semi working quadrature output

.cargo/config.toml

@@ -14,4 +14,4 @@ rustflags = [
 target = "xtensa-esp32-none-elf"
 
 [unstable]
-build-std = ["alloc", "core"]
+build-std = ["core"]

.gitignore

@@ -2,6 +2,7 @@
 # will have compiled files and executables
 debug/
 target/
+Cargo.lock
 
 # These are backup files generated by rustfmt
 **/*.rs.bk

Cargo.toml

@@ -10,6 +10,5 @@ hal = { package = "esp32-hal", version = "0.15.0" }
 esp-backtrace = { version = "0.8.0", features = ["esp32", "panic-handler", "exception-handler", "print-uart"] }
 esp-println = { version = "0.6.0", features = ["esp32","log"] }
 log = { version = "0.4.18" }
-esp-alloc = { version = "0.3.0" }
-si5351 = "0.2.0"
+si5351 = { git = "http://192.168.1.41:3000/lks/si5351.git" }
 embedded-hal = "0.2.7"

src/main.rs

@@ -1,32 +1,24 @@
 #![no_std]
 #![no_main]
 
-extern crate alloc;
-use core::mem::MaybeUninit;
 use esp_backtrace as _;
-//use esp_println::println;
 
 use embedded_hal::serial::Read;
 use hal::{clock::ClockControl, i2c::I2C, peripherals::Peripherals, prelude::*};
-use hal::{uart, Uart /*Delay*/, IO};
+use hal::{
+    ledc::{
+        channel::{self, ChannelIFace},
+        timer::{self, TimerIFace},
+        HighSpeed, LEDC,
+    },
+    uart, Uart, /*Delay*/
+    IO,
+};
 
-use si5351;
 use si5351::{Si5351, Si5351Device};
 
-#[global_allocator]
-static ALLOCATOR: esp_alloc::EspHeap = esp_alloc::EspHeap::empty();
-
-fn init_heap() {
-    const HEAP_SIZE: usize = 32 * 1024;
-    static mut HEAP: MaybeUninit<[u8; HEAP_SIZE]> = MaybeUninit::uninit();
-
-    unsafe {
-        ALLOCATOR.init(HEAP.as_mut_ptr() as *mut u8, HEAP_SIZE);
-    }
-}
 #[entry]
 fn main() -> ! {
-    init_heap();
     let peripherals = Peripherals::take();
     //let uart = peripherals.UART0;
     let mut system = peripherals.DPORT.split();
@@ -62,22 +54,51 @@ fn main() -> ! {
             log::info!("Si5351 Initialized succesfully");
             main_loop(clock, serial);
         }
-        Err(si5351::Error::CommunicationError) => {
-            log::info!("Could not initialize Si5351: CommunicationError");
-            main_loop(Dummy {}, serial);
+        Err(e) => {
+            match e {
+                si5351::Error::InvalidParameter => {
+                    log::warn!("Could not initialize Si5351; Using LedC PWM")
                 }
-        Err(si5351::Error::InvalidParameter) => {
-            log::info!("Could not initialize Si5351: InvalidParameter");
-            main_loop(Dummy {}, serial);
+                si5351::Error::CommunicationError => {
+                    log::info!("Could not find Si5351 device; Using LedC PWM")
+                }
+            }
+            let ledc = LEDC::new(
+                peripherals.LEDC,
+                &clocks,
+                &mut system.peripheral_clock_control,
+            );
+            let led = io.pins.gpio4.into_push_pull_output();
+
+            let mut hstimer0 = ledc.get_timer::<HighSpeed>(timer::Number::Timer0);
+            hstimer0
+                .configure(timer::config::Config {
+                    duty: timer::config::Duty::Duty5Bit,
+                    clock_source: timer::HSClockSource::APBClk,
+                    frequency: 1u32.MHz(),
+                })
+                .unwrap();
+
+            let mut channel0 = ledc.get_channel(channel::Number::Channel0, led);
+            channel0
+                .configure(channel::config::Config {
+                    timer: &hstimer0,
+                    duty_pct: 50,
+                    pin_config: channel::config::PinConfig::PushPull,
+                })
+                .unwrap();
+
+            main_loop(ledc, serial);
         }
     }
 }
 
