}
static uint32_t __attribute__((unused)) read_flash_rdp(stlink_t *sl) {
- return stlink_read_debug32(sl, FLASH_WRPR) & 0xff;
+ uint32_t rdp;
+ stlink_read_debug32(sl, FLASH_WRPR, &rdp);
+ return rdp & 0xff;
}
static inline uint32_t read_flash_wrpr(stlink_t *sl) {
- return stlink_read_debug32(sl, FLASH_WRPR);
+ uint32_t wrpr;
+ stlink_read_debug32(sl, FLASH_WRPR, &wrpr);
+ return wrpr;
}
static inline uint32_t read_flash_obr(stlink_t *sl) {
- return stlink_read_debug32(sl, FLASH_OBR);
+ uint32_t obr;
+ stlink_read_debug32(sl, FLASH_OBR, &obr);
+ return obr;
}
static inline uint32_t read_flash_cr(stlink_t *sl) {
- uint32_t res;
- if ((sl->chip_id == STM32_CHIPID_F2) || (sl->chip_id == STM32_CHIPID_F4) ||(sl->chip_id == STM32_CHIPID_F4_DE) ||
- (sl->chip_id == STM32_CHIPID_F4_LP) || (sl->chip_id == STM32_CHIPID_F4_HD) || (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F7))
- res = stlink_read_debug32(sl, FLASH_F4_CR);
- else if (sl->chip_id == STM32_CHIPID_L4)
- res = stlink_read_debug32(sl, STM32L4_FLASH_CR);
+ uint32_t reg, res;
+
+ if (sl->flash_type == FLASH_TYPE_F4)
+ reg = FLASH_F4_CR;
+ else if (sl->flash_type == FLASH_TYPE_L4)
+ reg = STM32L4_FLASH_CR;
else
- res = stlink_read_debug32(sl, FLASH_CR);
+ reg = FLASH_CR;
+
+ stlink_read_debug32(sl, reg, &res);
+
#if DEBUG_FLASH
fprintf(stdout, "CR:0x%x\n", res);
#endif
static inline unsigned int is_flash_locked(stlink_t *sl) {
/* return non zero for true */
- uint32_t cr = read_flash_cr(sl);
+ uint32_t cr_lock_shift, cr = read_flash_cr(sl);
- if ((sl->chip_id == STM32_CHIPID_F2) || (sl->chip_id == STM32_CHIPID_F4) || (sl->chip_id == STM32_CHIPID_F4_DE) ||
- (sl->chip_id == STM32_CHIPID_F4_LP) || (sl->chip_id == STM32_CHIPID_F4_HD) || (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F7))
- return cr & (1 << FLASH_F4_CR_LOCK);
- else if (sl->chip_id == STM32_CHIPID_L4)
- return cr & (1lu << STM32L4_FLASH_CR_LOCK);
+ if (sl->flash_type == FLASH_TYPE_F4)
+ cr_lock_shift = FLASH_F4_CR_LOCK;
+ else if (sl->flash_type == FLASH_TYPE_L4)
+ cr_lock_shift = STM32L4_FLASH_CR_LOCK;
else
- return cr & (1 << FLASH_CR_LOCK);
+ cr_lock_shift = FLASH_CR_LOCK;
+
+ return cr & (1 << cr_lock_shift);
}
static void unlock_flash(stlink_t *sl) {
+ uint32_t key_reg;
/* the unlock sequence consists of 2 write cycles where
2 key values are written to the FLASH_KEYR register.
an invalid sequence results in a definitive lock of
the FPEC block until next reset.
*/
- if ((sl->chip_id == STM32_CHIPID_F2) || (sl->chip_id == STM32_CHIPID_F4) || (sl->chip_id == STM32_CHIPID_F4_DE) ||
- (sl->chip_id == STM32_CHIPID_F4_LP) || (sl->chip_id == STM32_CHIPID_F4_HD) || (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F7)) {
- stlink_write_debug32(sl, FLASH_F4_KEYR, FLASH_KEY1);
- stlink_write_debug32(sl, FLASH_F4_KEYR, FLASH_KEY2);
- } else if (sl->chip_id == STM32_CHIPID_L4) {
- stlink_write_debug32(sl, STM32L4_FLASH_KEYR, FLASH_KEY1);
- stlink_write_debug32(sl, STM32L4_FLASH_KEYR, FLASH_KEY2);
- } else {
- stlink_write_debug32(sl, FLASH_KEYR, FLASH_KEY1);
- stlink_write_debug32(sl, FLASH_KEYR, FLASH_KEY2);
- }
+ if (sl->flash_type == FLASH_TYPE_F4)
+ key_reg = FLASH_F4_KEYR;
+ else if (sl->flash_type == FLASH_TYPE_L4)
+ key_reg = STM32L4_FLASH_KEYR;
+ else
+ key_reg = FLASH_KEYR;
+ stlink_write_debug32(sl, key_reg, FLASH_KEY1);
+ stlink_write_debug32(sl, key_reg, FLASH_KEY2);
}
static int unlock_flash_if(stlink_t *sl) {
}
static void lock_flash(stlink_t *sl) {
- if ((sl->chip_id == STM32_CHIPID_F2) || (sl->chip_id == STM32_CHIPID_F4) || (sl->chip_id == STM32_CHIPID_F4_DE) ||
- (sl->chip_id == STM32_CHIPID_F4_LP) || (sl->chip_id == STM32_CHIPID_F4_HD) || (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F7)) {
- const uint32_t n = read_flash_cr(sl) | (1 << FLASH_F4_CR_LOCK);
- stlink_write_debug32(sl, FLASH_F4_CR, n);
- } else if (sl->chip_id == STM32_CHIPID_L4) {
- const uint32_t n = read_flash_cr(sl) | (1lu << STM32L4_FLASH_CR_LOCK);
- stlink_write_debug32(sl, STM32L4_FLASH_CR, n);
+ uint32_t cr_lock_shift, cr_reg, n;
+
+ if (sl->flash_type == FLASH_TYPE_F4) {
+ cr_reg = FLASH_F4_CR;
+ cr_lock_shift = FLASH_F4_CR_LOCK;
+ } else if (sl->flash_type == FLASH_TYPE_L4) {
+ cr_reg = STM32L4_FLASH_CR;
+ cr_lock_shift = STM32L4_FLASH_CR_LOCK;
} else {
- /* write to 1 only. reset by hw at unlock sequence */
- const uint32_t n = read_flash_cr(sl) | (1 << FLASH_CR_LOCK);
- stlink_write_debug32(sl, FLASH_CR, n);
+ cr_reg = FLASH_CR;
+ cr_lock_shift = FLASH_CR_LOCK;
}
+
+ n = read_flash_cr(sl) | (1 << cr_lock_shift);
+ stlink_write_debug32(sl, cr_reg, n);
}
static void set_flash_cr_pg(stlink_t *sl) {
- if ((sl->chip_id == STM32_CHIPID_F2) || (sl->chip_id == STM32_CHIPID_F4) || (sl->chip_id == STM32_CHIPID_F4_DE) ||
- (sl->chip_id == STM32_CHIPID_F4_LP) || (sl->chip_id == STM32_CHIPID_F4_HD) || (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F7)) {
- uint32_t x = read_flash_cr(sl);
- x |= (1 << FLASH_CR_PG);
- stlink_write_debug32(sl, FLASH_F4_CR, x);
- } else if (sl->chip_id == STM32_CHIPID_L4) {
- uint32_t x = read_flash_cr(sl);
- x &=~ STM32L4_FLASH_CR_OPBITS;
- x |= (1 << STM32L4_FLASH_CR_PG);
