kolibrios/kernel/trunk/drivers/tmpdisk_fat.inc
CleverMouse 790f4651cc fix FAT16 formatting in tmpdisk
git-svn-id: svn://kolibrios.org@3285 a494cfbc-eb01-0410-851d-a64ba20cac60
2013-02-27 10:56:28 +00:00

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; FAT-specific code for tmpdisk.asm.
; Formats a disk to FAT16 or FAT32, depending on size.
; Note: formatting is adjusted for memory-based disks. Although the resulting
; image is a valid FAT32 volume, it has no "spare" sectors, e.g. second copy
; of FAT or place for second sector of MS FAT32 bootloader.
; Some constants
FAT16_ROOTDIR_SECTORS = 16 ; can be changed, but why not?
; FAT16:
; 1 bootsector,
; min 0xFF5 sectors for data,
; min (0xFF5*2/512) = 16 sectors per FAT, we use only one copy,
; FAT16_ROOTDIR_SECTORS for root directory
MIN_FAT16_SIZE = 1 + 16 + FAT16_ROOTDIR_SECTORS + 0xFF5
; FAT32:
; 1 bootsector,
; 1 sector for fsinfo,
; min 0xFFF5 sectors for data,
; min (0xFFF5*4/512) = 512 sectors per FAT, we use only one copy
MIN_FAT32_SIZE = 1 + 1 + 512 + 0xFFF5
MAX_SIZE = 1 shl (30 - 9) ; 1G in 512-byte sectors
; Initializes FATxx structures on the disk.
; Called with edi = pointer to disk data, esi = size of disk.
proc format_disk
; Determine FAT type and jump to the corresponding handler.
cmp esi, MIN_FAT32_SIZE
jae format_disk_fat32
; Fall through to format_disk_fat16.
endp
; Structure of FAT16 bootsector. Field names are from MS spec.
struc FAT16BOOT
{
.BS_jmpBoot rb 3
.BS_OEMName rb 8
.BPB_BytsPerSec dw ?
.BPB_SecsPerClus db ?
.BPB_RsvdSecCnt dw ?
.BPB_NumFATs db ?
.BPB_RootEntCnt dw ?
.BPB_TotSec16 dw ?
.BPB_Media db ?
.BPB_FATSz16 dw ?
.BPB_SecPerTrk dw ?
.BPB_NumHeads dw ?
.BPB_HiddSec dd ?
.BPB_TotSec32 dd ?
.BS_DrvNum db ?
.BS_Reserved1 db ?
.BS_BootSig db ?
.BS_VolID dd ?
.BS_VolLab rb 11
.BS_FilSysType rb 8
}
virtual at 0
FAT16BOOT FAT16BOOT
end virtual
; Initializes FAT16 structures on the disk.
; Called with edi = pointer to disk data, esi = size of disk.
format_disk_fat16:
; 1. Calculate number of clusters.
; 1a. There are fixed-sized areas and there are data+FAT;
; every cluster uses 512 bytes in data area and 2 bytes in FAT area.
lea eax, [esi-1-FAT16_ROOTDIR_SECTORS]
; two following lines are equivalent to edx = floor(eax*512/514)
mov ecx, 0xFF00FF01
mul ecx ; edx = number of clusters
; 1b. Force the number be less than 0xfff5.
mov eax, 0xFFF4
cmp edx, eax
jb @f
mov edx, eax
@@:
; 2. Zero all system areas on the disk.
lea ecx, [256*(1+FAT16_ROOTDIR_SECTORS)+edx+255]
and ecx, not 255
shr ecx, 1
xor eax, eax
push edi
rep stosd
pop edi
; 3. Generate the bootsector.
