using ram for first 16 sectors of uf2 disk
This commit is contained in:
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5dec2e2aab
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84cbaf81a9
@ -46,11 +46,14 @@
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#include "uf2/uf2.h"
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#define SECTORS_PER_FAT 7
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#define ROOT_DIR_SECTOR 8
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#define SECTOR_DATA (1+SECTORS_PER_FAT+ROOT_DIR_SECTOR)
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/*------------------------------------------------------------------*/
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/* MACRO TYPEDEF CONSTANT ENUM
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*------------------------------------------------------------------*/
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#define BOOTSECT_SIGNATURE 0xAA55
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enum
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{
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WRITE10_IDLE,
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@ -63,9 +66,92 @@ enum
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enum { FL_PAGE_SIZE = 4096 };
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typedef struct ATTR_PACKED {
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uint8_t jump_code[3] ; ///< Assembly instruction to jump to boot code.
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uint8_t oem_name[8] ; ///< OEM Name in ASCII.
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// Bios Parameter Block
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uint16_t sector_sz ; ///< Bytes per sector. Allowed values include 512, 1024, 2048, and 4096.
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uint8_t sector_per_cluster ; ///< Sectors per cluster (data unit). Allowed values are powers of 2, but the cluster size must be 32KB or smaller.
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uint16_t reserved_sectors ; ///< Size in sectors of the reserved area.
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uint8_t fat_copies ; ///< Number of FATs. Typically two for redundancy, but according to Microsoft it can be one for some small storage devices.
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uint16_t root_entry_count ; ///< Maximum number of files in the root directory for FAT12 and FAT16. This is 0 for FAT32 and typically 512 for FAT16.
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uint16_t sector_count ; ///< 16-bit number of sectors in file system. If the number of sectors is larger than can be represented in this 2-byte value, a 4-byte value exists later in the data structure and this should be 0.
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uint8_t media_type ; ///< 0xf8 should be used for fixed disks and 0xf0 for removable.
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uint16_t sector_per_fat ; ///< 16-bit size in sectors of each FAT for FAT12 and FAT16. For FAT32, this field is 0.
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uint16_t sector_per_track ; ///< Sectors per track of storage device.
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uint16_t head_num ; ///< Number of heads in storage device.
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uint32_t not_used1 ; ///< Number of sectors before the start of partition.
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uint32_t not_used2 ; ///< 32-bit value of number of sectors in file system. Either this value or the 16-bit value above must be 0.
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// Extended BPB
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uint8_t drive_number ; ///< Physical drive number (0x00 for (first) removable media, 0x80 for (first) fixed disk
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uint8_t not_used3 ; ///< Some OS uses this as drive letter (e.g 0 = C:, 1 = D: etc ...), should be 0 when formatted
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uint8_t ext_boot_signature ; ///< should be 0x29
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uint32_t volume_id ; ///< Volume serial number, which some versions of Windows will calculate based on the creation date and time.
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uint8_t volume_label[11] ;
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uint8_t fs_type[8] ; ///< File system type label in ASCII, padded with blank (0x20). Standard values include "FAT," "FAT12," and "FAT16," but nothing is required.
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// uint8_t not_used4[448] ;
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// uint16_t signature ; ///< Signature value (0xAA55).
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}fat12_boot_sector_t;
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VERIFY_STATIC(sizeof(fat12_boot_sector_t) == 62, "size is not correct");
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typedef struct ATTR_PACKED {
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uint8_t name[11];
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ATTR_PACKED_STRUCT(struct){
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uint8_t readonly : 1;
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uint8_t hidden : 1;
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uint8_t system : 1;
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uint8_t volume_label : 1;
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uint8_t directory : 1;
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uint8_t archive : 1;
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} attr; // Long File Name = 0x0f
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uint8_t reserved;
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uint8_t created_time_tenths_of_seconds;
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uint16_t created_time;
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uint16_t created_date;
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uint16_t accessed_date;
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uint16_t cluster_high;
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uint16_t written_time;
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uint16_t written_date;
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uint16_t cluster_low;
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uint32_t file_size;
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}fat_dirent_t;
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VERIFY_STATIC(sizeof(fat_dirent_t) == 32, "size is not correct");
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typedef struct ATTR_PACKED {
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uint16_t dir0 : 12;
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uint16_t dir1 : 12;
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}fat12_dirpair_t;
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VERIFY_STATIC(sizeof(fat12_dirpair_t) == 3, "size is not correct");
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/*------------------------------------------------------------------*/
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/* VARIABLES
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*------------------------------------------------------------------*/
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struct
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{
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// Boot sector
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fat12_boot_sector_t boot;
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uint8_t not_used4[448] ;
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uint16_t signature ; ///< Signature value (0xAA55).
