be used to
+/// return an instance with the channel tag enabled.
 pub struct Adc<TagEnabled = ChannelTagDisabled> {
     adc: pac::Adc,
     phantom: PhantomData<TagEnabled>,
@@ -154,34 +174,44 @@ impl Adc<ChannelTagDisabled> {
         lower_bound_idx: u8,
         upper_bound_idx: u8,
         rx_buf: &mut [u16],
-    ) -> Result<(), AdcRangeReadError> {
+    ) -> Result<usize, AdcRangeReadError> {
         self.generic_prepare_range_sweep_and_wait_until_ready(
             lower_bound_idx,
             upper_bound_idx,
             rx_buf.len(),
         )?;
-        for i in 0..self.adc.status().read().fifo_entry_cnt().bits() {
+        let fifo_entry_count = self.adc.status().read().fifo_entry_cnt().bits();
+        for i in 0..core::cmp::min(fifo_entry_count, rx_buf.len() as u8) {
             rx_buf[i as usize] = self.adc.fifo_data().read().bits() as u16 & 0xfff;
         }
-        Ok(())
+        Ok(fifo_entry_count as usize)
     }
 
+    /// Perform a sweep for selected ADC channels.
+    ///
+    /// Returns the number of read values which were written to the passed RX buffer.
     pub fn sweep_and_read_multiselect(
         &self,
         ch_select: MultiChannelSelect,
         rx_buf: &mut [u16],
-    ) -> Result<(), BufferTooSmallError> {
+    ) -> Result<usize, BufferTooSmallError> {
         self.generic_prepare_multiselect_sweep_and_wait_until_ready(ch_select, rx_buf.len())?;
-        for i in 0..self.adc.status().read().fifo_entry_cnt().bits() {
+        let fifo_entry_count = self.adc.status().read().fifo_entry_cnt().bits();
+        for i in 0..core::cmp::min(fifo_entry_count, rx_buf.len() as u8) {
             rx_buf[i as usize] = self.adc.fifo_data().read().bits() as u16 & 0xfff;
         }
-        Ok(())
+        Ok(fifo_entry_count as usize)
     }
 
     pub fn try_read_single_value(&self) -> nb::Result<Option<u16>, ()> {
         self.generic_try_read_single_value()
             .map(|v| v.map(|v| v & 0xfff))
     }
+
+    #[inline(always)]
+    pub fn channel_tag_enabled(&self) -> bool {
+        false
+    }
 }
 
 impl Adc<ChannelTagEnabled> {
@@ -230,17 +260,21 @@ impl Adc<ChannelTagEnabled> {
         Ok(fifo_entry_count as usize)
     }
 
+    /// Perform a sweep for selected ADC channels.
+    ///
+    /// Returns the number of read values which were written to the passed RX buffer.
     pub fn sweep_and_read_multiselect(
         &self,
         ch_select: MultiChannelSelect,
         rx_buf: &mut [ChannelValue],
-    ) -> Result<(), BufferTooSmallError> {
+    ) -> Result<usize, BufferTooSmallError> {
         self.generic_prepare_multiselect_sweep_and_wait_until_ready(ch_select, rx_buf.len())?;
-        for i in 0..self.adc.status().read().fifo_entry_cnt().bits() {
+        let fifo_entry_count = self.adc.status().read().fifo_entry_cnt().bits();
+        for i in 0..core::cmp::min(fifo_entry_count, rx_buf.len() as u8) {
             rx_buf[i as usize] =
                 self.create_channel_value(self.adc.fifo_data().read().bits() as u16);
         }
-        Ok(())
+        Ok(fifo_entry_count as usize)
     }
 
     #[inline]
@@ -250,6 +284,11 @@ impl Adc<ChannelTagEnabled> {
             channel: ChannelSelect::try_from(((raw_value >> 12) & 0xf) as u8).unwrap(),
         }
     }
+
+    #[inline(always)]
+    pub fn channel_tag_enabled(&self) -> bool {
+        true
+    }
 }
 
 impl<TagEnabled> Adc<TagEnabled> {
@@ -274,11 +313,6 @@ impl<TagEnabled> Adc<TagEnabled> {
         self.adc.ctrl().modify(|_, w| w.chan_tag_en().clear_bit());
     }
 
-    #[inline(always)]
-    pub fn channel_tag_enabled(&self) -> bool {
-        self.adc.ctrl().read().chan_tag_en().bit_is_set()
-    }
-
     #[inline(always)]
     pub fn clear_fifo(&self) {
         self.adc.fifo_clr().write(|w| unsafe { w.bits(1) });
@@ -326,8 +360,6 @@ impl<TagEnabled> Adc<TagEnabled> {
             ch_select |= 1 << i;
         }
         self.generic_trigger_sweep(ch_select);
-        cortex_m::asm::nop();
-        cortex_m::asm::nop();
         while self.adc.status().read().adc_busy().bit_is_set() {
             cortex_m::asm::nop();
         }

va416xx-hal/src/dac.rs

@@ -1,3 +1,8 @@
+//! Digital to Analog Converter (DAC) driver.
+//!
+//! ## Examples
+//!
+//! - [ADC and DAC example](https://github.com/us-irs/va416xx-rs/blob/main/examples/simple/examples/dac-adc.rs)
 use core::ops::Deref;
 
 use crate::{

va416xx-hal/src/timer.rs

@@ -2,7 +2,7 @@
 //!
 //! ## Examples
 //!
-//! TODO.
+//! - [Timer MS and Second Tick Example](https://github.com/us-irs/va416xx-rs/blob/main/examples/simple/examples/timer-ticks.rs)
 use core::cell::Cell;
 
 use cortex_m::interrupt::Mutex;
@@ -459,7 +459,10 @@ unsafe impl TimRegInterface for TimDynRegister {
 // Timers
 //==================================================================================================
 
-/// Hardware timers
+/// Hardware timers.
+///
+/// These timers also implement the [embedded_hal::delay::DelayNs] trait and can be used to delay
+/// with a higher resolution compared to the Cortex-M systick delays.
 pub struct CountdownTimer<TIM: ValidTim> {
     tim: TimRegister<TIM>,
     curr_freq: Hertz,

va416xx-hal/src/wdt.rs

@@ -13,11 +13,16 @@ use crate::{disable_interrupt, enable_interrupt};
 
 pub const WDT_UNLOCK_VALUE: u32 = 0x1ACC_E551;
 
-pub struct WdtController {
+/// Watchdog peripheral driver.
+pub struct Wdt {
     clock_freq: Hertz,
     wdt: pac::WatchDog,
 }
 
+/// Type alias for backwards compatibility
+#[deprecated(since = "0.2.0", note = "Please use `Wdt` instead")]
+pub type WdtController = Wdt;
+
 /// Enable the watchdog interrupt
 ///
 /// # Safety
@@ -33,7 +38,7 @@ pub fn disable_wdt_interrupts() {
     disable_interrupt(pac::Interrupt::WATCHDOG)
 }
 
-impl WdtController {
+impl Wdt {
     pub fn new(
         &self,
         syscfg: &mut pac::Sysconfig,