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|
TITLE MSCLOCK - DOS 3.3
;----------------------------------------------------------------
; :
; CLOCK DEVICE DRIVER :
; :
; :
; This file contains the Clock Device Driver. :
; :
; The routines in this files are: :
; :
; routine function :
; ------- -------- :
; TIM$WRIT Set the current time :
; TIM$READ Read the current time :
; Time_To_Ticks Convert time to corresponding :
; number of clock ticks :
; :
; The clock ticks at the rate of: :
; :
; 1193180/65536 ticks/second (about 18.2 ticks per second):
; See each routine for information on the use. :
; :
;----------------------------------------------------------------
itest=0
INCLUDE MSGROUP.INC ;DEFINE CODE SEGMENT
INCLUDE MSMACRO.INC
EXTRN EXIT:NEAR
;
; DAYCNT is the number of days since 1-1-80.
; Each time the clock is read it is necessary to check if another day has
; passed. The ROM only returns the day rollover once so if it is missed
; the time will be off by a day.
;
EXTRN DAYCNT:WORD ;MSDATA
;;Rev 3.30 Modification ------------------------------------------------
; variables for real time clock setting
public HaveCMOSClock
HaveCMOSClock db 0 ;set by MSINIT.
public base_century
base_century db 19
public base_year
base_year db 80
public month_tab
month_tab db 31,28,31,30,31,30,31,31,30,31,30,31
; The following are indirect intra-segment call addresses. The
;procedures are defined in MSINIT for relocation. MSINIT will set these
;address when the relocation is done.
public BinToBCD
BinToBCD dw 0 ;should point to Bin_To_BCD proc in MSINIT
public DaycntToDay
DaycntToDay dw 0 ;should point to Daycnt_to_day in MSINIT
;********************************************************************
; Indirect call address of TIME_TO_TICKS procedure.
;This will be used by the relocatable portable suspend/resume code.
public TimeToTicks
TimeToTicks dw Time_To_Ticks
;;End of Modification ------------------------------------------------
;--------------------------------------------------------------------
;
; Settime sets the current time
;
; On entry ES:[DI] has the current time:
;
; number of days since 1-1-80 (WORD)
; minutes (0-59) (BYTE)
; hours (0-23) (BYTE)
; hundredths of seconds (0-99) (BYTE)
; seconds (0-59) (BYTE)
;
; Each number has been checked for the correct range.
;
PUBLIC TIM$WRIT
TIM$WRIT PROC NEAR
ASSUME DS:CODE
mov AX,WORD PTR ES:[DI]
push AX ;DAYCNT. We need to set this at the very
; end to avoid tick windows.
;;Rev 3.30 Modification
cmp HaveCMOSClock, 0
je No_CMOS_1
mov al,es:[di+3] ;get binary hours
call BinToBCD ;convert to BCD
mov ch,al ;CH = BCD hours
mov al,es:[di+2] ;get binary minutes
call BinToBCD ;convert to BCD
mov cl,al ;CL = BCD minutes
mov al,es:[di+5] ;get binary seconds
call BinToBCD ;convert to BCD
mov dh,al ;DH = BCD seconds
mov dl,0 ;DL = 0 (ST) or 1 (DST)
cli ;turn off timer
mov ah,03h ;set RTC time
int 1Ah ;call rom bios clock routine
sti
;;End of Modification
No_CMOS_1:
mov CX,WORD PTR ES:[DI+2]
mov DX,WORD PTR ES:[DI+4]
;;Rev 3.30 Modification
call time_to_ticks ; convert time to ticks
;CX:DX now has time in ticks
cli ; Turn off timer
mov AH, 1 ; command is set time in clock
int 1Ah ; call rom-bios clock routines
pop [DAYCNT]
sti
;CMOS clock -------------------------------------
cmp HaveCMOSClock, 0
je No_CMOS_2
call DaycntToDay ; convert to BCD format
cli ; Turn off timer
mov AH,05h ; set RTC date
int 1Ah ; call rom-bios clock routines
sti
;------------------------------------------------
No_CMOS_2:
jmp EXIT
TIM$WRIT ENDP
;;End of Modification
;
; convert time to ticks
; input : time in CX and DX
; ticks returned in CX:DX
;
public time_to_ticks
TIME_TO_TICKS PROC NEAR
; first convert from Hour,min,sec,hund. to
; total number of 100th of seconds
mov AL,60
mul CH ;Hours to minutes
mov CH,0
add AX,CX ;Total minutes
mov CX,6000 ;60*100
mov BX,DX ;Get out of the way of the multiply
mul CX ;Convert to 1/100 sec
mov CX,AX
mov AL,100
mul BH ;Convert seconds to 1/100 sec
add CX,AX ;Combine seconds with hours and min.
