mirror of
https://github.com/wiiu-env/wiiu-nanddumper-payload.git
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533 lines
18 KiB
C
533 lines
18 KiB
C
//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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// FAT16/32 File IO Library
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// V2.6
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// Ultra-Embedded.com
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// Copyright 2003 - 2012
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//
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// Email: admin@ultra-embedded.com
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//
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// License: GPL
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// If you would like a version with a more permissive license for use in
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// closed source commercial applications please contact me for details.
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//-----------------------------------------------------------------------------
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//
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// This file is part of FAT File IO Library.
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//
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// FAT File IO Library is free software; you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation; either version 2 of the License, or
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// (at your option) any later version.
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//
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// FAT File IO Library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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//
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// You should have received a copy of the GNU General Public License
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// along with FAT File IO Library; if not, write to the Free Software
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// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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#include "../imports.h"
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#include "fat_defs.h"
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#include "fat_access.h"
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#include "fat_table.h"
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#include "fat_write.h"
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#include "fat_string.h"
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#include "fat_misc.h"
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#include "fat_format.h"
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#if FATFS_INC_FORMAT_SUPPORT
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//-----------------------------------------------------------------------------
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// Tables
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//-----------------------------------------------------------------------------
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struct sec_per_clus_table
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{
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uint32 sectors;
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uint8 sectors_per_cluster;
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};
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struct sec_per_clus_table _cluster_size_table16[] =
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{
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{ 32680, 2}, // 16MB - 1K
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{ 262144, 4}, // 128MB - 2K
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{ 524288, 8}, // 256MB - 4K
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{ 1048576, 16}, // 512MB - 8K
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{ 2097152, 32}, // 1GB - 16K
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{ 4194304, 64}, // 2GB - 32K
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{ 8388608, 128},// 2GB - 64K [Warning only supported by Windows XP onwards]
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{ 0 , 0 } // Invalid
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};
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struct sec_per_clus_table _cluster_size_table32[] =
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{
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{ 532480, 1}, // 260MB - 512b
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{ 16777216, 8}, // 8GB - 4K
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{ 33554432, 16}, // 16GB - 8K
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{ 67108864, 32}, // 32GB - 16K
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{ 0xFFFFFFFF, 64},// >32GB - 32K
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{ 0 , 0 } // Invalid
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};
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//-----------------------------------------------------------------------------
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// fatfs_calc_cluster_size: Calculate what cluster size should be used
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//-----------------------------------------------------------------------------
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static uint8 fatfs_calc_cluster_size(uint32 sectors, int is_fat32)
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{
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int i;
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if (!is_fat32)
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{
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for (i=0; _cluster_size_table16[i].sectors_per_cluster != 0;i++)
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if (sectors <= _cluster_size_table16[i].sectors)
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return _cluster_size_table16[i].sectors_per_cluster;
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}
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else
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{
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for (i=0; _cluster_size_table32[i].sectors_per_cluster != 0;i++)
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if (sectors <= _cluster_size_table32[i].sectors)
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return _cluster_size_table32[i].sectors_per_cluster;
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}
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return 0;
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}
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//-----------------------------------------------------------------------------
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// fatfs_erase_sectors: Erase a number of sectors
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//-----------------------------------------------------------------------------
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static int fatfs_erase_sectors(struct fatfs *fs, uint32 lba, int count)
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{
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int i;
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// Zero sector first
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memset(fs->currentsector.sector, 0, FAT_SECTOR_SIZE);
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for (i=0;i<count;i++)
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if (!fs->disk_io.write_media(lba + i, fs->currentsector.sector, 1))
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return 0;
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return 1;
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}
