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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [lib/] [libbsp/] [i386/] [ts_386ex/] [tools/] [dos_sup/] [loader_hybrid_com.asm] - Rev 30
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; loader_hybrid_com.asm
;
; This is a DOS command-line loader for RTEMS executables running on
; the Technologic Systems TS-1325 Embedded PC.
;
; It loads a DOS file given on the command line to the address `KernelBase',
; and then transfers control there. It uses DOS file I/O commands to read from
; the A: flash disk, and direct memory access to read from the C: ramdisk.
;
; Copying uses protected flat mode, so kernelbase could be above 1MB.
; It does not initialize protected mode before transferring control
; to the RTEMS executable image.
;
; Compile with: nasm -o loader.com loader_hybrid_com.asm
;
; Tony Ambardar (c) 1999
; E.C.E. Department
; University of British Columbia
%include "ts1325.inc" ; Some useful LED and button macros
; IMPORTANT: [org xxx] MUST be the same as RelocAddr below.
[org E000h]
[bits 16]
; Only these three definitions may need to change
KernelBase equ 08000h ; Where (32-bit) to locate and run RTEMS executable
RelocSeg equ 9000h ; Segment to relocate code.
RelocAddr equ 0E000h ; Address to relocate code, same as "org" above
; Next three used in GDT
RelocBase equ RelocSeg*16
Reloc15 equ RelocBase & 0FFFFh
Reloc23 equ RelocBase / 10000h
Buffer equ RelocAddr+400h ; In same segment as RelocSeg
BuffSiz equ 200h ; Size of disk read + copy
StackSeg equ RelocSeg
StackSiz equ 40h
StackAddr equ Buffer+BuffSiz+StackSiz
; Used to jump to kernel in real mode
KernelAddr equ KernelBase & 0FFFFh
KernelSeg equ (KernelBase - KernelAddr) / 16
; Used to load from the ramdisk
Extended equ 100000h ; Start of extended memory / C: ramdisk
OffsetBPB equ 0Bh ; Start of BIOS param block in bootsector
; Command-line parameters
ParamLen equ 80h ; Byte length of command line params
ParamStr equ 82h ; Start of param string
; The ORG address above means pre-relocation addresses are wrong. The
; following macro fixes these up.
%define PRE_RELOC_ADDR(addr) (addr-CodeStart+100h)
CodeStart:
mov dx, PRE_RELOC_ADDR(Greet)
mov ah, 9h
int 21h
mov ax, 0b021h ; Exit to DOS if push-button switch pressed
int 15h
and al, 01h ; Bit 0 == 0 if button pressed
jz ButtonExit
xor cx, cx
mov cl, [ParamLen] ; See if there is a command line arg
jcxz NameError
dec cx ; Nix leading space. Is this standard?
cmp cx, 12 ; Limit to 12 chars: e.g. ABCDEFGH.IJK
jg NameError
; Damn. Should make sure of no ':' or '\' chars too.
; Required by "relocated" [org] statement above
mov di, PRE_RELOC_ADDR(FName)
mov si, ParamStr
repne
movsb ; Copy command line arg
; Make sure no ':' in filename. This forces using the default dir.
