753 lines
25 KiB
Rust
753 lines
25 KiB
Rust
#![no_std]
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#![no_main]
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#![feature(asm)]
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// Enable returning `!`
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#![feature(never_type)]
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#[cfg(not(feature = "semihosting"))]
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extern crate panic_abort;
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#[cfg(feature = "semihosting")]
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extern crate panic_semihosting;
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#[macro_use]
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extern crate log;
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use core::ptr;
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use core::cell::RefCell;
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use core::fmt::Write;
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use cortex_m_rt::{entry, exception};
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use stm32h7::stm32h7x3::{self as stm32, Peripherals, CorePeripherals, interrupt};
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use cortex_m::interrupt::Mutex;
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use smoltcp as net;
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mod eth;
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mod iir;
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use iir::*;
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#[cfg(not(feature = "semihosting"))]
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fn init_log() {}
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#[cfg(feature = "semihosting")]
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fn init_log() {
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use log::LevelFilter;
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use cortex_m_log::log::{Logger, init};
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use cortex_m_log::printer::semihosting::{InterruptOk, hio::HStdout};
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static mut LOGGER: Option<Logger<InterruptOk<HStdout>>> = None;
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let logger = Logger {
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inner: InterruptOk::<_>::stdout().unwrap(),
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level: LevelFilter::Info,
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};
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let logger = unsafe {
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LOGGER.get_or_insert(logger)
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};
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init(logger).unwrap();
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}
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// Pull in build information (from `built` crate)
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mod build_info {
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#![allow(dead_code)]
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include!(concat!(env!("OUT_DIR"), "/built.rs"));
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}
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fn pwr_setup(pwr: &stm32::PWR) {
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// go to VOS1 voltage scale for high perf
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pwr.cr3.write(|w|
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w.sden().set_bit()
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.ldoen().set_bit()
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.bypass().clear_bit()
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);
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while pwr.csr1.read().actvosrdy().bit_is_clear() {}
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pwr.d3cr.write(|w| unsafe { w.vos().bits(0b11) }); // vos1
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while pwr.d3cr.read().vosrdy().bit_is_clear() {}
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}
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fn rcc_reset(rcc: &stm32::RCC) {
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// Reset all peripherals
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rcc.ahb1rstr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
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rcc.ahb1rstr.write(|w| unsafe { w.bits(0)});
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rcc.apb1lrstr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
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rcc.apb1lrstr.write(|w| unsafe { w.bits(0)});
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rcc.apb1hrstr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
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rcc.apb1hrstr.write(|w| unsafe { w.bits(0)});
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rcc.ahb2rstr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
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rcc.ahb2rstr.write(|w| unsafe { w.bits(0)});
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rcc.apb2rstr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
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rcc.apb2rstr.write(|w| unsafe { w.bits(0)});
