Stephen C. Holland Says:
Wherever you put the CLR !WDT instruction in your main loop, you need to make sure you can get there before the watchdog timer will overflow.+The documentation of the watchdog in the Ubicom/Scenix datasheets is really weak. Basically, the watchdog runs from it's own internal oscillator which runs at ~14KHz, or a period of 714us. Ath this rate, the 8-bit counter counts from 0x00 to 0xFF in 18ms. This amount of time is the default watchdog timeout period. The watchdog timeout can be increased by using the 8-bit prescaler register, as long as you are not already using it for the RTCC. You can assign the prescaler to the RTCC or watchdog by controlling the PSA bit in the OPTION register. The prescaler is then configured with the PS[2:0] bits in the OPTION register.The watchdog can also run in power down mode. In your reset software, you can then look at the TO bit to see if a watchdog timeout occured. You may want to have some different initialization if the watchdog occurs.
I have attached some code I wrote awhile back to check for all forms of reset in the reset vector. It's a little old, and may contain some errors (it was written when an older version of SASM was around) With this, you can know if you are in the reset vector because of power up or MCLR, watchdog timeout, or MIWU (from sleep mode). You could extend the power-up/MCLR code to actually test for the presence of some software-initialized RAM locations to tell between an MCLR and power-up condition. The reason for this is that the RAM comes up at unkown values on power-up, but would remain the same as whatever they were last set to on an MCLR. This is a similiar approach used in your car radio so that it keeps it's presets after it powers up.
Code:
;***************************************************************************************** ; Copyright © [01/26/1999] Scenix Semiconductor, Inc. All rights reserved. ; ; Scenix Semiconductor, Inc. assumes no responsibility or liability for ; the use of this [product, application, software, any of these products]. ; Scenix Semiconductor conveys no license, implicitly or otherwise, under ; any intellectual property rights. ; Information contained in this publication regarding (e.g.: application, ; implementation) and the like is intended through suggestion only and may ; be superseded by updates. Scenix Semiconductor makes no representation ; or warranties with respect to the accuracy or use of these information, ; or infringement of patents arising from such use or otherwise. ;***************************************************************************************** ; ; Filename: ; ; Authors: ; ; ; ; Revision: 1.00 ; ; Part: SX28AC datecode 9929AA ; Freq: 50Mhz ; Compiled using Parallax SX-Key software v1.07 and SASM 1.40 ; ; Date Written: ; ; Last Revised: ; ; Program Description: ; ; ; ; Revision History: ; ;***************************************************************************************** ;***************************************************************************************** ; Target SX ; Uncomment one of the following lines to choose the SX18AC, SX20AC, SX28AC, SX48BD/ES, ; SX48BD, SX52BD/ES or SX52BD. For SX48BD/ES and SX52BD/ES, uncomment both defines, ; SX48_52 and SX48_52_ES. ;***************************************************************************************** ;SX18_20 SX28 ;SX48_52 ;SX48_52_ES ;***************************************************************************************** ; Assembler Used ; Uncomment the following line if using the Parallax SX-Key assembler. SASM assembler ; enabled by default. ;***************************************************************************************** ;SX_Key ;********************************************************************************* ; Assembler directives: ; high speed external osc, turbo mode, 8-level stack, and extended option reg. ; ; SX18/20/28 - 4 pages of program memory and 8 banks of RAM enabled by default. ; SX48/52 - 8 pages of program memory and 16 banks of RAM enabled by default. ; ;********************************************************************************* IFDEF SX_Key ;SX-Key Directives IFDEF SX18_20 ;SX18AC or SX20AC device directives for SX-Key device SX18L,oscxt4,turbo,stackx_optionx ENDIF IFDEF SX28 ;SX28AC device directives for SX-Key device SX28L,oschs2,turbo,stackx_optionx,watchdog ENDIF IFDEF SX48_52_ES ;SX48BD/ES or SX52BD/ES device directives for SX-Key device oschs,turbo,stackx,optionx ELSE IFDEF SX48_52 ;SX48/52/BD device directives for SX-Key device oschs2 ENDIF ENDIF freq 1_000_000 ELSE ;SASM Directives IFDEF SX18_20 ;SX18AC or SX20AC device directives for SASM device