mov di, PRE_RELOC_ADDR(FName)
mov al, ':'
mov cx, 12
repne
scasb
je NameError
jmp Relocate
ButtonExit:
mov dx, PRE_RELOC_ADDR(Button)
jmp short DosPrint
NameError:
mov dx, PRE_RELOC_ADDR(FError)
jmp short DosPrint
DosError: ; Only call this AFTER relocation
mov dx, RError
DosPrint:
mov ah, 9h
int 21h
DosExit:
mov ax, 04C00h ; DOS Function: Exit program
int 21h ; Call DOS. Terminate Program
Relocate: ; Move this code down to RelocAddr
cld
mov ax, RelocSeg
mov es, ax ; Set destination = RelocSeg:RelocAddr
mov di, RelocAddr
mov si, 100h ; Source is ds:0100h i.e. a COM file
mov cx, CodeEnd - CodeStart ; Size of all code
repne
movsb
; continue in copied code
jmp RelocSeg:RelocAddr + (RelocStart - CodeStart)
RelocStart:
cli
mov ax, StackSeg
mov ss, ax
mov sp, StackAddr
mov ax, cs
mov ds, ax
mov es, ax ; Setup segments and stack
sti
mov ah, 19h
int 21h
mov [DDrive], al ; Save current default drive
mov ax, 3d00h ; DOS Function: Open the file for reading
mov dx, FName ; Presume DS points at filename segment
int 21h
jc DosError
GoodOpen:
mov [FHndl], ax ; Save file handle
mov al, [DDrive] ; Check if loading from C: drive (ramdisk)
cmp al, 2
je LoadRamdisk
LoadDosdisk:
; Here we are loading from A: drive. Use DOS calls to load the file into
; extended memory. Then copy from extended memory to `KernelBase'. This way
; we avoid overwriting DOS file I/O structures if reading directly into
; conventional (<640K) memory.
mov edi, Extended ; Destination for code read @ 1 Meg
ReadLoop:
mov ah,3fh ; DOS Function: Read data from the file
mov bx, [FHndl]
mov dx, Buffer ; Address of data buffer
mov cx, BuffSiz ; Request BuffSiz bytes
int 21h
jc DosError
GoodRead:
cmp ax, cx ; EOF reached? AX = # bytes read
pushf
add ax, 3
shr ax, 2 ; Copy buffer by dwords, # = (ax + 3)/4
movzx ecx, ax
mov esi, RelocBase + Buffer ; Source for copy, destination is in edi
call CopyData32 ; Do protected-mode copy
popf
je ReadLoop ; Still data left, so read next chunk
mov esi, Extended ; Source for copy @ 1 Meg
mov ecx, edi ; Make count in dwords
sub ecx, esi
add ecx, 3
shr ecx, 2
mov edi, KernelBase ; Destination copy
call CopyData32 ; Move code into conventional memory
jmp RunKernel
LoadRamdisk:
; Here we are loading from C: drive. Use protected mode to directly access
; the virtual disk sectors in extended memory and copy to `KernelBase'.
; This way we avoid using DOS file I/O calls, except for an `open' earlier
; which tells us the file exists.
; Copy C: "bootsector" to buffer and save the BIOS parameter block
mov esi, Extended
mov edi, RelocBase + Buffer ; Must be a 32-but address...
mov ecx, 80h
call CopyData32
mov si, Buffer + OffsetBPB
mov di, SavBPB
mov cx, EndBPB - SavBPB
repne
movsb
; Calculate FAT, root dir, and data start addresses for the ramdisk
xor eax, eax
mov ebx, eax
mov ecx, ebx
mov ax, [ResSec]
mov bl, [NumFAT]
imul bx, [SecFAT]
mov cx, [NRoot]
shr cx, 4 ; 10h directory entries per sector
add bx, ax
add cx, bx
mov dx, [BpSect]
imul ax, dx
imul bx, dx
imul cx, dx
add eax, Extended
add ebx, Extended
add ecx, Extended
mov [BegFAT], eax
mov [BegRoot], ebx
mov [BegData], ecx
; Convert the saved filename to format used in directory entry. Assume
; there's a `.' in it. Hopefully this won't haunt us later...
mov di, FName ; Find the `.'
mov al, '.'