- stlink_write_debug32(sl, STM32L4_FLASH_CR, x);
+ uint32_t cr_reg, x;
+
+ x = read_flash_cr(sl);
+
+ if (sl->flash_type == FLASH_TYPE_F4) {
+ cr_reg = FLASH_F4_CR;
+ x |= 1 << FLASH_CR_PG;
+ } else if (sl->flash_type == FLASH_TYPE_L4) {
+ cr_reg = STM32L4_FLASH_CR;
+ x &= ~STM32L4_FLASH_CR_OPBITS;
+ x |= 1 << STM32L4_FLASH_CR_PG;
} else {
- const uint32_t n = 1 << FLASH_CR_PG;
- stlink_write_debug32(sl, FLASH_CR, n);
+ cr_reg = FLASH_CR;
+ x = 1 << FLASH_CR_PG;
}
+
+ stlink_write_debug32(sl, cr_reg, x);
}
static void __attribute__((unused)) clear_flash_cr_pg(stlink_t *sl) {
- const uint32_t n = read_flash_cr(sl) & ~(1 << FLASH_CR_PG);
- if ((sl->chip_id == STM32_CHIPID_F2) || (sl->chip_id == STM32_CHIPID_F4) || (sl->chip_id == STM32_CHIPID_F4_DE) ||
- (sl->chip_id == STM32_CHIPID_F4_LP) || (sl->chip_id == STM32_CHIPID_F4_HD) || (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F7))
- stlink_write_debug32(sl, FLASH_F4_CR, n);
+ uint32_t cr_reg, n;
+
+ if (sl->flash_type == FLASH_TYPE_F4)
+ cr_reg = FLASH_F4_CR;
+ else if (sl->flash_type == FLASH_TYPE_L4)
+ cr_reg = STM32L4_FLASH_CR;
else
- stlink_write_debug32(sl, FLASH_CR, n);
+ cr_reg = FLASH_CR;
+
+ n = read_flash_cr(sl) & ~(1 << FLASH_CR_PG);
+ stlink_write_debug32(sl, cr_reg, n);
}
static void set_flash_cr_per(stlink_t *sl) {
}
static void set_flash_cr_mer(stlink_t *sl) {
- if ((sl->chip_id == STM32_CHIPID_F2) || (sl->chip_id == STM32_CHIPID_F4) || (sl->chip_id == STM32_CHIPID_F4_DE) ||
- (sl->chip_id == STM32_CHIPID_F4_LP) || (sl->chip_id == STM32_CHIPID_F4_HD) || (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F7))
- stlink_write_debug32(sl, FLASH_F4_CR,
- stlink_read_debug32(sl, FLASH_F4_CR) | (1 << FLASH_CR_MER));
- else if (sl->chip_id == STM32_CHIPID_L4) {
- uint32_t x = stlink_read_debug32(sl, STM32L4_FLASH_CR);
- x &=~ STM32L4_FLASH_CR_OPBITS;
- x |= (1lu << STM32L4_FLASH_CR_MER1) | (1lu << STM32L4_FLASH_CR_MER2);
- stlink_write_debug32(sl, STM32L4_FLASH_CR, x);
- } else
- stlink_write_debug32(sl, FLASH_CR,
- stlink_read_debug32(sl, FLASH_CR) | (1 << FLASH_CR_MER));
+ uint32_t val, cr_reg, cr_mer;
+
+ if (sl->flash_type == FLASH_TYPE_F4) {
+ cr_reg = FLASH_F4_CR;
+ cr_mer = 1 << FLASH_CR_MER;
+ } else if (sl->flash_type == FLASH_TYPE_L4) {
+ cr_reg = STM32L4_FLASH_CR;
+ cr_mer = (1 << STM32L4_FLASH_CR_MER1) | (1 << STM32L4_FLASH_CR_MER2);
+ } else {
+ cr_reg = FLASH_CR;
+ cr_mer = 1 << FLASH_CR_MER;
+ }
+
+ stlink_read_debug32(sl, cr_reg, &val);
+ val |= cr_mer;
+ stlink_write_debug32(sl, cr_reg, val);
}
static void __attribute__((unused)) clear_flash_cr_mer(stlink_t *sl) {
- if ((sl->chip_id == STM32_CHIPID_F2) || (sl->chip_id == STM32_CHIPID_F4) || (sl->chip_id == STM32_CHIPID_F4_DE) ||
- (sl->chip_id == STM32_CHIPID_F4_LP) || (sl->chip_id == STM32_CHIPID_F4_HD) || (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F7))
- stlink_write_debug32(sl, FLASH_F4_CR,
- stlink_read_debug32(sl, FLASH_F4_CR) & ~(1 << FLASH_CR_MER));
- else
- stlink_write_debug32(sl, FLASH_CR,
- stlink_read_debug32(sl, FLASH_CR) & ~(1 << FLASH_CR_MER));
+ uint32_t val, cr_reg, cr_mer;
+
+ if (sl->flash_type == FLASH_TYPE_F4) {
+ cr_reg = FLASH_F4_CR;
+ cr_mer = 1 << FLASH_CR_MER;
+ } else if (sl->flash_type == FLASH_TYPE_L4) {
+ cr_reg = STM32L4_FLASH_CR;
+ cr_mer = (1 << STM32L4_FLASH_CR_MER1) | (1 << STM32L4_FLASH_CR_MER2);
+ } else {
+ cr_reg = FLASH_CR;
+ cr_mer = 1 << FLASH_CR_MER;
+ }
+
+ stlink_read_debug32(sl, cr_reg, &val);
+ val &= ~cr_mer;
+ stlink_write_debug32(sl, cr_reg, val);
}
static void set_flash_cr_strt(stlink_t *sl) {
- if ((sl->chip_id == STM32_CHIPID_F2) || (sl->chip_id == STM32_CHIPID_F4) || (sl->chip_id == STM32_CHIPID_F4_DE) ||
- (sl->chip_id == STM32_CHIPID_F4_LP) || (sl->chip_id == STM32_CHIPID_F4_HD) || (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F7)) {
- uint32_t x = read_flash_cr(sl);
- x |= (1 << FLASH_F4_CR_STRT);
- stlink_write_debug32(sl, FLASH_F4_CR, x);
- } else if (sl->chip_id == STM32_CHIPID_L4) {
- uint32_t x = read_flash_cr(sl);
- x |= (1lu << STM32L4_FLASH_CR_STRT);
- stlink_write_debug32(sl, STM32L4_FLASH_CR, x);
+ uint32_t val, cr_reg, cr_strt;
+
+ if (sl->flash_type == FLASH_TYPE_F4) {
+ cr_reg = FLASH_F4_CR;
+ cr_strt = 1 << FLASH_F4_CR_STRT;
+ } else if (sl->flash_type == FLASH_TYPE_L4) {
+ cr_reg = STM32L4_FLASH_CR;
+ cr_strt = 1 << STM32L4_FLASH_CR_STRT;
} else {
- stlink_write_debug32(sl, FLASH_CR,
- stlink_read_debug32(sl, FLASH_CR) | (1 << FLASH_CR_STRT) );
+ cr_reg = FLASH_CR;
+ cr_strt = 1 << FLASH_CR_STRT;
}
+
+ stlink_read_debug32(sl, cr_reg, &val);
+ val |= cr_strt;
+ stlink_write_debug32(sl, cr_reg, val);
}
static inline uint32_t read_flash_acr(stlink_t *sl) {
- return stlink_read_debug32(sl, FLASH_ACR);
+ uint32_t acr;
+ stlink_read_debug32(sl, FLASH_ACR, &acr);
+ return acr;
}
static inline uint32_t read_flash_sr(stlink_t *sl) {
- uint32_t res;
- if ((sl->chip_id == STM32_CHIPID_F2) || (sl->chip_id == STM32_CHIPID_F4) || (sl->chip_id == STM32_CHIPID_F4_DE) ||
- (sl->chip_id == STM32_CHIPID_F4_LP) || (sl->chip_id == STM32_CHIPID_F4_HD) || (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F7))