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//-----------------------------------------------------------------------------
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// fatfs_create_boot_sector: Create the boot sector
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//-----------------------------------------------------------------------------
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static int fatfs_create_boot_sector(struct fatfs *fs, uint32 boot_sector_lba, uint32 vol_sectors, const char *name, int is_fat32)
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{
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uint32 total_clusters;
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int i;
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// Zero sector initially
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memset(fs->currentsector.sector, 0, FAT_SECTOR_SIZE);
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// OEM Name & Jump Code
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fs->currentsector.sector[0] = 0xEB;
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fs->currentsector.sector[1] = 0x3C;
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fs->currentsector.sector[2] = 0x90;
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fs->currentsector.sector[3] = 0x4D;
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fs->currentsector.sector[4] = 0x53;
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fs->currentsector.sector[5] = 0x44;
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fs->currentsector.sector[6] = 0x4F;
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fs->currentsector.sector[7] = 0x53;
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fs->currentsector.sector[8] = 0x35;
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fs->currentsector.sector[9] = 0x2E;
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fs->currentsector.sector[10] = 0x30;
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// Bytes per sector
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fs->currentsector.sector[11] = (FAT_SECTOR_SIZE >> 0) & 0xFF;
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fs->currentsector.sector[12] = (FAT_SECTOR_SIZE >> 8) & 0xFF;
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// Get sectors per cluster size for the disk
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fs->sectors_per_cluster = fatfs_calc_cluster_size(vol_sectors, is_fat32);
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if (!fs->sectors_per_cluster)
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return 0; // Invalid disk size
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// Sectors per cluster
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fs->currentsector.sector[13] = fs->sectors_per_cluster;
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// Reserved Sectors
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if (!is_fat32)
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fs->reserved_sectors = 8;
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else
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fs->reserved_sectors = 32;
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fs->currentsector.sector[14] = (fs->reserved_sectors >> 0) & 0xFF;
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fs->currentsector.sector[15] = (fs->reserved_sectors >> 8) & 0xFF;
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// Number of FATS
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fs->num_of_fats = 2;
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fs->currentsector.sector[16] = fs->num_of_fats;
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// Max entries in root dir (FAT16 only)
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if (!is_fat32)
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{
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fs->root_entry_count = 512;
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fs->currentsector.sector[17] = (fs->root_entry_count >> 0) & 0xFF;
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fs->currentsector.sector[18] = (fs->root_entry_count >> 8) & 0xFF;
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}
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else
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{
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fs->root_entry_count = 0;
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fs->currentsector.sector[17] = 0;
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fs->currentsector.sector[18] = 0;
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}
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// [FAT16] Total sectors (use FAT32 count instead)
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fs->currentsector.sector[19] = 0x00;
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fs->currentsector.sector[20] = 0x00;
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// Media type
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fs->currentsector.sector[21] = 0xF8;
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// FAT16 BS Details
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if (!is_fat32)
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{
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// Count of sectors used by the FAT table (FAT16 only)
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total_clusters = (vol_sectors / fs->sectors_per_cluster) + 1;
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fs->fat_sectors = (total_clusters/(FAT_SECTOR_SIZE/2)) + 1;
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fs->currentsector.sector[22] = (uint8)((fs->fat_sectors >> 0) & 0xFF);
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fs->currentsector.sector[23] = (uint8)((fs->fat_sectors >> 8) & 0xFF);
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// Sectors per track
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fs->currentsector.sector[24] = 0x00;
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fs->currentsector.sector[25] = 0x00;
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// Heads
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fs->currentsector.sector[26] = 0x00;
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fs->currentsector.sector[27] = 0x00;
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// Hidden sectors
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fs->currentsector.sector[28] = 0x20;
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fs->currentsector.sector[29] = 0x00;
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fs->currentsector.sector[30] = 0x00;
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fs->currentsector.sector[31] = 0x00;
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// Total sectors for this volume
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fs->currentsector.sector[32] = (uint8)((vol_sectors>>0)&0xFF);
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fs->currentsector.sector[33] = (uint8)((vol_sectors>>8)&0xFF);
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fs->currentsector.sector[34] = (uint8)((vol_sectors>>16)&0xFF);
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fs->currentsector.sector[35] = (uint8)((vol_sectors>>24)&0xFF);
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// Drive number
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fs->currentsector.sector[36] = 0x00;
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// Reserved
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fs->currentsector.sector[37] = 0x00;
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// Boot signature
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fs->currentsector.sector[38] = 0x29;
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// Volume ID
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fs->currentsector.sector[39] = 0x12;
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fs->currentsector.sector[40] = 0x34;
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fs->currentsector.sector[41] = 0x56;
