Mercurial > public > hwos_code
view src/eeprom_rs232.asm @ 347:7e5772df60cd
Changed content for new 0x6F command (Get compact headers)
author | heinrichsweikamp |
---|---|
date | Wed, 22 Jul 2015 10:42:15 +0200 |
parents | 1e342e433839 |
children | 2fd258596af0 |
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;============================================================================= ; ; File eeprom_rs232.asm ; ; Internal EEPROM, RS232 ; ; Copyright (c) 2011, JD Gascuel, HeinrichsWeikamp, all right reserved. ;============================================================================= ; HISTORY ; 2011-08-06 : [mH] moving from OSTC code #include "hwos.inc" #include "wait.inc" ;============================================================================= eeprom code 0xF00000+0x10 ; Skip SERIAL number. Should not be overwritten. global eeprom_serial_save, eeprom_opt_backup eeprom_serial_save res 2 eeprom_opt_backup res 0x3E ;============================================================================= basic CODE global write_int_eeprom_1 write_int_eeprom_1: movwf EEADR bra write_eeprom ; writes and "returns" after write global read_int_eeprom_1 read_int_eeprom_1: movwf EEADR bra read_eeprom ; reads and "returns" after write ;============================================================================= ; reads from internal eeprom ; Input: EEADRH:EEADR = EEPROM address. ; Output: EEDATA. ; Trashed: NONE. global read_eeprom read_eeprom: bcf EECON1,EEPGD bcf EECON1,CFGS bsf EECON1,RD return ;============================================================================= ; writes into internal eeprom ; Input: EEADRH:EEADR = EEPROM address. ; EEDATA = byte to write. ; Trashed: WREG. global write_eeprom write_eeprom: bcf EECON1,EEPGD bcf EECON1,CFGS bsf EECON1,WREN bcf INTCON,GIE ; Disable interrups for the next 5 instructions movlw 0x55 movwf EECON2 movlw 0xAA movwf EECON2 bsf EECON1,WR bsf INTCON,GIE ; ...but the flag for the ISR routines were still set, so they will interrupt now! write_eep2: btfsc EECON1,WR bra write_eep2 ; wait about 4ms... bcf EECON1,WREN return global disable_ir_s8 disable_ir_s8: banksel TXSTA2 clrf TXSTA2 clrf RCSTA2 banksel common bcf ir_power ; IR off bcf mcp_power ; Power-down intrumentation amp bsf s8_npower ; Power-down S8 HUD return global enable_ir_s8 enable_ir_s8: ;init serial port2 (TRISG2) btfsc analog_o2_input bra enable_s8 ; Start S8 banksel BAUDCON2 movlw b'00100000' ; BRG16=0 ; inverted for IR movwf BAUDCON2 movlw b'00100000' ; BRGH=0, SYNC=0 movwf TXSTA2 movlw .102 ; SPBRGH:SPBRG = .102 : 2403 BAUD @ 16MHz movwf SPBRG2 movlw b'10010000' movwf RCSTA2 banksel common bsf ir_power ; Power-up IR btfss ir_power bra $-6 return enable_s8: ; Check for Digital/Analog bsf s8_npower ; Power-down S8 HUD WAITMS d'1' ; Very short delay bsf mcp_power ; Power-up intrumentation amp btfss mcp_power bra $-6 banksel TXSTA2 clrf TXSTA2 clrf RCSTA2 banksel common ; It may be digital, check for voltage when isolator is powered bcf s8_npower ; Power S8 HUD WAITMS d'1' ; Very short delay btfsc PORTG,2 ; RX2=1? bra enable_s8_2 ; Yes, digital WAITMS d'30' btfsc PORTG,2 ; RX2=1? bra enable_s8_2 ; Yes, digital ; Not found, set to analog (fail-safe) enable_s8_analog: ; S8 Analog bsf s8_npower ; Power-down S8 HUD bcf s8_digital ; Clear flag return enable_s8_2: ; S8 Digital banksel BAUDCON2 movlw b'00000000' ; BRG16=0 ; normal for S8 movwf BAUDCON2 movlw b'00100000' ; BRGH=0, SYNC=0 movwf TXSTA2 movlw .25 ; SPBRGH:SPBRG = .25 : 9615 BAUD @ 16MHz movwf SPBRG2 movlw b'10010000' movwf RCSTA2 banksel common bsf s8_digital ; Set flag return ;============================================================================= global enable_rs232 enable_rs232: call speed_normal ; 16MHz enable_rs232_2: movlw T2CON_NORMAL cpfseq T2CON bra enable_rs232_2 ; Wait until speed is normal bcf PORTE,0 ; Start comms ;init serial port1 (TRISC6/7) movlw b'00100100' ; BRGH=1, SYNC=0 movwf TXSTA1 movlw b'10010000' movwf RCSTA1 return global disable_rs232 disable_rs232: clrf RCSTA1 clrf TXSTA1 ; UART disable bcf PORTC,6 ; TX hard to GND bsf PORTE,0 ; Stop comms return rs232_wait_tx_led: bsf LEDr ; Flow control test mH global rs232_wait_tx rs232_wait_tx: btfss TXSTA1,TRMT ; RS232 Busy? bra rs232_wait_tx ; yes, wait... btfss ble_available ; ble available? return ; No, done. btfsc NRTS ; Wait for Bluetooth module bra rs232_wait_tx_led ; yes, wait... bcf LEDr return ; Done. global rs232_wait_tx2 rs232_wait_tx2: banksel TXSTA2 rs232_wait_tx2_1: btfss TXSTA2,TRMT ; RS232 Busy? bra rs232_wait_tx2_1 ; yes, wait... banksel common return ; Done. global rs232_get_byte rs232_get_byte: bcf rs232_recieve_overflow ; clear flag clrf uart1_temp clrf uart2_temp rs232_get_byte2: btfsc PIR1,RCIF ; data arrived? return btfsc PIR1,RCIF ; data arrived? return btfsc PIR1,RCIF ; data arrived? return btfsc PIR1,RCIF ; data arrived? return decfsz uart2_temp,F bra rs232_get_byte2 decfsz uart1_temp,F bra rs232_get_byte2 ; timeout occoured (about 40ms) bsf rs232_recieve_overflow ; set flag bcf RCSTA1,CREN ; Clear receiver status bsf RCSTA1,CREN return ; and return anyway END