embassy/embassy-stm32/src/flash/f4.rs

use core::convert::TryInto;
use core::ptr::write_volatile;

use atomic_polyfill::{fence, Ordering};

use super::{ERASE_SIZE, FLASH_BASE, FLASH_SIZE};
use crate::flash::Error;
use crate::pac;

const SECOND_BANK_SECTOR_START: u32 = 12;

unsafe fn is_dual_bank() -> bool {
    match FLASH_SIZE / 1024 {
        // 1 MB devices depend on configuration
        1024 => {
            if cfg!(any(stm32f427, stm32f429, stm32f437, stm32f439, stm32f469, stm32f479)) {
                pac::FLASH.optcr().read().db1m()
            } else {
                false
            }
        }
        // 2 MB devices are always dual bank
        2048 => true,
        // All other devices are single bank
        _ => false,
    }
}

pub(crate) unsafe fn lock() {
    pac::FLASH.cr().modify(|w| w.set_lock(true));
}

pub(crate) unsafe fn unlock() {
    pac::FLASH.keyr().write(|w| w.set_key(0x4567_0123));
    pac::FLASH.keyr().write(|w| w.set_key(0xCDEF_89AB));
}

pub(crate) unsafe fn blocking_write(offset: u32, buf: &[u8]) -> Result<(), Error> {
    pac::FLASH.cr().write(|w| {
        w.set_pg(true);
        w.set_psize(pac::flash::vals::Psize::PSIZE32);
    });

    let ret = {
        let mut ret: Result<(), Error> = Ok(());
        let mut offset = offset;
        for chunk in buf.chunks(super::WRITE_SIZE) {
            for val in chunk.chunks(4) {
                write_volatile(offset as *mut u32, u32::from_le_bytes(val[0..4].try_into().unwrap()));
                offset += val.len() as u32;

                // prevents parallelism errors
                fence(Ordering::SeqCst);
            }

            ret = blocking_wait_ready();
            if ret.is_err() {
                break;
            }
        }
        ret
    };

    pac::FLASH.cr().write(|w| w.set_pg(false));

    ret
}

struct FlashSector {
    index: u8,
    size: u32,
}

fn get_sector(addr: u32, dual_bank: bool) -> FlashSector {
    let offset = addr - FLASH_BASE as u32;

    let bank_size = match dual_bank {
        true => FLASH_SIZE / 2,
        false => FLASH_SIZE,
    } as u32;

    let bank = offset / bank_size;
    let offset_in_bank = offset % bank_size;

    let index_in_bank = if offset_in_bank >= ERASE_SIZE as u32 / 2 {
        4 + offset_in_bank / ERASE_SIZE as u32
    } else {
        offset_in_bank / (ERASE_SIZE as u32 / 8)
    };

    // First 4 sectors are 16KB, then one 64KB, and rest are 128KB
    let size = match index_in_bank {
        0..=3 => 16 * 1024,
        4 => 64 * 1024,
        _ => 128 * 1024,
    };

    let index = if bank == 1 {
        SECOND_BANK_SECTOR_START + index_in_bank
    } else {
        index_in_bank
    } as u8;

    FlashSector { index, size }
}

pub(crate) unsafe fn blocking_erase(from: u32, to: u32) -> Result<(), Error> {
    let mut addr = from;
    let dual_bank = is_dual_bank();

    while addr < to {
        let sector = get_sector(addr, dual_bank);
        erase_sector(sector.index)?;
        addr += sector.size;
    }

