Support multiple flash instances in embassy-boot

* Add FlashProvider and FlashConfig traits to define flash
characteristics
* Use traits in bootloader to retrieve flash handles and for
copying data between flash instances
* Add convenience implementations for using a single flash instance.
This commit is contained in:
Ulf Lilleengen 2022-04-19 14:42:38 +02:00
parent e2ed41b383
commit 2afff617f6
8 changed files with 207 additions and 52 deletions

View File

@ -14,7 +14,7 @@
///!
mod fmt;
use embedded_storage::nor_flash::{NorFlash, ReadNorFlash};
use embedded_storage::nor_flash::{NorFlash, NorFlashError, NorFlashErrorKind, ReadNorFlash};
use embedded_storage_async::nor_flash::AsyncNorFlash;
pub const BOOT_MAGIC: u32 = 0xD00DF00D;
@ -44,18 +44,41 @@ pub enum State {
}
#[derive(PartialEq, Debug)]
#[cfg_attr(feature = "defmt", derive(defmt::Format))]
pub enum BootError<E> {
Flash(E),
pub enum BootError {
Flash(NorFlashErrorKind),
BadMagic,
}
impl<E> From<E> for BootError<E> {
impl<E> From<E> for BootError
where
E: NorFlashError,
{
fn from(error: E) -> Self {
BootError::Flash(error)
BootError::Flash(error.kind())
}
}
pub trait FlashConfig {
const BLOCK_SIZE: usize;
type FLASH: NorFlash + ReadNorFlash;
fn flash(&mut self) -> &mut Self::FLASH;
}
/// Trait defining the flash handles used for active and DFU partition
pub trait FlashProvider {
type STATE: FlashConfig;
type ACTIVE: FlashConfig;
type DFU: FlashConfig;
/// Return flash instance used to write/read to/from active partition.
fn active(&mut self) -> &mut Self::ACTIVE;
/// Return flash instance used to write/read to/from dfu partition.
fn dfu(&mut self) -> &mut Self::DFU;
/// Return flash instance used to write/read to/from bootloader state.
fn state(&mut self) -> &mut Self::STATE;
}
/// BootLoader works with any flash implementing embedded_storage and can also work with
/// different page sizes.
pub struct BootLoader<const PAGE_SIZE: usize> {
@ -168,29 +191,27 @@ impl<const PAGE_SIZE: usize> BootLoader<PAGE_SIZE> {
/// | DFU | 3 | 3 | 2 | 1 | 3 |
/// +-----------+--------------+--------+--------+--------+--------+
///
pub fn prepare_boot<F: NorFlash + ReadNorFlash>(
&mut self,
flash: &mut F,
) -> Result<State, BootError<F::Error>> {
pub fn prepare_boot<P: FlashProvider>(&mut self, p: &mut P) -> Result<State, BootError> {
// Copy contents from partition N to active
let state = self.read_state(flash)?;
let state = self.read_state(p.state())?;
match state {
State::Swap => {
//
// Check if we already swapped. If we're in the swap state, this means we should revert
// since the app has failed to mark boot as successful
//
if !self.is_swapped(flash)? {
if !self.is_swapped(p.state())? {
trace!("Swapping");
self.swap(flash)?;
self.swap(p)?;
} else {
trace!("Reverting");
self.revert(flash)?;
self.revert(p)?;
// Overwrite magic and reset progress
flash.write(self.state.from as u32, &[0, 0, 0, 0])?;
flash.erase(self.state.from as u32, self.state.to as u32)?;
flash.write(self.state.from as u32, &BOOT_MAGIC.to_le_bytes())?;
let fstate = p.state().flash();
fstate.write(self.state.from as u32, &[0, 0, 0, 0])?;
fstate.erase(self.state.from as u32, self.state.to as u32)?;
fstate.write(self.state.from as u32, &BOOT_MAGIC.to_le_bytes())?;
}
}
_ => {}
@ -198,15 +219,16 @@ impl<const PAGE_SIZE: usize> BootLoader<PAGE_SIZE> {
Ok(state)
}
fn is_swapped<F: ReadNorFlash>(&mut self, flash: &mut F) -> Result<bool, F::Error> {
fn is_swapped<P: FlashConfig>(&mut self, p: &mut P) -> Result<bool, BootError> {
let page_count = self.active.len() / PAGE_SIZE;
let progress = self.current_progress(flash)?;