; 3a. Copy static stub.
push esi edi
mov esi, fat16bootsector_stub
mov ecx, fat16bootsector_stub_size
rep movsb
pop edi esi
mov word [edi+510], 0xAA55
; 3b. Set fields which depend on size.
cmp esi, 0x10000
jae .size_is_32bit
mov [edi+FAT16BOOT.BPB_TotSec16], si
jmp .size_written
.size_is_32bit:
mov [edi+FAT16BOOT.BPB_TotSec32], esi
.size_written:
lea eax, [edx+255]
shr eax, 8
mov [edi+FAT16BOOT.BPB_FATSz16], ax
; 3c. Generate volume ID.
call generate_volume_id
mov [edi+FAT16BOOT.BS_VolID], eax
; 4. Initialize FAT.
mov dword [edi+512], 0xFFFFFFF8
; 5. Return.
ret
; Structure of FAT32 bootsector. Field names are from MS spec.
struc FAT32BOOT
{
.BS_jmpBoot rb 3
.BS_OEMName rb 8
.BPB_BytsPerSec dw ?
.BPB_SecsPerClus db ?
.BPB_RsvdSecCnt dw ?
.BPB_NumFATs db ?
.BPB_RootEntCnt dw ?
.BPB_TotSec16 dw ?
.BPB_Media db ?
.BPB_FATSz16 dw ?
.BPB_SecPerTrk dw ?
.BPB_NumHeads dw ?
.BPB_HiddSec dd ?
.BPB_TotSec32 dd ?
.BPB_FATSz32 dd ?
.BPB_ExtFlags dw ?
.BPB_FSVer dw ?
.BPB_RootClus dd ?
.BPB_FSInfo dw ?
.BPB_BkBootSec dw ?
.BPB_Reserved rb 12
.BS_DrvNum db ?
.BS_Reserved1 db ?
.BS_BootSig db ?
.BS_VolID dd ?
.BS_VolLab rb 11
.BS_FilSysType rb 8
}
virtual at 0
FAT32BOOT FAT32BOOT
end virtual
; Initializes FAT32 structures on the disk.
; Called with edi = pointer to disk data, esi = size of disk.
format_disk_fat32:
; 1. Calculate number of clusters.
; 1a. There is fixed-sized area and there are data+FAT;
; every cluster uses 512 bytes in data area and 4 bytes in FAT area.
lea eax, [esi-1-1]
; two following lines are equivalent to edx=floor(eax*512/516) if eax<10000000h
mov ecx, 0xFE03F810
mul ecx ; edx = number of clusters
; 2. Zero all system areas on the disk and first cluster of data,
; used for root directory.
lea ecx, [128*(1+1+1)+edx+127]
and ecx, not 127
xor eax, eax
push edi
rep stosd
pop edi
; 3. Generate the bootsector.
; 3a. Copy static stub.
push esi edi
mov esi, fat32bootsector_stub
mov ecx, fat32bootsector_stub_size
rep movsb
pop edi esi
mov word [edi+510], 0xAA55
; 3b. Set fields which depend on size.
mov [edi+FAT32BOOT.BPB_TotSec32], esi
lea eax, [edx+127]
shr eax, 7
mov [edi+FAT32BOOT.BPB_FATSz32], eax
; 3c. Generate volume ID.
call generate_volume_id
mov [edi+FAT32BOOT.BS_VolID], eax
; 4. Initialize fsinfo sector.
mov dword [edi+512], 'RRaA'
mov dword [edi+512+484], 'rrAa'
dec edx ; one cluster is occupied by root dir
mov dword [edi+512+488], edx ; free count
mov byte [edi+512+492], 3 ; first free cluster
mov word [edi+512+510], 0xAA55
; 5. Initialize FAT.
mov dword [edi+512*2], 0x0FFFFFF8
mov dword [edi+512*2+4], 0x0FFFFFFF
mov dword [edi+512*2+8], 0x0FFFFFFF
; 6. Return.
ret
; Generate volume serial number, which should try to be unique for each volume.