- res = stlink_read_debug32(sl, FLASH_F4_SR);
- else if (sl->chip_id == STM32_CHIPID_L4)
- res = stlink_read_debug32(sl, STM32L4_FLASH_SR);
+ uint32_t res, sr_reg;
+
+ if (sl->flash_type == FLASH_TYPE_F4)
+ sr_reg = FLASH_F4_SR;
+ else if (sl->flash_type == FLASH_TYPE_L4)
+ sr_reg = STM32L4_FLASH_SR;
else
- res = stlink_read_debug32(sl, FLASH_SR);
- //fprintf(stdout, "SR:0x%x\n", *(uint32_t*) sl->q_buf);
+ sr_reg = FLASH_SR;
+
+ stlink_read_debug32(sl, sr_reg, &res);
+
return res;
}
static inline unsigned int is_flash_busy(stlink_t *sl) {
- if ((sl->chip_id == STM32_CHIPID_F2) || (sl->chip_id == STM32_CHIPID_F4) || (sl->chip_id == STM32_CHIPID_F4_DE) ||
- (sl->chip_id == STM32_CHIPID_F4_LP) || (sl->chip_id == STM32_CHIPID_F4_HD) || (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F7))
- return read_flash_sr(sl) & (1 << FLASH_F4_SR_BSY);
- else if (sl->chip_id == STM32_CHIPID_L4)
- return read_flash_sr(sl) & (1 << STM32L4_FLASH_SR_BSY);
+ uint32_t sr_busy_shift;
+
+ if (sl->flash_type == FLASH_TYPE_F4)
+ sr_busy_shift = FLASH_F4_SR_BSY;
+ else if (sl->flash_type == FLASH_TYPE_L4)
+ sr_busy_shift = STM32L4_FLASH_SR_BSY;
else
- return read_flash_sr(sl) & (1 << FLASH_SR_BSY);
+ sr_busy_shift = FLASH_SR_BSY;
+
+ return read_flash_sr(sl) & (1 << sr_busy_shift);
}
static void wait_flash_busy(stlink_t *sl) {
}
static inline void write_flash_cr_bker_pnb(stlink_t *sl, uint32_t n) {
+ stlink_write_debug32(sl, STM32L4_FLASH_SR, 0xFFFFFFFF & ~(1<<STM32L4_FLASH_SR_BSY));
uint32_t x = read_flash_cr(sl);
x &=~ STM32L4_FLASH_CR_OPBITS;
x &=~ STM32L4_FLASH_CR_PAGEMASK;
+ x &= ~(1<<STM32L4_FLASH_CR_MER1);
+ x &= ~(1<<STM32L4_FLASH_CR_MER2);
x |= (n << STM32L4_FLASH_CR_PNB);
x |= (1lu << STM32L4_FLASH_CR_PER);
#if DEBUG_FLASH
void stlink_close(stlink_t *sl) {
DLOG("*** stlink_close ***\n");
+ if (!sl)
+ return;
sl->backend->close(sl);
free(sl);
}
-void stlink_exit_debug_mode(stlink_t *sl) {
+int stlink_exit_debug_mode(stlink_t *sl) {
+ int ret;
+
DLOG("*** stlink_exit_debug_mode ***\n");
- stlink_write_debug32(sl, DHCSR, DBGKEY);
- sl->backend->exit_debug_mode(sl);
+ ret = stlink_write_debug32(sl, DHCSR, DBGKEY);
+ if (ret == -1)
+ return ret;
+
+ return sl->backend->exit_debug_mode(sl);
}
-void stlink_enter_swd_mode(stlink_t *sl) {
+int stlink_enter_swd_mode(stlink_t *sl) {
DLOG("*** stlink_enter_swd_mode ***\n");
- sl->backend->enter_swd_mode(sl);
+ return sl->backend->enter_swd_mode(sl);
}
// Force the core into the debug mode -> halted state.
-void stlink_force_debug(stlink_t *sl) {
+int stlink_force_debug(stlink_t *sl) {
DLOG("*** stlink_force_debug_mode ***\n");
- sl->backend->force_debug(sl);
+ return sl->backend->force_debug(sl);
}
-void stlink_exit_dfu_mode(stlink_t *sl) {
+int stlink_exit_dfu_mode(stlink_t *sl) {
DLOG("*** stlink_exit_dfu_mode ***\n");
- sl->backend->exit_dfu_mode(sl);
+ return sl->backend->exit_dfu_mode(sl);
}
-uint32_t stlink_core_id(stlink_t *sl) {
+int stlink_core_id(stlink_t *sl) {
+ int ret;
+
DLOG("*** stlink_core_id ***\n");
- sl->backend->core_id(sl);
+ ret = sl->backend->core_id(sl);
+ if (ret == -1) {
+ ELOG("Failed to read core_id\n");
+ return ret;
+ }
if (sl->verbose > 2)
stlink_print_data(sl);
DLOG("core_id = 0x%08x\n", sl->core_id);
- return sl->core_id;
+ return ret;
}
-uint32_t stlink_chip_id(stlink_t *sl) {
- uint32_t chip_id = stlink_read_debug32(sl, 0xE0042000);
- if (chip_id == 0) chip_id = stlink_read_debug32(sl, 0x40015800); //Try Corex M0 DBGMCU_IDCODE register address
- return chip_id;
+int stlink_chip_id(stlink_t *sl, uint32_t *chip_id) {
+ int ret;
+
+ ret = stlink_read_debug32(sl, 0xE0042000, chip_id);
+ if (ret == -1)
+ return ret;
+
+ if (*chip_id == 0)
+ ret = stlink_read_debug32(sl, 0x40015800, chip_id); //Try Corex M0 DBGMCU_IDCODE register address
+
+ return ret;
}
/**
* @param sl stlink context
* @param cpuid pointer to the result object
*/
-void stlink_cpu_id(stlink_t *sl, cortex_m3_cpuid_t *cpuid) {
- uint32_t raw = stlink_read_debug32(sl, CM3_REG_CPUID);
+int stlink_cpu_id(stlink_t *sl, cortex_m3_cpuid_t *cpuid) {
+ uint32_t raw;
+
+ if (stlink_read_debug32(sl, CM3_REG_CPUID, &raw))
+ return -1;
+
cpuid->implementer_id = (raw >> 24) & 0x7f;
cpuid->variant = (raw >> 20) & 0xf;
cpuid->part = (raw >> 4) & 0xfff;
cpuid->revision = raw & 0xf;
- return;
+ return 0;
}
/**
int stlink_load_device_params(stlink_t *sl) {
ILOG("Loading device parameters....\n");
const chip_params_t *params = NULL;
- sl->core_id = stlink_core_id(sl);
- uint32_t chip_id = stlink_chip_id(sl);
+ stlink_core_id(sl);
+ uint32_t chip_id;
uint32_t flash_size;
+ stlink_chip_id(sl, &chip_id);
sl->chip_id = chip_id & 0xfff;
/* Fix chip_id for F4 rev A errata , Read CPU ID, as CoreID is the same for F2/F4*/
if (sl->chip_id == 0x411) {
- uint32_t cpuid = stlink_read_debug32(sl, 0xE000ED00);
+ uint32_t cpuid;
+ stlink_read_debug32(sl, 0xE000ED00, &cpuid);
if ((cpuid & 0xfff0) == 0xc240)
sl->chip_id = 0x413;
}
return -1;
}
+ if (params->flash_type == FLASH_TYPE_UNKNOWN) {
+ WLOG("Invalid flash type, please check device declaration\n");
+ return -1;
+ }
+
+
// These are fixed...
