stm32: Support LPTIM v1 and v2

embassy-stm32/build.rs

@@ -1017,6 +1017,7 @@ fn main() {
         (("hrtim", "CHF2"), quote!(crate::hrtim::ChannelFComplementaryPin)),
         (("lptim", "CH1"), quote!(crate::lptim::Channel1Pin)),
         (("lptim", "CH2"), quote!(crate::lptim::Channel1Pin)),
+        (("lptim", "OUT"), quote!(crate::lptim::OutputPin)),
         (("sdmmc", "CK"), quote!(crate::sdmmc::CkPin)),
         (("sdmmc", "CMD"), quote!(crate::sdmmc::CmdPin)),
         (("sdmmc", "D0"), quote!(crate::sdmmc::D0Pin)),

embassy-stm32/src/lptim/channel.rs

@@ -0,0 +1,18 @@
+/// Timer channel.
+#[derive(Clone, Copy)]
+pub enum Channel {
+    /// Channel 1.
+    Ch1,
+    /// Channel 2.
+    Ch2,
+}
+
+impl Channel {
+    /// Get the channel index (0..1)
+    pub fn index(&self) -> usize {
+        match self {
+            Channel::Ch1 => 0,
+            Channel::Ch2 => 1,
+        }
+    }
+}

embassy-stm32/src/lptim/mod.rs

@@ -6,24 +6,12 @@ pub mod timer;
 use crate::rcc::RccPeripheral;
 
 /// Timer channel.
-#[derive(Clone, Copy)]
-pub enum Channel {
-    /// Channel 1.
-    Ch1,
-    /// Channel 2.
-    Ch2,
-}
-
-impl Channel {
-    /// Get the channel index (0..1)
-    pub fn index(&self) -> usize {
-        match self {
-            Channel::Ch1 => 0,
-            Channel::Ch2 => 1,
-        }
-    }
-}
+#[cfg(any(lptim_v2a, lptim_v2b))]
+mod channel;
+#[cfg(any(lptim_v2a, lptim_v2b))]
+pub use channel::Channel;
 
+pin_trait!(OutputPin, Instance);
 pin_trait!(Channel1Pin, Instance);
 pin_trait!(Channel2Pin, Instance);
 

embassy-stm32/src/lptim/pwm.rs

@@ -4,12 +4,18 @@ use core::marker::PhantomData;
 
 use embassy_hal_internal::{into_ref, PeripheralRef};
 
-use super::timer::{ChannelDirection, Timer};
-use super::{Channel, Channel1Pin, Channel2Pin, Instance};
+use super::timer::Timer;
+use super::Instance;
+#[cfg(not(any(lptim_v2a, lptim_v2b)))]
+use super::OutputPin;
+#[cfg(any(lptim_v2a, lptim_v2b))]
+use super::{channel::Channel, timer::ChannelDirection, Channel1Pin, Channel2Pin};
 use crate::gpio::{AfType, AnyPin, OutputType, Speed};
 use crate::time::Hertz;
 use crate::Peripheral;
 
+/// Output marker type.
+pub enum Output {}
 /// Channel 1 marker type.
 pub enum Ch1 {}
 /// Channel 2 marker type.
@@ -45,14 +51,44 @@ macro_rules! channel_impl {
     };
 }
 
+#[cfg(not(any(lptim_v2a, lptim_v2b)))]
+channel_impl!(new, Output, OutputPin);
+#[cfg(any(lptim_v2a, lptim_v2b))]
 channel_impl!(new_ch1, Ch1, Channel1Pin);
+#[cfg(any(lptim_v2a, lptim_v2b))]
 channel_impl!(new_ch2, Ch2, Channel2Pin);
 
 /// PWM driver.
 pub struct Pwm<'d, T: Instance> {
-    inner: Timer<'d, T>, // _inner: PeripheralRef<'d, T>,
+    inner: Timer<'d, T>,
 }
 
