fw-rust: Use avr-eeprom create to read from EEPROM
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Use the `avr-eeprom` crate when reading from EEPROM.
This commit is contained in:
finga 2022-03-12 17:20:53 +01:00
parent 9425093391
commit 518f113cc0
2 changed files with 12 additions and 28 deletions

View file

@ -35,7 +35,11 @@ dependencies = [
[[package]] [[package]]
name = "avr-eeprom" name = "avr-eeprom"
version = "0.1.0-dev" version = "0.1.0-dev"
source = "git+https://git.onders.org/finga/avr-eeprom-rs.git?branch=main#d7653567fb2f7ca7bf5100a44c233015a6e03e51" source = "git+https://git.onders.org/finga/avr-eeprom-rs.git?branch=main#0177da7268e91fa3c0cf545150589b2e33aa2101"
dependencies = [
"avr-device",
"nb 1.0.0",
]
[[package]] [[package]]
name = "avr-hal-generic" name = "avr-hal-generic"

View file

@ -10,7 +10,7 @@ use atmega_hal::{
Peripherals, Peripherals,
}; };
use avr_device::interrupt; use avr_device::interrupt;
use avr_eeprom::eeprom; use avr_eeprom::{eeprom, Eeprom};
use embedded_hal::{ use embedded_hal::{
blocking::delay::DelayMs, blocking::delay::DelayMs,
spi::{FullDuplex, Mode, Phase, Polarity}, spi::{FullDuplex, Mode, Phase, Polarity},
@ -138,31 +138,12 @@ fn main() -> ! {
// Get peripherals, pins, eeprom and delay // Get peripherals, pins, eeprom and delay
let dp = Peripherals::take().unwrap(); let dp = Peripherals::take().unwrap();
let pins = pins!(dp); let pins = pins!(dp);
let eeprom = dp.EEPROM; let eeprom = Eeprom::new(dp.EEPROM);
let mut delay = Delay::<MHz8>::new(); let mut delay = Delay::<MHz8>::new();
// TODO: Wait for completion of previous write // Get contrast and backlight from EEPROM
// Write address into eeprom address register let contrast = eeprom.read_value(&CONTRAST);
eeprom let backlight = eeprom.read_value(&BACKLIGHT);
.eear
.write(|w| unsafe { w.bits(CONTRAST.ptr() as u16) });
// Start to read from eeprom by setting EERE
eeprom.eecr.write(|w| w.eere().set_bit());
// Return data from eeprom data register
let _contrast = eeprom.eedr.read().bits();
// TODO: Remove delay when waiting for completion of revious write is done
delay.delay_ms(1_u8);
// TODO: Wait for completion of previous write
// Write address into eeprom address register
eeprom
.eear
.write(|w| unsafe { w.bits(BACKLIGHT.ptr() as u16) });
// Start to read from eeprom by setting EERE
eeprom.eecr.write(|w| w.eere().set_bit());
// Return data from eeprom data register
let _backlight = eeprom.eedr.read().bits();
// Init display backlight // Init display backlight
let tc0 = dp.TC0; let tc0 = dp.TC0;
@ -177,8 +158,7 @@ fn main() -> ! {
w w
}); });
tc0.ocr0a.write(|w| unsafe { w.bits(255) }); tc0.ocr0a.write(|w| unsafe { w.bits(255) });
// TODO: Use EEPROM tc0.ocr0b.write(|w| unsafe { w.bits(backlight) });
tc0.ocr0b.write(|w| unsafe { w.bits(0) });
pins.pd5.into_output(); pins.pd5.into_output();
// Init SPI // Init SPI
@ -215,7 +195,7 @@ fn main() -> ! {
block!(spi.send(0x2F)).unwrap(); // (5) Set Power Control: Booster, Regulator and Follower on block!(spi.send(0x2F)).unwrap(); // (5) Set Power Control: Booster, Regulator and Follower on
block!(spi.send(0x27)).unwrap(); // (8) Set VLCD Resistor Ratio: Set Contrast block!(spi.send(0x27)).unwrap(); // (8) Set VLCD Resistor Ratio: Set Contrast
block!(spi.send(0x81)).unwrap(); // (9) Set Electronic Volume: Set Contrast block!(spi.send(0x81)).unwrap(); // (9) Set Electronic Volume: Set Contrast
block!(spi.send(0x08)).unwrap(); // (9) Set Electronic Volume: Set Contrast // TODO: Use EEPROM block!(spi.send(contrast)).unwrap(); // (9) Set Electronic Volume: Set Contrast
block!(spi.send(0xAF)).unwrap(); // (12) Set Display Enable: Display on block!(spi.send(0xAF)).unwrap(); // (12) Set Display Enable: Display on
// Draw splash screen // Draw splash screen