sl->flash_base = STM32_FLASH_BASE;
sl->sram_base = STM32_SRAM_BASE;
- flash_size = stlink_read_debug32(sl,(params->flash_size_reg) & ~3);
+ stlink_read_debug32(sl,(params->flash_size_reg) & ~3, &flash_size);
if (params->flash_size_reg & 2)
flash_size = flash_size >>16;
flash_size = flash_size & 0xffff;
} else {
sl->flash_size = flash_size * 1024;
}
+ sl->flash_type = params->flash_type;
sl->flash_pgsz = params->flash_pagesize;
sl->sram_size = params->sram_size;
sl->sys_base = params->bootrom_base;
return 0;
}
-void stlink_reset(stlink_t *sl) {
+int stlink_reset(stlink_t *sl) {
DLOG("*** stlink_reset ***\n");
- sl->backend->reset(sl);
+ return sl->backend->reset(sl);
}
-void stlink_jtag_reset(stlink_t *sl, int value) {
+int stlink_jtag_reset(stlink_t *sl, int value) {
DLOG("*** stlink_jtag_reset ***\n");
- sl->backend->jtag_reset(sl, value);
+ return sl->backend->jtag_reset(sl, value);
}
-void stlink_run(stlink_t *sl) {
+int stlink_run(stlink_t *sl) {
DLOG("*** stlink_run ***\n");
- sl->backend->run(sl);
+ return sl->backend->run(sl);
}
-void stlink_status(stlink_t *sl) {
+int stlink_status(stlink_t *sl) {
+ int ret;
+
DLOG("*** stlink_status ***\n");
- sl->backend->status(sl);
+ ret = sl->backend->status(sl);
stlink_core_stat(sl);
+
+ return ret;
}
/**
return;
}
-void stlink_version(stlink_t *sl) {
+int stlink_version(stlink_t *sl) {
DLOG("*** looking up stlink version\n");
- sl->backend->version(sl);
+ if (sl->backend->version(sl))
+ return -1;
+
_parse_version(sl, &sl->version);
DLOG("st vid = 0x%04x (expect 0x%04x)\n", sl->version.st_vid, USB_ST_VID);
if (sl->version.swim_v == 0) {
DLOG(" notice: the firmware doesn't support a swim interface\n");
}
+
+ return 0;
}
int stlink_target_voltage(stlink_t *sl) {
return voltage;
}
-uint32_t stlink_read_debug32(stlink_t *sl, uint32_t addr) {
- uint32_t data = sl->backend->read_debug32(sl, addr);
- DLOG("*** stlink_read_debug32 %x is %#x\n", data, addr);
- return data;
+int stlink_read_debug32(stlink_t *sl, uint32_t addr, uint32_t *data) {
+ int ret;
+
+ ret = sl->backend->read_debug32(sl, addr, data);
+ if (!ret)
+ DLOG("*** stlink_read_debug32 %x is %#x\n", *data, addr);
+
+ return ret;
}
-void stlink_write_debug32(stlink_t *sl, uint32_t addr, uint32_t data) {
+int stlink_write_debug32(stlink_t *sl, uint32_t addr, uint32_t data) {
DLOG("*** stlink_write_debug32 %x to %#x\n", data, addr);
- sl->backend->write_debug32(sl, addr, data);
+ return sl->backend->write_debug32(sl, addr, data);
}
-void stlink_write_mem32(stlink_t *sl, uint32_t addr, uint16_t len) {
+int stlink_write_mem32(stlink_t *sl, uint32_t addr, uint16_t len) {
DLOG("*** stlink_write_mem32 %u bytes to %#x\n", len, addr);
if (len % 4 != 0) {
fprintf(stderr, "Error: Data length doesn't have a 32 bit alignment: +%d byte.\n", len % 4);
abort();
}
- sl->backend->write_mem32(sl, addr, len);
+ return sl->backend->write_mem32(sl, addr, len);
}
-void stlink_read_mem32(stlink_t *sl, uint32_t addr, uint16_t len) {
+int stlink_read_mem32(stlink_t *sl, uint32_t addr, uint16_t len) {
DLOG("*** stlink_read_mem32 ***\n");
if (len % 4 != 0) { // !!! never ever: fw gives just wrong values
fprintf(stderr, "Error: Data length doesn't have a 32 bit alignment: +%d byte.\n",
len % 4);
abort();
}
- sl->backend->read_mem32(sl, addr, len);
+ return sl->backend->read_mem32(sl, addr, len);
}
-void stlink_write_mem8(stlink_t *sl, uint32_t addr, uint16_t len) {
+int stlink_write_mem8(stlink_t *sl, uint32_t addr, uint16_t len) {
DLOG("*** stlink_write_mem8 ***\n");
if (len > 0x40 ) { // !!! never ever: Writing more then 0x40 bytes gives unexpected behaviour
fprintf(stderr, "Error: Data length > 64: +%d byte.\n",
len);
abort();
}
- sl->backend->write_mem8(sl, addr, len);
+ return sl->backend->write_mem8(sl, addr, len);
}
-void stlink_read_all_regs(stlink_t *sl, reg *regp) {
+int stlink_read_all_regs(stlink_t *sl, reg *regp) {
DLOG("*** stlink_read_all_regs ***\n");
- sl->backend->read_all_regs(sl, regp);
+ return sl->backend->read_all_regs(sl, regp);
}
-void stlink_read_all_unsupported_regs(stlink_t *sl, reg *regp) {
+int stlink_read_all_unsupported_regs(stlink_t *sl, reg *regp) {
DLOG("*** stlink_read_all_unsupported_regs ***\n");
- sl->backend->read_all_unsupported_regs(sl, regp);
+ return sl->backend->read_all_unsupported_regs(sl, regp);
}
-void stlink_write_reg(stlink_t *sl, uint32_t reg, int idx) {
+int stlink_write_reg(stlink_t *sl, uint32_t reg, int idx) {
DLOG("*** stlink_write_reg\n");
- sl->backend->write_reg(sl, reg, idx);
+ return sl->backend->write_reg(sl, reg, idx);
}
-void stlink_read_reg(stlink_t *sl, int r_idx, reg *regp) {
+int stlink_read_reg(stlink_t *sl, int r_idx, reg *regp) {
DLOG("*** stlink_read_reg\n");
DLOG(" (%d) ***\n", r_idx);
if (r_idx > 20 || r_idx < 0) {
fprintf(stderr, "Error: register index must be in [0..20]\n");
- return;
+ return -1;
}
- sl->backend->read_reg(sl, r_idx, regp);
+ return sl->backend->read_reg(sl, r_idx, regp);
}
-void stlink_read_unsupported_reg(stlink_t *sl, int r_idx, reg *regp) {
+int stlink_read_unsupported_reg(stlink_t *sl, int r_idx, reg *regp) {
int r_convert;
DLOG("*** stlink_read_unsupported_reg\n");
r_convert = 0x40 + (r_idx - 0x20);
} else {
fprintf(stderr, "Error: register address must be in [0x1C..0x40]\n");
- return;
+ return -1;
}
- sl->backend->read_unsupported_reg(sl, r_convert, regp);
+ return sl->backend->read_unsupported_reg(sl, r_convert, regp);
}
-void stlink_write_unsupported_reg(stlink_t *sl, uint32_t val, int r_idx, reg *regp) {
+int stlink_write_unsupported_reg(stlink_t *sl, uint32_t val, int r_idx, reg *regp) {
int r_convert;
DLOG("*** stlink_write_unsupported_reg\n");
r_convert = 0x40 + (r_idx - 0x20);
} else {