    Ok(())
}

unsafe fn erase_sector(sector: u8) -> Result<(), Error> {
    let bank = sector / SECOND_BANK_SECTOR_START as u8;
    let snb = (bank << 4) + (sector % SECOND_BANK_SECTOR_START as u8);

    trace!("Erasing sector: {}", sector);

    pac::FLASH.cr().modify(|w| {
        w.set_ser(true);
        w.set_snb(snb)
    });

    pac::FLASH.cr().modify(|w| {
        w.set_strt(true);
    });

    let ret: Result<(), Error> = blocking_wait_ready();

    clear_all_err();

    ret
}

pub(crate) unsafe fn clear_all_err() {
    pac::FLASH.sr().write(|w| {
        w.set_pgserr(true);
        w.set_pgperr(true);
        w.set_pgaerr(true);
        w.set_wrperr(true);
        w.set_eop(true);
    });
}

pub(crate) unsafe fn blocking_wait_ready() -> Result<(), Error> {
    loop {
        let sr = pac::FLASH.sr().read();

        if !sr.bsy() {
            if sr.pgserr() {
                return Err(Error::Seq);
            }

            if sr.pgperr() {
                return Err(Error::Parallelism);
            }

            if sr.pgaerr() {
                return Err(Error::Unaligned);
            }

            if sr.wrperr() {
                return Err(Error::Protected);
            }

            return Ok(());
        }
    }
}
Add F4 flash driver 2022-07-11 02:57:46 +02:00			`use core::convert::TryInto;`
			`use core::ptr::write_volatile;`

			`use atomic_polyfill::{fence, Ordering};`

			`use super::{ERASE_SIZE, FLASH_BASE, FLASH_SIZE};`
			`use crate::flash::Error;`
			`use crate::pac;`

			`const SECOND_BANK_SECTOR_START: u32 = 12;`

			`unsafe fn is_dual_bank() -> bool {`
			`match FLASH_SIZE / 1024 {`
			`// 1 MB devices depend on configuration`
			`1024 => {`
Fix cfg flags 2022-07-11 03:07:28 +02:00			`if cfg!(any(stm32f427, stm32f429, stm32f437, stm32f439, stm32f469, stm32f479)) {`
Add F4 flash driver 2022-07-11 02:57:46 +02:00			`pac::FLASH.optcr().read().db1m()`
			`} else {`
			`false`
			`}`
			`}`
			`// 2 MB devices are always dual bank`
			`2048 => true,`
			`// All other devices are single bank`
			`_ => false,`
			`}`
			`}`

			`pub(crate) unsafe fn lock() {`
			`pac::FLASH.cr().modify(\|w\| w.set_lock(true));`
			`}`

			`pub(crate) unsafe fn unlock() {`
			`pac::FLASH.keyr().write(\|w\| w.set_key(0x4567_0123));`
			`pac::FLASH.keyr().write(\|w\| w.set_key(0xCDEF_89AB));`
			`}`

			`pub(crate) unsafe fn blocking_write(offset: u32, buf: &[u8]) -> Result<(), Error> {`
			`pac::FLASH.cr().write(\|w\| {`
			`w.set_pg(true);`
			`w.set_psize(pac::flash::vals::Psize::PSIZE32);`
			`});`

			`let ret = {`
			`let mut ret: Result<(), Error> = Ok(());`
			`let mut offset = offset;`
			`for chunk in buf.chunks(super::WRITE_SIZE) {`
			`for val in chunk.chunks(4) {`
			`write_volatile(offset as *mut u32, u32::from_le_bytes(val[0..4].try_into().unwrap()));`
			`offset += val.len() as u32;`

			`// prevents parallelism errors`
			`fence(Ordering::SeqCst);`
			`}`

			`ret = blocking_wait_ready();`
			`if ret.is_err() {`
			`break;`
			`}`
			`}`
			`ret`
			`};`

			`pac::FLASH.cr().write(\|w\| w.set_pg(false));`

			`ret`
			`}`

Fix erasing across banks 2022-07-14 19:58:01 +02:00			`struct FlashSector {`
			`index: u8,`
			`size: u32,`
			`}`

			`fn get_sector(addr: u32, dual_bank: bool) -> FlashSector {`
Add F4 flash driver 2022-07-11 02:57:46 +02:00			`let offset = addr - FLASH_BASE as u32;`

