rp/flash: centralize USE_BOOT2 in a single const.

This commit is contained in:
Dario Nieuwenhuis 2023-06-05 23:41:26 +02:00
parent 70e1b976d8
commit 162d485304

View file

@ -10,6 +10,7 @@ use crate::pac;
use crate::peripherals::FLASH;
pub const FLASH_BASE: *const u32 = 0x10000000 as _;
pub const USE_BOOT2: bool = true;
// **NOTE**:
//
@ -89,7 +90,7 @@ impl<'d, T: Instance, const FLASH_SIZE: usize> Flash<'d, T, FLASH_SIZE> {
let len = to - from;
unsafe { self.in_ram(|| ram_helpers::flash_range_erase(from, len, true))? };
unsafe { self.in_ram(|| ram_helpers::flash_range_erase(from, len))? };
Ok(())
}
@ -114,7 +115,7 @@ impl<'d, T: Instance, const FLASH_SIZE: usize> Flash<'d, T, FLASH_SIZE> {
let unaligned_offset = offset as usize - start;
unsafe { self.in_ram(|| ram_helpers::flash_range_program(unaligned_offset as u32, &pad_buf, true))? }
unsafe { self.in_ram(|| ram_helpers::flash_range_program(unaligned_offset as u32, &pad_buf))? }
}
let remaining_len = bytes.len() - start_padding;
@ -132,12 +133,12 @@ impl<'d, T: Instance, const FLASH_SIZE: usize> Flash<'d, T, FLASH_SIZE> {
if bytes.as_ptr() as usize >= 0x2000_0000 {
let aligned_data = &bytes[start_padding..end_padding];
unsafe { self.in_ram(|| ram_helpers::flash_range_program(aligned_offset as u32, aligned_data, true))? }
unsafe { self.in_ram(|| ram_helpers::flash_range_program(aligned_offset as u32, aligned_data))? }
} else {
for chunk in bytes[start_padding..end_padding].chunks_exact(PAGE_SIZE) {
let mut ram_buf = [0xFF_u8; PAGE_SIZE];
ram_buf.copy_from_slice(chunk);
unsafe { self.in_ram(|| ram_helpers::flash_range_program(aligned_offset as u32, &ram_buf, true))? }
unsafe { self.in_ram(|| ram_helpers::flash_range_program(aligned_offset as u32, &ram_buf))? }
aligned_offset += PAGE_SIZE;
}
}
@ -152,7 +153,7 @@ impl<'d, T: Instance, const FLASH_SIZE: usize> Flash<'d, T, FLASH_SIZE> {
let unaligned_offset = end_offset - (PAGE_SIZE - rem_offset);
unsafe { self.in_ram(|| ram_helpers::flash_range_program(unaligned_offset as u32, &pad_buf, true))? }
unsafe { self.in_ram(|| ram_helpers::flash_range_program(unaligned_offset as u32, &pad_buf))? }
}
Ok(())
@ -190,7 +191,7 @@ impl<'d, T: Instance, const FLASH_SIZE: usize> Flash<'d, T, FLASH_SIZE> {
/// Read SPI flash unique ID
pub fn unique_id(&mut self, uid: &mut [u8]) -> Result<(), Error> {
unsafe { self.in_ram(|| ram_helpers::flash_unique_id(uid, true))? };
unsafe { self.in_ram(|| ram_helpers::flash_unique_id(uid))? };
Ok(())
}
@ -199,7 +200,7 @@ impl<'d, T: Instance, const FLASH_SIZE: usize> Flash<'d, T, FLASH_SIZE> {
let mut jedec = None;
unsafe {
self.in_ram(|| {
jedec.replace(ram_helpers::flash_jedec_id(true));
jedec.replace(ram_helpers::flash_jedec_id());
})?;
};
Ok(jedec.unwrap())
@ -307,7 +308,7 @@ mod ram_helpers {
///
/// `addr` and `len` must be multiples of 4096
///
/// If `use_boot2` is `true`, a copy of the 2nd stage boot loader
/// If `USE_BOOT2` is `true`, a copy of the 2nd stage boot loader
/// is used to re-initialize the XIP engine after flashing.
///
/// # Safety
