diff options
Diffstat (limited to 'board/MAI/bios_emulator/scitech/src/pm/dos')
-rw-r--r-- | board/MAI/bios_emulator/scitech/src/pm/dos/_event.asm | 194 | ||||
-rw-r--r-- | board/MAI/bios_emulator/scitech/src/pm/dos/_lztimer.asm | 438 | ||||
-rw-r--r-- | board/MAI/bios_emulator/scitech/src/pm/dos/_pm.asm | 656 | ||||
-rw-r--r-- | board/MAI/bios_emulator/scitech/src/pm/dos/_pmdos.asm | 1105 | ||||
-rw-r--r-- | board/MAI/bios_emulator/scitech/src/pm/dos/_vflat.asm | 652 | ||||
-rw-r--r-- | board/MAI/bios_emulator/scitech/src/pm/dos/cpuinfo.c | 72 | ||||
-rw-r--r-- | board/MAI/bios_emulator/scitech/src/pm/dos/event.c | 494 | ||||
-rw-r--r-- | board/MAI/bios_emulator/scitech/src/pm/dos/oshdr.h | 29 | ||||
-rw-r--r-- | board/MAI/bios_emulator/scitech/src/pm/dos/pm.c | 2243 | ||||
-rw-r--r-- | board/MAI/bios_emulator/scitech/src/pm/dos/pmdos.c | 1637 | ||||
-rw-r--r-- | board/MAI/bios_emulator/scitech/src/pm/dos/vflat.c | 251 | ||||
-rw-r--r-- | board/MAI/bios_emulator/scitech/src/pm/dos/ztimer.c | 111 |
12 files changed, 0 insertions, 7882 deletions
diff --git a/board/MAI/bios_emulator/scitech/src/pm/dos/_event.asm b/board/MAI/bios_emulator/scitech/src/pm/dos/_event.asm deleted file mode 100644 index 36dcaab67b..0000000000 --- a/board/MAI/bios_emulator/scitech/src/pm/dos/_event.asm +++ /dev/null @@ -1,194 +0,0 @@ -;**************************************************************************** -;* -;* SciTech Multi-platform Graphics Library -;* -;* ======================================================================== -;* -;* The contents of this file are subject to the SciTech MGL Public -;* License Version 1.0 (the "License"); you may not use this file -;* except in compliance with the License. You may obtain a copy of -;* the License at http://www.scitechsoft.com/mgl-license.txt -;* -;* Software distributed under the License is distributed on an -;* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -;* implied. See the License for the specific language governing -;* rights and limitations under the License. -;* -;* The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc. -;* -;* The Initial Developer of the Original Code is SciTech Software, Inc. -;* All Rights Reserved. -;* -;* ======================================================================== -;* -;* Language: 80386 Assembler -;* Environment: IBM PC (MS DOS) -;* -;* Description: Assembly language support routines for the event module. -;* -;**************************************************************************** - - ideal - -include "scitech.mac" ; Memory model macros - -ifdef flatmodel - -header _event ; Set up memory model - -begdataseg _event - - cextern _EVT_biosPtr,DPTR - -ifdef USE_NASM -%define KB_HEAD WORD esi+01Ah ; Keyboard buffer head in BIOS data area -%define KB_TAIL WORD esi+01Ch ; Keyboard buffer tail in BIOS data area -%define KB_START WORD esi+080h ; Start of keyboard buffer in BIOS data area -%define KB_END WORD esi+082h ; End of keyboard buffer in BIOS data area -else -KB_HEAD EQU WORD esi+01Ah ; Keyboard buffer head in BIOS data area -KB_TAIL EQU WORD esi+01Ch ; Keyboard buffer tail in BIOS data area -KB_START EQU WORD esi+080h ; Start of keyboard buffer in BIOS data area -KB_END EQU WORD esi+082h ; End of keyboard buffer in BIOS data area -endif - -enddataseg _event - -begcodeseg _event ; Start of code segment - - cpublic _EVT_codeStart - -;---------------------------------------------------------------------------- -; int _EVT_getKeyCode(void) -;---------------------------------------------------------------------------- -; Returns the key code for the next available key by extracting it from -; the BIOS keyboard buffer. -;---------------------------------------------------------------------------- -cprocstart _EVT_getKeyCode - - enter_c - - mov esi,[_EVT_biosPtr] - xor ebx,ebx - xor eax,eax - mov bx,[KB_HEAD] - cmp bx,[KB_TAIL] - jz @@Done - xor eax,eax - mov ax,[esi+ebx] ; EAX := character from keyboard buffer - inc _bx - inc _bx - cmp bx,[KB_END] ; Hit the end of the keyboard buffer? - jl @@1 - mov bx,[KB_START] -@@1: mov [KB_HEAD],bx ; Update keyboard buffer head pointer - -@@Done: leave_c - ret - -cprocend - -;---------------------------------------------------------------------------- -; void _EVT_pumpMessages(void) -;---------------------------------------------------------------------------- -; This function would normally do nothing, however due to strange bugs -; in the Windows 3.1 and OS/2 DOS boxes, we don't get any hardware keyboard -; interrupts unless we periodically call the BIOS keyboard functions. Hence -; this function gets called every time that we check for events, and works -; around this problem (in essence it tells the DOS VDM to pump the -; keyboard events to our program ;-). -; -; Note that this bug is not present under Win 9x DOS boxes. -;---------------------------------------------------------------------------- -cprocstart _EVT_pumpMessages - - mov ah,11h ; Function - Check keyboard status - int 16h ; Call BIOS - - mov ax, 0Bh ; Reset Move Mouse - int 33h - ret - -cprocend - -;---------------------------------------------------------------------------- -; int _EVT_disableInt(void); -;---------------------------------------------------------------------------- -; Return processor interrupt status and disable interrupts. -;---------------------------------------------------------------------------- -cprocstart _EVT_disableInt - - pushf ; Put flag word on stack - cli ; Disable interrupts! - pop eax ; deposit flag word in return register - ret - -cprocend - -;---------------------------------------------------------------------------- -; void _EVT_restoreInt(int ps); -;---------------------------------------------------------------------------- -; Restore processor interrupt status. -;---------------------------------------------------------------------------- -cprocstart _EVT_restoreInt - - ARG ps:UINT - - push ebp - mov ebp,esp ; Set up stack frame - push [DWORD ps] - popf ; Restore processor status (and interrupts) - pop ebp - ret - -cprocend - -;---------------------------------------------------------------------------- -; int EVT_rdinx(int port,int index) -;---------------------------------------------------------------------------- -; Reads an indexed register value from an I/O port. -;---------------------------------------------------------------------------- -cprocstart EVT_rdinx - - ARG port:UINT, index:UINT - - push ebp - mov ebp,esp - mov edx,[port] - mov al,[BYTE index] - out dx,al - inc dx - in al,dx - movzx eax,al - pop ebp - ret - -cprocend - -;---------------------------------------------------------------------------- -; void EVT_wrinx(int port,int index,int value) -;---------------------------------------------------------------------------- -; Writes an indexed register value to an I/O port. -;---------------------------------------------------------------------------- -cprocstart EVT_wrinx - - ARG port:UINT, index:UINT, value:UINT - - push ebp - mov ebp,esp - mov edx,[port] - mov al,[BYTE index] - mov ah,[BYTE value] - out dx,ax - pop ebp - ret - -cprocend - - cpublic _EVT_codeEnd - -endcodeseg _event - -endif - - END ; End of module diff --git a/board/MAI/bios_emulator/scitech/src/pm/dos/_lztimer.asm b/board/MAI/bios_emulator/scitech/src/pm/dos/_lztimer.asm deleted file mode 100644 index a4a9c7916e..0000000000 --- a/board/MAI/bios_emulator/scitech/src/pm/dos/_lztimer.asm +++ /dev/null @@ -1,438 +0,0 @@ -;**************************************************************************** -;* -;* SciTech OS Portability Manager Library -;* -;* ======================================================================== -;* -;* The contents of this file are subject to the SciTech MGL Public -;* License Version 1.0 (the "License"); you may not use this file -;* except in compliance with the License. You may obtain a copy of -;* the License at http://www.scitechsoft.com/mgl-license.txt -;* -;* Software distributed under the License is distributed on an -;* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -;* implied. See the License for the specific language governing -;* rights and limitations under the License. -;* -;* The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc. -;* -;* The Initial Developer of the Original Code is SciTech Software, Inc. -;* All Rights Reserved. -;* -;* ======================================================================== -;* -;* Language: NASM or TASM Assembler -;* Environment: IBM PC (MS DOS) -;* -;* Description: Uses the 8253 timer and the BIOS time-of-day count to time -;* the performance of code that takes less than an hour to -;* execute. -;* -;* The routines in this package only works with interrupts -;* enabled, and in fact will explicitly turn interrupts on -;* in order to ensure we get accurate results from the timer. -;* -;* Externally 'C' callable routines: -;* -;* LZ_timerOn: Saves the BIOS time of day count and starts the -;* long period Zen Timer. -;* -;* LZ_timerLap: Latches the current count, and keeps the timer running -;* -;* LZ_timerOff: Stops the long-period Zen Timer and saves the timer -;* count and the BIOS time of day count. -;* -;* LZ_timerCount: Returns an unsigned long representing the timed count -;* in microseconds. If more than an hour passed during -;* the timing interval, LZ_timerCount will return the -;* value 0xFFFFFFFF (an invalid count). -;* -;* Note: If either more than an hour passes between calls to LZ_timerOn -;* and LZ_timerOff, an error is reported. For timing code that takes -;* more than a few minutes to execute, use the low resolution -;* Ultra Long Period Zen Timer code, which should be accurate -;* enough for most purposes. -;* -;* Note: Each block of code being timed should ideally be run several -;* times, with at least two similar readings required to -;* establish a true measurement, in order to eliminate any -;* variability caused by interrupts. -;* -;* Note: Interrupts must not be disabled for more than 54 ms at a -;* stretch during the timing interval. Because interrupts are -;* enabled, key, mice, and other devices that generate interrupts -;* should not be used during the timing interval. -;* -;* Note: Any extra code running off the timer interrupt (such as -;* some memory resident utilities) will increase the time -;* measured by the Zen Timer. -;* -;* Note: These routines can introduce inaccuracies of up to a few -;* tenths of a second into the system clock count for each -;* code section being timed. Consequently, it's a good idea to -;* reboot at the conclusion of timing sessions. (The -;* battery-backed clock, if any, is not affected by the Zen -;* timer.) -;* -;* All registers and all flags are preserved by all routines, except -;* interrupts which are always turned on -;* -;**************************************************************************** - - IDEAL - -include "scitech.mac" - -;**************************************************************************** -; -; Equates used by long period Zen Timer -; -;**************************************************************************** - -; Base address of 8253 timer chip - -BASE_8253 equ 40h - -; The address of the timer 0 count registers in the 8253 - -TIMER_0_8253 equ BASE_8253 + 0 - -; The address of the mode register in the 8253 - -MODE_8253 equ BASE_8253 + 3 - -; The address of the BIOS timer count variable in the BIOS data area. - -TIMER_COUNT equ 6Ch - -; Macro to delay briefly to ensure that enough time has elapsed between -; successive I/O accesses so that the device being accessed can respond -; to both accesses even on a very fast PC. - -ifdef USE_NASM -%macro DELAY 0 - jmp short $+2 - jmp short $+2 - jmp short $+2 -%endmacro -else -macro DELAY - jmp short $+2 - jmp short $+2 - jmp short $+2 -endm -endif - -header _lztimer - -begdataseg _lztimer - - cextern _ZTimerBIOSPtr,DPTR - -StartBIOSCount dd 0 ; Starting BIOS count dword -EndBIOSCount dd 0 ; Ending BIOS count dword -EndTimedCount dw 0 ; Timer 0 count at the end of timing period - -enddataseg _lztimer - -begcodeseg _lztimer ; Start of code segment - -;---------------------------------------------------------------------------- -; void LZ_timerOn(void); -;---------------------------------------------------------------------------- -; Starts the Long period Zen timer counting. -;---------------------------------------------------------------------------- -cprocstart LZ_timerOn - -; Set the timer 0 of the 8253 to mode 2 (divide-by-N), to cause -; linear counting rather than count-by-two counting. Also stops -; timer 0 until the timer count is loaded, except on PS/2 computers. - - mov al,00110100b ; mode 2 - out MODE_8253,al - -; Set the timer count to 0, so we know we won't get another timer -; interrupt right away. Note: this introduces an inaccuracy of up to 54 ms -; in the system clock count each time it is executed. - - DELAY - sub al,al - out TIMER_0_8253,al ; lsb - DELAY - out TIMER_0_8253,al ; msb - -; Store the timing start BIOS count - - use_es -ifdef flatmodel - mov ebx,[_ZTimerBIOSPtr] -else - les bx,[_ZTimerBIOSPtr] -endif - cli ; No interrupts while we grab the count - mov eax,[_ES _bx+TIMER_COUNT] - sti - mov [StartBIOSCount],eax - unuse_es - -; Set the timer count to 0 again to start the timing interval. - - mov al,00110100b ; set up to load initial - out MODE_8253,al ; timer count - DELAY - sub al,al - out TIMER_0_8253,al ; load count lsb - DELAY - out TIMER_0_8253,al ; load count msb - - ret - -cprocend - -;---------------------------------------------------------------------------- -; void LZ_timerOff(void); -;---------------------------------------------------------------------------- -; Stops the long period Zen timer and saves count. -;---------------------------------------------------------------------------- -cprocstart LZ_timerOff - -; Latch the timer count. - - mov al,00000000b ; latch timer 0 - out MODE_8253,al - cli ; Stop the BIOS count - -; Read the BIOS count. (Since interrupts are disabled, the BIOS -; count won't change). - - use_es -ifdef flatmodel - mov ebx,[_ZTimerBIOSPtr] -else - les bx,[_ZTimerBIOSPtr] -endif - mov eax,[_ES _bx+TIMER_COUNT] - mov [EndBIOSCount],eax - unuse_es - -; Read out the count we latched earlier. - - in al,TIMER_0_8253 ; least significant byte - DELAY - mov ah,al - in al,TIMER_0_8253 ; most significant byte - xchg ah,al - neg ax ; Convert from countdown remaining - ; to elapsed count - mov [EndTimedCount],ax - sti ; Let the BIOS count continue - - ret - -cprocend - -;---------------------------------------------------------------------------- -; unsigned long LZ_timerLap(void) -;---------------------------------------------------------------------------- -; Latches the current count and converts it to a microsecond timing value, -; but leaves the timer still running. We dont check for and overflow, -; where the time has gone over an hour in this routine, since we want it -; to execute as fast as possible. -;---------------------------------------------------------------------------- -cprocstart LZ_timerLap - - push ebx ; Save EBX for 32 bit code - -; Latch the timer count. - - mov al,00000000b ; latch timer 0 - out MODE_8253,al - cli ; Stop the BIOS count - -; Read the BIOS count. (Since interrupts are disabled, the BIOS -; count wont change). - - use_es -ifdef flatmodel - mov ebx,[_ZTimerBIOSPtr] -else - les bx,[_ZTimerBIOSPtr] -endif - mov eax,[_ES _bx+TIMER_COUNT] - mov [EndBIOSCount],eax - unuse_es - -; Read out the count we latched earlier. - - in al,TIMER_0_8253 ; least significant byte - DELAY - mov ah,al - in al,TIMER_0_8253 ; most significant byte - xchg ah,al - neg ax ; Convert from countdown remaining - ; to elapsed count - mov [EndTimedCount],ax - sti ; Let the BIOS count continue - -; See if a midnight boundary has passed and adjust the finishing BIOS -; count by the number of ticks in 24 hours. We wont be able to detect -; more than 24 hours, but at least we can time across a midnight -; boundary - - mov eax,[EndBIOSCount] ; Is end < start? - cmp eax,[StartBIOSCount] - jae @@CalcBIOSTime ; No, calculate the time taken - -; Adjust the finishing time by adding the number of ticks in 24 hours -; (1573040). - - add [DWORD EndBIOSCount],1800B0h - -; Convert the BIOS time to microseconds - -@@CalcBIOSTime: - mov ax,[WORD EndBIOSCount] - sub ax,[WORD StartBIOSCount] - mov dx,54925 ; Number of microseconds each - ; BIOS count represents. - mul dx - mov bx,ax ; set aside BIOS count in - mov cx,dx ; microseconds - -; Convert timer count to microseconds - - push _si - mov ax,[EndTimedCount] - mov si,8381 - mul si - mov si,10000 - div si ; * 0.8381 = * 8381 / 10000 - pop _si - -; Add the timer and BIOS counts together to get an overall time in -; microseconds. - - add ax,bx - adc cx,0 -ifdef flatmodel - shl ecx,16 - mov cx,ax - mov eax,ecx ; EAX := timer count -else - mov dx,cx -endif - pop ebx ; Restore EBX for 32 bit code - ret - -cprocend - -;---------------------------------------------------------------------------- -; unsigned long LZ_timerCount(void); -;---------------------------------------------------------------------------- -; Returns an unsigned long representing the net time in microseconds. -; -; If an hour has passed while timing, we return 0xFFFFFFFF as the count -; (which is not a possible count in itself). -;---------------------------------------------------------------------------- -cprocstart LZ_timerCount - - push ebx ; Save EBX for 32 bit code - -; See if a midnight boundary has passed and adjust the finishing BIOS -; count by the number of ticks in 24 hours. We wont be able to detect -; more than 24 hours, but at least we can time across a midnight -; boundary - - mov eax,[EndBIOSCount] ; Is end < start? - cmp eax,[StartBIOSCount] - jae @@CheckForHour ; No, check for hour passing - -; Adjust the finishing time by adding the number of ticks in 24 hours -; (1573040). - - add [DWORD EndBIOSCount],1800B0h - -; See if more than an hour passed during timing. If so, notify the user. - -@@CheckForHour: - mov ax,[WORD StartBIOSCount+2] - cmp ax,[WORD EndBIOSCount+2] - jz @@CalcBIOSTime ; Hour count didn't change, so - ; everything is fine - - inc ax - cmp ax,[WORD EndBIOSCount+2] - jnz @@TestTooLong ; Two hour boundaries passed, so the - ; results are no good - mov ax,[WORD EndBIOSCount] - cmp ax,[WORD StartBIOSCount] - jb @@CalcBIOSTime ; a single hour boundary passed. That's - ; OK, so long as the total time wasn't - ; more than an hour. - -; Over an hour elapsed passed during timing, which renders -; the results invalid. Notify the user. This misses the case where a -; multiple of 24 hours has passed, but we'll rely on the perspicacity of -; the user to detect that case :-). - -@@TestTooLong: -ifdef flatmodel - mov eax,0FFFFFFFFh -else - mov ax,0FFFFh - mov dx,0FFFFh -endif - jmp short @@Done - -; Convert the BIOS time to microseconds - -@@CalcBIOSTime: - mov ax,[WORD EndBIOSCount] - sub ax,[WORD StartBIOSCount] - mov dx,54925 ; Number of microseconds each - ; BIOS count represents. - mul dx - mov bx,ax ; set aside BIOS count in - mov cx,dx ; microseconds - -; Convert timer count to microseconds - - push _si - mov ax,[EndTimedCount] - mov si,8381 - mul si - mov si,10000 - div si ; * 0.8381 = * 8381 / 10000 - pop _si - -; Add the timer and BIOS counts together to get an overall time in -; microseconds. - - add ax,bx - adc cx,0 -ifdef flatmodel - shl ecx,16 - mov cx,ax - mov eax,ecx ; EAX := timer count -else - mov dx,cx -endif - -@@Done: pop ebx ; Restore EBX for 32 bit code - ret - -cprocend - -cprocstart LZ_disable - cli - ret -cprocend - -cprocstart LZ_enable - sti - ret -cprocend - -endcodeseg _lztimer - - END diff --git a/board/MAI/bios_emulator/scitech/src/pm/dos/_pm.asm b/board/MAI/bios_emulator/scitech/src/pm/dos/_pm.asm deleted file mode 100644 index 42b5cf3692..0000000000 --- a/board/MAI/bios_emulator/scitech/src/pm/dos/_pm.asm +++ /dev/null @@ -1,656 +0,0 @@ -;**************************************************************************** -;* -;* SciTech OS Portability Manager Library -;* -;* ======================================================================== -;* -;* The contents of this file are subject to the SciTech MGL Public -;* License Version 1.0 (the "License"); you may not use this file -;* except in compliance with the License. You may obtain a copy of -;* the License at http://www.scitechsoft.com/mgl-license.txt -;* -;* Software distributed under the License is distributed on an -;* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -;* implied. See the License for the specific language governing -;* rights and limitations under the License. -;* -;* The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc. -;* -;* The Initial Developer of the Original Code is SciTech Software, Inc. -;* All Rights Reserved. -;* -;* ======================================================================== -;* -;* Language: 80386 Assembler, TASM 4.0 or NASM -;* Environment: IBM PC Real mode and 16/32 bit protected mode -;* -;* Description: Low level assembly support for the PM library specific to -;* MSDOS. -;* -;**************************************************************************** - - IDEAL - -include "scitech.mac" ; Memory model macros - -header _pmdos ; Set up memory model - -begdataseg _pmdos - -ifndef flatmodel - -struc rmregs_s -ax dw ? -ax_high dw ? -bx dw ? -bx_high dw ? -cx dw ? -cx_high dw ? -dx dw ? -dx_high dw ? -si dw ? -si_high dw ? -di dw ? -di_high dw ? -cflag dw ? -cflag_high dw ? -ends rmregs_s -RMREGS = (rmregs_s PTR es:bx) - -struc rmsregs_s -es dw ? -cs dw ? -ss dw ? -ds dw ? -ends rmsregs_s -RMSREGS = (rmsregs_s PTR es:bx) - -endif ; !flatmodel - -ifdef flatmodel - cextern _PM_savedDS,USHORT - cextern _PM_VXD_off,UINT - cextern _PM_VXD_sel,UINT -ifdef DOS4GW - cextern _PM_haveCauseWay,UINT -endif -endif -intel_id db "GenuineIntel" ; Intel vendor ID - -PMHELP_GETPDB EQU 0026h -PMHELP_FLUSHTLB EQU 0027h - -enddataseg _pmdos - -P586 - -begcodeseg _pmdos ; Start of code segment - -ifndef flatmodel - -;---------------------------------------------------------------------------- -; void PM_callRealMode(unsigned s,unsigned o, RMREGS *regs, -; RMSREGS *sregs) -;---------------------------------------------------------------------------- -; Calls a real mode procedure, loading the appropriate registers values -; from the passed in structures. Only the DS and ES register are loaded -; from the SREGS structure. -;---------------------------------------------------------------------------- -cprocstart PM_callRealMode - - ARG s:WORD, o:WORD, regs:DWORD, sregs:DWORD - - LOCAL addr:DWORD, bxVal:WORD, esVal:WORD, flags:WORD = LocalSize - - enter_c - push ds - push es - - mov ax,[o] ; Build the address to call in 'addr' - mov [WORD addr],ax - mov ax,[s] - mov [WORD addr+2],ax - - les bx,[sregs] - mov ax,[RMSREGS.ds] - mov ds,ax ; DS := passed in value - mov ax,[RMSREGS.es] - mov [esVal],ax - les bx,[regs] - mov ax,[RMREGS.bx] - mov [bxVal],ax - mov ax,[RMREGS.ax] ; AX := passed in value - mov cx,[RMREGS.cx] ; CX := passed in value - mov dx,[RMREGS.dx] ; DX := passed in value - mov si,[RMREGS.si] ; SI := passed in value - mov di,[RMREGS.di] ; DI := passed in value - push bp - push [esVal] - pop es ; ES := passed in value - mov bx,[bxVal] ; BX := passed in value - - call [addr] ; Call the specified routine - - pushf ; Save flags for later - pop [flags] - - pop bp - push es - pop [esVal] - push bx - pop [bxVal] - les bx,[sregs] - push ds - pop [RMSREGS.ds] ; Save value of DS - push [esVal] - pop [RMSREGS.es] ; Save value of ES - les bx,[regs] - mov [RMREGS.ax],ax ; Save value of AX - mov [RMREGS.cx],cx ; Save value of CX - mov [RMREGS.dx],dx ; Save value of DX - mov [RMREGS.si],si ; Save value of SI - mov [RMREGS.di],di ; Save value of DI - mov ax,[flags] ; Return flags - and ax,1h ; Isolate carry flag - mov [RMREGS.cflag],ax ; Save carry flag status - mov ax,[bxVal] - mov [RMREGS.bx],ax ; Save value of BX - - pop es - pop ds - leave_c - ret - -cprocend - -endif - -;---------------------------------------------------------------------------- -; void PM_segread(PMSREGS *sregs) -;---------------------------------------------------------------------------- -; Read the current value of all segment registers -;---------------------------------------------------------------------------- -cprocstartdll16 PM_segread - - ARG sregs:DPTR - - enter_c - - mov ax,es - _les _si,[sregs] - mov [_ES _si],ax - mov [_ES _si+2],cs - mov [_ES _si+4],ss - mov [_ES _si+6],ds - mov [_ES _si+8],fs - mov [_ES _si+10],gs - - leave_c - ret - -cprocend - -; Create a table of the 256 different interrupt calls that we can jump -; into - -ifdef USE_NASM - -%assign intno 0 - -intTable: -%rep 256 - db 0CDh - db intno -%assign intno intno + 1 - ret - nop -%endrep - -else - -intno = 0 - -intTable: - REPT 256 - db 0CDh - db intno -intno = intno + 1 - ret - nop - ENDM - -endif - -;---------------------------------------------------------------------------- -; _PM_genInt - Generate the appropriate interrupt -;---------------------------------------------------------------------------- -cprocnear _PM_genInt - - push _ax ; Save _ax - push _bx ; Save _bx -ifdef flatmodel - mov ebx,[UINT esp+12] ; EBX := interrupt number -else - mov bx,sp ; Make sure ESP is zeroed - mov bx,[UINT ss:bx+6] ; BX := interrupt number -endif - mov _ax,offset intTable ; Point to interrupt generation table - shl _bx,2 ; _BX := index into table - add _ax,_bx ; _AX := pointer to interrupt code -ifdef flatmodel - xchg eax,[esp+4] ; Restore eax, and set for int -else - mov bx,sp - xchg ax,[ss:bx+2] ; Restore ax, and set for int -endif - pop _bx ; restore _bx - ret - -cprocend - -;---------------------------------------------------------------------------- -; int PM_int386x(int intno, PMREGS *in, PMREGS *out,PMSREGS *sregs) -;---------------------------------------------------------------------------- -; Issues a software interrupt in protected mode. This routine has been -; written to allow user programs to load CS and DS with different values -; other than the default. -;---------------------------------------------------------------------------- -cprocstartdll16 PM_int386x - - ARG intno:UINT, inptr:DPTR, outptr:DPTR, sregs:DPTR - - LOCAL flags:UINT, sv_ds:UINT, sv_esi:ULONG = LocalSize - - enter_c - push ds - push es ; Save segment registers - push fs - push gs - - _lds _si,[sregs] ; DS:_SI -> Load segment registers - mov es,[_si] - mov bx,[_si+6] - mov [sv_ds],_bx ; Save value of user DS on stack - mov fs,[_si+8] - mov gs,[_si+10] - - _lds _si,[inptr] ; Load CPU registers - mov eax,[_si] - mov ebx,[_si+4] - mov ecx,[_si+8] - mov edx,[_si+12] - mov edi,[_si+20] - mov esi,[_si+16] - - push ds ; Save value of DS - push _bp ; Some interrupts trash this! - clc ; Generate the interrupt - push [UINT intno] - mov ds,[WORD sv_ds] ; Set value of user's DS selector - call _PM_genInt - pop _bp ; Pop intno from stack (flags unchanged) - pop _bp ; Restore value of stack frame pointer - pop ds ; Restore value of DS - - pushf ; Save flags for later - pop [UINT flags] - push esi ; Save ESI for later - pop [DWORD sv_esi] - push ds ; Save DS for later - pop [UINT sv_ds] - - _lds _si,[outptr] ; Save CPU registers - mov [_si],eax - mov [_si+4],ebx - mov [_si+8],ecx - mov [_si+12],edx - push [DWORD sv_esi] - pop [DWORD _si+16] - mov [_si+20],edi - - mov _bx,[flags] ; Return flags - and ebx,1h ; Isolate carry flag - mov [_si+24],ebx ; Save carry flag status - - _lds _si,[sregs] ; Save segment registers - mov [_si],es - mov _bx,[sv_ds] - mov [_si+6],bx ; Get returned DS from stack - mov [_si+8],fs - mov [_si+10],gs - - pop gs ; Restore segment registers - pop fs - pop es - pop ds - leave_c - ret - -cprocend - -ifndef flatmodel -_PM_savedDS dw _DATA ; Saved value of DS -endif - -;---------------------------------------------------------------------------- -; void PM_saveDS(void) -;---------------------------------------------------------------------------- -; Save the value of DS into a section of the code segment, so that we can -; quickly load this value at a later date in the PM_loadDS() routine from -; inside interrupt handlers etc. The method to do this is different -; depending on the DOS extender being used. -;---------------------------------------------------------------------------- -cprocstartdll16 PM_saveDS - -ifdef flatmodel - mov [_PM_savedDS],ds ; Store away in data segment -endif - ret - -cprocend - -;---------------------------------------------------------------------------- -; void PM_loadDS(void) -;---------------------------------------------------------------------------- -; Routine to load the DS register with the default value for the current -; DOS extender. Only the DS register is loaded, not the ES register, so -; if you wish to call C code, you will need to also load the ES register -; in 32 bit protected mode. -;---------------------------------------------------------------------------- -cprocstartdll16 PM_loadDS - - mov ds,[cs:_PM_savedDS] ; We can access the proper DS through CS - ret - -cprocend - -ifdef flatmodel - -;---------------------------------------------------------------------------- -; ibool DPMI_allocateCallback(void (*pmcode)(), void *rmregs, long *RMCB) -;---------------------------------------------------------------------------- -cprocstart _DPMI_allocateCallback - - ARG pmcode:CPTR, rmregs:DPTR, RMCB:DPTR - - enter_c - push ds - push es - - push cs - pop ds - mov esi,[pmcode] ; DS:ESI -> protected mode code to call - mov edi,[rmregs] ; ES:EDI -> real mode register buffer - mov ax,303h ; AX := allocate realmode callback function - int 31h - mov eax,0 ; Return failure! - jc @@Fail - - mov eax,[RMCB] - shl ecx,16 - mov cx,dx - mov [es:eax],ecx ; Return real mode address - mov eax,1 ; Return success! - -@@Fail: pop es - pop ds - leave_c - ret - -cprocend - -;---------------------------------------------------------------------------- -; void DPMI_freeCallback(long RMCB) -;---------------------------------------------------------------------------- -cprocstart _DPMI_freeCallback - - ARG RMCB:ULONG - - enter_c - - mov cx,[WORD RMCB+2] - mov dx,[WORD RMCB] ; CX:DX := real mode callback - mov ax,304h - int 31h - - leave_c - ret - -cprocend - -endif - -; Macro to delay briefly to ensure that enough time has elapsed between -; successive I/O accesses so that the device being accessed can respond -; to both accesses even on a very fast PC. - -ifdef USE_NASM -%macro DELAY 0 - jmp short $+2 - jmp short $+2 - jmp short $+2 -%endmacro -%macro IODELAYN 1 -%rep %1 - DELAY -%endrep -%endmacro -else -macro DELAY - jmp short $+2 - jmp short $+2 - jmp short $+2 -endm -macro IODELAYN N - rept N - DELAY - endm -endm -endif - -;---------------------------------------------------------------------------- -; uchar _PM_readCMOS(int index) -;---------------------------------------------------------------------------- -; Read the value of a specific CMOS register. We do this with both -; normal interrupts and NMI disabled. -;---------------------------------------------------------------------------- -cprocstart _PM_readCMOS - - ARG index:UINT - - push _bp - mov _bp,_sp - pushfd - mov al,[BYTE index] - or al,80h ; Add disable NMI flag - cli - out 70h,al - IODELAYN 5 - in al,71h - mov ah,al - xor al,al - IODELAYN 5 - out 70h,al ; Re-enable NMI - sti - mov al,ah ; Return value in AL - popfd - pop _bp - ret - -cprocend - -;---------------------------------------------------------------------------- -; void _PM_writeCMOS(int index,uchar value) -;---------------------------------------------------------------------------- -; Read the value of a specific CMOS register. We do this with both -; normal interrupts and NMI disabled. -;---------------------------------------------------------------------------- -cprocstart _PM_writeCMOS - - ARG index:UINT, value:UCHAR - - push _bp - mov _bp,_sp - pushfd - mov al,[BYTE index] - or al,80h ; Add disable NMI flag - cli - out 70h,al - IODELAYN 5 - mov al,[value] - out 71h,al - xor al,al - IODELAYN 5 - out 70h,al ; Re-enable NMI - sti - popfd - pop _bp - ret - -cprocend - -ifdef flatmodel - -;---------------------------------------------------------------------------- -; int _PM_pagingEnabled(void) -;---------------------------------------------------------------------------- -; Returns 1 if paging is enabled, 0 if not or -1 if not at ring 0 -;---------------------------------------------------------------------------- -cprocstart _PM_pagingEnabled - - mov eax,-1 -ifdef DOS4GW - mov cx,cs - and ecx,3 - jz @@Ring0 - cmp [UINT _PM_haveCauseWay],0 - jnz @@Ring0 - jmp @@Exit - -@@Ring0: - mov eax,cr0 ; Load CR0 - shr eax,31 ; Isolate paging enabled bit -endif -@@Exit: ret - -cprocend - -;---------------------------------------------------------------------------- -; _PM_getPDB - Return the Page Table Directory Base address -;---------------------------------------------------------------------------- -cprocstart _PM_getPDB - -ifdef DOS4GW - mov ax,cs - and eax,3 - jz @@Ring0 - cmp [UINT _PM_haveCauseWay],0 - jnz @@Ring0 -endif - -; Call VxD if running at ring 3 in a DOS box - - cmp [WORD _PM_VXD_sel],0 - jz @@Fail - mov eax,PMHELP_GETPDB -ifdef USE_NASM - call far dword [_PM_VXD_off] -else - call [FCPTR _PM_VXD_off] -endif - ret - -@@Ring0: -ifdef DOS4GW - mov eax,cr3 - and eax,0FFFFF000h - ret -endif -@@Fail: xor eax,eax - ret - -cprocend - -;---------------------------------------------------------------------------- -; PM_flushTLB - Flush the Translation Lookaside buffer -;---------------------------------------------------------------------------- -cprocstart PM_flushTLB - - mov ax,cs - and eax,3 - jz @@Ring0 -ifdef DOS4GW - cmp [UINT _PM_haveCauseWay],0 - jnz @@Ring0 -endif - -; Call VxD if running at ring 3 in a DOS box - - cmp [WORD _PM_VXD_sel],0 - jz @@Fail - mov eax,PMHELP_FLUSHTLB -ifdef USE_NASM - call far dword [_PM_VXD_off] -else - call [FCPTR _PM_VXD_off] -endif - ret - -@@Ring0: -ifdef DOS4GW - wbinvd ; Flush the CPU cache - mov eax,cr3 - mov cr3,eax ; Flush the TLB -endif -@@Fail: ret - -cprocend - -endif - -;---------------------------------------------------------------------------- -; void _PM_VxDCall(VXD_regs far *r,uint off,uint sel); -;---------------------------------------------------------------------------- -cprocstart _PM_VxDCall - - ARG r:DPTR, off:UINT, sel:UINT - - enter_c - -; Load all registers from the registers structure - - mov ebx,[r] - mov eax,[ebx+0] - mov ecx,[ebx+8] - mov edx,[ebx+12] - mov esi,[ebx+16] - mov edi,[ebx+20] - mov ebx,[ebx+4] ; Trashes BX structure pointer! - -; Call the VxD entry point (on stack) - -ifdef USE_NASM - call far dword [off] -else - call [FCPTR off] -endif - -; Save all registers back in the structure - - push ebx ; Push EBX onto stack for later - mov ebx,[r] - mov [ebx+0],eax - mov [ebx+8],ecx - mov [ebx+12],edx - mov [ebx+16],esi - mov [ebx+20],edi - pop [DWORD ebx+4] ; Save value of EBX from stack - - leave_c - ret - -cprocend - -endcodeseg _pmdos - - END ; End of module diff --git a/board/MAI/bios_emulator/scitech/src/pm/dos/_pmdos.asm b/board/MAI/bios_emulator/scitech/src/pm/dos/_pmdos.asm deleted file mode 100644 index 5c741f346c..0000000000 --- a/board/MAI/bios_emulator/scitech/src/pm/dos/_pmdos.asm +++ /dev/null @@ -1,1105 +0,0 @@ -;**************************************************************************** -;* -;* SciTech OS Portability Manager Library -;* -;* ======================================================================== -;* -;* The contents of this file are subject to the SciTech MGL Public -;* License Version 1.0 (the "License"); you may not use this file -;* except in compliance with the License. You may obtain a copy of -;* the License at http://www.scitechsoft.com/mgl-license.txt -;* -;* Software distributed under the License is distributed on an -;* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -;* implied. See the License for the specific language governing -;* rights and limitations under the License. -;* -;* The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc. -;* -;* The Initial Developer of the Original Code is SciTech Software, Inc. -;* All Rights Reserved. -;* -;* ======================================================================== -;* -;* Language: 80386 Assembler, TASM 4.0 or NASM -;* Environment: IBM PC Real mode and 16/32 bit protected mode -;* -;* Description: Low level assembly support for the PM library specific to -;* MSDOS interrupt handling. -;* -;**************************************************************************** - - IDEAL - -include "scitech.mac" ; Memory model macros - -header _pmdos ; Set up memory model - -; Define the size of our local stacks. For real mode code they cant be -; that big, but for 32 bit protected mode code we can make them nice and -; large so that complex C functions can be used. - -ifdef flatmodel -MOUSE_STACK EQU 4096 -TIMER_STACK EQU 4096 -KEY_STACK EQU 1024 -INT10_STACK EQU 1024 -IRQ_STACK EQU 1024 -else -MOUSE_STACK EQU 1024 -TIMER_STACK EQU 512 -KEY_STACK EQU 256 -INT10_STACK EQU 256 -IRQ_STACK EQU 256 -endif - -ifdef USE_NASM - -; Macro to load DS and ES registers with correct value. - -%imacro LOAD_DS 0 -%ifdef flatmodel - mov ds,[cs:_PM_savedDS] - mov es,[cs:_PM_savedDS] -%else - push ax - mov ax,_DATA - mov ds,ax - pop ax -%endif -%endmacro - -; Note that interrupts we disable interrupts during the following stack -; %imacro for correct operation, but we do not enable them again. Normally -; these %imacros are used within interrupt handlers so interrupts should -; already be off. We turn them back on explicitly later if the user code -; needs them to be back on. - -; Macro to switch to a new local stack. - -%imacro NEWSTK 1 - cli - mov [seg_%1],ss - mov [ptr_%1],_sp - mov [TempSeg],ds - mov ss,[TempSeg] - mov _sp,offset %1 -%endmacro - -; %imacro to switch back to the old stack. - -%imacro RESTSTK 1 - cli - mov ss,[seg_%1] - mov _sp,[ptr_%1] -%endmacro - -; %imacro to swap the current stack with the one saved away. - -%imacro SWAPSTK 1 - cli - mov ax,ss - xchg ax,[seg_%1] - mov ss,ax - xchg _sp,[ptr_%1] -%endmacro - -else - -; Macro to load DS and ES registers with correct value. - -MACRO LOAD_DS -ifdef flatmodel - mov ds,[cs:_PM_savedDS] - mov es,[cs:_PM_savedDS] -else - push ax - mov ax,_DATA - mov ds,ax - pop ax -endif -ENDM - -; Note that interrupts we disable interrupts during the following stack -; macro for correct operation, but we do not enable them again. Normally -; these macros are used within interrupt handlers so interrupts should -; already be off. We turn them back on explicitly later if the user code -; needs them to be back on. - -; Macro to switch to a new local stack. - -MACRO NEWSTK stkname - cli - mov [seg_&stkname&],ss - mov [ptr_&stkname&],_sp - mov [TempSeg],ds - mov ss,[TempSeg] - mov _sp,offset stkname -ENDM - -; Macro to switch back to the old stack. - -MACRO RESTSTK stkname - cli - mov ss,[seg_&stkname&] - mov _sp,[ptr_&stkname&] -ENDM - -; Macro to swap the current stack with the one saved away. - -MACRO SWAPSTK stkname - cli - mov ax,ss - xchg ax,[seg_&stkname&] - mov ss,ax - xchg _sp,[ptr_&stkname&] -ENDM - -endif - -begdataseg _pmdos - -ifdef flatmodel - cextern _PM_savedDS,USHORT -endif - cextern _PM_critHandler,CPTR - cextern _PM_breakHandler,CPTR - cextern _PM_timerHandler,CPTR - cextern _PM_rtcHandler,CPTR - cextern _PM_keyHandler,CPTR - cextern _PM_key15Handler,CPTR - cextern _PM_mouseHandler,CPTR - cextern _PM_int10Handler,CPTR - - cextern _PM_ctrlCPtr,DPTR - cextern _PM_ctrlBPtr,DPTR - cextern _PM_critPtr,DPTR - - cextern _PM_prevTimer,FCPTR - cextern _PM_prevRTC,FCPTR - cextern _PM_prevKey,FCPTR - cextern _PM_prevKey15,FCPTR - cextern _PM_prevBreak,FCPTR - cextern _PM_prevCtrlC,FCPTR - cextern _PM_prevCritical,FCPTR - cextern _PM_prevRealTimer,ULONG - cextern _PM_prevRealRTC,ULONG - cextern _PM_prevRealKey,ULONG - cextern _PM_prevRealKey15,ULONG - cextern _PM_prevRealInt10,ULONG - -cpublic _PM_pmdosDataStart - -; Allocate space for all of the local stacks that we need. These stacks -; are not very large, but should be large enough for most purposes -; (generally you want to handle these interrupts quickly, simply storing -; the information for later and then returning). If you need bigger -; stacks then change the appropriate value in here. - - ALIGN 4 - dclb MOUSE_STACK ; Space for local stack (small) -MsStack: ; Stack starts at end! -ptr_MsStack DUINT 0 ; Place to store old stack offset -seg_MsStack dw 0 ; Place to store old stack segment - - ALIGN 4 - dclb INT10_STACK ; Space for local stack (small) -Int10Stack: ; Stack starts at end! -ptr_Int10Stack DUINT 0 ; Place to store old stack offset -seg_Int10Stack dw 0 ; Place to store old stack segment - - ALIGN 4 - dclb TIMER_STACK ; Space for local stack (small) -TmStack: ; Stack starts at end! -ptr_TmStack DUINT 0 ; Place to store old stack offset -seg_TmStack dw 0 ; Place to store old stack segment - - ALIGN 4 - dclb TIMER_STACK ; Space for local stack (small) -RtcStack: ; Stack starts at end! -ptr_RtcStack DUINT 0 ; Place to store old stack offset -seg_RtcStack dw 0 ; Place to store old stack segment -RtcInside dw 0 ; Are we still handling current interrupt - - ALIGN 4 - dclb KEY_STACK ; Space for local stack (small) -KyStack: ; Stack starts at end! -ptr_KyStack DUINT 0 ; Place to store old stack offset -seg_KyStack dw 0 ; Place to store old stack segment -KyInside dw 0 ; Are we still handling current interrupt - - ALIGN 4 - dclb KEY_STACK ; Space for local stack (small) -Ky15Stack: ; Stack starts at end! -ptr_Ky15Stack DUINT 0 ; Place to store old stack offset -seg_Ky15Stack dw 0 ; Place to store old stack segment - -TempSeg dw 0 ; Place to store stack segment - -cpublic _PM_pmdosDataEnd - -enddataseg _pmdos - -begcodeseg _pmdos ; Start of code segment - -cpublic _PM_pmdosCodeStart - -;---------------------------------------------------------------------------- -; PM_mouseISR - Mouse interrupt subroutine dispatcher -;---------------------------------------------------------------------------- -; Interrupt subroutine called by the mouse driver upon interrupts, to -; dispatch control to high level C based subroutines. Interrupts are on -; when we call the user code. -; -; It is _extremely_ important to save the state of the extended registers -; as these may well be trashed by the routines called from here and not -; restored correctly by the mouse interface module. -; -; NOTE: This routine switches to a local stack before calling any C code, -; and hence is _not_ re-entrant. For mouse handlers this is not a -; problem, as the mouse driver arbitrates calls to the user mouse -; handler for us. -; -; Entry: AX - Condition mask giving reason for call -; BX - Mouse button state -; CX - Horizontal cursor coordinate -; DX - Vertical cursor coordinate -; SI - Horizontal mickey value -; DI - Vertical mickey value -; -;---------------------------------------------------------------------------- -ifdef DJGPP -cprocstart _PM_mouseISR -else -cprocfar _PM_mouseISR -endif - - push ds ; Save value of DS - push es - pushad ; Save _all_ extended registers - cld ; Clear direction flag - - LOAD_DS ; Load DS register - NEWSTK MsStack ; Switch to local stack - -; Call the installed high level C code routine - - clrhi dx ; Clear out high order values - clrhi cx - clrhi bx - clrhi ax - sgnhi si - sgnhi di - - push _di - push _si - push _dx - push _cx - push _bx - push _ax - sti ; Enable interrupts - call [CPTR _PM_mouseHandler] - _add sp,12,24 - - RESTSTK MsStack ; Restore previous stack - - popad ; Restore all extended registers - pop es - pop ds - ret ; We are done!! - -cprocend - -;---------------------------------------------------------------------------- -; PM_timerISR - Timer interrupt subroutine dispatcher -;---------------------------------------------------------------------------- -; Hardware interrupt handler for the timer interrupt, to dispatch control -; to high level C based subroutines. We save the state of all registers -; in this routine, and switch to a local stack. Interrupts are *off* -; when we call the user code. -; -; NOTE: This routine switches to a local stack before calling any C code, -; and hence is _not_ re-entrant. Make sure your C code executes as -; quickly as possible, since a timer overrun will simply hang the -; system. -;---------------------------------------------------------------------------- -cprocfar _PM_timerISR - - push ds ; Save value of DS - push es - pushad ; Save _all_ extended registers - cld ; Clear direction flag - - LOAD_DS ; Load DS register - - NEWSTK TmStack ; Switch to local stack - call [CPTR _PM_timerHandler] - RESTSTK TmStack ; Restore previous stack - - popad ; Restore all extended registers - pop es - pop ds - iret ; Return from interrupt - -cprocend - -;---------------------------------------------------------------------------- -; PM_chainPrevTimer - Chain to previous timer interrupt and return -;---------------------------------------------------------------------------- -; Chains to the previous timer interrupt routine and returns control -; back to the high level interrupt handler. -;---------------------------------------------------------------------------- -cprocstart PM_chainPrevTimer - -ifdef TNT - push eax - push ebx - push ecx - pushfd ; Push flags on stack to simulate interrupt - mov ax,250Eh ; Call real mode procedure function - mov ebx,[_PM_prevRealTimer] - mov ecx,1 ; Copy real mode flags to real mode stack - int 21h ; Call the real mode code - popfd - pop ecx - pop ebx - pop eax - ret -else - SWAPSTK TmStack ; Swap back to previous stack - pushf ; Save state of interrupt flag - pushf ; Push flags on stack to simulate interrupt -ifdef USE_NASM - call far dword [_PM_prevTimer] -else - call [_PM_prevTimer] -endif - popf ; Restore state of interrupt flag - SWAPSTK TmStack ; Swap back to C stack again - ret -endif - -cprocend - -; Macro to delay briefly to ensure that enough time has elapsed between -; successive I/O accesses so that the device being accessed can respond -; to both accesses even on a very fast PC. - -ifdef USE_NASM -%macro DELAY 0 - jmp short $+2 - jmp short $+2 - jmp short $+2 -%endmacro -%macro IODELAYN 1 -%rep %1 - DELAY -%endrep -%endmacro -else -macro DELAY - jmp short $+2 - jmp short $+2 - jmp short $+2 -endm -macro IODELAYN N - rept N - DELAY - endm -endm -endif - -;---------------------------------------------------------------------------- -; PM_rtcISR - Real time clock interrupt subroutine dispatcher -;---------------------------------------------------------------------------- -; Hardware interrupt handler for the timer interrupt, to dispatch control -; to high level C based subroutines. We save the state of all registers -; in this routine, and switch to a local stack. Interrupts are *off* -; when we call the user code. -; -; NOTE: This routine switches to a local stack before calling any C code, -; and hence is _not_ re-entrant. Make sure your C code executes as -; quickly as possible, since a timer overrun will simply hang the -; system. -;---------------------------------------------------------------------------- -cprocfar _PM_rtcISR - - push ds ; Save value of DS - push es - pushad ; Save _all_ extended registers - cld ; Clear direction flag - -; Clear priority interrupt controller and re-enable interrupts so we -; dont lock things up for long. - - mov al,20h - out 0A0h,al - out 020h,al - -; Clear real-time clock timeout - - in al,70h ; Read CMOS index register - push _ax ; and save for later - IODELAYN 3 - mov al,0Ch - out 70h,al - IODELAYN 5 - in al,71h - -; Call the C interrupt handler function - - LOAD_DS ; Load DS register - cmp [BYTE RtcInside],1 ; Check for mutual exclusion - je @@Exit - mov [BYTE RtcInside],1 - NEWSTK RtcStack ; Switch to local stack - sti ; Re-enable interrupts - call [CPTR _PM_rtcHandler] - RESTSTK RtcStack ; Restore previous stack - mov [BYTE RtcInside],0 - -@@Exit: pop _ax - out 70h,al ; Restore CMOS index register - popad ; Restore all extended registers - pop es - pop ds - iret ; Return from interrupt - -cprocend - -ifdef flatmodel -;---------------------------------------------------------------------------- -; PM_irqISRTemplate - Hardware interrupt handler IRQ template -;---------------------------------------------------------------------------- -; Hardware interrupt handler for any interrupt, to dispatch control -; to high level C based subroutines. We save the state of all registers -; in this routine, and switch to a local stack. Interrupts are *off* -; when we call the user code. -; -; NOTE: This routine switches to a local stack before calling any C code, -; and hence is _not_ re-entrant. Make sure your C code executes as -; quickly as possible. -;---------------------------------------------------------------------------- -cprocfar _PM_irqISRTemplate - - push ebx - mov ebx,0 ; Relocation adjustment factor - jmp __IRQEntry - -; Global variables stored in the IRQ thunk code segment - -_CHandler dd 0 ; Pointer to C interrupt handler -_PrevIRQ dd 0 ; Previous IRQ handler - dd 0 -_IRQ dd 0 ; IRQ we are hooked for -ptr_IRQStack DUINT 0 ; Place to store old stack offset -seg_IRQStack dw 0 ; Place to store old stack segment -_Inside db 0 ; Mutual exclusion flag - ALIGN 4 - dclb IRQ_STACK ; Space for local stack -_IRQStack: ; Stack starts at end! - -; Check for and reject spurious IRQ 7 signals - -__IRQEntry: - cmp [BYTE cs:ebx+_IRQ],7 ; Spurious IRQs occur only on IRQ 7 - jmp @@ValidIRQ - push eax - mov al,1011b ; OCW3: read ISR - out 20h,al ; (Intel Peripheral Components, 1991, - in al,20h ; p. 3-188) - shl al,1 ; Set C = bit 7 (IRQ 7) of ISR register - pop eax - jc @@ValidIRQ - iret ; Return from interrupt - -; Save all registers for duration of IRQ handler - -@@ValidIRQ: - push ds ; Save value of DS - push es - pushad ; Save _all_ extended registers - cld ; Clear direction flag - LOAD_DS ; Load DS register - -; Send an EOI to the PIC - - mov al,20h ; Send EOI to PIC - cmp [BYTE ebx+_IRQ],8 ; Clear PIC1 first if IRQ >= 8 - jb @@1 - out 0A0h,al -@@1: out 20h,al - -; Check for mutual exclusion - - cmp [BYTE ebx+_Inside],1 - je @@ChainOldHandler - mov [BYTE ebx+_Inside],1 - -; Call the C interrupt handler function - - mov [ebx+seg_IRQStack],ss ; Switch to local stack - mov [ebx+ptr_IRQStack],esp - mov [TempSeg],ds - mov ss,[TempSeg] - lea esp,[ebx+_IRQStack] - sti ; Re-enable interrupts - push ebx - call [DWORD ebx+_CHandler] - pop ebx - cli - mov ss,[ebx+seg_IRQStack] ; Restore previous stack - mov esp,[ebx+ptr_IRQStack] - or eax,eax - jz @@ChainOldHandler ; Chain if not handled for shared IRQ - -@@Exit: mov [BYTE ebx+_Inside],0 - popad ; Restore all extended registers - pop es - pop ds - pop ebx - iret ; Return from interrupt - -@@ChainOldHandler: - cmp [DWORD ebx+_PrevIRQ],0 - jz @@Exit - mov [BYTE ebx+_Inside],0 - mov eax,[DWORD ebx+_PrevIRQ] - mov ebx,[DWORD ebx+_PrevIRQ+4] - mov [DWORD _PrevIRQ],eax - mov [DWORD _PrevIRQ+4],ebx - popad ; Restore all extended registers - pop es - pop ds - pop ebx - jmp [cs:_PrevIRQ] ; Chain to previous IRQ handler - -cprocend -cpublic _PM_irqISRTemplateEnd -endif - -;---------------------------------------------------------------------------- -; PM_keyISR - keyboard interrupt subroutine dispatcher -;---------------------------------------------------------------------------- -; Hardware interrupt handler for the keyboard interrupt, to dispatch control -; to high level C based subroutines. We save the state of all registers -; in this routine, and switch to a local stack. Interrupts are *off* -; when we call the user code. -; -; NOTE: This routine switches to a local stack before calling any C code, -; and hence is _not_ re-entrant. However we ensure within this routine -; mutual exclusion to the keyboard handling routine. -;---------------------------------------------------------------------------- -cprocfar _PM_keyISR - - push ds ; Save value of DS - push es - pushad ; Save _all_ extended registers - cld ; Clear direction flag - - LOAD_DS ; Load DS register - - cmp [BYTE KyInside],1 ; Check for mutual exclusion - je @@Reissued - - mov [BYTE KyInside],1 - NEWSTK KyStack ; Switch to local stack - call [CPTR _PM_keyHandler] ; Call C code - RESTSTK KyStack ; Restore previous stack - mov [BYTE KyInside],0 - -@@Exit: popad ; Restore all extended registers - pop es - pop ds - iret ; Return from interrupt - -; When the BIOS keyboard handler needs to change the SHIFT status lights -; on the keyboard, in the process of doing this the keyboard controller -; re-issues another interrupt, while the current handler is still executing. -; If we recieve another interrupt while still handling the current one, -; then simply chain directly to the previous handler. -; -; Note that for most DOS extenders, the real mode interrupt handler that we -; install takes care of this for us. - -@@Reissued: -ifdef TNT - push eax - push ebx - push ecx - pushfd ; Push flags on stack to simulate interrupt - mov ax,250Eh ; Call real mode procedure function - mov ebx,[_PM_prevRealKey] - mov ecx,1 ; Copy real mode flags to real mode stack - int 21h ; Call the real mode code - popfd - pop ecx - pop ebx - pop eax -else - pushf -ifdef USE_NASM - call far dword [_PM_prevKey] -else - call [_PM_prevKey] -endif -endif - jmp @@Exit - -cprocend - -;---------------------------------------------------------------------------- -; PM_chainPrevkey - Chain to previous key interrupt and return -;---------------------------------------------------------------------------- -; Chains to the previous key interrupt routine and returns control -; back to the high level interrupt handler. -;---------------------------------------------------------------------------- -cprocstart PM_chainPrevKey - -ifdef TNT - push eax - push ebx - push ecx - pushfd ; Push flags on stack to simulate interrupt - mov ax,250Eh ; Call real mode procedure function - mov ebx,[_PM_prevRealKey] - mov ecx,1 ; Copy real mode flags to real mode stack - int 21h ; Call the real mode code - popfd - pop ecx - pop ebx - pop eax - ret -else - -; YIKES! For some strange reason, when execution returns from the -; previous keyboard handler, interrupts are re-enabled!! Since we expect -; interrupts to remain off during the duration of our handler, this can -; cause havoc. However our stack macros always turn off interrupts, so they -; will be off when we exit this routine. Obviously there is a tiny weeny -; window when interrupts will be enabled, but there is nothing we can -; do about this. - - SWAPSTK KyStack ; Swap back to previous stack - pushf ; Push flags on stack to simulate interrupt -ifdef USE_NASM - call far dword [_PM_prevKey] -else - call [_PM_prevKey] -endif - SWAPSTK KyStack ; Swap back to C stack again - ret -endif - -cprocend - -;---------------------------------------------------------------------------- -; PM_key15ISR - Int 15h keyboard interrupt subroutine dispatcher -;---------------------------------------------------------------------------- -; This routine gets called if we have been called to handle the Int 15h -; keyboard interrupt callout from real mode. -; -; Entry: AX - Hardware scan code to process -; Exit: AX - Hardware scan code to process (0 to ignore) -;---------------------------------------------------------------------------- -cprocfar _PM_key15ISR - - push ds - push es - LOAD_DS - cmp ah,4Fh - jnz @@NotOurs ; Quit if not keyboard callout - - pushad - cld ; Clear direction flag - xor ah,ah ; AX := scan code - NEWSTK Ky15Stack ; Switch to local stack - push _ax - call [CPTR _PM_key15Handler] ; Call C code - _add sp,2,4 - RESTSTK Ky15Stack ; Restore previous stack - test ax,ax - jz @@1 - stc ; Set carry to process as normal - jmp @@2 -@@1: clc ; Clear carry to ignore scan code -@@2: popad - jmp @@Exit ; We are done - -@@NotOurs: -ifdef TNT - push eax - push ebx - push ecx - pushfd ; Push flags on stack to simulate interrupt - mov ax,250Eh ; Call real mode procedure function - mov ebx,[_PM_prevRealKey15] - mov ecx,1 ; Copy real mode flags to real mode stack - int 21h ; Call the real mode code - popfd - pop ecx - pop ebx - pop eax -else - pushf -ifdef USE_NASM - call far dword [_PM_prevKey15] -else - call [_PM_prevKey15] -endif -endif -@@Exit: pop es - pop ds -ifdef flatmodel - retf 4 -else - retf 2 -endif - -cprocend - -;---------------------------------------------------------------------------- -; PM_breakISR - Control Break interrupt subroutine dispatcher -;---------------------------------------------------------------------------- -; Hardware interrupt handler for the Ctrl-Break interrupt. We simply set -; the Ctrl-Break flag to a 1 and leave (note that this is accessed through -; a far pointer, as it may well be located in conventional memory). -;---------------------------------------------------------------------------- -cprocfar _PM_breakISR - - sti - push ds ; Save value of DS - push es - push _bx - - LOAD_DS ; Load DS register -ifdef flatmodel - mov ebx,[_PM_ctrlBPtr] -else - les bx,[_PM_ctrlBPtr] -endif - mov [UINT _ES _bx],1 - -; Run alternate break handler code if installed - - cmp [CPTR _PM_breakHandler],0 - je @@Exit - - pushad - mov _ax,1 - push _ax - call [CPTR _PM_breakHandler] ; Call C code - pop _ax - popad - -@@Exit: pop _bx - pop es - pop ds - iret ; Return from interrupt - -cprocend - -;---------------------------------------------------------------------------- -; int PM_ctrlBreakHit(int clearFlag) -;---------------------------------------------------------------------------- -; Returns the current state of the Ctrl-Break flag and possibly clears it. -;---------------------------------------------------------------------------- -cprocstart PM_ctrlBreakHit - - ARG clearFlag:UINT - - enter_c - pushf ; Save interrupt status - push es -ifdef flatmodel - mov ebx,[_PM_ctrlBPtr] -else - les bx,[_PM_ctrlBPtr] -endif - cli ; No interrupts thanks! - mov _ax,[_ES _bx] - test [BYTE clearFlag],1 - jz @@Done - mov [UINT _ES _bx],0 - -@@Done: pop es - popf ; Restore interrupt status - leave_c - ret - -cprocend - -;---------------------------------------------------------------------------- -; PM_ctrlCISR - Control Break interrupt subroutine dispatcher -;---------------------------------------------------------------------------- -; Hardware interrupt handler for the Ctrl-C interrupt. We simply set -; the Ctrl-C flag to a 1 and leave (note that this is accessed through -; a far pointer, as it may well be located in conventional memory). -;---------------------------------------------------------------------------- -cprocfar _PM_ctrlCISR - - sti - push ds ; Save value of DS - push es - push _bx - - LOAD_DS ; Load DS register -ifdef flatmodel - mov ebx,[_PM_ctrlCPtr] -else - les bx,[_PM_ctrlCPtr] -endif - mov [UINT _ES _bx],1 - -; Run alternate break handler code if installed - - cmp [CPTR _PM_breakHandler],0 - je @@Exit - - pushad - mov _ax,0 - push _ax - call [CPTR _PM_breakHandler] ; Call C code - pop _ax - popad - -@@Exit: pop _bx - pop es - pop ds - iret ; Return from interrupt - iretd - -cprocend - -;---------------------------------------------------------------------------- -; int PM_ctrlCHit(int clearFlag) -;---------------------------------------------------------------------------- -; Returns the current state of the Ctrl-C flag and possibly clears it. -;---------------------------------------------------------------------------- -cprocstart PM_ctrlCHit - - ARG clearFlag:UINT - - enter_c - pushf ; Save interrupt status - push es -ifdef flatmodel - mov ebx,[_PM_ctrlCPtr] -else - les bx,[_PM_ctrlCPtr] -endif - cli ; No interrupts thanks! - mov _ax,[_ES _bx] - test [BYTE clearFlag],1 - jz @@Done - mov [UINT _ES _bx],0 - -@@Done: - pop es - popf ; Restore interrupt status - leave_c - ret - -cprocend - -;---------------------------------------------------------------------------- -; PM_criticalISR - Control Error handler interrupt subroutine dispatcher -;---------------------------------------------------------------------------- -; Interrupt handler for the MSDOS Critical Error interrupt, to dispatch -; control to high level C based subroutines. We save the state of all -; registers in this routine, and switch to a local stack. We also pass -; the values of the AX and DI registers to the as pointers, so that the -; values can be modified before returning to MSDOS. -;---------------------------------------------------------------------------- -cprocfar _PM_criticalISR - - sti - push ds ; Save value of DS - push es - push _bx ; Save register values changed - cld ; Clear direction flag - - LOAD_DS ; Load DS register -ifdef flatmodel - mov ebx,[_PM_critPtr] -else - les bx,[_PM_critPtr] -endif - mov [_ES _bx],ax - mov [_ES _bx+2],di - -; Run alternate critical handler code if installed - - cmp [CPTR _PM_critHandler],0 - je @@NoAltHandler - - pushad - push _di - push _ax - call [CPTR _PM_critHandler] ; Call C code - _add sp,4,8 - popad - - pop _bx - pop es - pop ds - iret ; Return from interrupt - -@@NoAltHandler: - mov ax,3 ; Tell MSDOS to fail the operation - pop _bx - pop es - pop ds - iret ; Return from interrupt - -cprocend - -;---------------------------------------------------------------------------- -; int PM_criticalError(int *axVal,int *diVal,int clearFlag) -;---------------------------------------------------------------------------- -; Returns the current state of the critical error flags, and the values that -; MSDOS passed in the AX and DI registers to our handler. -;---------------------------------------------------------------------------- -cprocstart PM_criticalError - - ARG axVal:DPTR, diVal:DPTR, clearFlag:UINT - - enter_c - pushf ; Save interrupt status - push es -ifdef flatmodel - mov ebx,[_PM_critPtr] -else - les bx,[_PM_critPtr] -endif - cli ; No interrupts thanks! - xor _ax,_ax - xor _di,_di - mov ax,[_ES _bx] - mov di,[_ES _bx+2] - test [BYTE clearFlag],1 - jz @@NoClear - mov [ULONG _ES _bx],0 -@@NoClear: - _les _bx,[axVal] - mov [_ES _bx],_ax - _les _bx,[diVal] - mov [_ES _bx],_di - pop es - popf ; Restore interrupt status - leave_c - ret - -cprocend - -;---------------------------------------------------------------------------- -; void PM_setMouseHandler(int mask, PM_mouseHandler mh) -;---------------------------------------------------------------------------- -cprocstart _PM_setMouseHandler - - ARG mouseMask:UINT - - enter_c - push es - - mov ax,0Ch ; AX := Function 12 - install interrupt sub - mov _cx,[mouseMask] ; CX := mouse mask - mov _dx,offset _PM_mouseISR - push cs - pop es ; ES:_DX -> mouse handler - int 33h ; Call mouse driver - - pop es - leave_c - ret - -cprocend - -ifdef flatmodel - -;---------------------------------------------------------------------------- -; void PM_mousePMCB(void) -;---------------------------------------------------------------------------- -; Mouse realmode callback routine. Upon entry to this routine, we recieve -; the following from the DPMI server: -; -; Entry: DS:_SI -> Real mode stack at time of call -; ES:_DI -> Real mode register data structure -; SS:_SP -> Locked protected mode stack to use -;---------------------------------------------------------------------------- -cprocfar _PM_mousePMCB - - pushad - mov eax,[es:_di+1Ch] ; Load register values from real mode - mov ebx,[es:_di+10h] - mov ecx,[es:_di+18h] - mov edx,[es:_di+14h] - mov esi,[es:_di+04h] - mov edi,[es:_di] - call _PM_mouseISR ; Call the mouse handler - popad - - mov ax,[ds:_si] - mov [es:_di+2Ah],ax ; Plug in return IP address - mov ax,[ds:_si+2] - mov [es:_di+2Ch],ax ; Plug in return CS value - add [WORD es:_di+2Eh],4 ; Remove return address from stack - iret ; Go back to real mode! - -cprocend - -;---------------------------------------------------------------------------- -; void PM_int10PMCB(void) -;---------------------------------------------------------------------------- -; int10 realmode callback routine. Upon entry to this routine, we recieve -; the following from the DPMI server: -; -; Entry: DS:ESI -> Real mode stack at time of call -; ES:EDI -> Real mode register data structure -; SS:ESP -> Locked protected mode stack to use -;---------------------------------------------------------------------------- -cprocfar _PM_int10PMCB - - pushad - push ds - push es - push fs - - pushfd - pop eax - mov [es:edi+20h],ax ; Save return flag status - mov ax,[ds:esi] - mov [es:edi+2Ah],ax ; Plug in return IP address - mov ax,[ds:esi+2] - mov [es:edi+2Ch],ax ; Plug in return CS value - add [WORD es:edi+2Eh],4 ; Remove return address from stack - -; Call the install int10 handler in protected mode. This function gets called -; with DS set to the current data selector, and ES:EDI pointing the the -; real mode DPMI register structure at the time of the interrupt. The -; handle must be written in assembler to be able to extract the real mode -; register values from the structure - - push es - pop fs ; FS:EDI -> real mode registers - LOAD_DS - NEWSTK Int10Stack ; Switch to local stack - - call [_PM_int10Handler] - - RESTSTK Int10Stack ; Restore previous stack - pop fs - pop es - pop ds - popad - iret ; Go back to real mode! - -cprocend - -endif - -cpublic _PM_pmdosCodeEnd - -endcodeseg _pmdos - - END ; End of module diff --git a/board/MAI/bios_emulator/scitech/src/pm/dos/_vflat.asm b/board/MAI/bios_emulator/scitech/src/pm/dos/_vflat.asm deleted file mode 100644 index 34985a9d8b..0000000000 --- a/board/MAI/bios_emulator/scitech/src/pm/dos/_vflat.asm +++ /dev/null @@ -1,652 +0,0 @@ -;**************************************************************************** -;* -;* SciTech OS Portability Manager Library -;* -;* ======================================================================== -;* -;* The contents of this file are subject to the SciTech MGL Public -;* License Version 1.0 (the "License"); you may not use this file -;* except in compliance with the License. You may obtain a copy of -;* the License at http://www.scitechsoft.com/mgl-license.txt -;* -;* Software distributed under the License is distributed on an -;* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -;* implied. See the License for the specific language governing -;* rights and limitations under the License. -;* -;* The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc. -;* -;* The Initial Developer of the Original Code is SciTech Software, Inc. -;* All Rights Reserved. -;* -;* ======================================================================== -;* -;* Based on original code Copyright 1994 Otto Chrons -;* -;* Language: 80386 Assembler, TASM 4.0 or later -;* Environment: IBM PC 32 bit protected mode -;* -;* Description: Low level page fault handler for virtual linear framebuffers. -;* -;**************************************************************************** - - IDEAL - JUMPS - -include "scitech.mac" ; Memory model macros - -header _vflat ; Set up memory model - -VFLAT_START EQU 0F0000000h -VFLAT_END EQU 0F03FFFFFh -PAGE_PRESENT EQU 1 -PAGE_NOTPRESENT EQU 0 -PAGE_READ EQU 0 -PAGE_WRITE EQU 2 - -ifdef DOS4GW - -;---------------------------------------------------------------------------- -; DOS4G/W flat linear framebuffer emulation. -;---------------------------------------------------------------------------- - -begdataseg _vflat - -; Near pointers to the page directory base and our page tables. All of -; this memory is always located in the first Mb of DOS memory. - -PDBR dd 0 ; Page directory base register (CR3) -accessPageAddr dd 0 -accessPageTable dd 0 - -; CauseWay page directory & 1st page table linear addresses. - -CauseWayDIRLinear dd 0 -CauseWay1stLinear dd 0 - -; Place to store a copy of the original Page Table Directory before we -; intialised our virtual buffer code. - -pageDirectory: resd 1024 ; Saved page table directory - -ValidCS dw 0 ; Valid CS for page faults -Ring0CS dw 0 ; Our ring 0 code selector -LastPage dd 0 ; Last page we mapped in -BankFuncBuf: resb 101 ; Place to store bank switch code -BankFuncPtr dd offset BankFuncBuf - -INT14Gate: -INT14Offset dd 0 ; eip of original vector -INT14Selector dw 0 ; cs of original vector - - cextern _PM_savedDS,USHORT - cextern VF_haveCauseWay,BOOL - -enddataseg _vflat - -begcodeseg _vflat ; Start of code segment - - cextern VF_malloc,FPTR - -;---------------------------------------------------------------------------- -; PF_handler64k - Page fault handler for 64k banks -;---------------------------------------------------------------------------- -; The handler below is a 32 bit ring 0 page fault handler. It receives -; control immediately after any page fault or after an IRQ6 (hardware -; interrupt). This provides the fastest possible handling of page faults -; since it jump directly here. If this is a page fault, the number -; immediately on the stack will be an error code, at offset 4 will be -; the eip of the faulting instruction, at offset 8 will be the cs of the -; faulting instruction. If it is a hardware interrupt, it will not have -; the error code and the eflags will be at offset 8. -;---------------------------------------------------------------------------- -cprocfar PF_handler64k - -; Check if this is a processor exeception or a page fault - - push eax - mov ax,[cs:ValidCS] ; Use CS override to access data - cmp [ss:esp+12],ax ; Is this a page fault? - jne @@ToOldHandler ; Nope, jump to the previous handler - -; Get address of page fault and check if within our handlers range - - mov eax,cr2 ; EBX has page fault linear address - cmp eax,VFLAT_START ; Is the fault less than ours? - jb @@ToOldHandler ; Yep, go to previous handler - cmp eax,VFLAT_END ; Is the fault more than ours? - jae @@ToOldHandler ; Yep, go to previous handler - -; This is our page fault, so we need to handle it - - pushad - push ds - push es - mov ebx,eax ; EBX := page fault address - and ebx,invert 0FFFFh ; Mask to 64k bank boundary - mov ds,[cs:_PM_savedDS]; Load segment registers - mov es,[cs:_PM_savedDS] - -; Map in the page table for our virtual framebuffer area for modification - - mov edi,[PDBR] ; EDI points to page directory - mov edx,ebx ; EDX = linear address - shr edx,22 ; EDX = offset to page directory - mov edx,[edx*4+edi] ; EDX = physical page table address - mov eax,edx - mov edx,[accessPageTable] - or eax,7 - mov [edx],eax - mov eax,cr3 - mov cr3,eax ; Update page table cache - -; Mark all pages valid for the new page fault area - - mov esi,ebx ; ESI := linear address for page - shr esi,10 - and esi,0FFFh ; Offset into page table - add esi,[accessPageAddr] -ifdef USE_NASM -%assign off 0 -%rep 16 - or [DWORD esi+off],0000000001h ; Enable pages -%assign off off+4 -%endrep -else -off = 0 -REPT 16 - or [DWORD esi+off],0000000001h ; Enable pages -off = off+4 -ENDM -endif - -; Mark all pages invalid for the previously mapped area - - xchg esi,[LastPage] ; Save last page for next page fault - test esi,esi - jz @@DoneMapping ; Dont update if first time round -ifdef USE_NASM -%assign off 0 -%rep 16 - or [DWORD esi+off],0FFFFFFFEh ; Disable pages -%assign off off+4 -%endrep -else -off = 0 -REPT 16 - and [DWORD esi+off],0FFFFFFFEh ; Disable pages -off = off+4 -ENDM -endif - -@@DoneMapping: - mov eax,cr3 - mov cr3,eax ; Flush the TLB - -; Now program the new SuperVGA starting bank address - - mov eax,ebx ; EAX := page fault address - shr eax,16 - and eax,0FFh ; Mask to 0-255 - call [BankFuncPtr] ; Call the bank switch function - - pop es - pop ds - popad - pop eax - add esp,4 ; Pop the error code from stack - iretd ; Return to faulting instruction - -@@ToOldHandler: - pop eax -ifdef USE_NASM - jmp far dword [cs:INT14Gate]; Chain to previous handler -else - jmp [FWORD cs:INT14Gate]; Chain to previous handler -endif - -cprocend - -;---------------------------------------------------------------------------- -; PF_handler4k - Page fault handler for 4k banks -;---------------------------------------------------------------------------- -; The handler below is a 32 bit ring 0 page fault handler. It receives -; control immediately after any page fault or after an IRQ6 (hardware -; interrupt). This provides the fastest possible handling of page faults -; since it jump directly here. If this is a page fault, the number -; immediately on the stack will be an error code, at offset 4 will be -; the eip of the faulting instruction, at offset 8 will be the cs of the -; faulting instruction. If it is a hardware interrupt, it will not have -; the error code and the eflags will be at offset 8. -;---------------------------------------------------------------------------- -cprocfar PF_handler4k - -; Fill in when we have tested all the 64Kb code - -ifdef USE_NASM - jmp far dword [cs:INT14Gate]; Chain to previous handler -else - jmp [FWORD cs:INT14Gate]; Chain to previous handler -endif - -cprocend - -;---------------------------------------------------------------------------- -; void InstallFaultHandler(void *baseAddr,int bankSize) -;---------------------------------------------------------------------------- -; Installes the page fault handler directly int the interrupt descriptor -; table for maximum performance. This of course requires ring 0 access, -; but none of this stuff will run without ring 0! -;---------------------------------------------------------------------------- -cprocstart InstallFaultHandler - - ARG baseAddr:ULONG, bankSize:UINT - - enter_c - - mov [DWORD LastPage],0 ; No pages have been mapped - mov ax,cs - mov [ValidCS],ax ; Save CS value for page faults - -; Put address of our page fault handler into the IDT directly - - sub esp,6 ; Allocate space on stack -ifdef USE_NASM - sidt [ss:esp] ; Store pointer to IDT -else - sidt [FWORD ss:esp] ; Store pointer to IDT -endif - pop ax ; add esp,2 - pop eax ; Absolute address of IDT - add eax,14*8 ; Point to Int #14 - -; Note that Interrupt gates do not have the high and low word of the -; offset in adjacent words in memory, there are 4 bytes separating them. - - mov ecx,[eax] ; Get cs and low 16 bits of offset - mov edx,[eax+6] ; Get high 16 bits of offset in dx - shl edx,16 - mov dx,cx ; edx has offset - mov [INT14Offset],edx ; Save offset - shr ecx,16 - mov [INT14Selector],cx ; Save original cs - mov [eax+2],cs ; Install new cs - mov edx,offset PF_handler64k - cmp [UINT bankSize],4 - jne @@1 - mov edx,offset PF_handler4k -@@1: mov [eax],dx ; Install low word of offset - shr edx,16 - mov [eax+6],dx ; Install high word of offset - - leave_c - ret - -cprocend - -;---------------------------------------------------------------------------- -; void RemoveFaultHandler(void) -;---------------------------------------------------------------------------- -; Closes down the virtual framebuffer services and restores the previous -; page fault handler. -;---------------------------------------------------------------------------- -cprocstart RemoveFaultHandler - - enter_c - -; Remove page fault handler from IDT - - sub esp,6 ; Allocate space on stack -ifdef USE_NASM - sidt [ss:esp] ; Store pointer to IDT -else - sidt [FWORD ss:esp] ; Store pointer to IDT -endif - - pop ax ; add esp,2 - pop eax ; Absolute address of IDT - add eax,14*8 ; Point to Int #14 - mov cx,[INT14Selector] - mov [eax+2],cx ; Restore original CS - mov edx,[INT14Offset] - mov [eax],dx ; Install low word of offset - shr edx,16 - mov [eax+6],dx ; Install high word of offset - - leave_c - ret - -cprocend - -;---------------------------------------------------------------------------- -; void InstallBankFunc(int codeLen,void *bankFunc) -;---------------------------------------------------------------------------- -; Installs the bank switch function by relocating it into our data segment -; and making it into a callable function. We do it this way to make the -; code identical to the way that the VflatD devices work under Windows. -;---------------------------------------------------------------------------- -cprocstart InstallBankFunc - - ARG codeLen:UINT, bankFunc:DPTR - - enter_c - - mov esi,[bankFunc] ; Copy the code into buffer - mov edi,offset BankFuncBuf - mov ecx,[codeLen] - rep movsb - mov [BYTE edi],0C3h ; Terminate the function with a near ret - - leave_c - ret - -cprocend - -;---------------------------------------------------------------------------- -; int InitPaging(void) -;---------------------------------------------------------------------------- -; Initializes paging system. If paging is not enabled, builds a page table -; directory and page tables for physical memory -; -; Exit: 0 - Successful -; -1 - Couldn't initialize paging mechanism -;---------------------------------------------------------------------------- -cprocstart InitPaging - - push ebx - push ecx - push edx - push esi - push edi - -; Are we running under CauseWay? - - mov ax,0FFF9h - int 31h - jc @@NotCauseway - cmp ecx,"CAUS" - jnz @@NotCauseway - cmp edx,"EWAY" - jnz @@NotCauseway - - mov [BOOL VF_haveCauseWay],1 - mov [CauseWayDIRLinear],esi - mov [CauseWay1stLinear],edi - -; Check for DPMI - - mov ax,0ff00h - push es - int 31h - pop es - shr edi,2 - and edi,3 - cmp edi,2 - jz @@ErrExit ; Not supported under DPMI - - mov eax,[CauseWayDIRLinear] - jmp @@CopyCR3 - -@@NotCauseway: - mov ax,cs - test ax,3 ; Which ring are we running - jnz @@ErrExit ; Needs zero ring to access - ; page tables (CR3) - mov eax,cr0 ; Load CR0 - test eax,80000000h ; Is paging enabled? - jz @@ErrExit ; No, we must have paging! - - mov eax,cr3 ; Load directory address - and eax,0FFFFF000h - -@@CopyCR3: - mov [PDBR],eax ; Save it - mov esi,eax - mov edi,offset pageDirectory - mov ecx,1024 - cld - rep movsd ; Copy the original page table directory - cmp [DWORD accessPageAddr],0; Check if we have allocated page - jne @@HaveRealMem ; table already (we cant free it) - - mov eax,0100h ; DPMI DOS allocate - mov ebx,8192/16 - int 31h ; Allocate 8192 bytes - and eax,0FFFFh - shl eax,4 ; EAX points to newly allocated memory - add eax,4095 - and eax,0FFFFF000h ; Page align - mov [accessPageAddr],eax - -@@HaveRealMem: - mov eax,[accessPageAddr] ; EAX -> page table in 1st Mb - shr eax,12 - and eax,3FFh ; Page table offset - shl eax,2 - cmp [BOOL VF_haveCauseWay],0 - jz @@NotCW0 - mov ebx,[CauseWay1stLinear] - jmp @@Put1st - -@@NotCW0: - mov ebx,[PDBR] - mov ebx,[ebx] - and ebx,0FFFFF000h ; Page table for 1st megabyte - -@@Put1st: - add eax,ebx - mov [accessPageTable],eax - sub eax,eax ; No error - jmp @@Exit - -@@ErrExit: - mov eax,-1 - -@@Exit: pop edi - pop esi - pop edx - pop ecx - pop ebx - ret - -cprocend - -;---------------------------------------------------------------------------- -; void ClosePaging(void) -;---------------------------------------------------------------------------- -; Closes the paging system -;---------------------------------------------------------------------------- -cprocstart ClosePaging - - push eax - push ecx - push edx - push esi - push edi - - mov eax,[accessPageAddr] - call AccessPage ; Restore AccessPage mapping - mov edi,[PDBR] - mov esi,offset pageDirectory - mov ecx,1024 - cld - rep movsd ; Restore the original page table directory - -@@Exit: pop edi - pop esi - pop edx - pop ecx - pop eax - ret - -cprocend - -;---------------------------------------------------------------------------- -; long AccessPage(long phys) -;---------------------------------------------------------------------------- -; Maps a known page to given physical memory -; Entry: EAX - Physical memory -; Exit: EAX - Linear memory address of mapped phys mem -;---------------------------------------------------------------------------- -cprocstatic AccessPage - - push edx - mov edx,[accessPageTable] - or eax,7 - mov [edx],eax - mov eax,cr3 - mov cr3,eax ; Update page table cache - mov eax,[accessPageAddr] - pop edx - ret - -cprocend - -;---------------------------------------------------------------------------- -; long GetPhysicalAddress(long linear) -;---------------------------------------------------------------------------- -; Returns the physical address of linear address -; Entry: EAX - Linear address to convert -; Exit: EAX - Physical address -;---------------------------------------------------------------------------- -cprocstatic GetPhysicalAddress - - push ebx - push edx - mov edx,eax - shr edx,22 ; EDX is the directory offset - mov ebx,[PDBR] - mov edx,[edx*4+ebx] ; Load page table address - push eax - mov eax,edx - call AccessPage ; Access the page table - mov edx,eax - pop eax - shr eax,12 - and eax,03FFh ; EAX offset into page table - mov eax,[edx+eax*4] ; Load physical address - and eax,0FFFFF000h - pop edx - pop ebx - ret - -cprocend - -;---------------------------------------------------------------------------- -; void CreatePageTable(long pageDEntry) -;---------------------------------------------------------------------------- -; Creates a page table for specific address (4MB) -; Entry: EAX - Page directory entry (top 10-bits of address) -;---------------------------------------------------------------------------- -cprocstatic CreatePageTable - - push ebx - push ecx - push edx - push edi - mov ebx,eax ; Save address - mov eax,8192 - push eax - call VF_malloc ; Allocate page table directory - add esp,4 - add eax,0FFFh - and eax,0FFFFF000h ; Page align (4KB) - mov edi,eax ; Save page table linear address - sub eax,eax ; Fill with zero - mov ecx,1024 - cld - rep stosd ; Clear page table - sub edi,4096 - mov eax,edi - call GetPhysicalAddress - mov edx,[PDBR] - or eax,7 ; Present/write/user bit - mov [edx+ebx*4],eax ; Save physical address into page directory - mov eax,cr3 - mov cr3,eax ; Update page table cache - pop edi - pop edx - pop ecx - pop ebx - ret - -cprocend - -;---------------------------------------------------------------------------- -; void MapPhysical2Linear(ulong pAddr, ulong lAddr, int pages, int flags); -;---------------------------------------------------------------------------- -; Maps physical memory into linear memory -; Entry: pAddr - Physical address -; lAddr - Linear address -; pages - Number of 4K pages to map -; flags - Page flags -; bit 0 = present -; bit 1 = Read(0)/Write(1) -;---------------------------------------------------------------------------- -cprocstart MapPhysical2Linear - - ARG pAddr:ULONG, lAddr:ULONG, pages:UINT, pflags:UINT - - enter_c - - and [ULONG pAddr],0FFFFF000h; Page boundary - and [ULONG lAddr],0FFFFF000h; Page boundary - mov ecx,[pflags] - and ecx,11b ; Just two bits - or ecx,100b ; Supervisor bit - mov [pflags],ecx - - mov edx,[lAddr] - shr edx,22 ; EDX = Directory - mov esi,[PDBR] - mov edi,[pages] ; EDI page count - mov ebx,[lAddr] - -@@CreateLoop: - mov ecx,[esi+edx*4] ; Load page table address - test ecx,1 ; Is it present? - jnz @@TableOK - mov eax,edx - call CreatePageTable ; Create a page table -@@TableOK: - mov eax,ebx - shr eax,12 - and eax,3FFh - sub eax,1024 - neg eax ; EAX = page count in this table - inc edx ; Next table - mov ebx,0 ; Next time we'll map 1K pages - sub edi,eax ; Subtract mapped pages from page count - jns @@CreateLoop ; Create more tables if necessary - - mov ecx,[pages] ; ECX = Page count - mov esi,[lAddr] - shr esi,12 ; Offset part isn't needed - mov edi,[pAddr] -@@MappingLoop: - mov eax,esi - shr eax,10 ; EAX = offset to page directory - mov ebx,[PDBR] - mov eax,[eax*4+ebx] ; EAX = page table address - call AccessPage - mov ebx,esi - and ebx,3FFh ; EBX = offset to page table - mov edx,edi - add edi,4096 ; Next physical address - inc esi ; Next linear page - or edx,[pflags] ; Update flags... - mov [eax+ebx*4],edx ; Store page table entry - loop @@MappingLoop - mov eax,cr3 - mov cr3,eax ; Update page table cache - - leave_c - ret - -cprocend - -endcodeseg _vflat - -endif - - END ; End of module diff --git a/board/MAI/bios_emulator/scitech/src/pm/dos/cpuinfo.c b/board/MAI/bios_emulator/scitech/src/pm/dos/cpuinfo.c deleted file mode 100644 index ee117c78e9..0000000000 --- a/board/MAI/bios_emulator/scitech/src/pm/dos/cpuinfo.c +++ /dev/null @@ -1,72 +0,0 @@ -/**************************************************************************** -* -* Ultra Long Period Timer -* -* ======================================================================== -* -* The contents of this file are subject to the SciTech MGL Public -* License Version 1.0 (the "License"); you may not use this file -* except in compliance with the License. You may obtain a copy of -* the License at http://www.scitechsoft.com/mgl-license.txt -* -* Software distributed under the License is distributed on an -* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -* implied. See the License for the specific language governing -* rights and limitations under the License. -* -* The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc. -* -* The Initial Developer of the Original Code is SciTech Software, Inc. -* All Rights Reserved. -* -* ======================================================================== -* -* Language: ANSI C -* Environment: DOS -* -* Description: MSDOS specific code for the CPU detection module. -* -****************************************************************************/ - -/*----------------------------- Implementation ----------------------------*/ - -/* External timing function */ - -void __ZTimerInit(void); - -/**************************************************************************** -REMARKS: -Do nothing for DOS because we don't have thread priorities. -****************************************************************************/ -#define SetMaxThreadPriority() 0 - -/**************************************************************************** -REMARKS: -Do nothing for DOS because we don't have thread priorities. -****************************************************************************/ -#define RestoreThreadPriority(i) (void)(i) - -/**************************************************************************** -REMARKS: -Initialise the counter and return the frequency of the counter. -****************************************************************************/ -static void GetCounterFrequency( - CPU_largeInteger *freq) -{ - ulong resolution; - - __ZTimerInit(); - ULZTimerResolution(&resolution); - freq->low = (ulong)(10000000000.0 / resolution); - freq->high = 0; -} - -/**************************************************************************** -REMARKS: -Read the counter and return the counter value. -****************************************************************************/ -#define GetCounter(t) \ -{ \ - (t)->low = ULZReadTime() * 10000L; \ - (t)->high = 0; \ -} diff --git a/board/MAI/bios_emulator/scitech/src/pm/dos/event.c b/board/MAI/bios_emulator/scitech/src/pm/dos/event.c deleted file mode 100644 index a969d111b4..0000000000 --- a/board/MAI/bios_emulator/scitech/src/pm/dos/event.c +++ /dev/null @@ -1,494 +0,0 @@ -/**************************************************************************** -* -* SciTech OS Portability Manager Library -* -* ======================================================================== -* -* The contents of this file are subject to the SciTech MGL Public -* License Version 1.0 (the "License"); you may not use this file -* except in compliance with the License. You may obtain a copy of -* the License at http://www.scitechsoft.com/mgl-license.txt -* -* Software distributed under the License is distributed on an -* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -* implied. See the License for the specific language governing -* rights and limitations under the License. -* -* The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc. -* -* The Initial Developer of the Original Code is SciTech Software, Inc. -* All Rights Reserved. -* -* ======================================================================== -* -* Language: ANSI C -* Environment: 32-bit DOS -* -* Description: 32-bit DOS implementation for the SciTech cross platform -* event library. -* -****************************************************************************/ - -/*--------------------------- Global variables ----------------------------*/ - -ibool _VARAPI _EVT_useEvents = true; /* True to use event handling */ -ibool _VARAPI _EVT_installed = 0; /* Event handers installed? */ -uchar _VARAPI *_EVT_biosPtr = NULL; /* Pointer to the BIOS data area */ -static ibool haveMouse = false; /* True if we have a mouse */ - -/*---------------------------- Implementation -----------------------------*/ - -/* External assembler functions */ - -void EVTAPI _EVT_pollJoystick(void); -uint EVTAPI _EVT_disableInt(void); -uint EVTAPI _EVT_restoreInt(uint flags); -void EVTAPI _EVT_codeStart(void); -void EVTAPI _EVT_codeEnd(void); -void EVTAPI _EVT_cCodeStart(void); -void EVTAPI _EVT_cCodeEnd(void); -int EVTAPI _EVT_getKeyCode(void); -void EVTAPI _EVT_pumpMessages(void); -int EVTAPI EVT_rdinx(int port,int index); -void EVTAPI EVT_wrinx(int port,int index,int value); - -#ifdef NO_KEYBOARD_INTERRUPT -/**************************************************************************** -REMARKS: -This function is used to pump all keyboard messages from the BIOS keyboard -handler into our event queue. This can be used to avoid using the -installable keyboard handler if this is causing problems. -****************************************************************************/ -static void EVTAPI _EVT_pumpMessages(void) -{ - RMREGS regs; - uint key,ps; - - /* Since the keyboard ISR has not been installed if NO_IDE_BUG has - * been defined, we first check for any pending keyboard events - * here, and if there are some insert them into the event queue to - * be picked up later - what a kludge. - */ - while ((key = _EVT_getKeyCode()) != 0) { - ps = _EVT_disableInt(); - addKeyEvent(EVT_KEYDOWN, key); - _EVT_restoreInt(ps); - } - - regs.x.ax = 0x0B; /* Reset Move Mouse */ - PM_int86(0x33,®s,®s); -} -#endif - -/**************************************************************************** -REMARKS: -This function is used to return the number of ticks since system -startup in milliseconds. This should be the same value that is placed into -the time stamp fields of events, and is used to implement auto mouse down -events. -****************************************************************************/ -ulong _EVT_getTicks(void) -{ - return (ulong)PM_getLong(_EVT_biosPtr+0x6C) * 55UL; -} - -/**************************************************************************** -REMARKS: -Reboots the machine from DOS (warm boot) -****************************************************************************/ -static void Reboot(void) -{ - PMREGS regs; - PMSREGS sregs; - - ushort *rebootType = PM_mapRealPointer(0x40,0x72); - *rebootType = 0x1234; - PM_callRealMode(0xFFFF,0x0000,®s,&sregs); -} - -/**************************************************************************** -REMARKS: -Include generic raw scancode keyboard module. -****************************************************************************/ -#define SUPPORT_CTRL_ALT_DEL -#include "common/keyboard.c" - -/**************************************************************************** -REMARKS: -This function fools the DOS mouse driver into thinking that it is running -in graphics mode, rather than text mode so we always get virtual coordinates -correctly rather than character coordinates. -****************************************************************************/ -int _EVT_foolMouse(void) -{ - int oldmode = PM_getByte(_EVT_biosPtr+0x49); - PM_setByte(_EVT_biosPtr+0x49,0x10); - oldmode |= (EVT_rdinx(0x3C4,0x2) << 8); - return oldmode; -} - -/**************************************************************************** -REMARKS: -This function unfools the DOS mouse driver after we have finished calling it. -****************************************************************************/ -void _EVT_unfoolMouse( - int oldmode) -{ - PM_setByte(_EVT_biosPtr+0x49,oldmode); - - /* Some mouse drivers reset the plane mask register for VGA plane 4 - * modes, which screws up the display on some VGA compatible controllers - * in SuperVGA modes. We reset the value back again in here to solve - * the problem. - */ - EVT_wrinx(0x3C4,0x2,oldmode >> 8); -} - -/**************************************************************************** -REMARKS: -Determines if we have a mouse attached and functioning. -****************************************************************************/ -static ibool detectMouse(void) -{ - RMREGS regs; - RMSREGS sregs; - uchar *p; - ibool retval; - - regs.x.ax = 0x3533; /* Get interrupt vector 0x33 */ - PM_int86x(0x21,®s,®s,&sregs); - - /* Check that interrupt vector 0x33 is not a zero, and that the first - * instruction in the interrupt vector is not an IRET instruction - */ - p = PM_mapRealPointer(sregs.es, regs.x.bx); - retval = ((sregs.es != 0) || (regs.x.bx != 0)) && (PM_getByte(p) != 207); - return retval; -} - -/**************************************************************************** -PARAMETERS: -what - Event code -message - Event message -x,y - Mouse position at time of event -but_stat - Mouse button status at time of event - -REMARKS: -Adds a new mouse event to the event queue. This routine is called from within -the mouse interrupt subroutine, so it must be efficient. - -NOTE: Interrupts MUST be OFF while this routine is called to ensure we have - mutually exclusive access to our internal data structures for - interrupt driven systems (like under DOS). -****************************************************************************/ -static void addMouseEvent( - uint what, - uint message, - int x, - int y, - int mickeyX, - int mickeyY, - uint but_stat) -{ - event_t evt; - - if (EVT.count < EVENTQSIZE) { - /* Save information in event record. */ - evt.when = _EVT_getTicks(); - evt.what = what; - evt.message = message; - evt.modifiers = but_stat; - evt.where_x = x; /* Save mouse event position */ - evt.where_y = y; - evt.relative_x = mickeyX; - evt.relative_y = mickeyY; - evt.modifiers |= EVT.keyModifiers; - addEvent(&evt); /* Add to tail of event queue */ - } -} - -/**************************************************************************** -PARAMETERS: -mask - Event mask -butstate - Button state -x - Mouse x coordinate -y - Mouse y coordinate - -REMARKS: -Mouse event handling routine. This gets called when a mouse event occurs, -and we call the addMouseEvent() routine to add the appropriate mouse event -to the event queue. - -Note: Interrupts are ON when this routine is called by the mouse driver code. -****************************************************************************/ -static void EVTAPI mouseISR( - uint mask, - uint butstate, - int x, - int y, - int mickeyX, - int mickeyY) -{ - uint ps; - uint buttonMask; - - if (mask & 1) { - /* Save the current mouse coordinates */ - EVT.mx = x; EVT.my = y; - - /* If the last event was a movement event, then modify the last - * event rather than post a new one, so that the queue will not - * become saturated. Before we modify the data structures, we - * MUST ensure that interrupts are off. - */ - ps = _EVT_disableInt(); - if (EVT.oldMove != -1) { - EVT.evtq[EVT.oldMove].where_x = x; /* Modify existing one */ - EVT.evtq[EVT.oldMove].where_y = y; - EVT.evtq[EVT.oldMove].relative_x += mickeyX; - EVT.evtq[EVT.oldMove].relative_y += mickeyY; - } - else { - EVT.oldMove = EVT.freeHead; /* Save id of this move event */ - addMouseEvent(EVT_MOUSEMOVE,0,x,y,mickeyX,mickeyY,butstate); - } - _EVT_restoreInt(ps); - } - if (mask & 0x2A) { - ps = _EVT_disableInt(); - buttonMask = 0; - if (mask & 2) buttonMask |= EVT_LEFTBMASK; - if (mask & 8) buttonMask |= EVT_RIGHTBMASK; - if (mask & 32) buttonMask |= EVT_MIDDLEBMASK; - addMouseEvent(EVT_MOUSEDOWN,buttonMask,x,y,0,0,butstate); - EVT.oldMove = -1; - _EVT_restoreInt(ps); - } - if (mask & 0x54) { - ps = _EVT_disableInt(); - buttonMask = 0; - if (mask & 2) buttonMask |= EVT_LEFTBMASK; - if (mask & 8) buttonMask |= EVT_RIGHTBMASK; - if (mask & 32) buttonMask |= EVT_MIDDLEBMASK; - addMouseEvent(EVT_MOUSEUP,buttonMask,x,y,0,0,butstate); - EVT.oldMove = -1; - _EVT_restoreInt(ps); - } - EVT.oldKey = -1; -} - -/**************************************************************************** -REMARKS: -Keyboard interrupt handler function. - -NOTE: Interrupts are OFF when this routine is called by the keyboard ISR, - and we leave them OFF the entire time. -****************************************************************************/ -static void EVTAPI keyboardISR(void) -{ - processRawScanCode(PM_inpb(0x60)); - PM_outpb(0x20,0x20); -} - -/**************************************************************************** -REMARKS: -Safely abort the event module upon catching a fatal error. -****************************************************************************/ -void _EVT_abort() -{ - EVT_exit(); - PM_fatalError("Unhandled exception!"); -} - -/**************************************************************************** -PARAMETERS: -mouseMove - Callback function to call wheneve the mouse needs to be moved - -REMARKS: -Initiliase the event handling module. Here we install our mouse handling ISR -to be called whenever any button's are pressed or released. We also build -the free list of events in the event queue. - -We use handler number 2 of the mouse libraries interrupt handlers for our -event handling routines. -****************************************************************************/ -void EVTAPI EVT_init( - _EVT_mouseMoveHandler mouseMove) -{ - int i; - - PM_init(); - EVT.mouseMove = mouseMove; - _EVT_biosPtr = PM_getBIOSPointer(); - EVT_resume(); - - /* Grab all characters pending in the keyboard buffer and stuff - * them into our event buffer. This allows us to pick up any keypresses - * while the program is initialising. - */ - while ((i = _EVT_getKeyCode()) != 0) - addKeyEvent(EVT_KEYDOWN,i); -} - -/**************************************************************************** -REMARKS: -Initiailises the internal event handling modules. The EVT_suspend function -can be called to suspend event handling (such as when shelling out to DOS), -and this function can be used to resume it again later. -****************************************************************************/ -void EVTAPI EVT_resume(void) -{ - static int locked = 0; - int stat; - uchar mods; - PM_lockHandle lh; /* Unused in DOS */ - - if (_EVT_useEvents) { - /* Initialise the event queue and enable our interrupt handlers */ - initEventQueue(); -#ifndef NO_KEYBOARD_INTERRUPT - PM_setKeyHandler(keyboardISR); -#endif -#ifndef NO_MOUSE_INTERRUPT - if ((haveMouse = detectMouse()) != 0) { - int oldmode = _EVT_foolMouse(); - PM_setMouseHandler(0xFFFF,mouseISR); - _EVT_unfoolMouse(oldmode); - } -#endif - - /* Read the keyboard modifier flags from the BIOS to get the - * correct initialisation state. The only state we care about is - * the correct toggle state flags such as SCROLLLOCK, NUMLOCK and - * CAPSLOCK. - */ - EVT.keyModifiers = 0; - mods = PM_getByte(_EVT_biosPtr+0x17); - if (mods & 0x10) - EVT.keyModifiers |= EVT_SCROLLLOCK; - if (mods & 0x20) - EVT.keyModifiers |= EVT_NUMLOCK; - if (mods & 0x40) - EVT.keyModifiers |= EVT_CAPSLOCK; - - /* Lock all of the code and data used by our protected mode interrupt - * handling routines, so that it will continue to work correctly - * under real mode. - */ - if (!locked) { - /* It is difficult to ensure that we lock our global data, so we - * do this by taking the address of a variable locking all data - * 2Kb on either side. This should properly cover the global data - * used by the module (the other alternative is to declare the - * variables in assembler, in which case we know it will be - * correct). - */ - stat = !PM_lockDataPages(&EVT,sizeof(EVT),&lh); - stat |= !PM_lockDataPages(&_EVT_biosPtr,sizeof(_EVT_biosPtr),&lh); - stat |= !PM_lockCodePages((__codePtr)_EVT_cCodeStart,(int)_EVT_cCodeEnd-(int)_EVT_cCodeStart,&lh); - stat |= !PM_lockCodePages((__codePtr)_EVT_codeStart,(int)_EVT_codeEnd-(int)_EVT_codeStart,&lh); - if (stat) { - PM_fatalError("Page locking services failed - interrupt handling not safe!"); - exit(1); - } - locked = 1; - } - - /* Catch program termination signals so we can clean up properly */ - signal(SIGABRT, _EVT_abort); - signal(SIGFPE, _EVT_abort); - signal(SIGINT, _EVT_abort); - _EVT_installed = true; - } -} - -/**************************************************************************** -REMARKS -Changes the range of coordinates returned by the mouse functions to the -specified range of values. This is used when changing between graphics -modes set the range of mouse coordinates for the new display mode. -****************************************************************************/ -void EVTAPI EVT_setMouseRange( - int xRes, - int yRes) -{ - RMREGS regs; - - if (haveMouse) { - int oldmode = _EVT_foolMouse(); - PM_resetMouseDriver(1); - regs.x.ax = 7; /* Mouse function 7 - Set horizontal min and max */ - regs.x.cx = 0; - regs.x.dx = xRes; - PM_int86(0x33,®s,®s); - regs.x.ax = 8; /* Mouse function 8 - Set vertical min and max */ - regs.x.cx = 0; - regs.x.dx = yRes; - PM_int86(0x33,®s,®s); - _EVT_unfoolMouse(oldmode); - } -} - -/**************************************************************************** -REMARKS -Modifes the mouse coordinates as necessary if scaling to OS coordinates, -and sets the OS mouse cursor position. -****************************************************************************/ -void _EVT_setMousePos( - int *x, - int *y) -{ - RMREGS regs; - - if (haveMouse) { - int oldmode = _EVT_foolMouse(); - regs.x.ax = 4; /* Mouse function 4 - Set mouse position */ - regs.x.cx = *x; /* New horizontal coordinate */ - regs.x.dx = *y; /* New vertical coordinate */ - PM_int86(0x33,®s,®s); - _EVT_unfoolMouse(oldmode); - } -} - -/**************************************************************************** -REMARKS -Suspends all of our event handling operations. This is also used to -de-install the event handling code. -****************************************************************************/ -void EVTAPI EVT_suspend(void) -{ - uchar mods; - - if (_EVT_installed) { - /* Restore the interrupt handlers */ - PM_restoreKeyHandler(); - if (haveMouse) - PM_restoreMouseHandler(); - signal(SIGABRT, SIG_DFL); - signal(SIGFPE, SIG_DFL); - signal(SIGINT, SIG_DFL); - - /* Set the keyboard modifier flags in the BIOS to our values */ - EVT_allowLEDS(true); - mods = PM_getByte(_EVT_biosPtr+0x17) & ~0x70; - if (EVT.keyModifiers & EVT_SCROLLLOCK) - mods |= 0x10; - if (EVT.keyModifiers & EVT_NUMLOCK) - mods |= 0x20; - if (EVT.keyModifiers & EVT_CAPSLOCK) - mods |= 0x40; - PM_setByte(_EVT_biosPtr+0x17,mods); - - /* Flag that we are no longer installed */ - _EVT_installed = false; - } -} - -/**************************************************************************** -REMARKS -Exits the event module for program terminatation. -****************************************************************************/ -void EVTAPI EVT_exit(void) -{ - EVT_suspend(); -} diff --git a/board/MAI/bios_emulator/scitech/src/pm/dos/oshdr.h b/board/MAI/bios_emulator/scitech/src/pm/dos/oshdr.h deleted file mode 100644 index 35e8e00f72..0000000000 --- a/board/MAI/bios_emulator/scitech/src/pm/dos/oshdr.h +++ /dev/null @@ -1,29 +0,0 @@ -/**************************************************************************** -* -* SciTech OS Portability Manager Library -* -* ======================================================================== -* -* The contents of this file are subject to the SciTech MGL Public -* License Version 1.0 (the "License"); you may not use this file -* except in compliance with the License. You may obtain a copy of -* the License at http://www.scitechsoft.com/mgl-license.txt -* -* Software distributed under the License is distributed on an -* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -* implied. See the License for the specific language governing -* rights and limitations under the License. -* -* The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc. -* -* The Initial Developer of the Original Code is SciTech Software, Inc. -* All Rights Reserved. -* -* ======================================================================== -* -* Language: ANSI C -* Environment: 32-bit DOS -* -* Description: Include file to include all OS specific header files. -* -****************************************************************************/ diff --git a/board/MAI/bios_emulator/scitech/src/pm/dos/pm.c b/board/MAI/bios_emulator/scitech/src/pm/dos/pm.c deleted file mode 100644 index 2ad9e34f91..0000000000 --- a/board/MAI/bios_emulator/scitech/src/pm/dos/pm.c +++ /dev/null @@ -1,2243 +0,0 @@ -/**************************************************************************** -* -* SciTech OS Portability Manager Library -* -* ======================================================================== -* -* The contents of this file are subject to the SciTech MGL Public -* License Version 1.0 (the "License"); you may not use this file -* except in compliance with the License. You may obtain a copy of -* the License at http://www.scitechsoft.com/mgl-license.txt -* -* Software distributed under the License is distributed on an -* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -* implied. See the License for the specific language governing -* rights and limitations under the License. -* -* The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc. -* -* The Initial Developer of the Original Code is SciTech Software, Inc. -* All Rights Reserved. -* -* ======================================================================== -* -* Language: ANSI C -* Environment: 16/32 bit DOS -* -* Description: Implementation for the OS Portability Manager Library, which -* contains functions to implement OS specific services in a -* generic, cross platform API. Porting the OS Portability -* Manager library is the first step to porting any SciTech -* products to a new platform. -* -****************************************************************************/ - -#include "pmapi.h" -#include "drvlib/os/os.h" -#include "ztimerc.h" -#include "mtrr.h" -#include "pm_help.h" -#include <stdio.h> -#include <stdlib.h> -#include <string.h> -#include <dos.h> -#include <conio.h> -#ifdef __GNUC__ -#include <unistd.h> -#include <sys/nearptr.h> -#include <sys/stat.h> -#else -#include <direct.h> -#endif -#ifdef __BORLANDC__ -#pragma warn -par -#endif - -/*--------------------------- Global variables ----------------------------*/ - -typedef struct { - int oldMode; - int old50Lines; - } DOS_stateBuf; - -#define MAX_RM_BLOCKS 10 - -static struct { - void *p; - uint tag; - } rmBlocks[MAX_RM_BLOCKS]; - -static uint VESABuf_len = 1024; /* Length of the VESABuf buffer */ -static void *VESABuf_ptr = NULL; /* Near pointer to VESABuf */ -static uint VESABuf_rseg; /* Real mode segment of VESABuf */ -static uint VESABuf_roff; /* Real mode offset of VESABuf */ -static void (PMAPIP fatalErrorCleanup)(void) = NULL; -ushort _VARAPI _PM_savedDS = 0; -#ifdef DOS4GW -static ulong PDB = 0,*pPDB = NULL; -#endif -#ifndef REALMODE -static char VXD_name[] = PMHELP_NAME; -static char VXD_module[] = PMHELP_MODULE; -static char VXD_DDBName[] = PMHELP_DDBNAME; -static uint VXD_version = -1; -static uint VXD_loadOff = 0; -static uint VXD_loadSel = 0; -uint _VARAPI _PM_VXD_off = 0; -uint _VARAPI _PM_VXD_sel = 0; -int _VARAPI _PM_haveCauseWay = -1; - -/* Memory mapping cache */ - -#define MAX_MEMORY_MAPPINGS 100 -typedef struct { - ulong physical; - ulong linear; - ulong limit; - } mmapping; -static mmapping maps[MAX_MEMORY_MAPPINGS] = {0}; -static int numMaps = 0; - -/* Page sized block cache */ - -#define PAGES_PER_BLOCK 100 -#define FREELIST_NEXT(p) (*(void**)(p)) -typedef struct pageblock { - struct pageblock *next; - struct pageblock *prev; - void *freeListStart; - void *freeList; - void *freeListEnd; - int freeCount; - } pageblock; -static pageblock *pageBlocks = NULL; -#endif - -/* Start of all page tables in CauseWay */ - -#define CW_PAGE_TABLE_START (1024UL*4096UL*1023UL) - -/*----------------------------- Implementation ----------------------------*/ - -/* External assembler functions */ - -ulong _ASMAPI _PM_getPDB(void); -int _ASMAPI _PM_pagingEnabled(void); -void _ASMAPI _PM_VxDCall(VXD_regs *regs,uint off,uint sel); - -#ifndef REALMODE -/**************************************************************************** -REMARKS: -Exit function to unload the dynamically loaded VxD -****************************************************************************/ -static void UnloadVxD(void) -{ - PMSREGS sregs; - VXD_regs r; - - r.eax = 2; - r.ebx = 0; - r.edx = (uint)VXD_module; - PM_segread(&sregs); -#ifdef __16BIT__ - r.ds = ((ulong)VXD_module) >> 16; -#else - r.ds = sregs.ds; -#endif - r.es = sregs.es; - _PM_VxDCall(&r,VXD_loadOff,VXD_loadSel); -} - -/**************************************************************************** -REMARKS: -External function to call the PMHELP helper VxD. -****************************************************************************/ -void PMAPI PM_VxDCall( - VXD_regs *regs) -{ - if (_PM_VXD_sel != 0 || _PM_VXD_off != 0) - _PM_VxDCall(regs,_PM_VXD_off,_PM_VXD_sel); -} - -/**************************************************************************** -RETURNS: -BCD coded version number of the VxD, or 0 if not loaded (ie: 0x202 - 2.2) - -REMARKS: -This function gets the version number for the VxD that we have connected to. -****************************************************************************/ -uint PMAPI PMHELP_getVersion(void) -{ - VXD_regs r; - - /* Call the helper VxD to determine the version number */ - if (_PM_VXD_sel != 0 || _PM_VXD_off != 0) { - memset(&r,0,sizeof(r)); - r.eax = API_NUM(PMHELP_GETVER); - _PM_VxDCall(&r,_PM_VXD_off,_PM_VXD_sel); - return VXD_version = (uint)r.eax; - } - return VXD_version = 0; -} - -/**************************************************************************** -DESCRIPTION: -Connects to the helper VxD and returns the version number - -RETURNS: -True if the VxD was found and loaded, false otherwise. - -REMARKS: -This function connects to the VxD (loading it if it is dynamically loadable) -and returns the version number of the VxD. -****************************************************************************/ -static ibool PMHELP_connect(void) -{ - PMREGS regs; - PMSREGS sregs; - VXD_regs r; - - /* Bail early if we have alread connected */ - if (VXD_version != -1) - return VXD_version != 0; - - /* Get the static SDDHELP.VXD entry point if available */ - PM_segread(&sregs); - regs.x.ax = 0x1684; - regs.x.bx = SDDHELP_DeviceID; - regs.x.di = 0; - sregs.es = 0; - PM_int386x(0x2F,®s,®s,&sregs); - _PM_VXD_sel = sregs.es; - _PM_VXD_off = regs.x.di; - if (_PM_VXD_sel != 0 || _PM_VXD_off != 0) { - if (PMHELP_getVersion() >= PMHELP_VERSION) - return true; - } - - /* If we get here, then either SDDHELP.VXD is not loaded, or it is an - * earlier version. In this case try to dynamically load the PMHELP.VXD - * helper VxD instead. - */ - PM_segread(&sregs); - regs.x.ax = 0x1684; - regs.x.bx = VXDLDR_DeviceID; - regs.x.di = 0; - sregs.es = 0; - PM_int386x(0x2F,®s,®s,&sregs); - VXD_loadSel = sregs.es; - VXD_loadOff = regs.x.di; - if (VXD_loadSel == 0 && VXD_loadOff == 0) - return VXD_version = 0; - r.eax = 1; - r.ebx = 0; - r.edx = (uint)VXD_name; - PM_segread(&sregs); - r.ds = sregs.ds; - r.es = sregs.es; - _PM_VxDCall(&r,VXD_loadOff,VXD_loadSel); - if (r.eax != 0) - return VXD_version = 0; - - /* Get the dynamic VxD entry point so we can call it */ - atexit(UnloadVxD); - PM_segread(&sregs); - regs.x.ax = 0x1684; - regs.x.bx = 0; - regs.e.edi = (uint)VXD_DDBName; - PM_int386x(0x2F,®s,®s,&sregs); - _PM_VXD_sel = sregs.es; - _PM_VXD_off = regs.x.di; - if (_PM_VXD_sel == 0 && _PM_VXD_off == 0) - return VXD_version = 0; - if (PMHELP_getVersion() >= PMHELP_VERSION) - return true; - return VXD_version = 0; -} -#endif - -/**************************************************************************** -REMARKS: -Initialise the PM library. First we try to connect to a static SDDHELP.VXD -helper VxD, and check that it is a version we can use. If not we try to -dynamically load the PMHELP.VXD helper VxD -****************************************************************************/ -void PMAPI PM_init(void) -{ -#ifndef REALMODE - PMREGS regs; - - /* Check if we are running under CauseWay under real DOS */ - if (_PM_haveCauseWay == -1) { - /* Check if we are running under DPMI in which case we will not be - * able to use our special ring 0 CauseWay functions. - */ - _PM_haveCauseWay = false; - regs.x.ax = 0xFF00; - PM_int386(0x31,®s,®s); - if (regs.x.cflag || !