dos_compilers/Logitech Modula-2 v1/PMD.ASM
2024-06-30 15:16:10 -07:00

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;******************************************************
;
; Copyrigth (C) 1984 Logitech. All Rights Reserved.
;
; Permission is hereby granted to registered users to use or
; abstract the following program in the implementation of
; customized versions. This permission does not include the
; right to redistribute the source code of this program.
;
;
; Modula-2/86 Run Time Support package
;
; PMD.ASM - Post Mortem Dump module
;
;
include RTS.INC
code segment public
extrn RTS_DS:word ; really belongs here!
extrn GET_CURR_DISK:near
extrn SELECT_DISK:near
extrn DELETE_FILE:near
extrn MAKE_FILE:near
extrn SET_DEFAULT_DMA:near
extrn NORM_ADDR:near
extrn SEQ_WRITE:near
extrn CLOSE_FILE:near
extrn DELETE_FILE:near
extrn WRITE_LN:near
extrn WRITE_MSG:near
data segment public
; Variables for Post Mortem Dump:
DUMP_NAME DB 'MEMORY.PMD',0
NO_DUMP DB 'Post Mortem Dump failed', 0DH,0AH, '$'
PARAG_IN_REC DB 0 ; paragraph counter for PMD
even
DUMP_LOW_START dw ? ; first paragraph of 'low' dump area
DUMP_LOW_END dw ? ; last paragraph of same
DUMP_HIGH_START dw ?
DUMP_HIGH_END dw ?
TEMP_W dd ?
extrn START_MEM:word, MEM_SIZE:word
extrn SAVED_DISK:byte
extrn RTS_DISK:byte
extrn CUR_PROCESS:byte ;:ProcessDescriptor
extrn RTS_PROCESS:byte ;:ProcessDescriptor
extrn CUR_P_PTR:dword
extrn FILE_HANDLE:word
extrn FILE_SPEC:byte
data ends
public P_M_DUMP
assume CS:code, DS:data
P_M_DUMP proc NEAR
;========
; Entry point for Post Mortem Dump
; When arriving here, we assume the relevant
; registers to be saved in the process descriptor.
; Before dumping memory, we are going to
; write the copy of the P.D. back into the
; workspace of the process:
Les di, CUR_P_PTR
Mov si, offset CUR_PROCESS
Mov cx, (size ProcessDescriptor)/2
Rep Movsw
; Now, we create the file on the same disk
; where the resident part was found. Therefore,
; we have first to save the currrent disk:
call GET_CURR_DISK
; set up the filespec:
MOV AL, RTS_DISK
add al,'A'
PUSH DS
POP ES
MOV SI, OFFSET DUMP_NAME
MOV DI, offset FILE_SPEC
mov byte ptr[di],al
inc di
mov byte ptr[di],':'
inc di
MOV CX, 11 ; Drive, Name, Typ and Extent
REP MOVSB
CALL DELETE_FILE ; Delete the old DUMP-file
CALL MAKE_FILE ; and create the new-one
JNB D_FILE_MADE ; yes
JMP AFTER_DUMP ; no, dump fails
D_FILE_MADE:
mov FILE_HANDLE,ax
CALL SET_DEFAULT_DMA
; Fill the header record:
MOV AX, 0 ; First fill with zeroes
MOV DI, DEFAULT_DMA
PUSH DS
POP ES
MOV CX, 64
REP STOSW
; Now put the info required by the debugger:
MOV DI, DEFAULT_DMA
; addr of MAIN process descr:
MOV word ptr [DI], OFFSET RTS_PROCESS
MOV word ptr 2[DI], DS
; addr of descriptor of terminating process:
LES SI, CUR_P_PTR
MOV [DI]+4, SI
MOV [DI]+6, ES
; start and end of interrupt vector table:
MOV WORD PTR [DI]+16, 0
MOV WORD PTR [DI]+18, 3FH
; paragraph address of RESIDENT:
mov ax, RTS_DS
mov DUMP_LOW_START, ax
mov [di]+20, ax
; end of lower memory area:
MOV BX, RTS_PROCESS.PD_HEAP_TOP + 2
MOV AX, RTS_PROCESS.PD_HEAP_TOP
CALL NORM_ADDR
INC BX ; next paragraph
MOV DUMP_LOW_END, BX ; just save it
MOV [DI]+22, BX ; top of main heap (parag)
; start of higher memory area:
MOV BX, RTS_PROCESS.PD_SS
MOV AX, RTS_PROCESS.PD_SP
CALL NORM_ADDR
MOV DUMP_HIGH_START, BX ; just save it
MOV [DI]+24, BX ; top of main stack (parag)
; last paragraph of memory:
mov bx, START_MEM
dec bx
add bx, MEM_SIZE
MOV DUMP_HIGH_END, BX ; just save it
MOV [DI]+26, BX
; Send the first record to the file:
CALL SEQ_WRITE
CMP AL, 80H
JNE DUMP_BAD
; Now dump the memory:
; We dump 3 memory areas: the interrupt vectors (0..3FFH), the 'low'
; memory from start of RESIDENT to heaptop of main and the 'high'
; memory starting at stacktop of main to end of memory.
; These 3 areas are dumped paragraph-wise.
