FreeDOS/kernel/entry.asm
2009-05-08 00:00:17 +00:00

674 lines
21 KiB
NASM

;
; File:
; entry.asm
; Description:
; System call entry code
;
; Copyright (c) 1998
; Pasquale J. Villani
; All Rights Reserved
;
; This file is part of DOS-C.
;
; DOS-C is free software; you can redistribute it and/or
; modify it under the terms of the GNU General Public License
; as published by the Free Software Foundation; either version
; 2, or (at your option) any later version.
;
; DOS-C is distributed in the hope that it will be useful, but
; WITHOUT ANY WARRANTY; without even the implied warranty of
; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See
; the GNU General Public License for more details.
;
; You should have received a copy of the GNU General Public
; License along with DOS-C; see the file COPYING. If not,
; write to the Free Software Foundation, 675 Mass Ave,
; Cambridge, MA 02139, USA.
;
; $Id$
;
%include "segs.inc"
%include "stacks.inc"
segment HMA_TEXT
extern _int21_syscall
extern _int21_service
extern _int2526_handler
extern _error_tos:wrt DGROUP
extern _char_api_tos:wrt DGROUP
extern _disk_api_tos:wrt DGROUP
extern _user_r:wrt DGROUP
extern _ErrorMode:wrt DGROUP
extern _InDOS:wrt DGROUP
extern _cu_psp:wrt DGROUP
extern _MachineId:wrt DGROUP
extern critical_sp:wrt DGROUP
extern int21regs_seg:wrt DGROUP
extern int21regs_off:wrt DGROUP
extern _Int21AX:wrt DGROUP
extern _DGROUP_
global reloc_call_cpm_entry
global reloc_call_int20_handler
global reloc_call_int21_handler
global reloc_call_low_int25_handler
global reloc_call_low_int26_handler
global reloc_call_int27_handler
;
; MS-DOS CP/M style entry point
;
; VOID FAR
; cpm_entry(iregs UserRegs)
;
; For CP/M compatibility allow a program to invoke any DOS API function
; between 0 and 24h by doing a near call to psp:0005h which embeds a far call
; to absolute address 0:00C0h (int vector 30h & 31h) or FFFF:00D0 (hma).
; 0:00C0h contains the jmp instruction to reloc_call_cpm_entry which should
; be duplicated in hma to ensure correct operation with either state of A20 line.
; Note: int 31h is also used for DPMI but only in protected mode.
; Upon entry the stack has a near return offset (desired return address offset)
; and far return seg:offset (desired return segment of PSP, and useless offset
; which if used will return to the data, not code, at offset 0ah after far call
; in psp). We convert it to a normal call and correct the stack to appear same
; as if invoked via an int 21h call including proper return address.
;
reloc_call_cpm_entry:
; Stack is:
; return offset
; psp seg
; 000ah
;
add sp, 2 ; remove unneeded far return offset 0ah
pushf ; start setting up int 21h stack
;
; now stack is
; return offset
; psp seg
; flags
;
push bp
mov bp,sp ; set up reference frame
;
; reference frame stack is
; return offset bp + 6
; psp seg bp + 4
; flags bp + 2
; bp <--- bp
;
push ax
mov ax,[2+bp] ; get the flags
xchg ax,[6+bp] ; swap with return address
mov [2+bp],ax
pop ax ; restore working registers
pop bp
;
; Done. Stack is
; flags
; psp seg (alias .COM cs)
; return offset
;
cmp cl,024h ; restrict calls to functions 0-24h
ja cpm_error
mov ah,cl ; get the call # from cl to ah
jmp reloc_call_int21_handler ; do the system call
cpm_error: mov al,0
iret ; cleanup stack and return to caller
;
; interrupt zero divide handler:
; print a message 'Interrupt divide by zero'
; Terminate the current process
;
; VOID INRPT far
; int20_handler(iregs UserRegs)
;
print_hex: mov cl, 12
hex_loop:
mov ax, dx
shr ax, cl
and al, 0fh
cmp al, 10
sbb al, 69h
das
mov bx, 0070h
mov ah, 0eh
int 10h
sub cl, 4
jae hex_loop
ret
divide_by_zero_message db 0dh,0ah,'Interrupt divide by zero, stack:',0dh,0ah,0
global reloc_call_int0_handler
reloc_call_int0_handler:
mov si,divide_by_zero_message
zero_message_loop:
mov al, [cs:si]
test al,al
je zero_done
inc si
mov bx, 0070h
mov ah, 0eh
int 10h
jmp short zero_message_loop
zero_done:
mov bp, sp
xor si, si ; print 13 words of stack for debugging LUDIV etc.