+#[cfg(not(any(lptim_v2a, lptim_v2b)))]
+impl<'d, T: Instance> Pwm<'d, T> {
+    /// Create a new PWM driver.
+    pub fn new(tim: impl Peripheral<P = T> + 'd, _output_pin: PwmPin<'d, T, Output>, freq: Hertz) -> Self {
+        Self::new_inner(tim, freq)
+    }
+
+    /// Set the duty.
+    ///
+    /// The value ranges from 0 for 0% duty, to [`get_max_duty`](Self::get_max_duty) for 100% duty, both included.
+    pub fn set_duty(&mut self, duty: u16) {
+        assert!(duty <= self.get_max_duty());
+        self.inner.set_compare_value(duty)
+    }
+
+    /// Get the duty.
+    ///
+    /// The value ranges from 0 for 0% duty, to [`get_max_duty`](Self::get_max_duty) for 100% duty, both included.
+    pub fn get_duty(&self) -> u16 {
+        self.inner.get_compare_value()
+    }
+
+    fn post_init(&mut self) {}
+}
+
+#[cfg(any(lptim_v2a, lptim_v2b))]
 impl<'d, T: Instance> Pwm<'d, T> {
     /// Create a new PWM driver.
     pub fn new(
@@ -61,19 +97,7 @@ impl<'d, T: Instance> Pwm<'d, T> {
         _ch2_pin: Option<PwmPin<'d, T, Ch2>>,
         freq: Hertz,
     ) -> Self {
-        let mut this = Self { inner: Timer::new(tim) };
-
-        this.inner.enable();
-        this.set_frequency(freq);
-
-        #[cfg(any(lptim_v2a, lptim_v2b))]
-        [Channel::Ch1, Channel::Ch2].iter().for_each(|&channel| {
-            this.inner.set_channel_direction(channel, ChannelDirection::OutputPwm);
-        });
-
-        this.inner.continuous_mode_start();
-
-        this
+        Self::new_inner(tim, freq)
     }
 
     /// Enable the given channel.
@@ -91,21 +115,6 @@ impl<'d, T: Instance> Pwm<'d, T> {
         self.inner.get_channel_enable_state(channel)
     }
 
-    /// Set PWM frequency.
-    ///
-    /// Note: when you call this, the max duty value changes, so you will have to
-    /// call `set_duty` on all channels with the duty calculated based on the new max duty.
-    pub fn set_frequency(&mut self, frequency: Hertz) {
-        self.inner.set_frequency(frequency);
-    }
-
-    /// Get max duty value.
-    ///
-    /// This value depends on the configured frequency and the timer's clock rate from RCC.
-    pub fn get_max_duty(&self) -> u16 {
-        self.inner.get_max_compare_value() + 1
-    }
-
     /// Set the duty for a given channel.
     ///
     /// The value ranges from 0 for 0% duty, to [`get_max_duty`](Self::get_max_duty) for 100% duty, both included.
@@ -120,4 +129,40 @@ impl<'d, T: Instance> Pwm<'d, T> {
     pub fn get_duty(&self, channel: Channel) -> u16 {
         self.inner.get_compare_value(channel)
     }
+
+    fn post_init(&mut self) {
+        [Channel::Ch1, Channel::Ch2].iter().for_each(|&channel| {
+            self.inner.set_channel_direction(channel, ChannelDirection::OutputPwm);
+        });
+    }
+}
+
+impl<'d, T: Instance> Pwm<'d, T> {
+    fn new_inner(tim: impl Peripheral<P = T> + 'd, freq: Hertz) -> Self {
+        let mut this = Self { inner: Timer::new(tim) };
+
+        this.inner.enable();
+        this.set_frequency(freq);
+
+        this.post_init();
+
+        this.inner.continuous_mode_start();
+
+        this
+    }
+
+    /// Set PWM frequency.
+    ///
+    /// Note: when you call this, the max duty value changes, so you will have to
+    /// call `set_duty` on all channels with the duty calculated based on the new max duty.
+    pub fn set_frequency(&mut self, frequency: Hertz) {
+        self.inner.set_frequency(frequency);
+    }
+
+    /// Get max duty value.
+    ///
+    /// This value depends on the configured frequency and the timer's clock rate from RCC.
+    pub fn get_max_duty(&self) -> u16 {
+        self.inner.get_max_compare_value() + 1
+    }
 }

