.def uart_rxtx = r18
.def count = r19
.def state = r20
+.def scount = r21
+.def input = r22
+.def save = r23
+
+;.define FLOODME
+;.define S_FLOODME
;
; interrupts
reti
; T1 OVF1
-reti
+rjmp T1_OVF_IR
; T0 OVF0
reti
rcall PORT_INIT
; timer1 init
- rcall TIMER1_INIT
+ rcall TIMER1_INIT_64
; uart init
rcall UART_INIT
; more init
ldi count,0
- ldi state,1
+ ldi state,0
; storage pointer
ldi ZL,low(STORAGE)
ldi ZH,high(STORAGE)
- ; counter
- ldi tmp1,0
- out TCNT1H,tmp1
- out TCNT1L,tmp1
+ ldi scount,0
+ ldi tmp1,0x23
+INIT_STORAGE:
+ ; init storage
+ st Z+,tmp1
+ st Z+,tmp1
+ add scount,one
+ cpi scount,55
+ brne INIT_STORAGE
+
+ ; storage pointer again
+ ldi ZL,low(STORAGE)
+ ldi ZH,high(STORAGE)
; signal ready output
ldi uart_rxtx,0x72
rcall UART_TX
- ; external interrupt enable
- rcall INT0_IR_CONF
+.ifdef FLOODME
+DEBUG_PORT:
+ ;rcall UART_RX
+ ldi scount,0
+DEBUG_PORT_LOOP:
+ lsl uart_rxtx
+ in tmp1,PIND
+ sbrc tmp1,2
+ add uart_rxtx,one
+ add scount,one
+ cpi scount,8
+ brne DEBUG_PORT_LOOP
+ rcall UART_TX
+ rjmp DEBUG_PORT
+.endif
+
+.ifdef S_FLOODME
+DEBUG_PORT:
+ ldi uart_rxtx,0x30
+ in tmp1,PIND
+ sbrc tmp1,2
+ add uart_rxtx,one
+ rcall UART_TX
+ rjmp DEBUG_PORT
+.endif
+ ; enable interrupts
+ rcall INT0_IR_CONF_R
rcall INT0_IR_ENABLE
; global interrupt enable
SAMPLE:
- ; sample as long as there is storage capacity
- sbrc state,0
- rjmp SAMPLE
-
- ; external interrupt enable
- rcall INT0_IR_DISABLE
+ ; sample as long as there is storage capacity and signal
+ cpi state,10
+ brne SAMPLE
; signal finish
ldi uart_rxtx,0x66
rcall UART_RX
; decode instruction
- cpi uart_rxtx,0x52
+ cpi uart_rxtx,0x72
breq RESET
- cpi uart_rxtx,0x54
+ cpi uart_rxtx,0x74
breq TRANSFER
+ cpi uart_rxtx,0x73
+ breq SINGLE_SAMPLE
rjmp IDLE
+SINGLE_SAMPLE:
+
+ ; sample port d pin 2 and output via uart
+ ldi uart_rxtx,0x30
+ in tmp2,PIND
+ sbrc tmp2,2
+ ldi uart_rxtx,0x31
+ rcall UART_TX
+ rjmp IDLE
+
TRANSFER:
; reset storage pointer
ldi ZL,low(STORAGE)
ldi ZH,high(STORAGE)
- ldi count,0
+ ldi scount,1
+
+ ; transmit number of sampled words
+ mov uart_rxtx,count
+ rcall UART_TX
TRANSFER_LOOP:
- ; transmit storage
+ ; send data and counter
+ ld uart_rxtx,Z+
+ rcall UART_TX
ld uart_rxtx,Z+
rcall UART_TX
; count sent data
- add count,one
+ add scount,one
- ; check amount of sent data
- cpi count,110
+ ; check amount of data
+ cpi scount,56
breq IDLE
rjmp TRANSFER_LOOP
INT0_IR:
- ; debug output
- ; cbi PORTD,3
+ in save,SREG
- ; write timer value into sram
+ cli
+
+ ; get timer value
in tmp1,TCNT1L
in tmp2,TCNT1H
+
+ ; reset timer
+ ldi tmp1,0
+ out TCNT1H,tmp1
+ out TCNT1L,tmp1
+
+ ; check for running state
+ cpi state,5
+ breq INT0_RUN
+
+ ; reconfigure int0
+ rcall INT0_IR_CONF_FR
+ ldi state,5
+ rcall TIMER1_INT_ENABLE
+
+ rjmp LEAVE_INT0_IR
+
+INT0_RUN:
+
+ ; write timer value into sram
st Z+,tmp2
st Z+,tmp1
; inc counter
add count,one
-
+
; check for left capacity
cpi count,55
- brne EXIT_IR
+ brne LEAVE_INT0_IR
+
+ ; indicate end of 'c'apacity
+ ldi uart_rxtx,0x63
+ rcall UART_TX
; exit sampling
- ldi state,0
+ ldi state,10
+
+ ; leave all interrupts cleared
+ rjmp EXIT_INT0_IR
+
+LEAVE_INT0_IR:
+
+ sei
-EXIT_IR:
+EXIT_INT0_IR:
- ; debug output
- ; sbi PORTD,3
+ out SREG,save
reti
+T1_OVF_IR:
+
+ in save,SREG
+
+ cli
+
+ ; indicate 'o'verflow end
+ ldi uart_rxtx,0x6f
+ rcall UART_TX
+
+ ; exit sampling
+ ldi state,10
+
+ out SREG,save
+
+ reti
;
; sram