;---------------------------------------------------------------------------; ; Software implemented UART module ; ; (C)ChaN, 2005 (http://elm-chan.org/) ; ;---------------------------------------------------------------------------; ; Bit rate settings: ; ; 1MHz 2MHz 4MHz 6MHz 8MHz 10MHz 12MHz 16MHz 20MHz ; 2.4kbps 138 - - - - - - - - ; 4.8kbps 68 138 - - - - - - - ; 9.6kbps 33 68 138 208 - - - - - ; 19.2kbps - 33 68 102 138 173 208 - - ; 38.4kbps - - 33 50 68 85 102 138 172 ; 57.6kbps - - 21 33 44 56 68 91 114 ; 115.2kbps - - - - 21 27 33 44 56 .nolist #include .list #define BPS 102 /* Bit delay. (see above table) */ #define BIDIR 0 /* 0:Separated Tx/Rx, 1:Shared Tx/Rx */ #define OUT_1 sbi _SFR_IO_ADDR(SUART_OUT_PORT), SUART_OUT_BIT /* Output 1 */ #define OUT_0 cbi _SFR_IO_ADDR(SUART_OUT_PORT), SUART_OUT_BIT /* Output 0 */ #define SKIP_IN_1 sbis _SFR_IO_ADDR(SUART_IN_PIN), SUART_IN_BIT /* Skip if 1 */ #define SKIP_IN_0 sbic _SFR_IO_ADDR(SUART_IN_PIN), SUART_IN_BIT /* Skip if 0 */ #ifdef SPM_PAGESIZE .macro _LPMI reg lpm \reg, Z+ .endm .macro _MOVW dh,dl, sh,sl movw \dl, \sl .endm #else .macro _LPMI reg lpm mov \reg, r0 adiw ZL, 1 .endm .macro _MOVW dh,dl, sh,sl mov \dl, \sl mov \dh, \sh .endm #endif ;---------------------------------------------------------------------------; ; Transmit a byte in serial format of N81 ; ;Prototype: void xmit (uint8_t data); ;Size: 16 words .global xmit .func xmit xmit: #if BIDIR ldi r23, BPS-1 ;Pre-idle time for bidirectional data line 5: dec r23 ; brne 5b ;/ #endif in r0, _SFR_IO_ADDR(SREG) ;Save flags com r24 ;C = start bit ldi r25, 10 ;Bit counter cli ;Start critical section 1: ldi r23, BPS-1 ;----- Bit transferring loop 2: dec r23 ;Wait for a bit time brne 2b ;/ brcs 3f ;MISO = bit to be sent OUT_1 ; 3: brcc 4f ; OUT_0 ;/ 4: lsr r24 ;Get next bit into C dec r25 ;All bits sent? brne 1b ; no, coutinue out _SFR_IO_ADDR(SREG), r0 ;End of critical section ret .endfunc ;---------------------------------------------------------------------------; ; Receive a byte ; ;Prototype: uint8_t rcvr (void); ;Size: 19 words .global rcvr .func rcvr rcvr: in r0, _SFR_IO_ADDR(SREG) ;Save flags ldi r24, 0x80 ;Receiving shift reg cli ;Start critical section 1: SKIP_IN_1 ;Wait for idle rjmp 1b 2: SKIP_IN_0 ;Wait for start bit rjmp 2b ldi r25, BPS/2 ;Wait for half bit time 3: dec r25 brne 3b 4: ldi r25, BPS ;----- Bit receiving loop 5: dec r25 ;Wait for a bit time brne 5b ;/ lsr r24 ;Next bit SKIP_IN_0 ;Get a data bit into r24.7 ori r24, 0x80 brcc 4b ;All bits received? no, continue out _SFR_IO_ADDR(SREG), r0 ;End of critical section ret .endfunc ; Not wait for start bit. This should be called after detecting start bit. .global recv .func recv recv: in r0, _SFR_IO_ADDR(SREG) ;Save flags ldi r24, 0x80 ;Receiving shift reg cli ;Start critical section ;1: SKIP_IN_1 ;Wait for idle ; rjmp 1b ;2: SKIP_IN_0 ;Wait for start bit ; rjmp 2b ldi r25, BPS/2 ;Wait for half bit time 3: dec r25 brne 3b 4: ldi r25, BPS ;----- Bit receiving loop 5: dec r25 ;Wait for a bit time brne 5b ;/ lsr r24 ;Next bit SKIP_IN_0 ;Get a data bit into r24.7 ori r24, 0x80 brcc 4b ;All bits received? no, continue ldi r25, BPS/2 ;Wait for half bit time 6: dec r25 brne 6b 7: SKIP_IN_1 ;Wait for stop bit rjmp 7b out _SFR_IO_ADDR(SREG), r0 ;End of critical section ret .endfunc