embassy-stm32/src/lptim/timer/channel_direction.rs

@@ -0,0 +1,18 @@
+use crate::pac::lptim::vals;
+
+/// Direction of a low-power timer channel
+pub enum ChannelDirection {
+    /// Use channel as a PWM output
+    OutputPwm,
+    /// Use channel as an input capture
+    InputCapture,
+}
+
+impl From<ChannelDirection> for vals::Ccsel {
+    fn from(direction: ChannelDirection) -> Self {
+        match direction {
+            ChannelDirection::OutputPwm => vals::Ccsel::OUTPUTCOMPARE,
+            ChannelDirection::InputCapture => vals::Ccsel::INPUTCAPTURE,
+        }
+    }
+}

embassy-stm32/src/lptim/timer/mod.rs

@@ -1,118 +1,20 @@
 //! Low-level timer driver.
+mod prescaler;
 
 use embassy_hal_internal::{into_ref, Peripheral, PeripheralRef};
 
-use super::{Channel, Instance};
-use crate::pac::lptim::vals;
+#[cfg(any(lptim_v2a, lptim_v2b))]
+use super::channel::Channel;
+#[cfg(any(lptim_v2a, lptim_v2b))]
+mod channel_direction;
+#[cfg(any(lptim_v2a, lptim_v2b))]
+pub use channel_direction::ChannelDirection;
+use prescaler::Prescaler;
+
+use super::Instance;
 use crate::rcc;
 use crate::time::Hertz;
 