stack_loop:
mov dx, [bp+si]
call print_hex
mov al, ' '
int 10h
inc si
inc si
cmp si, 13*2
jb stack_loop
mov al, 0dh
int 10h
mov al, 0ah
int 10h
mov ax,04c7fh ; terminate with errorlevel 127
int 21h
sti
thats_it: hlt
jmp short thats_it ; it might be command.com that nukes
invalid_opcode_message db 0dh,0ah,'Invalid Opcode at ',0
global reloc_call_int6_handler
reloc_call_int6_handler:
mov si,invalid_opcode_message
jmp short zero_message_loop
global reloc_call_int19_handler
reloc_call_int19_handler:
; from Japheth's public domain code (JEMFBHLP.ASM)
; restores int 10,13,15,19,1b and then calls the original int 19.
cld
xor ax,ax
mov es,ax
mov al,70h
mov ds,ax
mov si,100h
mov cx,5
cli
nextitem: lodsb
mov di,ax
%if XCPU >= 186
shl di,2
%else
shl di,1
shl di,1
%endif
movsw
movsw
loop nextitem
int 19h
;
; Terminate the current process
;
; VOID INRPT far
; int20_handler(iregs UserRegs)
;
reloc_call_int20_handler:
mov ah,0 ; terminate through int 21h
;
; MS-DOS system call entry point
;
; VOID INRPT far
; int21_handler(iregs UserRegs)
;
reloc_call_int21_handler:
;
; Create the stack frame for C call. This is done to
; preserve machine state and provide a C structure for
; access to registers.
;
; Since this is an interrupt routine, CS, IP and flags were
; pushed onto the stack by the processor, completing the
; stack frame.
;
; NB: stack frame is MS-DOS dependent and not compatible
; with compiler interrupt stack frames.
;
sti
PUSH$ALL
mov bp,sp
Protect386Registers
;
; Create kernel reference frame.
;
; NB: At this point, SS != DS and won't be set that way
; until later when which stack to run on is determined.
;
int21_reentry:
mov dx,[cs:_DGROUP_]
mov ds,dx
cmp ah,25h
je int21_user
cmp ah,33h
je int21_user
cmp ah,35h
je int21_user
cmp ah,50h
je int21_user
cmp ah,51h
je int21_user
cmp ah,62h
jne int21_1
int21_user:
call dos_crit_sect
push ss
push bp
call _int21_syscall
pop cx
pop cx
jmp short int21_ret
;
; normal entry, use one of our 4 stacks
;
; DX=DGROUP
; CX=STACK
; SI=userSS
; BX=userSP
int21_1:
mov si,ss ; save user stack, to be retored later
;
; Now DS is set, let's save our stack for rentry (???TE)
;
; I don't know who needs that, but ... (TE)
;
mov word [_user_r+2],ss
mov word [_user_r],bp ; store and init
;
; Decide which stack to run on.
;
; Unlike previous versions of DOS-C, we need to do this here
; to guarantee the user stack for critical error handling.
; We need to do the int 24h from this stack location.
;
; There are actually four stacks to run on. The first is the
; user stack which is determined by system call number in
; AH. The next is the error stack determined by _ErrorMode.
; Then there's the character stack also determined by system
; call number. Finally, all others run on the disk stack.
; They are evaluated in that order.
cmp byte [_ErrorMode],0
je int21_2
int21_onerrorstack:
mov cx,_error_tos
cli
mov ss,dx
mov sp,cx
sti
push si ; user SS:SP
push bp
call _int21_service
jmp short int21_exit_nodec
int21_2: inc byte [_InDOS]
mov cx,_char_api_tos
or ah,ah
jz int21_3
cmp ah,0ch
jbe int21_normalentry
int21_3:
call dos_crit_sect
mov cx,_disk_api_tos
int21_normalentry:
cli
mov ss,dx
mov sp,cx
sti
;
; Push the far pointer to the register frame for
; int21_syscall and remainder of kernel.
;
push si ; user SS:SP
push bp
call _int21_service
int21_exit: dec byte [_InDOS]
;
; Recover registers from system call. Registers and flags
; were modified by the system call.
;
int21_exit_nodec:
pop bp ; get back user stack
pop si
%if XCPU >= 386
%ifdef WATCOM
sub bp, 4 ; for fs and gs only
%else
sub bp, 6 ; high parts of eax, ebx or ecx, edx
%endif
%endif
cli
mov ss,si
mov sp,bp
int21_ret:
Restore386Registers
POP$ALL
;
; ... and return.