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// Fat
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uint8_t fat[SECTORS_PER_FAT*MSC_FLASH_BLOCK_SIZE];
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// Root Dir
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struct {
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fat_dirent_t dirent[(ROOT_DIR_SECTOR*MSC_FLASH_BLOCK_SIZE)/32];
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}root;
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} _disk_ram ATTR_ALIGNED(4);
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VERIFY_STATIC(sizeof(_disk_ram) == 16*MSC_FLASH_BLOCK_SIZE, "size is not correct");
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static uint8_t _page_cached[FL_PAGE_SIZE] ATTR_ALIGNED(4);
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volatile static uint8_t _wr10_state;
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@ -118,7 +204,6 @@ static inline uint32_t lba2addr(uint32_t lba)
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return MSC_FLASH_ADDR_START + lba*MSC_FLASH_BLOCK_SIZE;
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}
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static inline bool fat12_formatted(void);
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static void fat12_mkfs(void);
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@ -151,12 +236,8 @@ void msc_flash_init(void)
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pstorage_module_param_t fat_psp = { .cb = fat_pstorage_cb};
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pstorage_register(&fat_psp, &_fat_psh);
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if ( !fat12_formatted() )
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{
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// SoftDevice must not be enabled yet since we will use raw flash API
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fat12_mkfs();
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}
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}
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void msc_flash_mount(void)
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{
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@ -267,8 +348,14 @@ int32_t tud_msc_read10_cb (uint8_t rhport, uint8_t lun, uint32_t lba, uint32_t o
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{
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(void) rhport; (void) lun;
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uint32_t addr = lba2addr(lba) + offset;
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memcpy(buffer, (uint8_t*) addr, bufsize);
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if ( lba < SECTOR_DATA )
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{
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memcpy(buffer, ((uint8_t*) &_disk_ram) + lba*MSC_FLASH_BLOCK_SIZE, bufsize);
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}else
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{
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// uint32_t addr = lba2addr(lba) + offset;
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// memcpy(buffer, (uint8_t*) addr, bufsize);
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}
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return bufsize;
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}
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@ -279,6 +366,11 @@ int32_t tud_msc_write10_cb (uint8_t rhport, uint8_t lun, uint32_t lba, uint32_t
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uint32_t addr = lba2addr(lba) + offset;
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if ( lba < SECTOR_DATA )
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{
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memcpy(((uint8_t*) &_disk_ram) + lba*MSC_FLASH_BLOCK_SIZE, buffer, bufsize);
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}
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/* 0. Check if flash is the same as data -> skip if matches
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* 1. queue flash erase pstorage_clear(), return 0 until erasing is done
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* 2. queue flash writing, return 0 until writing is complete
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@ -359,65 +451,6 @@ int32_t tud_msc_write10_cb (uint8_t rhport, uint8_t lun, uint32_t lba, uint32_t
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//--------------------------------------------------------------------+
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// FAT12
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//--------------------------------------------------------------------+
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typedef struct ATTR_PACKED {
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uint8_t jump_code[3] ; ///< Assembly instruction to jump to boot code.
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uint8_t oem_name[8] ; ///< OEM Name in ASCII.
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// Bios Parameter Block
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uint16_t sector_sz ; ///< Bytes per sector. Allowed values include 512, 1024, 2048, and 4096.
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uint8_t sector_per_cluster ; ///< Sectors per cluster (data unit). Allowed values are powers of 2, but the cluster size must be 32KB or smaller.
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uint16_t reserved_sectors ; ///< Size in sectors of the reserved area.
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uint8_t fat_copies ; ///< Number of FATs. Typically two for redundancy, but according to Microsoft it can be one for some small storage devices.
