add coin chirp when you click the volume button

.gitmodules

@@ -1,6 +1,12 @@
-[submodule "adpcm-pwm-dac"]
-	path = ch32v-insert-coin/ext/adpcm-pwm-dac
-	url = ssh://git@git.glyphs.tech:222/sigil-03/adpcm-pwm-dac.git
 [submodule "ch32v-insert-coin/ext/ch32-hal"]
 	path = ch32v-insert-coin/ext/ch32-hal
-	url = git@github.com:ch32-rs/ch32-hal.git
+	url = https://github.com/sigil-03/ch32-hal.git
+[submodule "ch32v-insert-coin/ext/qingke"]
+	path = ch32v-insert-coin/ext/qingke
+	url = https://github.com/ch32-rs/qingke.git
+[submodule "ch32v-insert-coin/ext/adpcm-pwm-dac"]
+	path = ch32v-insert-coin/ext/adpcm-pwm-dac
+	url = https://git.glyphs.tech/sigil-03/adpcm-pwm-dac.git
+[submodule "ch32v-insert-coin/ext/wavetable-synth"]
+	path = ch32v-insert-coin/ext/wavetable-synth
+	url = https://git.glyphs.tech/sigil-03/wavetable-synth.git

ch32v-insert-coin/.cargo/config.toml

@@ -8,10 +8,10 @@ target = "riscv32ec-unknown-none-elf.json"
 # runner = "gdb -q -x openocd.gdb"
 # runner = "wlink -v flash"
 
-# runner = "wlink -v flash --enable-sdi-print --watch-serial"
+runner = "wlink -v flash --enable-sdi-print --watch-serial"
 
 # Flash and debug chip with probe-rs. https://probe.rs/
-runner = "probe-rs run --chip ch32v003"
+# runner = "probe-rs run --chip ch32v003"
 
 [unstable]
 build-std = ["core"]

ch32v-insert-coin/Cargo.lock

@@ -18,27 +18,6 @@ version = "0.10.2"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "dc827186963e592360843fb5ba4b973e145841266c1357f7180c43526f2e5b61"
 
-[[package]]
-name = "bitfields"
-version = "1.0.0"
-source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "dcdbce6688e3ab66aff2ab413b762ccde9f37990e27bba0bb38a4b2ad1b5d877"
-dependencies = [
- "bitfields-impl",
-]
-
-[[package]]
-name = "bitfields-impl"
-version = "1.0.0"
-source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "57413e4b276d883b77fb368b7b33ae6a5eb97692852d49a5394d4f72ba961827"
-dependencies = [
- "proc-macro2",
- "quote",
- "syn 2.0.104",
- "thiserror",
-]
-
 [[package]]
 name = "byteorder"
 version = "1.5.0"
@@ -71,7 +50,7 @@ dependencies = [
  "futures",
  "nb 1.1.0",
  "proc-macro2",
- "qingke",
+ "qingke 0.5.0 (registry+https://github.com/rust-lang/crates.io-index)",
  "qingke-rt",
  "quote",
  "rand_core",
@@ -92,12 +71,14 @@ name = "ch32v-insert-coin"
 version = "0.1.0"
 dependencies = [
  "adpcm-pwm-dac",
- "bitfields",
  "ch32-hal",
+ "critical-section",
  "embassy-executor",
  "embedded-hal 1.0.0",
  "panic-halt",
+ "qingke 0.5.0",
  "qingke-rt",
+ "wavetable-synth",
 ]
 
 [[package]]
@@ -487,6 +468,14 @@ dependencies = [
  "unicode-ident",
 ]
 
+[[package]]
+name = "qingke"
+version = "0.5.0"
+dependencies = [
+ "bit_field",
+ "riscv 0.12.1",
+]
+
 [[package]]
 name = "qingke"
 version = "0.5.0"
@@ -504,7 +493,7 @@ version = "0.5.0"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "b955c60adac70c6d40205b1dbe9f57e1151d06aa842069cdbaef7bc07ad283fd"
 dependencies = [
- "qingke",
+ "qingke 0.5.0 (registry+https://github.com/rust-lang/crates.io-index)",
  "qingke-rt-macros",
 ]
 
@@ -615,26 +604,6 @@ dependencies = [
  "unicode-ident",
 ]
 
-[[package]]
-name = "thiserror"
-version = "2.0.12"
-source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "567b8a2dae586314f7be2a752ec7474332959c6460e02bde30d702a66d488708"
-dependencies = [
- "thiserror-impl",
-]
-
-[[package]]
-name = "thiserror-impl"
-version = "2.0.12"
-source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "7f7cf42b4507d8ea322120659672cf1b9dbb93f8f2d4ecfd6e51350ff5b17a1d"
-dependencies = [
- "proc-macro2",
- "quote",
- "syn 2.0.104",
-]
-
 [[package]]
 name = "unicode-ident"
 version = "1.0.18"
@@ -658,3 +627,7 @@ name = "void"
 version = "1.0.2"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "6a02e4885ed3bc0f2de90ea6dd45ebcbb66dacffe03547fadbb0eeae2770887d"
+
+[[package]]
+name = "wavetable-synth"
+version = "0.1.0"

ch32v-insert-coin/Cargo.toml

@@ -3,6 +3,9 @@ name = "ch32v-insert-coin"
 version = "0.1.0"
 edition = "2024"
 
+[features]
+enable_print = []
+
 [dependencies]
 ch32-hal = { path = "ext/ch32-hal/", features = [
     "ch32v003f4u6",
@@ -24,8 +27,13 @@ embedded-hal = "1.0.0"
 
 qingke-rt = { version = "*", features = ["highcode"] }
 
+qingke = {path = "ext/qingke"}
+
 adpcm-pwm-dac = { path = "ext/adpcm-pwm-dac/" }
-bitfields = "1.0.0"
+
+wavetable-synth = { path = "ext/wavetable-synth" }
+
+critical-section = { version = "1.2.0" }
 
 [profile.release]
 strip = false   # symbols are not flashed to the microcontroller, so don't strip them.

ch32v-insert-coin/audio/sequences

@@ -0,0 +1,18 @@
+"wahwahwahwah" sound - let play a few times
+note timing: 6hz
+data: let freqs = [100, 200, 300, 400, 500, 600, 700, 800, 900];
+
+"falling" sound
+note timing: 6hz
+[
+1000,
+990, 980, 970, 960, 950, 940, 930, 920, 910, 900,
+890, 880, 870, 860, 850, 840, 830, 820, 810, 800,
+790, 780, 770, 760, 750, 740, 730, 720, 710, 700,
+690, 680, 670, 660, 650, 640, 630, 620, 610, 600,
+590, 580, 570, 560, 550, 540, 530, 520, 510, 500,
+490, 480, 470, 460, 450, 440, 430, 420, 410, 400,
+390, 380, 370, 360, 350, 340, 330, 320, 310, 300,
+290, 280, 270, 260, 250, 240, 230, 220, 210, 200,
+190, 180, 170, 160, 150, 140, 130, 120, 110, 100,
+]

ch32v-insert-coin/build-run.sh

@@ -0,0 +1,2 @@
+#!/bin/bash
+cargo +nightly run --release

ch32v-insert-coin/ext/adpcm-pwm-dac

@@ -1 +1 @@
-Subproject commit e6114d2c521ef3a769bd2a52411e3a938b566908
+Subproject commit 99ce71e8d03e382b51732db7d0771349c51c7f48

ch32v-insert-coin/ext/ch32-hal

@@ -1 +1 @@
-Subproject commit 2b8e1c864ba5545ee65b1c77dcb17c86a471b70c
+Subproject commit 4f11d68e62dcb0e7098eecf357168724a8322d80