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fs->currentsector.sector[42] = 0x78;
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// Volume name
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for (i=0;i<11;i++)
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{
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if (i < (int)strlen(name))
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fs->currentsector.sector[i+43] = name[i];
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else
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fs->currentsector.sector[i+43] = ' ';
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}
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// File sys type
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fs->currentsector.sector[54] = 'F';
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fs->currentsector.sector[55] = 'A';
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fs->currentsector.sector[56] = 'T';
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fs->currentsector.sector[57] = '1';
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fs->currentsector.sector[58] = '6';
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fs->currentsector.sector[59] = ' ';
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fs->currentsector.sector[60] = ' ';
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fs->currentsector.sector[61] = ' ';
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// Signature
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fs->currentsector.sector[510] = 0x55;
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fs->currentsector.sector[511] = 0xAA;
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}
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// FAT32 BS Details
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else
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{
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// Count of sectors used by the FAT table (FAT16 only)
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fs->currentsector.sector[22] = 0;
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fs->currentsector.sector[23] = 0;
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// Sectors per track (default)
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fs->currentsector.sector[24] = 0x3F;
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fs->currentsector.sector[25] = 0x00;
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// Heads (default)
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fs->currentsector.sector[26] = 0xFF;
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fs->currentsector.sector[27] = 0x00;
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// Hidden sectors
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fs->currentsector.sector[28] = 0x00;
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fs->currentsector.sector[29] = 0x00;
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fs->currentsector.sector[30] = 0x00;
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fs->currentsector.sector[31] = 0x00;
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// Total sectors for this volume
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fs->currentsector.sector[32] = (uint8)((vol_sectors>>0)&0xFF);
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fs->currentsector.sector[33] = (uint8)((vol_sectors>>8)&0xFF);
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fs->currentsector.sector[34] = (uint8)((vol_sectors>>16)&0xFF);
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fs->currentsector.sector[35] = (uint8)((vol_sectors>>24)&0xFF);
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total_clusters = (vol_sectors / fs->sectors_per_cluster) + 1;
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fs->fat_sectors = (total_clusters/(FAT_SECTOR_SIZE/4)) + 1;
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// BPB_FATSz32
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fs->currentsector.sector[36] = (uint8)((fs->fat_sectors>>0)&0xFF);
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fs->currentsector.sector[37] = (uint8)((fs->fat_sectors>>8)&0xFF);
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fs->currentsector.sector[38] = (uint8)((fs->fat_sectors>>16)&0xFF);
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fs->currentsector.sector[39] = (uint8)((fs->fat_sectors>>24)&0xFF);
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// BPB_ExtFlags
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fs->currentsector.sector[40] = 0;
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fs->currentsector.sector[41] = 0;
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// BPB_FSVer
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fs->currentsector.sector[42] = 0;
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fs->currentsector.sector[43] = 0;
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// BPB_RootClus
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fs->currentsector.sector[44] = (uint8)((fs->rootdir_first_cluster>>0)&0xFF);
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fs->currentsector.sector[45] = (uint8)((fs->rootdir_first_cluster>>8)&0xFF);
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fs->currentsector.sector[46] = (uint8)((fs->rootdir_first_cluster>>16)&0xFF);
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fs->currentsector.sector[47] = (uint8)((fs->rootdir_first_cluster>>24)&0xFF);
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// BPB_FSInfo
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fs->currentsector.sector[48] = (uint8)((fs->fs_info_sector>>0)&0xFF);
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fs->currentsector.sector[49] = (uint8)((fs->fs_info_sector>>8)&0xFF);
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// BPB_BkBootSec
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fs->currentsector.sector[50] = 6;
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fs->currentsector.sector[51] = 0;
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// Drive number
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fs->currentsector.sector[64] = 0x00;
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// Boot signature
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fs->currentsector.sector[66] = 0x29;
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// Volume ID
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fs->currentsector.sector[67] = 0x12;
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fs->currentsector.sector[68] = 0x34;
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fs->currentsector.sector[69] = 0x56;
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fs->currentsector.sector[70] = 0x78;
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// Volume name
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for (i=0;i<11;i++)
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{
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if (i < (int)strlen(name))
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fs->currentsector.sector[i+71] = name[i];
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else
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fs->currentsector.sector[i+71] = ' ';
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}
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// File sys type
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fs->currentsector.sector[82] = 'F';
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fs->currentsector.sector[83] = 'A';
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fs->currentsector.sector[84] = 'T';
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fs->currentsector.sector[85] = '3';
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fs->currentsector.sector[86] = '2';
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fs->currentsector.sector[87] = ' ';
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fs->currentsector.sector[88] = ' ';
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fs->currentsector.sector[89] = ' ';
