.file "main.S" #include #define PC r0 #define SP r1 #define SR r2 ;; --- register usage -------------------------------- ;; r4: synchronization between main loop and isr ;; bit0 signals byte done from isr ;; r5: data byte to be handled by isr ;; r6: bit-counter, only used within isr ;; r7: screen data start/next pointer ;; r8: screen data end pointer ;; r9: next screen data byte, prepared in mainloop #define SIGNAL_INIT_VALUE 0x00 #define SIGNAL_BYTE_DONE 0x01 #define SIGNAL_ISR_ENABLE 0x02 #define SIGNAL_REGISTER r4 #define DATA_BYTE_REGISTER r5 #define NEXT_DATA_BYTE_REGISTER r9 #define DATA_NEXT_ADDRESS_REGISTER r7 #define DATA_LAST_ADDRESS_REGISTER r8 #define BIT_COUNTER_REGISTER r6 #define BIT_COUNTER_INIT_VALUE 0x01 ;; --------------------------------------------------- .section ".rodata","a" screendata: .byte 0x01 .byte 0x03 .byte 0x07 .byte 0x0f screendataend: .byte 0xff red: colors1: .byte 0b01001111 colors2: .byte 0b01000111 colors3: .byte 0b01000011 .byte 0 blue: .byte 0b11001111 .byte 0b11000111 .byte 0b11000011 .byte 0 green: .byte 0b10001111 .byte 0b10000111 .byte 0b10000011 .byte 0 ;; .text is the name of the section, it is a hint for the linker to ;; allocate the section ;; ax: a means allocatable by linker, x means executable ;; @progbits is a hint for the linker to allocate this section into ;; program memory (flash) .section ".text","ax",@progbits _start: ;; disable watchdog mov.w #WDTPW|WDTHOLD, &WDTCTL ;; configure clock system to the highest frequency mov.b #DCO0|DCO1|DCO2, &DCOCTL mov.b #XT2OFF|RSEL0|RSEL1|RSEL2|RSEL3, &BCSCTL1 mov.b #0, &BCSCTL2 mov.b #0, &BCSCTL3 ;; initialize stack pointer with value from linker mov.w #__stack, SP init: ;; configuration of GPIO Ports mov.b #BIT0|BIT1|BIT2,&P1DIR mov.b #0,&P1OUT mov.b #BIT1|BIT4,&P2DIR mov.b #BIT1|BIT4,&P2SEL ;; timer configuration ;; configure and stop timer ;; cycle time is 56.25ns mov.w #ID_0|MC_0|TACLR|TASSEL_2, &TA1CTL ;; 2.0us mov.w #45, &TA1CCR0 ;; a bit less mov.w #10, &TA1CCR1 mov.w #22, &TA1CCR2 ;; configure output mode for TA0.1 mov.w #CCIE, &TA1CCTL0 mov.w #OUTMOD_7, &TA1CCTL1 mov.w #OUTMOD_7, &TA1CCTL2 ;; initialize bit-counter for isr mov.b #0x01,r6 ;; initialize isr-sync register, signal BYTE_DONE for the first start mov.b #0x01,r4 ;; screen data start/next into r7 mov.w #screendata, r7 ;; screen data end into r8 mov.w #screendataend, r8 ;; start timer in up mode bis.w #MC0, &TA1CTL ;; enable interrupts eint mainloop: ;; prepare next byte to handle by isr cmp.w r7,r8 jz mainloop_data_done ;; load next data byte mov.b @r7,r9 inc.w r7 mainloop_wait_for_isr: ;; check bit0 in sync register, wait for the signal from ;; the isr bit #SIGNAL_BYTE_DONE, SIGNAL_REGISTER jz mainloop_wait_for_isr ;; load data mov.b r9,r5 ;; clear BYTE_DONE bic #0x01, r4 ;; enable isr bis #0x02, r4 ;; continue jmp mainloop mainloop_data_done: ;; signal all data processed, isr finish bis #0x04, r4 bis #BIT2, &P1OUT ;; continue jmp mainloop ; --- timer isr --- ;; r6: exclusively used by isr as bit-counter timer1_a0_isr: ;; check isr enable bit bit #0x02,r4 jz timer1_a0_isr_exit ;; shift msb of data register r5 into carry flag and set or reset P1.0 accordingly rla.b r5 jnc timer1_a0_isr_false_bit bis #BIT0,&P1OUT jmp timer1_a0_isr_end timer1_a0_isr_false_bit: bic #BIT0,&P1OUT timer1_a0_isr_end: ;; enable output bis #BIT1, &P1OUT ;; roll bit-counter rla.b r6 jnc timer1_a0_isr_exit ;; reset bit-counter mov.b #BIT_COUNTER_INIT_VALUE, BIT_COUNTER_REGISTER ;; signal byte done bis #0x01,r4 bit #0x04, r4 jz timer1_a0_isr_exit ;; disable isr bic #0x02, r4 ;; disable output bic #BIT1, &P1OUT timer1_a0_isr_exit: reti .section "__interrupt_vector_14","ax",@progbits .word timer1_a0_isr ;; .resetvec comes from linker .section ".resetvec","ax",@progbits .word _start .end