;
iret
;
; end Dos Critical Section 0 thur 7
;
;
dos_crit_sect:
mov [_Int21AX],ax ; needed!
push ax ; This must be here!!!
mov ah,82h ; re-enrty sake before disk stack
int 2ah ; Calling Server Hook!
pop ax
ret
;
; Terminate the current process
;
; VOID INRPT far
; int27_handler(iregs UserRegs)
;
reloc_call_int27_handler:
;
; First convert the memory to paragraphs
;
add dx,byte 0fh ; round up
rcr dx,1
shr dx,1
shr dx,1
shr dx,1
;
; ... then use the standard system call
;
mov ax,3100h
jmp reloc_call_int21_handler ; terminate through int 21h
;
;
reloc_call_low_int26_handler:
sti
pushf
push ax
mov ax,026h
jmp short int2526
reloc_call_low_int25_handler:
sti
pushf
push ax
mov ax,025h
int2526:
push cx
push dx
push bx
push sp
push bp
push si
push di
push ds
push es
mov cx, sp ; save stack frame
mov dx, ss
cld
mov bx, [cs:_DGROUP_]
mov ds, bx
; setup our local stack
cli
mov ss,bx
mov sp,_disk_api_tos
sti
Protect386Registers
push dx
push cx ; save user stack
push dx ; SS:SP -> user stack
push cx
push ax ; was set on entry = 25,26
call _int2526_handler
add sp, byte 6
pop cx
pop dx ; restore user stack
Restore386Registers
; restore foreground stack here
cli
mov ss, dx
mov sp, cx
pop es
pop ds
pop di
pop si
pop bp
pop bx ; pop off sp value
pop bx
pop dx
pop cx
pop ax
popf
retf ; Bug-compatiblity with MS-DOS.
; This function is supposed to leave the original
; flag image on the stack.
CONTINUE equ 00h
RETRY equ 01h
ABORT equ 02h
FAIL equ 03h
OK_IGNORE equ 20h
OK_RETRY equ 10h
OK_FAIL equ 08h
PSP_PARENT equ 16h
PSP_USERSP equ 2eh
PSP_USERSS equ 30h
;
; COUNT
; CriticalError(COUNT nFlag, COUNT nDrive, COUNT nError, struct dhdr FAR *lpDevice);
;
global _CriticalError
_CriticalError:
;
; Skip critical error routine if handler is active
;
cmp byte [_ErrorMode],0
je CritErr05 ; Jump if equal
mov ax,FAIL
retn
;
; Do local error processing
;
CritErr05:
;
; C Entry
;
push bp
mov bp,sp
push si
push di
;
; Get parameters
;
mov ah,byte [bp+4] ; nFlags
mov al,byte [bp+6] ; nDrive
mov di,word [bp+8] ; nError
;
; make bp:si point to dev header
;
mov si,word [bp+10] ; lpDevice Offset
mov bp,word [bp+12] ; lpDevice segment
;
; Now save real ss:sp and retry info in internal stack
;
cli
mov es,[_cu_psp]
push word [es:PSP_USERSS]
push word [es:PSP_USERSP]
push word [_MachineId]
push word [int21regs_seg]
push word [int21regs_off]
push word [_user_r+2]
push word [_user_r]
mov [critical_sp],sp
;
; do some clean up because user may never return
;
inc byte [_ErrorMode]
dec byte [_InDOS]
;
; switch to user's stack
;
mov ss,[es:PSP_USERSS]
mov sp,[es:PSP_USERSP]
;
; and call critical error handler
;
int 24h ; DOS Critical error handler
;
; recover context
;
cld
cli
mov bp, [cs:_DGROUP_]
mov ds,bp
mov ss,bp
mov sp,[critical_sp]
pop word [_user_r]
pop word [_user_r+2]
pop word [int21regs_off]
pop word [int21regs_seg]
pop word [_MachineId]
mov es,[_cu_psp]
pop word [es:PSP_USERSP]
pop word [es:PSP_USERSS]
mov bp, sp
mov ah, byte [bp+4+4] ; restore old AH from nFlags
sti ; Enable interrupts
;
; clear flags
;
mov byte [_ErrorMode],0
inc byte [_InDOS]
;
; Check for ignore and force fail if not ok
cmp al,CONTINUE
jne CritErr10 ; not ignore, keep testing
test ah,OK_IGNORE
jnz CritErr10
mov al,FAIL
;
; Check for retry and force fail if not ok
;
CritErr10:
cmp al,RETRY
jne CritErr20 ; not retry, keep testing
test ah,OK_RETRY
jnz CritErr20
mov al,FAIL
;
; You know the drill, but now it's different.
; check for fail and force abort if not ok
;
CritErr20:
cmp al,FAIL
jne CritErr30 ; not fail, do exit processing
test ah,OK_FAIL
jnz CritErr30
mov al,ABORT
;
; OK, if it's abort we do extra processing. Otherwise just
; exit.
;
CritErr30:
cmp al,ABORT
je CritErrAbort ; process abort
CritErrExit:
xor ah,ah ; clear out top for return
pop di
pop si
pop bp
ret
;
; Abort processing.
;
CritErrAbort:
mov ax,[_cu_psp]
mov es,ax
cmp ax,[es:PSP_PARENT]
mov al,FAIL
jz CritErrExit
cli
mov bp,word [_user_r+2] ;Get frame
mov ss,bp
mov bp,word [_user_r]
mov sp,bp
mov byte [_ErrorMode],1 ; flag abort
mov ax,4C00h
mov [bp+reg_ax],ax
sti
jmp int21_reentry ; restart the system call