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// do not reset the cpu
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rcc.ahb3rstr.write(|w| unsafe { w.bits(0x7FFF_FFFF) });
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rcc.ahb3rstr.write(|w| unsafe { w.bits(0)});
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rcc.apb3rstr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
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rcc.apb3rstr.write(|w| unsafe { w.bits(0)});
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rcc.ahb4rstr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
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rcc.ahb4rstr.write(|w| unsafe { w.bits(0)});
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rcc.apb4rstr.write(|w| unsafe { w.bits(0xFFFF_FFFF) });
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rcc.apb4rstr.write(|w| unsafe { w.bits(0)});
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}
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fn rcc_pll_setup(rcc: &stm32::RCC, flash: &stm32::FLASH) {
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// Ensure HSI is on and stable
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rcc.cr.modify(|_, w| w.hsion().set_bit());
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while rcc.cr.read().hsirdy().bit_is_clear() {}
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// Set system clock to HSI
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rcc.cfgr.modify(|_, w| unsafe { w.sw().bits(0) }); // hsi
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while rcc.cfgr.read().sws().bits() != 0 {}
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// Clear registers to reset value
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rcc.cr.write(|w| w.hsion().set_bit());
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rcc.cfgr.reset();
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// Ensure HSE is on and stable
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rcc.cr.modify(|_, w|
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w.hseon().set_bit()
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.hsebyp().clear_bit());
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while rcc.cr.read().hserdy().bit_is_clear() {}
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rcc.pllckselr.modify(|_, w| unsafe {
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w.pllsrc().bits(0b10) // hse
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.divm1().bits(1) // ref prescaler
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.divm2().bits(1) // ref prescaler
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});
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// Configure PLL1: 8MHz /1 *100 /2 = 400 MHz
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rcc.pllcfgr.modify(|_, w| unsafe {
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w.pll1vcosel().clear_bit() // 192-836 MHz VCO
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.pll1rge().bits(0b11) // 8-16 MHz PFD
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.pll1fracen().clear_bit()
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.divp1en().set_bit()
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.pll2vcosel().set_bit() // 150-420 MHz VCO
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.pll2rge().bits(0b11) // 8-16 MHz PFD
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.pll2fracen().clear_bit()
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.divp2en().set_bit()
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.divq2en().set_bit()
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});
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rcc.pll1divr.write(|w| unsafe {
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w.divn1().bits(100 - 1) // feebdack divider
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.divp1().bits(2 - 1) // p output divider
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});
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rcc.cr.modify(|_, w| w.pll1on().set_bit());
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while rcc.cr.read().pll1rdy().bit_is_clear() {}
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// Configure PLL2: 8MHz /1 *25 / 2 = 100 MHz
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rcc.pll2divr.write(|w| unsafe {
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w.divn1().bits(25 - 1) // feebdack divider
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.divp1().bits(2 - 1) // p output divider
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.divq1().bits(2 - 1) // q output divider
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});
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rcc.cr.modify(|_, w| w.pll2on().set_bit());
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while rcc.cr.read().pll2rdy().bit_is_clear() {}
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// hclk 200 MHz, pclk 100 MHz
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let dapb = 0b100;
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rcc.d1cfgr.write(|w| unsafe {
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w.d1cpre().bits(0) // sys_ck not divided
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.hpre().bits(0b1000) // rcc_hclk3 = sys_d1cpre_ck / 2
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.d1ppre().bits(dapb) // rcc_pclk3 = rcc_hclk3 / 2
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});