-/// Direction of a low-power timer channel
-#[cfg(any(lptim_v2a, lptim_v2b))]
-pub enum ChannelDirection {
-    /// Use channel as a PWM output
-    OutputPwm,
-    /// Use channel as an input capture
-    InputCapture,
-}
-
-#[cfg(any(lptim_v2a, lptim_v2b))]
-impl From<ChannelDirection> for vals::Ccsel {
-    fn from(direction: ChannelDirection) -> Self {
-        match direction {
-            ChannelDirection::OutputPwm => vals::Ccsel::OUTPUTCOMPARE,
-            ChannelDirection::InputCapture => vals::Ccsel::INPUTCAPTURE,
-        }
-    }
-}
-
-enum Prescaler {
-    Div1,
-    Div2,
-    Div4,
-    Div8,
-    Div16,
-    Div32,
-    Div64,
-    Div128,
-}
-
-impl From<&Prescaler> for vals::Presc {
-    fn from(prescaler: &Prescaler) -> Self {
-        match prescaler {
-            Prescaler::Div1 => vals::Presc::DIV1,
-            Prescaler::Div2 => vals::Presc::DIV2,
-            Prescaler::Div4 => vals::Presc::DIV4,
-            Prescaler::Div8 => vals::Presc::DIV8,
-            Prescaler::Div16 => vals::Presc::DIV16,
-            Prescaler::Div32 => vals::Presc::DIV32,
-            Prescaler::Div64 => vals::Presc::DIV64,
-            Prescaler::Div128 => vals::Presc::DIV128,
-        }
-    }
-}
-
-impl From<vals::Presc> for Prescaler {
-    fn from(prescaler: vals::Presc) -> Self {
-        match prescaler {
-            vals::Presc::DIV1 => Prescaler::Div1,
-            vals::Presc::DIV2 => Prescaler::Div2,
-            vals::Presc::DIV4 => Prescaler::Div4,
-            vals::Presc::DIV8 => Prescaler::Div8,
-            vals::Presc::DIV16 => Prescaler::Div16,
-            vals::Presc::DIV32 => Prescaler::Div32,
-            vals::Presc::DIV64 => Prescaler::Div64,
-            vals::Presc::DIV128 => Prescaler::Div128,
-        }
-    }
-}
-
-impl From<&Prescaler> for u32 {
-    fn from(prescaler: &Prescaler) -> Self {
-        match prescaler {
-            Prescaler::Div1 => 1,
-            Prescaler::Div2 => 2,
-            Prescaler::Div4 => 4,
-            Prescaler::Div8 => 8,
-            Prescaler::Div16 => 16,
-            Prescaler::Div32 => 32,
-            Prescaler::Div64 => 64,
-            Prescaler::Div128 => 128,
-        }
-    }
-}
-
-impl From<u32> for Prescaler {
-    fn from(prescaler: u32) -> Self {
-        match prescaler {
-            1 => Prescaler::Div1,
-            2 => Prescaler::Div2,
-            4 => Prescaler::Div4,
-            8 => Prescaler::Div8,
-            16 => Prescaler::Div16,
-            32 => Prescaler::Div32,
-            64 => Prescaler::Div64,
-            128 => Prescaler::Div128,
-            _ => unreachable!(),
-        }
-    }
-}
-
-impl Prescaler {
-    pub fn from_ticks(ticks: u32) -> Self {
-        // We need to scale down to a 16-bit range
-        (ticks >> 16).next_power_of_two().into()
-    }
-
-    pub fn scale_down(&self, ticks: u32) -> u16 {
-        (ticks / u32::from(self)).try_into().unwrap()
-    }
-
-    pub fn scale_up(&self, ticks: u16) -> u32 {
-        u32::from(self) * ticks as u32
-    }
-}
-
 /// Low-level timer driver.
 pub struct Timer<'d, T: Instance> {
     _tim: PeripheralRef<'d, T>,
@@ -148,14 +50,6 @@ impl<'d, T: Instance> Timer<'d, T> {
         T::regs().cr().modify(|w| w.set_cntstrt(true));
     }
 
-    /// Set channel direction.
-    #[cfg(any(lptim_v2a, lptim_v2b))]
-    pub fn set_channel_direction(&self, channel: Channel, direction: ChannelDirection) {
-        T::regs()
-            .ccmr(0)
-            .modify(|w| w.set_ccsel(channel.index(), direction.into()));
-    }
-
     /// Set the frequency of how many times per second the timer counts up to the max value or down to 0.
     pub fn set_frequency(&self, frequency: Hertz) {
         let f = frequency.0;
@@ -186,6 +80,14 @@ impl<'d, T: Instance> Timer<'d, T> {
         T::frequency()
     }
 
+    /// Get max compare value. This depends on the timer frequency and the clock frequency from RCC.
+    pub fn get_max_compare_value(&self) -> u16 {
+        T::regs().arr().read().arr()
+    }
+}
+
+#[cfg(any(lptim_v2a, lptim_v2b))]
+impl<'d, T: Instance> Timer<'d, T> {
     /// Enable/disable a channel.
     pub fn enable_channel(&self, channel: Channel, enable: bool) {
         T::regs().ccmr(0).modify(|w| {
@@ -208,8 +110,24 @@ impl<'d, T: Instance> Timer<'d, T> {
         T::regs().ccr(channel.index()).read().ccr()
     }
 