mov cx, 12
repne
scasb
mov bx, di ; di points to filename extension
mov di, DirName
mov si, FName
mov cx, bx ; Make count
sub cx, si
dec cx
repne ; Copy initial part of filename
movsb
mov di, bx ; Find the terminating zero
xor al,al
mov cx, 4
repne
scasb
mov cx, di ; Make count
sub cx, bx
dec cx
mov si, bx
mov di, DirName + 8
repne ; Copy filename extension
movsb
mov si, DirName ; Convert the stupid thing to upper case
mov di, si
mov cx, 11
Cvt2Upper:
lodsb
cmp al, 'a'
jb NotLow
cmp al, 'z'
ja NotLow
xor al, 20h
NotLow:
stosb
loop Cvt2Upper
; Now load in the root directory (temporarily) to find the first cluster
; of our file. Use KernelSeg:KernelAddr as temporary storage.
mov esi, [BegRoot]
mov edi, KernelBase
xor ecx, ecx
mov cx, [NRoot]
shl cx, 3 ; Each root entry is 8 dwords
call CopyData32
mov dx, [NRoot] ; Max # of dir entries
mov cx, KernelSeg ; Setup segment selector for comparison
mov es, cx
mov di, KernelAddr
FindEntry:
mov cx, 11
mov si, DirName
push di
rep cmpsb
pop di
je GotEntry
add di, 20h ; Point to next dir entry
dec dx
jnz FindEntry
int 3h ; Should never get here...
GotEntry:
mov eax, KernelBase ; Setup initial address for copy
mov [CurrDst], eax
add di, 32 - 6 ; Load first cluster number
mov ax, [es:di]
mov cx, ds ; Fix `es' selector just in case
mov es, cx
LoadKernel:
call LoadCluster ; Load cluster `ax' to [CurrDst], update [CurrDst]
call NextCluster ; Get next cluster number in ax
cmp ax, 0FF8h ; Repeat until EOF
jb LoadKernel
RunKernel:
mov ax, KernelSeg ; Setup data segment and transfer control
mov ds, ax
jmp KernelSeg:KernelAddr ; Huzzah!!
; Load cluster `ax' to [CurrDst], update [CurrDst]
LoadCluster:
push ax
sub ax, 2 ; Cluster numbers start at 2
movzx eax, ax
xor ecx, ecx ; Calculate bytes in a cluster
mov cl, [SpClst]
imul cx, [BpSect]
imul eax, ecx
add eax, [BegData] ; Start of cluster
shr ecx, 2 ; Cluster size in dwords
mov esi, eax ; Copy source
mov edi, [CurrDst] ; Copy destination
call CopyData32
mov [CurrDst], edi ; Update dest
pop ax ; Restore cluster number
ret
; Search FAT (FAT12 format) for next cluster in file after `ax'.
NextCluster:
movzx ecx, ax ; Calculate offset into FAT
shr ax, 1
pushf
add cx, ax
mov esi, [BegFAT] ; Copy word containing next cluster to buffer
add esi, ecx
mov edi, RelocBase + Buffer
xor ecx, ecx
inc ecx
call CopyData32
mov ax, [Buffer] ; Handle odd/even cluster numbers
popf
jnc EvenCluster
shr ax, 4
EvenCluster:
and ax, 0FFFh
ret
; Enable the A20 line for accesses to extended memory.
EnableA20:
in al,92h
or al,2
jmp short $+2
jmp short $+2
jmp short $+2
out 92h,al
ret
; The CopyData32 routine copies ecx dwords from esi to edi. Both esi
; and edi hold 32-bit values. CopyData32 runs in 32-bit protected mode.
