embassy/embassy-stm32/src/flash/h7.rs

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

use atomic_polyfill::{fence, Ordering};

use super::{FlashRegion, FlashSector, BANK1, FLASH_SIZE, WRITE_SIZE};
use crate::flash::Error;
use crate::pac;

const ERASE_SIZE: usize = BANK1::SETTINGS.erase_size;
const SECOND_BANK_OFFSET: usize = 0x0010_0000;

const fn is_dual_bank() -> bool {
    FLASH_SIZE / 2 > ERASE_SIZE
}

pub(crate) unsafe fn lock() {
    pac::FLASH.bank(0).cr().modify(|w| w.set_lock(true));
    if is_dual_bank() {
        pac::FLASH.bank(1).cr().modify(|w| w.set_lock(true));
    }
}

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

    if is_dual_bank() {
        pac::FLASH.bank(1).keyr().write(|w| w.set_keyr(0x4567_0123));
        pac::FLASH.bank(1).keyr().write(|w| w.set_keyr(0xCDEF_89AB));
    }
}

pub(crate) unsafe fn begin_write() {
    assert_eq!(0, WRITE_SIZE % 4);
}

pub(crate) unsafe fn end_write() {}

pub(crate) unsafe fn blocking_write(start_address: u32, buf: &[u8; WRITE_SIZE]) -> Result<(), Error> {
    // We cannot have the write setup sequence in begin_write as it depends on the address
    let bank = if !is_dual_bank() || (start_address - super::FLASH_BASE as u32) < SECOND_BANK_OFFSET as u32 {
        pac::FLASH.bank(0)
    } else {
        pac::FLASH.bank(1)
    };
    bank.cr().write(|w| {
        w.set_pg(true);
        w.set_psize(2); // 32 bits at once
    });
    cortex_m::asm::isb();
    cortex_m::asm::dsb();
    fence(Ordering::SeqCst);

    let mut res = None;
    let mut address = start_address;
    for val in buf.chunks(4) {
        write_volatile(address as *mut u32, u32::from_le_bytes(val.try_into().unwrap()));
        address += val.len() as u32;

        res = Some(blocking_wait_ready(bank));
        bank.sr().modify(|w| {
            if w.eop() {
                w.set_eop(true);
            }
        });
        if res.unwrap().is_err() {
            break;
        }
    }

    bank.cr().write(|w| w.set_pg(false));

    cortex_m::asm::isb();
    cortex_m::asm::dsb();
    fence(Ordering::SeqCst);

    res.unwrap()
}

pub(crate) unsafe fn blocking_erase_sector(sector: &FlashSector) -> Result<(), Error> {
    let bank = pac::FLASH.bank(if sector.index >= 8 { 1 } else { 0 });
    let sector = sector.index % 8;
    bank.cr().modify(|w| {
        w.set_ser(true);
        w.set_snb(sector)
    });

    bank.cr().modify(|w| {
        w.set_start(true);
    });

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

    bank.cr().modify(|w| w.set_ser(false));

    bank_clear_all_err(bank);

    ret
}

pub(crate) unsafe fn clear_all_err() {
    bank_clear_all_err(pac::FLASH.bank(0));
    bank_clear_all_err(pac::FLASH.bank(1));
}

unsafe fn bank_clear_all_err(bank: pac::flash::Bank) {
    bank.sr().modify(|w| {
        if w.wrperr() {
            w.set_wrperr(true);
        }
        if w.pgserr() {
            w.set_pgserr(true);
        }
        if w.strberr() {
            // single address was written multiple times, can be ignored
            w.set_strberr(true);
        }
        if w.incerr() {
            // writing to a different address when programming 256 bit word was not finished
            w.set_incerr(true);
        }
        if w.operr() {
            w.set_operr(true);
        }
        if w.sneccerr1() {
            // single ECC error
            w.set_sneccerr1(true);
        }
        if w.dbeccerr() {
            // double ECC error
            w.set_dbeccerr(true);
        }
        if w.rdperr() {
            w.set_rdperr(true);
        }
        if w.rdserr() {
            w.set_rdserr(true);
        }
    });
}

unsafe fn blocking_wait_ready(bank: pac::flash::Bank) -> Result<(), Error> {
    loop {
        let sr = bank.sr().read();

        if !sr.bsy() && !sr.qw() {
            if sr.wrperr() {
                return Err(Error::Protected);
            }
            if sr.pgserr() {
                error!("pgserr");
                return Err(Error::Seq);
            }
            if sr.incerr() {
                // writing to a different address when programming 256 bit word was not finished
                error!("incerr");
                return Err(Error::Seq);
            }
            if sr.operr() {
                return Err(Error::Prog);
            }
            if sr.sneccerr1() {
                // single ECC error
                return Err(Error::Prog);
            }
            if sr.dbeccerr() {
                // double ECC error
                return Err(Error::Prog);
            }
            if sr.rdperr() {
                return Err(Error::Protected);
            }
            if sr.rdserr() {
                return Err(Error::Protected);
            }

            return Ok(());
        }
    }
}

pub(crate) fn get_sector(address: u32) -> FlashSector {
    let sector_size = BANK1::SETTINGS.erase_size as u32;
    let index = address / sector_size;
    FlashSector {
        index: index as u8,
        start: BANK1::SETTINGS.base as u32 + index * sector_size,
        size: sector_size,
    }
}
Add H7 flash and bootloader support 2022-05-06 09:21:29 +02:00			`use core::convert::TryInto;`
			`use core::ptr::write_volatile;`