SX18,oschs2,turbo,stackx,optionx ENDIF IFDEF SX28 ;SX28AC device directives for SASM device SX28,oschs2,turbo,stackx,optionx ENDIF IFDEF SX48_52_ES ;SX48BD/ES or SX52BD/ES device directives for SASM device SX52,oschs,turbo,stackx,optionx ELSE IFDEF SX48_52 ;SX48BD or SX52BD device directives for SASM device SX52,oschs2 ENDIF ENDIF ENDIF id ' ' ; reset reset_entry ; set reset vector ;***************************************************************************************** ; Macros ;***************************************************************************************** ;********************************************************************************* ; Macro: _bank ; Sets the bank appropriately for all revisions of SX. ; ; This is required since the bank instruction has only a 3-bit operand, it cannot ; be used to access all 16 banks of the SX48/52. For this reason FSR.4 (for SX48/52BD/ES) ; or FSR.7 (SX48/52bd production release) needs to be set appropriately, depending ; on the bank address being accessed. This macro fixes this. ; ; So, instead of using the bank instruction to switch between banks, use _bank instead. ; ;********************************************************************************* _bank macro 1 noexpand bank \1 IFDEF SX48_52 IFDEF SX48_52_ES IF \1 & %00010000 ;SX48BD/ES and SX52BD/ES (engineering sample) bank instruction expand setb fsr.4 ;modifies FSR bits 5,6 and 7. FSR.4 needs to be set by software. noexpand ENDIF ELSE IF \1 & %10000000 ;SX48BD and SX52BD (production release) bank instruction expand setb fsr.7 ;modifies FSR bits 4,5 and 6. FSR.7 needs to be set by software. noexpand ELSE expand clrb fsr.7 noexpand ENDIF ENDIF ENDIF endm ;********************************************************************************* ; Macro: _mode ; Sets the MODE register appropriately for all revisions of SX. ; ; This is required since the MODE (or MOV M,#) instruction has only a 4-bit operand. ; The SX18/20/28AC use only 4 bits of the MODE register, however the SX48/52BD have ; the added ability of reading or writing some of the MODE registers, and therefore use ; 5-bits of the MODE register. The MOV M,W instruction modifies all 8-bits of the ; MODE register, so this instruction must be used on the SX48/52BD to make sure the MODE ; register is written with the correct value. This macro fixes this. ; ; So, instead of using the MODE or MOV M,# instructions to load the M register, use ; _mode instead. ; ;********************************************************************************* _mode macro 1 noexpand IFDEF SX48_52 expand mov w,#\1&$1F ;loads the M register correctly for the SX48BD and SX52BD mov m,w noexpand ELSE expand mov m,#\1&$0F ;loads the M register correctly for the SX18AC, SX20AC ;and SX28AC noexpand ENDIF endm ;***************************************************************************************** ; Data Memory address definitions ; These definitions ensure the proper address is used for banks 0 - 7 for 2K SX devices ; (SX18/20/28) and 4K SX devices (SX48/52). ;***************************************************************************************** IFDEF SX48_52 global_org = $0A bank0_org = $00 bank1_org = $10 bank2_org = $20 bank3_org = $30 bank4_org = $40 bank5_org = $50 bank6_org = $60 bank7_org = $70 ELSE global_org = $08 bank0_org = $10 bank1_org = $30 bank2_org = $50 bank3_org = $70 bank4_org = $90 bank5_org = $B0 bank6_org = $D0 bank7_org = $F0 ENDIF ;***************************************************************************************** ; Global Register definitions ; NOTE: Global data memory starts at $0A on SX48/52 and $08 on SX18/20/28. ;***************************************************************************************** org global_org global_temp equ global_org+0 function_temp equ global_org+1 portb_buff equ global_org+5 flags equ global_org+6 mclr_detected equ flags.0 wdt_detected equ flags.1 miwu_detected equ flags.2 ;***************************************************************************************** ; RAM Bank Register definitions ;***************************************************************************************** ;********************************************************************************* ; Bank 0 ;********************************************************************************* org bank0_org bank0 = $ ;********************************************************************************* ; Bank 1 ;********************************************************************************* org bank1_org bank1 = $ ;********************************************************************************* ; Bank 2 ;********************************************************************************* org