let progress = self.current_progress(p)?;
Ok(progress >= page_count * 2)
}
fn current_progress<F: ReadNorFlash>(&mut self, flash: &mut F) -> Result<usize, F::Error> {
fn current_progress<P: FlashConfig>(&mut self, p: &mut P) -> Result<usize, BootError> {
let max_index = ((self.state.len() - 4) / 4) - 1;
let flash = p.flash();
for i in 0..max_index {
let mut buf: [u8; 4] = [0; 4];
flash.read((self.state.from + 4 + i * 4) as u32, &mut buf)?;
@ -217,7 +239,8 @@ impl<const PAGE_SIZE: usize> BootLoader<PAGE_SIZE> {
Ok(max_index)
}
fn update_progress<F: NorFlash>(&mut self, idx: usize, flash: &mut F) -> Result<(), F::Error> {
fn update_progress<P: FlashConfig>(&mut self, idx: usize, p: &mut P) -> Result<(), BootError> {
let flash = p.flash();
let w = self.state.from + 4 + idx * 4;
flash.write(w as u32, &[0, 0, 0, 0])?;
Ok(())
@ -231,62 +254,104 @@ impl<const PAGE_SIZE: usize> BootLoader<PAGE_SIZE> {
self.dfu.from + n * PAGE_SIZE
}
fn copy_page_once<F: NorFlash + ReadNorFlash>(
fn copy_page_once_to_active<P: FlashProvider>(
&mut self,
idx: usize,
from: usize,
to: usize,
flash: &mut F,
) -> Result<(), F::Error> {
from_page: usize,
to_page: usize,
p: &mut P,
) -> Result<(), BootError> {
let mut buf: [u8; PAGE_SIZE] = [0; PAGE_SIZE];
if self.current_progress(flash)? <= idx {
flash.read(from as u32, &mut buf)?;
flash.erase(to as u32, (to + PAGE_SIZE) as u32)?;
flash.write(to as u32, &buf)?;
self.update_progress(idx, flash)?;
if self.current_progress(p.state())? <= idx {
let mut offset = from_page;
for chunk in buf.chunks_mut(P::DFU::BLOCK_SIZE) {
p.dfu().flash().read(offset as u32, chunk)?;
offset += chunk.len();
}
p.active()
.flash()
.erase(to_page as u32, (to_page + PAGE_SIZE) as u32)?;
let mut offset = to_page;
for chunk in buf.chunks(P::ACTIVE::BLOCK_SIZE) {
p.active().flash().write(offset as u32, &chunk)?;
offset += chunk.len();
}
self.update_progress(idx, p.state())?;
}
Ok(())
}
fn swap<F: NorFlash + ReadNorFlash>(&mut self, flash: &mut F) -> Result<(), F::Error> {
fn copy_page_once_to_dfu<P: FlashProvider>(
&mut self,
idx: usize,
from_page: usize,
to_page: usize,
p: &mut P,
) -> Result<(), BootError> {
let mut buf: [u8; PAGE_SIZE] = [0; PAGE_SIZE];
if self.current_progress(p.state())? <= idx {
let mut offset = from_page;
for chunk in buf.chunks_mut(P::ACTIVE::BLOCK_SIZE) {
p.active().flash().read(offset as u32, chunk)?;
offset += chunk.len();
}
p.dfu()
.flash()
.erase(to_page as u32, (to_page + PAGE_SIZE) as u32)?;
let mut offset = to_page;
for chunk in buf.chunks(P::DFU::BLOCK_SIZE) {
p.dfu().flash().write(offset as u32, chunk)?;
offset += chunk.len();
}
self.update_progress(idx, p.state())?;
}
Ok(())
}
fn swap<P: FlashProvider>(&mut self, p: &mut P) -> Result<(), BootError> {
let page_count = self.active.len() / PAGE_SIZE;
// trace!("Page count: {}", page_count);
for page in 0..page_count {
// Copy active page to the 'next' DFU page.
let active_page = self.active_addr(page_count - 1 - page);
let dfu_page = self.dfu_addr(page_count - page);
// info!("Copy active {} to dfu {}", active_page, dfu_page);
self.copy_page_once(page * 2, active_page, dfu_page, flash)?;
info!("Copy active {} to dfu {}", active_page, dfu_page);
self.copy_page_once_to_dfu(page * 2, active_page, dfu_page, p)?;
// Copy DFU page to the active page
let active_page = self.active_addr(page_count - 1 - page);
let dfu_page = self.dfu_addr(page_count - 1 - page);
//info!("Copy dfy {} to active {}", dfu_page, active_page);
self.copy_page_once(page * 2 + 1, dfu_page, active_page, flash)?;
info!("Copy dfy {} to active {}", dfu_page, active_page);
self.copy_page_once_to_active(page * 2 + 1, dfu_page, active_page, p)?;