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// Signature
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fs->currentsector.sector[510] = 0x55;
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fs->currentsector.sector[511] = 0xAA;
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}
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if (fs->disk_io.write_media(boot_sector_lba, fs->currentsector.sector, 1))
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return 1;
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else
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return 0;
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}
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//-----------------------------------------------------------------------------
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// fatfs_create_fsinfo_sector: Create the FSInfo sector (FAT32)
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//-----------------------------------------------------------------------------
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static int fatfs_create_fsinfo_sector(struct fatfs *fs, uint32 sector_lba)
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{
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// Zero sector initially
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memset(fs->currentsector.sector, 0, FAT_SECTOR_SIZE);
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// FSI_LeadSig
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fs->currentsector.sector[0] = 0x52;
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fs->currentsector.sector[1] = 0x52;
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fs->currentsector.sector[2] = 0x61;
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fs->currentsector.sector[3] = 0x41;
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// FSI_StrucSig
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fs->currentsector.sector[484] = 0x72;
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fs->currentsector.sector[485] = 0x72;
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fs->currentsector.sector[486] = 0x41;
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fs->currentsector.sector[487] = 0x61;
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// FSI_Free_Count
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fs->currentsector.sector[488] = 0xFF;
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fs->currentsector.sector[489] = 0xFF;
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fs->currentsector.sector[490] = 0xFF;
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fs->currentsector.sector[491] = 0xFF;
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// FSI_Nxt_Free
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fs->currentsector.sector[492] = 0xFF;
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fs->currentsector.sector[493] = 0xFF;
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fs->currentsector.sector[494] = 0xFF;
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fs->currentsector.sector[495] = 0xFF;
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// Signature
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fs->currentsector.sector[510] = 0x55;
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fs->currentsector.sector[511] = 0xAA;
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if (fs->disk_io.write_media(sector_lba, fs->currentsector.sector, 1))
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return 1;
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else
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return 0;
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}
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//-----------------------------------------------------------------------------
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// fatfs_erase_fat: Erase FAT table using fs details in fs struct
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//-----------------------------------------------------------------------------
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static int fatfs_erase_fat(struct fatfs *fs, int is_fat32)
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{
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uint32 i;
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// Zero sector initially
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memset(fs->currentsector.sector, 0, FAT_SECTOR_SIZE);
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// Initialise default allocate / reserved clusters
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if (!is_fat32)
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{
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SET_16BIT_WORD(fs->currentsector.sector, 0, 0xFFF8);
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SET_16BIT_WORD(fs->currentsector.sector, 2, 0xFFFF);
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}
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else
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{
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SET_32BIT_WORD(fs->currentsector.sector, 0, 0x0FFFFFF8);
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SET_32BIT_WORD(fs->currentsector.sector, 4, 0xFFFFFFFF);
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SET_32BIT_WORD(fs->currentsector.sector, 8, 0x0FFFFFFF);
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}
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if (!fs->disk_io.write_media(fs->fat_begin_lba + 0, fs->currentsector.sector, 1))
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return 0;
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// Zero remaining FAT sectors
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memset(fs->currentsector.sector, 0, FAT_SECTOR_SIZE);
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for (i=1;i<fs->fat_sectors*fs->num_of_fats;i++)
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if (!fs->disk_io.write_media(fs->fat_begin_lba + i, fs->currentsector.sector, 1))
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return 0;
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return 1;
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}
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//-----------------------------------------------------------------------------
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// fatfs_format_fat16: Format a FAT16 partition
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//-----------------------------------------------------------------------------
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int fatfs_format_fat16(struct fatfs *fs, uint32 volume_sectors, const char *name)
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{
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fs->currentsector.address = FAT32_INVALID_CLUSTER;
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fs->currentsector.dirty = 0;
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fs->next_free_cluster = 0; // Invalid
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fatfs_fat_init(fs);
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// Make sure we have read + write functions
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if (!fs->disk_io.read_media || !fs->disk_io.write_media)
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return FAT_INIT_MEDIA_ACCESS_ERROR;
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// Volume is FAT16
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fs->fat_type = FAT_TYPE_16;
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// Not valid for FAT16
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fs->fs_info_sector = 0;
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fs->rootdir_first_cluster = 0;
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// Sector 0: Boot sector
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// NOTE: We don't need an MBR, it is a waste of a good sector!