Add is_eraseable_range and split write into consecutive parts 2023-03-25 16:04:45 +01:00			`use atomic_polyfill::{fence, Ordering};`

Expose get_sector in favor of is_eraseable_range 2023-03-29 12:49:13 +02:00			`use super::{FlashRegion, FlashSector, BANK1, FLASH_SIZE, WRITE_SIZE};`
Add H7 flash and bootloader support 2022-05-06 09:21:29 +02:00			`use crate::flash::Error;`
			`use crate::pac;`

Expose get_sector in favor of is_eraseable_range 2023-03-29 12:49:13 +02:00			`const ERASE_SIZE: usize = BANK1::SETTINGS.erase_size;`
Add H7 flash and bootloader support 2022-05-06 09:21:29 +02:00			`const SECOND_BANK_OFFSET: usize = 0x0010_0000;`

			`const fn is_dual_bank() -> bool {`
Align H7 family 2023-03-25 13:03:00 +01:00			`FLASH_SIZE / 2 > ERASE_SIZE`
Add H7 flash and bootloader support 2022-05-06 09:21:29 +02:00			`}`

			`pub(crate) unsafe fn lock() {`
			`pac::FLASH.bank(0).cr().modify(\|w\| w.set_lock(true));`
			`if is_dual_bank() {`
			`pac::FLASH.bank(1).cr().modify(\|w\| w.set_lock(true));`
			`}`
			`}`

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

			`if is_dual_bank() {`
			`pac::FLASH.bank(1).keyr().write(\|w\| w.set_keyr(0x4567_0123));`
			`pac::FLASH.bank(1).keyr().write(\|w\| w.set_keyr(0xCDEF_89AB));`
			`}`
			`}`

Add is_eraseable_range and split write into consecutive parts 2023-03-25 16:04:45 +01:00			`pub(crate) unsafe fn begin_write() {`
			`assert_eq!(0, WRITE_SIZE % 4);`
			`}`

			`pub(crate) unsafe fn end_write() {}`

			`pub(crate) unsafe fn blocking_write(start_address: u32, buf: &[u8; WRITE_SIZE]) -> Result<(), Error> {`
			`// We cannot have the write setup sequence in begin_write as it depends on the address`
			`let bank = if !is_dual_bank() \|\| (start_address - super::FLASH_BASE as u32) < SECOND_BANK_OFFSET as u32 {`
Add H7 flash and bootloader support 2022-05-06 09:21:29 +02:00			`pac::FLASH.bank(0)`
			`} else {`
			`pac::FLASH.bank(1)`
			`};`
			`bank.cr().write(\|w\| {`
			`w.set_pg(true);`
			`w.set_psize(2); // 32 bits at once`
			`});`
Add memory barriers to H7 flash driver to mitigate PGSERR errors The stm32h7xx-hal uses only the ordering barrier, while the CubeMX uses the DSB and ISB instructions, to be on the safe side, both are used here. 2022-10-18 22:42:02 +02:00			`cortex_m::asm::isb();`
			`cortex_m::asm::dsb();`
Add is_eraseable_range and split write into consecutive parts 2023-03-25 16:04:45 +01:00			`fence(Ordering::SeqCst);`

			`let mut res = None;`
			`let mut address = start_address;`
			`for val in buf.chunks(4) {`
			`write_volatile(address as *mut u32, u32::from_le_bytes(val.try_into().unwrap()));`
			`address += val.len() as u32;`

			`res = Some(blocking_wait_ready(bank));`
			`bank.sr().modify(\|w\| {`
			`if w.eop() {`
			`w.set_eop(true);`
Add H7 flash and bootloader support 2022-05-06 09:21:29 +02:00			`}`
Add is_eraseable_range and split write into consecutive parts 2023-03-25 16:04:45 +01:00			`});`
			`if res.unwrap().is_err() {`
			`break;`
Add H7 flash and bootloader support 2022-05-06 09:21:29 +02:00			`}`
Add is_eraseable_range and split write into consecutive parts 2023-03-25 16:04:45 +01:00			`}`
Add H7 flash and bootloader support 2022-05-06 09:21:29 +02:00
			`bank.cr().write(\|w\| w.set_pg(false));`