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rcc.d2cfgr.write(|w| unsafe {
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w.d2ppre1().bits(dapb) // rcc_pclk1 = rcc_hclk3 / 2
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.d2ppre2().bits(dapb) // rcc_pclk2 = rcc_hclk3 / 2
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});
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rcc.d3cfgr.write(|w| unsafe {
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w.d3ppre().bits(dapb) // rcc_pclk4 = rcc_hclk3 / 2
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});
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// 2 wait states, 0b10 programming delay
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// 185-210 MHz
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flash.acr.write(|w| unsafe {
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w.wrhighfreq().bits(2)
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.latency().bits(2)
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});
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while flash.acr.read().latency().bits() != 2 {}
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// CSI for I/O compensationc ell
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rcc.cr.modify(|_, w| w.csion().set_bit());
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while rcc.cr.read().csirdy().bit_is_clear() {}
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// Set system clock to pll1_p
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rcc.cfgr.modify(|_, w| unsafe { w.sw().bits(0b011) }); // pll1p
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while rcc.cfgr.read().sws().bits() != 0b011 {}
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rcc.d1ccipr.write(|w| unsafe {
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w.ckpersrc().bits(1) // hse_ck
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});
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rcc.d2ccip1r.modify(|_, w| unsafe {
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w.spi123src().bits(1) // pll2_p
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.spi45src().bits(1) // pll2_q
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});
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rcc.d3ccipr.modify(|_, w| unsafe {
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w.spi6src().bits(1) // pll2_q
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});
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}
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fn io_compensation_setup(syscfg: &stm32::SYSCFG) {
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syscfg.cccsr.modify(|_, w|
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w.en().set_bit()
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.cs().clear_bit()
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.hslv().clear_bit()
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);
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while syscfg.cccsr.read().ready().bit_is_clear() {}
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}
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fn gpio_setup(gpioa: &stm32::GPIOA, gpiob: &stm32::GPIOB, gpiod: &stm32::GPIOD,
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gpioe: &stm32::GPIOE, gpiof: &stm32::GPIOF, gpiog: &stm32::GPIOG) {
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// FP_LED0
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gpiod.otyper.modify(|_, w| w.ot5().push_pull());
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gpiod.moder.modify(|_, w| w.moder5().output());
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gpiod.odr.modify(|_, w| w.odr5().clear_bit());
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// FP_LED1
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gpiod.otyper.modify(|_, w| w.ot6().push_pull());
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gpiod.moder.modify(|_, w| w.moder6().output());
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gpiod.odr.modify(|_, w| w.odr6().clear_bit());
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// LED_FP2
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gpiog.otyper.modify(|_, w| w.ot4().push_pull());
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gpiog.moder.modify(|_, w| w.moder4().output());
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gpiog.odr.modify(|_, w| w.odr4().clear_bit());
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// LED_FP3
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gpiod.otyper.modify(|_, w| w.ot12().push_pull());
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gpiod.moder.modify(|_, w| w.moder12().output());
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gpiod.odr.modify(|_, w| w.odr12().clear_bit());
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// AFE0_A0,1: PG2,PG3
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gpiog.otyper.modify(|_, w|
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w.ot2().push_pull()
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.ot3().push_pull()
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);
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gpiog.moder.modify(|_, w|
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w.moder2().output()
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.moder3().output()
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);
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gpiog.odr.modify(|_, w|