bank2_org bank2 = $ ;********************************************************************************* ; Bank 3 ;********************************************************************************* org bank3_org bank3 = $ ;********************************************************************************* ; Bank 4 ;********************************************************************************* org bank4_org bank4 = $ ;********************************************************************************* ; Bank 5 ;********************************************************************************* org bank5_org bank5 = $ ;********************************************************************************* ; Bank 6 ;********************************************************************************* org bank6_org bank6 = $ ;********************************************************************************* ; Bank 7 ;********************************************************************************* org bank7_org bank7 = $ IFDEF SX48_52 ;********************************************************************************* ; Bank 8 ;********************************************************************************* org $80 ;bank 8 address on SX52 bank8 = $ ;********************************************************************************* ; Bank 9 ;********************************************************************************* org $90 ;bank 9 address on SX52 bank9 = $ ;********************************************************************************* ; Bank A ;********************************************************************************* org $A0 ;bank A address on SX52 bankA = $ ;********************************************************************************* ; Bank B ;********************************************************************************* org $B0 ;bank B address on SX52 bankB = $ ;********************************************************************************* ; Bank C ;********************************************************************************* org $C0 ;bank C address on SX52 bankC = $ ;********************************************************************************* ; Bank D ;********************************************************************************* org $D0 ;bank D address on SX52 bankD = $ ;********************************************************************************* ; Bank E ;********************************************************************************* org $E0 ;bank E address on SX52 bankE = $ ;********************************************************************************* ; Bank F ;********************************************************************************* org $F0 ;bank F address on SX52 bankF = $ ENDIF ;***************************************************************************************** ; Port Assignment ;***************************************************************************************** RA_latch equ %00000000 ;SX18/20/28/48/52 port A latch init RA_DDIR equ %11111111 ;SX18/20/28/48/52 port A DDIR value RA_LVL equ %00000000 ;SX18/20/28/48/52 port A LVL value RA_PLP equ %00000000 RB_latch equ %00001000 ;SX18/20/28/48/52 port B latch init RB_DDIR equ %11110111 ;SX18/20/28/48/52 port B DDIR value RB_ST equ %11111111 ;SX18/20/28/48/52 port B ST value RB_LVL equ %00000000 ;SX18/20/28/48/52 port B LVL value RB_PLP equ %00001000 ;SX18/20/28/48/52 port B PLP value RB_edge equ %11111111 ;SX18/20/28/48/52 port B interrupt edges RB_int equ %11111110 ;SX18/20/28/48/52 port B interrupt enable RC_latch equ %00000000 ;SX18/20/28/48/52 port C latch init RC_DDIR equ %11111110 ;SX18/20/28/48/52 port C DDIR value RC_ST equ %11111111 ;SX18/20/28/48/52 port C ST value RC_LVL equ %00000000 ;SX18/20/28/48/52 port C LVL value RC_PLP equ %00000000 ;SX18/20/28/48/52 port C PLP value IFDEF SX48_52 ;SX48BD/52BD Port initialization values RD_latch equ %00000000 ;SX48/52 port D latch init RD_DDIR equ %11111111 ;SX48/52 port D DDIR value RD_ST equ %11111111 ;SX48/52 port D ST value RD_LVL equ %00000000 ;SX48/52 port D LVL value RD_PLP equ %00000000 ;SX48/52 port D PLP value RE_latch equ %00000000 ;SX48/52 port E latch init RE_DDIR equ %11111111 ;SX48/52 port E DDIR value RE_ST equ %11111111 ;SX48/52 port E ST value RE_LVL equ %00000000 ;SX48/52 port E LVL value RE_PLP equ %00000000 ;SX48/52 port E PLP value ENDIF ;********************************************************************************* ; Pin Definitions ;********************************************************************************* ;***************************************************************************************** ; Program