fprintf(stderr, "Error: register address must be in [0x1C..0x40]\n");
- return;
+ return -1;
}
- sl->backend->write_unsupported_reg(sl, val, r_convert, regp);
+ return sl->backend->write_unsupported_reg(sl, val, r_convert, regp);
}
unsigned int is_core_halted(stlink_t *sl) {
return sl->q_buf[0] == STLINK_CORE_HALTED;
}
-void stlink_step(stlink_t *sl) {
+int stlink_step(stlink_t *sl) {
DLOG("*** stlink_step ***\n");
- sl->backend->step(sl);
+ return sl->backend->step(sl);
}
int stlink_current_mode(stlink_t *sl) {
size_t off;
size_t len;
mapped_file_t mf = MAPPED_FILE_INITIALIZER;
+ uint32_t val;
if (map_file(&mf, path) == -1) {
/* success */
error = 0;
/* set stack*/
- stlink_write_reg(sl, stlink_read_debug32(sl, addr ),13);
+ stlink_read_debug32(sl, addr, &val);
+ stlink_write_reg(sl, val, 13);
/* Set PC to the reset routine*/
- stlink_write_reg(sl, stlink_read_debug32(sl, addr + 4),15);
+ stlink_read_debug32(sl, addr + 4, &val);
+ stlink_write_reg(sl, val, 15);
stlink_run(sl);
on_error:
int error = -1;
size_t off;
- int num_empty = 0;
- unsigned char erased_pattern = (sl->chip_id == STM32_CHIPID_L1_MEDIUM || sl->chip_id == STM32_CHIPID_L1_CAT2
- || sl->chip_id == STM32_CHIPID_L1_MEDIUM_PLUS || sl->chip_id == STM32_CHIPID_L1_HIGH
- || sl->chip_id == STM32_CHIPID_L152_RE) ? 0:0xff;
const int fd = open(path, O_RDWR | O_TRUNC | O_CREAT, 00700);
if (fd == -1) {
if (size > sl->flash_size)
size = sl->flash_size;
- /* do the copy by 1k blocks */
- for (off = 0; off < size; off += 1024) {
- size_t read_size = 1024;
- size_t rounded_size;
- size_t index;
- if ((off + read_size) > size)
- read_size = size - off;
+ size_t cmp_size = (sl->flash_pgsz > 0x1800)? 0x1800:sl->flash_pgsz;
+ for (off = 0; off < size; off += cmp_size) {
+ size_t aligned_size;
- /* round size if needed */
- rounded_size = read_size;
- if (rounded_size & 3)
- rounded_size = (rounded_size + 4) & ~(3);
+ /* adjust last page size */
+ if ((off + cmp_size) > size)
+ cmp_size = size - off;
- stlink_read_mem32(sl, addr + off, rounded_size);
+ aligned_size = cmp_size;
+ if (aligned_size & (4 - 1))
+ aligned_size = (cmp_size + 4) & ~(4 - 1);
- for(index = 0; index < read_size; index ++) {
- if (sl->q_buf[index] == erased_pattern)
- num_empty ++;
- else
- num_empty = 0;
- }
- if (write(fd, sl->q_buf, read_size) != (ssize_t) read_size) {
- fprintf(stderr, "write() != read_size\n");
+ stlink_read_mem32(sl, addr + off, aligned_size);
+
+ if (write(fd, sl->q_buf, sl->q_len) != (ssize_t) aligned_size) {
+ fprintf(stderr, "write() != aligned_size\n");
goto on_error;
}
}
- /* Ignore NULL Bytes at end of file */
- if (!ftruncate(fd, size - num_empty)) {
- error = -1;
- }
-
/* success */
error = 0;
}
+uint32_t calculate_F7_sectornum(uint32_t flashaddr){
+ flashaddr &= ~STM32_FLASH_BASE; //Page now holding the actual flash address
+ if(flashaddr<0x20000) return(flashaddr/0x8000);
+ else if(flashaddr<0x40000) return(4);
+ else return(flashaddr/0x40000) +4;
+
+}
+
// Returns BKER:PNB for the given page address
uint32_t calculate_L4_page(stlink_t *sl, uint32_t flashaddr) {
uint32_t bker = 0;
- uint32_t flashopt = stlink_read_debug32(sl, STM32L4_FLASH_OPTR);
+ uint32_t flashopt;
+ stlink_read_debug32(sl, STM32L4_FLASH_OPTR, &flashopt);
flashaddr -= STM32_FLASH_BASE;
if (flashopt & (1lu << STM32L4_FLASH_OPTR_DUALBANK)) {
uint32_t banksize = sl->flash_size / 2;
- if (flashaddr > banksize) {
+ if (flashaddr >= banksize) {
flashaddr -= banksize;
bker = 0x100;
}
uint32_t stlink_calculate_pagesize(stlink_t *sl, uint32_t flashaddr){
if ((sl->chip_id == STM32_CHIPID_F2) || (sl->chip_id == STM32_CHIPID_F4) || (sl->chip_id == STM32_CHIPID_F4_DE) ||
(sl->chip_id == STM32_CHIPID_F4_LP) || (sl->chip_id == STM32_CHIPID_F4_HD) || (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F7)) {
+ (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F4_DSI)) {
uint32_t sector=calculate_F4_sectornum(flashaddr);
if (sector>= 12) {
sector -= 12;
else if(sector<5) sl->flash_pgsz=0x10000;
else sl->flash_pgsz=0x20000;
}
+ else if (sl->chip_id == STM32_CHIPID_F7) {
+ uint32_t sector=calculate_F7_sectornum(flashaddr);
+ if (sector<4) sl->flash_pgsz=0x8000;
+ else if(sector<5) sl->flash_pgsz=0x20000;
+ else sl->flash_pgsz=0x40000;
+ }
return (sl->flash_pgsz);
}
*/
int stlink_erase_flash_page(stlink_t *sl, stm32_addr_t flashaddr)
{
- if ((sl->chip_id == STM32_CHIPID_F2) || (sl->chip_id == STM32_CHIPID_F4) || (sl->chip_id == STM32_CHIPID_F4_DE) ||
- (sl->chip_id == STM32_CHIPID_F4_LP) || (sl->chip_id == STM32_CHIPID_F4_HD) || (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F7) || (sl->chip_id == STM32_CHIPID_L4)) {
+ if (sl->flash_type == FLASH_TYPE_F4 || sl->flash_type == FLASH_TYPE_L4) {
/* wait for ongoing op to finish */
wait_flash_busy(sl);
// calculate the actual bank+page from the address
uint32_t page = calculate_L4_page(sl, flashaddr);
+ fprintf(stderr, "EraseFlash - Page:0x%x Size:0x%x ", page, stlink_calculate_pagesize(sl, flashaddr));
+
write_flash_cr_bker_pnb(sl, page);
+ } else if (sl->chip_id == STM32_CHIPID_F7) {
+ // calculate the actual page from the address
+ uint32_t sector=calculate_F7_sectornum(flashaddr);
+
+ fprintf(stderr, "EraseFlash - Sector:0x%x Size:0x%x ", sector, stlink_calculate_pagesize(sl, flashaddr));
+
+ write_flash_cr_snb(sl, sector);
} else {
// calculate the actual page from the address
uint32_t sector=calculate_F4_sectornum(flashaddr);
- fprintf(stderr, "EraseFlash - Sector:0x%x Size:0x%x\n", sector, stlink_calculate_pagesize(sl, flashaddr));
+ fprintf(stderr, "EraseFlash - Sector:0x%x Size:0x%x ", sector, stlink_calculate_pagesize(sl, flashaddr));
//the SNB values for flash sectors in the second bank do not directly follow the values for the first bank on 2mb devices...