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w.odr2().clear_bit()
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.odr3().clear_bit()
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);
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// ADC0
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// SCK: PG11
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gpiog.moder.modify(|_, w| w.moder11().alternate());
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gpiog.otyper.modify(|_, w| w.ot11().push_pull());
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gpiog.ospeedr.modify(|_, w| w.ospeedr11().very_high_speed());
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gpiog.afrh.modify(|_, w| w.afr11().af5());
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// MOSI: PD7
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// MISO: PA6
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gpioa.moder.modify(|_, w| w.moder6().alternate());
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gpioa.afrl.modify(|_, w| w.afr6().af5());
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// NSS: PG10
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gpiog.moder.modify(|_, w| w.moder10().alternate());
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gpiog.otyper.modify(|_, w| w.ot10().push_pull());
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gpiog.ospeedr.modify(|_, w| w.ospeedr10().very_high_speed());
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gpiog.afrh.modify(|_, w| w.afr10().af5());
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// DAC0
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// SCK: PB10
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gpiob.moder.modify(|_, w| w.moder10().alternate());
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gpiob.otyper.modify(|_, w| w.ot10().push_pull());
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gpiob.ospeedr.modify(|_, w| w.ospeedr10().very_high_speed());
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gpiob.afrh.modify(|_, w| w.afr10().af5());
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// MOSI: PB15
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gpiob.moder.modify(|_, w| w.moder15().alternate());
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gpiob.otyper.modify(|_, w| w.ot15().push_pull());
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gpiob.ospeedr.modify(|_, w| w.ospeedr15().very_high_speed());
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gpiob.afrh.modify(|_, w| w.afr15().af5());
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// MISO: PB14
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// NSS: PB9
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gpiob.moder.modify(|_, w| w.moder9().alternate());
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gpiob.otyper.modify(|_, w| w.ot9().push_pull());
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gpiob.ospeedr.modify(|_, w| w.ospeedr9().very_high_speed());
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gpiob.afrh.modify(|_, w| w.afr9().af5());
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// DAC0_LDAC: PE11
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gpioe.moder.modify(|_, w| w.moder11().output());
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gpioe.otyper.modify(|_, w| w.ot11().push_pull());
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gpioe.odr.modify(|_, w| w.odr11().clear_bit());
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// DAC_CLR: PE12
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gpioe.moder.modify(|_, w| w.moder12().output());
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gpioe.otyper.modify(|_, w| w.ot12().push_pull());
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gpioe.odr.modify(|_, w| w.odr12().set_bit());
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// AFE1_A0,1: PD14,PD15
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gpiod.otyper.modify(|_, w|
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w.ot14().push_pull()
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.ot15().push_pull()
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);
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gpiod.moder.modify(|_, w|
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w.moder14().output()
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.moder15().output()
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);
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gpiod.odr.modify(|_, w|
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w.odr14().clear_bit()
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.odr15().clear_bit()
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);
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// ADC1
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// SCK: PF6
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gpiof.moder.modify(|_, w| w.moder7().alternate());
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gpiof.otyper.modify(|_, w| w.ot7().push_pull());
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gpiof.ospeedr.modify(|_, w| w.ospeedr7().very_high_speed());
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gpiof.afrl.modify(|_, w| w.afr7().af5());
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// MOSI: PF9
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// MISO: PF7