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uint16_t root_entry_count ; ///< Maximum number of files in the root directory for FAT12 and FAT16. This is 0 for FAT32 and typically 512 for FAT16.
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uint16_t sector_count ; ///< 16-bit number of sectors in file system. If the number of sectors is larger than can be represented in this 2-byte value, a 4-byte value exists later in the data structure and this should be 0.
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uint8_t media_type ; ///< 0xf8 should be used for fixed disks and 0xf0 for removable.
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uint16_t sector_per_fat ; ///< 16-bit size in sectors of each FAT for FAT12 and FAT16. For FAT32, this field is 0.
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uint16_t sector_per_track ; ///< Sectors per track of storage device.
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uint16_t head_num ; ///< Number of heads in storage device.
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uint32_t not_used1 ; ///< Number of sectors before the start of partition.
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uint32_t not_used2 ; ///< 32-bit value of number of sectors in file system. Either this value or the 16-bit value above must be 0.
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// Extended BPB
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uint8_t drive_number ; ///< Physical drive number (0x00 for (first) removable media, 0x80 for (first) fixed disk
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uint8_t not_used3 ; ///< Some OS uses this as drive letter (e.g 0 = C:, 1 = D: etc ...), should be 0 when formatted
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uint8_t ext_boot_signature ; ///< should be 0x29
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uint32_t volume_id ; ///< Volume serial number, which some versions of Windows will calculate based on the creation date and time.
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uint8_t volume_label[11] ;
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uint8_t fs_type[8] ; ///< File system type label in ASCII, padded with blank (0x20). Standard values include "FAT," "FAT12," and "FAT16," but nothing is required.
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// uint8_t not_used4[448] ;
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// uint16_t signature ; ///< Signature value (0xAA55).
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}fat12_boot_sector_t;
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VERIFY_STATIC(sizeof(fat12_boot_sector_t) == 62, "size is not correct");
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typedef ATTR_PACKED_STRUCT(struct) {
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uint8_t name[11];
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ATTR_PACKED_STRUCT(struct){
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uint8_t readonly : 1;
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uint8_t hidden : 1;
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uint8_t system : 1;
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uint8_t volume_label : 1;
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uint8_t directory : 1;
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uint8_t archive : 1;
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} attr; // Long File Name = 0x0f
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uint8_t reserved;
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uint8_t created_time_tenths_of_seconds;
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uint16_t created_time;
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uint16_t created_date;
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uint16_t accessed_date;
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uint16_t cluster_high;
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uint16_t written_time;
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uint16_t written_date;
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uint16_t cluster_low;
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uint32_t file_size;
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}fat_dirent_t;
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VERIFY_STATIC(sizeof(fat_dirent_t) == 32, "size is not correct");
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fat12_boot_sector_t const _boot_sect =
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{
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.jump_code = { 0xEB, 0xFE, 0x90 },
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@ -428,10 +461,10 @@ fat12_boot_sector_t const _boot_sect =
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.reserved_sectors = 1,
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.fat_copies = 1,
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.root_entry_count = 16*8,
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.root_entry_count = (ROOT_DIR_SECTOR*MSC_FLASH_BLOCK_SIZE)/32,
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.sector_count = MSC_FLASH_BLOCK_NUM,
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.media_type = 0xf8, // fixed disk
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.sector_per_fat = 7,
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.sector_per_fat = SECTORS_PER_FAT,
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.sector_per_track = 1,
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.head_num = 1,
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.not_used1 = 0,
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@ -466,22 +499,6 @@ fat12_boot_sector_t const _boot_sect =
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* |_____________|
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*/
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static inline bool fat12_formatted(void)
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{
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return false;
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// const uint8_t* boot_sect = (uint8_t* ) lba2addr(0);
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//return (boot_sect[510] == 0x55) && (boot_sect[511] == 0xAA);
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}
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static void fat12_write_sector(uint32_t sect, uint8_t const* buf, uint32_t bufsize)
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{
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uint32_t addr = lba2addr(sect);
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nrf_nvmc_page_erase( addr );
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nrf_nvmc_write_words(addr, (uint32_t const*) buf, bufsize/4);
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}
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const char infoUf2File[] = //
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"UF2 Bootloader " UF2_VERSION "\r\n"
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"Model: " PRODUCT_NAME "\r\n"
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@ -512,37 +529,42 @@ static const struct TextFile info[] = {
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static void fat12_mkfs(void)
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{
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memclr_(_page_cached, sizeof(_page_cached));
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varclr_(&_disk_ram);
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/*------------- Sector 0: Boot Sector -------------*/
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memcpy(_page_cached, &_boot_sect, sizeof(_boot_sect));
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_page_cached[510] = 0x55;
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_page_cached[511] = 0xAA;
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_disk_ram.boot = _boot_sect;
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_disk_ram.signature = 0xAA55;
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//------------- Sector 1: FAT12 Table -------------//
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// first 2 entries are FF8 and FF8,
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// 3rd entry is cluster end of readme file FFF, 4th is unused 000
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memcpy(_page_cached+MSC_FLASH_BLOCK_SIZE, "\xF8\x8F\xFF\xFF\x0F\x00", 6);
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// Dir entry 0 & 1 are always FF8 and FF8
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fat12_dirpair_t* dirpair;
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// Erase and Write first cluster.
