/* * FreeRTOS+FAT build 191128 - Note: FreeRTOS+FAT is still in the lab! * Copyright (C) 2018 Amazon.com, Inc. or its affiliates. All Rights Reserved. * Authors include James Walmsley, Hein Tibosch and Richard Barry * * Permission is hereby granted, free of charge, to any person obtaining a copy of * this software and associated documentation files (the "Software"), to deal in * the Software without restriction, including without limitation the rights to * use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of * the Software, and to permit persons to whom the Software is furnished to do so, * subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS * FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR * COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER * IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * https://www.FreeRTOS.org * */ /** * @file ff_format.c * @ingroup FORMAT * * @defgroup FAT Fat File-System * @brief Format a drive, given the number of sectors. * **/ #include "ff_headers.h" #include #include #if defined( __BORLANDC__ ) #include "ff_windows.h" #else #include "FreeRTOS.h" #include "task.h" /* For FreeRTOS date/time function */ #endif /*=========================================================================================== */ #define OFS_PART_ACTIVE_8 0x000 /* 0x01BE 0x80 if active */ #define OFS_PART_START_HEAD_8 0x001 /* 0x01BF */ #define OFS_PART_START_SEC_TRACK_16 0x002 /* 0x01C0 */ #define OFS_PART_ID_NUMBER_8 0x004 /* 0x01C2 */ #define OFS_PART_ENDING_HEAD_8 0x005 /* 0x01C3 */ #define OFS_PART_ENDING_SEC_TRACK_16 0x006 /* 0x01C4 = SectorCount - 1 - ulHiddenSectors */ #define OFS_PART_STARTING_LBA_32 0x008 /* 0x01C6 = ulHiddenSectors (This is important) */ #define OFS_PART_LENGTH_32 0x00C /* 0x01CA = SectorCount - 1 - ulHiddenSectors */ #define OFS_PTABLE_MACH_CODE 0x000 /* 0x0000 */ #define OFS_PTABLE_PART_0 0x1BE /* 446 */ #define OFS_PTABLE_PART_1 0x1CE /* 462 */ #define OFS_PTABLE_PART_2 0x1DE /* 478 */ #define OFS_PTABLE_PART_3 0x1FE /* 494 */ #define OFS_PTABLE_PART_LEN 16 /*=========================================================================================== */ #define OFS_BPB_jmpBoot_24 0x000 /* uchar jmpBoot[3] "0xEB 0x00 0x90" */ #define OFS_BPB_OEMName_64 0x003 /* uchar BS_OEMName[8] "MSWIN4.1" */ #define OFS_BPB_BytsPerSec_16 0x00B /* Only 512, 1024, 2048 or 4096 */ #define OFS_BPB_SecPerClus_8 0x00D /* Only 1, 2, 4, 8, 16, 32, 64, 128 */ #define OFS_BPB_ResvdSecCnt_16 0x00E /* ulFATReservedSectors, e.g. 1 (FAT12/16) or 32 (FAT32) */ #define OFS_BPB_NumFATs_8 0x010 /* 2 recommended */ #define OFS_BPB_RootEntCnt_16 0x011 /* ((iFAT16RootSectors * 512) / 32) 512 (FAT12/16) or 0 (FAT32) */ #define OFS_BPB_TotSec16_16 0x013 /* xxx (FAT12/16) or 0 (FAT32) */ #define OFS_BPB_Media_8 0x015 /* 0xF0 (rem media) also in FAT[0] low byte */ #define OFS_BPB_FATSz16_16 0x016 #define OFS_BPB_SecPerTrk_16 0x018 /* n.a. CF has no tracks */ #define OFS_BPB_NumHeads_16 0x01A /* n.a. 1 ? */ #define OFS_BPB_HiddSec_32 0x01C /* n.a. 0 for nonparitioned volume */ #define OFS_BPB_TotSec32_32 0x020 /* >= 0x10000 */ #define OFS_BPB_16_DrvNum_8 0x024 /* n.a. */ #define OFS_BPB_16_Reserved1_8 0x025 /* n.a. */ #define OFS_BPB_16_BootSig_8 0x026 /* n.a. */ #define OFS_BPB_16_BS_VolID_32 0x027 /* "unique" number */ #define OFS_BPB_16_BS_VolLab_88 0x02B /* "NO NAME " */ #define OFS_BPB_16_FilSysType_64 0x036 /* "FAT12 " */ #define OFS_BPB_32_FATSz32_32 0x024 /* Only when BPB_FATSz16 = 0 */ #define OFS_BPB_32_ExtFlags_16 0x028 /* FAT32 only */ #define OFS_BPB_32_FSVer_16 0x02A /* 0:0 */ #define OFS_BPB_32_RootClus_32 0x02C /* See 'iFAT32RootClusters' Normally 2 */ #define OFS_BPB_32_FSInfo_16 0x030 /* Normally 1 */ #define OFS_BPB_32_BkBootSec_16 0x032 /* Normally 6 */ #define OFS_BPB_32_Reserved_96 0x034 /* Zeros */ #define OFS_BPB_32_DrvNum_8 0x040 /* n.a. */ #define OFS_BPB_32_Reserved1_8 0x041 /* n.a. */ #define OFS_BPB_32_BootSig_8 0x042 /* n.a. */ #define OFS_BPB_32_VolID_32 0x043 /* "unique" number */ #define OFS_BPB_32_VolLab_88 0x047 /* "NO NAME " */ #define OFS_BPB_32_FilSysType_64 0x052 /* "FAT12 " */ #define OFS_FSI_32_LeadSig 0x000 /* With contents 0x41615252 */ #define OFS_FSI_32_Reserved1 0x004 /* 480 times 0 */ #define OFS_FSI_32_StrucSig 0x1E4 /* With contents 0x61417272 */ #define OFS_FSI_32_Free_Count 0x1E8 /* last known free cluster count on the volume, ~0 for unknown */ #define OFS_FSI_32_Nxt_Free 0x1EC /* cluster number at which the driver should start looking for free clusters */ #define OFS_FSI_32_Reserved2 0x1F0 /* zero's */ #define OFS_FSI_32_TrailSig 0x1FC /* 0xAA550000 (little endian) */ #define RESV_COUNT 32 #ifdef ffconfigMIN_CLUSTERS_FAT32 #define MIN_CLUSTER_COUNT_FAT32 ffconfigMIN_CLUSTERS_FAT32 #else #define MIN_CLUSTER_COUNT_FAT32 ( 65525 ) #endif #ifdef ffconfigMIN_CLUSTERS_FAT16 #define MIN_CLUSTERS_FAT16 ffconfigMIN_CLUSTERS_FAT16 #else #define MIN_CLUSTERS_FAT16 ( 4085 + 1 ) #endif #ifndef ffconfigFAT16_ROOT_SECTORS #define ffconfigFAT16_ROOT_SECTORS 32 #endif static portINLINE uint32_t ulMin32( uint32_t a, uint32_t b ) { uint32_t ulReturn; if( a <= b ) { ulReturn = a; } else { ulReturn = b; } return ulReturn; } /*_RB_ Candidate for splitting into multiple functions? */ FF_Error_t FF_Format( FF_Disk_t *pxDisk, BaseType_t xPartitionNumber, BaseType_t xPreferFAT16, BaseType_t xSmallClusters ) { uint32_t ulHiddenSectors; /* Space from MBR and partition table */ const uint32_t ulFSInfo = 1; /* Sector number of FSINFO structure within the reserved area */ const uint32_t ulBackupBootSector = 6; /* Sector number of "copy of the boot record" within the reserved area */ const BaseType_t xFATCount = 2; /* Number of FAT's */ uint32_t ulFATReservedSectors = 0; /* Space between the partition table and FAT table. */ int32_t iFAT16RootSectors = 0; /* Number of sectors reserved for root directory (FAT16 only) */ int32_t iFAT32RootClusters = 0; /* Initial amount of clusters claimed for root directory (FAT32 only) */ uint8_t ucFATType = 0; /* Either 'FF_T_FAT16' or 'FF_T_FAT32' */ uint32_t ulVolumeID = 0; /* A pseudo Volume ID */ uint32_t ulSectorsPerFAT = 0; /* Number of sectors used by a single FAT table */ uint32_t ulClustersPerFATSector = 0; /* # of clusters which can be described within a sector (256 or 128) */ uint32_t ulSectorsPerCluster = 0; /* Size of a cluster (# of sectors) */ uint32_t ulUsableDataSectors = 0; /* Usable data sectors (= SectorCount - (ulHiddenSectors + ulFATReservedSectors)) */ uint32_t ulUsableDataClusters = 0; /* equals "ulUsableDataSectors / ulSectorsPerCluster" */ uint32_t ulNonDataSectors = 0; /* ulFATReservedSectors + ulHiddenSectors + iFAT16RootSectors */ uint32_t ulClusterBeginLBA = 0; /* Sector address of the first data cluster */ uint32_t ulSectorCount; uint8_t *pucSectorBuffer = 0; FF_SPartFound_t xPartitionsFound; FF_Part_t *pxMyPartition = 0; FF_IOManager_t *pxIOManager = pxDisk->pxIOManager; FF_PartitionSearch( pxIOManager, &xPartitionsFound ); if( xPartitionNumber >= xPartitionsFound.iCount ) { return FF_ERR_IOMAN_INVALID_PARTITION_NUM | FF_MODULE_FORMAT; } pxMyPartition = xPartitionsFound.pxPartitions + xPartitionNumber; ulSectorCount = pxMyPartition->ulSectorCount; ulHiddenSectors = pxMyPartition->ulStartLBA; if( ( ( xPreferFAT16 == pdFALSE ) && ( ( ulSectorCount - RESV_COUNT ) >= 65536 ) ) || ( ( ulSectorCount - RESV_COUNT ) >= ( 64 * MIN_CLUSTER_COUNT_FAT32 ) ) ) { ucFATType = FF_T_FAT32; iFAT32RootClusters = 2; ulFATReservedSectors = RESV_COUNT; iFAT16RootSectors = 0; } else { ucFATType = FF_T_FAT16; iFAT32RootClusters = 0; ulFATReservedSectors = 1u; iFAT16RootSectors = ffconfigFAT16_ROOT_SECTORS; /* 32 sectors to get 512 dir entries */ } /* Set start sector and length to allow FF_BlockRead/Write */ pxIOManager->xPartition.ulTotalSectors = pxMyPartition->ulSectorCount; pxIOManager->xPartition.ulBeginLBA = pxMyPartition->ulStartLBA; /* TODO: Find some solution here to get a unique disk ID */ ulVolumeID = ( rand() << 16 ) | rand(); /*_RB_ rand() has proven problematic in some environments. */ /* Sectors within partition which can not be used */ ulNonDataSectors = ulFATReservedSectors + iFAT16RootSectors; /* A fs dependent constant: */ if( ucFATType == FF_T_FAT32 ) { /* In FAT32, 4 bytes are needed to store the address (LBA) of a cluster. Each FAT sector of 512 bytes can contain 512 / 4 = 128 entries. */ ulClustersPerFATSector = 128u; } else { /* In FAT16, 2 bytes are needed to store the address (LBA) of a cluster. Each FAT sector of 512 bytes can contain 512 / 2 = 256 entries. */ ulClustersPerFATSector = 256u; } FF_PRINTF( "FF_Format: Secs %lu Rsvd %lu Hidden %lu Root %lu Data %lu\n", ulSectorCount, ulFATReservedSectors, ulHiddenSectors, iFAT16RootSectors, ulSectorCount - ulNonDataSectors ); /* Either search from small to large or v.v. */ if( xSmallClusters != 0 ) { /* The caller prefers to have small clusters. Less waste but it can be slower. */ ulSectorsPerCluster = 1u; } else { if( ucFATType == FF_T_FAT32 ) { ulSectorsPerCluster = 64u; } else { ulSectorsPerCluster = 32u; } } for( ;; ) { int32_t groupSize; /* Usable sectors */ ulUsableDataSectors = ulSectorCount - ulNonDataSectors; /* Each group consists of 'xFATCount' sectors + 'ulClustersPerFATSector' clusters */ groupSize = xFATCount + ulClustersPerFATSector * ulSectorsPerCluster; /* This amount of groups will fit: */ ulSectorsPerFAT = ( ulUsableDataSectors + groupSize - ulSectorsPerCluster - xFATCount ) / groupSize; ulUsableDataClusters = ulMin32( ( uint32_t ) ( ulUsableDataSectors - xFATCount * ulSectorsPerFAT ) / ulSectorsPerCluster, ( uint32_t ) ( ulClustersPerFATSector * ulSectorsPerFAT ) ); ulUsableDataSectors = ulUsableDataClusters * ulSectorsPerCluster; if( ( ucFATType == FF_T_FAT16 ) && ( ulUsableDataClusters >= MIN_CLUSTERS_FAT16 ) && ( ulUsableDataClusters < 65536 ) ) { break; } if( ( ucFATType == FF_T_FAT32 ) && ( ulUsableDataClusters >= 65536 ) && ( ulUsableDataClusters < 0x0FFFFFEF ) ) { break; } /* Was this the last test? */ if( ( ( xSmallClusters != pdFALSE ) && ( ulSectorsPerCluster == 32 ) ) || ( ( xSmallClusters == pdFALSE ) && ( ulSectorsPerCluster == 1) ) ) { FF_PRINTF( "FF_Format: Can not make a FAT%d (tried %d) with %lu sectors\n", ucFATType == FF_T_FAT32 ? 32 : 16, xPreferFAT16 ? 