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gpiof.moder.modify(|_, w| w.moder8().alternate());
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gpiof.afrh.modify(|_, w| w.afr8().af5());
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// NSS: PF8
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gpiof.moder.modify(|_, w| w.moder6().alternate());
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gpiof.otyper.modify(|_, w| w.ot6().push_pull());
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gpiof.ospeedr.modify(|_, w| w.ospeedr6().very_high_speed());
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gpiof.afrl.modify(|_, w| w.afr6().af5());
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// DAC1
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// SCK: PE2
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gpioe.moder.modify(|_, w| w.moder2().alternate());
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gpioe.otyper.modify(|_, w| w.ot2().push_pull());
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gpioe.ospeedr.modify(|_, w| w.ospeedr2().very_high_speed());
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gpioe.afrl.modify(|_, w| w.afr2().af5());
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// MOSI: PE6
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gpioe.moder.modify(|_, w| w.moder6().alternate());
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gpioe.otyper.modify(|_, w| w.ot6().push_pull());
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gpioe.ospeedr.modify(|_, w| w.ospeedr6().very_high_speed());
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gpioe.afrl.modify(|_, w| w.afr6().af5());
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// MISO: PE5
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// NSS: PE4
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gpioe.moder.modify(|_, w| w.moder4().alternate());
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gpioe.otyper.modify(|_, w| w.ot4().push_pull());
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gpioe.ospeedr.modify(|_, w| w.ospeedr4().very_high_speed());
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gpioe.afrl.modify(|_, w| w.afr4().af5());
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// DAC1_LDAC: PE15
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gpioe.moder.modify(|_, w| w.moder15().output());
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gpioe.otyper.modify(|_, w| w.ot15().push_pull());
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gpioe.odr.modify(|_, w| w.odr15().clear_bit());
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}
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// ADC0
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fn spi1_setup(spi1: &stm32::SPI1) {
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spi1.cfg1.modify(|_, w| {
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w.mbr().bits(1) // clk/4
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.dsize().bits(16 - 1)
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.fthvl().bits(1 - 1) // one data
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});
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spi1.cfg2.modify(|_, w| unsafe {
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w.afcntr().set_bit()
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.ssom().set_bit() // ss deassert between frames during midi
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.ssoe().set_bit() // ss output enable
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.ssiop().clear_bit() // ss active low
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.ssm().clear_bit() // PAD counts
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.cpol().set_bit()
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.cpha().set_bit()
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.lsbfrst().clear_bit()
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.master().set_bit()
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.sp().bits(0) // motorola
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.comm().bits(0b10) // simplex receiver
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.ioswp().clear_bit()
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.midi().bits(0) // master inter data idle
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.mssi().bits(6) // master SS idle
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});
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spi1.cr2.modify(|_, w| {
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w.tsize().bits(1)
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});
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spi1.cr1.write(|w| w.spe().set_bit());
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}
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// ADC1
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fn spi5_setup(spi5: &stm32::SPI5) {
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spi5.cfg1.modify(|_, w| {
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w.mbr().bits(1) // clk/4
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.dsize().bits(16 - 1)
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.fthvl().bits(1 - 1) // one data
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});
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spi5.cfg2.modify(|_, w| unsafe {
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w.afcntr().set_bit()
