#include "bootloader.h" #include #include #include "wait.h" /* This code should be checked whether it runs correctly on platforms */ #define SYMVAL(sym) (uint32_t)(((uint8_t *)&(sym)) - ((uint8_t *)0)) #define BOOTLOADER_MAGIC 0xDEADBEEF #define MAGIC_ADDR (unsigned long *)(SYMVAL(__ram0_end__) - 4) #ifndef STM32_BOOTLOADER_DUAL_BANK # define STM32_BOOTLOADER_DUAL_BANK FALSE #endif #if STM32_BOOTLOADER_DUAL_BANK // Need pin definitions # include "config_common.h" # ifndef STM32_BOOTLOADER_DUAL_BANK_GPIO # error "No STM32_BOOTLOADER_DUAL_BANK_GPIO defined, don't know which pin to toggle" # endif # ifndef STM32_BOOTLOADER_DUAL_BANK_POLARITY # define STM32_BOOTLOADER_DUAL_BANK_POLARITY 0 # endif # ifndef STM32_BOOTLOADER_DUAL_BANK_DELAY # define STM32_BOOTLOADER_DUAL_BANK_DELAY 100000 # endif extern uint32_t __ram0_end__; __attribute__((weak)) void bootloader_jump(void) { // For STM32 MCUs with dual-bank flash, and we're incapable of jumping to the bootloader. The first valid flash // bank is executed unconditionally after a reset, so it doesn't enter DFU unless BOOT0 is high. Instead, we do // it with hardware...in this case, we pull a GPIO high/low depending on the configuration, connects 3.3V to // BOOT0's RC charging circuit, lets it charge the capacitor, and issue a system reset. See the QMK discord // #hardware channel pins for an example circuit. palSetPadMode(PAL_PORT(STM32_BOOTLOADER_DUAL_BANK_GPIO), PAL_PAD(STM32_BOOTLOADER_DUAL_BANK_GPIO), PAL_MODE_OUTPUT_PUSHPULL); # if STM32_BOOTLOADER_DUAL_BANK_POLARITY palSetPad(PAL_PORT(STM32_BOOTLOADER_DUAL_BANK_GPIO), PAL_PAD(STM32_BOOTLOADER_DUAL_BANK_GPIO)); # else palClearPad(PAL_PORT(STM32_BOOTLOADER_DUAL_BANK_GPIO), PAL_PAD(STM32_BOOTLOADER_DUAL_BANK_GPIO)); # endif // Wait for a while for the capacitor to charge wait_ms(100); // Issue a system reset to get the ROM bootloader to execute, with BOOT0 high NVIC_SystemReset(); } void enter_bootloader_mode_if_requested(void) {} // not needed at all, but if anybody attempts to invoke it.... #elif defined(STM32_BOOTLOADER_ADDRESS) // STM32_BOOTLOADER_DUAL_BANK extern uint32_t __ram0_end__; __attribute__((weak)) void bootloader_jump(void) { *MAGIC_ADDR = BOOTLOADER_MAGIC; // set magic flag => reset handler will jump into boot loader NVIC_SystemReset(); } void enter_bootloader_mode_if_requested(void) { unsigned long *check = MAGIC_ADDR; if (*check == BOOTLOADER_MAGIC) { *check = 0; __set_CONTROL(0); __set_MSP(*(__IO uint32_t *)STM32_BOOTLOADER_ADDRESS); __enable_irq(); typedef void (*BootJump_t)(void); BootJump_t boot_jump = *(BootJump_t *)(STM32_BOOTLOADER_ADDRESS + 4); boot_jump(); while (1) ; } } #elif defined(KL2x) || defined(K20x) || defined(MK66F18) // STM32_BOOTLOADER_DUAL_BANK // STM32_BOOTLOADER_ADDRESS /* Kinetis */ # if defined(BOOTLOADER_KIIBOHD) /* Kiibohd Bootloader (MCHCK and Infinity KB) */ # define SCB_AIRCR_VECTKEY_WRITEMAGIC 0x05FA0000 const uint8_t sys_reset_to_loader_magic[] = "\xff\x00\x7fRESET TO LOADER\x7f\x00\xff"; __attribute__((weak)) void bootloader_jump(void) { __builtin_memcpy((void *)VBAT, (const void *)sys_reset_to_loader_magic, sizeof(sys_reset_to_loader_magic)); // request reset SCB->AIRCR = SCB_AIRCR_VECTKEY_WRITEMAGIC | SCB_AIRCR_SYSRESETREQ_Msk; } # else /* defined(BOOTLOADER_KIIBOHD) */ /* Default for Kinetis - expecting an ARM Teensy */ # include "wait.h" __attribute__((weak)) void bootloader_jump(void) { wait_ms(100); __BKPT(0); } # endif /* defined(BOOTLOADER_KIIBOHD) */ #else /* neither STM32 nor KINETIS */ __attribute__((weak)) void bootloader_jump(void) {} #endif