/* * Copyright (c) 2022 BrainCo Inc. * * SPDX-License-Identifier: Apache-2.0 */ #include "flash_gd32.h" #include #include #include LOG_MODULE_DECLARE(flash_gd32); #define GD32_NV_FLASH_V1_NODE DT_INST(0, gd_gd32_nv_flash_v1) #define GD32_NV_FLASH_V1_TIMEOUT DT_PROP(GD32_NV_FLASH_V1_NODE, max_erase_time_ms) #define GD32_NV_FLASH_V1_PAGE_SIZE DT_PROP(GD32_NV_FLASH_V1_NODE, page_size) #if defined(CONFIG_SOC_SERIES_GD32E10X) || \ defined(CONFIG_SOC_SERIES_GD32E50X) /* Some GD32 FMC v1 series require offset and len to word aligned. */ #define GD32_FMC_V1_WORK_ALIGNED #endif #ifdef FLASH_GD32_FMC_WORK_ALIGNED #define GD32_FMC_V1_WRITE_ERR (FMC_STAT_PGERR | FMC_STAT_WPERR | FMC_STAT_PGAERR) #else #define GD32_FMC_V1_WRITE_ERR (FMC_STAT_PGERR | FMC_STAT_WPERR) #endif #define GD32_FMC_V1_ERASE_ERR FMC_STAT_WPERR #ifdef CONFIG_FLASH_PAGE_LAYOUT static const struct flash_pages_layout gd32_fmc_v1_layout[] = { { .pages_size = GD32_NV_FLASH_V1_PAGE_SIZE, .pages_count = SOC_NV_FLASH_SIZE / GD32_NV_FLASH_V1_PAGE_SIZE } }; #endif static inline void gd32_fmc_v1_unlock(void) { FMC_KEY = UNLOCK_KEY0; FMC_KEY = UNLOCK_KEY1; } static inline void gd32_fmc_v1_lock(void) { FMC_CTL |= FMC_CTL_LK; } static int gd32_fmc_v1_wait_idle(void) { const int64_t expired_time = k_uptime_get() + GD32_NV_FLASH_V1_TIMEOUT; while (FMC_STAT & FMC_STAT_BUSY) { if (k_uptime_get() > expired_time) { return -ETIMEDOUT; } } return 0; } bool flash_gd32_valid_range(off_t offset, uint32_t len, bool write) { if ((offset > SOC_NV_FLASH_SIZE) || ((offset + len) > SOC_NV_FLASH_SIZE)) { return false; } if (write) { /* Check offset and len is flash_prg_t aligned. */ if ((offset % sizeof(flash_prg_t)) || (len % sizeof(flash_prg_t))) { return false; } #ifdef FLASH_GD32_FMC_WORK_ALIGNED /* Check offset and len is word aligned. */ if ((offset % sizeof(uint32_t)) || (len % sizeof(uint32_t))) { return false; } #endif } else { if ((offset % GD32_NV_FLASH_V1_PAGE_SIZE) || (len % GD32_NV_FLASH_V1_PAGE_SIZE)) { return false; } } return true; } int flash_gd32_write_range(off_t offset, const void *data, size_t len) { flash_prg_t *prg_flash = (flash_prg_t *)((uint8_t *)SOC_NV_FLASH_ADDR + offset); flash_prg_t *prg_data = (flash_prg_t *)data; int ret = 0; gd32_fmc_v1_unlock(); if (FMC_STAT & FMC_STAT_BUSY) { return -EBUSY; } FMC_CTL |= FMC_CTL_PG; for (size_t i = 0U; i < (len / sizeof(flash_prg_t)); i++) { *prg_flash++ = *prg_data++; } ret = gd32_fmc_v1_wait_idle(); if (ret < 0) { goto expired_out; } if (FMC_STAT & GD32_FMC_V1_WRITE_ERR) { ret = -EIO; FMC_STAT |= GD32_FMC_V1_WRITE_ERR; LOG_ERR("FMC programming failed"); } expired_out: FMC_CTL &= ~FMC_CTL_PG; gd32_fmc_v1_lock(); return ret; } static int gd32_fmc_v1_page_erase(uint32_t page_addr) { int ret = 0; gd32_fmc_v1_unlock(); if (FMC_STAT & FMC_STAT_BUSY) { return -EBUSY; } FMC_CTL |= FMC_CTL_PER; FMC_ADDR = page_addr; FMC_CTL |= FMC_CTL_START; ret = gd32_fmc_v1_wait_idle(); if (ret < 0) { goto expired_out; } if (FMC_STAT & GD32_FMC_V1_ERASE_ERR) { ret = -EIO; FMC_STAT |= GD32_FMC_V1_ERASE_ERR; LOG_ERR("FMC page %u erase failed", page_addr); } expired_out: FMC_CTL &= ~FMC_CTL_PER; gd32_fmc_v1_lock(); return ret; } int flash_gd32_erase_block(off_t offset, size_t size) { uint32_t page_addr = SOC_NV_FLASH_ADDR + offset; int ret = 0; while (size > 0U) { ret = gd32_fmc_v1_page_erase(page_addr); if (ret < 0) { return ret; } size -= GD32_NV_FLASH_V1_PAGE_SIZE; page_addr += GD32_NV_FLASH_V1_PAGE_SIZE; } return 0; } #ifdef CONFIG_FLASH_PAGE_LAYOUT void flash_gd32_pages_layout(const struct device *dev, const struct flash_pages_layout **layout, size_t *layout_size) { ARG_UNUSED(dev); *layout = gd32_fmc_v1_layout; *layout_size = ARRAY_SIZE(gd32_fmc_v1_layout); } #endif /* CONFIG_FLASH_PAGE_LAYOUT */