(regs.e.edi & 8)) { - /* We are not under DPMI, so now check if CauseWay is active */ - regs.x.ax = 0xFFF9; - PM_int386(0x31,®s,®s); - if (!regs.x.cflag && regs.e.ecx == 0x43415553 && regs.e.edx == 0x45574159) - _PM_haveCauseWay = true; - } - - /* Now connect to PMHELP.VXD and initialise MTRR module */ - if (!PMHELP_connect()) - MTRR_init(); - } -#endif -} - -/**************************************************************************** -PARAMETERS: -base - The starting physical base address of the region -size - The size in bytes of the region -type - Type to place into the MTRR register - -RETURNS: -Error code describing the result. - -REMARKS: -Function to enable write combining for the specified region of memory. -****************************************************************************/ -int PMAPI PM_enableWriteCombine( - ulong base, - ulong size, - uint type) -{ -#ifndef REALMODE - VXD_regs regs; - - if (PMHELP_connect()) { - memset(®s,0,sizeof(regs)); - regs.eax = API_NUM(PMHELP_ENABLELFBCOMB); - regs.ebx = base; - regs.ecx = size; - regs.edx = type; - _PM_VxDCall(®s,_PM_VXD_off,_PM_VXD_sel); - return regs.eax; - } - return MTRR_enableWriteCombine(base,size,type); -#else - return PM_MTRR_NOT_SUPPORTED; -#endif -} - -ibool PMAPI PM_haveBIOSAccess(void) -{ return true; } - -long PMAPI PM_getOSType(void) -{ return _OS_DOS; } - -int PMAPI PM_getModeType(void) -{ -#if defined(REALMODE) - return PM_realMode; -#elif defined(PM286) - return PM_286; -#elif defined(PM386) - return PM_386; -#endif -} - -void PMAPI PM_backslash(char *s) -{ - uint pos = strlen(s); - if (s[pos-1] != '\\') { - s[pos] = '\\'; - s[pos+1] = '\0'; - } -} - -void PMAPI PM_setFatalErrorCleanup( - void (PMAPIP cleanup)(void)) -{ - fatalErrorCleanup = cleanup; -} - -void PMAPI PM_fatalError(const char *msg) -{ - if (fatalErrorCleanup) - fatalErrorCleanup(); - fprintf(stderr,"%s\n", msg); - exit(1); -} - -static void ExitVBEBuf(void) -{ - if (VESABuf_ptr) - PM_freeRealSeg(VESABuf_ptr); - VESABuf_ptr = 0; -} - -void * PMAPI PM_getVESABuf(uint *len,uint *rseg,uint *roff) -{ - if (!VESABuf_ptr) { - /* Allocate a global buffer for communicating with the VESA VBE */ - if ((VESABuf_ptr = PM_allocRealSeg(VESABuf_len, &VESABuf_rseg, &VESABuf_roff)) == NULL) - return NULL; - atexit(ExitVBEBuf); - } - *len = VESABuf_len; - *rseg = VESABuf_rseg; - *roff = VESABuf_roff; - return VESABuf_ptr; -} - -int PMAPI PM_int386(int intno, PMREGS *in, PMREGS *out) -{ - PMSREGS sregs; - PM_segread(&sregs); - return PM_int386x(intno,in,out,&sregs); -} - -/* Routines to set and get the real mode interrupt vectors, by making - * direct real mode calls to DOS and bypassing the DOS extenders API. - * This is the safest way to handle this, as some servers try to be - * smart about changing real mode vectors. - */ - -void PMAPI _PM_getRMvect(int intno, long *realisr) -{ - RMREGS regs; - RMSREGS sregs; - - PM_saveDS(); - regs.h.ah = 0x35; - regs.h.al = intno; - PM_int86x(0x21, ®s, ®s, &sregs); - *realisr = ((long)sregs.es << 16) | regs.x.bx; -} - -void PMAPI _PM_setRMvect(int intno, long realisr) -{ - RMREGS regs; - RMSREGS sregs; - - PM_saveDS(); - regs.h.ah = 0x25; - regs.h.al = intno; - sregs.ds = (int)(realisr >> 16); - regs.x.dx = (int)(realisr & 0xFFFF); - PM_int86x(0x21, ®s, ®s, &sregs); -} - -void PMAPI _PM_addRealModeBlock(void *mem,uint tag) -{ - int i; - - for (i = 0; i < MAX_RM_BLOCKS; i++) { - if (rmBlocks[i].p == NULL) { - rmBlocks[i].p = mem; - rmBlocks[i].tag = tag; - return; - } - } - PM_fatalError("To many real mode memory block allocations!"); -} - -uint PMAPI _PM_findRealModeBlock(void *mem) -{ - int i; - - for (i = 0; i < MAX_RM_BLOCKS; i++) { - if (rmBlocks[i].p == mem) - return rmBlocks[i].tag; - } - PM_fatalError("Could not find prior real mode memory block allocation!"); - return 0; -} - -char * PMAPI PM_getCurrentPath( - char *path, - int maxLen) -{ - return getcwd(path,maxLen); -} - -char PMAPI PM_getBootDrive(void) -{ return 'C'; } - -const char * PMAPI PM_getVBEAFPath(void) -{ return "c:\\"; } - -const char * PMAPI PM_getNucleusPath(void) -{ - static char path[256]; - char *env; - - if ((env = getenv("NUCLEUS_PATH")) != NULL) - return env; - if ((env = getenv("WINBOOTDIR")) != NULL) { - /* Running in a Windows 9x DOS box or DOS mode */ - strcpy(path,env); - strcat(path,"\\system\\nucleus"); - return path; - } - if ((env = getenv("SystemRoot")) != NULL) { - /* Running in an NT/2K DOS box */ - strcpy(path,env); - strcat(path,"\\system32\\nucleus"); - return path; - } - return "c:\\nucleus"; -} - -const char * PMAPI PM_getNucleusConfigPath(void) -{ - static char path[256]; - strcpy(path,PM_getNucleusPath()); - PM_backslash(path); - strcat(path,"config"); - return path; -} - -const char * PMAPI PM_getUniqueID(void) -{ return "DOS"; } - -const char * PMAPI PM_getMachineName(void) -{ return "DOS"; } - -int PMAPI PM_kbhit(void) -{ - return kbhit(); -} - -int PMAPI PM_getch(void) -{ - return getch(); -} - -PM_HWND PMAPI PM_openConsole(PM_HWND hwndUser,int device,int xRes,int yRes,int bpp,ibool fullScreen) -{ - /* Not used for DOS */ - (void)hwndUser; - (void)device; - (void)xRes; - (void)yRes; - (void)bpp; - (void)fullScreen; - return 0; -} - -int PMAPI PM_getConsoleStateSize(void) -{ - return sizeof(DOS_stateBuf); -} - -void PMAPI PM_saveConsoleState(void *stateBuf,PM_HWND hwndConsole) -{ - RMREGS regs; - DOS_stateBuf *sb = stateBuf; - - /* Save the old video mode state */ - regs.h.ah = 0x0F; - PM_int86(0x10,®s,®s); - sb->oldMode = regs.h.al & 0x7F; - sb->old50Lines = false; - if (sb->oldMode == 0x3) { - regs.x.ax = 0x1130; - regs.x.bx = 0; - regs.x.dx = 0; - PM_int86(0x10,®s,®s); - sb->old50Lines = (regs.h.dl == 42 || regs.h.dl == 49); - } - (void)hwndConsole; -} - -void PMAPI PM_setSuspendAppCallback(int (_ASMAPIP saveState)(int flags)) -{ - /* Not used for DOS */ - (void)saveState; -} - -void PMAPI PM_restoreConsoleState(const void *stateBuf,PM_HWND hwndConsole) -{ - RMREGS regs; - const DOS_stateBuf *sb = stateBuf; - - /* Retore 50 line mode if set */ - if (sb->old50Lines) { - regs.x.ax = 0x1112; - regs.x.bx = 0; - PM_int86(0x10,®s,®s); - } - (void)hwndConsole; -} - -void PMAPI PM_closeConsole(PM_HWND hwndConsole) -{ - /* Not used for DOS */ - (void)hwndConsole; -} - -void PMAPI PM_setOSCursorLocation(int x,int y) -{ - uchar *_biosPtr = PM_getBIOSPointer(); - PM_setByte(_biosPtr+0x50,x); - PM_setByte(_biosPtr+0x51,y); -} - -void PMAPI PM_setOSScreenWidth(int width,int height) -{ - uchar *_biosPtr = PM_getBIOSPointer(); - PM_setWord(_biosPtr+0x4A,width); - PM_setWord(_biosPtr+0x4C,width*2); - PM_setByte(_biosPtr+0x84,height-1); - if (height > 25) { - PM_setWord(_biosPtr+0x60,0x0607); - PM_setByte(_biosPtr+0x85,0x08); - } - else { - PM_setWord(_biosPtr+0x60,0x0D0E); - PM_setByte(_biosPtr+0x85,0x016); - } -} - -void * PMAPI PM_mallocShared(long size) -{ - return PM_malloc(size); -} - -void PMAPI PM_freeShared(void *ptr) -{ - PM_free(ptr); -} - -#define GetRMVect(intno,isr) *(isr) = ((ulong*)rmZeroPtr)[intno] -#define SetRMVect(intno,isr) ((ulong*)rmZeroPtr)[intno] = (isr) - -ibool PMAPI PM_doBIOSPOST( - ushort axVal, - ulong BIOSPhysAddr, - void *mappedBIOS, - ulong BIOSLen) -{ - static int firstTime = true; - static uchar *rmZeroPtr; - long Current10,Current6D,Current42; - RMREGS regs; - RMSREGS sregs; - - /* Create a zero memory mapping for us to use */ - if (firstTime) { - rmZeroPtr = PM_mapPhysicalAddr(0,0x7FFF,true); - firstTime = false; - } - - /* Remap the secondary BIOS to 0xC0000 physical */ - if (BIOSPhysAddr != 0xC0000L || BIOSLen > 32768) { - /* DOS cannot virtually remap the BIOS, so we can only work if all - * the secondary controllers are identical, and we then use the - * BIOS on the first controller for all the remaining controllers. - * - * For OS'es that do virtual memory, and remapping of 0xC0000 - * physical (perhaps a copy on write mapping) should be all that - * is needed. - */ - return false; - } - - /* Save current handlers of int 10h and 6Dh */ - GetRMVect(0x10,&Current10); - GetRMVect(0x6D,&Current6D); - - /* POST the secondary BIOS */ - GetRMVect(0x42,&Current42); - SetRMVect(0x10,Current42); /* Restore int 10h to STD-BIOS */ - regs.x.ax = axVal; - PM_callRealMode(0xC000,0x0003,®s,&sregs); - - /* Restore current handlers */ - SetRMVect(0x10,Current10); - SetRMVect(0x6D,Current6D); - - /* Second the primary BIOS mappin 1:1 for 0xC0000 physical */ - if (BIOSPhysAddr != 0xC0000L) { - /* DOS does not support this */ - (void)mappedBIOS; - } - return true; -} - -void PMAPI PM_sleep(ulong milliseconds) -{ - ulong microseconds = milliseconds * 1000L; - LZTimerObject tm; - - LZTimerOnExt(&tm); - while (LZTimerLapExt(&tm) < microseconds) - ; - LZTimerOffExt(&tm); -} - -int PMAPI PM_getCOMPort(int port) -{ - switch (port) { - case 0: return 0x3F8; - case 1: return 0x2F8; - } - return 0; -} - -int PMAPI PM_getLPTPort(int port) -{ - switch (port) { - case 0: return 0x3BC; - case 1: return 0x378; - case 2: return 0x278; - } - return 0; -} - -PM_MODULE PMAPI PM_loadLibrary( - const char *szDLLName) -{ - (void)szDLLName; - return NULL; -} - -void * PMAPI PM_getProcAddress( - PM_MODULE hModule, - const char *szProcName) -{ - (void)hModule; - (void)szProcName; - return NULL; -} - -void PMAPI PM_freeLibrary( - PM_MODULE hModule) -{ - (void)hModule; -} - -int PMAPI PM_setIOPL( - int level) -{ - return level; -} - -/**************************************************************************** -REMARKS: -Internal function to convert the find data to the generic interface. -****************************************************************************/ -static void convertFindData( - PM_findData *findData, - struct find_t *blk) -{ - ulong dwSize = findData->dwSize; - - memset(findData,0,findData->dwSize); - findData->dwSize = dwSize; - if (blk->attrib & _A_RDONLY) - findData->attrib |= PM_FILE_READONLY; - if (blk->attrib & _A_SUBDIR) - findData->attrib |= PM_FILE_DIRECTORY; - if (blk->attrib & _A_ARCH) - findData->attrib |= PM_FILE_ARCHIVE; - if (blk->attrib & _A_HIDDEN) - findData->attrib |= PM_FILE_HIDDEN; - if (blk->attrib & _A_SYSTEM) - findData->attrib |= PM_FILE_SYSTEM; - findData->sizeLo = blk->size; - strncpy(findData->name,blk->name,PM_MAX_PATH); - findData->name[PM_MAX_PATH-1] = 0; -} - -#define FIND_MASK (_A_RDONLY | _A_ARCH | _A_SUBDIR | _A_HIDDEN | _A_SYSTEM) - -/**************************************************************************** -REMARKS: -Function to find the first file matching a search criteria in a directory. -****************************************************************************/ -void * PMAPI PM_findFirstFile( - const char *filename, - PM_findData *findData) -{ - struct find_t *blk; - - if ((blk = PM_malloc(sizeof(*blk))) == NULL) - return PM_FILE_INVALID; - if (_dos_findfirst((char*)filename,FIND_MASK,blk) == 0) { - convertFindData(findData,blk); - return blk; - } - return PM_FILE_INVALID; -} - -/**************************************************************************** -REMARKS: -Function to find the next file matching a search criteria in a directory. -****************************************************************************/ -ibool PMAPI PM_findNextFile( - void *handle, - PM_findData *findData) -{ - struct find_t *blk = handle; - - if (_dos_findnext(blk) == 0) { - convertFindData(findData,blk); - return true; - } - return false; -} - -/**************************************************************************** -REMARKS: -Function to close the find process -****************************************************************************/ -void PMAPI PM_findClose( - void *handle) -{ - PM_free(handle); -} - -/**************************************************************************** -REMARKS: -Function to determine if a drive is a valid drive or not. Under Unix this -function will return false for anything except a value of 3 (considered -the root drive, and equivalent to C: for non-Unix systems). The drive -numbering is: - - 1 - Drive A: - 2 - Drive B: - 3 - Drive C: - etc - -****************************************************************************/ -ibool PMAPI PM_driveValid( - char drive) -{ - RMREGS regs; - regs.h.dl = (uchar)(drive - 'A' + 1); - regs.h.ah = 0x36; /* Get disk information service */ - PM_int86(0x21,®s,®s); - return regs.x.ax != 0xFFFF; /* AX = 0xFFFF if disk is invalid */ -} - -/**************************************************************************** -REMARKS: -Function to get the current working directory for the specififed drive. -Under Unix this will always return the current working directory regardless -of what the value of 'drive' is. -****************************************************************************/ -void PMAPI PM_getdcwd( - int drive, - char *dir, - int len) -{ - uint oldDrive,maxDrives; - _dos_getdrive(&oldDrive); - _dos_setdrive(drive,&maxDrives); - getcwd(dir,len); - _dos_setdrive(oldDrive,&maxDrives); -} - -/**************************************************************************** -REMARKS: -Function to change the file attributes for a specific file. -****************************************************************************/ -void PMAPI PM_setFileAttr( - const char *filename, - uint attrib) -{ -#if defined(TNT) && defined(_MSC_VER) - DWORD attr = 0; - - if (attrib & PM_FILE_READONLY) - attr |= FILE_ATTRIBUTE_READONLY; - if (attrib & PM_FILE_ARCHIVE) - attr |= FILE_ATTRIBUTE_ARCHIVE; - if (attrib & PM_FILE_HIDDEN) - attr |= FILE_ATTRIBUTE_HIDDEN; - if (attrib & PM_FILE_SYSTEM) - attr |= FILE_ATTRIBUTE_SYSTEM; - SetFileAttributes((LPSTR)filename, attr); -#else - uint attr = 0; - - if (attrib & PM_FILE_READONLY) - attr |= _A_RDONLY; - if (attrib & PM_FILE_ARCHIVE) - attr |= _A_ARCH; - if (attrib & PM_FILE_HIDDEN) - attr |= _A_HIDDEN; - if (attrib & PM_FILE_SYSTEM) - attr |= _A_SYSTEM; - _dos_setfileattr(filename,attr); -#endif -} - -/**************************************************************************** -REMARKS: -Function to create a directory. -****************************************************************************/ -ibool PMAPI PM_mkdir( - const char *filename) -{ -#ifdef __GNUC__ - return mkdir(filename,S_IRUSR) == 0; -#else - return mkdir(filename) == 0; -#endif -} - -/**************************************************************************** -REMARKS: -Function to remove a directory. -****************************************************************************/ -ibool PMAPI PM_rmdir( - const char *filename) -{ - return rmdir(filename) == 0; -} - -/*-------------------------------------------------------------------------*/ -/* Generic DPMI routines common to 16/32 bit code */ -/*-------------------------------------------------------------------------*/ - -#ifndef REALMODE -ulong PMAPI DPMI_mapPhysicalToLinear(ulong physAddr,ulong limit) -{ - PMREGS r; - int i; - ulong baseAddr,baseOfs,roundedLimit; - - /* We can't map memory below 1Mb, but the linear address are already - * mapped 1:1 for this memory anyway so we just return the base address. - */ - if (physAddr < 0x100000L) - return physAddr; - - /* Search table of existing mappings to see if we have already mapped - * a region of memory that will serve this purpose. We do this because - * DPMI 0.9 does not allow us to free physical memory mappings, and if - * the mappings get re-used in the program we want to avoid allocating - * more mappings than necessary. - */ - for (i = 0; i < numMaps; i++) { - if (maps[i].physical == physAddr && maps[i].limit == limit) - return maps[i].linear; - } - - /* Find a free slot in our physical memory mapping table */ - for (i = 0; i < numMaps; i++) { - if (maps[i].limit == 0) - break; - } - if (i == numMaps) { - i = numMaps++; - if (i == MAX_MEMORY_MAPPINGS) - return NULL; - } - - /* Round the physical address to a 4Kb boundary and the limit to a - * 4Kb-1 boundary before passing the values to DPMI as some extenders - * will fail the calls unless this is the case. If we round the - * physical address, then we also add an extra offset into the address - * that we return. - */ - baseOfs = physAddr & 4095; - baseAddr = physAddr & ~4095; - roundedLimit = ((limit+baseOfs+1+4095) & ~4095)-1; - r.x.ax = 0x800; - r.x.bx = baseAddr >> 16; - r.x.cx = baseAddr & 0xFFFF; - r.x.si = roundedLimit >> 16; - r.x.di = roundedLimit & 0xFFFF; - PM_int386(0x31, &r, &r); - if (r.x.cflag) - return 0xFFFFFFFFUL; - maps[i].physical = physAddr; - maps[i].limit = limit; - maps[i].linear = ((ulong)r.x.bx << 16) + r.x.cx + baseOfs; - return maps[i].linear; -} - -int PMAPI DPMI_setSelectorBase(ushort sel,ulong linAddr) -{ - PMREGS r; - - r.x.ax = 7; /* DPMI set selector base address */ - r.x.bx = sel; - r.x.cx = linAddr >> 16; - r.x.dx = linAddr & 0xFFFF; - PM_int386(0x31, &r, &r); - if (r.x.cflag) - return 0; - return 1; -} - -ulong PMAPI DPMI_getSelectorBase(ushort sel) -{ - PMREGS r; - - r.x.ax = 6; /* DPMI get selector base address */ - r.x.bx = sel; - PM_int386(0x31, &r, &r); - return ((ulong)r.x.cx << 16) + r.x.dx; -} - -int PMAPI DPMI_setSelectorLimit(ushort sel,ulong limit) -{ - PMREGS r; - - r.x.ax = 8; /* DPMI set selector limit */ - r.x.bx = sel; - r.x.cx = limit >> 16; - r.x.dx = limit & 0xFFFF; - PM_int386(0x31, &r, &r); - if (r.x.cflag) - return 0; - return 1; -} - -uint PMAPI DPMI_createSelector(ulong base,ulong limit) -{ - uint sel; - PMREGS r; - - /* Allocate 1 descriptor */ - r.x.ax = 0; - r.x.cx = 1; - PM_int386(0x31, &r, &r); - if (r.x.cflag) return 0; - sel = r.x.ax; - - /* Set the descriptor access rights (for a 32 bit page granular - * segment). - */ - if (limit >= 0x10000L) { - r.x.ax = 9; - r.x.bx = sel; - r.x.cx = 0x40F3; - PM_int386(0x31, &r, &r); - } - - /* Map physical memory and create selector */ - if ((base = DPMI_mapPhysicalToLinear(base,limit)) == 0xFFFFFFFFUL) - return 0; - if (!DPMI_setSelectorBase(sel,base)) - return 0; - if (!DPMI_setSelectorLimit(sel,limit)) - return 0; - return sel; -} - -void PMAPI DPMI_freeSelector(uint sel) -{ - PMREGS r; - - r.x.ax = 1; - r.x.bx = sel; - PM_int386(0x31, &r, &r); -} - -int PMAPI DPMI_lockLinearPages(ulong linear,ulong len) -{ - PMREGS r; - - r.x.ax = 0x600; /* DPMI Lock Linear Region */ - r.x.bx = (linear >> 16); /* Linear address in BX:CX */ - r.x.cx = (linear & 0xFFFF); - r.x.si = (len >> 16); /* Length in SI:DI */ - r.x.di = (len & 0xFFFF); - PM_int386(0x31, &r, &r); - return (!r.x.cflag); -} - -int PMAPI DPMI_unlockLinearPages(ulong linear,ulong len) -{ - PMREGS r; - - r.x.ax = 0x601; /* DPMI Unlock Linear Region */ - r.x.bx = (linear >> 16); /* Linear address in BX:CX */ - r.x.cx = (linear & 0xFFFF); - r.x.si = (len >> 16); /* Length in SI:DI */ - r.x.di = (len & 0xFFFF); - PM_int386(0x31, &r, &r); - return (!r.x.cflag); -} - -/**************************************************************************** -REMARKS: -Adjust the page table caching bits directly. Requires ring 0 access and -only works with DOS4GW and compatible extenders (CauseWay also works since -it has direct support for the ring 0 instructions we need from ring 3). Will -not work in a DOS box, but we call into the ring 0 helper VxD so we should -never get here in a DOS box anyway (assuming the VxD is present). If we -do get here and we are in windows, this code will be skipped. -****************************************************************************/ -static void PM_adjustPageTables( - ulong linear, - ulong limit, - ibool isCached) -{ -#ifdef DOS4GW - int startPDB,endPDB,iPDB,startPage,endPage,start,end,iPage; - ulong andMask,orMask,pageTable,*pPageTable; - - andMask = ~0x18; - orMask = (isCached) ? 0x00 : 0x18; - if (_PM_pagingEnabled() == 1 && (PDB = _PM_getPDB()) != 0) { - if (_PM_haveCauseWay) { - /* CauseWay is a little different in the page table handling. - * The code that we use for DOS4G/W does not appear to work - * with CauseWay correctly as it does not appear to allow us - * to map the page tables directly. Instead we can directly - * access the page table entries in extended memory where - * CauseWay always locates them (starting at 1024*4096*1023) - */ - startPage = (linear >> 12); - endPage = ((linear+limit) >> 12); - pPageTable = (ulong*)CW_PAGE_TABLE_START; - for (iPage = startPage; iPage <= endPage; iPage++) - pPageTable[iPage] = (pPageTable[iPage] & andMask) | orMask; - } - else { - pPDB = (ulong*)DPMI_mapPhysicalToLinear(PDB,0xFFF); - if (pPDB) { - startPDB = (linear >> 22) & 0x3FF; - startPage = (linear >> 12) & 0x3FF; - endPDB = ((linear+limit) >> 22) & 0x3FF; - endPage = ((linear+limit) >> 12) & 0x3FF; - for (iPDB = startPDB; iPDB <= endPDB; iPDB++) { - pageTable = pPDB[iPDB] & ~0xFFF; - pPageTable = (ulong*)DPMI_mapPhysicalToLinear(pageTable,0xFFF); - start = (iPDB == startPDB) ? startPage : 0; - end = (iPDB == endPDB) ? endPage : 0x3FF; - for (iPage = start; iPage <= end; iPage++) - pPageTable[iPage] = (pPageTable[iPage] & andMask) | orMask; - } - } - } - PM_flushTLB(); - } -#endif -} - -void * PMAPI DPMI_mapPhysicalAddr(ulong base,ulong limit,ibool isCached) -{ - PMSREGS sregs; - ulong linAddr; - ulong DSBaseAddr; - - /* Get the base address for the default DS selector */ - PM_segread(&sregs); - DSBaseAddr = DPMI_getSelectorBase(sregs.ds); - if ((base < 0x100000) && (DSBaseAddr == 0)) { - /* DS is zero based, so we can directly access the first 1Mb of - * system memory (like under DOS4GW). - */ - return (void*)base; - } - - /* Map the memory to a linear address using DPMI function 0x800 */ - if ((linAddr = DPMI_mapPhysicalToLinear(base,limit)) == 0xFFFFFFFF) { - if (base >= 0x100000) - return NULL; - /* If the linear address mapping fails but we are trying to - * map an area in the first 1Mb of system memory, then we must - * be running under a Windows or OS/2 DOS box. Under these - * environments we can use the segment wrap around as a fallback - * measure, as this does work properly. - */ - linAddr = base; - } - - /* Now expand the default DS selector to 4Gb so we can access it */ - if (!DPMI_setSelectorLimit(sregs.ds,0xFFFFFFFFUL)) - return NULL; - - /* Finally enable caching for the page tables that we just mapped in, - * since DOS4GW and PMODE/W create the page table entries without - * caching enabled which hurts the performance of the linear framebuffer - * as it disables write combining on Pentium Pro and above processors. - * - * For those processors cache disabling is better handled through the - * MTRR registers anyway (we can write combine a region but disable - * caching) so that MMIO register regions do not screw up. - */ - if (DSBaseAddr == 0) - PM_adjustPageTables(linAddr,limit,isCached); - - /* Now return the base address of the memory into the default DS */ - return (void*)(linAddr - DSBaseAddr); -} - -#if defined(PM386) - -/* Some DOS extender implementations do not directly support calling a - * real mode procedure from protected mode. However we can simulate what - * we need temporarily hooking the INT 6Ah vector with a small real mode - * stub that will call our real mode code for us. - */ - -static uchar int6AHandler[] = { - 0x00,0x00,0x00,0x00, /* __PMODE_callReal variable */ - 0xFB, /* sti */ - 0x2E,0xFF,0x1E,0x00,0x00, /* call [cs:__PMODE_callReal] */ - 0xCF, /* iretf */ - }; -static uchar *crPtr = NULL; /* Pointer to of int 6A handler */ -static uint crRSeg,crROff; /* Real mode seg:offset of handler */ - -void PMAPI PM_callRealMode(uint seg,uint off, RMREGS *in, - RMSREGS *sregs) -{ - uchar *p; - uint oldSeg,oldOff; - - if (!crPtr) { - /* Allocate and copy the memory block only once */ - crPtr = PM_allocRealSeg(sizeof(int6AHandler), &crRSeg, &crROff); - memcpy(crPtr,int6AHandler,sizeof(int6AHandler)); - } - PM_setWord(crPtr,off); /* Plug in address to call */ - PM_setWord(crPtr+2,seg); - p = PM_mapRealPointer(0,0x6A * 4); - oldOff = PM_getWord(p); /* Save old handler address */ - oldSeg = PM_getWord(p+2); - PM_setWord(p,crROff+4); /* Hook 6A handler */ - PM_setWord(p+2,crRSeg); - PM_int86x(0x6A, in, in, sregs); /* Call real mode code */ - PM_setWord(p,oldOff); /* Restore old handler */ - PM_setWord(p+2,oldSeg); -} - -#endif /* PM386 */ - -#endif /* !REALMODE */ - -/**************************************************************************** -REMARKS: -Allocates a block of locked, physically contiguous memory. The memory -may be required to be below the 16Meg boundary. -****************************************************************************/ -void * PMAPI PM_allocLockedMem( - uint size, - ulong *physAddr, - ibool contiguous, - ibool below16Meg) -{ - uchar *p,*roundedP; - uint r_seg,r_off; - uint roundedSize = (size + 4 + 0xFFF) & ~0xFFF; - PM_lockHandle lh; /* Unused in DOS */ -#ifndef REALMODE - VXD_regs regs; - - /* If we have connected to our helper VxD in a Windows DOS box, use the - * helper VxD services to allocate the memory that we need. - */ - if (VXD_version) { - memset(®s,0,sizeof(regs)); - regs.eax = API_NUM(PMHELP_ALLOCLOCKED); - regs.ebx = size; - regs.ecx = (ulong)physAddr; - regs.edx = contiguous | (below16Meg << 8); - _PM_VxDCall(®s,_PM_VXD_off,_PM_VXD_sel); - return (void*)regs.eax; - } - - /* If the memory is not contiguous, we simply need to allocate it - * using regular memory allocation services, and lock it down - * in memory. - * - * For contiguous memory blocks, the only way to guarantee contiguous physical - * memory addresses under DOS is to allocate the memory below the - * 1Meg boundary as real mode memory. - * - * Note that we must page align the memory block, and we also must - * keep track of the non-aligned pointer so we can properly free - * it later. Hence we actually allocate 4 bytes more than the - * size rounded up to the next 4K boundary. - */ - if (!contiguous) - p = PM_malloc(roundedSize); - else -#endif - p = PM_allocRealSeg(roundedSize,&r_seg,&r_off); - if (p == NULL) - return NULL; - roundedP = (void*)(((ulong)p + 0xFFF) & ~0xFFF); - *((ulong*)(roundedP + size)) = (ulong)p; - PM_lockDataPages(roundedP,size,&lh); - if ((*physAddr = PM_getPhysicalAddr(roundedP)) == 0xFFFFFFFF) { - PM_freeLockedMem(roundedP,size,contiguous); - return NULL; - } - - /* Disable caching for the memory since it is probably a DMA buffer */ -#ifndef REALMODE - PM_adjustPageTables((ulong)roundedP,size-1,false); -#endif - return roundedP; -} - -/**************************************************************************** -REMARKS: -Free a block of locked memory. -****************************************************************************/ -void PMAPI PM_freeLockedMem(void *p,uint size,ibool contiguous) -{ -#ifndef REALMODE - VXD_regs regs; - PM_lockHandle lh; /* Unused in DOS */ - - if (!p) - return; - if (VXD_version) { - memset(®s,0,sizeof(regs)); - regs.eax = API_NUM(PMHELP_FREELOCKED); - regs.ebx = (ulong)p; - regs.ecx = size; - regs.edx = contiguous; - _PM_VxDCall(®s,_PM_VXD_off,_PM_VXD_sel); - return; - } - PM_unlockDataPages(p,size,&lh); - if (!contiguous) - free(*((void**)((uchar*)p + size))); - else -#endif - PM_freeRealSeg(*((void**)((char*)p + size))); -} - -#ifndef REALMODE -/**************************************************************************** -REMARKS: -Allocates a new block of pages for the page block manager. -****************************************************************************/ -static pageblock *PM_addNewPageBlock(void) -{ - int i,size; - pageblock *newBlock; - char *p,*next; - - /* Allocate memory for the new page block, and add to head of list */ - size = PAGES_PER_BLOCK * PM_PAGE_SIZE + (PM_PAGE_SIZE-1) + sizeof(pageblock); - if ((newBlock = PM_malloc(size)) == NULL) - return NULL; - newBlock->prev = NULL; - newBlock->next = pageBlocks; - if (pageBlocks) - pageBlocks->prev = newBlock; - pageBlocks = newBlock; - - /* Initialise the page aligned free list for the page block */ - newBlock->freeCount = PAGES_PER_BLOCK; - newBlock->freeList = p = (char*)(((ulong)(newBlock + 1) + (PM_PAGE_SIZE-1)) & ~(PM_PAGE_SIZE-1)); - newBlock->freeListStart = newBlock->freeList; - newBlock->freeListEnd = p + (PAGES_PER_BLOCK-1) * PM_PAGE_SIZE; - for (i = 0; i < PAGES_PER_BLOCK; i++,p = next) - FREELIST_NEXT(p) = next = p + PM_PAGE_SIZE; - FREELIST_NEXT(p - PM_PAGE_SIZE) = NULL; - return newBlock; -} -#endif - -/**************************************************************************** -REMARKS: -Allocates a page aligned and page sized block of memory -****************************************************************************/ -void * PMAPI PM_allocPage( - ibool locked) -{ -#ifndef REALMODE - VXD_regs regs; - pageblock *block; - void *p; - PM_lockHandle lh; /* Unused in DOS */ - - /* Call the helper VxD for this service if we are running in a DOS box */ - if (VXD_version) { - memset(®s,0,sizeof(regs)); - regs.eax = API_NUM(PMHELP_ALLOCPAGE); - regs.ebx = locked; - _PM_VxDCall(®s,_PM_VXD_off,_PM_VXD_sel); - return (void*)regs.eax; - } - - /* Scan the block list looking for any free blocks. Allocate a new - * page block if no free blocks are found. - */ - for (block = pageBlocks; block != NULL; block = block->next) { - if (block->freeCount) - break; - } - if (block == NULL && (block = PM_addNewPageBlock()) == NULL) - return NULL; - block->freeCount--; - p = block->freeList; - block->freeList = FREELIST_NEXT(p); - if (locked) - PM_lockDataPages(p,PM_PAGE_SIZE,&lh); - return p; -#else - return NULL; -#endif -} - -/**************************************************************************** -REMARKS: -Free a page aligned and page sized block of memory -****************************************************************************/ -void PMAPI PM_freePage( - void *p) -{ -#ifndef REALMODE - VXD_regs regs; - pageblock *block; - - /* Call the helper VxD for this service if we are running in a DOS box */ - if (VXD_version) { - memset(®s,0,sizeof(regs)); - regs.eax = API_NUM(PMHELP_FREEPAGE); - regs.ebx = (ulong)p; - _PM_VxDCall(®s,_PM_VXD_off,_PM_VXD_sel); - return; - } - - /* First find the page block that this page belongs to */ - for (block = pageBlocks; block != NULL; block = block->next) { - if (p >= block->freeListStart && p <= block->freeListEnd) - break; - } - CHECK(block != NULL); - - /* Now free the block by adding it to the free list */ - FREELIST_NEXT(p) = block->freeList; - block->freeList = p; - if (++block->freeCount == PAGES_PER_BLOCK) { - /* If all pages in the page block are now free, free the entire - * page block itself. - */ - if (block == pageBlocks) { - /* Delete from head */ - pageBlocks = block->next; - if (block->next) - block->next->prev = NULL; - } - else { - /* Delete from middle of list */ - CHECK(block->prev != NULL); - block->prev->next = block->next; - if (block->next) - block->next->prev = block->prev; - } - PM_free(block); - } -#else - (void)p; -#endif -} - -/*-------------------------------------------------------------------------*/ -/* DOS Real Mode support. */ -/*-------------------------------------------------------------------------*/ - -#ifdef REALMODE - -#ifndef MK_FP -#define MK_FP(s,o) ( (void far *)( ((ulong)(s) << 16) + \ - (ulong)(o) )) -#endif - -void * PMAPI PM_mapRealPointer(uint r_seg,uint r_off) -{ return MK_FP(r_seg,r_off); } - -void * PMAPI PM_getBIOSPointer(void) -{ - return MK_FP(0x40,0); -} - -void * PMAPI PM_getA0000Pointer(void) -{ - return MK_FP(0xA000,0); -} - -void * PMAPI PM_mapPhysicalAddr(ulong base,ulong limit,ibool isCached) -{ - uint sel = base >> 4; - uint off = base & 0xF; - limit = limit; - return MK_FP(sel,off); -} - -void PMAPI PM_freePhysicalAddr(void *ptr,ulong limit) -{ ptr = ptr; } - -ulong PMAPI PM_getPhysicalAddr(void *p) -{ - return ((((ulong)p >> 16) << 4) + (ushort)p); -} - -ibool PMAPI PM_getPhysicalAddrRange(void *p,ulong length,ulong *physAddress) -{ return false; } - -void * PMAPI PM_mapToProcess(void *base,ulong limit) -{ return (void*)base; } - -void * PMAPI PM_allocRealSeg(uint size,uint *r_seg,uint *r_off) -{ - /* Call malloc() to allocate the memory for us */ - void *p = PM_malloc(size); - *r_seg = FP_SEG(p); - *r_off = FP_OFF(p); - return p; -} - -void PMAPI PM_freeRealSeg(void *mem) -{ - if (mem) PM_free(mem); -} - -int PMAPI PM_int86(int intno, RMREGS *in, RMREGS *out) -{ - return PM_int386(intno,in,out); -} - -int PMAPI PM_int86x(int intno, RMREGS *in, RMREGS *out, - RMSREGS *sregs) -{ - return PM_int386x(intno,in,out,sregs); -} - -void PMAPI PM_availableMemory(ulong *physical,ulong *total) -{ - PMREGS regs; - - regs.h.ah = 0x48; - regs.x.bx = 0xFFFF; - PM_int86(0x21,®s,®s); - *physical = *total = regs.x.bx * 16UL; -} - -#endif - -/*-------------------------------------------------------------------------*/ -/* Phar Lap TNT DOS Extender support. */ -/*-------------------------------------------------------------------------*/ - -#ifdef TNT - -#include <pldos32.h> -#include <pharlap.h> -#include <hw386.h> - -static uchar *zeroPtr = NULL; - -void * PMAPI PM_getBIOSPointer(void) -{ - if (!zeroPtr) - zeroPtr = PM_mapPhysicalAddr(0,0xFFFFF,true); - return (void*)(zeroPtr + 0x400); -} - -void * PMAPI PM_getA0000Pointer(void) -{ - static void *bankPtr; - if (!bankPtr) - bankPtr = PM_mapPhysicalAddr(0xA0000,0xFFFF,true); - return bankPtr; -} - -void * PMAPI PM_mapPhysicalAddr(ulong base,ulong limit,ibool isCached) -{ - CONFIG_INF config; - ULONG offset; - int err; - ulong baseAddr,baseOfs,newLimit; - VXD_regs regs; - - /* If we have connected to our helper VxD in a Windows DOS box, use - * the helper VxD services to map memory instead of the DPMI services. - * We do this because the helper VxD can properly disable caching - * where necessary, which we can only do directly here if we are - * running at ring 0 (ie: under real DOS). - */ - if (VXD_version == -1) - PM_init(); - if (VXD_version) { - memset(®s,0,sizeof(regs)); - regs.eax = API_NUM(PMHELP_MAPPHYS); - regs.ebx = base; - regs.ecx = limit; - regs.edx = isCached; - _PM_VxDCall(®s,_PM_VXD_off,_PM_VXD_sel); - return (void*)regs.eax; - } - - /* Round the physical address to a 4Kb boundary and the limit to a - * 4Kb-1 boundary before passing the values to TNT. If we round the - * physical address, then we also add an extra offset into the address - * that we return. - */ - baseOfs = base & 4095; - baseAddr = base & ~4095; - newLimit = ((limit+baseOfs+1+4095) & ~4095)-1; - _dx_config_inf(&config, (UCHAR*)&config); - err = _dx_map_phys(config.c_ds_sel,baseAddr,(newLimit + 4095) / 4096,&offset); - if (err == 130) { - /* If the TNT function failed, we are running in a DPMI environment - * and this function does not work. However we know how to handle - * DPMI properly, so we use our generic DPMI functions to do - * what the TNT runtime libraries can't. - */ - return DPMI_mapPhysicalAddr(base,limit,isCached); - } - if (err == 0) - return (void*)(offset + baseOfs); - return NULL; -} - -void PMAPI PM_freePhysicalAddr(void *ptr,ulong limit) -{ -} - -ulong PMAPI PM_getPhysicalAddr(void *p) -{ return 0xFFFFFFFFUL; } - -ibool PMAPI PM_getPhysicalAddrRange(void *p,ulong length,ulong *physAddress) -{ return false; } - -void * PMAPI PM_mapToProcess(void *base,ulong limit) -{ return (void*)base; } - -void * PMAPI PM_mapRealPointer(uint r_seg,uint r_off) -{ - if (!zeroPtr) - zeroPtr = PM_mapPhysicalAddr(0,0xFFFFF); - return (void*)(zeroPtr + MK_PHYS(r_seg,r_off)); -} - -void * PMAPI PM_allocRealSeg(uint size,uint *r_seg,uint *r_off) -{ - USHORT addr,t; - void *p; - - if (_dx_real_alloc((size + 0xF) >> 4,&addr,&t) != 0) - return 0; - *r_seg = addr; /* Real mode segment address */ - *r_off = 0; /* Real mode segment offset */ - p = PM_mapRealPointer(*r_seg,*r_off); - _PM_addRealModeBlock(p,addr); - return p; -} - -void PMAPI PM_freeRealSeg(void *mem) -{ - if (mem) _dx_real_free(_PM_findRealModeBlock(mem)); -} - -#define INDPMI(reg) rmregs.reg = regs->reg -#define OUTDPMI(reg) regs->reg = rmregs.reg - -void PMAPI DPMI_int86(int intno, DPMI_regs *regs) -{ - SWI_REGS rmregs; - - memset(&rmregs, 0, sizeof(rmregs)); - INDPMI(eax); INDPMI(ebx); INDPMI(ecx); INDPMI(edx); INDPMI(esi); INDPMI(edi); - - _dx_real_int(intno,&rmregs); - - OUTDPMI(eax); OUTDPMI(ebx); OUTDPMI(ecx); OUTDPMI(edx); OUTDPMI(esi); OUTDPMI(edi); - regs->flags = rmregs.flags; -} - -#define IN(reg) rmregs.reg = in->e.reg -#define OUT(reg) out->e.reg = rmregs.reg - -int PMAPI PM_int86(int intno, RMREGS *in, RMREGS *out) -{ - SWI_REGS rmregs; - - memset(&rmregs, 0, sizeof(rmregs)); - IN(eax); IN(ebx); IN(ecx); IN(edx); IN(esi); IN(edi); - - _dx_real_int(intno,&rmregs); - - OUT(eax); OUT(ebx); OUT(ecx); OUT(edx); OUT(esi); OUT(edi); - out->x.cflag = rmregs.flags & 0x1; - return out->x.ax; -} - -int PMAPI PM_int86x(int intno, RMREGS *in, RMREGS *out, - RMSREGS *sregs) -{ - SWI_REGS rmregs; - - memset(&rmregs, 0, sizeof(rmregs)); - IN(eax); IN(ebx); IN(ecx); IN(edx); IN(esi); IN(edi); - rmregs.es = sregs->es; - rmregs.ds = sregs->ds; - - _dx_real_int(intno,&rmregs); - - OUT(eax); OUT(ebx); OUT(ecx); OUT(edx); OUT(esi); OUT(edi); - sregs->es = rmregs.es; - sregs->cs = rmregs.cs; - sregs->ss = rmregs.ss; - sregs->ds = rmregs.ds; - out->x.cflag = rmregs.flags & 0x1; - return out->x.ax; -} - -void PMAPI PM_availableMemory(ulong *physical,ulong *total) -{ - PMREGS r; - uint data[25]; - - r.x.ax = 0x2520; /* Get free memory info */ - r.x.bx = 0; - r.e.edx = (uint)data; - PM_int386(0x21, &r, &r); - *physical = data[21] * 4096; - *total = data[23] * 4096; -} - -#endif - -/*-------------------------------------------------------------------------*/ -/* Symantec C++ DOSX and FlashTek X-32/X-32VM support */ -/*-------------------------------------------------------------------------*/ - -#if defined(DOSX) || defined(X32VM) - -#ifdef X32VM -#include <x32.h> - -#define _x386_mk_protected_ptr(p) _x32_mk_protected_ptr((void*)p) -#define _x386_free_protected_ptr(p) _x32_free_protected_ptr(p) -#define _x386_zero_base_ptr _x32_zero_base_ptr -#else -extern void *_x386_zero_base_ptr; -#endif - -void * PMAPI PM_mapRealPointer(uint r_seg,uint r_off) -{ - return (void*)((ulong)_x386_zero_base_ptr + MK_PHYS(r_seg,r_off)); -} - -void * PMAPI PM_allocRealSeg(uint size,uint *r_seg,uint *r_off) -{ - PMREGS r; - - r.h.ah = 0x48; /* DOS function 48h - allocate mem */ - r.x.bx = (size + 0xF) >> 4; /* Number of paragraphs to allocate */ - PM_int386(0x21, &r, &r); /* Call DOS extender */ - if (r.x.cflag) - return 0; /* Could not allocate the memory */ - *r_seg = r.e.eax; - *r_off = 0; - return PM_mapRealPointer(*r_seg,*r_off); -} - -void PMAPI PM_freeRealSeg(void *mem) -{ - /* Cannot de-allocate this memory */ - mem = mem; -} - -#pragma pack(1) - -typedef struct { - ushort intno; - ushort ds; - ushort es; - ushort fs; - ushort gs; - ulong eax; - ulong edx; - } _RMREGS; - -#pragma pack() - -#define IN(reg) regs.e.reg = in->e.reg -#define OUT(reg) out->e.reg = regs.e.reg - -int PMAPI PM_int86(int intno, RMREGS *in, RMREGS *out) -{ - _RMREGS rmregs; - PMREGS regs; - PMSREGS pmsregs; - - rmregs.intno = intno; - rmregs.eax = in->e.eax; - rmregs.edx = in->e.edx; - IN(ebx); IN(ecx); IN(esi); IN(edi); - regs.x.ax = 0x2511; - regs.e.edx = (uint)(&rmregs); - PM_segread(&pmsregs); - PM_int386x(0x21,®s,®s,&pmsregs); - - OUT(eax); OUT(ebx); OUT(ecx); OUT(esi); OUT(edi); - out->x.dx = rmregs.edx; - out->x.cflag = regs.x.cflag; - return out->x.ax; -} - -int PMAPI PM_int86x(int intno, RMREGS *in, RMREGS *out, RMSREGS *sregs) -{ - _RMREGS rmregs; - PMREGS regs; - PMSREGS pmsregs; - - rmregs.intno = intno; - rmregs.eax = in->e.eax; - rmregs.edx = in->e.edx; - rmregs.es = sregs->es; - rmregs.ds = sregs->ds; - IN(ebx); IN(ecx); IN(esi); IN(edi); - regs.x.ax = 0x2511; - regs.e.edx = (uint)(&rmregs); - PM_segread(&pmsregs); - PM_int386x(0x21,®s,®s,&pmsregs); - - OUT(eax); OUT(ebx); OUT(ecx); OUT(esi); OUT(edi); - sregs->es = rmregs.es; - sregs->ds = rmregs.ds; - out->x.dx = rmregs.edx; - out->x.cflag = regs.x.cflag; - return out->x.ax; -} - -void * PMAPI PM_getBIOSPointer(void) -{ - return (void*)((ulong)_x386_zero_base_ptr + 0x400); -} - -void * PMAPI PM_getA0000Pointer(void) -{ - return (void*)((ulong)_x386_zero_base_ptr + 0xA0000); -} - -void * PMAPI PM_mapPhysicalAddr(ulong base,ulong limit,ibool isCached) -{ - VXD_regs regs; - - /* If we have connected to our helper VxD in a Windows DOS box, use - * the helper VxD services to map memory instead of the DPMI services. - * We do this because the helper VxD can properly disable caching - * where necessary, which we can only do directly here if we are - * running at ring 0 (ie: under real DOS). - */ - if (VXD_version == -1) - PM_init(); - if (VXD_version) { - memset(®s,0,sizeof(regs)); - regs.eax = API_NUM(PMHELP_MAPPHYS); - regs.ebx = base; - regs.ecx = limit; - regs.edx = isCached; - _PM_VxDCall(®s,_PM_VXD_off,_PM_VXD_sel); - return (void*)regs.eax; - } - - if (base > 0x100000) - return _x386_map_physical_address((void*)base,limit); - return (void*)((ulong)_x386_zero_base_ptr + base); -} - -void PMAPI PM_freePhysicalAddr(void *ptr,ulong limit) -{ - /* Mapping cannot be freed */ -} - -ulong PMAPI PM_getPhysicalAddr(void *p) -{ return 0xFFFFFFFFUL; } - -ibool PMAPI PM_getPhysicalAddrRange(void *p,ulong length,ulong *physAddress) -{ return false; } - -void * PMAPI PM_mapToProcess(void *base,ulong limit) -{ return (void*)base; } - -ulong _cdecl _X32_getPhysMem(void); - -void PMAPI PM_availableMemory(ulong *physical,ulong *total) -{ - PMREGS regs; - - /* Get total memory available, including virtual memory */ - regs.x.ax = 0x350B; - PM_int386(0x21,®s,®s); - *total = regs.e.eax; - - /* Get physical memory available */ - *physical = _X32_getPhysMem(); - if (*physical > *total) - *physical = *total; -} - -#endif - -/*-------------------------------------------------------------------------*/ -/* Borland's DPMI32, Watcom DOS4GW and DJGPP DPMI support routines */ -/*-------------------------------------------------------------------------*/ - -#if defined(DPMI32) || defined(DOS4GW) || defined(DJGPP) - -void * PMAPI PM_getBIOSPointer(void) -{ - return PM_mapPhysicalAddr(0x400,0xFFFF,true); -} - -void * PMAPI PM_getA0000Pointer(void) -{ - return PM_mapPhysicalAddr(0xA0000,0xFFFF,true); -} - -void * PMAPI PM_mapPhysicalAddr(ulong base,ulong limit,ibool isCached) -{ - VXD_regs regs; - -#ifdef DJGPP - /* Enable near pointers for DJGPP V2 */ - __djgpp_nearptr_enable(); -#endif - /* If we have connected to our helper VxD in a Windows DOS box, use - * the helper VxD services to map memory instead of the DPMI services. - * We do this because the helper VxD can properly disable caching - * where necessary, which we can only do directly here if we are - * running at ring 0 (ie: under real DOS). - */ - if (VXD_version == -1) - PM_init(); - if (VXD_version) { - memset(®s,0,sizeof(regs)); - regs.eax = API_NUM(PMHELP_MAPPHYS); - regs.ebx = base; - regs.ecx = limit; - regs.edx = isCached; - _PM_VxDCall(®s,_PM_VXD_off,_PM_VXD_sel); - return (void*)regs.eax; - } - return DPMI_mapPhysicalAddr(base,limit,isCached); -} - -void PMAPI PM_freePhysicalAddr(void *ptr,ulong limit) -{ - /* Mapping cannot be freed */ - (void)ptr; - (void)limit; -} - -ulong PMAPI PM_getPhysicalAddr(void *p) -{ - ulong physAddr; - if (!PM_getPhysicalAddrRange(p,1,&physAddr)) - return 0xFFFFFFFF; - return physAddr | ((ulong)p & 0xFFF); -} - -ibool PMAPI PM_getPhysicalAddrRange( - void *p, - ulong length, - ulong *physAddress) -{ - VXD_regs regs; - ulong pte; - PMSREGS sregs; - ulong DSBaseAddr; - - /* If we have connected to our helper VxD in a Windows DOS box, use the - * helper VxD services to find the physical address of an address. - */ - if (VXD_version) { - memset(®s,0,sizeof(regs)); - regs.eax = API_NUM(PMHELP_GETPHYSICALADDRRANGE); - regs.ebx = (ulong)p; - regs.ecx = (ulong)length; - regs.edx = (ulong)physAddress; - _PM_VxDCall(®s,_PM_VXD_off,_PM_VXD_sel); - return regs.eax; - } - - /* Find base address for default DS selector */ - PM_segread(&sregs); - DSBaseAddr = DPMI_getSelectorBase(sregs.ds); - - /* Otherwise directly access the page tables to determine the - * physical memory address. Note that we touch the memory before - * calling, otherwise the memory may not be paged in correctly. - */ - pte = *((ulong*)p); -#ifdef DOS4GW - if (_PM_pagingEnabled() == 0) { - int count; - ulong linAddr = (ulong)p; - - /* When paging is disabled physical=linear */ - for (count = (length+0xFFF) >> 12; count > 0; count--) { - *physAddress++ = linAddr; - linAddr += 4096; - } - return true; - } - else if ((PDB = _PM_getPDB()) != 0 && DSBaseAddr == 0) { - int startPDB,endPDB,iPDB,startPage,endPage,start,end,iPage; - ulong pageTable,*pPageTable,linAddr = (ulong)p; - ulong limit = length-1; - - pPDB = (ulong*)DPMI_mapPhysicalToLinear(PDB,0xFFF); - if (pPDB) { - startPDB = (linAddr >> 22) & 0x3FFL; - startPage = (linAddr >> 12) & 0x3FFL; - endPDB = ((linAddr+limit) >> 22) & 0x3FFL; - endPage = ((linAddr+limit) >> 12) & 0x3FFL; - for (iPDB = startPDB; iPDB <= endPDB; iPDB++) { - pageTable = pPDB[iPDB] & ~0xFFFL; - pPageTable = (ulong*)DPMI_mapPhysicalToLinear(pageTable,0xFFF); - start = (iPDB == startPDB) ? startPage : 0; - end = (iPDB == endPDB) ? endPage : 0x3FFL; - for (iPage = start; iPage <= end; iPage++) - *physAddress++ = (pPageTable[iPage] & ~0xFFF); - } - return true; - } - } -#endif - return false; -} - -void * PMAPI PM_mapToProcess(void *base,ulong limit) -{ - (void)limit; - return (void*)base; -} - -void * PMAPI PM_mapRealPointer(uint r_seg,uint r_off) -{ - static uchar *zeroPtr = NULL; - - if (!zeroPtr) - zeroPtr = PM_mapPhysicalAddr(0,0xFFFFF,true); - return (void*)(zeroPtr + MK_PHYS(r_seg,r_off)); -} - -void * PMAPI PM_allocRealSeg(uint size,uint *r_seg,uint *r_off) -{ - PMREGS r; - void *p; - - r.x.ax = 0x100; /* DPMI allocate DOS memory */ - r.x.bx = (size + 0xF) >> 4; /* number of paragraphs */ - PM_int386(0x31, &r, &r); - if (r.x.cflag) - return NULL; /* DPMI call failed */ - *r_seg = r.x.ax; /* Real mode segment */ - *r_off = 0; - p = PM_mapRealPointer(*r_seg,*r_off); - _PM_addRealModeBlock(p,r.x.dx); - return p; -} - -void PMAPI PM_freeRealSeg(void *mem) -{ - PMREGS r; - - if (mem) { - r.x.ax = 0x101; /* DPMI free DOS memory */ - r.x.dx = _PM_findRealModeBlock(mem);/* DX := selector from 0x100 */ - PM_int386(0x31, &r, &r); - } -} - -static DPMI_handler_t DPMI_int10 = NULL; - -void PMAPI DPMI_setInt10Handler(DPMI_handler_t handler) -{ - DPMI_int10 = handler; -} - -void PMAPI DPMI_int86(int intno, DPMI_regs *regs) -{ - PMREGS r; - PMSREGS sr; - - if (intno == 0x10 && DPMI_int10) { - if (DPMI_int10(regs)) - return; - } - PM_segread(&sr); - r.x.ax = 0x300; /* DPMI issue real interrupt */ - r.h.bl = intno; - r.h.bh = 0; - r.x.cx = 0; - sr.es = sr.ds; - r.e.edi = (uint)regs; - PM_int386x(0x31, &r, &r, &sr); /* Issue the interrupt */ -} - -#define IN(reg) rmregs.reg = in->e.reg -#define OUT(reg) out->e.reg = rmregs.reg - -int PMAPI PM_int86(int intno, RMREGS *in, RMREGS *out) -{ - DPMI_regs rmregs; - - memset(&rmregs, 0, sizeof(rmregs)); - IN(eax); IN(ebx); IN(ecx); IN(edx); IN(esi); IN(edi); - - DPMI_int86(intno,&rmregs); /* DPMI issue real interrupt */ - - OUT(eax); OUT(ebx); OUT(ecx); OUT(edx); OUT(esi); OUT(edi); - out->x.cflag = rmregs.flags & 0x1; - return out->x.ax; -} - -int PMAPI PM_int86x(int intno, RMREGS *in, RMREGS *out, - RMSREGS *sregs) -{ - DPMI_regs rmregs; - - memset(&rmregs, 0, sizeof(rmregs)); - IN(eax); IN(ebx); IN(ecx); IN(edx); IN(esi); IN(edi); - rmregs.es = sregs->es; - rmregs.ds = sregs->ds; - - DPMI_int86(intno,&rmregs); /* DPMI issue real interrupt */ - - OUT(eax); OUT(ebx); OUT(ecx); OUT(edx); OUT(esi); OUT(edi); - sregs->es = rmregs.es; - sregs->cs = rmregs.cs; - sregs->ss = rmregs.ss; - sregs->ds = rmregs.ds; - out->x.cflag = rmregs.flags & 0x1; - return out->x.ax; -} - -#pragma pack(1) - -typedef struct { - uint LargestBlockAvail; - uint MaxUnlockedPage; - uint LargestLockablePage; - uint LinAddrSpace; - uint NumFreePagesAvail; - uint NumPhysicalPagesFree; - uint TotalPhysicalPages; - uint FreeLinAddrSpace; - uint SizeOfPageFile; - uint res[3]; - } MemInfo; - -#pragma pack() - -void PMAPI PM_availableMemory(ulong *physical,ulong *total) -{ - PMREGS r; - PMSREGS sr; - MemInfo memInfo; - - PM_segread(&sr); - r.x.ax = 0x500; /* DPMI get free memory info */ - sr.es = sr.ds; - r.e.edi = (uint)&memInfo; - PM_int386x(0x31, &r, &r, &sr); /* Issue the interrupt */ - *physical = memInfo.NumPhysicalPagesFree * 4096; - *total = memInfo.LargestBlockAvail; - if (*total < *physical) - *physical = *total; -} - -#endif - -#ifndef __16BIT__ - -/**************************************************************************** -REMARKS: -Call the VBE/Core software interrupt to change display banks. -****************************************************************************/ -void PMAPI PM_setBankA( - int bank) -{ - DPMI_regs regs; - memset(®s, 0, sizeof(regs)); - regs.eax = 0x4F05; - regs.ebx = 0x0000; - regs.edx = bank; - DPMI_int86(0x10,®s); -} - -/**************************************************************************** -REMARKS: -Call the VBE/Core software interrupt to change display banks. -****************************************************************************/ -void PMAPI PM_setBankAB( - int bank) -{ - DPMI_regs regs; - memset(®s, 0, sizeof(regs)); - regs.eax = 0x4F05; - regs.ebx = 0x0000; - regs.edx = bank; - DPMI_int86(0x10,®s); - regs.eax = 0x4F05; - regs.ebx = 0x0001; - regs.edx = bank; - DPMI_int86(0x10,®s); -} - -/**************************************************************************** -REMARKS: -Call the VBE/Core software interrupt to change display start address. -****************************************************************************/ -void PMAPI PM_setCRTStart( - int x, - int y, - int waitVRT) -{ - DPMI_regs regs; - memset(®s, 0, sizeof(regs)); - regs.eax = 0x4F07; - regs.ebx = waitVRT; - regs.ecx = x; - regs.edx = y; - DPMI_int86(0x10,®s); -} - -#endif - -/**************************************************************************** -REMARKS: -Function to get the file attributes for a specific file. -****************************************************************************/ -uint PMAPI PM_getFileAttr( - const char *filename) -{ - /* TODO: Implement this! */ - return 0; -} - -/**************************************************************************** -REMARKS: -Function to get the file time and date for a specific file. -****************************************************************************/ -ibool PMAPI PM_getFileTime( - const char *filename, - ibool gmTime, - PM_time *time) -{ - /* TODO: Implement this! */ - return false; -} - -/**************************************************************************** -REMARKS: -Function to set the file time and date for a specific file. -****************************************************************************/ -ibool PMAPI PM_setFileTime( - const char *filename, - ibool gmTime, - PM_time *time) -{ - /* TODO: Implement this! */ - return false; -} diff --git a/board/MAI/bios_emulator/scitech/src/pm/dos/pmdos.c b/board/MAI/bios_emulator/scitech/src/pm/dos/pmdos.c deleted file mode 100644 index eecc2daede..0000000000 --- a/board/MAI/bios_emulator/scitech/src/pm/dos/pmdos.c +++ /dev/null @@ -1,1637 +0,0 @@ -/**************************************************************************** -* -* SciTech OS Portability Manager Library -* -* ======================================================================== -* -* The contents of this file are subject to the SciTech MGL Public -* License Version 1.0 (the "License"); you may not use this file -* except in compliance with the License. You may obtain a copy of -* the License at http://www.scitechsoft.com/mgl-license.txt -* -* Software distributed under the License is distributed on an -* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -* implied. See the License for the specific language governing -* rights and limitations under the License. -* -* The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc. -* -* The Initial Developer of the Original Code is SciTech Software, Inc. -* All Rights Reserved. -* -* ======================================================================== -* -* Language: ANSI C -* Environment: 16/32 bit DOS -* -* Description: Implementation for the OS Portability Manager Library, which -* contains functions to implement OS specific services in a -* generic, cross platform API. Porting the OS Portability -* Manager library is the first step to porting any SciTech -* products to a new platform. -* -****************************************************************************/ - -#include "pmapi.h" -#include <stdio.h> -#include <stdlib.h> -#include <string.h> -#include <dos.h> - -/*--------------------------- Global variables ----------------------------*/ - -#ifndef REALMODE -static int globalDataStart; -#endif - -PM_criticalHandler _VARAPI _PM_critHandler = NULL; -PM_breakHandler _VARAPI _PM_breakHandler = NULL; -PM_intHandler _VARAPI _PM_timerHandler = NULL; -PM_intHandler _VARAPI _PM_rtcHandler = NULL; -PM_intHandler _VARAPI _PM_keyHandler = NULL; -PM_key15Handler _VARAPI _PM_key15Handler = NULL; -PM_mouseHandler _VARAPI _PM_mouseHandler = NULL; -PM_intHandler _VARAPI _PM_int10Handler = NULL; -int _VARAPI _PM_mouseMask; - -uchar * _VARAPI _PM_ctrlCPtr; /* Location of Ctrl-C flag */ -uchar * _VARAPI _PM_ctrlBPtr; /* Location of Ctrl-Break flag */ -uchar * _VARAPI _PM_critPtr; /* Location of Critical error Bf*/ -PMFARPTR _VARAPI _PM_prevTimer = PMNULL; /* Previous timer handler */ -PMFARPTR _VARAPI _PM_prevRTC = PMNULL; /* Previous RTC handler */ -PMFARPTR _VARAPI _PM_prevKey = PMNULL; /* Previous key handler */ -PMFARPTR _VARAPI _PM_prevKey15 = PMNULL; /* Previous key15 handler */ -PMFARPTR _VARAPI _PM_prevBreak = PMNULL; /* Previous break handler */ -PMFARPTR _VARAPI _PM_prevCtrlC = PMNULL; /* Previous CtrlC handler */ -PMFARPTR _VARAPI _PM_prevCritical = PMNULL; /* Previous critical handler */ -long _VARAPI _PM_prevRealTimer; /* Previous real mode timer */ -long _VARAPI _PM_prevRealRTC; /* Previous real mode RTC */ -long _VARAPI _PM_prevRealKey; /* Previous real mode key */ -long _VARAPI _PM_prevRealKey15; /* Previous real mode key15 */ -long _VARAPI _PM_prevRealInt10; /* Previous real mode int 10h */ -static uchar _PM_oldCMOSRegA; /* CMOS register A contents */ -static uchar _PM_oldCMOSRegB; /* CMOS register B contents */ -static uchar _PM_oldRTCPIC2; /* Mask value for RTC IRQ8 */ - -/* Structure to maintain information about hardware interrupt handlers, - * include a copy of the hardware IRQ assembler thunk (one for each - * hooked interrupt handler). - */ - -typedef struct { - uchar IRQ; - uchar IRQVect; - uchar prevPIC; - uchar prevPIC2; - PMFARPTR prevHandler; - long prevRealhandler; - uchar thunk[1]; - /* IRQ assembler thunk follows ... */ - } _PM_IRQHandle; - -/*----------------------------- Implementation ----------------------------*/ - -/* Globals for locking interrupt handlers in _pmdos.asm */ - -#ifndef REALMODE -extern int _VARAPI _PM_pmdosDataStart; -extern int _VARAPI _PM_pmdosDataEnd; -extern int _VARAPI _PM_DMADataStart; -extern int _VARAPI _PM_DMADataEnd; -void _ASMAPI _PM_pmdosCodeStart(void); -void _ASMAPI _PM_pmdosCodeEnd(void); -void _ASMAPI _PM_DMACodeStart(void); -void _ASMAPI _PM_DMACodeEnd(void); -#endif - -/* Protected mode interrupt handlers, also called by PM callbacks below */ - -void _ASMAPI _PM_timerISR(void); -void _ASMAPI _PM_rtcISR(void); -void _ASMAPI _PM_irqISRTemplate(void); -void _ASMAPI _PM_irqISRTemplateEnd(void); -void _ASMAPI _PM_keyISR(void); -void _ASMAPI _PM_key15ISR(void); -void _ASMAPI _PM_breakISR(void); -void _ASMAPI _PM_ctrlCISR(void); -void _ASMAPI _PM_criticalISR(void); -void _ASMAPI _PM_mouseISR(void); -void _ASMAPI _PM_int10PMCB(void); - -/* Protected mode DPMI callback handlers */ - -void _ASMAPI _PM_mousePMCB(void); - -/* Routine to install a mouse handler function */ - -void _ASMAPI _PM_setMouseHandler(int mask); - -/* Routine to allocate DPMI real mode callback routines */ - -ibool _ASMAPI _DPMI_allocateCallback(void (_ASMAPI *pmcode)(),void *rmregs,long *RMCB); -void _ASMAPI _DPMI_freeCallback(long RMCB); - -/* DPMI helper functions in PMLITE.C */ - -ulong PMAPI DPMI_mapPhysicalToLinear(ulong physAddr,ulong limit); -int PMAPI DPMI_setSelectorBase(ushort sel,ulong linAddr); -ulong PMAPI DPMI_getSelectorBase(ushort sel); -int PMAPI DPMI_setSelectorLimit(ushort sel,ulong limit); -uint PMAPI DPMI_createSelector(ulong base,ulong limit); -void PMAPI DPMI_freeSelector(uint sel); -int PMAPI DPMI_lockLinearPages(ulong linear,ulong len); -int PMAPI DPMI_unlockLinearPages(ulong linear,ulong len); - -/* Functions to read and write CMOS registers */ - -uchar PMAPI _PM_readCMOS(int index); -void PMAPI _PM_writeCMOS(int index,uchar value); - -/*-------------------------------------------------------------------------*/ -/* Generic routines common to all environments */ -/*-------------------------------------------------------------------------*/ - -void PMAPI PM_resetMouseDriver(int hardReset) -{ - RMREGS regs; - PM_mouseHandler oldHandler = _PM_mouseHandler; - - PM_restoreMouseHandler(); - regs.x.ax = hardReset ? 0 : 33; - PM_int86(0x33, ®s, ®s); - if (oldHandler) - PM_setMouseHandler(_PM_mouseMask, oldHandler); -} - -void PMAPI PM_setRealTimeClockFrequency(int frequency) -{ - static short convert[] = { - 8192, - 4096, - 2048, - 1024, - 512, - 256, - 128, - 64, - 32, - 16, - 8, - 4, - 2, - -1, - }; - int i; - - /* First clear any pending RTC timeout if not cleared */ - _PM_readCMOS(0x0C); - if (frequency == 0) { - /* Disable RTC timout */ - _PM_writeCMOS(0x0A,_PM_oldCMOSRegA); - _PM_writeCMOS(0x0B,_PM_oldCMOSRegB & 0x0F); - } - else { - /* Convert frequency value to RTC clock indexes */ - for (i = 0; convert[i] != -1; i++) { - if (convert[i] == frequency) - break; - } - - /* Set RTC timout value and enable timeout */ - _PM_writeCMOS(0x0A,0x20 | (i+3)); - _PM_writeCMOS(0x0B,(_PM_oldCMOSRegB & 0x0F) | 0x40); - } -} - -#ifndef REALMODE - -static void PMAPI lockPMHandlers(void) -{ - static int locked = 0; - int stat; - PM_lockHandle lh; /* Unused in DOS */ - - /* Lock all of the code and data used by our protected mode interrupt - * handling routines, so that it will continue to work correctly - * under real mode. - */ - if (!locked) { - PM_saveDS(); - stat = !PM_lockDataPages(&globalDataStart-2048,4096,&lh); - stat |= !PM_lockDataPages(&_PM_pmdosDataStart,(int)&_PM_pmdosDataEnd - (int)&_PM_pmdosDataStart,&lh); - stat |= !PM_lockCodePages((__codePtr)_PM_pmdosCodeStart,(int)_PM_pmdosCodeEnd-(int)_PM_pmdosCodeStart,&lh); - stat |= !PM_lockDataPages(&_PM_DMADataStart,(int)&_PM_DMADataEnd - (int)&_PM_DMADataStart,&lh); - stat |= !PM_lockCodePages((__codePtr)_PM_DMACodeStart,(int)_PM_DMACodeEnd-(int)_PM_DMACodeStart,&lh); - if (stat) { - printf("Page locking services failed - interrupt handling not safe!\n"); - exit(1); - } - locked = 1; - } -} - -#endif - -/*-------------------------------------------------------------------------*/ -/* DOS Real Mode support. */ -/*-------------------------------------------------------------------------*/ - -#ifdef REALMODE - -#ifndef MK_FP -#define MK_FP(s,o) ( (void far *)( ((ulong)(s) << 16) + \ - (ulong)(o) )) -#endif - -int PMAPI PM_setMouseHandler(int mask, PM_mouseHandler mh) -{ - PM_saveDS(); - _PM_mouseHandler = mh; - _PM_setMouseHandler(_PM_mouseMask = mask); - return 1; -} - -void PMAPI PM_restoreMouseHandler(void) -{ - union REGS regs; - - if (_PM_mouseHandler) { - regs.x.ax = 33; - int86(0x33, ®s, ®s); - _PM_mouseHandler = NULL; - } -} - -void PMAPI PM_setTimerHandler(PM_intHandler th) -{ - _PM_getRMvect(0x8, (long*)&_PM_prevTimer); - _PM_timerHandler = th; - _PM_setRMvect(0x8, (long)_PM_timerISR); -} - -void PMAPI PM_restoreTimerHandler(void) -{ - if (_PM_timerHandler) { - _PM_setRMvect(0x8, (long)_PM_prevTimer); - _PM_timerHandler = NULL; - } -} - -ibool PMAPI PM_setRealTimeClockHandler(PM_intHandler th,int frequency) -{ - /* Save the old CMOS real time clock values */ - _PM_oldCMOSRegA = _PM_readCMOS(0x0A); - _PM_oldCMOSRegB = _PM_readCMOS(0x0B); - - /* Set the real time clock interrupt handler */ - _PM_getRMvect(0x70, (long*)&_PM_prevRTC); - _PM_rtcHandler = th; - _PM_setRMvect(0x70, (long)_PM_rtcISR); - - /* Program the real time clock default frequency */ - PM_setRealTimeClockFrequency(frequency); - - /* Unmask IRQ8 in the PIC2 */ - _PM_oldRTCPIC2 = PM_inpb(0xA1); - PM_outpb(0xA1,_PM_oldRTCPIC2 & 0xFE); - return true; -} - -void PMAPI PM_restoreRealTimeClockHandler(void) -{ - if (_PM_rtcHandler) { - /* Restore CMOS registers and mask RTC clock */ - _PM_writeCMOS(0x0A,_PM_oldCMOSRegA); - _PM_writeCMOS(0x0B,_PM_oldCMOSRegB); - PM_outpb(0xA1,(PM_inpb(0xA1) & 0xFE) | (_PM_oldRTCPIC2 & ~0xFE)); - - /* Restore the interrupt vector */ - _PM_setRMvect(0x70, (long)_PM_prevRTC); - _PM_rtcHandler = NULL; - } -} - -void PMAPI PM_setKeyHandler(PM_intHandler kh) -{ - _PM_getRMvect(0x9, (long*)&_PM_prevKey); - _PM_keyHandler = kh; - _PM_setRMvect(0x9, (long)_PM_keyISR); -} - -void PMAPI PM_restoreKeyHandler(void) -{ - if (_PM_keyHandler) { - _PM_setRMvect(0x9, (long)_PM_prevKey); - _PM_keyHandler = NULL; - } -} - -void PMAPI PM_setKey15Handler(PM_key15Handler kh) -{ - _PM_getRMvect(0x15, (long*)&_PM_prevKey15); - _PM_key15Handler = kh; - _PM_setRMvect(0x15, (long)_PM_key15ISR); -} - -void PMAPI PM_restoreKey15Handler(void) -{ - if (_PM_key15Handler) { - _PM_setRMvect(0x15, (long)_PM_prevKey15); - _PM_key15Handler = NULL; - } -} - -void PMAPI PM_installAltBreakHandler(PM_breakHandler bh) -{ - static int ctrlCFlag,ctrlBFlag; - - _PM_ctrlCPtr = (uchar*)&ctrlCFlag; - _PM_ctrlBPtr = (uchar*)&ctrlBFlag; - _PM_getRMvect(0x1B, (long*)&_PM_prevBreak); - _PM_getRMvect(0x23, (long*)&_PM_prevCtrlC); - _PM_breakHandler = bh; - _PM_setRMvect(0x1B, (long)_PM_breakISR); - _PM_setRMvect(0x23, (long)_PM_ctrlCISR); -} - -void PMAPI PM_installBreakHandler(void) -{ - PM_installAltBreakHandler(NULL); -} - -void PMAPI PM_restoreBreakHandler(void) -{ - if (_PM_prevBreak) { - _PM_setRMvect(0x1B, (long)_PM_prevBreak); - _PM_setRMvect(0x23, (long)_PM_prevCtrlC); - _PM_prevBreak = NULL; - _PM_breakHandler = NULL; - } -} - -void PMAPI PM_installAltCriticalHandler(PM_criticalHandler ch) -{ - static short critBuf[2]; - - _PM_critPtr = (uchar*)critBuf; - _PM_getRMvect(0x24, (long*)&_PM_prevCritical); - _PM_critHandler = ch; - _PM_setRMvect(0x24, (long)_PM_criticalISR); -} - -void PMAPI PM_installCriticalHandler(void) -{ - PM_installAltCriticalHandler(NULL); -} - -void PMAPI PM_restoreCriticalHandler(void) -{ - if (_PM_prevCritical) { - _PM_setRMvect(0x24, (long)_PM_prevCritical); - _PM_prevCritical = NULL; - _PM_critHandler = NULL; - } -} - -int PMAPI PM_lockDataPages(void *p,uint len,PM_lockHandle *lh) -{ - p = p; len = len; /* Do nothing for real mode */ - return 1; -} - -int PMAPI PM_unlockDataPages(void *p,uint len,PM_lockHandle *lh) -{ - p = p; len = len; /* Do nothing for real mode */ - return 1; -} - -int PMAPI PM_lockCodePages(void (*p)(),uint len,PM_lockHandle *lh) -{ - p = p; len = len; /* Do nothing for real mode */ - return 1; -} - -int PMAPI PM_unlockCodePages(void (*p)(),uint len,PM_lockHandle *lh) -{ - p = p; len = len; /* Do nothing for real mode */ - return 1; -} - -void PMAPI PM_getPMvect(int intno, PMFARPTR *isr) -{ - long t; - _PM_getRMvect(intno,&t); - *isr = (void*)t; -} - -void PMAPI PM_setPMvect(int intno, PM_intHandler isr) -{ - PM_saveDS(); - _PM_setRMvect(intno,(long)isr); -} - -void PMAPI PM_restorePMvect(int intno, PMFARPTR isr) -{ - _PM_setRMvect(intno,(long)isr); -} - -#endif - -/*-------------------------------------------------------------------------*/ -/* Phar Lap TNT DOS Extender support. */ -/*-------------------------------------------------------------------------*/ - -#ifdef TNT - -#include <pldos32.h> -#include <pharlap.h> -#include <hw386.h> - -static long prevRealBreak; /* Previous real mode break handler */ -static long prevRealCtrlC; /* Previous real mode CtrlC handler */ -static long prevRealCritical; /* Prev real mode critical handler */ -static uchar *mousePtr; - -/* The following real mode routine is used to call a 32 bit protected - * mode FAR function from real mode. We use this for passing up control - * from the real mode mouse callback to our protected mode code. - */ - -static UCHAR realHandler[] = { /* Real mode code generic handler */ - 0x00,0x00,0x00,0x00, /* __PM_callProtp */ - 0x00,0x00, /* __PM_protCS */ - 0x00,0x00,0x00,0x00, /* __PM_protHandler */ - 0x66,0x60, /* pushad */ - 0x1E, /* push ds */ - 0x6A,0x00, /* push 0 */ - 0x6A,0x00, /* push 0 */ - 0x2E,0xFF,0x36,0x04,0x00, /* push [cs:__PM_protCS] */ - 0x66,0x2E,0xFF,0x36,0x06,0x00, /* push [cs:__PM_protHandler] */ - 0x2E,0xFF,0x1E,0x00,0x00, /* call [cs:__PM_callProtp] */ - 0x83,0xC4,0x0A, /* add sp,10 */ - 0x1F, /* pop ds */ - 0x66,0x61, /* popad */ - 0xCB, /* retf */ - }; - -/* The following functions installs the above realmode callback mechanism - * in real mode memory for calling the protected mode routine. - */ - -uchar * installCallback(void (PMAPI *pmCB)(),uint *rseg, uint *roff) -{ - CONFIG_INF config; - REALPTR realBufAdr,callProtp; - ULONG bufSize; - FARPTR protBufAdr; - uchar *p; - - /* Get address of real mode routine to call up to protected mode */ - _dx_rmlink_get(&callProtp, &realBufAdr, &bufSize, &protBufAdr); - _dx_config_inf(&config, (UCHAR*)&config); - - /* Fill in the values in the real mode code segment so that it will - * call the correct routine. - */ - *((REALPTR*)&realHandler[0]) = callProtp; - *((USHORT*)&realHandler[4]) = config.c_cs_sel; - *((ULONG*)&realHandler[6]) = (ULONG)pmCB; - - /* Copy the real mode handler to real mode memory */ - if ((p = PM_allocRealSeg(sizeof(realHandler),rseg,roff)) == NULL) - return NULL; - memcpy(p,realHandler,sizeof(realHandler)); - - /* Skip past global variabls in real mode code segment */ - *roff += 0x0A; - return p; -} - -int PMAPI PM_setMouseHandler(int mask, PM_mouseHandler mh) -{ - RMREGS regs; - RMSREGS sregs; - uint rseg,roff; - - lockPMHandlers(); /* Ensure our handlers are locked */ - - if ((mousePtr = installCallback(_PM_mouseISR, &rseg, &roff)) == NULL) - return 0; - _PM_mouseHandler = mh; - - /* Install the real mode mouse handler */ - sregs.es = rseg; - regs.x.dx = roff; - regs.x.cx = _PM_mouseMask = mask; - regs.x.ax = 0xC; - PM_int86x(0x33, ®s, ®s, &sregs); - return 1; -} - -void PMAPI PM_restoreMouseHandler(void) -{ - RMREGS regs; - - if (_PM_mouseHandler) { - regs.x.ax = 33; - PM_int86(0x33, ®s, ®s); - PM_freeRealSeg(mousePtr); - _PM_mouseHandler = NULL; - } -} - -void PMAPI PM_getPMvect(int intno, PMFARPTR *isr) -{ - FARPTR ph; - - _dx_pmiv_get(intno, &ph); - isr->sel = FP_SEL(ph); - isr->off = FP_OFF(ph); -} - -void PMAPI PM_setPMvect(int intno, PM_intHandler isr) -{ - CONFIG_INF config; - FARPTR ph; - - PM_saveDS(); - _dx_config_inf(&config, (UCHAR*)&config); - FP_SET(ph,(uint)isr,config.c_cs_sel); - _dx_pmiv_set(intno,ph); -} - -void PMAPI PM_restorePMvect(int intno, PMFARPTR isr) -{ - FARPTR ph; - - FP_SET(ph,isr.off,isr.sel); - _dx_pmiv_set(intno,ph); -} - -static void getISR(int intno, PMFARPTR *pmisr, long *realisr) -{ - PM_getPMvect(intno,pmisr); - _PM_getRMvect(intno, realisr); -} - -static void restoreISR(int intno, PMFARPTR pmisr, long realisr) -{ - _PM_setRMvect(intno,realisr); - PM_restorePMvect(intno,pmisr); -} - -static void setISR(int intno, void (PMAPI *isr)()) -{ - CONFIG_INF config; - FARPTR ph; - - lockPMHandlers(); /* Ensure our handlers are locked */ - - _dx_config_inf(&config, (UCHAR*)&config); - FP_SET(ph,(uint)isr,config.c_cs_sel); - _dx_apmiv_set(intno,ph); -} - -void PMAPI PM_setTimerHandler(PM_intHandler th) -{ - getISR(0x8, &_PM_prevTimer, &_PM_prevRealTimer); - _PM_timerHandler = th; - setISR(0x8, _PM_timerISR); -} - -void PMAPI PM_restoreTimerHandler(void) -{ - if (_PM_timerHandler) { - restoreISR(0x8, _PM_prevTimer, _PM_prevRealTimer); - _PM_timerHandler = NULL; - } -} - -ibool PMAPI PM_setRealTimeClockHandler(PM_intHandler th,int frequency) -{ - /* Save the old CMOS real time clock values */ - _PM_oldCMOSRegA = _PM_readCMOS(0x0A); - _PM_oldCMOSRegB = _PM_readCMOS(0x0B); - - /* Set the real time clock interrupt handler */ - getISR(0x70, &_PM_prevRTC, &_PM_prevRealRTC); - _PM_rtcHandler = th; - setISR(0x70, _PM_rtcISR); - - /* Program the real time clock default frequency */ - PM_setRealTimeClockFrequency(frequency); - - /* Unmask IRQ8 in the PIC2 */ - _PM_oldRTCPIC2 = PM_inpb(0xA1); - PM_outpb(0xA1,_PM_oldRTCPIC2 & 0xFE); - return true; -} - -void PMAPI PM_restoreRealTimeClockHandler(void) -{ - if (_PM_rtcHandler) { - /* Restore CMOS registers and mask RTC clock */ - _PM_writeCMOS(0x0A,_PM_oldCMOSRegA); - _PM_writeCMOS(0x0B,_PM_oldCMOSRegB); - PM_outpb(0xA1,(PM_inpb(0xA1) & 0xFE) | (_PM_oldRTCPIC2 & ~0xFE)); - - /* Restore the interrupt vector */ - restoreISR(0x70, _PM_prevRTC, _PM_prevRealRTC); - _PM_rtcHandler = NULL; - } -} - -void PMAPI PM_setKeyHandler(PM_intHandler kh) -{ - getISR(0x9, &_PM_prevKey, &_PM_prevRealKey); - _PM_keyHandler = kh; - setISR(0x9, _PM_keyISR); -} - -void PMAPI PM_restoreKeyHandler(void) -{ - if (_PM_keyHandler) { - restoreISR(0x9, _PM_prevKey, _PM_prevRealKey); - _PM_keyHandler = NULL; - } -} - -void PMAPI PM_setKey15Handler(PM_key15Handler kh) -{ - getISR(0x15, &_PM_prevKey15, &_PM_prevRealKey15); - _PM_key15Handler = kh; - setISR(0x15, _PM_key15ISR); -} - -void PMAPI PM_restoreKey15Handler(void) -{ - if (_PM_key15Handler) { - restoreISR(0x15, _PM_prevKey15, _PM_prevRealKey15); - _PM_key15Handler = NULL; - } -} - -void PMAPI PM_installAltBreakHandler(PM_breakHandler bh) -{ - static int ctrlCFlag,ctrlBFlag; - - _PM_ctrlCPtr = (uchar*)&ctrlCFlag; - _PM_ctrlBPtr = (uchar*)&ctrlBFlag; - getISR(0x1B, &_PM_prevBreak, &prevRealBreak); - getISR(0x23, &_PM_prevCtrlC, &prevRealCtrlC); - _PM_breakHandler = bh; - setISR(0x1B, _PM_breakISR); - setISR(0x23, _PM_ctrlCISR); -} - -void PMAPI PM_installBreakHandler(void) -{ - PM_installAltBreakHandler(NULL); -} - -void PMAPI PM_restoreBreakHandler(void) -{ - if (_PM_prevBreak.sel) { - restoreISR(0x1B, _PM_prevBreak, prevRealBreak); - restoreISR(0x23, _PM_prevCtrlC, prevRealCtrlC); - _PM_prevBreak.sel = 0; - _PM_breakHandler = NULL; - } -} - -void PMAPI PM_installAltCriticalHandler(PM_criticalHandler ch) -{ - static short critBuf[2]; - - _PM_critPtr = (uchar*)critBuf; - getISR(0x24, &_PM_prevCritical, &prevRealCritical); - _PM_critHandler = ch; - setISR(0x24, _PM_criticalISR); -} - -void PMAPI PM_installCriticalHandler(void) -{ - PM_installAltCriticalHandler(NULL); -} - -void PMAPI PM_restoreCriticalHandler(void) -{ - if (_PM_prevCritical.sel) { - restoreISR(0x24, _PM_prevCritical, prevRealCritical); - _PM_prevCritical.sel = 0; - _PM_critHandler = NULL; - } -} - -int PMAPI PM_lockDataPages(void *p,uint len,PM_lockHandle *lh) -{ - return (_dx_lock_pgsn(p,len) == 0); -} - -int PMAPI PM_unlockDataPages(void *p,uint len,PM_lockHandle *lh) -{ - return (_dx_ulock_pgsn(p,len) == 0); -} - -int PMAPI PM_lockCodePages(void (*p)(),uint len,PM_lockHandle *lh) -{ - CONFIG_INF config; - FARPTR fp; - - _dx_config_inf(&config, (UCHAR*)&config); - FP_SET(fp,p,config.c_cs_sel); - return (_dx_lock_pgs(fp,len) == 0); -} - -int PMAPI PM_unlockCodePages(void (*p)(),uint len,PM_lockHandle *lh) -{ - CONFIG_INF config; - FARPTR fp; - - _dx_config_inf(&config, (UCHAR*)&config); - FP_SET(fp,p,config.c_cs_sel); - return (_dx_ulock_pgs(fp,len) == 0); -} - -#endif - -/*-------------------------------------------------------------------------*/ -/* Symantec C++ DOSX and FlashTek X-32/X-32VM support */ -/*-------------------------------------------------------------------------*/ - -#if defined(DOSX) || defined(X32VM) - -#ifdef X32VM -#include <x32.h> -#endif - -static long prevRealBreak; /* Previous real mode break handler */ -static long prevRealCtrlC; /* Previous real mode CtrlC handler */ -static long prevRealCritical; /* Prev real mode critical handler */ - -static uint mouseSel = 0,mouseOff; - -/* The following real mode routine is used to call a 32 bit protected - * mode FAR function from real mode. We use this for passing up control - * from the real mode mouse callback to our protected mode code. - */ - -static char realHandler[] = { /* Real mode code generic handler */ - 0x00,0x00,0x00,0x00, /* __PM_callProtp */ - 0x00,0x00, /* __PM_protCS */ - 0x00,0x00,0x00,0x00, /* __PM_protHandler */ - 0x1E, /* push ds */ - 0x6A,0x00, /* push 0 */ - 0x6A,0x00, /* push 0 */ - 0x2E,0xFF,0x36,0x04,0x00, /* push [cs:__PM_protCS] */ - 0x66,0x2E,0xFF,0x36,0x06,0x00, /* push [cs:__PM_protHandler] */ - 0x2E,0xFF,0x1E,0x00,0x00, /* call [cs:__PM_callProtp] */ - 0x83,0xC4,0x0A, /* add sp,10 */ - 0x1F, /* pop ds */ - 0xCB, /* retf */ - }; - -/* The following functions installs the above realmode callback mechanism - * in real mode memory for calling the protected mode routine. - */ - -int installCallback(void (PMAPI *pmCB)(),uint *psel, uint *poff, - uint *rseg, uint *roff) -{ - PMREGS regs; - PMSREGS sregs; - - regs.x.ax = 0x250D; - PM_segread(&sregs); - PM_int386x(0x21,®s,®s,&sregs); /* Get RM callback address */ - - /* Fill in the values in the real mode code segment so that it will - * call the correct routine. - */ - *((ulong*)&realHandler[0]) = regs.e.eax; - *((ushort*)&realHandler[4]) = sregs.cs; - *((ulong*)&realHandler[6]) = (ulong)pmCB; - - /* Copy the real mode handler to real mode memory (only allocate the - * buffer once since we cant dealloate it with X32). - */ - if (*psel == 0) { - if (!PM_allocRealSeg(sizeof(realHandler),psel,poff,rseg,roff)) - return 0; - } - PM_memcpyfn(*psel,*poff,realHandler,sizeof(realHandler)); - - /* Skip past global variables in real mode code segment */ - *roff += 0x0A; - return 1; -} - -int PMAPI PM_setMouseHandler(int mask, PM_mouseHandler mh) -{ - RMREGS regs; - RMSREGS sregs; - uint rseg,roff; - - lockPMHandlers(); /* Ensure our handlers are locked */ - - if (!installCallback(_PM_mouseISR, &mouseSel, &mouseOff, &rseg, &roff)) - return 0; - _PM_mouseHandler = mh; - - /* Install the real mode mouse handler */ - sregs.es = rseg; - regs.x.dx = roff; - regs.x.cx = _PM_mouseMask = mask; - regs.x.ax = 0xC; - PM_int86x(0x33, ®s, ®s, &sregs); - return 1; -} - -void PMAPI PM_restoreMouseHandler(void) -{ - RMREGS regs; - - if (_PM_mouseHandler) { - regs.x.ax = 33; - PM_int86(0x33, ®s, ®s); - _PM_mouseHandler = NULL; - } -} - -void PMAPI PM_getPMvect(int intno, PMFARPTR *isr) -{ - PMREGS regs; - PMSREGS sregs; - - PM_segread(&sregs); - regs.x.ax = 0x2502; /* Get PM interrupt vector */ - regs.x.cx = intno; - PM_int386x(0x21, ®s, ®s, &sregs); - isr->sel = sregs.es; - isr->off = regs.e.ebx; -} - -void PMAPI PM_setPMvect(int intno, PM_intHandler isr) -{ - PMFARPTR pmisr; - PMSREGS sregs; - - PM_saveDS(); - PM_segread(&sregs); - pmisr.sel = sregs.cs; - pmisr.off = (uint)isr; - PM_restorePMvect(intno, pmisr); -} - -void PMAPI PM_restorePMvect(int intno, PMFARPTR isr) -{ - PMREGS regs; - PMSREGS sregs; - - PM_segread(&sregs); - regs.x.ax = 0x2505; /* Set PM interrupt vector */ - regs.x.cx = intno; - sregs.ds = isr.sel; - regs.e.edx = isr.off; - PM_int386x(0x21, ®s, ®s, &sregs); -} - -static void getISR(int intno, PMFARPTR *pmisr, long *realisr) -{ - PM_getPMvect(intno,pmisr); - _PM_getRMvect(intno,realisr); -} - -static void restoreISR(int intno, PMFARPTR pmisr, long realisr) -{ - PMREGS regs; - PMSREGS sregs; - - PM_segread(&sregs); - regs.x.ax = 0x2507; /* Set real and PM vectors */ - regs.x.cx = intno; - sregs.ds = pmisr.sel; - regs.e.edx = pmisr.off; - regs.e.ebx = realisr; - PM_int386x(0x21, ®s, ®s, &sregs); -} - -static void setISR(int intno, void *isr) -{ - PMREGS regs; - PMSREGS sregs; - - lockPMHandlers(); /* Ensure our handlers are locked */ - - PM_segread(&sregs); - regs.x.ax = 0x2506; /* Hook real and protected vectors */ - regs.x.cx = intno; - sregs.ds = sregs.cs; - regs.e.edx = (uint)isr; - PM_int386x(0x21, ®s, ®s, &sregs); -} - -void PMAPI PM_setTimerHandler(PM_intHandler th) -{ - getISR(0x8, &_PM_prevTimer, &_PM_prevRealTimer); - _PM_timerHandler = th; - setISR(0x8, _PM_timerISR); -} - -void PMAPI PM_restoreTimerHandler(void) -{ - if (_PM_timerHandler) { - restoreISR(0x8, _PM_prevTimer, _PM_prevRealTimer); - _PM_timerHandler = NULL; - } -} - -ibool PMAPI PM_setRealTimeClockHandler(PM_intHandler th,int frequency) -{ - /* Save the old CMOS real time clock values */ - _PM_oldCMOSRegA = _PM_readCMOS(0x0A); - _PM_oldCMOSRegB = _PM_readCMOS(0x0B); - - /* Set the real time clock interrupt handler */ - getISR(0x70, &_PM_prevRTC, &_PM_prevRealRTC); - _PM_rtcHandler = th; - setISR(0x70, _PM_rtcISR); - - /* Program the real time clock default frequency */ - PM_setRealTimeClockFrequency(frequency); - - /* Unmask IRQ8 in the PIC2 */ - _PM_oldRTCPIC2 = PM_inpb(0xA1); - PM_outpb(0xA1,_PM_oldRTCPIC2 & 0xFE); - return true; -} - -void PMAPI PM_restoreRealTimeClockHandler(void) -{ - if (_PM_rtcHandler) { - /* Restore CMOS registers and mask RTC clock */ - _PM_writeCMOS(0x0A,_PM_oldCMOSRegA); - _PM_writeCMOS(0x0B,_PM_oldCMOSRegB); - PM_outpb(0xA1,(PM_inpb(0xA1) & 0xFE) | (_PM_oldRTCPIC2 & ~0xFE)); - - /* Restore the interrupt vector */ - restoreISR(0x70, _PM_prevRTC, _PM_prevRealRTC); - _PM_rtcHandler = NULL; - } -} - -void PMAPI PM_setKeyHandler(PM_intHandler kh) -{ - getISR(0x9, &_PM_prevKey, &_PM_prevRealKey); - _PM_keyHandler = kh; - setISR(0x9, _PM_keyISR); -} - -void PMAPI PM_restoreKeyHandler(void) -{ - if (_PM_keyHandler) { - restoreISR(0x9, _PM_prevKey, _PM_prevRealKey); - _PM_keyHandler = NULL; - } -} - -void PMAPI PM_setKey15Handler(PM_key15Handler kh) -{ - getISR(0x15, &_PM_prevKey15, &_PM_prevRealKey15); - _PM_key15Handler = kh; - setISR(0x15, _PM_key15ISR); -} - -void PMAPI PM_restoreKey15Handler(void) -{ - if (_PM_key15Handler) { - restoreISR(0x15, _PM_prevKey15, _PM_prevRealKey15); - _PM_key15Handler = NULL; - } -} - -void PMAPI PM_installAltBreakHandler(PM_breakHandler bh) -{ - static int ctrlCFlag,ctrlBFlag; - - _PM_ctrlCPtr = (uchar*)&ctrlCFlag; - _PM_ctrlBPtr = (uchar*)&ctrlBFlag; - getISR(0x1B, &_PM_prevBreak, &prevRealBreak); - getISR(0x23, &_PM_prevCtrlC, &prevRealCtrlC); - _PM_breakHandler = bh; - setISR(0x1B, _PM_breakISR); - setISR(0x23, _PM_ctrlCISR); -} - -void PMAPI PM_installBreakHandler(void) -{ - PM_installAltBreakHandler(NULL); -} - -void PMAPI PM_restoreBreakHandler(void) -{ - if (_PM_prevBreak.sel) { - restoreISR(0x1B, _PM_prevBreak, prevRealBreak); - restoreISR(0x23, _PM_prevCtrlC, prevRealCtrlC); - _PM_prevBreak.sel = 0; - _PM_breakHandler = NULL; - } -} - -void PMAPI PM_installAltCriticalHandler(PM_criticalHandler ch) -{ - static short critBuf[2]; - - _PM_critPtr = (uchar*)critBuf; - getISR(0x24, &_PM_prevCritical, &prevRealCritical); - _PM_critHandler = ch; - setISR(0x24, _PM_criticalISR); -} - -void PMAPI PM_installCriticalHandler(void) -{ - PM_installAltCriticalHandler(NULL); -} - -void PMAPI PM_restoreCriticalHandler(void) -{ - if (_PM_prevCritical.sel) { - restoreISR(0x24, _PM_prevCritical, prevRealCritical); - _PM_prevCritical.sel = 0; - _PM_critHandler = NULL; - } -} - -int PMAPI PM_lockDataPages(void *p,uint len,PM_lockHandle *lh) -{ - return (_x386_memlock(p,len) == 0); -} - -int PMAPI PM_unlockDataPages(void *p,uint len,PM_lockHandle *lh) -{ - return (_x386_memunlock(p,len) == 0); -} - -int PMAPI PM_lockCodePages(void (*p)(),uint len,PM_lockHandle *lh) -{ - return (_x386_memlock(p,len) == 0); -} - -int PMAPI PM_unlockCodePages(void (*p)(),uint len,PM_lockHandle *lh) -{ - return (_x386_memunlock(p,len) == 0); -} - -#endif - -/*-------------------------------------------------------------------------*/ -/* Borland's DPMI32 DOS Power Pack Extender support. */ -/*-------------------------------------------------------------------------*/ - -#ifdef DPMI32 -#define GENERIC_DPMI32 /* Use generic 32 bit DPMI routines */ - -void PMAPI PM_getPMvect(int intno, PMFARPTR *isr) -{ - PMREGS regs; - - regs.x.ax = 0x204; - regs.h.bl = intno; - PM_int386(0x31,®s,®s); - isr->sel = regs.x.cx; - isr->off = regs.e.edx; -} - -void PMAPI PM_setPMvect(int intno, PM_intHandler isr) -{ - PMSREGS sregs; - PMREGS regs; - - PM_saveDS(); - regs.x.ax = 0x205; /* Set protected mode vector */ - regs.h.bl = intno; - PM_segread(&sregs); - regs.x.cx = sregs.cs; - regs.e.edx = (uint)isr; - PM_int386(0x31,®s,®s); -} - -void PMAPI PM_restorePMvect(int intno, PMFARPTR isr) -{ - PMREGS regs; - - regs.x.ax = 0x205; - regs.h.bl = intno; - regs.x.cx = isr.sel; - regs.e.edx = isr.off; - PM_int386(0x31,®s,®s); -} -#endif - -/*-------------------------------------------------------------------------*/ -/* Watcom C/C++ with Rational DOS/4GW support. */ -/*-------------------------------------------------------------------------*/ - -#ifdef DOS4GW -#define GENERIC_DPMI32 /* Use generic 32 bit DPMI routines */ - -#define MOUSE_SUPPORTED /* DOS4GW directly supports mouse */ - -/* We use the normal DOS services to save and restore interrupts handlers - * for Watcom C++, because using the direct DPMI functions does not - * appear to work properly. At least if we use the DPMI functions, we - * dont get the auto-passup feature that we need to correctly trap - * real and protected mode interrupts without installing Bi-model - * interrupt handlers. - */ - -void PMAPI PM_getPMvect(int intno, PMFARPTR *isr) -{ - PMREGS regs; - PMSREGS sregs; - - PM_segread(&sregs); - regs.h.ah = 0x35; - regs.h.al = intno; - PM_int386x(0x21,®s,®s,&sregs); - isr->sel = sregs.es; - isr->off = regs.e.ebx; -} - -void PMAPI PM_setPMvect(int intno, PM_intHandler isr) -{ - PMREGS regs; - PMSREGS sregs; - - PM_saveDS(); - PM_segread(&sregs); - regs.h.ah = 0x25; - regs.h.al = intno; - sregs.ds = sregs.cs; - regs.e.edx = (uint)isr; - PM_int386x(0x21,®s,®s,&sregs); -} - -void PMAPI PM_restorePMvect(int intno, PMFARPTR isr) -{ - PMREGS regs; - PMSREGS sregs; - - PM_segread(&sregs); - regs.h.ah = 0x25; - regs.h.al = intno; - sregs.ds = isr.sel; - regs.e.edx = isr.off; - PM_int386x(0x21,®s,®s,&sregs); -} - -int PMAPI PM_setMouseHandler(int mask, PM_mouseHandler mh) -{ - lockPMHandlers(); /* Ensure our handlers are locked */ - - _PM_mouseHandler = mh; - _PM_setMouseHandler(_PM_mouseMask = mask); - return 1; -} - -void PMAPI PM_restoreMouseHandler(void) -{ - PMREGS regs; - - if (_PM_mouseHandler) { - regs.x.ax = 33; - PM_int386(0x33, ®s, ®s); - _PM_mouseHandler = NULL; - } -} - -#endif - -/*-------------------------------------------------------------------------*/ -/* DJGPP port of GNU C++ support. */ -/*-------------------------------------------------------------------------*/ - -#ifdef DJGPP -#define GENERIC_DPMI32 /* Use generic 32 bit DPMI routines */ - -void PMAPI PM_getPMvect(int intno, PMFARPTR *isr) -{ - PMREGS regs; - - regs.x.ax = 0x204; - regs.h.bl = intno; - PM_int386(0x31,®s,®s); - isr->sel = regs.x.cx; - isr->off = regs.e.edx; -} - -void PMAPI PM_setPMvect(int intno, PM_intHandler isr) -{ - PMSREGS sregs; - PMREGS regs; - - PM_saveDS(); - regs.x.ax = 0x205; /* Set protected mode vector */ - regs.h.bl = intno; - PM_segread(&sregs); - regs.x.cx = sregs.cs; - regs.e.edx = (uint)isr; - PM_int386(0x31,®s,®s); -} - -void PMAPI PM_restorePMvect(int intno, PMFARPTR isr) -{ - PMREGS regs; - - regs.x.ax = 0x205; - regs.h.bl = intno; - regs.x.cx = isr.sel; - regs.e.edx = isr.off; - PM_int386(0x31,®s,®s); -} - -#endif - -/*-------------------------------------------------------------------------*/ -/* Generic 32 bit DPMI routines */ -/*-------------------------------------------------------------------------*/ - -#if defined(GENERIC_DPMI32) - -static long prevRealBreak; /* Previous real mode break handler */ -static long prevRealCtrlC; /* Previous real mode CtrlC handler */ -static long prevRealCritical; /* Prev real mode critical handler */ - -#ifndef MOUSE_SUPPORTED - -/* The following real mode routine is used to call a 32 bit protected - * mode FAR function from real mode. We use this for passing up control - * from the real mode mouse callback to our protected mode code. - */ - -static long mouseRMCB; /* Mouse real mode callback address */ -static uchar *mousePtr; -static char mouseRegs[0x32]; /* Real mode regs for mouse callback */ -static uchar mouseHandler[] = { - 0x00,0x00,0x00,0x00, /* _realRMCB */ - 0x2E,0xFF,0x1E,0x00,0x00, /* call [cs:_realRMCB] */ - 0xCB, /* retf */ - }; - -int PMAPI PM_setMouseHandler(int mask, PM_mouseHandler mh) -{ - RMREGS regs; - RMSREGS sregs; - uint rseg,roff; - - lockPMHandlers(); /* Ensure our handlers are locked */ - - /* Copy the real mode handler to real mode memory */ - if ((mousePtr = PM_allocRealSeg(sizeof(mouseHandler),&rseg,&roff)) == NULL) - return 0; - memcpy(mousePtr,mouseHandler,sizeof(mouseHandler)); - if (!_DPMI_allocateCallback(_PM_mousePMCB, mouseRegs, &mouseRMCB)) - PM_fatalError("Unable to allocate real mode callback!\n"); - PM_setLong(mousePtr,mouseRMCB); - - /* Install the real mode mouse handler */ - _PM_mouseHandler = mh; - sregs.es = rseg; - regs.x.dx = roff+4; - regs.x.cx = _PM_mouseMask = mask; - regs.x.ax = 0xC; - PM_int86x(0x33, ®s, ®s, &sregs); - return 1; -} - -void PMAPI PM_restoreMouseHandler(void) -{ - RMREGS regs; - - if (_PM_mouseHandler) { - regs.x.ax = 33; - PM_int86(0x33, ®s, ®s); - PM_freeRealSeg(mousePtr); - _DPMI_freeCallback(mouseRMCB); - _PM_mouseHandler = NULL; - } -} - -#endif - -static void getISR(int intno, PMFARPTR *pmisr, long *realisr) -{ - PM_getPMvect(intno,pmisr); - _PM_getRMvect(intno,realisr); -} - -static void restoreISR(int intno, PMFARPTR pmisr, long realisr) -{ - _PM_setRMvect(intno,realisr); - PM_restorePMvect(intno,pmisr); -} - -static void setISR(int intno, void (* PMAPI pmisr)()) -{ - lockPMHandlers(); /* Ensure our handlers are locked */ - PM_setPMvect(intno,pmisr); -} - -void PMAPI PM_setTimerHandler(PM_intHandler th) -{ - getISR(0x8, &_PM_prevTimer, &_PM_prevRealTimer); - _PM_timerHandler = th; - setISR(0x8, _PM_timerISR); -} - -void PMAPI PM_restoreTimerHandler(void) -{ - if (_PM_timerHandler) { - restoreISR(0x8, _PM_prevTimer, _PM_prevRealTimer); - _PM_timerHandler = NULL; - } -} - -ibool PMAPI PM_setRealTimeClockHandler(PM_intHandler th,int frequency) -{ - /* Save the old CMOS real time clock values */ - _PM_oldCMOSRegA = _PM_readCMOS(0x0A); - _PM_oldCMOSRegB = _PM_readCMOS(0x0B); - - /* Set the real time clock interrupt handler */ - getISR(0x70, &_PM_prevRTC, &_PM_prevRealRTC); - _PM_rtcHandler = th; - setISR(0x70, _PM_rtcISR); - - /* Program the real time clock default frequency */ - PM_setRealTimeClockFrequency(frequency); - - /* Unmask IRQ8 in the PIC2 */ - _PM_oldRTCPIC2 = PM_inpb(0xA1); - PM_outpb(0xA1,_PM_oldRTCPIC2 & 0xFE); - return true; -} - -void PMAPI PM_restoreRealTimeClockHandler(void) -{ - if (_PM_rtcHandler) { - /* Restore CMOS registers and mask RTC clock */ - _PM_writeCMOS(0x0A,_PM_oldCMOSRegA); - _PM_writeCMOS(0x0B,_PM_oldCMOSRegB); - PM_outpb(0xA1,(PM_inpb(0xA1) & 0xFE) | (_PM_oldRTCPIC2 & ~0xFE)); - - /* Restore the interrupt vector */ - restoreISR(0x70, _PM_prevRTC, _PM_prevRealRTC); - _PM_rtcHandler = NULL; - } -} - -PM_IRQHandle PMAPI PM_setIRQHandler( - int IRQ, - PM_irqHandler ih) -{ - int thunkSize,PICmask,chainPrevious; - ulong offsetAdjust; - _PM_IRQHandle *handle; - - thunkSize = (ulong)_PM_irqISRTemplateEnd - (ulong)_PM_irqISRTemplate; - if ((handle = PM_malloc(sizeof(_PM_IRQHandle) + thunkSize)) == NULL) - return NULL; - handle->IRQ = IRQ; - handle->prevPIC = PM_inpb(0x21); - handle->prevPIC2 = PM_inpb(0xA1); - if (IRQ < 8) { - handle->IRQVect = (IRQ + 8); - PICmask = (1 << IRQ); - chainPrevious = ((handle->prevPIC & PICmask) == 0); - } - else { - handle->IRQVect = (0x60 + IRQ + 8); - PICmask = ((1 << IRQ) | 0x4); - chainPrevious = ((handle->prevPIC2 & (PICmask >> 8)) == 0); - } - - /* Copy and setup the assembler thunk */ - offsetAdjust = (ulong)handle->thunk - (ulong)_PM_irqISRTemplate; - memcpy(handle->thunk,_PM_irqISRTemplate,thunkSize); - *((ulong*)&handle->thunk[2]) = offsetAdjust; - *((ulong*)&handle->thunk[11+0]) = (ulong)ih; - if (chainPrevious) { - *((ulong*)&handle->thunk[11+4]) = handle->prevHandler.off; - *((ulong*)&handle->thunk[11+8]) = handle->prevHandler.sel; - } - else { - *((ulong*)&handle->thunk[11+4]) = 0; - *((ulong*)&handle->thunk[11+8]) = 0; - } - *((ulong*)&handle->thunk[11+12]) = IRQ; - - /* Set the real time clock interrupt handler */ - getISR(handle->IRQVect, &handle->prevHandler, &handle->prevRealhandler); - setISR(handle->IRQVect, (PM_intHandler)handle->thunk); - - /* Unmask the IRQ in the PIC */ - PM_outpb(0xA1,handle->prevPIC2 & ~(PICmask >> 8)); - PM_outpb(0x21,handle->prevPIC & ~PICmask); - return handle; -} - -void PMAPI PM_restoreIRQHandler( - PM_IRQHandle irqHandle) -{ - int PICmask; - _PM_IRQHandle *handle = irqHandle; - - /* Restore PIC mask for the interrupt */ - if (handle->IRQ < 8) - PICmask = (1 << handle->IRQ); - else - PICmask = ((1 << handle->IRQ) | 0x4); - PM_outpb(0xA1,(PM_inpb(0xA1) & ~(PICmask >> 8)) | (handle->prevPIC2 & (PICmask >> 8))); - PM_outpb(0x21,(PM_inpb(0x21) & ~PICmask) | (handle->prevPIC & PICmask)); - - /* Restore the interrupt vector */ - restoreISR(handle->IRQVect, handle->prevHandler, handle->prevRealhandler); - - /* Finally free the thunk */ - PM_free(handle); -} - -void PMAPI PM_setKeyHandler(PM_intHandler kh) -{ - getISR(0x9, &_PM_prevKey, &_PM_prevRealKey); - _PM_keyHandler = kh; - setISR(0x9, _PM_keyISR); -} - -void PMAPI PM_restoreKeyHandler(void) -{ - if (_PM_keyHandler) { - restoreISR(0x9, _PM_prevKey, _PM_prevRealKey); - _PM_keyHandler = NULL; - } -} - -void PMAPI PM_setKey15Handler(PM_key15Handler kh) -{ - getISR(0x15, &_PM_prevKey15, &_PM_prevRealKey15); - _PM_key15Handler = kh; - setISR(0x15, _PM_key15ISR); -} - -void PMAPI PM_restoreKey15Handler(void) -{ - if (_PM_key15Handler) { - restoreISR(0x15, _PM_prevKey15, _PM_prevRealKey15); - _PM_key15Handler = NULL; - } -} - -/* Real mode Ctrl-C and Ctrl-Break handler. This handler simply sets a - * flag in the real mode code segment and exit. We save the location - * of this flag in real mode memory so that both the real mode and - * protected mode code will be modifying the same flags. - */ - -#ifndef DOS4GW -static uchar ctrlHandler[] = { - 0x00,0x00,0x00,0x00, /* ctrlBFlag */ - 0x66,0x2E,0xC7,0x06,0x00,0x00, - 0x01,0x00,0x00,0x00, /* mov [cs:ctrlBFlag],1 */ - 0xCF, /* iretf */ - }; -#endif - -void PMAPI PM_installAltBreakHandler(PM_breakHandler bh) -{ -#ifndef DOS4GW - uint rseg,roff; -#else - static int ctrlCFlag,ctrlBFlag; - - _PM_ctrlCPtr = (uchar*)&ctrlCFlag; - _PM_ctrlBPtr = (uchar*)&ctrlBFlag; -#endif - - getISR(0x1B, &_PM_prevBreak, &prevRealBreak); - getISR(0x23, &_PM_prevCtrlC, &prevRealCtrlC); - _PM_breakHandler = bh; - setISR(0x1B, _PM_breakISR); - setISR(0x23, _PM_ctrlCISR); - -#ifndef DOS4GW - /* Hook the real mode vectors for these handlers, as these are not - * normally reflected by the DPMI server up to protected mode - */ - _PM_ctrlBPtr = PM_allocRealSeg(sizeof(ctrlHandler)*2, &rseg, &roff); - memcpy(_PM_ctrlBPtr,ctrlHandler,sizeof(ctrlHandler)); - memcpy(_PM_ctrlBPtr+sizeof(ctrlHandler),ctrlHandler,sizeof(ctrlHandler)); - _PM_ctrlCPtr = _PM_ctrlBPtr + sizeof(ctrlHandler); - _PM_setRMvect(0x1B,((long)rseg << 16) | (roff+4)); - _PM_setRMvect(0x23,((long)rseg << 16) | (roff+sizeof(ctrlHandler)+4)); -#endif -} - -void PMAPI PM_installBreakHandler(void) -{ - PM_installAltBreakHandler(NULL); -} - -void PMAPI PM_restoreBreakHandler(void) -{ - if (_PM_prevBreak.sel) { - restoreISR(0x1B, _PM_prevBreak, prevRealBreak); - restoreISR(0x23, _PM_prevCtrlC, prevRealCtrlC); - _PM_prevBreak.sel = 0; - _PM_breakHandler = NULL; -#ifndef DOS4GW - PM_freeRealSeg(_PM_ctrlBPtr); -#endif - } -} - -/* Real mode Critical Error handler. This handler simply saves the AX and - * DI values in the real mode code segment and exits. We save the location - * of this flag in real mode memory so that both the real mode and - * protected mode code will be modifying the same flags. - */ - -#ifndef DOS4GW -static uchar criticalHandler[] = { - 0x00,0x00, /* axCode */ - 0x00,0x00, /* diCode */ - 0x2E,0xA3,0x00,0x00, /* mov [cs:axCode],ax */ - 0x2E,0x89,0x3E,0x02,0x00, /* mov [cs:diCode],di */ - 0xB8,0x03,0x00, /* mov ax,3 */ - 0xCF, /* iretf */ - }; -#endif - -void PMAPI PM_installAltCriticalHandler(PM_criticalHandler ch) -{ -#ifndef DOS4GW - uint rseg,roff; -#else - static short critBuf[2]; - - _PM_critPtr = (uchar*)critBuf; -#endif - - getISR(0x24, &_PM_prevCritical, &prevRealCritical); - _PM_critHandler = ch; - setISR(0x24, _PM_criticalISR); - -#ifndef DOS4GW - /* Hook the real mode vector, as this is not normally reflected by the - * DPMI server up to protected mode. - */ - _PM_critPtr = PM_allocRealSeg(sizeof(criticalHandler)*2, &rseg, &roff); - memcpy(_PM_critPtr,criticalHandler,sizeof(criticalHandler)); - _PM_setRMvect(0x24,((long)rseg << 16) | (roff+4)); -#endif -} - -void PMAPI PM_installCriticalHandler(void) -{ - PM_installAltCriticalHandler(NULL); -} - -void PMAPI PM_restoreCriticalHandler(void) -{ - if (_PM_prevCritical.sel) { - restoreISR(0x24, _PM_prevCritical, prevRealCritical); - PM_freeRealSeg(_PM_critPtr); - _PM_prevCritical.sel = 0; - _PM_critHandler = NULL; - } -} - -int PMAPI PM_lockDataPages(void *p,uint len,PM_lockHandle *lh) -{ - PMSREGS sregs; - PM_segread(&sregs); - return DPMI_lockLinearPages((uint)p + DPMI_getSelectorBase(sregs.ds),len); -} - -int PMAPI PM_unlockDataPages(void *p,uint len,PM_lockHandle *lh) -{ - PMSREGS sregs; - PM_segread(&sregs); - return DPMI_unlockLinearPages((uint)p + DPMI_getSelectorBase(sregs.ds),len); -} - -int PMAPI PM_lockCodePages(void (*p)(),uint len,PM_lockHandle *lh) -{ - PMSREGS sregs; - PM_segread(&sregs); - return DPMI_lockLinearPages((uint)p + DPMI_getSelectorBase(sregs.cs),len); -} - -int PMAPI PM_unlockCodePages(void (*p)(),uint len,PM_lockHandle *lh) -{ - PMSREGS sregs; - PM_segread(&sregs); - return DPMI_unlockLinearPages((uint)p + DPMI_getSelectorBase(sregs.cs),len); -} - -#endif diff --git a/board/MAI/bios_emulator/scitech/src/pm/dos/vflat.c b/board/MAI/bios_emulator/scitech/src/pm/dos/vflat.c deleted file mode 100644 index c3e9b6c33f..0000000000 --- a/board/MAI/bios_emulator/scitech/src/pm/dos/vflat.c +++ /dev/null @@ -1,251 +0,0 @@ -/**************************************************************************** -* -* SciTech OS Portability Manager Library -* -* ======================================================================== -* -* The contents of this file are subject to the SciTech MGL Public -* License Version 1.0 (the "License"); you may not use this file -* except in compliance with the License. You may obtain a copy of -* the License at http://www.scitechsoft.com/mgl-license.txt -* -* Software distributed under the License is distributed on an -* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -* implied. See the License for the specific language governing -* rights and limitations under the License. -* -* The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc. -* -* The Initial Developer of the Original Code is SciTech Software, Inc. -* All Rights Reserved. -* -* ======================================================================== -* -* Language: ANSI C -* Environment: 32-bit DOS -* -* Description: Main C module for the VFlat framebuffer routines. The page -* fault handler is always installed to handle up to a 4Mb -* framebuffer with a window size of 4Kb or 64Kb in size. -* -****************************************************************************/ - -#include "pmapi.h" -#include <stdlib.h> -#include <dos.h> - -/*-------------------------------------------------------------------------*/ -/* DOS4G/W, PMODE/W and CauseWay support. */ -/*-------------------------------------------------------------------------*/ - -#if defined(DOS4GW) - -#define VFLAT_START_ADDR 0xF0000000U -#define VFLAT_END_ADDR 0xF03FFFFFU -#define VFLAT_LIMIT (VFLAT_END_ADDR - VFLAT_START_ADDR) -#define PAGE_PRESENT 1 -#define PAGE_NOTPRESENT 0 -#define PAGE_READ 0 -#define PAGE_WRITE 2 - -PRIVATE ibool installed = false; -PRIVATE ibool haveDPMI = false; -PUBLIC ibool _ASMAPI VF_haveCauseWay = false; -PUBLIC uchar * _ASMAPI VF_zeroPtr = NULL; - -/* Low level assembler code */ - -int _ASMAPI InitPaging(void); -void _ASMAPI ClosePaging(void); -void _ASMAPI MapPhysical2Linear(ulong pAddr, ulong lAddr, int pages, int flags); -void _ASMAPI InstallFaultHandler(ulong baseAddr,int bankSize); -void _ASMAPI RemoveFaultHandler(void); -void _ASMAPI InstallBankFunc(int codeLen,void *bankFunc); - -void * _ASMAPI VF_malloc(uint size) -{ return PM_malloc(size); } - -void _ASMAPI VF_free(void *p) -{ PM_free(p); } - -PRIVATE ibool CheckDPMI(void) -/**************************************************************************** -* -* Function: CheckDPMI -* Returns: True if we are running under DPMI -* -****************************************************************************/ -{ - PMREGS regs; - - if (haveDPMI) - return true; - - /* Check if we are running under DPMI in which case we will not be - * able to install our page fault handlers. We can however use the - * DVA.386 or VFLATD.386 virtual device drivers if they are present. - */ - regs.x.ax = 0xFF00; - PM_int386(0x31,®s,®s); - if (!regs.x.cflag && (regs.e.edi & 8)) - return (haveDPMI = true); - return false; -} - -ibool PMAPI VF_available(void) -/**************************************************************************** -* -* Function: VF_available -* Returns: True if virtual buffer is available, false if not. -* -****************************************************************************/ -{ - if (!VF_zeroPtr) - VF_zeroPtr = PM_mapPhysicalAddr(0,0xFFFFFFFF,true); - if (CheckDPMI()) - return false; - - /* Standard DOS4GW, PMODE/W and Causeway */ - if (InitPaging() == -1) - return false; - ClosePaging(); - return true; -} - -void * PMAPI InitDPMI(ulong baseAddr,int bankSize,int codeLen,void *bankFunc) -/**************************************************************************** -* -* Function: InitDOS4GW -* Parameters: baseAddr - Base address of framebuffer bank window -* bankSize - Physical size of banks in Kb (4 or 64) -* codeLen - Length of 32 bit bank switch function -* bankFunc - Pointer to protected mode bank function -* Returns: Near pointer to virtual framebuffer, or NULL on failure. -* -* Description: Installs the virtual linear framebuffer handling for -* DPMI environments. This requires the DVA.386 or VFLATD.386 -* virtual device drivers to be installed and functioning. -* -****************************************************************************/ -{ - (void)baseAddr; - (void)bankSize; - (void)codeLen; - (void)bankFunc; - return NULL; -} - -void * PMAPI InitDOS4GW(ulong baseAddr,int bankSize,int codeLen,void *bankFunc) -/**************************************************************************** -* -* Function: InitDOS4GW -* Parameters: baseAddr - Base address of framebuffer bank window -* bankSize - Physical size of banks in Kb (4 or 64) -* codeLen - Length of 32 bit bank switch function -* bankFunc - Pointer to protected mode bank function -* Returns: Near pointer to virtual framebuffer, or NULL on failure. -* -* Description: Installs the virtual linear framebuffer handling for -* the DOS4GW extender. -* -****************************************************************************/ -{ - int i; - - if (InitPaging() == -1) - return NULL; /* Cannot do hardware paging! */ - - /* Map 4MB of video memory into linear address space (read/write) */ - if (bankSize == 64) { - for (i = 0; i < 64; i++) { - MapPhysical2Linear(baseAddr,VFLAT_START_ADDR+(i<<16),16, - PAGE_WRITE | PAGE_NOTPRESENT); - } - } - else { - for (i = 0; i < 1024; i++) { - MapPhysical2Linear(baseAddr,VFLAT_START_ADDR+(i<<12),1, - PAGE_WRITE | PAGE_NOTPRESENT); - } - } - - /* Install our page fault handler and banks switch function */ - InstallFaultHandler(baseAddr,bankSize); - InstallBankFunc(codeLen,bankFunc); - installed = true; - return (void*)VFLAT_START_ADDR; -} - -void * PMAPI VF_init(ulong baseAddr,int bankSize,int codeLen,void *bankFunc) -/**************************************************************************** -* -* Function: VF_init -* Parameters: baseAddr - Base address of framebuffer bank window -* bankSize - Physical size of banks in Kb (4 or 64) -* codeLen - Length of 32 bit bank switch function -* bankFunc - Pointer to protected mode bank function -* Returns: Near pointer to virtual framebuffer, or NULL on failure. -* -* Description: Installs the virtual linear framebuffer handling. -* -****************************************************************************/ -{ - if (installed) - return (void*)VFLAT_START_ADDR; - if (codeLen > 100) - return NULL; /* Bank function is too large! */ - if (!VF_zeroPtr) - VF_zeroPtr = PM_mapPhysicalAddr(0,0xFFFFFFFF,true); - if (CheckDPMI()) - return InitDPMI(baseAddr,bankSize,codeLen,bankFunc); - return InitDOS4GW(baseAddr,bankSize,codeLen,bankFunc); -} - -void PMAPI VF_exit(void) -/**************************************************************************** -* -* Function: VF_exit -* -* Description: Closes down the virtual framebuffer services and -* restores the previous page fault handler. -* -****************************************************************************/ -{ - if (installed) { - if (haveDPMI) { - /* DPMI support */ - } - else { - /* Standard DOS4GW and PMODE/W support */ - RemoveFaultHandler(); - ClosePaging(); - } - installed = false; - } -} - -/*-------------------------------------------------------------------------*/ -/* Support mapped out for other compilers. */ -/*-------------------------------------------------------------------------*/ - -#else - -ibool PMAPI VF_available(void) -{ - return false; -} - -void * PMAPI VF_init(ulong baseAddr,int bankSize,int codeLen,void *bankFunc) -{ - (void)baseAddr; - (void)bankSize; - (void)codeLen; - (void)bankFunc; - return NULL; -} - -void PMAPI VF_exit(void) -{ -} - -#endif diff --git a/board/MAI/bios_emulator/scitech/src/pm/dos/ztimer.c b/board/MAI/bios_emulator/scitech/src/pm/dos/ztimer.c deleted file mode 100644 index 53ab16cf40..0000000000 --- a/board/MAI/bios_emulator/scitech/src/pm/dos/ztimer.c +++ /dev/null @@ -1,111 +0,0 @@ -/**************************************************************************** -* -* Ultra Long Period Timer -* -* ======================================================================== -* -* The contents of this file are subject to the SciTech MGL Public -* License Version 1.0 (the "License"); you may not use this file -* except in compliance with the License. You may obtain a copy of -* the License at http://www.scitechsoft.com/mgl-license.txt -* -* Software distributed under the License is distributed on an -* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -* implied. See the License for the specific language governing -* rights and limitations under the License. -* -* The Original Code is Copyright (C) 1991-1998 SciTech Software, Inc. -* -* The Initial Developer of the Original Code is SciTech Software, Inc. -* All Rights Reserved. -* -* ======================================================================== -* -* Language: ANSI C -* Environment: MSDOS -* -* Description: OS specific implementation for the Zen Timer functions. -* -****************************************************************************/ - - -/*---------------------------- Global variables ---------------------------*/ - -uchar * _VARAPI _ZTimerBIOSPtr; - -/*----------------------------- Implementation ----------------------------*/ - -/* External assembler functions */ - -void _ASMAPI LZ_timerOn(void); -ulong _ASMAPI LZ_timerLap(void); -void _ASMAPI LZ_timerOff(void); -ulong _ASMAPI LZ_timerCount(void); -void _ASMAPI LZ_disable(void); -void _ASMAPI LZ_enable(void); - -/**************************************************************************** -REMARKS: -Initialise the Zen Timer module internals. -****************************************************************************/ -void __ZTimerInit(void) -{ - _ZTimerBIOSPtr = PM_getBIOSPointer(); -} - -/**************************************************************************** -REMARKS: -Call the assembler Zen Timer functions to do the timing. -****************************************************************************/ -#define __LZTimerOn(tm) LZ_timerOn() - -/**************************************************************************** -REMARKS: -Call the assembler Zen Timer functions to do the timing. -****************************************************************************/ -#define __LZTimerLap(tm) LZ_timerLap() - -/**************************************************************************** -REMARKS: -Call the assembler Zen Timer functions to do the timing. -****************************************************************************/ -#define __LZTimerOff(tm) LZ_timerOff() - -/**************************************************************************** -REMARKS: -Call the assembler Zen Timer functions to do the timing. -****************************************************************************/ -#define __LZTimerCount(tm) LZ_timerCount() - -/**************************************************************************** -REMARKS: -Define the resolution of the long period timer as microseconds per timer tick. -****************************************************************************/ -#define ULZTIMER_RESOLUTION 54925 - -/**************************************************************************** -REMARKS: -Read the Long Period timer value from the BIOS timer tick. -****************************************************************************/ -static ulong __ULZReadTime(void) -{ - ulong ticks; - LZ_disable(); /* Turn of interrupts */ - ticks = PM_getLong(_ZTimerBIOSPtr+0x6C); - LZ_enable(); /* Turn on interrupts again */ - return ticks; -} - -/**************************************************************************** -REMARKS: -Compute the elapsed time from the BIOS timer tick. Note that we check to see -whether a midnight boundary has passed, and if so adjust the finish time to -account for this. We cannot detect if more that one midnight boundary has -passed, so if this happens we will be generating erronous results. -****************************************************************************/ -ulong __ULZElapsedTime(ulong start,ulong finish) -{ - if (finish < start) - finish += 1573040L; /* Number of ticks in 24 hours */ - return finish - start; -} |