ch32v-insert-coin/ext/patches/optional-exti.patch

@@ -0,0 +1,652 @@
+From 7b086336e3820714c564aac13dc44fbaf7f5bc17 Mon Sep 17 00:00:00 2001
+From: mindshub <info@mindshub.com>
+Date: Sat, 9 Aug 2025 10:16:33 +0200
+Subject: [PATCH] optional exti
+
+---
+ Cargo.toml  |   3 +-
+ src/exti.rs | 548 ++++++++++++++++++++++++++--------------------------
+ src/lib.rs  |   1 +
+ 3 files changed, 281 insertions(+), 271 deletions(-)
+
+diff --git a/Cargo.toml b/Cargo.toml
+index ec451bf..55fa288 100644
+--- a/Cargo.toml
++++ b/Cargo.toml
+@@ -56,7 +56,7 @@ proc-macro2 = "1.0"
+ quote = "1.0"
+ 
+ [features]
+-default = ["embassy", "rt"]
++default = ["embassy", "rt", "exti"]
+ rt = ["dep:qingke-rt"]
+ highcode = ["qingke-rt/highcode"]
+ embassy = [
+@@ -66,6 +66,7 @@ embassy = [
+ ]
+ defmt = ["dep:defmt"]
+ memory-x = ["ch32-metapac/memory-x"]
++exti = []
+ 
+ 
+ # Features starting with `_` are for internal use only. They're not intended
+diff --git a/src/exti.rs b/src/exti.rs
+index a2458d1..3d613ea 100644
+--- a/src/exti.rs
++++ b/src/exti.rs
+@@ -1,37 +1,11 @@
+-use core::future::Future;
+-use core::marker::PhantomData;
+-use core::pin::Pin;
+-use core::task::{Context, Poll};
+-
+ use embassy_sync::waitqueue::AtomicWaker;
+-use qingke_rt::interrupt;
+ 
+-use crate::gpio::{AnyPin, Input, Level, Pin as GpioPin, Pull};
+-use crate::{impl_peripheral, into_ref, peripherals, Peripheral};
++use crate::{impl_peripheral, peripherals};
+ 
+ const EXTI_COUNT: usize = 24;
+ const NEW_AW: AtomicWaker = AtomicWaker::new();
+ static EXTI_WAKERS: [AtomicWaker; EXTI_COUNT] = [NEW_AW; EXTI_COUNT];
+ 
+-pub unsafe fn on_irq() {
+-    let exti = &crate::pac::EXTI;
+-
+-    let bits = exti.intfr().read();
+-
+-    // We don't handle or change any EXTI lines above 24.
+-    let bits = bits.0 & 0x00FFFFFF;
+-
+-    // Clear pending - Clears the EXTI's line pending bits.
+-    exti.intfr().write(|w| w.0 = bits);
+-
+-    exti.intenr().modify(|w| w.0 = w.0 & !bits);
+-
+-    // Wake the tasks
+-    for pin in BitIter(bits) {
+-        EXTI_WAKERS[pin as usize].wake();
+-    }
+-}
+-
+ struct BitIter(u32);
+ 
+ impl Iterator for BitIter {
+@@ -48,150 +22,6 @@ impl Iterator for BitIter {
+     }
+ }
+ 
+-/// EXTI input driver
+-pub struct ExtiInput<'d> {
+-    pin: Input<'d>,
+-}
+-
+-impl<'d> Unpin for ExtiInput<'d> {}
+-
+-impl<'d> ExtiInput<'d> {
+-    pub fn new<T: GpioPin>(
+-        pin: impl Peripheral<P = T> + 'd,
+-        ch: impl Peripheral<P = T::ExtiChannel> + 'd,
+-        pull: Pull,
+-    ) -> Self {
+-        into_ref!(pin, ch);
+-        // Needed if using AnyPin+AnyChannel.
+-        assert_eq!(pin.pin(), ch.number());
+-
+-        Self {
+-            pin: Input::new(pin, pull),
+-        }
+-    }
+-
+-    pub fn is_high(&self) -> bool {
+-        self.pin.is_high()
+-    }
+-
+-    pub fn is_low(&self) -> bool {
+-        self.pin.is_low()
+-    }
+-
+-    pub fn get_level(&self) -> Level {
+-        self.pin.get_level()
+-    }
+-
+-    pub async fn wait_for_high<'a>(&'a mut self) {
+-        let fut = ExtiInputFuture::new(self.pin.pin.pin.pin(), self.pin.pin.pin.port(), true, false);
+-        if self.is_high() {
+-            return;
+-        }
+-        fut.await
+-    }
+-
+-    pub async fn wait_for_low<'a>(&'a mut self) {
+-        let fut = ExtiInputFuture::new(self.pin.pin.pin.pin(), self.pin.pin.pin.port(), false, true);
+-        if self.is_low() {
+-            return;
+-        }
+-        fut.await
+-    }
+-
+-    pub async fn wait_for_rising_edge<'a>(&'a mut self) {
+-        ExtiInputFuture::new(self.pin.pin.pin.pin(), self.pin.pin.pin.port(), true, false).await
+-    }
+-
+-    pub async fn wait_for_falling_edge<'a>(&'a mut self) {
+-        ExtiInputFuture::new(self.pin.pin.pin.pin(), self.pin.pin.pin.port(), false, true).await
+-    }
+-
+-    pub async fn wait_for_any_edge<'a>(&'a mut self) {
+-        ExtiInputFuture::new(self.pin.pin.pin.pin(), self.pin.pin.pin.port(), true, true).await
+-    }
+-}
+-
+-#[must_use = "futures do nothing unless you `.await` or poll them"]
+-struct ExtiInputFuture<'a> {
+-    pin: u8,
+-    phantom: PhantomData<&'a mut AnyPin>,
+-}
+-
+-// EXTI0-EXTI23 Px0-Px23（x=A/B/C）
+-impl<'a> ExtiInputFuture<'a> {
+-    fn new(pin: u8, port: u8, rising: bool, falling: bool) -> Self {
+-        critical_section::with(|_| {
+-            let exti = &crate::pac::EXTI;
+-            let afio = &crate::pac::AFIO;
+-
+-            let port = port as u8;
+-            let pin = pin as usize;
+-
+-            #[cfg(afio_v0)]
+-            {
+-                // AFIO_EXTICR
+-                // stride: 2, len: 15, 8 lines
+-                afio.exticr().modify(|w| w.set_exti(pin, port));
+-            }
+-            // V1, V2, V3, L1
+-            #[cfg(any(afio_v3, afio_l1))]
+-            {
+-                // AFIO_EXTICRx
+-                // stride: 4, len: 4, 16 lines
+-                afio.exticr(pin / 4).modify(|w| w.set_exti(pin % 4, port));
+-            }
+-            #[cfg(afio_x0)]
+-            {
+-                // stride: 2, len: 15, 24 lines
+-                afio.exticr(pin / 16).modify(|w| w.set_exti(pin % 16, port));
+-            }
+-            #[cfg(afio_ch641)]
+-            {
+-                // single register
+-                afio.exticr().modify(|w| w.set_exti(pin, port != 0));
+-            }
+-
+-            // See-also: 7.4.3
+-            exti.intenr().modify(|w| w.set_mr(pin, true)); // enable interrupt
+-
+-            exti.rtenr().modify(|w| w.set_tr(pin, rising));
+-            exti.ftenr().modify(|w| w.set_tr(pin, falling));
+-        });
+-
+-        Self {
+-            pin,
+-            phantom: PhantomData,
+-        }
+-    }
+-}
+-
+-impl<'a> Drop for ExtiInputFuture<'a> {
+-    fn drop(&mut self) {
+-        critical_section::with(|_| {
+-            let exti = &crate::pac::EXTI;
+-            let pin = self.pin;
+-            exti.intenr().modify(|w| w.0 = w.0 & !(1 << pin));
+-        });
+-    }
+-}
+-
+-impl<'a> Future for ExtiInputFuture<'a> {
+-    type Output = ();
+-
+-    fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
+-        let exti = &crate::pac::EXTI;
+-
+-        EXTI_WAKERS[self.pin as usize].register(cx.waker());
+-
+-        if exti.intenr().read().mr(self.pin as _) == false {
+-            // intenr cleared by on_irq, then we can assume it is triggered
+-            Poll::Ready(())
+-        } else {
+-            Poll::Pending
+-        }
+-    }
+-}
+-
+ trait SealedChannel {}
+ 
+ #[allow(private_bounds)]
+@@ -207,6 +37,7 @@ pub trait Channel: SealedChannel + Sized {
+ pub struct AnyChannel {
+     number: u8,
+ }
++
+ impl_peripheral!(AnyChannel);
+ impl SealedChannel for AnyChannel {}
+ impl Channel for AnyChannel {
+@@ -267,128 +98,305 @@ mod _exti_24lines {
+     impl_exti!(EXTI23, 23);
+ }
+ 
+-/*
+-EXTI0
+-EXTI1
+-EXTI2
+-EXTI3
+-EXTI4
+-EXTI9_5
+-EXTI15_10
+-EXTI7_0
+-EXTI15_8
+-EXTI25_16
+-*/
+-
+-/// safety: must be called only once
+-#[cfg(gpio_x0)]
+-mod irq_impl {
+-    use super::*;
++#[cfg(feature = "exti")]
++pub use exti_inner::*;
++
++#[cfg(feature = "exti")]
++mod exti_inner {
++    use super::{BitIter, Channel, EXTI_WAKERS};
++    use crate::gpio::{AnyPin, Input, Level, Pin as GpioPin, Pull};
++    use crate::{into_ref, Peripheral};
++    use core::future::Future;
++    use core::marker::PhantomData;
++    use core::pin::Pin;
++    use core::task::{Context, Poll};
++    use qingke_rt::interrupt;
++
++    /// EXTI input driver
++    pub struct ExtiInput<'d> {
++        pin: Input<'d>,
++    }
++
++    impl<'d> Unpin for ExtiInput<'d> {}
++
++    impl<'d> ExtiInput<'d> {
++        pub fn new<T: GpioPin>(
++            pin: impl Peripheral<P = T> + 'd,
++            ch: impl Peripheral<P = T::ExtiChannel> + 'd,
++            pull: Pull,
++        ) -> Self {
++            into_ref!(pin, ch);
++            // Needed if using AnyPin+AnyChannel.
++            assert_eq!(pin.pin(), ch.number());
++
++            Self {
++                pin: Input::new(pin, pull),
++            }
++        }
+ 
+-    #[interrupt]
+-    unsafe fn EXTI7_0() {
+-        on_irq();
+-    }
+-    #[interrupt]
+-    unsafe fn EXTI15_8() {
+-        on_irq();
+-    }
+-    #[interrupt]
+-    unsafe fn EXTI25_16() {
+-        on_irq();
+-    }
++        pub fn is_high(&self) -> bool {
++            self.pin.is_high()
++        }
+ 
+-    pub(crate) unsafe fn init(_cs: critical_section::CriticalSection) {
+-        use crate::pac::Interrupt;
++        pub fn is_low(&self) -> bool {
++            self.pin.is_low()
++        }
+ 
+-        qingke::pfic::enable_interrupt(Interrupt::EXTI7_0 as u8);
+-        qingke::pfic::enable_interrupt(Interrupt::EXTI15_8 as u8);
+-        qingke::pfic::enable_interrupt(Interrupt::EXTI25_16 as u8);
+-    }
+-}
++        pub fn get_level(&self) -> Level {
++            self.pin.get_level()
++        }
+ 
+-#[cfg(all(gpio_v3, not(ch641)))]
+-mod irq_impl {
+-    use super::*;
++        pub async fn wait_for_high<'a>(&'a mut self) {
++            let fut = ExtiInputFuture::new(self.pin.pin.pin.pin(), self.pin.pin.pin.port(), true, false);
++            if self.is_high() {
++                return;
++            }
++            fut.await
++        }
+ 
+-    #[interrupt]
+-    unsafe fn EXTI0() {
+-        on_irq();
+-    }
+-    #[interrupt]
+-    unsafe fn EXTI1() {
+-        on_irq();
+-    }
+-    #[interrupt]
+-    unsafe fn EXTI2() {
+-        on_irq();
+-    }
+-    #[interrupt]
+-    unsafe fn EXTI3() {
+-        on_irq();
++        pub async fn wait_for_low<'a>(&'a mut self) {
++            let fut = ExtiInputFuture::new(self.pin.pin.pin.pin(), self.pin.pin.pin.port(), false, true);
++            if self.is_low() {
++                return;
++            }
++            fut.await
++        }
++
++        pub async fn wait_for_rising_edge<'a>(&'a mut self) {
++            ExtiInputFuture::new(self.pin.pin.pin.pin(), self.pin.pin.pin.port(), true, false).await
++        }
++
++        pub async fn wait_for_falling_edge<'a>(&'a mut self) {
++            ExtiInputFuture::new(self.pin.pin.pin.pin(), self.pin.pin.pin.port(), false, true).await
++        }
++
++        pub async fn wait_for_any_edge<'a>(&'a mut self) {
++            ExtiInputFuture::new(self.pin.pin.pin.pin(), self.pin.pin.pin.port(), true, true).await
++        }
+     }
+-    #[interrupt]
+-    unsafe fn EXTI4() {
+-        on_irq();
++
++    pub unsafe fn on_irq() {
++        let exti = &crate::pac::EXTI;
++
++        let bits = exti.intfr().read();
++
++        // We don't handle or change any EXTI lines above 24.
++        let bits = bits.0 & 0x00FFFFFF;
++
++        // Clear pending - Clears the EXTI's line pending bits.
++        exti.intfr().write(|w| w.0 = bits);
++
++        exti.intenr().modify(|w| w.0 = w.0 & !bits);
++
++        // Wake the tasks
++        for pin in BitIter(bits) {
++            EXTI_WAKERS[pin as usize].wake();
++        }
+     }
+-    #[interrupt]
+-    unsafe fn EXTI9_5() {
+-        on_irq();
++
++    #[must_use = "futures do nothing unless you `.await` or poll them"]
++    struct ExtiInputFuture<'a> {
++        pin: u8,
++        phantom: PhantomData<&'a mut AnyPin>,
++    }
++
++    // EXTI0-EXTI23 Px0-Px23（x=A/B/C）
++    impl<'a> ExtiInputFuture<'a> {
++        fn new(pin: u8, port: u8, rising: bool, falling: bool) -> Self {
++            critical_section::with(|_| {
++                let exti = &crate::pac::EXTI;
++                let afio = &crate::pac::AFIO;
++
++                let port = port as u8;
++                let pin = pin as usize;
++
++                #[cfg(afio_v0)]
++                {
++                    // AFIO_EXTICR
++                    // stride: 2, len: 15, 8 lines
++                    afio.exticr().modify(|w| w.set_exti(pin, port));
++                }
++                // V1, V2, V3, L1
++                #[cfg(any(afio_v3, afio_l1))]
++                {
++                    // AFIO_EXTICRx
++                    // stride: 4, len: 4, 16 lines
++                    afio.exticr(pin / 4).modify(|w| w.set_exti(pin % 4, port));
++                }
++                #[cfg(afio_x0)]
++                {
++                    // stride: 2, len: 15, 24 lines
++                    afio.exticr(pin / 16).modify(|w| w.set_exti(pin % 16, port));
++                }
++                #[cfg(afio_ch641)]
++                {
++                    // single register
++                    afio.exticr().modify(|w| w.set_exti(pin, port != 0));
++                }
++
++                // See-also: 7.4.3
++                exti.intenr().modify(|w| w.set_mr(pin, true)); // enable interrupt
++
++                exti.rtenr().modify(|w| w.set_tr(pin, rising));
++                exti.ftenr().modify(|w| w.set_tr(pin, falling));
++            });
++
++            Self {
++                pin,
++                phantom: PhantomData,
++            }
++        }
+     }
+-    #[interrupt]
+-    unsafe fn EXTI15_10() {
+-        on_irq();
++
++    impl<'a> Drop for ExtiInputFuture<'a> {
++        fn drop(&mut self) {
++            critical_section::with(|_| {
++                let exti = &crate::pac::EXTI;
++                let pin = self.pin;
++                exti.intenr().modify(|w| w.0 = w.0 & !(1 << pin));
++            });
++        }
+     }
+ 
+-    pub(crate) unsafe fn init(_cs: critical_section::CriticalSection) {
+-        use crate::pac::Interrupt;
++    impl<'a> Future for ExtiInputFuture<'a> {
++        type Output = ();
+ 
+-        qingke::pfic::enable_interrupt(Interrupt::EXTI0 as u8);
+-        qingke::pfic::enable_interrupt(Interrupt::EXTI1 as u8);
+-        qingke::pfic::enable_interrupt(Interrupt::EXTI2 as u8);
+-        qingke::pfic::enable_interrupt(Interrupt::EXTI3 as u8);
+-        qingke::pfic::enable_interrupt(Interrupt::EXTI4 as u8);
+-        qingke::pfic::enable_interrupt(Interrupt::EXTI9_5 as u8);
+-        qingke::pfic::enable_interrupt(Interrupt::EXTI15_10 as u8);
+-    }
+-}
++        fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> {
++            let exti = &crate::pac::EXTI;
+ 
+-#[cfg(gpio_v0)]
+-mod irq_impl {
+-    use super::*;
++            EXTI_WAKERS[self.pin as usize].register(cx.waker());
+ 
+-    #[interrupt]
+-    unsafe fn EXTI7_0() {
+-        on_irq();
++            if exti.intenr().read().mr(self.pin as _) == false {
++                // intenr cleared by on_irq, then we can assume it is triggered
++                Poll::Ready(())
++            } else {
++                Poll::Pending
++            }
++        }
+     }
+ 
+-    pub(crate) unsafe fn init(_cs: critical_section::CriticalSection) {
+-        use crate::pac::Interrupt;
++    /*
++    EXTI0
++    EXTI1
++    EXTI2
++    EXTI3
++    EXTI4
++    EXTI9_5
++    EXTI15_10
++    EXTI7_0
++    EXTI15_8
++    EXTI25_16
++    */
++
++    /// safety: must be called only once
++    #[cfg(gpio_x0)]
++    mod irq_impl {
++        use super::*;
++
++        #[interrupt]
++        unsafe fn EXTI7_0() {
++            on_irq();
++        }
++        #[interrupt]
++        unsafe fn EXTI15_8() {
++            on_irq();
++        }
++        #[interrupt]
++        unsafe fn EXTI25_16() {
++            on_irq();
++        }
++
++        pub(crate) unsafe fn init(_cs: critical_section::CriticalSection) {
++            use crate::pac::Interrupt;
+ 
+-        qingke::pfic::enable_interrupt(Interrupt::EXTI7_0 as u8);
++            qingke::pfic::enable_interrupt(Interrupt::EXTI7_0 as u8);
++            qingke::pfic::enable_interrupt(Interrupt::EXTI15_8 as u8);
++            qingke::pfic::enable_interrupt(Interrupt::EXTI25_16 as u8);
++        }
+     }
+-}
+ 
+-#[cfg(all(gpio_v3, ch641))]
+-mod irq_impl {
+-    use super::*;
++    #[cfg(all(gpio_v3, not(ch641)))]
++    mod irq_impl {
++        use super::*;
++
++        #[interrupt]
++        unsafe fn EXTI0() {
++            on_irq();
++        }
++        #[interrupt]
++        unsafe fn EXTI1() {
++            on_irq();
++        }
++        #[interrupt]
++        unsafe fn EXTI2() {
++            on_irq();
++        }
++        #[interrupt]
++        unsafe fn EXTI3() {
++            on_irq();
++        }
++        #[interrupt]
++        unsafe fn EXTI4() {
++            on_irq();
++        }
++        #[interrupt]
++        unsafe fn EXTI9_5() {
++            on_irq();
++        }
++        #[interrupt]
++        unsafe fn EXTI15_10() {
++            on_irq();
++        }
+ 
+-    #[interrupt]
+-    unsafe fn EXTI7_0() {
+-        on_irq();
++        pub(crate) unsafe fn init(_cs: critical_section::CriticalSection) {
++            use crate::pac::Interrupt;
++
++            qingke::pfic::enable_interrupt(Interrupt::EXTI0 as u8);
++            qingke::pfic::enable_interrupt(Interrupt::EXTI1 as u8);
++            qingke::pfic::enable_interrupt(Interrupt::EXTI2 as u8);
++            qingke::pfic::enable_interrupt(Interrupt::EXTI3 as u8);
++            qingke::pfic::enable_interrupt(Interrupt::EXTI4 as u8);
++            qingke::pfic::enable_interrupt(Interrupt::EXTI9_5 as u8);
++            qingke::pfic::enable_interrupt(Interrupt::EXTI15_10 as u8);
++        }
+     }
+ 
+-    #[interrupt]
+-    unsafe fn EXTI15_8() {
+-        on_irq();
++    #[cfg(gpio_v0)]
++    mod irq_impl {
++        use super::*;
++
++        #[interrupt]
++        unsafe fn EXTI7_0() {
++            on_irq();
++        }
++
++        pub(crate) unsafe fn init(_cs: critical_section::CriticalSection) {
++            use crate::pac::Interrupt;
++
++            qingke::pfic::enable_interrupt(Interrupt::EXTI7_0 as u8);
++        }
+     }
+ 
+-    pub(crate) unsafe fn init(_cs: critical_section::CriticalSection) {
+-        use crate::pac::Interrupt;
++    #[cfg(all(gpio_v3, ch641))]
++    mod irq_impl {
++        use super::*;
++
++        #[interrupt]
++        unsafe fn EXTI7_0() {
++            on_irq();
++        }
++
++        #[interrupt]
++        unsafe fn EXTI15_8() {
++            on_irq();
++        }
++
++        pub(crate) unsafe fn init(_cs: critical_section::CriticalSection) {
++            use crate::pac::Interrupt;
+ 
+-        qingke::pfic::enable_interrupt(Interrupt::EXTI7_0 as u8);
+-        qingke::pfic::enable_interrupt(Interrupt::EXTI15_8 as u8);
++            qingke::pfic::enable_interrupt(Interrupt::EXTI7_0 as u8);
++            qingke::pfic::enable_interrupt(Interrupt::EXTI15_8 as u8);
++        }
+     }
++    pub(crate) use irq_impl::*;
+ }
+-
+-pub(crate) use irq_impl::*;
+diff --git a/src/lib.rs b/src/lib.rs
+index 997da34..b451a55 100644
+--- a/src/lib.rs
++++ b/src/lib.rs
+@@ -140,6 +140,7 @@ pub fn init(config: Config) -> Peripherals {
+     ::critical_section::with(|cs| unsafe {
+         gpio::init(cs);
+         dma::init(cs, config.dma_interrupt_priority);
++        #[cfg(feature = "exti")]
+         exti::init(cs);
+     });
+ 
+