 fn main_loop<T: Clockable, U: _esp_hal_uart_Instance>(mut clock: T, mut serial: Uart<'_, U>) -> ! {
+    clock.set_freq(1_000_000).unwrap();
     loop {
         let freq = read_freq(&mut serial);
         log::info!("Got Freq: {}", freq);
-        match clock.set_freq(freq) {
+        match clock.set_quad(freq) {
             Ok(_) => log::info!("Set frequency to {}", freq),
             Err(_) => log::warn!("Could not set frequency to {}", freq),
         }
@@ -86,23 +107,41 @@ fn main_loop<T: Clockable, U: _esp_hal_uart_Instance>(mut clock: T, mut serial:
 
 trait Clockable {
     fn set_freq(&mut self, freq: u32) -> Result<(), ()>;
+    fn set_quad(&mut self, freq: u32) -> Result<f32, ()>;
 }
-impl<T> Clockable for T
-where
-    T: Si5351,
-{
+
+impl Clockable for LEDC<'_> {
+    fn set_quad(&mut self, _freq: u32) -> Result<f32, ()> {
+        Err(())
+    }
     fn set_freq(&mut self, freq: u32) -> Result<(), ()> {
-        match self.set_frequency(si5351::PLL::A, si5351::ClockOutput::Clk0, freq) {
+        let mut hstimer0 = self.get_timer::<HighSpeed>(timer::Number::Timer0);
+
+        let res = hstimer0.configure(timer::config::Config {
+            duty: timer::config::Duty::Duty5Bit,
+            clock_source: timer::HSClockSource::APBClk,
+            frequency: freq.Hz(),
+        });
+
+        match res {
             Ok(_) => Ok(()),
             Err(_) => Err(()),
         }
     }
 }
-struct Dummy;
-impl Clockable for Dummy {
+
+impl<T> Clockable for Si5351Device<T>
+where
+    Si5351Device<T>: Si5351,
+{
+    fn set_quad(&mut self, freq: u32) -> Result<f32, ()> {
+        Si5351::set_quad(self, freq).map_err(|_| ())
+    }
     fn set_freq(&mut self, freq: u32) -> Result<(), ()> {
-        log::info!("Dummy set freq: {}", freq);
-        Ok(())
+        match self.set_frequency(si5351::PLL::A, si5351::ClockOutput::Clk0, freq) {
+            Ok(_) => Ok(()),
+            Err(_) => Err(()),
+        }
     }
 }
 
@@ -130,28 +169,28 @@ fn read_freq<T: _esp_hal_uart_Instance>(serial: &mut Uart<'_, T>) -> u32 {
     loop {
         match nb::block!(serial.read()) {
             Ok(input) if input >= b'0' && input <= b'9' => {
-                log::info!("Got char: {}", char::from(input));
+                log::debug!("Got char: {}", char::from(input));
                 freq = (freq * 10) + (input - b'0') as u32;
             }
             Ok(input) if invalid && (input == b'\n' || input == b'\r') => {
-                log::info!("Got bad end: {}", char::from(input));
+                log::debug!("Got bad end: {}", char::from(input));
                 freq = 0;
                 invalid = false;
             }
             Ok(input) if !invalid && (input == b'\n' || input == b'\r') => {
-                log::info!("Got end: {}", char::from(input));
+                log::debug!("Got end: {}", char::from(input));
                 break;
             }
             Ok(input) if input == b'.' || input == b',' || input == b'_' => {
-                log::info!("Got ignor: {}", char::from(input));
+                log::debug!("Got ignor: {}", char::from(input));
                 continue;
             }
             Ok(input) => {
-                log::info!("Got inval: {}", char::from(input));
+                log::debug!("Got inval: {}", char::from(input));
                 invalid = true;
             }
             Err(e) => {
-                log::info!("Got error: {:?}", e);
+                log::debug!("Got error: {:?}", e);
             }
         }
     }