-    /// Get max compare value. This depends on the timer frequency and the clock frequency from RCC.
-    pub fn get_max_compare_value(&self) -> u16 {
-        T::regs().arr().read().arr()
+    /// Set channel direction.
+    #[cfg(any(lptim_v2a, lptim_v2b))]
+    pub fn set_channel_direction(&self, channel: Channel, direction: ChannelDirection) {
+        T::regs()
+            .ccmr(0)
+            .modify(|w| w.set_ccsel(channel.index(), direction.into()));
+    }
+}
+
+#[cfg(not(any(lptim_v2a, lptim_v2b)))]
+impl<'d, T: Instance> Timer<'d, T> {
+    /// Set compare value for a channel.
+    pub fn set_compare_value(&self, value: u16) {
+        T::regs().cmp().modify(|w| w.set_cmp(value));
+    }
+
+    /// Get compare value for a channel.
+    pub fn get_compare_value(&self) -> u16 {
+        T::regs().cmp().read().cmp()
     }
 }

embassy-stm32/src/lptim/timer/prescaler.rs

@@ -0,0 +1,90 @@
+//! Low-level timer driver.
+
+use crate::pac::lptim::vals;
+
+pub enum Prescaler {
+    Div1,
+    Div2,
+    Div4,
+    Div8,
+    Div16,
+    Div32,
+    Div64,
+    Div128,
+}
+
+impl From<&Prescaler> for vals::Presc {
+    fn from(prescaler: &Prescaler) -> Self {
+        match prescaler {
+            Prescaler::Div1 => vals::Presc::DIV1,
+            Prescaler::Div2 => vals::Presc::DIV2,
+            Prescaler::Div4 => vals::Presc::DIV4,
+            Prescaler::Div8 => vals::Presc::DIV8,
+            Prescaler::Div16 => vals::Presc::DIV16,
+            Prescaler::Div32 => vals::Presc::DIV32,
+            Prescaler::Div64 => vals::Presc::DIV64,
+            Prescaler::Div128 => vals::Presc::DIV128,
+        }
+    }
+}
+
+impl From<vals::Presc> for Prescaler {
+    fn from(prescaler: vals::Presc) -> Self {
+        match prescaler {
+            vals::Presc::DIV1 => Prescaler::Div1,
+            vals::Presc::DIV2 => Prescaler::Div2,
+            vals::Presc::DIV4 => Prescaler::Div4,
+            vals::Presc::DIV8 => Prescaler::Div8,
+            vals::Presc::DIV16 => Prescaler::Div16,
+            vals::Presc::DIV32 => Prescaler::Div32,
+            vals::Presc::DIV64 => Prescaler::Div64,
+            vals::Presc::DIV128 => Prescaler::Div128,
+        }
+    }
+}
+
+impl From<&Prescaler> for u32 {
+    fn from(prescaler: &Prescaler) -> Self {
+        match prescaler {
+            Prescaler::Div1 => 1,
+            Prescaler::Div2 => 2,
+            Prescaler::Div4 => 4,
+            Prescaler::Div8 => 8,
+            Prescaler::Div16 => 16,
+            Prescaler::Div32 => 32,
+            Prescaler::Div64 => 64,
+            Prescaler::Div128 => 128,
+        }
+    }
+}
+
+impl From<u32> for Prescaler {
+    fn from(prescaler: u32) -> Self {
+        match prescaler {
+            1 => Prescaler::Div1,
+            2 => Prescaler::Div2,
+            4 => Prescaler::Div4,
+            8 => Prescaler::Div8,
+            16 => Prescaler::Div16,
+            32 => Prescaler::Div32,
+            64 => Prescaler::Div64,
+            128 => Prescaler::Div128,
+            _ => unreachable!(),
+        }
+    }
+}
+
+impl Prescaler {
+    pub fn from_ticks(ticks: u32) -> Self {
+        // We need to scale down to a 16-bit range
+        (ticks >> 16).next_power_of_two().into()
+    }
+
+    pub fn scale_down(&self, ticks: u32) -> u16 {
+        (ticks / u32::from(self)).try_into().unwrap()
+    }
+
+    pub fn scale_up(&self, ticks: u16) -> u32 {
+        u32::from(self) * ticks as u32
+    }
+}