ch32v-insert-coin/ext/qingke

@@ -0,0 +1 @@
+Subproject commit 2443891811d7351d62e78085bcf60fa78c063c08

ch32v-insert-coin/ext/wavetable-synth

@@ -0,0 +1 @@
+Subproject commit 30033e1438c25aed4ea506cdbd69cc4ceffa0b4e

ch32v-insert-coin/init.sh

@@ -0,0 +1,10 @@
+#!/bin/bash
+DIR=${PWD}
+mkdir ${PWD}/tmp
+cd tmp
+git clone ssh://git@git.glyphs.tech:222/taproot-tech/docker-devtools.git
+cd docker-devtools/ch32
+ls
+./build.sh
+cd $DIR
+rm -rf tmp

ch32v-insert-coin/launch.sh

@@ -0,0 +1,2 @@
+#!/bin/bash
+podman run --privileged -it --rm -v "$PWD":/usr/src/app -w /usr/src/app ch32-rust:latest /bin/bash 

ch32v-insert-coin/riscv32ec-unknown-none-elf.json

@@ -14,5 +14,5 @@
     "max-atomic-width": 32,
     "panic-strategy": "abort",
     "relocation-model": "static",
-    "target-pointer-width": "32"
+    "target-pointer-width": 32
 }

ch32v-insert-coin/src/app.rs

@@ -0,0 +1,705 @@
+#[derive(Default, Clone, Copy)]
+pub enum State {
+    // system is asleep, waiting for wake from coin insertion
+    DeepSleep,
+    // system is in low-power mode, dimmed lights, waiting for interaction
+    Idle,
+    // system is active. on entry: play coin sound. on button press: play different sound
+    #[default]
+    Active,
+}
+
+pub mod settings {
+
+    #[derive(Debug, Default, Clone, Copy)]
+    pub enum Level {
+        Off,
+        Low,
+        #[default]
+        Medium,
+        High,
+        Maximum,
+    }
+
+    impl Level {
+        pub fn next(&mut self) {
+            *self = match self {
+                Self::Off => Self::Low,
+                Self::Low => Self::Medium,
+                Self::Medium => Self::High,
+                Self::High => Self::Maximum,
+                Self::Maximum => Self::Off,
+            };
+        }
+    }
+
+    // volume control
+    impl Level {
+        pub fn as_volume_divisor(&self) -> u8 {
+            match self {
+                Self::Off => u8::MAX,
+                Self::Low => 4,
+                Self::Medium => 3,
+                Self::High => 2,
+                Self::Maximum => 1,
+            }
+        }
+
+        pub fn as_brightness_divisor(&self) -> u8 {
+            match self {
+                Self::Off => u8::MAX,
+                Self::Low => 8,
+                Self::Medium => 6,
+                Self::High => 4,
+                Self::Maximum => 2,
+            }
+        }
+    }
+
+    #[derive(Clone, Copy)]
+    pub struct Settings {
+        pub brightness: Level,
+        pub volume: Level,
+        pub button_sound_index: usize,
+    }
+
+    impl Default for Settings {
+        fn default() -> Self {
+            Self {
+                brightness: Level::Medium,
+                volume: Level::Medium,
+                button_sound_index: 0,
+            }
+        }
+    }
+}
+
+pub mod sequencer {
+    pub struct BasicSequence<'a> {
+        sequence: &'a [u8],
+        index: usize,
+    }
+    impl<'a> BasicSequence<'a> {
+        pub fn new(sequence: &'a [u8]) -> Self {
+            Self { sequence, index: 0 }
+        }
+        pub fn next(&mut self) {
+            self.index += 1;
+            if self.index > self.sequence.len() - 1 {
+                self.index = 0;
+            }
+        }
+        pub fn get_value(&self) -> u8 {
+            self.sequence[self.index]
+        }
+    }
+
+    pub struct SequenceEntry {
+        pub frequency_hz: u16,
+        pub duration_ms: u16,
+    }
+
+    pub struct DynamicSequence<'a> {
+        sequence: &'a [SequenceEntry],
+        index: usize,
+
+        // timer stuff
+        system_tick_rate_hz: usize,
+        ticks_remaining: usize,
+
+        // playback stuff
+        num_loops: usize,
+        loop_count: usize,
+
+        // misc
+        enabled: bool,
+    }
+
+    impl<'a> DynamicSequence<'a> {
+        pub fn new(sequence: &'a [SequenceEntry], system_tick_rate_hz: usize) -> Self {
+            Self {
+                sequence,
+                index: 0,
+                system_tick_rate_hz,
+                ticks_remaining: 0,
+                num_loops: 1,
+                loop_count: 0,
+                enabled: false,
+            }
+        }
+
+        pub fn play_sequence(&mut self, sequence: &'a [SequenceEntry], num_loops: usize) {
+            self.sequence = sequence;
+            self.num_loops = num_loops;
+            self.loop_count = 0;
+            self.enabled = true;
+            self.index = 0;
+            self.ticks_remaining = 0;
+        }
+
+        pub fn enable(&mut self) {
+            self.enabled = true;
+        }
+
+        pub fn disable(&mut self) {
+            self.enabled = false;
+        }
+
+        pub fn tick(&mut self) {
+            if self.enabled {
+                self.ticks_remaining = self.ticks_remaining.saturating_sub(1);
+            }
+        }
+
+        pub fn need_service(&self) -> bool {
+            self.enabled && self.ticks_remaining == 0
+        }
+
+        pub fn service(&mut self) -> Option<u16> {
+            let entry = &self.sequence[self.index];
+            self.ticks_remaining = self.system_tick_rate_hz * (entry.duration_ms as usize) / 1000;
+            self.index = self.index.saturating_add(1);
+
+            let out = if self.loop_count > self.num_loops {
+                None
+            } else {
+                Some(entry.frequency_hz)
+            };
+
+            if self.index > self.sequence.len() - 1 {
+                self.index = 0;
+                self.loop_count = self.loop_count.saturating_add(1);
+            }
+
+            out
+        }
+    }
+}
+
+use crate::insert_coin::{
+    DacService, LedService, Service, SimplePwmCore, TickService, TickServiceData, TickTimerService,
+};
+use crate::synthesizer::SynthesizerService;
+
+pub use settings::Settings;
+
+// #[cfg(feature = "enable_print")]
+use ch32_hal::println;
+
+pub struct TimerConfig {
+    pub sp_timer_ms: usize,
+    pub lp_timer_ms: usize,
+    pub batt_adc_timer_ms: usize,
+    pub usb_adc_timer_ms: usize,
+    pub led0_timer_ms: usize,
+    pub led1_timer_ms: usize,
+    pub shutdown_timer_s: usize,
+    // pub led2_timer_ms: usize,
+}
+
+pub struct Timers {
+    sp_timer: TickTimerService,
+    lp_timer: TickTimerService,
+    batt_adc_timer: TickTimerService,
+    usb_adc_timer: TickTimerService,
+    led0_timer: TickTimerService,
+    led1_timer: TickTimerService,
+    shutdown_timer: TickTimerService,
+    pps_timer: TickTimerService,
+    // led2_timer: TickTimerService,
+}
+
+impl Timers {
+    pub fn new(config: TimerConfig, system_tick_rate_hz: usize) -> Self {
+        Self {
+            sp_timer: TickTimerService::new(
+                TickServiceData::new(config.sp_timer_ms * system_tick_rate_hz / 1000),
+                false,
+            ),
+            lp_timer: TickTimerService::new(
+                TickServiceData::new(config.lp_timer_ms * system_tick_rate_hz / 1000),
+                false,
+            ),
+            batt_adc_timer: TickTimerService::new(
+                TickServiceData::new(config.batt_adc_timer_ms * system_tick_rate_hz / 1000),
+                false,
+            ),
+            usb_adc_timer: TickTimerService::new(
+                TickServiceData::new(config.usb_adc_timer_ms * system_tick_rate_hz / 1000),
+                false,
+            ),
+            led0_timer: TickTimerService::new(
+                TickServiceData::new(config.led0_timer_ms * system_tick_rate_hz / 1000),
+                true,
+            ),
+            led1_timer: TickTimerService::new(
+                TickServiceData::new(config.led1_timer_ms * system_tick_rate_hz / 1000),
+                true,
+            ),
+            shutdown_timer: TickTimerService::new(
+                TickServiceData::new(config.shutdown_timer_s),
+                false,
+            ),
+            pps_timer: TickTimerService::new(TickServiceData::new(system_tick_rate_hz), true),
+            // led2_timer: TickTimerService::new(
+            //     TickServiceData::new(config.led2_timer_ms * system_tick_rate_hz / 1000),
+            //     true,
+            // ),
+        }
+    }
+    pub fn tick(&mut self) {
+        self.sp_timer.tick();
+        self.lp_timer.tick();
+        self.batt_adc_timer.tick();
+        self.usb_adc_timer.tick();
+        self.led0_timer.tick();
+        self.led1_timer.tick();
+        self.pps_timer.tick();
+        // self.led2_timer.tick();
+    }
+    pub fn need_service(&self) -> bool {
+        self.sp_timer.need_service()
+            | self.lp_timer.need_service()
+            | self.batt_adc_timer.need_service()
+            | self.usb_adc_timer.need_service()
+            | self.led0_timer.need_service()
+            | self.led1_timer.need_service()
+            | self.shutdown_timer.need_service()
+            | self.pps_timer.need_service()
+        // | self.led2_timer.need_service()
+    }
+    pub fn init(&mut self) {
+        self.led0_timer.reset();
+        self.led0_timer.enable(true);
+    }
+}
+
+// pub struct ServiceConfigs {
+
+// }
+// things that sort of don't touch hardware but also do?
+// TODO: make this merged with the interfaces maybe
+// but also maybe not, since these are things that require servicing
+pub struct Services {
+    pub led0: LedService,
+    pub led1: LedService,
+    // pub led2: LedService,
+    pub synth0: SynthesizerService,
+    pub sample_player: DacService<'static>,
+    pub sequencer: sequencer::DynamicSequence<'static>,
+}
+
+impl Services {
+    pub fn tick(&mut self) {
+        self.synth0.tick();
+        self.sample_player.tick();
+        self.sequencer.tick();
+    }
+}
+
+pub struct Config {
+    pub system_tick_rate_hz: usize,
+    pub timers: TimerConfig,
+}
+
+pub struct Sequences {
+    pub led0: sequencer::BasicSequence<'static>,
+    pub led1: sequencer::BasicSequence<'static>,
+    // pub led2: sequencer::BasicSequence<'static>,
+    pub audio: &'static [(&'static [sequencer::SequenceEntry], usize)],
+}
+
+// things that touch hardware
+pub struct Interfaces {
+    pub pwm_core: SimplePwmCore<'static, ch32_hal::peripherals::TIM1>,
+    pub adc_core: crate::AdcCore,
+    pub amp: crate::Amplifier,
+    pub usb: crate::Usb,
+}
+
+pub struct App {
+    state: State,
+    pub settings: Settings,
+    timers: Timers,
+    services: Services,
+    sequences: Sequences,
+    interfaces: Interfaces,
+}
+
+use settings::Level;
+impl App {
+    pub fn new(
+        config: Config,
+        services: Services,
+        sequences: Sequences,
+        interfaces: Interfaces,
+        settings: Settings,
+    ) -> Self {
+        Self {
+            state: State::default(),
+            settings,
+            timers: Timers::new(config.timers, config.system_tick_rate_hz),
+            services,
+            sequences,
+            interfaces,
+        }
+    }
+
+    pub fn init(&mut self) {
+        // self.timers.init();
+        self.interfaces.amp.enable();
+
+        self.timers.batt_adc_timer.reset();
+        self.timers.batt_adc_timer.enable(true);
+
+        self.timers.usb_adc_timer.reset();
+        self.timers.usb_adc_timer.enable(true);
+
+        self.timers.led0_timer.reset();
+        self.timers.led0_timer.enable(true);
+
+        self.timers.led1_timer.reset();
+        self.timers.led1_timer.enable(true);
+
+        self.timers.shutdown_timer.reset();
+        self.timers.shutdown_timer.enable(true);
+
+        self.timers.pps_timer.reset();
+        self.timers.pps_timer.enable(true);
+
+        // self.timers.led2_timer.reset();
+        // self.timers.led2_timer.enable(true);
+
+        // self.services.synth0.set_freq(1);
+        self.services.synth0.disable();
+        self.services.sequencer.disable();
+
+        crate::riscv::asm::delay(2_500_000);
+    }
+
+    pub fn set_state(&mut self, state: State) {
+        self.state = state
+    }
+
+    pub fn state(&self) -> State {
+        self.state
+    }
+
+    pub fn settings(&self) -> Settings {
+        self.settings
+    }
+
+    pub fn tick(&mut self) {
+        self.timers.tick();
+        self.services.tick();
+    }
+
+    pub fn service(&mut self) {
+        // timers
+        if self.timers.sp_timer.need_service() {
+            self.timers.sp_timer.service();
