| name | bootloaders-embedded |
| description | Embedded bootloader skill for firmware update and app handoff. Use when writing a custom bootloader, jumping to application code, relocating VTOR, or implementing DFU/USB firmware update on Cortex-M. Activates on queries about bootloader jump, vector table relocation, application entry point, STM32 DFU, or dual-bank flash. |
Embedded Bootloaders
Purpose
Guide agents through embedded bootloader fundamentals: vector table relocation, safe handoff from bootloader to application, flash partitioning, and basic firmware-update patterns (UART, USB DFU, or custom protocol) on Cortex-M and similar MCUs.
When to Use
- Application must run at non-zero flash offset (e.g.
0x08010000)
- Implementing OTA or USB DFU without vendor HAL
- Debugging "app works when flashed alone but not via bootloader"
- Integrating with
skills/baremetal/baremetal-startup and skills/baremetal/stm32-baremetal
Workflow
1. Memory layout (typical STM32)
| Region | Address | Size | Content |
|---|
| Bootloader | 0x08000000 | 16–64 KB | BL code, update logic |
| Application | 0x08010000 | remainder | App vector + code |
Linker script for app must set FLASH ORIGIN to app base; vector table must live at app base.
2. Valid application image check
Before jump, verify:
App vector[0] (initial SP) points into RAM region
App vector[1] (Reset) points into flash region and has Thumb bit set (LSB=1)
Optional: CRC or magic word in app metadata section
#define APP_BASE 0x08010000U
static int app_valid(uint32_t base)
{
uint32_t sp = *(uint32_t *)base;
uint32_t reset = *(uint32_t *)(base + 4);
if (sp < SRAM_BASE || sp > SRAM_END)
return 0;
if ((reset & 1U) == 0U)
return 0;
if (reset < base || reset > FLASH_END)
return 0;
return 1;
}
3. Cortex-M handoff sequence
typedef void (*app_entry_t)(void);
void jump_to_app(uint32_t app_base)
{
uint32_t sp = *(uint32_t *)app_base;
uint32_t reset = *(uint32_t *)(app_base + 4);
__disable_irq();
SysTick->CTRL = 0;
for (int i = 0; i < 8; i++) {
NVIC->ICER[i] = 0xFFFFFFFFU;
NVIC->ICPR[i] = 0xFFFFFFFFU;
}
SCB->VTOR = app_base;
__set_MSP(sp);
__DSB();
__ISB();
app_entry_t entry = (app_entry_t)reset;
entry();
}
Application must set SCB->VTOR = APP_BASE early in Reset_Handler if startup assumes relocatable vector table.
4. Bootloader responsibilities
Power-on
├── Init minimal clock + UART/USB for update
├── Check update flag in RTC backup / GPIO strap
├── If update requested → receive image, verify, program flash
└── Else if valid app → jump_to_app()
└── Else stay in bootloader shell
5. STM32 system memory DFU (factory ROM)
STM32 chips expose USB DFU in system memory when BOOT0=1. Custom bootloaders are separate — do not confuse ROM DFU with user flash BL.
6. Update safety
- Write to scratch sector, verify CRC, then swap metadata pointer (A/B)
- Never erase the only valid image without recovery path
- Reset watchdog only after verified commit
7. Agent usage
/bootloaders-embedded Write STM32F4 jump-to-app at 0x08010000 with VTOR setup
Common Problems
| Symptom | Cause | Fix |
|---|
| HardFault after jump | SP invalid or Thumb bit missing | Validate vectors; ensure reset | 1 |
| IRQs hit bootloader handlers | VTOR not relocated | Set SCB->VTOR before enabling IRQs |
| App OK standalone, fails via BL | Linker still at 0x08000000 | Relink app with correct ORIGIN |
| UART garbage after jump | BL left UART running | De-init or reset peripherals |
| Brick after OTA | Power loss mid-erase | Dual-bank or metadata rollback |
Related Skills
skills/baremetal/baremetal-startup — vector table and Reset_Handler
skills/baremetal/stm32-baremetal — flash map and CMSIS
skills/baremetal/interrupts-and-exceptions-baremetal — NVIC disable pattern
skills/embedded/linker-scripts — VMA/LMA for split images
skills/embedded/openocd-jtag — recover bricked flash