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fs->lba_begin = 0;
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if (!fatfs_create_boot_sector(fs, fs->lba_begin, volume_sectors, name, 0))
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return 0;
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// For FAT16 (which this may be), rootdir_first_cluster is actuall rootdir_first_sector
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fs->rootdir_first_sector = fs->reserved_sectors + (fs->num_of_fats * fs->fat_sectors);
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fs->rootdir_sectors = ((fs->root_entry_count * 32) + (FAT_SECTOR_SIZE - 1)) / FAT_SECTOR_SIZE;
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// First FAT LBA address
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fs->fat_begin_lba = fs->lba_begin + fs->reserved_sectors;
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// The address of the first data cluster on this volume
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fs->cluster_begin_lba = fs->fat_begin_lba + (fs->num_of_fats * fs->fat_sectors);
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// Initialise FAT sectors
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if (!fatfs_erase_fat(fs, 0))
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return 0;
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// Erase Root directory
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if (!fatfs_erase_sectors(fs, fs->lba_begin + fs->rootdir_first_sector, fs->rootdir_sectors))
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return 0;
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return 1;
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}
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//-----------------------------------------------------------------------------
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// fatfs_format_fat32: Format a FAT32 partition
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|
//-----------------------------------------------------------------------------
|
|
int fatfs_format_fat32(struct fatfs *fs, uint32 volume_sectors, const char *name)
|
|
{
|
|
fs->currentsector.address = FAT32_INVALID_CLUSTER;
|
|
fs->currentsector.dirty = 0;
|
|
|
|
fs->next_free_cluster = 0; // Invalid
|
|
|
|
fatfs_fat_init(fs);
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|
|
|
// Make sure we have read + write functions
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|
if (!fs->disk_io.read_media || !fs->disk_io.write_media)
|
|
return FAT_INIT_MEDIA_ACCESS_ERROR;
|
|
|
|
// Volume is FAT32
|
|
fs->fat_type = FAT_TYPE_32;
|
|
|
|
// Basic defaults for normal FAT32 partitions
|
|
fs->fs_info_sector = 1;
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|
fs->rootdir_first_cluster = 2;
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|
|
|
// Sector 0: Boot sector
|
|
// NOTE: We don't need an MBR, it is a waste of a good sector!
|
|
fs->lba_begin = 0;
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|
if (!fatfs_create_boot_sector(fs, fs->lba_begin, volume_sectors, name, 1))
|
|
return 0;
|
|
|
|
// First FAT LBA address
|
|
fs->fat_begin_lba = fs->lba_begin + fs->reserved_sectors;
|
|
|
|
// The address of the first data cluster on this volume
|
|
fs->cluster_begin_lba = fs->fat_begin_lba + (fs->num_of_fats * fs->fat_sectors);
|
|
|
|
// Initialise FSInfo sector
|
|
if (!fatfs_create_fsinfo_sector(fs, fs->fs_info_sector))
|
|
return 0;
|
|
|
|
// Initialise FAT sectors
|
|
if (!fatfs_erase_fat(fs, 1))
|
|
return 0;
|
|
|
|
// Erase Root directory
|
|
if (!fatfs_erase_sectors(fs, fatfs_lba_of_cluster(fs, fs->rootdir_first_cluster), fs->sectors_per_cluster))
|
|
return 0;
|
|
|
|
return 1;
|
|
}
|
|
//-----------------------------------------------------------------------------
|
|
// fatfs_format: Format a partition with either FAT16 or FAT32 based on size
|
|
//-----------------------------------------------------------------------------
|
|
int fatfs_format(struct fatfs *fs, uint32 volume_sectors, const char *name)
|
|
{
|
|
// 2GB - 32K limit for safe behaviour for FAT16
|
|
if (volume_sectors <= 4194304)
|
|
return fatfs_format_fat16(fs, volume_sectors, name);
|
|
else
|
|
return fatfs_format_fat32(fs, volume_sectors, name);
|
|
}
|
|
#endif /*FATFS_INC_FORMAT_SUPPORT*/
|