+            #[cfg(feature = "enable_print")]
+            println!("sp service");
+            self.timers.sp_timer.reset();
+            self.main_button_short_press();
+        }
+        if self.timers.lp_timer.need_service() {
+            self.timers.lp_timer.service();
+            #[cfg(feature = "enable_print")]
+            println!("lp service");
+            self.timers.lp_timer.reset();
+            self.main_button_long_press();
+        }
+        if self.timers.batt_adc_timer.need_service() {
+            self.timers.batt_adc_timer.service();
+            if !self.interfaces.usb.powered() {
+                let bv = self.interfaces.adc_core.get_battery_voltage();
+                let avg = self.interfaces.adc_core.get_average();
+                // #[cfg(feature = "enable_print")]
+                // println!("batt adc service: {bv}, {avg}");
+                // println!("none USB");
+                if avg < 421 {
+                    self.set_state(State::DeepSleep);
+                }
+            }
+        }
+        if self.timers.usb_adc_timer.need_service() {
+            self.timers.usb_adc_timer.service();
+            #[cfg(feature = "enable_print")]
+            println!("usb adc service");
+        }
+        if self.timers.led0_timer.need_service() {
+            let out = match self.settings.brightness {
+                Level::Off => 0,
+                Level::Low => 5,
+                Level::Medium => 25,
+                Level::High => 75,
+                Level::Maximum => {
+                    self.sequences.led0.next();
+                    self.sequences.led0.get_value() / 6
+                }
+            };
+
+            self.timers.led0_timer.service();
+            self.services.led0.set_amplitude(out);
+            // #[cfg(feature = "enable_print")]
+            // println!("led0 sevice {}", self.sequences.led0.get_value());
+        }
+        if self.timers.led1_timer.need_service() {
+            let out = match self.settings.brightness {
+                Level::Off => 0,
+                Level::Low => 5,
+                Level::Medium => 25,
+                Level::High => 75,
+                Level::Maximum => {
+                    self.sequences.led1.next();
+                    self.sequences.led1.get_value() / 6
+                }
+            };
+            self.timers.led1_timer.service();
+            self.services.led1.set_amplitude(out);
+
+            // #[cfg(feature = "enable_print")]
+            // println!("led1 service");
+        }
+        if self.timers.pps_timer.need_service() {
+            self.timers.pps_timer.service();
+            self.timers.shutdown_timer.tick();
+        }
+        if self.timers.shutdown_timer.need_service() {
+            self.timers.shutdown_timer.service();
+            self.timers.shutdown_timer.reset();
+            // println!("eepy");
+            self.set_state(State::DeepSleep);
+        }
+        // if self.timers.led2_timer.need_service() {
+        //     let out = match self.settings.brightness {
+        //         Level::Off => 0,
+        //         Level::Low => 5,
+        //         Level::Medium => 25,
+        //         Level::High => 75,
+        //         Level::Maximum => {
+        //             self.sequences.led2.next();
+        //             self.sequences.led2.get_value() / 6
+        //         }
+        //     };
+        //     self.timers.led2_timer.service();
+        //     self.services.led2.set_amplitude(out);
+
+        //     // #[cfg(feature = "enable_print")]
+        //     // println!("led2 service");
+        // }
+
+        // services
+        if self.services.led0.need_service() {
+            self.interfaces
+                .pwm_core
+                .write_amplitude(self.services.led0.channel, self.services.led0.amplitude);
+            self.services.led0.service();
+        }
+        if self.services.led1.need_service() {
+            self.interfaces
+                .pwm_core
+                .write_amplitude(self.services.led1.channel, self.services.led1.amplitude);
+            self.services.led1.service();
+        }
+        // if self.services.led2.need_service() {
+        //     self.interfaces
+        //         .pwm_core
+        //         .write_amplitude(self.services.led2.channel, self.services.led2.amplitude);
+        //     self.services.led2.service();
+        // }
+
+        // TODO: disable when you get to the end automatically
+        // in the sequencer, not here
+        if self.services.sequencer.need_service() {
+            if let Some(out) = self.services.sequencer.service() {
+                if out == 0 {
+                    self.services.synth0.disable();
+                } else {
+                    self.services.synth0.enable();
+                    self.services.synth0.set_freq(out.into());
+                }
+            } else {
+                self.services.sequencer.disable();
+                self.services.synth0.disable();
+            }
+        }
+
+        if self.services.synth0.need_service() {
+            let out = match self.services.synth0.service() {
+                Some(value) => value / 6 / self.settings.volume.as_volume_divisor(),
+                None => 0,
+            };
+            self.interfaces
+                .pwm_core
+                .write_amplitude(ch32_hal::timer::Channel::Ch4, out);
+        }
+
+        if self.services.sample_player.need_service() {
+            self.services.sample_player.service();
+            let out = self.services.sample_player.get_amplitude() / 2;
+            self.interfaces
+                .pwm_core
+                .write_amplitude(ch32_hal::timer::Channel::Ch4, out as u8);
+        }
+    }
+}
+
+// interfaces to the app (for buttons, etc.)
+impl App {
+    pub fn shut_down(&mut self) {
+        self.interfaces
+            .pwm_core
+            .write_amplitude(self.services.led0.channel, 0);
+        self.interfaces
+            .pwm_core
+            .write_amplitude(self.services.led1.channel, 0);
+        crate::riscv::asm::delay(10_000_000);
+
+        self.interfaces.pwm_core.pwm.borrow().shutdown();
+        self.interfaces.adc_core.shutdown();
+
+        self.interfaces.amp.disable();
+    }
+    pub fn volume_button(&mut self) {
+        self.settings.volume.next();
+        #[cfg(feature = "enable_print")]
+        println!("new volume: {:?}", self.settings.volume);
+        self.services
+            .sequencer
+            .play_sequence(&crate::sequences::COIN_CHIRP, 0);
+        self.timers.shutdown_timer.reset();
+        self.timers.shutdown_timer.enable(true);
+    }
+    pub fn brightness_button(&mut self) {
+        self.settings.brightness.next();
+        #[cfg(feature = "enable_print")]
+        println!("new brightness: {:?}", self.settings.brightness);
+        self.timers.shutdown_timer.reset();
+        self.timers.shutdown_timer.enable(true);
+    }
+    pub fn main_button_press(&mut self) {
+        // TODO
+        #[cfg(feature = "enable_print")]
+        println!("main button press");
+        self.timers.sp_timer.reset();
+        self.timers.lp_timer.reset();
+        self.timers.shutdown_timer.reset();
+        self.timers.sp_timer.enable(true);
+        self.timers.lp_timer.enable(true);
+        self.timers.shutdown_timer.enable(true);
+        self.main_button_click();
+    }
+    pub fn main_button_release(&mut self) {
+        // TODO
+        // #[cfg(feature = "enable_print")]
+        // println!("main button release");
+        // let timers = (
+        //     self.timers.sp_timer.is_enabled(),
+        //     self.timers.lp_timer.is_enabled(),
+        // );
+
+        self.timers.sp_timer.reset();
+        self.timers.lp_timer.reset();
+        // match timers {
+        //     // click
+        //     (true, true) => self.main_button_click(),
+        //     // short press
+        //     (false, true) => self.main_button_short_press(),
+        //     // long press
+        //     (false, false) => self.main_button_long_press(),
+        //     // anything else is not possible
+        //     _ => {}
+        // }
+    }
+    pub fn coin_detect(&mut self) {
+        #[cfg(feature = "enable_print")]
+        println!("coin detect");
+        // self.services.sample_player.play_sample();
+        self.services
+            .sequencer
+            .play_sequence(&crate::sequences::COIN_CHIRP, 0);
+        self.timers.shutdown_timer.reset();
+        self.timers.shutdown_timer.enable(true);
+    }
+}
+
+// Events
+impl App {
+    pub fn main_button_click(&mut self) {
+        // TODO
+        #[cfg(feature = "enable_print")]
+        println!("click");
+        let data = self.sequences.audio[self.settings.button_sound_index];
+        self.services.sequencer.play_sequence(data.0, data.1);
+
+        self.settings.button_sound_index += 1;
+        if self.settings.button_sound_index > self.sequences.audio.len() - 1 {
+            self.settings.button_sound_index = 0;
+        }
+
+        self.services.synth0.enable();
+
+        // TODO:
+        // this is a hack to stop the coin thing from playing.
+        self.services.sample_player.disable();
+    }
+    fn main_button_short_press(&self) {
+        // TODO
+        #[cfg(feature = "enable_print")]
+        println!("short press");
+    }
+    fn main_button_long_press(&mut self) {
+        // TODO
+        #[cfg(feature = "enable_print")]
+        println!("long press");
+        self.set_state(State::DeepSleep);
+    }
+}
+
+// Getters
+impl App {
+    pub fn get_state(&self) -> State {
+        self.state
+    }
+    pub fn get_settings(&self) -> Settings {
+        self.settings
+    }
+    pub fn should_wake(&self) -> bool {
+        if self.interfaces.usb.powered() {
+            return true;
+        } else {
+            if self.interfaces.adc_core.get_average() >= 421 {
+                return true;
+            }
+        }
+        return false;
+    }
+}
+
+// TODO LIST
+// BROKEN:
+// 1. audio scaling causes crash
+// 2. popping on sample playback
+// 3. actual app sequence (start at idle?)
+//
+// AUDIO:
+// 3. amp_en control
+//
+// LED:
+//
+// INTERFACE:
+// 1. short press handling
+// 2. long press handling
+//
+// SYSTEM:
+// 1. deep sleep
+// 2. battery voltage monitoring
+// 3. battery voltage cutoff
+//
+// STRETCH TODO LIST
+// 1. clean up edge detector
+// 2. better handling for pwm scaling (brightness / volume)
+// 3. better interrupt handling structs
+// 4. led DynamicSequence

ch32v-insert-coin/src/debounced_gpio.rs

@@ -0,0 +1,66 @@
+use crate::insert_coin::{TickService, TickServiceData, TickTimerService};
+use ch32_hal::gpio::{AnyPin, Input, Pull};
+
+pub struct DebouncedGPIO<'a> {
+    input: Input<'a>,
+    // value of the GPIO
+    value: bool,
+    // GPIO is ready (debounced)
+    ready: bool,
+    // debouncer is active
+    active: bool,
+    // debounce timer
+    timer: TickTimerService,
+}
+
+impl<'a> DebouncedGPIO<'a> {
+    pub fn new(pin: AnyPin, system_tick_rate_hz: usize, debounce_time_ms: usize) -> Self {
+        // coin debounce timer (100ms)
+        Self {
+            input: Input::new(pin, Pull::None),
+            value: false,
+            ready: false,
+            active: false,
+            timer: TickTimerService::new(
+                TickServiceData::new(system_tick_rate_hz * debounce_time_ms / 1000),
+                false,
+            ),
+        }
+    }
+
+    pub fn ready(&self) -> bool {
+        self.ready
+    }
+
+    pub fn active(&self) -> bool {
+        self.active
+    }
+
+    pub fn value(&self) -> bool {
+        self.value
+    }
+
+    pub fn begin(&mut self) {
+        self.reset();
+        self.timer.enable(true);
+        self.active = true;
+    }
+
+    pub fn reset(&mut self) {
+        self.timer.reset();
+        self.ready = false;
+        self.active = false;
+    }
+
+    pub fn service(&mut self) {
+        self.timer.tick();
+        if self.timer.need_service() {
+            self.timer.reset();
+            self.value = self.input.is_high();
+            self.ready = true;
+        }
+    }
+    pub fn is_high_immediate(&self) -> bool {
+        self.input.is_high()
+    }
+}

