380 lines
9.5 KiB
C
380 lines
9.5 KiB
C
/*
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* Copyright (c) 2021 STMicroelectronics
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#define LOG_DOMAIN flash_stm32l5
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#define LOG_LEVEL CONFIG_FLASH_LOG_LEVEL
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#include <logging/log.h>
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LOG_MODULE_REGISTER(LOG_DOMAIN);
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#include <kernel.h>
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#include <device.h>
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#include <string.h>
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#include <drivers/flash.h>
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#include <init.h>
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#include <soc.h>
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#include <stm32l5xx_ll_icache.h>
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#include <stm32_ll_system.h>
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#include "flash_stm32.h"
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#define STM32L5_SERIES_MAX_FLASH 512
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#define BANK2_OFFSET (KB(STM32L5_SERIES_MAX_FLASH) / 2)
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#define ICACHE_DISABLE_TIMEOUT_VALUE 1U /* 1ms */
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#define ICACHE_INVALIDATE_TIMEOUT_VALUE 1U /* 1ms */
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static int stm32l5x_icache_disable(void)
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{
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int status = 0;
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uint32_t tickstart;
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LOG_DBG("I-cache Disable");
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/* Clear BSYENDF flag first and then disable the instruction cache
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* that starts a cache invalidation procedure
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*/
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CLEAR_BIT(ICACHE->FCR, ICACHE_FCR_CBSYENDF);
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LL_ICACHE_Disable();
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/* Get tick */
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tickstart = k_uptime_get_32();
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/* Wait for instruction cache to get disabled */
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while (LL_ICACHE_IsEnabled()) {
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if ((k_uptime_get_32() - tickstart) >
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ICACHE_DISABLE_TIMEOUT_VALUE) {
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/* New check to avoid false timeout detection in case
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* of preemption.
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*/
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if (LL_ICACHE_IsEnabled()) {
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status = -ETIMEDOUT;
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break;
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}
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}
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}
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return status;
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}
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static void stm32l5x_icache_enable(void)
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{
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LOG_DBG("I-cache Enable");
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LL_ICACHE_Enable();
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}
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static int icache_wait_for_invalidate_complete(void)
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{
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int status = -EIO;
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uint32_t tickstart;
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/* Check if ongoing invalidation operation */
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if (LL_ICACHE_IsActiveFlag_BUSY()) {
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/* Get tick */
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tickstart = k_uptime_get_32();
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/* Wait for end of cache invalidation */
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while (!LL_ICACHE_IsActiveFlag_BSYEND()) {
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if ((k_uptime_get_32() - tickstart) >
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ICACHE_INVALIDATE_TIMEOUT_VALUE) {
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break;
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}
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}
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}
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/* Clear any pending flags */
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if (LL_ICACHE_IsActiveFlag_BSYEND()) {
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LOG_DBG("I-cache Invalidation complete");
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LL_ICACHE_ClearFlag_BSYEND();
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status = 0;
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} else {
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LOG_ERR("I-cache Invalidation timeout");
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status = -ETIMEDOUT;
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}
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if (LL_ICACHE_IsActiveFlag_ERR()) {
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LOG_ERR("I-cache error");
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LL_ICACHE_ClearFlag_ERR();
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status = -EIO;
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}
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return status;
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}
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/*
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* offset and len must be aligned on 8 for write,
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* positive and not beyond end of flash
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*/
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bool flash_stm32_valid_range(const struct device *dev, off_t offset,
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uint32_t len,
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bool write)
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{
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FLASH_TypeDef *regs = FLASH_STM32_REGS(dev);
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if (((regs->OPTR & FLASH_OPTR_DBANK) == FLASH_OPTR_DBANK) &&
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(CONFIG_FLASH_SIZE < STM32L5_SERIES_MAX_FLASH)) {
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/*
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* In case of bank1/2 discontinuity, the range should not
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* start before bank2 and end beyond bank1 at the same time.
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* Locations beyond bank2 are caught by
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* flash_stm32_range_exists.