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.ssom().set_bit() // ss deassert between frames during midi
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.ssoe().set_bit() // ss output enable
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.ssiop().clear_bit() // ss active low
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.ssm().clear_bit() // PAD counts
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.cpol().set_bit()
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.cpha().set_bit()
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.lsbfrst().clear_bit()
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.master().set_bit()
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.sp().bits(0) // motorola
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.comm().bits(0b10) // simplex receiver
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.ioswp().clear_bit()
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.midi().bits(0) // master inter data idle
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.mssi().bits(6) // master SS idle
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});
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spi5.cr2.modify(|_, w| {
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w.tsize().bits(1)
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});
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spi5.cr1.write(|w| w.spe().set_bit());
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}
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// DAC0
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fn spi2_setup(spi2: &stm32::SPI2) {
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spi2.cfg1.modify(|_, w| {
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w.mbr().bits(0) // clk/2
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.dsize().bits(16 - 1)
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.fthvl().bits(1 - 1) // one data
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});
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spi2.cfg2.modify(|_, w| unsafe {
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w.afcntr().set_bit()
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.ssom().set_bit() // ss deassert between frames during midi
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.ssoe().set_bit() // ss output enable
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.ssiop().clear_bit() // ss active low
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.ssm().clear_bit() // PAD counts
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.cpol().clear_bit()
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.cpha().clear_bit()
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.lsbfrst().clear_bit()
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.master().set_bit()
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.sp().bits(0) // motorola
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.comm().bits(0b01) // simplex transmitter
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.ioswp().clear_bit()
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.midi().bits(0) // master inter data idle
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.mssi().bits(0) // master SS idle
|
|
});
|
|
spi2.cr2.modify(|_, w| {
|
|
w.tsize().bits(0)
|
|
});
|
|
spi2.cr1.write(|w| w.spe().set_bit());
|
|
spi2.cr1.modify(|r, w| unsafe { w.bits(r.bits() | (1 << 9)) });
|
|
}
|
|
|
|
// DAC1
|
|
fn spi4_setup(spi4: &stm32::SPI4) {
|
|
spi4.cfg1.modify(|_, w| {
|
|
w.mbr().bits(0) // clk/2
|
|
.dsize().bits(16 - 1)
|
|
.fthvl().bits(1 - 1) // one data
|
|
});
|
|
spi4.cfg2.modify(|_, w| unsafe {
|
|
w.afcntr().set_bit()
|
|
.ssom().set_bit() // ss deassert between frames during midi
|
|
.ssoe().set_bit() // ss output enable
|
|
.ssiop().clear_bit() // ss active low
|
|
.ssm().clear_bit() // PAD counts
|
|
.cpol().clear_bit()
|
|
.cpha().clear_bit()
|
|
.lsbfrst().clear_bit()
|
|
.master().set_bit()
|
|
.sp().bits(0) // motorola
|
|
.comm().bits(0b01) // simplex transmitter
|
|
.ioswp().clear_bit()
|
|
.midi().bits(0) // master inter data idle
|
|
.mssi().bits(0) // master SS idle
|
|
});
|
|
spi4.cr2.modify(|_, w| {
|
|
w.tsize().bits(0)
|
|
});
|
|
spi4.cr1.write(|w| w.spe().set_bit());
|
|
spi4.cr1.modify(|r, w| unsafe { w.bits(r.bits() | (1 << 9)) });
|
|
}
|
|
|
|
fn tim2_setup(tim2: &stm32::TIM2) {
|
|
tim2.psc.write(|w| unsafe { w.psc().bits(200 - 1) }); // from 200 MHz
|
|
tim2.arr.write(|w| unsafe { w.bits(2 - 1) }); // µs
|
|
tim2.dier.write(|w| w.ude().set_bit());
|
|
tim2.egr.write(|w| w.ug().set_bit());
|
|
tim2.cr1.modify(|_, w|
|
|
w.dir().clear_bit() // up
|
|
.cen().set_bit()); // enable
|
|
}
|
|
|
|
fn dma1_setup(dma1: &stm32::DMA1, dmamux1: &stm32::DMAMUX1, ma: usize, pa0: usize, pa1: usize) {
|
|
dma1.s0cr.modify(|_, w| w.en().clear_bit());
|
|
while dma1.s0cr.read().en().bit_is_set() {}
|
|
|
|
dma1.s0par.write(|w| unsafe { w.pa().bits(pa0 as u32) });
|
|
dma1.s0m0ar.write(|w| unsafe { w.m0a().bits(ma as u32) });
|
|
dma1.s0ndtr.write(|w| unsafe { w.ndt().bits(1) });
|
|
dmamux1.ccr[0].modify(|_, w| unsafe { w.dmareq_id().bits(22) }); // tim2_up
|
|
dma1.s0cr.modify(|_, w| unsafe {
|
|
w.pl().bits(0b01) // medium
|
|
.circ().set_bit() // reload ndtr
|
|
.msize().bits(0b10) // 32
|
|
.minc().clear_bit()
|
|
.mburst().bits(0b00)
|
|
.psize().bits(0b10) // 32
|
|
.pinc().clear_bit()
|
|
.pburst().bits(0b00)
|
|
.dbm().clear_bit()
|
|
.dir().bits(0b01) // memory_to_peripheral
|
|
.pfctrl().clear_bit() // dma is FC
|
|
});
|
|