ch32v-insert-coin/src/insert_coin/insert_coin.rs

@@ -0,0 +1,183 @@
+use ch32_hal::timer::simple_pwm::SimplePwm;
+use ch32_hal::timer::Channel;
+use ch32_hal::timer::GeneralInstance16bit;
+
+use crate::insert_coin::services::{DacService, LedService, Service, TickService, TickServiceData};
+
+// static mut led0_index: usize = 0;
+// static LED0: [u8; 8] = [0u8, 25u8, 50u8, 75u8, 100u8, 75u8, 50u8, 25u8];
+
+// static mut LED1_INDEX: usize = 0;
+// static LED1_DCS: [u8; 5] = [0u8, 25u8, 50u8, 75u8, 100u8];
+
+pub struct SimplePwmCore<'d, T: GeneralInstance16bit> {
+    pub pwm: core::cell::RefCell<SimplePwm<'d, T>>,
+}
+
+impl<'d, T: GeneralInstance16bit> SimplePwmCore<'d, T> {
+    pub fn new(pwm: SimplePwm<'d, T>) -> Self {
+        Self {
+            pwm: core::cell::RefCell::new(pwm),
+        }
+    }
+
+    // pub fn get_handle(&'d self, ch: Channel) -> SimplePwmHandle<'d, '_, T> {
+    //     SimplePwmHandle {
+    //         core: &self,
+    //         channel: ch,
+    //     }
+    // }
+
+    pub fn write_amplitude(&self, ch: Channel, amplitude: u8) {
+        if !self.pwm.borrow().is_enabled(ch) {
+            self.pwm.borrow_mut().enable(ch);
+        }
+        let max_duty = self.pwm.borrow().get_max_duty();
+        let dc = amplitude as u32 * max_duty / 100;
+        self.pwm.borrow_mut().set_duty(ch, dc);
+    }
+
+    pub fn disable(&self, ch: Channel) {
+        self.pwm.borrow_mut().disable(ch);
+    }
+}
+
+// pub struct SimplePwmHandle<T: GeneralInstance16Bit> {
+//     core: &'static SimplePwmCore<'_, T: GeneralInstance16Bit>,
+//     channel: Channel,
+// }
+
+// impl<T: GeneralInstance16Bit> SimplePwmHandle<T> {
+//     pub fn set_amplitude(&self, amplitude: u8) {}
+// }
+
+pub struct CoreConfig {
+    pub tick_rate_hz: usize,
+}
+impl CoreConfig {
+    pub fn new(tick_rate_hz: usize) -> Self {
+        Self { tick_rate_hz }
+    }
+}
+
+#[derive(Default)]
+struct Core {
+    _tick: usize,
+    active: bool,
+}
+
+pub struct InsertCoin<'a, T: GeneralInstance16bit> {
+    core: Core,
+    pub config: CoreConfig,
+    pwm_core: SimplePwmCore<'a, T>,
+    pub led0: LedService,
+    pub led1: LedService,
+    // led2: LedService,
+    pub dac: DacService<'a>,
+}
+
+impl<'a, T: GeneralInstance16bit> InsertCoin<'a, T> {
+    pub fn new(config: CoreConfig, pwm_core: SimplePwmCore<'a, T>) -> Self {
+        // LED0 servicer setup
+        let led0 = LedService::new(ch32_hal::timer::Channel::Ch3);
+
+        // LED1 servicer setup
+        let led1 = LedService::new(ch32_hal::timer::Channel::Ch1);
+
+        // DAC servicer setup
+        let dac_sample_rate_hz = 4000;
+        let dac_tick_per_service = config.tick_rate_hz / (dac_sample_rate_hz);
+        let dac_service_data = TickServiceData::new(dac_tick_per_service);
+        let dac = DacService::new(ch32_hal::timer::Channel::Ch4, dac_service_data);
+
+        Self {
+            config,
+            core: Default::default(),
+            pwm_core,
+            led0,
+            led1,
+            // led2,
+            dac,
+        }
+    }
+
+    /// takes self reference and runs
+    pub fn service(&mut self) {
+        if self.is_active() {
+            self.dac.tick();
+
+            if self.led0.need_service() {
+                self.pwm_core
+                    .write_amplitude(self.led0.channel, self.led0.amplitude);
+                self.led0.service();
+            }
+
+            if self.led1.need_service() {
+                self.pwm_core
+                    .write_amplitude(self.led1.channel, self.led1.amplitude);
+                self.led1.service();
+            }
+
+            if self.dac.need_service() {
+                self.dac.service();
+                // TODO: adpcm-pwm-dac:e4c811653781e69e40b63fd27a8c1e20
+                self.pwm_core
+                    .write_amplitude(self.dac.channel, self.dac.get_amplitude() as u8);
+            }
+        }
+    }
+
+    // /// consumes self and runs
+    // pub fn run(mut self) -> ! {
+    //     let mut delay = Delay;
+    //     let tick_interval_us = 1000000/self.config.tick_rate_hz;
+
+    //     let mut led0_index = 0;
+    //     let led0_dcs = [0u8, 25u8, 50u8, 75u8, 100u8, 75u8, 50u8, 25u8];
+
+    //     let mut led1_index = 0;
+    //     let led1_dcs = [0u8, 25u8, 50u8, 75u8, 100u8];
+
+    //     loop {
+    //         self.dac.tick();
+
+    //         if(self.led0.need_service()) {
+    //             self.led0.set_amplitude(led0_dcs[led0_index]);
+    //             self.pwm_core.write_amplitude(self.led0.channel, self.led0.amplitude);
+
+    //             led0_index += 1;
+    //             if led0_index > led0_dcs.len() - 1 {
+    //                 led0_index = 0;
+    //             }
+    //             self.led0.service();
+    //         }
+
+    //         if(self.led1.need_service()) {
+    //             self.led1.set_amplitude(led1_dcs[led1_index]);
+    //             self.pwm_core.write_amplitude(self.led1.channel, self.led1.amplitude);
+
+    //             led1_index += 1;
+    //             if led1_index > led1_dcs.len() - 1 {
+    //                 led1_index = 0;
+    //             }
+    //             self.led1.service();
+    //         }
+
+    //         if(self.dac.need_service()) {
+    //             self.dac.service();
+    //             // TODO: adpcm-pwm-dac:e4c811653781e69e40b63fd27a8c1e20
+    //             self.pwm_core.write_amplitude(self.dac.channel, self.dac.get_amplitude() as u8);
+    //         }
+
+    //         delay.delay_us(tick_interval_us as u32);
+    //     }
+    // }
+
+    pub fn is_active(&self) -> bool {
+        self.core.active
+    }
+
+    pub fn set_active(&mut self, active: bool) {
+        self.core.active = active;
+    }
+}

ch32v-insert-coin/src/insert_coin/mod.rs

@@ -0,0 +1,7 @@
+mod insert_coin;
+mod services;
+
+pub use services::{DacService, LedService, Service, TickTimerService};
+
+pub use insert_coin::{CoreConfig, InsertCoin, SimplePwmCore};
+pub use services::{TickService, TickServiceData};

ch32v-insert-coin/src/insert_coin/services/dac.rs

@@ -0,0 +1,68 @@
+use crate::insert_coin::services::{TickService, TickServiceData};
+
+use adpcm_pwm_dac::dac::DpcmDecoder;
+use ch32_hal::timer::Channel;
+
+pub struct DacService<'a> {
+    service_data: core::cell::RefCell<TickServiceData>,
+    dpcm_decoder: core::cell::RefCell<DpcmDecoder<'a>>,
+    amplitude: core::cell::RefCell<usize>,
+    pub channel: Channel,
+    enabled: bool,
+}
+
+impl<'a> DacService<'a> {
+    pub fn new(channel: Channel, service_data: TickServiceData) -> Self {
+        Self {
+            service_data: core::cell::RefCell::new(service_data),
+            dpcm_decoder: core::cell::RefCell::new(DpcmDecoder::new()),
+            amplitude: core::cell::RefCell::new(0),
+            channel,
+            enabled: false,
+        }
+    }
+
+    pub fn play_sample(&mut self) {
+        self.dpcm_decoder.borrow_mut().seek_to_sample(0);
+        self.enabled = true;
+    }
+
+    pub fn disable(&mut self) {
+        self.enabled = false;
+    }
+
+    pub fn load_data(&self, data: &'a [u8]) {
+        self.dpcm_decoder.borrow_mut().load_data(data);
+        self.dpcm_decoder.borrow_mut().seek_to_sample(0);
+    }
+
+    pub fn set_amplitude(&self, amplitude: usize) {
+        self.amplitude.replace(amplitude);
+    }
+    pub fn get_amplitude(&self) -> usize {
+        *self.amplitude.borrow()
+    }
+}
+
+impl<'a> TickService for DacService<'a> {
+    fn tick(&self) {
+        if self.enabled {
+            let mut tc = self.service_data.borrow_mut();
+            tc.ticks_remaining = tc.ticks_remaining.saturating_sub(1);
+        }
+    }
+
+    fn need_service(&self) -> bool {
+        self.enabled && self.service_data.borrow().ticks_remaining == 0
+    }
+
+    fn service(&self) {
+        let mut tc = self.service_data.borrow_mut();
+        tc.ticks_remaining = tc.ticks_per_service;
+        if (self.dpcm_decoder.borrow().is_done()) {
+            self.set_amplitude(0);
+        } else {
+            self.set_amplitude(self.dpcm_decoder.borrow_mut().output_next());
+        }
+    }
+}

ch32v-insert-coin/src/insert_coin/services/led.rs

@@ -0,0 +1,36 @@
+use ch32_hal::timer::Channel;
+
+use crate::insert_coin::services::Service;
+
+pub struct LedService {
+    // need_service: core::cell::RefCell<bool>,
+    need_service: bool,
+    pub channel: Channel,
+    pub amplitude: u8,
+}
+
+impl LedService {
+    pub fn new(channel: Channel) -> Self {
+        Self {
+            // service_data: core::cell::RefCell::new(service_data),
+            need_service: false,
+            channel,
+            amplitude: 0,
+        }
+    }
+
+    pub fn set_amplitude(&mut self, amplitude: u8) {
+        self.amplitude = amplitude;
+        self.need_service = true;
+    }
+}
+
+impl Service for LedService {
+    fn need_service(&self) -> bool {
+        self.need_service
+    }
+
+    fn service(&mut self) {
+        self.need_service = false;
+    }
+}

ch32v-insert-coin/src/insert_coin/services/mod.rs

@@ -0,0 +1,11 @@
+mod services;
+pub use services::{TickService, TickServiceData, Service};
+
+mod led;
+pub use led::LedService;
+
+mod dac;
+pub use dac::DacService;
+
+mod tick_timer;
+pub use tick_timer::TickTimerService;

ch32v-insert-coin/src/insert_coin/services/services.rs

@@ -0,0 +1,31 @@
+pub struct TickServiceData {
+    pub ticks_per_service: usize,
+    pub ticks_remaining: usize,
+}
+
+impl TickServiceData {
+    pub fn new(ticks_per_service: usize) -> Self {
+        Self {
+            ticks_per_service,
+            ticks_remaining: ticks_per_service,
+        }
+    }
+}
+
+pub trait TickService {
+    /// indicate to the service that a tick has occurred
+    fn tick(&self);
+
+    /// return true if service needs the service() routine run
+    fn need_service(&self) -> bool;
+
+    /// service routine - handle what needs to be done (non blocking) when 
+    /// the service needs to be serviced here
+    fn service(&self);
+}
+
+
+pub trait Service {
+    fn need_service(&self) -> bool;
+    fn service(&mut self);
+}

ch32v-insert-coin/src/insert_coin/services/tick_timer.rs

@@ -0,0 +1,49 @@
+use crate::insert_coin::services::{TickService, TickServiceData};
+
+pub struct TickTimerService {
+    service_data: core::cell::RefCell<TickServiceData>,
+    _auto_reset: bool,
+    enabled: bool,
+}
+
+impl TickTimerService {
+    pub fn new(service_data: TickServiceData, auto_reset: bool) -> Self {
+        Self {
+            service_data: core::cell::RefCell::new(service_data),
+            _auto_reset: auto_reset,
+            enabled: false,
+        }
+    }
+
+    pub fn is_enabled(&self) -> bool {
+        self.enabled
+    }
+
+    pub fn reset(&mut self) {
+        let mut sd = self.service_data.borrow_mut();
+        sd.ticks_remaining = sd.ticks_per_service;
+        self.enabled = false;
+    }
+
+    pub fn enable(&mut self, enable: bool) {
+        self.enabled = enable;
+    }
+}
+
+impl TickService for TickTimerService {
+    fn tick(&self) {
+        if self.enabled {
+            let mut tc = self.service_data.borrow_mut();
+            tc.ticks_remaining = tc.ticks_remaining.saturating_sub(1);
+        }
+    }
+
+    fn need_service(&self) -> bool {
+        self.enabled && self.service_data.borrow().ticks_remaining == 0
+    }
+
+    fn service(&self) {
+        let mut tc = self.service_data.borrow_mut();
+        tc.ticks_remaining = tc.ticks_per_service;
+    }
+}

ch32v-insert-coin/src/main.rs

@@ -3,222 +3,646 @@
 #![feature(type_alias_impl_trait)]
 #![feature(impl_trait_in_assoc_type)]
 
-use adpcm_pwm_dac::dac::DpcmDac;
-use {ch32_hal as hal};
-use hal::peripherals::EXTI4;
-use hal::{bind_interrupts, interrupt};
+// app stuff
+mod insert_coin;
+
+// system stuff
+mod system;
+
+mod debounced_gpio;
+use debounced_gpio::DebouncedGPIO;
+
+// synthesizer :3
+mod synthesizer;
+use synthesizer::SynthesizerService;
+
+// sequences
+mod sequences;
+use sequences::SEQUENCE_LIST;
+
+mod app;
+use app::{
+    sequencer::BasicSequence, App, Config, Interfaces, Sequences, Services, State, TimerConfig,
+};
+
+use ch32_hal::{adc::AdcChannel, interrupt::typelevel::Handler, timer::low_level::OutputPolarity};
+use insert_coin::{CoreConfig, DacService, InsertCoin, LedService, SimplePwmCore};
+
+use ch32_hal as hal;
+use hal::bind_interrupts;
 use hal::delay::Delay;
-use hal::gpio::{AnyPin, Level, Input, Output, Pin, Pull};
+use hal::gpio::{AnyPin, Input, Level, Output, OutputOpenDrain, Pin, Pull};
 use hal::time::Hertz;
 use hal::timer::low_level::CountingMode;
 use hal::timer::simple_pwm::{PwmPin, SimplePwm};
-use hal::timer::{Channel, GeneralInstance16bit};
 
-// const DAC_DATA: [u8; 4] = [0x0, 0x80, 0xFF, 0x80];
-const DAC_DATA: [u8; 8] = [0, 25, 50, 75, 100, 75, 50, 25];
+use hal::println;
 
-// DPCS DATA
-// step size: 5
-// 0
-// + 25 -> [1, 0, 1, 1] -> 0xB
-// + 25 -> 0xB
-// + 25 -> 0xB
-// + 25 -> 0xB
-// - 25 -> 0xA
-// - 25 -> 0xA
-// - 25 -> 0xA
-const DPCM_DAC_DATA: [u8; 4] = [0xBB, 0xBB, 0xAA, 0xAA];
+use qingke::riscv;
 