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*/
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if ((offset < BANK2_OFFSET) &&
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(offset + len > FLASH_SIZE / 2)) {
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return 0;
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}
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}
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return (!write || (offset % 8 == 0 && len % 8 == 0U)) &&
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flash_stm32_range_exists(dev, offset, len);
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}
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static int write_dword(const struct device *dev, off_t offset, uint64_t val)
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{
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FLASH_TypeDef *regs = FLASH_STM32_REGS(dev);
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volatile uint32_t *flash = (uint32_t *)(offset
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+ CONFIG_FLASH_BASE_ADDRESS);
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uint32_t tmp;
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int rc;
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/* if the non-secure control register is locked,do not fail silently */
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if (regs->NSCR & FLASH_NSCR_NSLOCK) {
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LOG_ERR("NSCR locked\n");
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return -EIO;
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}
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/* Check that no Flash main memory operation is ongoing */
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rc = flash_stm32_wait_flash_idle(dev);
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if (rc < 0) {
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return rc;
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}
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/* Check if this double word is erased */
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if ((flash[0] != 0xFFFFFFFFUL) || (flash[1] != 0xFFFFFFFFUL)) {
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LOG_ERR("Word at offs %ld not erased", (long)offset);
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return -EIO;
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}
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/* Set the NSPG bit */
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regs->NSCR |= FLASH_NSCR_NSPG;
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/* Flush the register write */
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tmp = regs->NSCR;
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/* Perform the data write operation at the desired memory address */
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flash[0] = (uint32_t)val;
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flash[1] = (uint32_t)(val >> 32);
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/* Wait until the NSBSY bit is cleared */
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rc = flash_stm32_wait_flash_idle(dev);
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/* Clear the NSPG bit */
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regs->NSCR &= (~FLASH_NSCR_NSPG);
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return rc;
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}
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static int erase_page(const struct device *dev, unsigned int offset)
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{
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FLASH_TypeDef *regs = FLASH_STM32_REGS(dev);
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uint32_t tmp;
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int rc;
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int page;
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/* if the non-secure control register is locked,do not fail silently */
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if (regs->NSCR & FLASH_NSCR_NSLOCK) {
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LOG_ERR("NSCR locked\n");
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return -EIO;
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}
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/* Check that no Flash memory operation is ongoing */
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rc = flash_stm32_wait_flash_idle(dev);
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if (rc < 0) {
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return rc;
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}
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if ((regs->OPTR & FLASH_OPTR_DBANK) == FLASH_OPTR_DBANK) {
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bool bank_swap;
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/* Check whether bank1/2 are swapped */
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bank_swap =
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((regs->OPTR & FLASH_OPTR_SWAP_BANK) == FLASH_OPTR_SWAP_BANK);
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if ((offset < (FLASH_SIZE / 2)) && !bank_swap) {
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/* The pages to be erased is in bank 1 */
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regs->NSCR &= ~FLASH_NSCR_NSBKER_Msk;
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page = offset / FLASH_PAGE_SIZE;
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LOG_DBG("Erase page %d on bank 1", page);
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} else if ((offset >= BANK2_OFFSET) && bank_swap) {
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/* The pages to be erased is in bank 1 */
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regs->NSCR &= ~FLASH_NSCR_NSBKER_Msk;
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page = (offset - BANK2_OFFSET) / FLASH_PAGE_SIZE;
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LOG_DBG("Erase page %d on bank 1", page);
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} else if ((offset < (FLASH_SIZE / 2)) && bank_swap) {
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/* The pages to be erased is in bank 2 */
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regs->NSCR |= FLASH_NSCR_NSBKER;
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page = offset / FLASH_PAGE_SIZE;
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LOG_DBG("Erase page %d on bank 2", page);
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} else if ((offset >= BANK2_OFFSET) && !bank_swap) {
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/* The pages to be erased is in bank 2 */
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regs->NSCR |= FLASH_NSCR_NSBKER;
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page = (offset - BANK2_OFFSET) / FLASH_PAGE_SIZE;
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LOG_DBG("Erase page %d on bank 2", page);
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} else {
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LOG_ERR("Offset %d does not exist", offset);
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return -EINVAL;
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}
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} else {
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page = offset / FLASH_PAGE_SIZE;
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LOG_DBG("Erase page %d\n", page);
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}
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/* Set the NSPER bit and select the page you wish to erase */
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regs->NSCR |= FLASH_NSCR_NSPER;
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regs->NSCR &= ~FLASH_NSCR_NSPNB_Msk;
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regs->NSCR |= (page << FLASH_NSCR_NSPNB_Pos);
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/* Set the NSSTRT bit */
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regs->NSCR |= FLASH_NSCR_NSSTRT;
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/* flush the register write */
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tmp = regs->NSCR;
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/* Wait for the NSBSY bit */
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rc = flash_stm32_wait_flash_idle(dev);
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if ((regs->OPTR & FLASH_OPTR_DBANK) == FLASH_OPTR_DBANK) {
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regs->NSCR &= ~(FLASH_NSCR_NSPER | FLASH_NSCR_NSBKER);
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} else {
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regs->NSCR &= ~(FLASH_NSCR_NSPER);
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}
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return rc;
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}
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int flash_stm32_block_erase_loop(const struct device *dev,
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unsigned int offset,
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unsigned int len)
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{
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unsigned int address = offset;
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int rc = 0;
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bool icache_enabled = LL_ICACHE_IsEnabled();
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if (icache_enabled) {
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/* Disable icache, this will start the invalidation procedure.