Fix erasing across banks 2022-07-14 19:58:01 +02:00			`let bank_size = match dual_bank {`
			`true => FLASH_SIZE / 2,`
			`false => FLASH_SIZE,`
			`} as u32;`
Add F4 flash driver 2022-07-11 02:57:46 +02:00
Fix erasing across banks 2022-07-14 19:58:01 +02:00			`let bank = offset / bank_size;`
			`let offset_in_bank = offset % bank_size;`
Add F4 flash driver 2022-07-11 02:57:46 +02:00
Fix erasing across banks 2022-07-14 19:58:01 +02:00			`let index_in_bank = if offset_in_bank >= ERASE_SIZE as u32 / 2 {`
			`4 + offset_in_bank / ERASE_SIZE as u32`
Add F4 flash driver 2022-07-11 02:57:46 +02:00			`} else {`
Fix erasing across banks 2022-07-14 19:58:01 +02:00			`offset_in_bank / (ERASE_SIZE as u32 / 8)`
Add F4 flash driver 2022-07-11 02:57:46 +02:00			`};`

Fix erasing across banks 2022-07-14 19:58:01 +02:00			`// First 4 sectors are 16KB, then one 64KB, and rest are 128KB`
			`let size = match index_in_bank {`
			`0..=3 => 16 * 1024,`
			`4 => 64 * 1024,`
			`_ => 128 * 1024,`
			`};`

			`let index = if bank == 1 {`
			`SECOND_BANK_SECTOR_START + index_in_bank`
			`} else {`
			`index_in_bank`
			`} as u8;`

			`FlashSector { index, size }`
Add F4 flash driver 2022-07-11 02:57:46 +02:00			`}`

			`pub(crate) unsafe fn blocking_erase(from: u32, to: u32) -> Result<(), Error> {`
Fix erasing across banks 2022-07-14 19:58:01 +02:00			`let mut addr = from;`
			`let dual_bank = is_dual_bank();`
Add F4 flash driver 2022-07-11 02:57:46 +02:00
Fix erasing across banks 2022-07-14 19:58:01 +02:00			`while addr < to {`
			`let sector = get_sector(addr, dual_bank);`
			`erase_sector(sector.index)?;`
			`addr += sector.size;`
Add F4 flash driver 2022-07-11 02:57:46 +02:00			`}`

			`Ok(())`
			`}`

			`unsafe fn erase_sector(sector: u8) -> Result<(), Error> {`
Fix cfg flags 2022-07-11 03:07:28 +02:00			`let bank = sector / SECOND_BANK_SECTOR_START as u8;`
Add F4 flash driver 2022-07-11 02:57:46 +02:00			`let snb = (bank << 4) + (sector % SECOND_BANK_SECTOR_START as u8);`

Fix writing to last sector of F4 flash 2022-07-14 18:41:39 +02:00			`trace!("Erasing sector: {}", sector);`

Add F4 flash driver 2022-07-11 02:57:46 +02:00			`pac::FLASH.cr().modify(\|w\| {`
			`w.set_ser(true);`
			`w.set_snb(snb)`
			`});`

			`pac::FLASH.cr().modify(\|w\| {`
			`w.set_strt(true);`
			`});`

			`let ret: Result<(), Error> = blocking_wait_ready();`

			`clear_all_err();`

			`ret`
			`}`

			`pub(crate) unsafe fn clear_all_err() {`
			`pac::FLASH.sr().write(\|w\| {`
			`w.set_pgserr(true);`
			`w.set_pgperr(true);`
			`w.set_pgaerr(true);`
			`w.set_wrperr(true);`
			`w.set_eop(true);`
			`});`
			`}`

			`pub(crate) unsafe fn blocking_wait_ready() -> Result<(), Error> {`
			`loop {`
			`let sr = pac::FLASH.sr().read();`

			`if !sr.bsy() {`
			`if sr.pgserr() {`
			`return Err(Error::Seq);`
			`}`

			`if sr.pgperr() {`
			`return Err(Error::Parallelism);`
			`}`

			`if sr.pgaerr() {`
			`return Err(Error::Unaligned);`
			`}`

			`if sr.wrperr() {`
			`return Err(Error::Protected);`
			`}`

			`return Ok(());`
			`}`
			`}`
			`}`