-// const DATA2: [u8; 1] = [0x00u8];
+use crate::app::sequencer::{DynamicSequence, SequenceEntry};
 
+static LED0_SEQ: [u8; 8] = [0u8, 25u8, 50u8, 75u8, 100u8, 75u8, 50u8, 25u8];
 
-static mut IRQ1_FLAG: bool = false;
-
-struct SimplePwmDacPin<'d, T: GeneralInstance16bit>{
-    pin: SimplePwm<'d, T>,
-    ch: Channel,
+pub struct Usb {
+    usb_pin: Input<'static>,
 }
 
+impl Usb {
+    pub fn new(usb_pin: Input<'static>) -> Self {
+        Self { usb_pin }
+    }
+    pub fn powered(&self) -> bool {
+        self.usb_pin.is_high()
+    }
+    // pub fn enable(&mut self) {
+    //     self.usb_pin.set_as_input(Pull::Up);
+    // }
+    // pub fn disable(&mut self) {
+    //     self.usb_pin.set_as_input(Pull::None);
+    // }
+}
 
-use adpcm_pwm_dac::{interface::DacInterface, dac::Dac};
+pub struct Amplifier {
+    amp_en: OutputOpenDrain<'static>,
+}
 
-impl<T> DacInterface for SimplePwmDacPin<'_, T> 
-where T: GeneralInstance16bit {
-    fn write_amplitude(&mut self, amplitude: u8) {
-        let max_duty = self.pin.get_max_duty();
-        let dc = amplitude as u32 * max_duty / 100;
-        self.pin.set_duty(self.ch, dc);
+impl Amplifier {
+    pub fn new(amp_en: OutputOpenDrain<'static>) -> Self {
+        let mut amp = Self { amp_en };
+        amp.disable();
+        amp
+    }
+    pub fn enable(&mut self) {
+        self.amp_en.set_low();
+    }
+    pub fn disable(&mut self) {
+        self.amp_en.set_high();
+    }
+    pub fn enabled(&self) -> bool {
+        !self.amp_en.is_set_high()
     }
 }
 
-fn blink(pin: AnyPin, interval_ms: u64) {
-    let mut led = Output::new(pin, Level::Low, Default::default());
+use hal::adc::Adc;
+use hal::peripherals::{ADC1, PD4};
 
-    let mut delay = Delay;
+pub struct AdcCore {
+    adc: Adc<'static, ADC1>,
+    battery_pin: PD4,
+    batt_values: [u16; 10],
+    index: usize,
+}
+
+impl AdcCore {
+    pub fn new(mut adc: Adc<'static, ADC1>, pin: PD4) -> Self {
+        riscv::asm::delay(20_000);
+        adc.calibrate();
+        Self {
+            adc,
+            battery_pin: pin,
+            batt_values: [1024; 10],
+            index: 0,
+        }
+    }
+
+    // TODO make this a float or something
+    pub fn get_battery_voltage(&mut self) -> u16 {
+        let val = self
+            .adc
+            .convert(&mut self.battery_pin, hal::adc::SampleTime::CYCLES241);
+        self.batt_values[self.index] = val;
+        self.index += 1;
+        if self.index > &self.batt_values.len() - 1 {
+            self.index = 0;
+        }
+        val
+    }
+
+    pub fn get_average(&self) -> u16 {
+        let mut sum = 0;
+        for value in &self.batt_values {
+            sum += value;
+        }
+        sum / self.batt_values.len() as u16
+    }
+
+    pub fn shutdown(&mut self) {
+        self.adc.shutdown()
+    }
+}
+
+#[derive(Debug)]
+struct Flag {
+    value: bool,
+}
+impl Flag {
+    pub fn active(&self) -> bool {
+        unsafe { core::ptr::read_volatile(&raw const self.value as *const bool) }
+    }
+    pub fn set(&mut self) {
+        unsafe { core::ptr::write_volatile(&raw mut self.value as *mut bool, true) }
+    }
+    pub fn clear(&mut self) {
+        unsafe { core::ptr::write_volatile(&raw mut self.value as *mut bool, false) }
+    }
+}
+
+#[derive(Debug)]
+struct InputFlags {
+    sense_coin_flag: Flag,
+    main_btn_flag: Flag,
+    volume_btn_flag: bool,
+    light_ctrl_btn_flag: bool,
+    systick_flag: Flag,
+}
+
+impl Default for InputFlags {
+    fn default() -> Self {
+        Self {
+            sense_coin_flag: Flag { value: false },
+            main_btn_flag: Flag { value: false },
+            volume_btn_flag: false,
+            light_ctrl_btn_flag: false,
+            systick_flag: Flag { value: false },
+        }
+    }
+}
+
+static mut INPUT_FLAGS: InputFlags = InputFlags {
+    sense_coin_flag: Flag { value: false },
+    main_btn_flag: Flag { value: false },
+    volume_btn_flag: false,
+    light_ctrl_btn_flag: false,
+    systick_flag: Flag { value: false },
+};
+
+struct Test {}
+impl Handler<hal::interrupt::typelevel::EXTI7_0> for Test {
+    unsafe fn on_interrupt() {
+        // #[cfg(feature = "enable_print")]
+        // println!("on_interrupt()");
+        critical_section::with(|_| unsafe {
+            let flags = system::clear_interrupt(2, 6);
+            if flags[0] {
+                // safe because single-threaded
+                #[allow(static_mut_refs)]
+                INPUT_FLAGS.sense_coin_flag.set();
+            }
+            if flags[1] {
+                #[allow(static_mut_refs)]
+                INPUT_FLAGS.main_btn_flag.set();
+            }
+        });
+    }
+}
+
+#[qingke_rt::interrupt(core)]
+fn SysTick() {
+    let r = &ch32_hal::pac::SYSTICK;
+
+    // Clear interrupt flag
+    r.sr().write(|w| w.set_cntif(false));
+
+    unsafe {
+        // safe because single-threaded
+        #[allow(static_mut_refs)]
+        INPUT_FLAGS.systick_flag.set();
+    }
+}
+
+fn systick_init(tick_freq_hz: usize) {
+    let r = &ch32_hal::pac::SYSTICK;
+
+    // Calculate counts per millisecond using HCLK/8 as clock source
+    // HCLK/8 = 48MHz/8 = 6MHz
+    // For tick_freq_hz interrupt: 6MHz / tick_freq_hz
+    let systick_per_tick = (48_000_000 / 8 / tick_freq_hz) as u32;
+
+    // Reset SysTick
+    r.ctlr().write(|w| {
+        // Start with everything disabled
+    });
+
+    // Set compare register and reset counter
+    r.cmp().write_value(systick_per_tick - 1);
+    r.cnt().write_value(0);
+
+    // Clear interrupt flag
+    r.sr().write(|w| w.set_cntif(false));
+
+    // Configure and start SysTick
+    r.ctlr().write(|w| {
+        w.set_ste(true); // Enable counter
+        w.set_stie(true); // Enable interrupt
+        w.set_stre(true); // Auto reload enable
+        w.set_stclk(ch32_hal::pac::systick::vals::Stclk::HCLK_DIV8); // HCLK/8 clock source
+    });
+}
+fn systick_stop() {
+    let r = &ch32_hal::pac::SYSTICK;
+    // Reset SysTick
+    r.ctlr().write(|w| {
+        // Start with everything disabled
+    });
+}
+
+bind_interrupts!(struct Irqs {
+    EXTI7_0 => Test;
+});
+
+// TODO: remove
+use app::settings::Settings;
+use insert_coin::TickTimerService;
+use insert_coin::{TickService, TickServiceData};
+
+fn app_main(mut p: hal::Peripherals, app_settings: Settings) -> Settings {
+    // initialize ADC core first, and exit if battery is too low
+    let mut adc = hal::adc::Adc::new(p.ADC1, Default::default());
+    let mut batt_monitor_pin = p.PD4;
+    let mut adc_core = AdcCore::new(adc, batt_monitor_pin);
+
+    let mut usb_detect_pin = p.PD5;
+    let usb_detect_input = Input::new(usb_detect_pin, Pull::Up);
+    let usb = Usb::new(usb_detect_input);
+
+    let bv = adc_core.get_battery_voltage();
+
+    // if we don't have USB power, and the batt ADC reads under 421, don't wake
+    if !usb.powered() && bv < 421 {
+        adc_core.shutdown();
+        return app_settings;
+    }
+    // === output setup ===
+
+    // LED0 output setup
+    let led0_pin = PwmPin::new_ch3::<0>(p.PC3);
+    let led0_ch = hal::timer::Channel::Ch3;
+
+    // LED1 output setup
+    let led1_pin = PwmPin::new_ch1::<0>(p.PD2);
+    let led1_ch = hal::timer::Channel::Ch1;
+
+    // DAC output setup
+    let dac_pin = PwmPin::new_ch4::<0>(p.PC4);
+    // let dac_ch = hal::timer::Channel::Ch4;
+
+    // PWM timer setup
+    let mut pwm = SimplePwm::new(
+        p.TIM1,
+        Some(led1_pin),
+        // Some(led2_pin),
+        None,
+        Some(led0_pin),
+        Some(dac_pin),
+        Hertz::khz(200),
+        CountingMode::default(),
+    );
+
+    pwm.set_polarity(led0_ch, OutputPolarity::ActiveHigh);
+    pwm.set_polarity(led1_ch, OutputPolarity::ActiveLow);
+    let mut pwm_core = SimplePwmCore::new(pwm);
+    pwm_core.write_amplitude(led0_ch, 0);
+    pwm_core.write_amplitude(led1_ch, 0);
+
+    // pwm.set_polarity(led2_ch, OutputPolarity::ActiveLow);
+
+    let tick_rate_hz = 50000;
+
+    let core_config = CoreConfig::new(tick_rate_hz);
+
+    // === input setup ===
+
+    // adc
+    // let mut adc = hal::adc::Adc::new(p.ADC1, Default::default());
+    // let mut batt_monitor_pin = p.PD4;
+    // let adc_core = AdcCore::new(adc, batt_monitor_pin);
+
+    // adc2
+    // let mut usb_detect_dc = hal::adc::Adc::new(p.ADC1, Default::default());
+
+    // println!("ADC_PIN CHANNEL: {}", adc_pin.channel().channel());
+
+    // #[cfg(feature = "enable_print")]
+    // println!("ADC calibration value: {}", adc_cal);
+
+    // definitions
+    let sense_coin_pin = p.PC2;
+    let main_btn_pin = p.PD6;
+    let volume_btn_pin = p.PC6;
+    let light_ctrl_btn_pin = p.PC7;
+    let amp_en = p.PC5;
+    // let extra_io_1 = p.PD0;
+    // let extra_io_2 = p.PD3;
+
+    let mut amp_en_output = OutputOpenDrain::new(amp_en, Level::Low, Default::default());
+    let amp = Amplifier::new(amp_en_output);
+
+    // set up interrupts
+    unsafe { system::init_gpio_irq(sense_coin_pin.pin(), sense_coin_pin.port(), true, false) };
+    unsafe { system::init_gpio_irq(main_btn_pin.pin(), main_btn_pin.port(), true, true) };
+
+    // coin debouncer (100ms)
+    let mut sense_coin_input =
+        DebouncedGPIO::new(sense_coin_pin.degrade(), core_config.tick_rate_hz, 20);
+    // main button debouncer (100ms)
+    let mut main_btn_input =
+        DebouncedGPIO::new(main_btn_pin.degrade(), core_config.tick_rate_hz, 20);
+    // button debouncer (100ms)
+    let mut volume_btn_input =
+        DebouncedGPIO::new(volume_btn_pin.degrade(), core_config.tick_rate_hz, 100);
+    // button debouncer (100ms)
+    let mut light_ctrl_btn_input =
+        DebouncedGPIO::new(light_ctrl_btn_pin.degrade(), core_config.tick_rate_hz, 100);
+
+    let timer_config = TimerConfig {
+        sp_timer_ms: 1000,
+        lp_timer_ms: 3000,
+        batt_adc_timer_ms: 1000,
+        usb_adc_timer_ms: 10000,
+        led0_timer_ms: 100,
+        led1_timer_ms: 100,
+        // 4 hours:
+        // shutdown_timer_s: 1,
+        shutdown_timer_s: 4 * 60 * 60 * 110 / 100,
+        // led2_timer_ms: 100,
+    };
+
+    let app_config = Config {
+        system_tick_rate_hz: tick_rate_hz,
+        timers: timer_config,
+    };
+
+    // DAC servicer setup
+    let dac_sample_rate_hz = 16000;
+    let dac_tick_per_service = tick_rate_hz / dac_sample_rate_hz;
+    let dac_service_data = TickServiceData::new(dac_tick_per_service);
+
+    // let coin_sound = include_bytes!("../audio/coin5.raw");
+    // let coin_sound = include_bytes!("../audio/coin2.raw");
+
+    let sample_player = DacService::new(ch32_hal::timer::Channel::Ch4, dac_service_data);
+    // sample_player.load_data(coin_sound);
+
+    let sequencer = app::sequencer::DynamicSequence::new(&SEQUENCE_LIST[0].0, tick_rate_hz);
+
+    let app_services = Services {
+        led0: LedService::new(led0_ch),
+        led1: LedService::new(led1_ch),
+        // led2: LedService::new(led2_ch),
+        synth0: SynthesizerService::new(tick_rate_hz),
+        sample_player,
+        sequencer,
+    };
+
+    let app_sequences = Sequences {
+        led0: BasicSequence::new(&LED0_SEQ),
+        led1: BasicSequence::new(&LED0_SEQ),
+        // led2: BasicSequence::new(&LED0_SEQ),
+        audio: &SEQUENCE_LIST,
+    };
+
+    let app_interfaces = Interfaces {
+        pwm_core,
+        adc_core,
+        amp,
+        usb,
+    };
+
+    let mut app = App::new(
+        app_config,
+        app_services,
+        app_sequences,
+        app_interfaces,
+        app_settings,
+    );
+
+    let need_sound = unsafe {
+        #[allow(static_mut_refs)]
+        if INPUT_FLAGS.main_btn_flag.active() {
+            #[allow(static_mut_refs)]
+            INPUT_FLAGS.main_btn_flag.clear();
+            true
+        } else {
+            false
+        }
+    };
+
+    // init systick
+    systick_init(tick_rate_hz);
+
+    // set up interrupts
+    unsafe {
+        use hal::pac::Interrupt;
+        use qingke::interrupt::Priority;
+        use qingke_rt::CoreInterrupt;
+
+        system::clear_interrupt(2, 6);
+
+        qingke::pfic::set_priority(CoreInterrupt::SysTick as u8, Priority::P15 as u8);
+
+        qingke::pfic::enable_interrupt(Interrupt::EXTI7_0 as u8);
+        qingke::pfic::enable_interrupt(CoreInterrupt::SysTick as u8);
+    }
+
+    // MAIN APPLICATION
+    // process
+    // -depress big button (insert coin button) and it wakes up and turns on led one led at a fixed brightness
+    // -we will want one sound, the coin insert sound, to play when coin button is pressed. (This is when they insert a coin)
+    // -We will want a different sound or potentially multiple different sounds played in a rotating fashion when someone presses the button. Probably do some led blinking as well.(This is when they depress the big insert to play button)
+    // -depress the big button for approx 2s and it puts the led into low light mode. Just making it dimmer than usual.
+    // -depress the big button for 5s and it goes into deep sleep, everything off with the low sleep current draw
+
+    // #[cfg(feature = "enable_print")]
+    // println!("begin");
+    let mut volume_btn_prev = volume_btn_input.is_high_immediate();
+    let mut light_ctrl_btn_prev = light_ctrl_btn_input.is_high_immediate();
+
+    app.init();
+    if need_sound {
+        app.main_button_click();
+    }
+    loop {
+        // system servicing
+
+        // volume edge detector
+        if !volume_btn_input.active() {
+            let volume_btn_curr = volume_btn_input.is_high_immediate();
+            if volume_btn_prev != volume_btn_curr {
+                volume_btn_input.begin();
+                volume_btn_prev = volume_btn_curr;
+            }
+        }
+
+        volume_btn_input.service();
+        if volume_btn_input.ready() {
+            // #[cfg(feature = "enable_print")]
+            // println!("volume btn value: {}", volume_btn_input.value());
+            if !volume_btn_input.value() {
+                app.volume_button();
+            }
+            volume_btn_input.reset();
+        }
+
+        // brightness edge detector
+        if !light_ctrl_btn_input.active() {
+            let light_ctrl_btn_curr = light_ctrl_btn_input.is_high_immediate();
+            if light_ctrl_btn_prev != light_ctrl_btn_curr {
+                light_ctrl_btn_input.begin();
+                light_ctrl_btn_prev = light_ctrl_btn_curr;
+            }
+        }
+
+        light_ctrl_btn_input.service();
+        if light_ctrl_btn_input.ready() {
+            #[cfg(feature = "enable_print")]
+            println!("brightness btn value: {}", light_ctrl_btn_input.value());
+            if !light_ctrl_btn_input.value() {
+                app.brightness_button();
+            }
+            light_ctrl_btn_input.reset();
+        }
+
+        // coin_detect interrupt
+
+        unsafe {
+            #[allow(static_mut_refs)]
+            if INPUT_FLAGS.sense_coin_flag.active() {
+                #[allow(static_mut_refs)]
+                INPUT_FLAGS.sense_coin_flag.clear();
+                sense_coin_input.begin();
+            }
+            sense_coin_input.service();
+            if sense_coin_input.ready() {
+                sense_coin_input.reset();
+                app.coin_detect();
+            }
+        }
+
+        // main button handling
+        unsafe {
+            #[allow(static_mut_refs)]
+            if INPUT_FLAGS.main_btn_flag.active() {
+                #[allow(static_mut_refs)]
+                INPUT_FLAGS.main_btn_flag.clear();
+                main_btn_input.begin();
+            }
+        }
+        main_btn_input.service();
+        if main_btn_input.ready() {
+            let value = main_btn_input.value();
+            main_btn_input.reset();
+            // #[cfg(feature = "enable_print")]
+            // println!("main button", value);
+
+            match value {
+                true => app.main_button_press(),
+                false => app.main_button_release(),
+            }
+        }
+
+        // systick tick
+        if unsafe {
+            #[allow(static_mut_refs)]
+            INPUT_FLAGS.systick_flag.active()
+        } {
+            unsafe {
+                #[allow(static_mut_refs)]
+                INPUT_FLAGS.systick_flag.clear();
+            }
+            // app tick
+            app.tick();
+        }
+
+        app.service();
+
+        match app.get_state() {
+            // enter standby
+            app::State::DeepSleep => {
+                app.shut_down();
+                return app.get_settings();
+            }
+            _ => {}
+        }
+    }
+}
+
+use ch32_hal::timer::low_level::{OutputCompareMode, Timer};
+use ch32_hal::timer::Channel;
+
+// fn shutdown_main(p: Peripherals) {
+fn shutdown_main(p: hal::Peripherals) {
+    systick_stop();
+    // LED0 output setup
+    let led0_pin = OutputOpenDrain::new(p.PC3, Level::Low, Default::default());
+    let led1_pin = OutputOpenDrain::new(p.PD2, Level::High, Default::default());
+    let led2_pin = OutputOpenDrain::new(p.PA1, Level::High, Default::default());
+    let dac_pin = OutputOpenDrain::new(p.PC4, Level::Low, Default::default());
+    let mut amp_pin = OutputOpenDrain::new(p.PC5, Level::Low, Default::default());
+    amp_pin.set_high();
+    let volume_btn_pin = OutputOpenDrain::new(p.PC6, Level::Low, Default::default());
+    let light_ctrl_btn_pin = OutputOpenDrain::new(p.PC7, Level::Low, Default::default());
+    let usb_detect_input = OutputOpenDrain::new(p.PD5, Level::Low, Default::default());
+
+    let sense_coin_pin = p.PC2;
+    let main_btn_pin = p.PD6;
+
+    unsafe { system::init_gpio_irq(sense_coin_pin.pin(), sense_coin_pin.port(), true, false) };
+    unsafe { system::init_gpio_irq(main_btn_pin.pin(), main_btn_pin.port(), true, false) };
+
+    let sense_coin_pin = Input::new(sense_coin_pin, Pull::None);
+    let main_btn_pin = Input::new(main_btn_pin, Pull::None);
+
+    riscv::asm::delay(1_000_000);
 