if (sector >= 12) sector += 4;
#if DEBUG_FLASH
fprintf(stdout, "Erase Final CR:0x%x\n", read_flash_cr(sl));
#endif
- } else if (sl->chip_id == STM32_CHIPID_L1_MEDIUM || sl->chip_id == STM32_CHIPID_L1_CAT2
- || sl->chip_id == STM32_CHIPID_L1_MEDIUM_PLUS || sl->chip_id == STM32_CHIPID_L1_HIGH
- || sl->chip_id == STM32_CHIPID_L152_RE || sl->chip_id == STM32_CHIPID_L0) {
+ } else if (sl->flash_type == FLASH_TYPE_L0) {
uint32_t val;
uint32_t flash_regs_base;
}
/* check if the locks are set */
- val = stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF);
+ stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF, &val);
if((val & (1<<0))||(val & (1<<1))) {
/* disable pecr protection */
stlink_write_debug32(sl, flash_regs_base + FLASH_PEKEYR_OFF, 0x89abcdef);
stlink_write_debug32(sl, flash_regs_base + FLASH_PEKEYR_OFF, 0x02030405);
/* check pecr.pelock is cleared */
- val = stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF);
+ stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF, &val);
if (val & (1 << 0)) {
WLOG("pecr.pelock not clear (%#x)\n", val);
return -1;
stlink_write_debug32(sl, flash_regs_base + FLASH_PRGKEYR_OFF, 0x13141516);
/* check pecr.prglock is cleared */
- val = stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF);
+ stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF, &val);
if (val & (1 << 1)) {
WLOG("pecr.prglock not clear (%#x)\n", val);
return -1;
* TEXANE: ok, if experience says so and it works for you, we comment
* it. If someone has a problem, please drop an email.
*/
- while ((stlink_read_debug32(sl, STM32L_FLASH_SR) & (1 << 0)) != 0)
- ;
+ do {
+ stlink_read_debug32(sl, STM32L_FLASH_SR, &val)
+ } while((val & (1 << 0)) != 0);
#endif /* fix_to_be_confirmed */
page erase command, even though PM0062 recommends to wait before it.
Test shows that a few iterations is performed in the following loop
before busy bit is cleared.*/
- while ((stlink_read_debug32(sl, flash_regs_base + FLASH_SR_OFF) & (1 << 0)) != 0)
- ;
+ do {
+ stlink_read_debug32(sl, flash_regs_base + FLASH_SR_OFF, &val);
+ } while ((val & (1 << 0)) != 0);
/* reset lock bits */
- val = stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF)
- | (1 << 0) | (1 << 1) | (1 << 2);
+ stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF, &val);
+ val |= (1 << 0) | (1 << 1) | (1 << 2);
stlink_write_debug32(sl, flash_regs_base + FLASH_PECR_OFF, val);
- } else if (sl->core_id == STM32VL_CORE_ID
- || sl->core_id == STM32F0_CORE_ID
- || sl->chip_id == STM32_CHIPID_F3
- || sl->chip_id == STM32_CHIPID_F303_HIGH
- || sl->chip_id == STM32_CHIPID_F37x
- || sl->chip_id == STM32_CHIPID_F334) {
+ } else if (sl->flash_type == FLASH_TYPE_F0) {
/* wait for ongoing op to finish */
wait_flash_busy(sl);
}
int stlink_erase_flash_mass(stlink_t *sl) {
- if (sl->chip_id == STM32_CHIPID_L1_MEDIUM || sl->chip_id == STM32_CHIPID_L1_CAT2
- || sl->chip_id == STM32_CHIPID_L1_MEDIUM_PLUS || sl->chip_id == STM32_CHIPID_L1_HIGH
- || sl->chip_id == STM32_CHIPID_L152_RE || sl->chip_id == STM32_CHIPID_L0) {
+ if (sl->flash_type == FLASH_TYPE_L0) {
/* erase each page */
int i = 0, num_pages = sl->flash_size/sl->flash_pgsz;
for (i = 0; i < num_pages; i++) {
WLOG("Failed to erase_flash_page(%#zx) == -1\n", addr);
return -1;
}
- fprintf(stdout,"\rFlash page at %5d/%5d erased", i, num_pages);
+ fprintf(stdout,"-> Flash page at %5d/%5d erased\n", i, num_pages);
fflush(stdout);
}
fprintf(stdout, "\n");
static const uint8_t loader_code_stm32l[] = {
/* openocd.git/contrib/loaders/flash/stm32lx.S
- r0, input, dest addr
- r1, input, source addr
+ r0, input, source addr
+ r1, input, dest addr
r2, input, word count
- r3, output, word count
+ r2, output, remaining word count
*/
- 0x00, 0x23,
0x04, 0xe0,
- 0x51, 0xf8, 0x04, 0xcb,
- 0x40, 0xf8, 0x04, 0xcb,
- 0x01, 0x33,
+ 0x50, 0xf8, 0x04, 0xcb,
+ 0x41, 0xf8, 0x04, 0xcb,
+ 0x01, 0x3a,
- 0x93, 0x42,
+ 0x00, 0x2a,
0xf8, 0xd3,
- 0x00, 0xbe
+ 0x00, 0xbe,
};
static const uint8_t loader_code_stm32l0[] = {
/*
- r0, input, dest addr
- r1, input, source addr
+ r0, input, source addr
+ r1, input, dest addr
r2, input, word count
- r3, output, word count
+ r2, output, remaining word count
*/
- 0x00, 0x23,
0x04, 0xe0,
- 0x0c, 0x68,
- 0x04, 0x60,
- 0x01, 0x33,
+ 0x04, 0x68,
+ 0x0c, 0x60,
+ 0x01, 0x3a,
0x04, 0x31,
0x04, 0x30,
- 0x93, 0x42,
+ 0x00, 0x2a,
0xf8, 0xd3,
- 0x00, 0xbe
+ 0x00, 0xbe,
};
static const uint8_t loader_code_stm32f4[] = {
0xfb, 0xd1, // bne.n <wait>
0x00, 0xf1, 0x08, 0x00, // add.w r0, r0, #8
0x01, 0xf1, 0x08, 0x01, // add.w r1, r1, #8
- 0xa2, 0xf1, 0x02, 0x02, // add.w r2, r2, #2
+ 0xa2, 0xf1, 0x01, 0x02, // sub.w r2, r2, #1
0xef, 0xe7, // b.n <next>
0x00, 0xbe, // done: bkpt 0x0000
0x00, 0x20, 0x02, 0x40 // flash_base: .word 0x40022000
loader_size = sizeof(loader_code_stm32l);
} else if (sl->core_id == STM32VL_CORE_ID
|| sl->chip_id == STM32_CHIPID_F3
+ || sl->chip_id == STM32_CHIPID_F3_SMALL
|| sl->chip_id == STM32_CHIPID_F303_HIGH
|| sl->chip_id == STM32_CHIPID_F37x
|| sl->chip_id == STM32_CHIPID_F334) {
loader_size = sizeof(loader_code_stm32vl);
} else if (sl->chip_id == STM32_CHIPID_F2 || sl->chip_id == STM32_CHIPID_F4 || (sl->chip_id == STM32_CHIPID_F4_DE) ||
sl->chip_id == STM32_CHIPID_F4_LP || sl->chip_id == STM32_CHIPID_F4_HD || (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446)){
+ (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F4_DSI)){
int voltage = stlink_target_voltage(sl);
- if (voltage > 2700) {
+ if (voltage == -1) {
+ printf("Failed to read Target voltage\n");
+ return voltage;
+ } else if (voltage > 2700) {
loader_code = loader_code_stm32f4;
loader_size = sizeof(loader_code_stm32f4);
} else {
}
memcpy(sl->q_buf, loader_code, loader_size);
+
+ /* pad to 32-bits */
+ loader_size = (loader_size + 3) & ~3;
+
stlink_write_mem32(sl, sl->sram_base, loader_size);
*addr = sl->sram_base;
return -1;
}
/* Unlock already done */