@ -319,9 +320,9 @@ mod ram_helpers {
/// - DMA must not access flash memory
///
/// `addr` and `len` parameters must be valid and are not checked.
pub unsafe fn flash_range_erase(addr: u32, len: u32, use_boot2: bool) {
pub unsafe fn flash_range_erase(addr: u32, len: u32) {
let mut boot2 = [0u32; 256 / 4];
let ptrs = if use_boot2 {
let ptrs = if USE_BOOT2 {
rom_data::memcpy44(&mut boot2 as *mut _, FLASH_BASE, 256);
flash_function_pointers_with_boot2(true, false, &boot2)
} else {
@ -337,7 +338,7 @@ mod ram_helpers {
///
/// `addr` and `data.len()` must be multiples of 4096
///
/// If `use_boot2` is `true`, a copy of the 2nd stage boot loader
/// If `USE_BOOT2` is `true`, a copy of the 2nd stage boot loader
/// is used to re-initialize the XIP engine after flashing.
///
/// # Safety
@ -349,9 +350,9 @@ mod ram_helpers {
/// - DMA must not access flash memory
///
/// `addr` and `len` parameters must be valid and are not checked.
pub unsafe fn flash_range_erase_and_program(addr: u32, data: &[u8], use_boot2: bool) {
pub unsafe fn flash_range_erase_and_program(addr: u32, data: &[u8]) {
let mut boot2 = [0u32; 256 / 4];
let ptrs = if use_boot2 {
let ptrs = if USE_BOOT2 {
rom_data::memcpy44(&mut boot2 as *mut _, FLASH_BASE, 256);
flash_function_pointers_with_boot2(true, true, &boot2)
} else {
@ -372,7 +373,7 @@ mod ram_helpers {
///
/// `addr` and `data.len()` must be multiples of 256
///
/// If `use_boot2` is `true`, a copy of the 2nd stage boot loader
/// If `USE_BOOT2` is `true`, a copy of the 2nd stage boot loader
/// is used to re-initialize the XIP engine after flashing.
///
/// # Safety
@ -384,9 +385,9 @@ mod ram_helpers {
/// - DMA must not access flash memory
///
/// `addr` and `len` parameters must be valid and are not checked.
pub unsafe fn flash_range_program(addr: u32, data: &[u8], use_boot2: bool) {
pub unsafe fn flash_range_program(addr: u32, data: &[u8]) {
let mut boot2 = [0u32; 256 / 4];
let ptrs = if use_boot2 {
let ptrs = if USE_BOOT2 {
rom_data::memcpy44(&mut boot2 as *mut _, FLASH_BASE, 256);
flash_function_pointers_with_boot2(false, true, &boot2)
} else {
@ -509,9 +510,9 @@ mod ram_helpers {
/// - DMA must not access flash memory
///
/// Credit: taken from `rp2040-flash` (also licensed Apache+MIT)
pub unsafe fn flash_unique_id(out: &mut [u8], use_boot2: bool) {
pub unsafe fn flash_unique_id(out: &mut [u8]) {
let mut boot2 = [0u32; 256 / 4];
let ptrs = if use_boot2 {
let ptrs = if USE_BOOT2 {
rom_data::memcpy44(&mut boot2 as *mut _, FLASH_BASE, 256);
flash_function_pointers_with_boot2(false, false, &boot2)
} else {
@ -537,9 +538,9 @@ mod ram_helpers {
/// - DMA must not access flash memory
///
/// Credit: taken from `rp2040-flash` (also licensed Apache+MIT)
pub unsafe fn flash_jedec_id(use_boot2: bool) -> u32 {
pub unsafe fn flash_jedec_id() -> u32 {
let mut boot2 = [0u32; 256 / 4];
let ptrs = if use_boot2 {
let ptrs = if USE_BOOT2 {
rom_data::memcpy44(&mut boot2 as *mut _, FLASH_BASE, 256);
flash_function_pointers_with_boot2(false, false, &boot2)
} else {