MOV PARAG_IN_REC, 0 ; counter = 0
MOV CX, 0 ; start of first area
MOV BX, 03FH ; end of first area
CALL DUMP_PART
CMP AL, 0
JNE DUMP_BAD ; there was an error
MOV CX, DUMP_LOW_START ; start of second area
MOV BX, DUMP_LOW_END ; end of second area
CALL DUMP_PART
CMP AL, 0
JNE DUMP_BAD ; there was an error
MOV CX, DUMP_HIGH_START ; start of third area
MOV BX, DUMP_HIGH_END ; end of third area
CALL DUMP_PART
CMP AL, 0
JNE DUMP_BAD ; there was an error
CMP PARAG_IN_REC, 0
JE CLOSE_DUMP
CALL SET_DEFAULT_DMA ; We have to write the buffer
CALL SEQ_WRITE
CMP AL, 80H
JNE DUMP_BAD
CLOSE_DUMP:
MOV AX, 0 ; to indicate 'no error'
DUMP_BAD:
PUSH AX
; Close the file:
CALL CLOSE_FILE
POP AX
AFTER_DUMP:
; Dump is made. AX contains 0 for successfull
; dump and > 0 if an error occured:
CMP AX, 0
JE DUMP_OK
CALL WRITE_LN
MOV DX, OFFSET NO_DUMP
CALL WRITE_MSG
CALL DELETE_FILE
DUMP_OK:
; Restore the disk of before the dump:
MOV DL, SAVED_DISK
CALL SELECT_DISK
RET
P_M_DUMP endp
DUMP_PARTIAL_REC proc NEAR
; The variable 'PARAG_IN_REC' gives the number of paragraphs that
; are already in the record at CPM_DMA. It is updated here.
; AX holds the number of paragraphs to dump at entry and the
; remaining-ones at exit.
; CX is paragraph address of memory to dump and is updated here.
; When the record can be filled completely, it is written to the
; file (DEFAULT_FCB). BL returns 0 if no error, 0FFH otherwise.
CMP AX, 8
JB DO_PARTIAL_DUMP
JZ GOOD_PARTIAL_DUMP
; nothing to dump
CMP PARAG_IN_REC, 0
JZ GOOD_PARTIAL_DUMP
; This means: nothing in the
; buffer and more than 8
; paragraphs to dump.
DO_PARTIAL_DUMP:
; There are some paragraphs to copy:
MOV BX, 8
SUB BL, PARAG_IN_REC
; BX= number of par. to copy
CMP AX, BX
JAE ENOUGH_TO_FILL
MOV BX, AX
MOV AX, 0
JMP SHORT PARTIAL_DUMP
ENOUGH_TO_FILL:
SUB AX, BX
PARTIAL_DUMP:
; AX = remaining paragraphs to dump later.
; BX = number of paragraphs to copy in buffer.
; CX = paragraph addr of area to copy (offset=0).
MOV TEMP_W, AX
MOV TEMP_W+2, BX
MOV ES, RTS_DS
MOV DI, DEFAULT_DMA ; offset of buffer
MOV AL, PARAG_IN_REC
MOV AH, 0
MOV DS, CX
MOV CL, 4
SHL AX, CL ; offset inside buffer
ADD DI, AX ; (ES,DI) = dest addr
MOV SI, 0 ; source offset
MOV CX, 4
SHL BL, CL
MOV CL, BL
; number of bytes to copy
REP MOVSB
; Now, the paragraphs to copy are in the
; buffer, update counters and pointers:
MOV CX, DS
MOV DS, RTS_DS
MOV AX, TEMP_W+2 ; number of copied paragraphs
ADD PARAG_IN_REC, AL
ADD AX, CX
MOV TEMP_W+2, AX
MOV CX, AX
MOV AX, TEMP_W
CMP PARAG_IN_REC, 8
JB GOOD_PARTIAL_DUMP
; The buffer is full, we write it on the file:
CALL SET_DEFAULT_DMA
CALL SEQ_WRITE
CMP AL, 80H
JNE BAD_PARTIAL_DUMP
MOV AX, TEMP_W
MOV CX, TEMP_W+2
MOV PARAG_IN_REC, 0
GOOD_PARTIAL_DUMP:
MOV BL, 0
RET
BAD_PARTIAL_DUMP:
MOV BL, 0FFH
RET
DUMP_PARTIAL_REC endp
DUMP_PART proc NEAR
; Dumps a part of the memory to an open
; disk file, using the DEFAULT_FCB.
; Upon entry:
; CX holds addr of first paragraph to
; dump, BX is addr of last paragraph
; to dump (BX=CX means 1 par. to dump).
; Upon exit:
; AL=0 if no error occured while writing,
; AL=1 otherwise.
MOV AX, BX
INC AX
SUB AX, CX
JA DUMP_SIZE_OK
RET
; endaddr < startaddr
DUMP_SIZE_OK:
CALL DUMP_PARTIAL_REC
; needed to fill partially filled
; buffer, as remainder from dumping
; the previous area.
CMP BL, 0
JZ DUMP_NEXT_REC
MOV AL, 0FFH
RET
DUMP_NEXT_REC:
;;;;;; start of LOOP ;;;;;;;
; AX holds number of paragraphs to dump
; CX holds first paragr-addr
CMP AX, 8
JB DUMP_LAST_REC
MOV TEMP_W, AX
MOV TEMP_W+2, CX
push DS
mov DS,cx
mov dx,0
mov ah, 01Ah
int OS ; Set disk transfer address (DS:DX)
pop DS
CALL SEQ_WRITE ; Write next record
CMP AL, 80H
JE DUMP_REC_OK
RET
;
DUMP_REC_OK:
MOV AX, TEMP_W ; The next record is written,
SUB AX, 8 ; update counter and address.
MOV CX, TEMP_W+2
ADD CX, 8
JMP SHORT DUMP_NEXT_REC
;;;;; End of LOOP ;;;;;;;
DUMP_LAST_REC:
CALL DUMP_PARTIAL_REC ; copy the remaining paragraphs
; in the buffer.
MOV AL, BL ; error flag
RET
DUMP_PART endp
code ends
end