- val = stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF);
+ stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF, &val);
val |= (1 << FLASH_L1_FPRG);
stlink_write_debug32(sl, flash_regs_base + FLASH_PECR_OFF, val);
val |= (1 << FLASH_L1_PROG);
stlink_write_debug32(sl, flash_regs_base + FLASH_PECR_OFF, val);
- while ((stlink_read_debug32(sl, flash_regs_base + FLASH_SR_OFF) & (1 << 0)) != 0) {}
+ do {
+ stlink_read_debug32(sl, flash_regs_base + FLASH_SR_OFF, &val);
+ } while ((val & (1 << 0)) != 0);
for (count = 0; count < num_half_pages; count ++) {
if (run_flash_loader(sl, &fl, addr + count * pagesize, base + count * pagesize, pagesize) == -1) {
WLOG("l1_run_flash_loader(%#zx) failed! == -1\n", addr + count * pagesize);
- val = stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF);
+ stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF, &val);
val &= ~((1 << FLASH_L1_FPRG) |(1 << FLASH_L1_PROG));
stlink_write_debug32(sl, flash_regs_base + FLASH_PECR_OFF, val);
return -1;
fprintf(stdout, "\r%3u/%u halfpages written", count + 1, num_half_pages);
fflush(stdout);
}
- while ((stlink_read_debug32(sl, flash_regs_base + FLASH_SR_OFF) & (1 << 0)) != 0) {
- }
+ do {
+ stlink_read_debug32(sl, flash_regs_base + FLASH_SR_OFF, &val);
+ } while ((val & (1 << 0)) != 0);
}
- val = stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF);
+ stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF, &val);
val &= ~(1 << FLASH_L1_PROG);
stlink_write_debug32(sl, flash_regs_base + FLASH_PECR_OFF, val);
- val = stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF);
+ stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF, &val);
val &= ~(1 << FLASH_L1_FPRG);
stlink_write_debug32(sl, flash_regs_base + FLASH_PECR_OFF, val);
return 0;
}
-int stlink_write_flash(stlink_t *sl, stm32_addr_t addr, uint8_t* base, uint32_t len) {
+int stlink_write_flash(stlink_t *sl, stm32_addr_t addr, uint8_t* base, uint32_t len, uint8_t eraseonly) {
size_t off;
flash_loader_t fl;
ILOG("Attempting to write %d (%#x) bytes to stm32 address: %u (%#x)\n",
ILOG("Finished erasing %d pages of %d (%#x) bytes\n",
page_count, sl->flash_pgsz, sl->flash_pgsz);
- if ((sl->chip_id == STM32_CHIPID_F2) ||
- (sl->chip_id == STM32_CHIPID_F4) ||
- (sl->chip_id == STM32_CHIPID_F4_DE) ||
- (sl->chip_id == STM32_CHIPID_F4_LP) ||
- (sl->chip_id == STM32_CHIPID_F4_HD) ||
- (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446) ||
- (sl->chip_id == STM32_CHIPID_F7) ||
- (sl->chip_id == STM32_CHIPID_L4)) {
+ if (eraseonly)
+ return 0;
+
+ if ((sl->flash_type == FLASH_TYPE_F4) || (sl->flash_type == FLASH_TYPE_L4)) {
/* todo: check write operation */
ILOG("Starting Flash write for F2/F4/L4\n");
if (sl->chip_id != STM32_CHIPID_L4) {
/* set parallelisim to 32 bit*/
int voltage = stlink_target_voltage(sl);
- if (voltage > 2700) {
+ if (voltage == -1) {
+ printf("Failed to read Target voltage\n");
+ return voltage;
+ } else if (voltage > 2700) {
printf("enabling 32-bit flash writes\n");
write_flash_cr_psiz(sl, 2);
} else {
} else {
/* L4 does not have a byte-write mode */
int voltage = stlink_target_voltage(sl);
- if (voltage <= 2700) {
+ if (voltage == -1) {
+ printf("Failed to read Target voltage\n");
+ return voltage;
+ } else if (voltage < 1710) {
printf("Target voltage (%d mV) too low for flash writes!\n", voltage);
return -1;
}
} //STM32F4END
- else if (sl->chip_id == STM32_CHIPID_L1_MEDIUM || sl->chip_id == STM32_CHIPID_L1_CAT2
- || sl->chip_id == STM32_CHIPID_L1_MEDIUM_PLUS || sl->chip_id == STM32_CHIPID_L1_HIGH
- || sl->chip_id == STM32_CHIPID_L152_RE || sl->chip_id == STM32_CHIPID_L0) {
+ else if (sl->flash_type == FLASH_TYPE_L0) {
/* use fast word write. todo: half page. */
uint32_t val;
uint32_t flash_regs_base;
stlink_write_debug32(sl, flash_regs_base + FLASH_PEKEYR_OFF, 0x02030405);
/* check pecr.pelock is cleared */
- val = stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF);
+ stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF, &val);
if (val & (1 << 0)) {
fprintf(stderr, "pecr.pelock not clear\n");
return -1;
stlink_write_debug32(sl, flash_regs_base + FLASH_PRGKEYR_OFF, 0x13141516);
/* check pecr.prglock is cleared */
- val = stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF);
+ stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF, &val);
if (val & (1 << 1)) {
fprintf(stderr, "pecr.prglock not clear\n");
return -1;
stlink_write_debug32(sl, addr + off, data);
/* wait for sr.busy to be cleared */
- while ((stlink_read_debug32(sl, flash_regs_base + FLASH_SR_OFF) & (1 << 0)) != 0)
- ;
+ do {
+ stlink_read_debug32(sl, flash_regs_base + FLASH_SR_OFF, &val);
+ } while ((val & (1 << 0)) != 0);
/* todo: check redo write operation */
}
fprintf(stdout, "\n");
/* reset lock bits */
- val = stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF)
- | (1 << 0) | (1 << 1) | (1 << 2);
+ stlink_read_debug32(sl, flash_regs_base + FLASH_PECR_OFF, &val);
+ val |= (1 << 0) | (1 << 1) | (1 << 2);
stlink_write_debug32(sl, flash_regs_base + FLASH_PECR_OFF, val);
- } else if (sl->core_id == STM32VL_CORE_ID ||
- sl->core_id == STM32F0_CORE_ID ||
- sl->chip_id == STM32_CHIPID_F3 ||
- sl->chip_id == STM32_CHIPID_F303_HIGH ||
- sl->chip_id == STM32_CHIPID_F334 ||
- sl->chip_id == STM32_CHIPID_F37x) {
+ } else if (sl->flash_type == FLASH_TYPE_F0) {
ILOG("Starting Flash write for VL/F0/F3 core id\n");
/* flash loader initialization */
if (init_flash_loader(sl, &fl) == -1) {
int stlink_fwrite_flash(stlink_t *sl, const char* path, stm32_addr_t addr) {
/* write the file in flash at addr */
int err;
- unsigned int num_empty = 0, index;
- unsigned char erased_pattern = (sl->chip_id == STM32_CHIPID_L1_MEDIUM || sl->chip_id == STM32_CHIPID_L1_CAT2
- || sl->chip_id == STM32_CHIPID_L1_MEDIUM_PLUS || sl->chip_id == STM32_CHIPID_L1_HIGH
- || sl->chip_id == STM32_CHIPID_L152_RE) ? 0:0xff;