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* All changes(erase/write) to flash memory should happen when
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* i-cache is disabled. A write to flash performed without
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* disabling i-cache will set ERRF error flag in SR register.
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*/
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rc = stm32l5x_icache_disable();
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if (rc != 0) {
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return rc;
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}
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}
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for (; address <= offset + len - 1 ; address += FLASH_PAGE_SIZE) {
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rc = erase_page(dev, address);
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if (rc < 0) {
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break;
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}
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}
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if (icache_enabled) {
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/* Since i-cache was disabled, this would start the
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* invalidation procedure, so wait for completion.
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*/
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rc = icache_wait_for_invalidate_complete();
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/* I-cache should be enabled only after the
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* invalidation is complete.
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*/
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stm32l5x_icache_enable();
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}
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return rc;
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}
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int flash_stm32_write_range(const struct device *dev, unsigned int offset,
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const void *data, unsigned int len)
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{
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int i, rc = 0;
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bool icache_enabled = LL_ICACHE_IsEnabled();
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if (icache_enabled) {
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/* Disable icache, this will start the invalidation procedure.
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* All changes(erase/write) to flash memory should happen when
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* i-cache is disabled. A write to flash performed without
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* disabling i-cache will set ERRF error flag in SR register.
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*/
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rc = stm32l5x_icache_disable();
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if (rc != 0) {
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return rc;
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}
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}
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for (i = 0; i < len; i += 8, offset += 8) {
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rc = write_dword(dev, offset, ((const uint64_t *) data)[i>>3]);
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if (rc < 0) {
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break;
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}
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}
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if (icache_enabled) {
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/* Since i-cache was disabled, this would start the
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* invalidation procedure, so wait for completion.
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*/
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rc = icache_wait_for_invalidate_complete();
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/* I-cache should be enabled only after the
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* invalidation is complete.
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*/
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stm32l5x_icache_enable();
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}
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return rc;
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}
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void flash_stm32_page_layout(const struct device *dev,
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const struct flash_pages_layout **layout,
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size_t *layout_size)
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{
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FLASH_TypeDef *regs = FLASH_STM32_REGS(dev);
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static struct flash_pages_layout stm32l5_flash_layout[3];
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#define PAGES_PER_BANK ((FLASH_SIZE / FLASH_PAGE_SIZE) / 2)
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if (((regs->OPTR & FLASH_OPTR_DBANK) == FLASH_OPTR_DBANK) &&
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(CONFIG_FLASH_SIZE < STM32L5_SERIES_MAX_FLASH)) {
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/* For stm32l552xx with 256 KB flash */
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if (stm32l5_flash_layout[0].pages_count == 0) {
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/* Bank1 */
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stm32l5_flash_layout[0].pages_count = PAGES_PER_BANK;
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stm32l5_flash_layout[0].pages_size = FLASH_PAGE_SIZE;
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/* Dummy page corresponding to discontinuity between
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* bank 1/2
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*/
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stm32l5_flash_layout[1].pages_count = 1;
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stm32l5_flash_layout[1].pages_size = BANK2_OFFSET
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- (PAGES_PER_BANK * FLASH_PAGE_SIZE);
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/* Bank2 */
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stm32l5_flash_layout[2].pages_count = PAGES_PER_BANK;
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stm32l5_flash_layout[2].pages_size = FLASH_PAGE_SIZE;
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}
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} else {
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/* For stm32l562xx & stm32l552xx with 512 KB flash */
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if (stm32l5_flash_layout[0].pages_count == 0) {
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stm32l5_flash_layout[0].pages_count = FLASH_SIZE
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/ FLASH_PAGE_SIZE;
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stm32l5_flash_layout[0].pages_size = FLASH_PAGE_SIZE;
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}
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}
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*layout = stm32l5_flash_layout;
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*layout_size = ARRAY_SIZE(stm32l5_flash_layout);
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}
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