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fat12_write_sector(0, _page_cached, FL_PAGE_SIZE);
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dirpair = (fat12_dirpair_t*) _disk_ram.fat;
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dirpair->dir0 = dirpair->dir1 = 0xFF8;
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//------------- Root Directory cluster -------------//
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memclr_(_page_cached, sizeof(_page_cached));
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fat_dirent_t* p_entry = (fat_dirent_t*) _page_cached;
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// Dir entry 2 & 3 are FFF (end) of info and index since their size are less than 512
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dirpair = (fat12_dirpair_t*) (_disk_ram.fat+3);
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dirpair->dir0 = dirpair->dir1 = 0xFFF;
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// Dir entry chain for uf2 file
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dirpair = (fat12_dirpair_t*) (_disk_ram.fat+6);
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dirpair->dir0 = 0xFFF;
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dirpair->dir1 = 0x000;
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//------------- Root Directory -------------//
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// first entry is volume label
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(*p_entry) = (fat_dirent_t)
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_disk_ram.root.dirent[0] = (fat_dirent_t)
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{
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.name = MSC_FLASH_VOL_LABEL,
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.attr.volume_label = 1,
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};
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p_entry++; // next entry
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uint16_t data_cluster = 2; // logical data cluster always start from 2
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for(int i=0; i<arrcount_(info); i++)
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{
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(*p_entry) = (fat_dirent_t)
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fat_dirent_t* p_dir = _disk_ram.root.dirent+1+i;
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(*p_dir) = (fat_dirent_t)
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{
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.name = { 0 },
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@ -563,25 +585,21 @@ static void fat12_mkfs(void)
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.file_size = strlen(info[i].content)
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};
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memcpy(p_entry->name, info[i].name, 11);
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memcpy(p_dir->name, info[i].name, 11);
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data_cluster++;
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p_entry++;
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}
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// Erase and Write cluster.
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fat12_write_sector(8, _page_cached, FL_PAGE_SIZE);
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//------------- Data Contents -------------//
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memclr_(_page_cached, sizeof(_page_cached));
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for(int i=0; i<arrcount_(info); i++)
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{
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memcpy(_page_cached + i*512, info[i].content, strlen(info[i].content));
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}
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// Erase and Write data cluster.
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fat12_write_sector(16, _page_cached, FL_PAGE_SIZE);
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// memclr_(_page_cached, sizeof(_page_cached));
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//
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// for(int i=0; i<arrcount_(info); i++)
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// {
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// memcpy(_page_cached + i*512, info[i].content, strlen(info[i].content));
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// }
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//
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// // Erase and Write data cluster.
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// fat12_write_sector(16, _page_cached, FL_PAGE_SIZE);
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}
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#endif
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#define MSC_FLASH_BLOCK_SIZE 512
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#define MSC_FLASH_BLOCK_NUM (MSC_FLASH_SIZE/MSC_FLASH_BLOCK_SIZE)
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VERIFY_STATIC( MSC_FLASH_ADDR_START+MSC_FLASH_SIZE == BOOTLOADER_REGION_START-DFU_APP_DATA_RESERVED, );
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// must be 11 bytes padded with space
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