dma1.s0fcr.modify(|_, w| w.dmdis().clear_bit());
|
|
dma1.s0cr.modify(|_, w| w.en().set_bit());
|
|
|
|
dma1.s1cr.modify(|_, w| w.en().clear_bit());
|
|
while dma1.s1cr.read().en().bit_is_set() {}
|
|
|
|
dma1.s1par.write(|w| unsafe { w.pa().bits(pa1 as u32) });
|
|
dma1.s1m0ar.write(|w| unsafe { w.m0a().bits(ma as u32) });
|
|
dma1.s1ndtr.write(|w| unsafe { w.ndt().bits(1) });
|
|
dmamux1.ccr[1].modify(|_, w| unsafe { w.dmareq_id().bits(22) }); // tim2_up
|
|
dma1.s1cr.modify(|_, w| unsafe {
|
|
w.pl().bits(0b01) // medium
|
|
.circ().set_bit() // reload ndtr
|
|
.msize().bits(0b10) // 32
|
|
.minc().clear_bit()
|
|
.mburst().bits(0b00)
|
|
.psize().bits(0b10) // 32
|
|
.pinc().clear_bit()
|
|
.pburst().bits(0b00)
|
|
.dbm().clear_bit()
|
|
.dir().bits(0b01) // memory_to_peripheral
|
|
.pfctrl().clear_bit() // dma is FC
|
|
});
|
|
dma1.s1fcr.modify(|_, w| w.dmdis().clear_bit());
|
|
dma1.s1cr.modify(|_, w| w.en().set_bit());
|
|
}
|
|
|
|
static SPIP: Mutex<RefCell<Option<(
|
|
stm32::SPI1, stm32::SPI2, stm32::SPI4, stm32::SPI5)>>> =
|
|
Mutex::new(RefCell::new(None));
|
|
|
|
#[link_section = ".sram1.datspi"]
|
|
static mut DAT: u32 = (1 << 9) | (1 << 0);
|
|
|
|
static TIME: Mutex<RefCell<i64>> = Mutex::new(RefCell::new(0));
|
|
|
|
#[link_section = ".sram3.eth"]
|
|
static mut ETH: eth::Device = eth::Device::new();
|
|
|
|
const TCP_RX_BUFFER_SIZE: usize = 4096;
|
|
const TCP_TX_BUFFER_SIZE: usize = 4096;
|
|
|
|
macro_rules! create_socket {
|
|
($set:ident, $rx_storage:ident, $tx_storage:ident, $target:ident) => (
|
|
let mut $rx_storage = [0; TCP_RX_BUFFER_SIZE];
|
|
let mut $tx_storage = [0; TCP_TX_BUFFER_SIZE];
|
|
let tcp_rx_buffer = net::socket::TcpSocketBuffer::new(&mut $rx_storage[..]);
|
|
let tcp_tx_buffer = net::socket::TcpSocketBuffer::new(&mut $tx_storage[..]);
|
|
let tcp_socket = net::socket::TcpSocket::new(tcp_rx_buffer, tcp_tx_buffer);
|
|
let $target = $set.add(tcp_socket);
|
|
)
|
|
}
|
|
|
|
|
|
#[entry]
|
|
fn main() -> ! {
|
|
let mut cp = CorePeripherals::take().unwrap();
|
|
let dp = Peripherals::take().unwrap();
|
|
|
|
let rcc = dp.RCC;
|
|
rcc_reset(&rcc);
|
|
|
|
init_log();
|
|
// info!("Version {} {}", build_info::PKG_VERSION, build_info::GIT_VERSION.unwrap());
|
|
// info!("Built on {}", build_info::BUILT_TIME_UTC);
|
|
// info!("{} {}", build_info::RUSTC_VERSION, build_info::TARGET);
|
|
|
|
pwr_setup(&dp.PWR);
|
|
rcc_pll_setup(&rcc, &dp.FLASH);
|
|
rcc.apb4enr.modify(|_, w| w.syscfgen().set_bit());
|
|
io_compensation_setup(&dp.SYSCFG);
|
|
|
|
// 100 MHz
|
|
cp.SYST.set_clock_source(cortex_m::peripheral::syst::SystClkSource::Core);
|
|
cp.SYST.set_reload(cortex_m::peripheral::SYST::get_ticks_per_10ms()*200/10);
|
|
cp.SYST.enable_counter();
|
|
cp.SYST.enable_interrupt();
|
|
unsafe { cp.SCB.shpr[11].write(128); } // systick exception priority
|
|
|
|
cp.SCB.enable_icache();
|
|
// TODO: ETH DMA coherence issues
|
|
// cp.SCB.enable_dcache(&mut cp.CPUID);
|
|
cp.DWT.enable_cycle_counter();
|
|
|
|
rcc.ahb4enr.modify(|_, w|
|
|
w.gpioaen().set_bit()
|
|
.gpioben().set_bit()
|
|
.gpiocen().set_bit()
|
|
.gpioden().set_bit()
|
|
.gpioeen().set_bit()
|
|
.gpiofen().set_bit()
|
|
.gpiogen().set_bit()
|
|
);
|
|
gpio_setup(&dp.GPIOA, &dp.GPIOB, &dp.GPIOD, &dp.GPIOE, &dp.GPIOF, &dp.GPIOG);
|
|
|
|
rcc.apb1lenr.modify(|_, w| w.spi2en().set_bit());
|
|
let spi2 = dp.SPI2;
|
|
spi2_setup(&spi2);
|
|
|
|
rcc.apb2enr.modify(|_, w| w.spi4en().set_bit());
|
|
let spi4 = dp.SPI4;
|
|
spi4_setup(&spi4);
|
|
|
|
rcc.apb2enr.modify(|_, w| w.spi1en().set_bit());
|
|
let spi1 = dp.SPI1;
|
|
spi1_setup(&spi1);
|
|
spi1.ier.write(|w| w.eotie().set_bit());
|
|
|
|
rcc.apb2enr.modify(|_, w| w.spi5en().set_bit());
|
|
let spi5 = dp.SPI5;
|
|
spi5_setup(&spi5);
|
|
// spi5.ier.write(|w| w.eotie().set_bit());
|
|
|
|
rcc.ahb2enr.modify(|_, w|
|
|
w
|
|
.sram1en().set_bit()
|
|
.sram2en().set_bit()
|
|
.sram3en().set_bit()
|
|
);
|
|
rcc.ahb1enr.modify(|_, w| w.dma1en().set_bit());
|
|
unsafe { DAT = (1 << 9) | (1 << 0) }; // init SRAM1 rodata can't load with sram1 disabled
|
|
cortex_m::asm::dsb();
|
|
let dat_addr = unsafe { &DAT as *const _ } as usize;
|
|
cp.SCB.clean_dcache_by_address(dat_addr, 4);
|
|
|
|
dma1_setup(&dp.DMA1, &dp.DMAMUX1, dat_addr,
|
|
&spi1.cr1 as *const _ as usize,
|
|
&spi5.cr1 as *const _ as usize);
|
|
|
|
rcc.apb1lenr.modify(|_, w| w.tim2en().set_bit());
|
|
|
|
// work around the SPI stall erratum
|
|
//let dbgmcu = dp.DBGMCU;
|
|
//dbgmcu.apb1lfz1.modify(|_, w| w.stop_tim2().set_bit()); // stop tim2 in debug
|
|
unsafe { ptr::write_volatile(0x5c00_103c as *mut usize, 0x0000_0001) };
|
|
|
|
unsafe {
|
|
let t = 2e-6*2.;
|
|
IIR_CH[0].set_pi(1., 0., 0.).unwrap();
|
|
IIR_CH[0].set_x_offset(0.*SCALE);
|
|
|
|
IIR_CH[1].set_pi(-0.1, -10.*t, 0.).unwrap();
|
|
IIR_CH[1].set_x_offset(0.1*SCALE);
|
|
IIR_CH[1].get_x_offset().unwrap();
|
|
}
|
|
|
|
eth::setup(&rcc, &dp.SYSCFG);
|
|
eth::setup_pins(&dp.GPIOA, &dp.GPIOB, &dp.GPIOC, &dp.GPIOG);
|
|
|
|
let device = unsafe { &mut ETH };
|
|
let hardware_addr = net::wire::EthernetAddress([0x10, 0xE2, 0xD5, 0x00, 0x03, 0x00]);
|
|
unsafe { device.init(hardware_addr) };
|
|
let mut neighbor_cache_storage = [None; 8];
|
|
let neighbor_cache = net::iface::NeighborCache::new(&mut neighbor_cache_storage[..]);
|
|
let local_addr = net::wire::IpAddress::v4(10, 0, 16, 99);
|
|
let mut ip_addrs = [net::wire::IpCidr::new(local_addr, 24)];
|
|
let mut iface = net::iface::EthernetInterfaceBuilder::new(device)
|
|
.ethernet_addr(hardware_addr)
|
|
.neighbor_cache(neighbor_cache)
|
|
.ip_addrs(&mut ip_addrs[..])