}
Ok(())
}
fn revert<F: NorFlash + ReadNorFlash>(&mut self, flash: &mut F) -> Result<(), F::Error> {
fn revert<P: FlashProvider>(&mut self, p: &mut P) -> Result<(), BootError> {
let page_count = self.active.len() / PAGE_SIZE;
for page in 0..page_count {
// Copy the bad active page to the DFU page
let active_page = self.active_addr(page);
let dfu_page = self.dfu_addr(page);
self.copy_page_once(page_count * 2 + page * 2, active_page, dfu_page, flash)?;
self.copy_page_once_to_dfu(page_count * 2 + page * 2, active_page, dfu_page, p)?;
// Copy the DFU page back to the active page
let active_page = self.active_addr(page);
let dfu_page = self.dfu_addr(page + 1);
self.copy_page_once(page_count * 2 + page * 2 + 1, dfu_page, active_page, flash)?;
self.copy_page_once_to_active(page_count * 2 + page * 2 + 1, dfu_page, active_page, p)?;
}
Ok(())
}
fn read_state<F: ReadNorFlash>(&mut self, flash: &mut F) -> Result<State, BootError<F::Error>> {
fn read_state<P: FlashConfig>(&mut self, p: &mut P) -> Result<State, BootError> {
let mut magic: [u8; 4] = [0; 4];
let flash = p.flash();
flash.read(self.state.from as u32, &mut magic)?;
match u32::from_le_bytes(magic) {
@ -296,6 +361,62 @@ impl<const PAGE_SIZE: usize> BootLoader<PAGE_SIZE> {
}
}
/// Convenience provider that uses a single flash for everything
pub struct SingleFlashProvider<'a, F>
where
F: NorFlash + ReadNorFlash,
{
config: SingleFlashConfig<'a, F>,
}
impl<'a, F> SingleFlashProvider<'a, F>
where
F: NorFlash + ReadNorFlash,
{
pub fn new(flash: &'a mut F) -> Self {
Self {
config: SingleFlashConfig { flash },
}
}
}
pub struct SingleFlashConfig<'a, F>
where
F: NorFlash + ReadNorFlash,
{
flash: &'a mut F,
}
impl<'a, F> FlashProvider for SingleFlashProvider<'a, F>
where
F: NorFlash + ReadNorFlash,
{
type STATE = SingleFlashConfig<'a, F>;
type ACTIVE = SingleFlashConfig<'a, F>;
type DFU = SingleFlashConfig<'a, F>;
fn active(&mut self) -> &mut Self::STATE {
&mut self.config
}
fn dfu(&mut self) -> &mut Self::ACTIVE {
&mut self.config
}
fn state(&mut self) -> &mut Self::DFU {
&mut self.config
}
}
impl<'a, F> FlashConfig for SingleFlashConfig<'a, F>
where
F: NorFlash + ReadNorFlash,
{
const BLOCK_SIZE: usize = F::ERASE_SIZE;
type FLASH = F;
fn flash(&mut self) -> &mut F {
self.flash
}
}
/// FirmwareUpdater is an application API for interacting with the BootLoader without the ability to
/// 'mess up' the internal bootloader state
pub struct FirmwareUpdater {
@ -371,7 +492,10 @@ impl FirmwareUpdater {
offset: usize,
data: &[u8],
flash: &mut F,
block_size: usize,
) -> Result<(), F::Error> {
assert!(data.len() >= F::ERASE_SIZE);
trace!(
"Writing firmware at offset 0x{:x} len {}",
self.dfu.from + offset,
@ -384,7 +508,35 @@ impl FirmwareUpdater {
(self.dfu.from + offset + data.len()) as u32,
)
.await?;
flash.write((self.dfu.from + offset) as u32, data).await
trace!(
"Erased from {} to {}",
self.dfu.from + offset,
self.dfu.from + offset + data.len()
);
let mut write_offset = self.dfu.from + offset;
for chunk in data.chunks(block_size) {
trace!("Wrote chunk at {}: {:?}", write_offset, chunk);
flash.write(write_offset as u32, chunk).await?;
write_offset += chunk.len();
}
/*
trace!("Wrote data, reading back for verification");
let mut buf: [u8; 4096] = [0; 4096];
let mut data_offset = 0;
let mut read_offset = self.dfu.from + offset;
for chunk in buf.chunks_mut(block_size) {
flash.read(read_offset as u32, chunk).await?;
trace!("Read chunk at {}: {:?}", read_offset, chunk);
assert_eq!(&data[data_offset..data_offset + block_size], chunk);
read_offset += chunk.len();
data_offset += chunk.len();
}
*/
Ok(())
}
}