     loop {
-        let hb_count = 3;
-        let hb_period_ms = 1000;
-        for _ in 0..hb_count {
-            led.set_low();
-            delay.delay_ms((interval_ms/2) as u32);
-            led.set_high();
-            delay.delay_ms((interval_ms/2) as u32);
+        unsafe { system::enter_standby() };
+        riscv::asm::wfi();
+        unsafe {
+            #[allow(static_mut_refs)]
+            if (INPUT_FLAGS.sense_coin_flag.active() || INPUT_FLAGS.main_btn_flag.active())
+            // && app.should_wake()
+            {
+                break;
+            }
         }
-        delay.delay_ms((hb_period_ms - (interval_ms * hb_count)) as u32);
     }
 }
 
-fn pwm_blink<T: GeneralInstance16bit>(mut pwm_dac_pin: SimplePwmDacPin<'_, T>) {
-    let mut delay = Delay;
-
-
-
-    let interval_ms = 1000u32;
-    loop {
-        pwm_dac_pin.write_amplitude(75);
-        delay.delay_ms((interval_ms/2) as u32);
-        pwm_dac_pin.write_amplitude(50);
-        delay.delay_ms((interval_ms/2) as u32);
-        pwm_dac_pin.write_amplitude(25);
-        delay.delay_ms((interval_ms/2) as u32);
-    }
-}
-
-// // fn dac_run<T: DacInterface>(mut dac: Dac<'_, T>, sample_rate: usize) {
-// fn dac_run<T: DacInterface>(mut dac: DpcmDac<'_, T>, sample_rate: usize) {
-    
-
-//     dac.load_data(data);
-//     // dac.load_data(&DAC_DATA);
-
-//     let interval_us = 1000000/sample_rate as u32;
-//     loop {
-
-//     }
-// }
-
-
-#[qingke_rt::interrupt]
-fn EXTI4(){
-    unsafe{IRQ1_FLAG = true;};
-}
-// bind_interrupts!(struct Irqs {
-//     EXTI4 => button_press();
-// });
-
 #[qingke_rt::entry]
 fn main() -> ! {
+    #[cfg(feature = "enable_print")]
+    hal::debug::SDIPrint::enable();
+
     let mut config = hal::Config::default();
-    config.rcc = hal::rcc::Config::SYSCLK_FREQ_48MHZ_HSE;
-    let p = hal::init(config);
+    config.rcc = hal::rcc::Config::SYSCLK_FREQ_48MHZ_HSI;
+    let mut p = hal::init(config);
 
+    // delay to let the debugger attach
+    // println!("pre");
+    riscv::asm::delay(20_000_000);
+    // println!("post");
+    // debug_main(p);
 
-    // button 1 setup
-    // let b1 = Input::new(p.PA2, Pull::Up);
+    let mut app_settings = Settings::default();
 
-    // p.EXTI4
-    let ei = hal::exti::ExtiInput::new(p.PD4, p.EXTI4, Pull::Up);
-
-    // let led_pin = PwmPin::new_ch4::<0>(p.PD0);
-    // let ch = hal::timer::Channel::Ch4;
-    // let mut pwm = SimplePwm::new(
-    //     p.TIM1,
-    //     None,
-    //     None,
-    //     None,
-    //     Some(pin),
-    //     Hertz::khz(100),
-    //     CountingMode::default(),
-    // );
-    // pwm.enable(ch);
-
-    // 
-    
-    // LED output setup
-    let mut led = Output::new(p.PD0, Level::Low, Default::default());
-
-    // LED1 output setup
-    let mut led1 = Output::new(p.PD6, Level::High, Default::default());
-    
-
-    // PWM DAC output pin setup
-    let pin = PwmPin::new_ch4::<0>(p.PC4);
-    let ch = hal::timer::Channel::Ch4;
-    let mut pwm = SimplePwm::new(
-        p.TIM1,
-        None,
-        None,
-        None,
-        Some(pin),
-        Hertz::khz(100),
-        CountingMode::default(),
-    );
-    pwm.enable(ch);
-    let mut pwm_dac_pin = SimplePwmDacPin{pin: pwm, ch};
-
-
-    let mut delay = Delay;
-
-
-
-    // DAC setup
-    let mut dac = DpcmDac::new(pwm_dac_pin);
-    let data = include_bytes!("../../../dpcm-encoder-decoder/sweep_dpcm_u4.raw");
-    dac.load_data(data);
-
-
-    // DAC servicer computations
-    let mut dac_active = true;
-    let sample_rate_hz = 16000;
-    let dac_tick_per_service = 5;
-    let tick_rate_hz = sample_rate_hz * dac_tick_per_service;
-    let tick_interval = 1000000/(tick_rate_hz);
-
-    // LED servicer computations
-    let mut led_active = true;
-    let led_blink_rate_hz = 3; 
-    let led_tick_per_service = (tick_rate_hz/(led_blink_rate_hz * 2));
-
-    // LED1 servicer vars
-    let mut led1_need_service = false;
-
-
-    // pwm_blink(pwm_dac_pin);    
-    let mut tick: usize = 0;
-    loop{
-        // handle IRQ flags
+    loop {
         unsafe {
-            if(IRQ1_FLAG) {
-                led1_need_service = true;
-                // led_active = true;
-                IRQ1_FLAG = false;
-            }
+            hal::rcc::init(hal::rcc::Config::SYSCLK_FREQ_48MHZ_HSI);
         }
+        let mut p = unsafe { hal::Peripherals::steal() };
+        app_settings = app_main(p, app_settings);
 
-        let dac_need_service = ((tick % dac_tick_per_service) == 0);
-        if(dac_need_service && dac_active) {
-            dac_active = dac.output_next();
+        unsafe {
+            hal::rcc::init(hal::rcc::Config::SYSCLK_FREQ_48MHZ_HSI);
         }
-
-        let led_need_service = ((tick % led_tick_per_service) == 0);
-        if(led_need_service && led_active) {
-            led.toggle();
+        let mut p = unsafe { hal::Peripherals::steal() };
+        shutdown_main(p);
     }
-
-        if led1_need_service {
-            led1.set_low();
-            led1_need_service = false;
-        }
-
-        tick = tick.wrapping_add(1);
-        delay.delay_us(tick_interval as u32);
-    };
 }
 