CopyData32:
cli
call EnableA20 ; Put here in case file I/O screws with this
; or with the GDTR
lgdt [GDTStart] ; Initialize GDTR for 32-bit protected mode
mov eax, cr0
or al, 1
mov cr0, eax ;go to real flat mode
; LED_GRN
; PSW_WAIT
jmp dword 8h : RelocBase+ProtJmp
[bits 32]
ProtJmp:
; LED_YEL
; PSW_WAIT
mov ax, 10h
mov ds, ax
mov es, ax
mov ss, ax
rep movsd ;copy the sector to where it should be
mov ax, 20h
mov ds, ax
mov es, ax
mov ss, ax
; LED_RED
; PSW_WAIT
jmp 18h : RealJmp1 ;use code segment with 64K limit
[bits 16]
RealJmp1:
; LED_OFF
; PSW_WAIT
mov eax, cr0 ;back to real segmented mode
and eax, 0fffffffeh
mov cr0, eax
jmp RelocSeg : RealJmp2
RealJmp2:
; LED_GRN
; PSW_WAIT
mov ax, cs
mov es, ax
mov ds, ax
mov ss, ax
sti
ret
; Storage for a Dos 3+ BIOS Parameter Block (for the C: ramdisk)
SavBPB:
BpSect dw 0h ; Bytes per sector, always 512
SpClst db 0h ; Sectors per cluster
ResSec dw 0h ; Num of reserved sectors
NumFAT db 0h ; Num of FATs
NRoot dw 0h ; Num of root directory entries
TotSec dw 0h ; Total sectors
Media db 0h ; Media descriptor byte
SecFAT dw 0h ; Sectors per FAT
EndBPB:
CurrDst dd 0h ; Current destination address for copying RTEMS exec
; Important (32-bit) address for the C: ramdisk
BegFAT dd 0h ; Start of the FAT
BegRoot dd 0h ; Start of root directory
BegData dd 0h ; Start of data clusters
DDrive db 0h ; Default drive: 0h = A:, 2h = C:
DirName times 11 db 32 ; Room for 8.3 directory entry name
FName times 13 db 0 ; Room for a 12 character null-terminated string
FHndl dw 0000h
Greet db "RTEMS DOS Loader (c) 1999 Tony R. Ambardar",13,10,"$"
Button db "Button pressed -- Aborting.",13,10,"$"
FError db "Missing or incorrect file name.",13,10,"$"
RError db "Error opening or reading file.",13,10,"$"
; Global Descriptor Table used for protectd mode.
; Store the GDTR in the first null GDT entry
GDTStart:
dw GDTEnd - GDTStart - 1
dd RelocBase + GDTStart
dw 0
; base=0h, limit=4Gb, present, code, exec/read, conform, 32-bit
dw 0ffffh ;seg. lim. [15:0]
dw 0 ;base[15:0]
db 0 ;base[23:16]
db 9eh ;p=1,dpl=0,s=1 ; code: execute/read, conforming
db 0cfh ;c: gran=4K, D/B=1(32-bit) ; f: seg. lim. [19:16]
db 0 ;base[31:24]
; base=0h, limit=4Gb, present, data, read/write exp. up, 32-bit SP
dw 0ffffh ;seg. lim. [15:0]
dw 0 ;base[15:0]
db 0 ;base[23:16]
db 92h ;p=1,dpl=0,s=1 ; data: read/write expand-up
db 0cfh ;c: gran=4K, D/B=1(32-bit) ; f: seg. lim. [19:16]
db 0 ;base[31:24]
; base=0h, limit=ffffh, present, code, exec/read, conform, 16-bit
; NOTE: this descriptor is used to change back to real mode.
dw 0ffffh ;seg. lim. [15:0]
dw Reloc15 ;base[15:0]
db Reloc23 ;base[23:16]
db 9eh ;p=1,dpl=0,s=1 ; code: execute/read, conforming
db 000h ;4: gran=1 byte, D/B=0(16-bit) ; 0: seg. lim. [19:16]
db 0 ;base[31:24]
; base=0h, limit=ffffh, present, data, read/write exp. up, 16-bit SP
; NOTE: this descriptor is used to change back to real mode.
dw 0ffffh ;seg. lim. [15:0]
dw Reloc15 ;base[15:0]
db Reloc23 ;base[23:16]
db 92h ;p=1,dpl=0,s=1 ; data: read/write expand-up
db 000h ;0: gran=1 byte, D/B=0(16-bit) ; 0: seg. lim. [19:16]
db 0 ;base[31:24]
GDTEnd:
CodeEnd: ; end-of-code marker for copy
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