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@ -1,5 +1,4 @@
[unstable]
namespaced-features = true
build-std = ["core"]
build-std-features = ["panic_immediate_abort"]

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@ -12,7 +12,7 @@ defmt = { version = "0.3", optional = true }
defmt-rtt = { version = "0.3", optional = true }
embassy = { path = "../../embassy", default-features = false }
embassy-nrf = { path = "../../embassy-nrf", default-features = false }
embassy-nrf = { path = "../../embassy-nrf", default-features = false, features = ["nightly"] }
embassy-boot = { path = "../boot", default-features = false }
cortex-m = { version = "0.7" }
cortex-m-rt = { version = "0.7" }

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@ -4,7 +4,9 @@
mod fmt;
pub use embassy_boot::{FirmwareUpdater, Partition, State, BOOT_MAGIC};
pub use embassy_boot::{
FirmwareUpdater, FlashProvider, Partition, SingleFlashProvider, State, BOOT_MAGIC,
};
use embassy_nrf::{
nvmc::{Nvmc, PAGE_SIZE},
peripherals::WDT,
@ -62,7 +64,7 @@ impl BootLoader {
}
/// Boots the application without softdevice mechanisms
pub fn prepare<F: NorFlash + ReadNorFlash>(&mut self, flash: &mut F) -> usize {
pub fn prepare<F: FlashProvider>(&mut self, flash: &mut F) -> usize {
match self.boot.prepare_boot(flash) {
Ok(_) => self.boot.boot_address(),
Err(_) => panic!("boot prepare error!"),

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@ -22,7 +22,11 @@ fn main() -> ! {
*/
let mut bl = BootLoader::default();
let start = bl.prepare(&mut WatchdogFlash::start(Nvmc::new(p.NVMC), p.WDT, 5));
let start = bl.prepare(&mut SingleFlashProvider::new(&mut WatchdogFlash::start(
Nvmc::new(p.NVMC),
p.WDT,
5,
)));
unsafe { bl.load(start) }
}

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@ -1,5 +1,4 @@
[unstable]
namespaced-features = true
build-std = ["core"]
build-std-features = ["panic_immediate_abort"]

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@ -5,8 +5,8 @@ name = "embassy-boot-examples"
version = "0.1.0"
[dependencies]
embassy = { version = "0.1.0", path = "../../embassy" }
embassy-nrf = { version = "0.1.0", path = "../../embassy-nrf", features = ["time-driver-rtc1", "gpiote"] }
embassy = { version = "0.1.0", path = "../../embassy", features = ["nightly"] }
embassy-nrf = { version = "0.1.0", path = "../../embassy-nrf", features = ["time-driver-rtc1", "gpiote", "nightly"] }
embassy-boot-nrf = { version = "0.1.0", path = "../../embassy-boot/nrf" }
embassy-traits = { version = "0.1.0", path = "../../embassy-traits" }

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@ -12,7 +12,6 @@ use embassy_nrf::{
Peripherals,
};
use embassy_traits::adapter::BlockingAsync;
use embedded_hal::digital::v2::InputPin;
use panic_reset as _;
static APP_B: &[u8] = include_bytes!("../../b.bin");
@ -29,14 +28,14 @@ async fn main(_s: embassy::executor::Spawner, p: Peripherals) {
loop {
button.wait_for_any_edge().await;
if button.is_low().unwrap() {
if button.is_low() {
let mut updater = updater::new();
let mut offset = 0;
for chunk in APP_B.chunks(4096) {
let mut buf: [u8; 4096] = [0; 4096];
buf[..chunk.len()].copy_from_slice(chunk);
updater
.write_firmware(offset, &buf, &mut nvmc)
.write_firmware(offset, &buf, &mut nvmc, 4096)
.await
.unwrap();
offset += chunk.len();