Merge #1139
1139: Wdt config changes r=lulf a=huntc Per commits: * By passing WDT config around we can control it more easily and promote sharing it between files. * The memory layout of the s140 crept into a number of memory files, which can cause confusion (well, it did for me!). * Obtaining the current WDT config is useful so that we do not have to duplicate configurations around the place. A constructor method has been introduced that attempts to return the current running WDT config from the WDT peripheral. The bootloader example has also been updated to show how the watchdog can be obtained and used. Co-authored-by: huntc <huntchr@gmail.com>
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bf4c0de16a
@ -149,11 +149,7 @@ pub struct WatchdogFlash<'d> {
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impl<'d> WatchdogFlash<'d> {
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/// Start a new watchdog with a given flash and WDT peripheral and a timeout
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pub fn start(flash: Nvmc<'d>, wdt: WDT, timeout: u32) -> Self {
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let mut config = wdt::Config::default();
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config.timeout_ticks = 32768 * timeout; // timeout seconds
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config.run_during_sleep = true;
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config.run_during_debug_halt = false;
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pub fn start(flash: Nvmc<'d>, wdt: WDT, config: wdt::Config) -> Self {
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let (_wdt, [wdt]) = match wdt::Watchdog::try_new(wdt, config) {
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Ok(x) => x,
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Err(_) => {
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@ -23,6 +23,30 @@ pub struct Config {
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pub run_during_debug_halt: bool,
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}
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impl Config {
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/// Create a config structure from the current configuration of the WDT
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/// peripheral.
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pub fn try_new(_wdt: &peripherals::WDT) -> Option<Self> {
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let r = unsafe { &*WDT::ptr() };
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#[cfg(not(feature = "_nrf9160"))]
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let runstatus = r.runstatus.read().runstatus().bit();
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#[cfg(feature = "_nrf9160")]
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let runstatus = r.runstatus.read().runstatuswdt().bit();
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if runstatus {
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let config = r.config.read();
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Some(Self {
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timeout_ticks: r.crv.read().bits(),
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run_during_sleep: config.sleep().bit(),
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run_during_debug_halt: config.halt().bit(),
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})
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} else {
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None
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}
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}
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}
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impl Default for Config {
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fn default() -> Self {
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Self {
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@ -32,3 +32,7 @@ cargo objcopy --release --bin b -- -O binary b.bin
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```
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cargo flash --release --bin a --chip nRF52840_xxAA
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```
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You should then see a solid LED. Pressing button 1 will cause the DFU to be loaded by the bootloader. Upon
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successfully loading, you'll see the LED flash. After 5 seconds, because there is no petting of the watchdog,
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you'll see the LED go solid again. This indicates that the bootloader has reverted the update.
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@ -5,7 +5,7 @@ MEMORY
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BOOTLOADER_STATE : ORIGIN = 0x00006000, LENGTH = 4K
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ACTIVE : ORIGIN = 0x00007000, LENGTH = 64K
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DFU : ORIGIN = 0x00017000, LENGTH = 68K
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RAM (rwx) : ORIGIN = 0x20000008, LENGTH = 32K
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RAM (rwx) : ORIGIN = 0x20000000, LENGTH = 32K
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}
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__bootloader_state_start = ORIGIN(BOOTLOADER_STATE);
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@ -5,7 +5,7 @@ MEMORY
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BOOTLOADER_STATE : ORIGIN = 0x00006000, LENGTH = 4K
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FLASH : ORIGIN = 0x00007000, LENGTH = 64K
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DFU : ORIGIN = 0x00017000, LENGTH = 68K
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RAM (rwx) : ORIGIN = 0x20000008, LENGTH = 32K
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RAM (rwx) : ORIGIN = 0x20000000, LENGTH = 32K
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}
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__bootloader_state_start = ORIGIN(BOOTLOADER_STATE);
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@ -8,6 +8,7 @@ use embassy_embedded_hal::adapter::BlockingAsync;
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use embassy_executor::Spawner;
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use embassy_nrf::gpio::{Input, Level, Output, OutputDrive, Pull};
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use embassy_nrf::nvmc::Nvmc;
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use embassy_nrf::wdt::{self, Watchdog};
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use panic_reset as _;
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static APP_B: &[u8] = include_bytes!("../../b.bin");
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@ -20,6 +21,23 @@ async fn main(_spawner: Spawner) {
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//let mut led = Output::new(p.P1_10, Level::Low, OutputDrive::Standard);
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//let mut button = Input::new(p.P1_02, Pull::Up);
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// The following code block illustrates how to obtain a watchdog that is configured
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// as per the existing watchdog. Ordinarily, we'd use the handle returned to "pet" the
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// watchdog periodically. If we don't, and we're not going to for this example, then
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// the watchdog will cause the device to reset as per its configured timeout in the bootloader.
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// This helps is avoid a situation where new firmware might be bad and block our executor.
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// If firmware is bad in this way then the bootloader will revert to any previous version.
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let wdt_config = wdt::Config::try_new(&p.WDT).unwrap();
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let (_wdt, [_wdt_handle]) = match Watchdog::try_new(p.WDT, wdt_config) {
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Ok(x) => x,
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Err(_) => {
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// Watchdog already active with the wrong number of handles, waiting for it to timeout...
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loop {
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cortex_m::asm::wfe();
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}
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}
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};
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let nvmc = Nvmc::new(p.NVMC);
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let mut nvmc = BlockingAsync::new(nvmc);
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@ -5,7 +5,7 @@ MEMORY
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BOOTLOADER_STATE : ORIGIN = 0x00006000, LENGTH = 4K
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ACTIVE : ORIGIN = 0x00007000, LENGTH = 64K
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DFU : ORIGIN = 0x00017000, LENGTH = 68K
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RAM (rwx) : ORIGIN = 0x20000008, LENGTH = 32K
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RAM (rwx) : ORIGIN = 0x20000000, LENGTH = 32K
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}
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__bootloader_state_start = ORIGIN(BOOTLOADER_STATE);
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@ -5,7 +5,7 @@ MEMORY
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BOOTLOADER_STATE : ORIGIN = 0x00006000, LENGTH = 4K
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ACTIVE : ORIGIN = 0x00007000, LENGTH = 64K
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DFU : ORIGIN = 0x00017000, LENGTH = 68K
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RAM (rwx) : ORIGIN = 0x20000008, LENGTH = 32K
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RAM (rwx) : ORIGIN = 0x20000000, LENGTH = 32K
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}
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__bootloader_state_start = ORIGIN(BOOTLOADER_STATE);
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@ -6,6 +6,7 @@ use cortex_m_rt::{entry, exception};
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use defmt_rtt as _;
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use embassy_boot_nrf::*;
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use embassy_nrf::nvmc::Nvmc;
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use embassy_nrf::wdt;
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#[entry]
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fn main() -> ! {
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@ -20,8 +21,14 @@ fn main() -> ! {
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*/
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let mut bl = BootLoader::default();
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let mut wdt_config = wdt::Config::default();
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wdt_config.timeout_ticks = 32768 * 5; // timeout seconds
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wdt_config.run_during_sleep = true;
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wdt_config.run_during_debug_halt = false;
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let start = bl.prepare(&mut SingleFlashConfig::new(&mut BootFlash::<_, 4096>::new(
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WatchdogFlash::start(Nvmc::new(p.NVMC), p.WDT, 5),
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WatchdogFlash::start(Nvmc::new(p.NVMC), p.WDT, wdt_config),
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)));
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unsafe { bl.load(start) }
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}
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