/**************************************************************************/ /* */ /* Copyright (c) Microsoft Corporation. All rights reserved. */ /* */ /* This software is licensed under the Microsoft Software License */ /* Terms for Microsoft Azure RTOS. Full text of the license can be */ /* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */ /* and in the root directory of this software. */ /* */ /**************************************************************************/ /**************************************************************************/ /**************************************************************************/ /** */ /** LevelX Component */ /** */ /** NAND Flash */ /** */ /**************************************************************************/ /**************************************************************************/ #define LX_SOURCE_CODE /* Disable ThreadX error checking. */ #ifndef LX_DISABLE_ERROR_CHECKING #define LX_DISABLE_ERROR_CHECKING #endif /* Include necessary system files. */ #include "lx_api.h" /**************************************************************************/ /* */ /* FUNCTION RELEASE */ /* */ /* _lx_nand_flash_data_page_copy PORTABLE C */ /* 6.2.1 */ /* AUTHOR */ /* */ /* Xiuwen Cai, Microsoft Corporation */ /* */ /* DESCRIPTION */ /* */ /* This function copies logical sectors into new block. */ /* */ /* INPUT */ /* */ /* nand_flash NAND flash instance */ /* logical_sector Logical sector number */ /* source_block Source block number */ /* src_block_status Source block status */ /* destination_block Destination block number */ /* dest_block_status_ptr Pointer to destination block */ /* status */ /* sectors Number of sectors to copy */ /* */ /* OUTPUT */ /* */ /* return status */ /* */ /* CALLS */ /* */ /* lx_nand_flash_driver_pages_copy Driver pages copy */ /* lx_nand_flash_driver_pages_read Driver pages read */ /* _lx_nand_flash_system_error Internal system error handler */ /* */ /* CALLED BY */ /* */ /* Internal LevelX */ /* */ /* RELEASE HISTORY */ /* */ /* DATE NAME DESCRIPTION */ /* */ /* 03-08-2023 Xiuwen Cai Initial Version 6.2.1 */ /* */ /**************************************************************************/ UINT _lx_nand_flash_data_page_copy(LX_NAND_FLASH* nand_flash, ULONG logical_sector, ULONG source_block, USHORT src_block_status, ULONG destination_block, USHORT* dest_block_status_ptr, ULONG sectors) { LONG source_page; ULONG destination_page; UINT status = LX_SUCCESS; UINT i; ULONG available_pages; ULONG spare_data1; UCHAR *spare_buffer_ptr; ULONG dest_block_status; ULONG number_of_pages; /* Get the destination block status. */ dest_block_status = *dest_block_status_ptr; /* Get the current page number of the destination block. */ destination_page = dest_block_status & LX_NAND_BLOCK_STATUS_PAGE_NUMBER_MASK; /* Get the available pages in the source block. */ available_pages = (src_block_status & LX_NAND_BLOCK_STATUS_FULL) ? (nand_flash -> lx_nand_flash_pages_per_block) : (src_block_status & LX_NAND_BLOCK_STATUS_PAGE_NUMBER_MASK); /* Check if pages in the source block are sequential. */ if (src_block_status & LX_NAND_BLOCK_STATUS_NON_SEQUENTIAL) { /* Get buffer for spare data. */ spare_buffer_ptr = nand_flash -> lx_nand_flash_page_buffer + nand_flash -> lx_nand_flash_bytes_per_page; /* Loop to copy the data. */ for (i = 0; i < sectors; i++) { /* Loop to search the page. */ for (source_page = (LONG)(available_pages - 1); source_page >= 0; source_page--) { /* Read one page. */ #ifdef LX_NAND_ENABLE_CONTROL_BLOCK_FOR_DRIVER_INTERFACE status = (nand_flash -> lx_nand_flash_driver_pages_read)(nand_flash, source_block, (ULONG)source_page, LX_NULL, spare_buffer_ptr, 1); #else status = (nand_flash -> lx_nand_flash_driver_pages_read)(source_block, (ULONG)source_page, LX_NULL, spare_buffer_ptr, 1); #endif /* Check for an error from flash driver. */ if (status) { /* Call system error handler. */ _lx_nand_flash_system_error(nand_flash, status, source_block, 0); /* Return an error. */ return(LX_ERROR); } /* Get the spare data. */ spare_data1 = LX_UTILITY_LONG_GET(&spare_buffer_ptr[nand_flash -> lx_nand_flash_spare_data1_offset]); /* Check the address match. */ if ((spare_data1 & LX_NAND_PAGE_TYPE_USER_DATA_MASK) == (logical_sector + i)) { /* Check if the page contains valid data. */ if ((spare_data1 & (~LX_NAND_PAGE_TYPE_USER_DATA_MASK)) == (LX_NAND_PAGE_TYPE_USER_DATA)) { /* Call the driver to copy the page. */ #ifdef LX_NAND_ENABLE_CONTROL_BLOCK_FOR_DRIVER_INTERFACE status = (nand_flash -> lx_nand_flash_driver_pages_copy)(nand_flash, source_block, (ULONG)source_page, destination_block, destination_page, 1, nand_flash -> lx_nand_flash_page_buffer); #else status = (nand_flash -> lx_nand_flash_driver_pages_copy)(source_block, (ULONG)source_page, destination_block, destination_page, 1, nand_flash -> lx_nand_flash_page_buffer); #endif /* Check for an error from flash driver. */ if (status) { /* Call system error handler. */ _lx_nand_flash_system_error(nand_flash, status, source_block, 0); /* Return an error. */ return(LX_ERROR); } /* Check if the pages in destination block is still sequential. */ if ((destination_page) != (logical_sector + i % nand_flash -> lx_nand_flash_pages_per_block)) { /* Mark the block status as non sequential. */ dest_block_status |= LX_NAND_BLOCK_STATUS_NON_SEQUENTIAL; } /* Update the available pages. */ destination_page++; /* Check if available page count reaches pages per block. */ if (destination_page == nand_flash -> lx_nand_flash_pages_per_block) { /* Set block full flag. */ dest_block_status |= LX_NAND_BLOCK_STATUS_FULL; } } break; } } } } else { /* Get the source page number. */ source_page = (LONG)(logical_sector % nand_flash -> lx_nand_flash_pages_per_block); /* Check if the page to copy is greater than the available pages. */ number_of_pages = ((ULONG)source_page + sectors) > available_pages ? (available_pages > (ULONG)source_page ? available_pages - (ULONG)source_page : 0) : sectors; /* Check if there is any pages to be copied. */ if (number_of_pages) { /* Call the driver to copy pages. */ #ifdef LX_NAND_ENABLE_CONTROL_BLOCK_FOR_DRIVER_INTERFACE status = (nand_flash -> lx_nand_flash_driver_pages_copy)(nand_flash, source_block, (ULONG)source_page, destination_block, destination_page, number_of_pages, nand_flash -> lx_nand_flash_page_buffer); #else status = (nand_flash -> lx_nand_flash_driver_pages_copy)(source_block, (ULONG)source_page, destination_block, destination_page, number_of_pages, nand_flash -> lx_nand_flash_page_buffer); #endif /* Check for an error from flash driver. */ if (status) { /* Call system error handler. */ _lx_nand_flash_system_error(nand_flash, status, source_block, 0); /* Return an error. */ return(LX_ERROR); } /* Check if the pages in destination block is still sequential. */ if ((ULONG)source_page != destination_page) { /* Mark the block status as non sequential. */ dest_block_status |= LX_NAND_BLOCK_STATUS_NON_SEQUENTIAL; } /* Update the available pages. */ destination_page += number_of_pages; /* Check if available page count reaches pages per block. */ if (destination_page == nand_flash -> lx_nand_flash_pages_per_block) { /* Set block full flag. */ dest_block_status |= LX_NAND_BLOCK_STATUS_FULL; } } } /* Return the block status. */ *dest_block_status_ptr = (USHORT)(destination_page | (dest_block_status & ~LX_NAND_BLOCK_STATUS_PAGE_NUMBER_MASK)); /* Return status. */ return(status); }