; Use CMOS date+time, copy-pasted from fat32.inc.
generate_volume_id:
call get_time_for_file
mov cx, ax
call get_date_for_file
shl eax, 16
mov ax, cx
ret
; Three following procedures are copy-pasted from fat32.inc.
bcd2bin:
;----------------------------------
; input : AL=BCD number (eg. 0x11)
; output : AH=0
; AL=decimal number (eg. 11)
;----------------------------------
xor ah, ah
shl ax, 4
shr al, 4
aad
ret
get_date_for_file:
;-----------------------------------------------------
; Get date from CMOS and pack day,month,year in AX
; DATE bits 0..4 : day of month 0..31
; 5..8 : month of year 1..12
; 9..15 : count of years from 1980
;-----------------------------------------------------
mov al, 0x7 ;day
out 0x70, al
in al, 0x71
call bcd2bin
ror eax, 5
mov al, 0x8 ;month
out 0x70, al
in al, 0x71
call bcd2bin
ror eax, 4
mov al, 0x9 ;year
out 0x70, al
in al, 0x71
call bcd2bin
add ax, 20 ;because CMOS return only the two last
;digit (eg. 2000 -> 00 , 2001 -> 01) and we
rol eax, 9 ;need the difference with 1980 (eg. 2001-1980)
ret
get_time_for_file:
;-----------------------------------------------------
; Get time from CMOS and pack hour,minute,second in AX
; TIME bits 0..4 : second (the low bit is lost)
; 5..10 : minute 0..59
; 11..15 : hour 0..23
;-----------------------------------------------------
mov al, 0x0 ;second
out 0x70, al
in al, 0x71
call bcd2bin
ror eax, 6
mov al, 0x2 ;minute
out 0x70, al
in al, 0x71
call bcd2bin
ror eax, 6
mov al, 0x4 ;hour
out 0x70, al
in al, 0x71
call bcd2bin
rol eax, 11
ret
; some data
fat16bootsector_stub:
db 0EBh, 3Ch, 90h ; BS_jmpBoot
db 'KOLIBRI ' ; BS_OEMName
dw 512 ; BPB_BytsPerSec
db 1 ; BPB_SecsPerClus
dw 1 ; BPB_RsvdSecCnt
db 1 ; BPB_NumFATs
dw FAT16_ROOTDIR_SECTORS*16 ; BPB_RootEntCnt
dw 0 ; BPB_TotSec16, filled in format_disk_fat16
db 0F8h ; BPB_Media
dw 0 ; BPB_FATSz16, filled in format_disk_fat16
dw 32 ; BPB_SecPerTrk
dw 128 ; BPB_NumHeads
dd 0 ; BPB_HiddSec
dd 0 ; BPB_TotSec32, filled in format_disk_fat16
db 80h ; BS_DrvNum
db 0 ; BS_Reserved1
db 29h ; BS_BootSig
dd 0 ; BS_VolID, filled in format_disk_fat16
db 'NO NAME ' ; BS_VolLab
db 'FAT16 ' ; BS_FilSysType
; just in case add some meaningful bytes if someone tries to boot
db 0CDh, 19h, 0EBh, 0FEh ; int 19h, jmp $
fat16bootsector_stub_size = $ - fat16bootsector_stub
fat32bootsector_stub:
db 0EBh, 58h, 90h ; BS_jmpBoot
db 'KOLIBRI ' ; BS_OEMName
dw 512 ; BPB_BytsPerSec
db 1 ; BPB_SecsPerClus
dw 1 ; BPB_RsvdSecCnt
db 1 ; BPB_NumFATs
dw 0 ; BPB_RootEntCnt
dw 0 ; BPB_TotSec16
db 0F8h ; BPB_Media
dw 0 ; BPB_FATSz16
dw 32 ; BPB_SecPerTrk
dw 128 ; BPB_NumHeads
dd 0 ; BPB_HiddSec
dd 0 ; BPB_TotSec32, filled in format_disk_fat32
dd 0 ; BPB_FATSz32, filled in format_disk_fat32
dw 0 ; BPB_ExtFlags
dw 0 ; BPB_FSVer
dd 2 ; BPB_RootClus
dw 1 ; BPB_FSInfo
dw 0 ; BPB_BkBootSec
rb 12 ; BPB_Reserved
db 80h ; BS_DrvNum
db 0 ; BS_Reserved1
db 29h ; BS_BootSig
dd 0 ; BS_VolID, filled in format_disk_fat32
db 'NO NAME ' ; BS_VolLab
db 'FAT32 ' ; BS_FilSysType
; same bytes as in fat16bootsector_stub
db 0CDh, 19h, 0EBh, 0FEh ; int 19h, jmp $
fat32bootsector_stub_size = $ - fat32bootsector_stub