|
|
.finalize();
|
|
let mut socket_set_entries: [_; 8] = Default::default();
|
|
let mut sockets = net::socket::SocketSet::new(&mut socket_set_entries[..]);
|
|
create_socket!(sockets, tcp_rx_storage0, tcp_tx_storage0, tcp_handle0);
|
|
|
|
eth::enable_interrupt(&dp.ETHERNET_DMA);
|
|
unsafe { cp.NVIC.set_priority(stm32::Interrupt::ETH, 196); } // mid prio
|
|
cp.NVIC.enable(stm32::Interrupt::ETH);
|
|
|
|
tim2_setup(&dp.TIM2);
|
|
|
|
unsafe { cp.NVIC.set_priority(stm32::Interrupt::SPI1, 0); } // highest prio
|
|
cortex_m::interrupt::free(|cs| {
|
|
cp.NVIC.enable(stm32::Interrupt::SPI1);
|
|
SPIP.borrow(cs).replace(Some((spi1, spi2, spi4, spi5)));
|
|
});
|
|
|
|
let mut last = 0;
|
|
loop {
|
|
let time = cortex_m::interrupt::free(|cs| *TIME.borrow(cs).borrow());
|
|
|
|
{
|
|
let socket = &mut *sockets.get::<net::socket::TcpSocket>(tcp_handle0);
|
|
if !socket.is_open() {
|
|
socket.listen(80).unwrap_or_else(|e| warn!("TCP listen error: {:?}", e));
|
|
}
|
|
if socket.can_send() && last != time {
|
|
last = time;
|
|
let (x0, y0, x1, y1) = unsafe {
|
|
(IIR_STATE[0][0], IIR_STATE[0][2], IIR_STATE[1][0], IIR_STATE[1][2]) };
|
|
write!(socket, "t={} x0={:.1} y0={:.1} x1={:.1} y1={:.1}\n", time, x0, y0, x1, y1)
|
|
.unwrap_or_else(|e| warn!("TCP send error: {:?}", e));
|
|
}
|
|
}
|
|
|
|
match iface.poll(&mut sockets, net::time::Instant::from_millis(time)) {
|
|
Ok(_) => (),
|
|
Err(e) => info!("iface poll error: {:?}", e)
|
|
}
|
|
|
|
cortex_m::asm::wfi();
|
|
}
|
|
}
|
|
|
|
const SCALE: f32 = ((1 << 15) - 1) as f32;
|
|
static mut IIR_STATE: [IIRState; 2] = [[0.; 5]; 2];
|
|
static mut IIR_CH: [IIR; 2] = [
|
|
IIR{ ba: [0., 0., 0., 0., 0.], y_offset: 0.,
|
|
y_min: -SCALE, y_max: SCALE }; 2];
|
|
|
|
#[link_section = ".data.spi1"]
|
|
#[interrupt]
|
|
fn SPI1() {
|
|
#[cfg(feature = "bkpt")]
|
|
cortex_m::asm::bkpt();
|
|
cortex_m::interrupt::free(|cs| {
|
|
let spip = SPIP.borrow(cs).borrow();
|
|
let (spi1, spi2, spi4, spi5) = spip.as_ref().unwrap();
|
|
|
|
let sr = spi1.sr.read();
|
|
if sr.eot().bit_is_set() {
|
|
spi1.ifcr.write(|w| w.eotc().set_bit());
|
|
}
|
|
if sr.rxp().bit_is_set() {
|
|
let rxdr = &spi1.rxdr as *const _ as *const u16;
|
|
let a = unsafe { ptr::read_volatile(rxdr) };
|
|
let x0 = a as i16 as f32;
|
|
let y0 = unsafe { IIR_CH[0].update(&mut IIR_STATE[0], x0) };
|
|
let d = y0 as i16 as u16 ^ 0x8000;
|
|
let txdr = &spi2.txdr as *const _ as *mut u16;
|
|
unsafe { ptr::write_volatile(txdr, d) };
|
|
}
|
|
|
|
let sr = spi5.sr.read();
|
|
if sr.eot().bit_is_set() {
|
|
spi5.ifcr.write(|w| w.eotc().set_bit());
|
|
}
|
|
if sr.rxp().bit_is_set() {
|
|
let rxdr = &spi5.rxdr as *const _ as *const u16;
|
|
let a = unsafe { ptr::read_volatile(rxdr) };
|
|
let x0 = a as i16 as f32;
|
|
let y0 = unsafe { IIR_CH[1].update(&mut IIR_STATE[1], x0) };
|
|
let d = y0 as i16 as u16 ^ 0x8000;
|
|
let txdr = &spi4.txdr as *const _ as *mut u16;
|
|
unsafe { ptr::write_volatile(txdr, d) };
|
|
}
|
|
});
|
|
#[cfg(feature = "bkpt")]
|
|
cortex_m::asm::bkpt();
|
|
}
|
|
|
|
#[interrupt]
|
|
fn ETH() {
|
|
let p = unsafe { Peripherals::steal() };
|
|
eth::eth_interrupt_handler(&p.ETHERNET_DMA);
|
|
}
|
|
|
|
#[exception]
|
|
fn SysTick() {
|
|
cortex_m::interrupt::free(|cs| *TIME.borrow(cs).borrow_mut() += 1);
|
|
}
|
|
|
|
#[exception]
|
|
fn HardFault(ef: &cortex_m_rt::ExceptionFrame) -> ! {
|
|
panic!("HardFault at {:#?}", ef);
|
|
}
|
|
|
|
#[exception]
|
|
fn DefaultHandler(irqn: i16) {
|
|
panic!("Unhandled exception (IRQn = {})", irqn);
|
|
}
|