adc DX,0 ;Ripple carry
mov BH,0
add CX,BX ;Combine 1/100 sec
adc DX,0
;;Rev 3.30 Modification
;DX:CX IS TIME IN 1/100 SEC
XCHG AX,DX
XCHG AX,CX ;NOW TIME IS IN CX:AX
MOV BX,59659
MUL BX ;MULTIPLY LOW HALF
XCHG DX,CX
XCHG AX,DX ;CX->AX, AX->DX, DX->CX
MUL BX ;MULTIPLY HIGH HALF
ADD AX,CX ;COMBINE OVERLAPPING PRODUCTS
ADC DX,0
XCHG AX,DX ;AX:DX=TIME*59659
MOV BX,5
DIV BL ;DIVIDE HIGH HALF BY 5
MOV CL,AL
MOV CH,0
MOV AL,AH ;REMAINDER OF DIVIDE-BY-5
CBW
XCHG AX,DX ;USE IT TO EXTEND LOW HALF
DIV BX ;DIVDE LOW HALF BY 5
MOV DX,AX
; CX:DX is now number of ticks in time
ret
TIME_TO_TICKS ENDP
;;End of Modification
;
; Gettime reads date and time
; and returns the following information:
;
; ES:[DI] =count of days since 1-1-80
; ES:[DI+2]=hours
; ES:[DI+3]=minutes
; ES:[DI+4]=seconds
; ES:[DI+5]=hundredths of seconds
;
PUBLIC TIM$READ
TIM$READ PROC NEAR
; read the clock
xor AH, AH ; set command to read clock
int 1Ah ; call rom-bios to get time
or al,al ; check for a new day
jz noroll1 ; if al=0 then don't reset day count
INC [DAYCNT] ; CATCH ROLLOVE
noroll1:
MOV SI,[DAYCNT]
;
; we now need to convert the time in tick to the time in 100th of
; seconds. The relation between tick and seconds is:
;
; 65536 seconds
; ----------------
; 1,193,180 tick
;
; To get to 100th of second we need to multiply by 100. The equation is:
;
; Ticks from clock * 65536 * 100
; --------------------------------- = time in 100th of seconds
; 1,193,180
;
; Fortunately this fromula simplifies to:
;
; Ticks from clock * 5 * 65,536
; --------------------------------- = time in 100th of seconds
; 59,659
;
; The calculation is done by first multipling tick by 5. Next we divide by
; 59,659. In this division we multiply by 65,536 by shifting the dividend
; my 16 bits to the left.
;
; start with ticks in CX:DX
; multiply by 5
MOV AX,CX
MOV BX,DX
SHL DX,1
RCL CX,1 ;TIMES 2
SHL DX,1
RCL CX,1 ;TIMES 4
ADD DX,BX
ADC AX,CX ;TIMES 5
XCHG AX,DX
; now have ticks * 5 in DX:AX
; we now need to multiply by 65,536 and divide by 59659 d.
mov CX,59659 ; get divisor
div CX
; DX now has remainder
; AX has high word of final quotient
mov BX,AX ; put high work if safe place
xor AX,AX ; this is the multiply by 65536
div CX ; BX:AX now has time in 100th of seconds
;
;Rounding based on the remainder may be added here
;The result in BX:AX is time in 1/100 second.
mov DX,BX
mov CX,200 ;Extract 1/100's
;Division by 200 is necessary to ensure no overflow--max result
;is number of seconds in a day/2 = 43200.
div CX
cmp DL,100 ;Remainder over 100?
jb NOADJ
sub DL,100 ;Keep 1/100's less than 100
NOADJ:
cmc ;If we subtracted 100, carry is now set
mov BL,DL ;Save 1/100's
;To compensate for dividing by 200 instead of 100, we now multiply
;by two, shifting a one in if the remainder had exceeded 100.
rcl AX,1
mov DL,0
rcl DX,1
mov CX,60 ;Divide out seconds
div CX
mov BH,DL ;Save the seconds
div CL ;Break into hours and minutes
xchg AL,AH
;Time is now in AX:BX (hours, minutes, seconds, 1/100 sec)
push AX
MOV AX,SI ; DAYCNT
stosw
pop AX
stosw
mov AX,BX
stosw
jmp EXIT
TIM$READ ENDP
CODE ENDS
END
�
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