constants ;***************************************************************************************** int_period equ 217 ;RTCC Interrupt rate IFDEF SX48_52 ;********************************************************************************* ; SX48BD/52BD Mode addresses ; *On SX48BD/52BD, most registers addressed via mode are read and write, with the ; exception of CMP and WKPND which do an exchange with W. ;********************************************************************************* ; Timer (read) addresses TCPL_R equ $00 ;Read Timer Capture register low byte TCPH_R equ $01 ;Read Timer Capture register high byte TR2CML_R equ $02 ;Read Timer R2 low byte TR2CMH_R equ $03 ;Read Timer R2 high byte TR1CML_R equ $04 ;Read Timer R1 low byte TR1CMH_R equ $05 ;Read Timer R1 high byte TCNTB_R equ $06 ;Read Timer control register B TCNTA_R equ $07 ;Read Timer control register A ; Exchange addresses CMP equ $08 ;Exchange Comparator enable/status register with W WKPND equ $09 ;Exchange MIWU/RB Interrupts pending with W ; Port setup (read) addresses ST_R equ $0C ;Read Port Schmitt Trigger setup, 0 = enabled, 1 = disabled LVL_R equ $0D ;Read Port Schmitt Trigger setup, 0 = enabled, 1 = disabled PLP_R equ $0E ;Read Port Schmitt Trigger setup, 0 = enabled, 1 = disabled DDIR_R equ $0F ;Read Port Direction, 0 = output, 1 = input ; Timer (write) addresses CLR_TMR equ $10 ;Resets 16-bit Timer TR2CML_W equ $12 ;Write Timer R2 low byte TR2CMH_W equ $13 ;Write Timer R2 high byte TR1CML_W equ $14 ;Write Timer R1 low byte TR1CMH_W equ $15 ;Write Timer R1 high byte TCNTB_W equ $16 ;Write Timer control register B TCNTA_W equ $17 ;Write Timer control register A ; Interrupt setup addresses WKED_W equ $1A ;Write MIWU/RB Interrupt edge setup, 0 = falling, 1 = rising WKEN_W equ $1B ;Write MIWU/RB Interrupt edge setup, 0 = enabled, 1 = disabled ; Port setup (write) addresses ST_W equ $1C ;Write Port Schmitt Trigger setup, 0 = enabled, 1 = disabled LVL_W equ $1D ;Write Port Schmitt Trigger setup, 0 = enabled, 1 = disabled PLP_W equ $1E ;Write Port Schmitt Trigger setup, 0 = enabled, 1 = disabled DDIR_W equ $1F ;Write Port Direction, 0 = output, 1 = input ELSE ;********************************************************************************* ; SX18AC/20AC/28AC Mode addresses ; *On SX18/20/28, all registers addressed via mode are write only, with the exception of ; CMP and WKPND which do an exchange with W. ;********************************************************************************* ; Exchange addresses CMP equ $08 ;Exchange Comparator enable/status register with W WKPND equ $09 ;Exchange MIWU/RB Interrupts pending with W ; Interrupt setup addresses WKED_W equ $0A ;Write MIWU/RB Interrupt edge setup, 0 = falling, 1 = rising WKEN_W equ $0B ;Write MIWU/RB Interrupt edge setup, 0 = enabled, 1 = disabled ; Port setup (write) addresses ST_W equ $0C ;Write Port Schmitt Trigger setup, 0 = enabled, 1 = disabled LVL_W equ $0D ;Write Port Schmitt Trigger setup, 0 = enabled, 1 = disabled PLP_W equ $0E ;Write Port Schmitt Trigger setup, 0 = enabled, 1 = disabled DDIR_W equ $0F ;Write Port Direction ENDIF ;***************************************************************************************** ; Interrupt Service Routine ;***************************************************************************************** ; Note: The interrupt code must always originate at address $0. ; ; Interrupt Frequency = (Cycle Frequency / -(retiw value)) For example: ; With a retiw value of -217 and an oscillator frequency of 50MHz, this ; code runs every 4.34us. ;***************************************************************************************** org $0 interrupt ;3 _mode WKPND ;point MODE to swap WKPND register clr w ;Clear WKPND_B register mov !rb,w ;Get pending RB interrupts xor portb_buff,#%01000000 interrupt_out reti ;********************************************************************************* ; Virtual Peripheral: ; ; ; Input variable(s): ; Output variable(s): ; Variable(s) affected: ; Flag(s) affected: ;********************************************************************************* label ;********************************************************************************* ; Set Interrupt Rate ;********************************************************************************* isr_end mov w,#-int_period ;refresh RTCC on return retiw ;return from the interrupt ; = 1/(int_period*RTCC prescaler*1/50MHz) ; = 1/(217*1*20ns) = 4.34us ;***************************************************************************************** ; End of the Interrupt Service Routine ;***************************************************************************************** ;***************************************************************************************** ; RESET VECTOR ;***************************************************************************************** ;********************************************************************************* ; Program execution begins here on power-up or after a reset ;********************************************************************************* org $400 reset_entry ;********************************************************************************* ; Initialise port direction (always reset to default of $FF on MIWU, WDT, MCLR) ;********************************************************************************* _mode DDIR_W ;point MODE to write DDIR register mov w,#RA_DDIR ;Setup RA Direction register, 0 = output, 1 = input mov !ra,w mov w,#RB_DDIR ;Setup RB Direction register, 0 = output, 1 = input mov !rb,w mov w,#RC_DDIR ;Setup RC Direction register, 0 = output, 1 = input mov !rc,w IFDEF SX48_52 mov w,#RD_DDIR ;Setup RD Direction register, 0 = output, 1 = input mov !rd,w mov w,#RE_DDIR ;Setup RE Direction register, 0 = output, 1 = input mov !re,w ENDIF ;********************************************************************************* ; Check for reset condition ;********************************************************************************* sb TO ;did watchdog timeout occur? jmp wd_to ;yes, else skip sb PD ;did MIWU occur? jmp miwu ;yes, else skip ;************************************ power_up_mclr ;power up or mclr occured setb mclr_detected _mode WKPND ;point MODE to swap WKPND register clr w ;Clear WKPND_B register mov !rb,w ;Get pending RB interrupts ;********************************************************************************* ; Initialise all port configuration ;********************************************************************************* _mode ST_W ;point MODE to write ST register mov w,#RB_ST ;Setup RB Schmitt Trigger, 0 = enabled, 1 = disabled mov !rb,w mov w,#RC_ST ;Setup RC Schmitt Trigger, 0 = enabled, 1 = disabled mov !rc,w IFDEF SX48_52 mov w,#RD_ST ;Setup RD Schmitt Trigger, 0 = enabled, 1 = disabled mov !rd,w mov w,#RE_ST ;Setup RE Schmitt Trigger, 0 = enabled, 1 = disabled mov !re,w ENDIF _mode LVL_W ;point MODE to write LVL register mov w,#RA_LVL ;Setup RA CMOS or TTL levels, 0 = TTL, 1 = CMOS mov !ra,w mov w,#RB_LVL ;Setup RB CMOS or TTL levels, 0 = TTL, 1 = CMOS mov !rb,w mov w,#RC_LVL ;Setup RC CMOS or TTL levels, 0 = TTL, 1 = CMOS mov !rc,w IFDEF SX48_52 mov w,#RD_LVL ;Setup RD CMOS or TTL levels, 0 = TTL, 1 = CMOS mov !rd,w mov w,#RE_LVL ;Setup RE CMOS or TTL levels, 0 = TTL, 1 = CMOS mov !re,w ENDIF _mode PLP_W ;point MODE to write PLP register mov w,#RA_PLP ;Setup RA Weak Pull-up, 0 = enabled, 1 = disabled mov !ra,w mov w,#RB_PLP ;Setup RB Weak Pull-up, 0 = enabled, 1 = disabled mov !rb,w mov w,#RC_PLP ;Setup RC Weak Pull-up, 0 = enabled, 1 = disabled mov !rc,w IFDEF SX48_52 mov w,#RD_PLP ;Setup RD Weak Pull-up, 0 = enabled, 1 = disabled mov !rd,w mov w,#RE_PLP ;Setup RE Weak Pull-up, 0 = enabled, 1 = disabled mov !re,w ENDIF mov w,#RA_latch ;Initialize RA data latch mov ra,w mov w,#RB_latch ;Initialize RB data latch mov rb,w mov w,#RC_latch ;Initialize RC data latch mov rc,w IFDEF SX48_52 mov w,#RD_latch ;Initialize RD data latch mov rd,w mov w,#RE_latch ;Initialize RE data latch mov re,w ENDIF ;********************************************************************************* ; Clear all Data RAM locations ;********************************************************************************* IFDEF SX48_52 ;SX48/52 RAM clear routine mov w,#$0a ;reset all ram starting at $0A mov fsr,w :zero_ram clr ind ;clear using indirect addressing incsz fsr ;repeat until done jmp :zero_ram _bank bank0 ;clear bank 0 registers clr $10 clr $11 clr $12 clr $13 clr $14 clr $15 clr $16 clr $17 clr $18 clr $19 clr $1a clr $1b clr $1c clr $1d clr $1e clr $1f ELSE ;SX18/20/28 RAM clear routine clr fsr ;reset all ram banks :zero_ram sb fsr.4 ;are we on low half of bank? setb fsr.3 ;If so, don't touch regs 0-7 clr ind ;clear using indirect addressing incsz fsr ;repeat until done jmp :zero_ram ENDIF ; _mode WKPND ;point MODE to swap WKPND register ; clr w ;Clear WKPND_B register ; mov !rb,w ;Get pending RB interrupts ; _mode WKED_W ;point MODE to write WKED_B register ; mov w,#RB_edge ;Initialize RB interrupt edges ; mov !rb,w ; _mode WKEN_W ;point MODE to write WKEN_B register ; mov w,#RB_int ;Enable/Disable RB interrupts ; mov !rb,w jmp continue ;****************************************** wd_to ;watchdog timeout occured setb wdt_detected ; mov w,#RB_DDIR ;Setup RB Direction register, 0 = output, 1 = input ; mov !rb,w ; mov w,#RC_DDIR ;Setup RB Direction register, 0 = output, 1 = input ; mov !rc,w ; _mode WKPND ;point MODE to swap WKPND register ; clr w ;Clear WKPND_B register ; mov !rb,w ;Get pending RB interrupts ; _mode WKED_W ;point MODE to write WKED_B register ; mov w,#RB_edge ;Initialize RB interrupt edges ; mov !rb,w ; _mode WKEN_W ;point MODE to write WKEN_B register ; mov w,#RB_int ;Enable/Disable RB interrupts ; mov !rb,w xor portb_buff,#%00001000 mov rb,portb_buff clr !wdt ;reset TO and PD bits jmp continue ;************************************************ miwu setb miwu_detected clr !wdt ;reset TO and PD bits ; mov w,#RB_DDIR ;Setup RB Direction register, 0 = output, 1 = input ; mov !rb,w ; _mode WKED_W ;point MODE to write WKED_B register ; mov w,#RB_edge ;Initialize RB interrupt edges ; mov !rb,w ; _mode WKEN_W ;point MODE to write WKEN_B register ; mov w,#RB_int ;Enable/Disable RB interrupts ; mov !rb,w continue ;********************************************************************************* ; Initialize program/VP registers ;********************************************************************************* ;********************************************************************************* ; Setup and enable RTCC interrupt, WREG register, RTCC/WDT prescaler ;********************************************************************************* RTCC_ON = %10000000 ;Enables RTCC at address $01 (RTW hi) ;*WREG at address $01 (RTW lo) by default RTCC_ID = %01000000 ;Disables RTCC edge interrupt (RTE_IE hi) ;*RTCC edge interrupt (RTE_IE lo) enabled by default RTCC_INC_EXT = %00100000 ;Sets RTCC increment on RTCC pin transition (RTS hi) ;*RTCC increment on internal instruction (RTS lo) is default RTCC_FE = %00010000 ;Sets RTCC to increment on falling edge (RTE_ES hi) ;*RTCC to increment on rising edge (RTE_ES lo) is default RTCC_PS_ON = %00000000 ;Assigns prescaler to RTCC (PSA lo) RTCC_PS_OFF = %00001000 ;Assigns prescaler to WDT (PSA hi) PS_000 = %00000000 ;RTCC = 1:2, WDT = 1:1 PS_001 = %00000001 ;RTCC = 1:4, WDT = 1:2 PS_010 = %00000010 ;RTCC = 1:8, WDT = 1:4 PS_011 = %00000011 ;RTCC = 1:16, WDT = 1:8 PS_100 = %00000100 ;RTCC = 1:32, WDT = 1:16 PS_101 = %00000101 ;RTCC = 1:64, WDT = 1:32 PS_110 = %00000110 ;RTCC = 1:128, WDT = 1:64 PS_111 = %00000111 ;RTCC = 1:256, WDT = 1:128 mov w,#RTCC_PS_OFF | RTCC_ID | PS_111 ;setup option register mov !option,w end_init jmp @main ;***************************************************************************************** ; MAIN PROGRAM CODE ;***************************************************************************************** ;********************************************************************************* ; Main ;********************************************************************************* main ;********************************************************************************* ; Main Program Loop ;********************************************************************************* main_loop sleep jmp main_loop org $200 ;***************************************************************************************** ; Jump table for page 1 ; Enables CALLs to functions in the second half of the page ;***************************************************************************************** function_label_2 jmp function_label_2_ ;***************************************************************************************** ; Subroutines ;***************************************************************************************** ;********************************************************************************* ; Function: ; ; Inputs: ; ; Outputs: ; ; Registers affected: ; ; Functions Called: ; ;********************************************************************************* function_label retp ;********************************************************************************* ; Function: ; ; Inputs: ; ; Outputs: ; ; Registers affected: ; ; Functions Called: ; ;********************************************************************************* function_label_1 retp ;********************************************************************************* ; Function: ; ; Inputs: ; ; Outputs: ; ; Registers affected: ; ; Functions Called: ; ;********************************************************************************* function_label_2_ retp ;***************************************************************************************** END ;End of program code ;*****************************************************************************************+
file: /Techref/scenix/watchdog.htm, 30KB, , updated: 2003/1/4 23:23, local time: 2024/11/27 02:08,
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