num_pages = flash_size_kb / page_size_kb;
stm32l4_info->bank1_sectors = num_pages;
- /* check DUAL_BANK bit[21] if the flash is less than 1M */
- if (is_max_flash_size || (stm32l4_info->optr & BIT(21))) {
+ /* check DUAL_BANK option bit if the flash is less than 1M */
+ if (is_max_flash_size || (stm32l4_info->optr & FLASH_L4_DUAL_BANK)) {
stm32l4_info->dual_bank_mode = true;
stm32l4_info->bank1_sectors = num_pages / 2;
}
stm32l4_info->bank1_sectors = num_pages;
break;
case DEVID_STM32G0B_G0CXX:
- /* single/dual bank depending on bit(21) */
+ /* single/dual bank depending on DUAL_BANK option bit */
page_size_kb = 2;
num_pages = flash_size_kb / page_size_kb;
stm32l4_info->bank1_sectors = num_pages;
stm32l4_info->cr_bker_mask = FLASH_BKER_G0;
/* check DUAL_BANK bit */
- if (stm32l4_info->optr & BIT(21)) {
+ if (stm32l4_info->optr & FLASH_G0_DUAL_BANK) {
stm32l4_info->sr_bsy_mask = FLASH_BSY | FLASH_BSY2;
stm32l4_info->dual_bank_mode = true;
stm32l4_info->bank1_sectors = num_pages / 2;
page_size_kb = 4;
num_pages = flash_size_kb / page_size_kb;
stm32l4_info->bank1_sectors = num_pages;
- if (stm32l4_info->optr & BIT(22)) {
+ if (stm32l4_info->optr & FLASH_G4_DUAL_BANK) {
stm32l4_info->dual_bank_mode = true;
page_size_kb = 2;
num_pages = flash_size_kb / page_size_kb;
case DEVID_STM32L4R_L4SXX:
case DEVID_STM32L4P_L4QXX:
/* STM32L4R/S can be single/dual bank:
- * if size = 2M check DBANK bit(22)
- * if size = 1M check DB1M bit(21)
+ * if size = 2M check DBANK bit
+ * if size = 1M check DB1M bit
* STM32L4P/Q can be single/dual bank
- * if size = 1M check DBANK bit(22)
- * if size = 512K check DB512K bit(21)
+ * if size = 1M check DBANK bit
+ * if size = 512K check DB512K bit (same as DB1M bit)
*/
page_size_kb = 8;
num_pages = flash_size_kb / page_size_kb;
stm32l4_info->bank1_sectors = num_pages;
- if ((is_max_flash_size && (stm32l4_info->optr & BIT(22))) ||
- (!is_max_flash_size && (stm32l4_info->optr & BIT(21)))) {
+ if ((is_max_flash_size && (stm32l4_info->optr & FLASH_L4R_DBANK)) ||
+ (!is_max_flash_size && (stm32l4_info->optr & FLASH_LRR_DB1M))) {
stm32l4_info->dual_bank_mode = true;
page_size_kb = 4;
num_pages = flash_size_kb / page_size_kb;
break;
case DEVID_STM32L55_L56XX:
/* STM32L55/L56xx can be single/dual bank:
- * if size = 512K check DBANK bit(22)
- * if size = 256K check DB256K bit(21)
+ * if size = 512K check DBANK bit
+ * if size = 256K check DB256K bit
*/
page_size_kb = 4;
num_pages = flash_size_kb / page_size_kb;
stm32l4_info->bank1_sectors = num_pages;
- if ((is_max_flash_size && (stm32l4_info->optr & BIT(22))) ||
- (!is_max_flash_size && (stm32l4_info->optr & BIT(21)))) {
+ if ((is_max_flash_size && (stm32l4_info->optr & FLASH_L5_DBANK)) ||
+ (!is_max_flash_size && (stm32l4_info->optr & FLASH_L5_DB256))) {
stm32l4_info->dual_bank_mode = true;
page_size_kb = 2;
num_pages = flash_size_kb / page_size_kb;
break;
case DEVID_STM32U57_U58XX:
/* if flash size is max (2M) the device is always dual bank
- * otherwise check DUALBANK bit(21)
+ * otherwise check DUALBANK
*/
page_size_kb = 8;
num_pages = flash_size_kb / page_size_kb;
stm32l4_info->bank1_sectors = num_pages;
- if (is_max_flash_size || (stm32l4_info->optr & BIT(21))) {
+ if (is_max_flash_size || (stm32l4_info->optr & FLASH_U5_DUALBANK)) {
stm32l4_info->dual_bank_mode = true;
stm32l4_info->bank1_sectors = num_pages / 2;
}
Code Review / openocd.git / commitdiff