Add memory barriers to H7 flash driver to mitigate PGSERR errors The stm32h7xx-hal uses only the ordering barrier, while the CubeMX uses the DSB and ISB instructions, to be on the safe side, both are used here. 2022-10-18 22:42:02 +02:00			`cortex_m::asm::isb();`
			`cortex_m::asm::dsb();`
Add is_eraseable_range and split write into consecutive parts 2023-03-25 16:04:45 +01:00			`fence(Ordering::SeqCst);`
Add memory barriers to H7 flash driver to mitigate PGSERR errors The stm32h7xx-hal uses only the ordering barrier, while the CubeMX uses the DSB and ISB instructions, to be on the safe side, both are used here. 2022-10-18 22:42:02 +02:00
Add is_eraseable_range and split write into consecutive parts 2023-03-25 16:04:45 +01:00			`res.unwrap()`
Add H7 flash and bootloader support 2022-05-06 09:21:29 +02:00			`}`

Move as much logic from families to shared module as possible 2023-03-29 13:37:10 +02:00			`pub(crate) unsafe fn blocking_erase_sector(sector: &FlashSector) -> Result<(), Error> {`
Fix h7 compile error 2023-03-29 14:50:19 +02:00			`let bank = pac::FLASH.bank(if sector.index >= 8 { 1 } else { 0 });`
Move as much logic from families to shared module as possible 2023-03-29 13:37:10 +02:00			`let sector = sector.index % 8;`
Add H7 flash and bootloader support 2022-05-06 09:21:29 +02:00			`bank.cr().modify(\|w\| {`
			`w.set_ser(true);`
			`w.set_snb(sector)`
			`});`

			`bank.cr().modify(\|w\| {`
			`w.set_start(true);`
			`});`

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

			`bank.cr().modify(\|w\| w.set_ser(false));`

			`bank_clear_all_err(bank);`

			`ret`
			`}`

			`pub(crate) unsafe fn clear_all_err() {`
			`bank_clear_all_err(pac::FLASH.bank(0));`
			`bank_clear_all_err(pac::FLASH.bank(1));`
			`}`

			`unsafe fn bank_clear_all_err(bank: pac::flash::Bank) {`
			`bank.sr().modify(\|w\| {`
			`if w.wrperr() {`
			`w.set_wrperr(true);`
			`}`
			`if w.pgserr() {`
			`w.set_pgserr(true);`
			`}`
			`if w.strberr() {`
			`// single address was written multiple times, can be ignored`
			`w.set_strberr(true);`
			`}`
			`if w.incerr() {`
			`// writing to a different address when programming 256 bit word was not finished`
			`w.set_incerr(true);`
			`}`
			`if w.operr() {`
			`w.set_operr(true);`
			`}`
			`if w.sneccerr1() {`
			`// single ECC error`
			`w.set_sneccerr1(true);`
			`}`
			`if w.dbeccerr() {`
			`// double ECC error`
			`w.set_dbeccerr(true);`
			`}`
			`if w.rdperr() {`
			`w.set_rdperr(true);`
			`}`
			`if w.rdserr() {`
			`w.set_rdserr(true);`
			`}`
			`});`
			`}`

Add is_eraseable_range and split write into consecutive parts 2023-03-25 16:04:45 +01:00			`unsafe fn blocking_wait_ready(bank: pac::flash::Bank) -> Result<(), Error> {`
Add H7 flash and bootloader support 2022-05-06 09:21:29 +02:00			`loop {`
			`let sr = bank.sr().read();`

			`if !sr.bsy() && !sr.qw() {`
			`if sr.wrperr() {`
			`return Err(Error::Protected);`
			`}`
			`if sr.pgserr() {`
			`error!("pgserr");`
			`return Err(Error::Seq);`
			`}`
			`if sr.incerr() {`
			`// writing to a different address when programming 256 bit word was not finished`
			`error!("incerr");`
			`return Err(Error::Seq);`
			`}`
			`if sr.operr() {`
			`return Err(Error::Prog);`
			`}`
			`if sr.sneccerr1() {`
			`// single ECC error`
			`return Err(Error::Prog);`
			`}`
			`if sr.dbeccerr() {`
			`// double ECC error`
			`return Err(Error::Prog);`
			`}`
			`if sr.rdperr() {`
			`return Err(Error::Protected);`
			`}`
			`if sr.rdserr() {`
			`return Err(Error::Protected);`
			`}`

			`return Ok(());`
			`}`
			`}`
			`}`
Expose get_sector in favor of is_eraseable_range 2023-03-29 12:49:13 +02:00
			`pub(crate) fn get_sector(address: u32) -> FlashSector {`
			`let sector_size = BANK1::SETTINGS.erase_size as u32;`
			`let index = address / sector_size;`
			`FlashSector {`
			`index: index as u8,`
			`start: BANK1::SETTINGS.base as u32 + index * sector_size,`
			`size: sector_size,`
			`}`
			`}`