+ unsigned int num_empty, index, val;
+ unsigned char erased_pattern;
mapped_file_t mf = MAPPED_FILE_INITIALIZER;
+
if (map_file(&mf, path) == -1) {
ELOG("map_file() == -1\n");
return -1;
}
- for(index = 0; index < mf.len; index ++) {
- if (mf.base[index] == erased_pattern)
- num_empty ++;
- else
- num_empty = 0;
+
+ if (sl->flash_type == FLASH_TYPE_L0)
+ erased_pattern = 0x00;
+ else
+ erased_pattern = 0xff;
+
+ index = mf.len;
+ for(num_empty = 0; num_empty != mf.len; ++num_empty) {
+ if (mf.base[--index] != erased_pattern) {
+ break;
+ }
}
/* Round down to words */
num_empty -= (num_empty & 3);
if(num_empty != 0) {
ILOG("Ignoring %d bytes of 0x%02x at end of file\n", num_empty, erased_pattern);
- mf.len -= num_empty;
}
- err = stlink_write_flash(sl, addr, mf.base, mf.len);
+ err = stlink_write_flash(sl, addr, mf.base, num_empty == mf.len? mf.len : mf.len - num_empty, num_empty == mf.len);
/* set stack*/
- stlink_write_reg(sl, stlink_read_debug32(sl, addr ),13);
+ stlink_read_debug32(sl, addr, &val);
+ stlink_write_reg(sl, val, 13);
/* Set PC to the reset routine*/
- stlink_write_reg(sl, stlink_read_debug32(sl, addr + 4),15);
+ stlink_read_debug32(sl, addr + 4, &val);
+ stlink_write_reg(sl, val, 15);
stlink_run(sl);
unmap_file(&mf);
return err;
reg rr;
int i = 0;
+ size_t count = 0;
+
DLOG("Running flash loader, write address:%#x, size: %zd\n", target, size);
// FIXME This can never return -1
if (write_buffer_to_sram(sl, fl, buf, size) == -1) {
return -1;
}
- if (sl->chip_id == STM32_CHIPID_L1_MEDIUM || sl->chip_id == STM32_CHIPID_L1_CAT2
- || sl->chip_id == STM32_CHIPID_L1_MEDIUM_PLUS || sl->chip_id == STM32_CHIPID_L1_HIGH
- || sl->chip_id == STM32_CHIPID_L152_RE || sl->chip_id == STM32_CHIPID_L0) {
-
- size_t count = size / sizeof(uint32_t);
- if (size % sizeof(uint32_t)) ++count;
-
- /* setup core */
- stlink_write_reg(sl, target, 0); /* target */
- stlink_write_reg(sl, fl->buf_addr, 1); /* source */
- stlink_write_reg(sl, count, 2); /* count (32 bits words) */
- stlink_write_reg(sl, fl->loader_addr, 15); /* pc register */
-
- } else if (sl->core_id == STM32VL_CORE_ID ||
- sl->core_id == STM32F0_CORE_ID ||
- sl->chip_id == STM32_CHIPID_F3 ||
- sl->chip_id == STM32_CHIPID_F303_HIGH ||
- sl->chip_id == STM32_CHIPID_F37x ||
- sl->chip_id == STM32_CHIPID_F334) {
-
- size_t count = size / sizeof(uint16_t);
- if (size % sizeof(uint16_t)) ++count;
-
- /* setup core */
- stlink_write_reg(sl, fl->buf_addr, 0); /* source */
- stlink_write_reg(sl, target, 1); /* target */
- stlink_write_reg(sl, count, 2); /* count (16 bits half words) */
- stlink_write_reg(sl, 0, 3); /* flash bank 0 (input) */
- stlink_write_reg(sl, fl->loader_addr, 15); /* pc register */
-
- } else if (sl->chip_id == STM32_CHIPID_F2 || sl->chip_id == STM32_CHIPID_F4 || (sl->chip_id == STM32_CHIPID_F4_DE) ||
- sl->chip_id == STM32_CHIPID_F4_LP || sl->chip_id == STM32_CHIPID_F4_HD || (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F7) || (sl->chip_id == STM32_CHIPID_L4)) {
-
- size_t count = size / sizeof(uint32_t);
- if (size % sizeof(uint32_t)) ++count;
- if (sl->chip_id == STM32_CHIPID_L4) {
- if (count % 2) ++count;
- }
-
- /* setup core */
- stlink_write_reg(sl, fl->buf_addr, 0); /* source */
- stlink_write_reg(sl, target, 1); /* target */
- stlink_write_reg(sl, count, 2); /* count (32 bits words) */
- stlink_write_reg(sl, fl->loader_addr, 15); /* pc register */
-
- } else {
- fprintf(stderr, "unknown coreid 0x%x, don't know what flash loader to use\n", sl->core_id);
- return -1;
+ if (sl->flash_type == FLASH_TYPE_F0) {
+ count = size / sizeof(uint16_t);
+ if (size % sizeof(uint16_t))
+ ++count;
+ } else if (sl->flash_type == FLASH_TYPE_F4 || sl->flash_type == FLASH_TYPE_L0) {
+ count = size / sizeof(uint32_t);
+ if (size % sizeof(uint32_t))
+ ++count;
+ } else if (sl->flash_type == FLASH_TYPE_L4) {
+ count = size / sizeof(uint64_t);
+ if (size % sizeof(uint64_t))
+ ++count;
}
+ /* setup core */
+ stlink_write_reg(sl, fl->buf_addr, 0); /* source */
+ stlink_write_reg(sl, target, 1); /* target */
+ stlink_write_reg(sl, count, 2); /* count */
+ stlink_write_reg(sl, 0, 3); /* flash bank 0 (input), only used on F0, but armless fopr others */
+ stlink_write_reg(sl, fl->loader_addr, 15); /* pc register */
+
/* run loader */
stlink_run(sl);
}
/* check written byte count */
- if (sl->chip_id == STM32_CHIPID_L1_MEDIUM || sl->chip_id == STM32_CHIPID_L1_CAT2
- || sl->chip_id == STM32_CHIPID_L1_MEDIUM_PLUS || sl->chip_id == STM32_CHIPID_L1_HIGH
- || sl->chip_id == STM32_CHIPID_L152_RE || sl->chip_id == STM32_CHIPID_L0) {
-
- size_t count = size / sizeof(uint32_t);
- if (size % sizeof(uint32_t)) ++count;
-
- stlink_read_reg(sl, 3, &rr);
- if (rr.r[3] != count) {
- fprintf(stderr, "write error, count == %u\n", rr.r[3]);
- return -1;
- }
-
- } else if (sl->core_id == STM32VL_CORE_ID ||
- sl->core_id == STM32F0_CORE_ID ||
- sl->chip_id == STM32_CHIPID_F3 ||
- sl->chip_id == STM32_CHIPID_F303_HIGH ||
- sl->chip_id == STM32_CHIPID_F37x ||
- sl->chip_id == STM32_CHIPID_F334) {
-
- stlink_read_reg(sl, 2, &rr);
- if (rr.r[2] != 0) {
- fprintf(stderr, "write error, count == %u\n", rr.r[2]);
- return -1;
- }
-
- } else if (sl->chip_id == STM32_CHIPID_F2 || sl->chip_id == STM32_CHIPID_F4 || (sl->chip_id == STM32_CHIPID_F4_DE) ||
- sl->chip_id == STM32_CHIPID_F4_LP || sl->chip_id == STM32_CHIPID_F4_HD || (sl->chip_id == STM32_CHIPID_F411RE) ||
- (sl->chip_id == STM32_CHIPID_F446) || (sl->chip_id == STM32_CHIPID_F7) || (sl->chip_id == STM32_CHIPID_L4)) {
-
- stlink_read_reg(sl, 2, &rr);
- if (rr.r[2] != 0) {
- fprintf(stderr, "write error, count == %u\n", rr.r[2]);
- return -1;
- }
-
- } else {
-
- fprintf(stderr, "unknown coreid 0x%x, can't check written byte count\n", sl->core_id);
+ stlink_read_reg(sl, 2, &rr);
+ if (rr.r[2] != 0) {
+ fprintf(stderr, "write error, count == %u\n", rr.r[2]);
return -1;
-
}
return 0;