-
 #[panic_handler]
-fn panic(info: &core::panic::PanicInfo) -> ! {
+fn panic(_info: &core::panic::PanicInfo) -> ! {
+    // println!("panic: {info:?}");
     loop {}
 }
-

ch32v-insert-coin/src/sequences.rs

@@ -0,0 +1,346 @@
+use crate::app::sequencer::SequenceEntry;
+
+pub static TEST_SEQ: [SequenceEntry; 2] = [
+    SequenceEntry {
+        frequency_hz: 440,
+        duration_ms: 1000,
+    },
+    SequenceEntry {
+        frequency_hz: 220,
+        duration_ms: 1000,
+    },
+];
+
+pub static TEST_SEQ1: [SequenceEntry; 2] = [
+    SequenceEntry {
+        frequency_hz: 440,
+        duration_ms: 100,
+    },
+    SequenceEntry {
+        frequency_hz: 220,
+        duration_ms: 100,
+    },
+];
+
+// play twice
+pub static WAHWAH: [SequenceEntry; 9] = [
+    SequenceEntry {
+        frequency_hz: 100,
+        duration_ms: 25,
+    },
+    SequenceEntry {
+        frequency_hz: 200,
+        duration_ms: 25,
+    },
+    SequenceEntry {
+        frequency_hz: 300,
+        duration_ms: 25,
+    },
+    SequenceEntry {
+        frequency_hz: 400,
+        duration_ms: 25,
+    },
+    SequenceEntry {
+        frequency_hz: 500,
+        duration_ms: 25,
+    },
+    SequenceEntry {
+        frequency_hz: 600,
+        duration_ms: 25,
+    },
+    SequenceEntry {
+        frequency_hz: 700,
+        duration_ms: 25,
+    },
+    SequenceEntry {
+        frequency_hz: 800,
+        duration_ms: 25,
+    },
+    SequenceEntry {
+        frequency_hz: 900,
+        duration_ms: 25,
+    },
+];
+
+pub static DECENDING_TONES: [SequenceEntry; 21] = [
+    SequenceEntry {
+        frequency_hz: 1100,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 1050,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 1000,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 950,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 900,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 850,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 800,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 750,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 700,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 650,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 600,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 550,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 500,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 450,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 400,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 350,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 300,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 250,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 200,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 150,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 100,
+        duration_ms: 50,
+    },
+];
+
+// PLAY ONCE
+pub static COIN_CHIRP: [SequenceEntry; 2] = [
+    SequenceEntry {
+        frequency_hz: 1000,
+        duration_ms: 100,
+    },
+    SequenceEntry {
+        frequency_hz: 1500,
+        duration_ms: 500,
+    },
+];
+
+// PLAY ONCE
+pub static SOUND_8_BIT_GAME_4: [SequenceEntry; 4] = [
+    SequenceEntry {
+        frequency_hz: 220,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 440,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 660,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 880,
+        duration_ms: 50,
+    },
+];
+
+// PLAY TWICE
+// TODO: this isn't working quite right with the 0hz "non note" for a rest...
+pub static SOUND_8_BIT_GAME_1: [SequenceEntry; 3] = [
+    SequenceEntry {
+        frequency_hz: 440,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 1500,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 0,
+        duration_ms: 50,
+    },
+];
+
+// PLAY 3 TIMES
+pub static SOUND_8_BIT_GAME_3: [SequenceEntry; 3] = [
+    SequenceEntry {
+        frequency_hz: 440,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 660,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 1000,
+        duration_ms: 50,
+    },
+];
+
+// PLAY 1 TIMES
+pub static ASCENDING_TONES: [SequenceEntry; 29] = [
+    SequenceEntry {
+        frequency_hz: 100,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 150,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 200,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 250,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 300,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 350,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 400,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 450,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 500,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 550,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 600,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 650,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 700,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 750,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 800,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 850,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 900,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 950,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 1000,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 1050,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 1100,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 1150,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 1200,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 1250,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 1300,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 1350,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 1400,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 1450,
+        duration_ms: 50,
+    },
+    SequenceEntry {
+        frequency_hz: 1500,
+        duration_ms: 1000,
+    },
+];
+
+pub static SEQUENCE_LIST: [(&'static [SequenceEntry], usize); 7] = [
+    (&SOUND_8_BIT_GAME_3, 2),
+    (&SOUND_8_BIT_GAME_4, 0),
+    (&ASCENDING_TONES, 0),
+    (&COIN_CHIRP, 0),
+    (&WAHWAH, 5),
+    (&DECENDING_TONES, 0),
+    (&SOUND_8_BIT_GAME_1, 1),
+    // &TEST_SEQ,
+];

ch32v-insert-coin/src/synthesizer.rs

@@ -0,0 +1,66 @@
+use crate::insert_coin::SimplePwmCore;
+use ch32_hal::println;
+use ch32_hal::timer::GeneralInstance16bit;
+use wavetable_synth::{synthesizer::SimpleWavetableSynthesizer, wavetable::SimpleWavetable};
+
+const SQUARE_WAVETABLE: [u8; 2] = [0, 100];
+// const SQUARE_WAVETABLE: [u8; 32] = [
+//     0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 100, 100, 100, 100, 100, 100, 100, 100, 100,
+//     100, 100, 100, 100, 100, 100, 100,
+// ];
+
+pub struct SynthesizerService {
+    pub synth: SimpleWavetableSynthesizer<SimpleWavetable<'static, u8>>,
+    pub enabled: bool,
+    pub need_service: bool,
+}
+
+impl SynthesizerService {
+    pub fn new(clock_freq_hz: usize) -> Self {
+        let square_wt = SimpleWavetable::new(&SQUARE_WAVETABLE);
+        let synth = SimpleWavetableSynthesizer::new(square_wt, clock_freq_hz);
+
+        Self {
+            synth,
+            enabled: true,
+            need_service: false,
+        }
+    }
+
+    pub fn tick(&mut self) {
+        if self.enabled {
+            self.synth.tick();
+        }
+    }
+
+    pub fn need_service(&self) -> bool {
+        self.need_service || (self.enabled && self.synth.has_new_output())
+    }
+
+    pub fn service(&mut self) -> Option<u8> {
+        self.need_service = false;
+        if self.enabled {
+            Some(self.synth.get_output())
+        } else {
+            None
+        }
+    }
+}
+
+impl SynthesizerService {
+    pub fn set_freq(&mut self, freq_hz: usize) {
+        self.synth.set_freq(freq_hz);
+    }
+
+    pub fn enable(&mut self) {
+        self.enabled = true;
+        self.need_service = true;
+        // TODO: write the enable function
+    }
+
+    pub fn disable(&mut self) {
+        self.enabled = false;
+        self.need_service = true;
+        // TODO: write the disable function
+    }
+}

ch32v-insert-coin/src/system.rs

@@ -0,0 +1,134 @@
+use ch32_hal as hal;
+use hal::println;
+
+pub unsafe fn init_gpio_irq(pin: u8, port: u8, rising: bool, falling: bool) {
+    critical_section::with(|_| {
+        #[cfg(feature = "enable_print")]
+        println!("init_gpio_irq {pin}:{port}");
+        let exti = &hal::pac::EXTI;
+        let afio = &hal::pac::AFIO;
+
+        let port = port as u8;
+        let pin = pin as usize;
+
+        // let b = afio.exticr().read();
+        afio.exticr().modify(|w| w.set_exti(pin, port));
+
+        exti.intenr().modify(|w| w.set_mr(pin, true)); // enable interrupt
+        exti.rtenr().modify(|w| w.set_tr(pin, rising));
+        exti.ftenr().modify(|w| w.set_tr(pin, falling));
+    });
+}
+
+pub fn clear_interrupt(coin_pin: u8, button_pin: u8) -> [bool; 2] {
+    let mut output = [false, false];
+
+    let exti = &hal::pac::EXTI;
+
+    let coin_pin = coin_pin as usize;
+    let button_pin = button_pin as usize;
+
+    exti.intenr().modify(|w| w.set_mr(coin_pin, false)); // disable interrupt
+    exti.intenr().modify(|w| w.set_mr(button_pin, false)); // disable interrupt
+
+    let bits = exti.intfr().read();
+
+    // We don't handle or change any EXTI lines above 24.
+    let bits = bits.0 & 0x00FFFFFF;
+    #[cfg(feature = "enable_print")]
+    println!("bits: {bits:08x}");
+
+    // coin_flag
+    if (bits & (0x1 << coin_pin)) != 0x0 {
+        #[cfg(feature = "enable_print")]
+        println!("coin irq!");
+        output[0] = true;
+    }
+
+    // button_flag
+    if (bits & (0x1 << button_pin)) != 0x0 {
+        #[cfg(feature = "enable_print")]
+        println!("main_btn irq!");
+        output[1] = true;
+    }
+
+    // Clear pending - Clears the EXTI's line pending bits.
+    exti.intfr().write(|w| w.0 = bits);
+
+    use hal::pac::Interrupt;
+    unsafe {
+        qingke::pfic::unpend_interrupt(Interrupt::EXTI7_0 as u8);
+    };
+
+    // exti.intenr().modify(|w| w.0 = w.0 & !bits);
+    exti.intenr().modify(|w| w.set_mr(coin_pin, true)); // enable interrupt
+    exti.intenr().modify(|w| w.set_mr(button_pin, true)); // enable interrupt
+
+    output
+}
+
+/// enter standby (SLEEPDEEP) mode, with WFE enabled.
+/// from CH32V003 reference manual 2.3.1:
+/// entry:
+///     1. configure core register control bit: SLEEPDEEP=1 | PDDS = 1
+///     2. configure external interrupt register to mask all but EXTI7_0
+///     3. execute WFI or WFE (optionally SEVONPEND) and SLEEPONEXIT
+///         * (probably WFI?)
+/// exit:
+///     1. any interrupt/event (set in external interrupt register)
+pub unsafe fn enter_standby() {
+    critical_section::with(|_| {
+        use hal::pac::Interrupt;
+        use qingke_rt::CoreInterrupt;
+
+        // configure core register control bit (SLEEPDEEP=1 | PDDS=1)
+        let pfic = &hal::pac::PFIC;
+        pfic.sctlr().modify(|w| {
+            // we only want to wake on enabled interrupts
+            w.set_sevonpend(false);
+            // we want to enable deep sleep
+            w.set_sleepdeep(true);
+            w.set_wfitowfe(false);
+            w.set_sleeponexit(false);
+        });
+
+        // set PDDS=1:
+        // get current value of PWR_CTLR
+        let mut reg: u32 = 0x4000_7000;
+        let mut val: u32 = unsafe { (reg as *mut u32).read_volatile() };
+        // modify PDDS
+        val |= 1 << 1; // PWR_CTLR[1] -> PDDS
+        unsafe {
+            (reg as *mut u32).write_volatile(val);
+        }
+
+        // // disable all exti interrupts
+        let exti = &hal::pac::EXTI;
+        // exti.intenr().write(| w| {
+        //     w.0 = 0x00000000;
+        //     // w.set_mr(pin, true);
+        //     // w.set_mr(pin, true);
+        // });
+
+        // clear all pending exti interrupts
+        let bits = 0xFFFFFFFF;
+        exti.intfr().write(|w| w.0 = bits);
+
+        // enable all exti interrupts
+        let exti = &hal::pac::EXTI;
+        exti.intenr().write(|w| {
+            w.0 = 0x00FFFFFF;
+            // w.set_mr(pin, true);
+            // w.set_mr(pin, true);
+        });
+
+        unsafe {
+            qingke::pfic::disable_interrupt(CoreInterrupt::SysTick as u8);
+            qingke::pfic::enable_interrupt(Interrupt::EXTI7_0 as u8);
+        }
+
+        // execute WFI
+        #[cfg(feature = "enable_print")]
+        println!("WFI CONFIGURED HOPEFULLY");
+    });
+}

notes.md

@@ -0,0 +1,97 @@
+# ENVIRONMENT
+there is a docker image that contains the entire toolchain + flashing utility. first, you need to build the base docker image with the following script located in the ch32v-insert-coin directory:
+```shell
+$ ./init.sh
+```
+once built, you won't need to build this again. for the remainder of your development, you can use the following script to launch the environment shell:
+```shell
+$ ./launch.sh
+```
+
+this will launch the docker image and give you a shell which has all of the toolchains and flashing utilities installed. to build the firmware image and flash it to the ch32 (assuming you have a wch-linke attached) run the following from inside the env shell: 
+
+```shell
+$ ./build-run.sh
+```
+this will build the firmware image, and attempt to upload it to the board using `wlink`. once uploaded, it will attach a serial debugger. 
+
+to exit the serial debugger simply use `ctrl-c`. to exit the environment shell use:
+
+```shell
+$ exit
+```
+
+# FLASHING
+flashing is done using the [`wlink`](https://github.com/ch32-rs/wlink?tab=readme-ov-file#install) utility. `probe-rs` also works, but can be flaky, and does not support SDI prints very well.
+
+the `wlink` utility will automatically detect the correct chip, but if it doesn't you can specify it with an additional argument. 
+
+`wlink --help` lists all the options to the `wlink` utility. 
+
+## DEVELOPMENT
+when building using the rust toolchain, you can simply add the following to your `.cargo/config.toml`:
+`runner = "wlink -v flash`
+
+if you want to monitor prints via SDI, you can use the following instead:
+`runner = "wlink -v flash --enable-sdi-print --watch-serial"`
+
+## STANDALONE
+when flashing standalone with the `wlink` utility, you can simply run the following:
+`wlink -v flash <PATH_TO_BINARY>`
+
+
+# CH32V MISC NOTES
+## SLEEP / DEEP SLEEP
+it turns out you can not put the chip into deep sleep and have it wake up correctly until you power cycle it. WHAT THE FUCK. see page 36 of the [qingkev3 processor manual](https://www.wch-ic.com/download/file?id=368) at the bottom of section 6.1 Enter Sleep
+
+
+# EVAL BOARD NOTES
+## PINOUT
+WCHLinkE SWDIO -> PD1
+
+
+
+# AUDIO NOTES
+## LIMITS
+we have ~9-10kB of space remaining on the chip.
+i can likely squeeze out _maybe_ another kB by dropping every print, but
+that appears to cause some lockup, i think because the SDI peripheral is
+trying to attach, but unable to.
+
+for how things sit currently, we have the following (conservative) limits
+to fit within 9kB:
+
+16ksps, 4b depth -> 64kbps -> 1.125s
+8ksps, 4b depth -> 32kbps -> 2.25s
+6ksps, 4b depth -> 24kbps -> 3.0s
+4ksps, 4b depth -> 16kbps -> 4.5s
+
+in reality, the numbers i have seen are a little smaller than this, likely due
+to compiler optimizations when the dac is unloaded / there's no audio.
+
+a 16ksps file has an _experimental_ max of 0.75s. applying that offset
+everywhere, we get empirical limits of:
+
+16ksps, 4b depth: 0.75s
+8ksps, 4b depth: 1.875s
+6ksps, 4b depth: 2.625s
+4ksps, 4b depth: 4.225s
+
+## FFMPEG
+use the following command to convert an input .wav to a raw mono pcm_u8 with 8ksps:
+```shell
+ffmpeg -i input.wav -f u8 -c:a pcm_u8 -ar 8000 -ac 1 output.raw  
+```
+
+
+# PINOUTS
+LED0:          PC3
+LED1:          PD2
+DAC:           PC4
+COIN SWITCH:   PC2
+BUTTON SWITCH: PD6
+ADC:           PD4
+GPIO:          any remaining pin
+
+## FORBIDDEN:
+PD1