16 : 32, ulSectorCount ); return FF_ERR_IOMAN_BAD_MEMSIZE | FF_MODULE_FORMAT; } /* No it wasn't, try next clustersize */ if( xSmallClusters != pdFALSE ) { ulSectorsPerCluster <<= 1; } else { ulSectorsPerCluster >>= 1; } } if( ( ucFATType == FF_T_FAT32 ) && ( ulSectorCount >= 0x100000UL ) ) /* Larger than 0.5 GB */ { uint32_t ulRemaining; /* * Putting the FAT-table into the second 4MB erase block gives * a higher performance and a longer life-time. * See e.g. here: * http://3gfp.com/wp/2014/07/formatting-sd-cards-for-speed-and-lifetime/ */ ulFATReservedSectors = 8192 - ulHiddenSectors; ulNonDataSectors = ulFATReservedSectors + iFAT16RootSectors; ulRemaining = (ulNonDataSectors + 2 * ulSectorsPerFAT) % 128; if( ulRemaining != 0 ) { /* In order to get ClusterBeginLBA well aligned (on a 128 sector boundary) */ ulFATReservedSectors += ( 128 - ulRemaining ); ulNonDataSectors = ulFATReservedSectors + iFAT16RootSectors; } ulUsableDataSectors = ulSectorCount - ulNonDataSectors - 2 * ulSectorsPerFAT; ulUsableDataClusters = ulUsableDataSectors / ulSectorsPerCluster; } ulClusterBeginLBA = ulHiddenSectors + ulFATReservedSectors + 2 * ulSectorsPerFAT; pucSectorBuffer = ( uint8_t * ) ffconfigMALLOC( 512 ); if( pucSectorBuffer == NULL ) { return FF_ERR_NOT_ENOUGH_MEMORY | FF_MODULE_FORMAT; } /* ======================================================================================= */ memset( pucSectorBuffer, '\0', 512 ); memcpy( pucSectorBuffer + OFS_BPB_jmpBoot_24, "\xEB\x00\x90" "FreeRTOS", 11 ); /* Includes OFS_BPB_OEMName_64 */ FF_putShort( pucSectorBuffer, OFS_BPB_BytsPerSec_16, 512 ); /* 0x00B / Only 512, 1024, 2048 or 4096 */ FF_putShort( pucSectorBuffer, OFS_BPB_ResvdSecCnt_16, ( uint32_t ) ulFATReservedSectors ); /* 0x00E / 1 (FAT12/16) or 32 (FAT32) */ FF_putChar( pucSectorBuffer, OFS_BPB_NumFATs_8, 2); /* 0x010 / 2 recommended */ FF_putShort( pucSectorBuffer, OFS_BPB_RootEntCnt_16, ( uint32_t ) ( iFAT16RootSectors * 512 ) / 32 ); /* 0x011 / 512 (FAT12/16) or 0 (FAT32) */ /* For FAT12 and FAT16 volumes, this field contains the count of 32- */ /* byte directory entries in the root directory */ FF_putChar( pucSectorBuffer, OFS_BPB_Media_8, 0xF8 ); /* 0x015 / 0xF0 (rem media) also in FAT[0] low byte */ FF_putShort( pucSectorBuffer, OFS_BPB_SecPerTrk_16, 0x3F ); /* 0x18 n.a. CF has no tracks */ FF_putShort( pucSectorBuffer, OFS_BPB_NumHeads_16, 255 ); /* 0x01A / n.a. 1 ? */ FF_putLong (pucSectorBuffer, OFS_BPB_HiddSec_32, ( uint32_t ) ulHiddenSectors ); /* 0x01C / n.a. 0 for nonparitioned volume */ { int32_t fatBeginLBA; int32_t dirBegin; FF_putChar( pucSectorBuffer, OFS_BPB_SecPerClus_8, ( uint32_t ) ulSectorsPerCluster ); /* 0x00D / Only 1, 2, 4, 8, 16, 32, 64, 128 */ FF_PRINTF("FF_Format: SecCluster %lu DatSec %lu DataClus %lu ulClusterBeginLBA %lu\n", ulSectorsPerCluster, ulUsableDataSectors, ulUsableDataClusters, ulClusterBeginLBA ); /* This field is the new 32-bit total count of sectors on the volume. */ /* This count includes the count of all sectors in all four regions of the volume */ FF_putShort( pucSectorBuffer, OFS_BPB_TotSec16_16, 0 ); /* 0x013 / xxx (FAT12/16) or 0 (FAT32) */ FF_putLong (pucSectorBuffer, OFS_BPB_TotSec32_32, ulSectorCount ); /* 0x020 / >= 0x10000 */ if( ucFATType == FF_T_FAT32 ) { FF_putLong( pucSectorBuffer, OFS_BPB_32_FATSz32_32, ulSectorsPerFAT ); /* 0x24 / Only when BPB_FATSz16 = 0 */ FF_putShort( pucSectorBuffer, OFS_BPB_32_ExtFlags_16, 0 ); /* 0x28 / FAT32 only */ FF_putShort( pucSectorBuffer, OFS_BPB_32_FSVer_16, 0 ); /* 0x2A / 0:0 */ FF_putLong( pucSectorBuffer, OFS_BPB_32_RootClus_32, ( uint32_t ) iFAT32RootClusters ); /* 0x2C / Normally 2 */ FF_putShort( pucSectorBuffer, OFS_BPB_32_FSInfo_16, ulFSInfo ); /* 0x30 / Normally 1 */ FF_putShort( pucSectorBuffer, OFS_BPB_32_BkBootSec_16, ulBackupBootSector ); /* 0x32 / Normally 6 */ FF_putChar( pucSectorBuffer, OFS_BPB_32_DrvNum_8, 0 ); /* 0x40 / n.a. */ FF_putChar( pucSectorBuffer, OFS_BPB_32_BootSig_8, 0x29 ); /* 0x42 / n.a. */ FF_putLong( pucSectorBuffer, OFS_BPB_32_VolID_32, ( uint32_t ) ulVolumeID ); /* 0x43 / "unique" number */ memcpy( pucSectorBuffer + OFS_BPB_32_VolLab_88, "MY NAME ", 11 ); /* 0x47 / "NO NAME " */ memcpy( pucSectorBuffer + OFS_BPB_32_FilSysType_64, "FAT32 ", 8 ); /* 0x52 / "FAT12 " */ } else { FF_putChar( pucSectorBuffer, OFS_BPB_16_DrvNum_8, 0u ); /* 0x024 / n.a. */ FF_putChar( pucSectorBuffer, OFS_BPB_16_Reserved1_8, 0 ); /* 0x025 / n.a. */ FF_putChar( pucSectorBuffer, OFS_BPB_16_BootSig_8, 0x29 ); /* 0x026 / n.a. */ FF_putLong (pucSectorBuffer, OFS_BPB_16_BS_VolID_32, ( uint32_t ) ulVolumeID ); /* 0x027 / "unique" number */ FF_putShort( pucSectorBuffer, OFS_BPB_FATSz16_16, ulSectorsPerFAT ); /* 0x16 */ memcpy( pucSectorBuffer + OFS_BPB_16_BS_VolLab_88, "MY NAME ", 11 ); /* 0x02B / "NO NAME " */ memcpy( pucSectorBuffer + OFS_BPB_16_FilSysType_64, "FAT16 ", 8 ); /* 0x036 / "FAT12 " */ } pucSectorBuffer[510] = 0x55; pucSectorBuffer[511] = 0xAA; FF_BlockWrite( pxIOManager, ulHiddenSectors, 1, pucSectorBuffer, 0u ); if (ucFATType == FF_T_FAT32) { FF_BlockWrite( pxIOManager, ulHiddenSectors + ulBackupBootSector, 1, pucSectorBuffer, pdFALSE ); } if( ucFATType == FF_T_FAT32 ) { memset( pucSectorBuffer, '\0', 512 ); FF_putLong( pucSectorBuffer, OFS_FSI_32_LeadSig, 0x41615252 ); /* to validate that this is in fact an FSInfo sector. */ /* OFS_FSI_32_Reserved1 0x004 / 480 times 0 */ FF_putLong( pucSectorBuffer, OFS_FSI_32_StrucSig, 0x61417272 ); /* Another signature that is more localized in the */ /* sector to the location of the fields that are used. */ FF_putLong( pucSectorBuffer, OFS_FSI_32_Free_Count, ulUsableDataClusters ); /* last known free cluster count on the volume, ~0 for unknown */ FF_putLong( pucSectorBuffer, OFS_FSI_32_Nxt_Free, 2 ); /* cluster number at which the driver should start looking for free clusters */ /* OFS_FSI_32_Reserved2 0x1F0 / zero's */ FF_putLong( pucSectorBuffer, OFS_FSI_32_TrailSig, 0xAA550000 ); /* Will correct for endianness */ FF_BlockWrite( pxIOManager, ulHiddenSectors + ulFSInfo, 1, pucSectorBuffer, pdFALSE ); FF_BlockWrite( pxIOManager, ulHiddenSectors + ulFSInfo + ulBackupBootSector, 1, pucSectorBuffer, pdFALSE ); } fatBeginLBA = ulHiddenSectors + ulFATReservedSectors; memset( pucSectorBuffer, '\0', 512 ); switch( ucFATType ) { case FF_T_FAT16: FF_putShort( pucSectorBuffer, 0, 0xFFF8 ); /* First FAT entry. */ FF_putShort( pucSectorBuffer, 2, 0xFFFF ); /* RESERVED alloc. */ break; case FF_T_FAT32: FF_putLong( pucSectorBuffer, 0, 0x0FFFFFF8 ); /* FAT32 FAT sig. */ FF_putLong( pucSectorBuffer, 4, 0xFFFFFFFF ); /* RESERVED alloc. */ FF_putLong( pucSectorBuffer, 8, 0x0FFFFFFF ); /* Root dir allocation. */ break; default: break; } FF_BlockWrite( pxIOManager, ( uint32_t ) fatBeginLBA, 1, pucSectorBuffer, pdFALSE ); FF_BlockWrite( pxIOManager, ( uint32_t ) fatBeginLBA + ulSectorsPerFAT, 1, pucSectorBuffer, pdFALSE ); FF_PRINTF( "FF_Format: Clearing entire FAT (2 x %lu sectors):\n", ulSectorsPerFAT ); { int32_t addr; memset( pucSectorBuffer, '\0', 512 ); for( addr = fatBeginLBA+1; addr < ( fatBeginLBA + ( int32_t ) ulSectorsPerFAT ); addr++ ) { FF_BlockWrite( pxIOManager, ( uint32_t ) addr, 1, pucSectorBuffer, pdFALSE ); FF_BlockWrite( pxIOManager, ( uint32_t ) addr + ulSectorsPerFAT, 1, pucSectorBuffer, pdFALSE ); } } FF_PRINTF( "FF_Format: Clearing done\n" ); dirBegin = fatBeginLBA + ( 2 * ulSectorsPerFAT ); #if( ffconfigTIME_SUPPORT != 0 ) { FF_SystemTime_t str_t; int16_t myShort; FF_GetSystemTime( &str_t ); myShort = ( ( str_t.Hour << 11 ) & 0xF800 ) | ( ( str_t.Minute << 5 ) & 0x07E0 ) | ( ( str_t.Second / 2 ) & 0x001F ); FF_putShort( pucSectorBuffer, 22, ( uint32_t ) myShort ); myShort = ( ( ( str_t.Year- 1980 ) << 9 ) & 0xFE00 ) | ( ( str_t.Month << 5 ) & 0x01E0 ) | ( str_t.Day & 0x001F ); FF_putShort( pucSectorBuffer, 24, ( uint32_t ) myShort); } #endif /* ffconfigTIME_SUPPORT */ memcpy (pucSectorBuffer, "MY_DISK ", 11); pucSectorBuffer[11] = FF_FAT_ATTR_VOLID; { int32_t lAddress; int32_t lLastAddress; if( iFAT16RootSectors != 0 ) { lLastAddress = dirBegin + iFAT16RootSectors; } else { lLastAddress = dirBegin + ulSectorsPerCluster; } FF_PRINTF("FF_Format: Clearing root directory at %08lX: %lu sectors\n", dirBegin, lLastAddress - dirBegin ); for( lAddress = dirBegin; lAddress < lLastAddress; lAddress++ ) { FF_BlockWrite( pxIOManager, ( uint32_t ) lAddress, 1, pucSectorBuffer, 0u ); if( lAddress == dirBegin ) { memset( pucSectorBuffer, '\0', 512 ); } } } } ffconfigFREE( pucSectorBuffer ); return FF_ERR_NONE; } FF_Error_t FF_Partition( FF_Disk_t *pxDisk, FF_PartitionParameters_t *pParams ) { const uint32_t ulInterSpace = pParams->ulInterSpace ? pParams->ulInterSpace : 2048; /* Hidden space between 2 extended partitions */ BaseType_t xPartitionNumber; FF_Part_t pxPartitions[ ffconfigMAX_PARTITIONS ]; uint32_t ulPartitionOffset; /* Pointer within partition table */ FF_Buffer_t *pxSectorBuffer; uint8_t *pucBuffer; uint32_t ulSummedSizes = 0; /* Summed sizes as a percentage or as number of sectors. */ BaseType_t xPartitionCount = 0; BaseType_t xNeedExtended; uint32_t ulReservedSpace; uint32_t ulAvailable; FF_IOManager_t *pxIOManager = pxDisk->pxIOManager; /* Clear caching without flushing first. */ FF_IOMAN_InitBufferDescriptors( pxIOManager ); /* Avoid sanity checks by FF_BlockRead/Write. */ pxIOManager->xPartition.ulTotalSectors = 0; /* Get the sum of sizes and number of actual partitions. */ for( xPartitionNumber = 0; xPartitionNumber < ffconfigMAX_PARTITIONS; xPartitionNumber++ ) { if( pParams->xSizes[ xPartitionNumber ] > 0 ) { xPartitionCount++; ulSummedSizes += pParams->xSizes[ xPartitionNumber ]; } } if( xPartitionCount == 0 ) { xPartitionCount = 1; if( pParams->eSizeType == eSizeIsSectors) { pParams->xSizes[ 0 ] = pParams->ulSectorCount; } else { pParams->xSizes[ 0 ] = 100; } ulSummedSizes = pParams->xSizes[ 0 ]; } /* Correct PrimaryCount if necessary. */ if( pParams->xPrimaryCount > ( ( xPartitionCount > 4 ) ? 3 : xPartitionCount ) ) { pParams->xPrimaryCount = ( xPartitionCount > 4 ) ? 3 : xPartitionCount; } /* Now see if extended is necessary. */ xNeedExtended = ( xPartitionCount > pParams->xPrimaryCount ); if( xNeedExtended != pdFALSE ) { if( pParams->ulHiddenSectors < 4096 ) { pParams->ulHiddenSectors = 4096; } ulReservedSpace = ulInterSpace * ( xPartitionCount - pParams->xPrimaryCount ); } else { /* There must be at least 1 hidden sector. */ if( pParams->ulHiddenSectors < 1 ) { pParams->ulHiddenSectors = 1; } ulReservedSpace = 0; } ulAvailable = pParams->ulSectorCount - pParams->ulHiddenSectors - ulReservedSpace; /* Check validity of Sizes */ switch( pParams->eSizeType ) { case eSizeIsQuota: /* Assign a quotum (sum of Sizes is free, all disk space will be allocated) */ break; case eSizeIsPercent: /* Assign a percentage of the available space (sum of Sizes must be <= 100) */ if( ulSummedSizes > 100 ) { return FF_FORMATPARTITION | FF_ERR_IOMAN_BAD_MEMSIZE; } ulSummedSizes = 100; break; case eSizeIsSectors: /* Assign fixed number of sectors (512 byte each) */ if( ulSummedSizes > ulAvailable ) { return FF_FORMATPARTITION | FF_ERR_IOMAN_BAD_MEMSIZE; } break; } { uint32_t ulRemaining = ulAvailable; uint32_t ulLBA = pParams->ulHiddenSectors; /* Divide the available sectors among the partitions: */ memset( pxPartitions, '\0', sizeof( pxPartitions ) ); for( xPartitionNumber = 0; xPartitionNumber < xPartitionCount; xPartitionNumber++ ) { if( pParams->xSizes[ xPartitionNumber ] > 0 ) { uint32_t ulSize; switch( pParams->eSizeType ) { case eSizeIsQuota: /* Assign a quotum (sum of Sizes is free, all disk space will be allocated) */ case eSizeIsPercent: /* Assign a percentage of the available space (sum of Sizes must be <= 100) */ ulSize = ( uint32_t ) ( ( ( uint64_t ) pParams->xSizes[ xPartitionNumber ] * ulAvailable) / ulSummedSizes ); break; case eSizeIsSectors: /* Assign fixed number of sectors (512 byte each) */ default: /* Just for the compiler(s) */ ulSize = pParams->xSizes[ xPartitionNumber ]; break; } if( ulSize > ulRemaining ) { ulSize = ulRemaining; } ulRemaining -= ulSize; pxPartitions[ xPartitionNumber ].ulSectorCount = ulSize; pxPartitions[ xPartitionNumber ].ucActive = 0x80; pxPartitions[ xPartitionNumber ].ulStartLBA = ulLBA; /* ulStartLBA might still change for logical partitions */ pxPartitions[ xPartitionNumber ].ucPartitionID = 0x0B; ulLBA += ulSize; } } } if( xNeedExtended != pdFALSE ) { /* Create at least 1 extended/logical partition */ int index; /* Start of the big extended partition */ unsigned extendedLBA = pParams->ulHiddenSectors; /* Where to write the table */ uint32_t ulLBA = 0; /* Contents of the table */ FF_Part_t writeParts[4]; for( index = -1; index < xPartitionCount; index++ ) { uint32_t ulNextLBA; memset (writeParts, '\0', sizeof( writeParts ) ); if( index < 0 ) { /* we're at secor 0: */ /* write primary partitions, if any */ /* create big extended partition */ uint32_t ulStartLBA = pParams->ulHiddenSectors; for( xPartitionNumber = 0; xPartitionNumber < pParams->xPrimaryCount; xPartitionNumber++ ) { writeParts[ xPartitionNumber ].ulStartLBA = ulStartLBA; writeParts[ xPartitionNumber ].ulSectorCount = pxPartitions[ xPartitionNumber ].ulSectorCount; writeParts[ xPartitionNumber ].ucActive = 0x80; writeParts[ xPartitionNumber ].ucPartitionID = 0x0B; ulStartLBA += writeParts[ xPartitionNumber ].ulSectorCount; index++; } extendedLBA = ulStartLBA; writeParts[ xPartitionNumber ].ulStartLBA = ulStartLBA; writeParts[ xPartitionNumber ].ulSectorCount = pParams->ulSectorCount - ulStartLBA; writeParts[ xPartitionNumber ].ucActive = 0x80; writeParts[ xPartitionNumber ].ucPartitionID = 0x05; ulNextLBA = ulStartLBA; } else { /* Create a logical partition with "ulSectorCount" sectors: */ writeParts[ 0 ].ulStartLBA = ulInterSpace; writeParts[ 0 ].ulSectorCount = pxPartitions[index].ulSectorCount; writeParts[ 0 ].ucActive = 0x80; writeParts[ 0 ].ucPartitionID = 0x0B; if( index < xPartitionCount - 1 ) { /* Next extended partition */ writeParts[ 1 ].ulStartLBA = ulInterSpace + ulLBA - extendedLBA + writeParts[ 0 ].ulSectorCount; writeParts[ 1 ].ulSectorCount = pxPartitions[index+1].ulSectorCount + ulInterSpace; writeParts[ 1 ].ucActive = 0x80; writeParts[ 1 ].ucPartitionID = 0x05; } ulNextLBA = writeParts[ 1 ].ulStartLBA + extendedLBA; } pxSectorBuffer = FF_GetBuffer(pxIOManager, ( uint32_t ) ulLBA, ( uint8_t ) FF_MODE_WRITE ); { if( pxSectorBuffer == NULL ) { return FF_ERR_DEVICE_DRIVER_FAILED; } } pucBuffer = pxSectorBuffer->pucBuffer; memset ( pucBuffer, 0, 512 ); memcpy ( pucBuffer + OFS_BPB_jmpBoot_24, "\xEB\x00\x90" "FreeRTOS", 11 ); /* Includes OFS_BPB_OEMName_64 */ ulPartitionOffset = OFS_PTABLE_PART_0; for( xPartitionNumber = 0; xPartitionNumber < ffconfigMAX_PARTITIONS; xPartitionNumber++, ulPartitionOffset += 16 ) { FF_putChar( pucBuffer, ulPartitionOffset + OFS_PART_ACTIVE_8, writeParts[ xPartitionNumber ].ucActive ); /* 0x01BE 0x80 if active */ FF_putChar( pucBuffer, ulPartitionOffset + OFS_PART_START_HEAD_8, 1 ); /* 0x001 / 0x01BF */ FF_putShort(pucBuffer, ulPartitionOffset + OFS_PART_START_SEC_TRACK_16, 1 ); /* 0x002 / 0x01C0 */ FF_putChar( pucBuffer, ulPartitionOffset + OFS_PART_ID_NUMBER_8, writeParts[ xPartitionNumber ].ucPartitionID );/* 0x004 / 0x01C2 */ FF_putChar( pucBuffer, ulPartitionOffset + OFS_PART_ENDING_HEAD_8, 0xFE ); /* 0x005 / 0x01C3 */ FF_putShort(pucBuffer, ulPartitionOffset + OFS_PART_ENDING_SEC_TRACK_16, writeParts[ xPartitionNumber ].ulSectorCount );/* 0x006 / 0x01C4 */ FF_putLong (pucBuffer, ulPartitionOffset + OFS_PART_STARTING_LBA_32, writeParts[ xPartitionNumber ].ulStartLBA ); /* 0x008 / 0x01C6 This is important */ FF_putLong (pucBuffer, ulPartitionOffset + OFS_PART_LENGTH_32, writeParts[ xPartitionNumber ].ulSectorCount );/* 0x00C / 0x01CA Equal to total sectors */ } pucBuffer[510] = 0x55; pucBuffer[511] = 0xAA; FF_ReleaseBuffer(pxIOManager, pxSectorBuffer ); FF_FlushCache( pxIOManager ); ulLBA = ulNextLBA; } } else { pxSectorBuffer = FF_GetBuffer( pxIOManager, 0, ( uint8_t ) FF_MODE_WRITE ); { if( pxSectorBuffer == NULL ) { return FF_ERR_DEVICE_DRIVER_FAILED; } } pucBuffer = pxSectorBuffer->pucBuffer; memset (pucBuffer, 0, 512 ); memcpy (pucBuffer + OFS_BPB_jmpBoot_24, "\xEB\x00\x90" "FreeRTOS", 11 ); /* Includes OFS_BPB_OEMName_64 */ ulPartitionOffset = OFS_PTABLE_PART_0; for( xPartitionNumber = 0; xPartitionNumber < ffconfigMAX_PARTITIONS; xPartitionNumber++ ) { FF_putChar( pucBuffer, ulPartitionOffset + OFS_PART_ACTIVE_8, pxPartitions[ xPartitionNumber ].ucActive ); /* 0x01BE 0x80 if active */ FF_putChar( pucBuffer, ulPartitionOffset + OFS_PART_START_HEAD_8, 1 ); /* 0x001 / 0x01BF */ FF_putShort( pucBuffer, ulPartitionOffset + OFS_PART_START_SEC_TRACK_16, 1 ); /* 0x002 / 0x01C0 */ FF_putChar( pucBuffer, ulPartitionOffset + OFS_PART_ID_NUMBER_8, pxPartitions[ xPartitionNumber ].ucPartitionID ); /* 0x004 / 0x01C2 */ FF_putChar( pucBuffer, ulPartitionOffset + OFS_PART_ENDING_HEAD_8, 0xFE ); /* 0x005 / 0x01C3 */ FF_putShort( pucBuffer, ulPartitionOffset + OFS_PART_ENDING_SEC_TRACK_16, pxPartitions[ xPartitionNumber ].ulSectorCount ); /* 0x006 / 0x01C4 */ FF_putLong( pucBuffer, ulPartitionOffset + OFS_PART_STARTING_LBA_32, pxPartitions[ xPartitionNumber ].ulStartLBA ); /* 0x008 / 0x01C6 This is important */ FF_putLong( pucBuffer, ulPartitionOffset + OFS_PART_LENGTH_32, pxPartitions[ xPartitionNumber ].ulSectorCount ); /* 0x00C / 0x01CA Equal to total sectors */ ulPartitionOffset += 16; } pucBuffer[ 510 ] = 0x55; pucBuffer[ 511 ] = 0xAA; FF_ReleaseBuffer( pxIOManager, pxSectorBuffer ); FF_FlushCache( pxIOManager ); } return FF_ERR_NONE; }