Mercurial > public > mk2
view code_part1/OSTC_code_asm_part1/eeprom_rs232.asm @ 660:99dea4fe641f
2.56beta release
author | heinrichsweikamp |
---|---|
date | Thu, 08 Nov 2012 17:15:40 +0100 |
parents | fbd5e2b75a63 |
children | 6e456a6398e0 |
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; OSTC - diving computer code ; Copyright (C) 2008 HeinrichsWeikamp GbR ; This program is free software: you can redistribute it and/or modify ; it under the terms of the GNU General Public License as published by ; the Free Software Foundation, either version 3 of the License, or ; (at your option) any later version. ; This program is distributed in the hope that it will be useful, ; but WITHOUT ANY WARRANTY; without even the implied warranty of ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ; GNU General Public License for more details. ; You should have received a copy of the GNU General Public License ; along with this program. If not, see <http://www.gnu.org/licenses/>. ; internal EEPROM and RS232 UART interface ; written by: Matthias Heinrichs, info@heinrichsweikamp.com ; written: 02/01/06 ; last updated: 090109 ; known bugs: ; ToDo: write_int_eeprom macro eeprom_address movlw eeprom_address call write_int_eeprom_1 endm write_int_eeprom_1: movwf EEADR bra write_eeprom ; writes and "returns" after write read_int_eeprom macro eeprom_address movlw eeprom_address call read_int_eeprom_1 endm read_int_eeprom_1: movwf EEADR bra read_eeprom ; reads and "returns" after write internal_eeprom_access_b2: ; accesses internal EEPROM BANK 2 via the UART bcf internal_eeprom_write3 ; clear flag! movlw d'2' movwf EEADRH ;BANK1 movlw "n" bra internal_eeprom_access1 ; Continue with common routines internal_eeprom_access_b1: ; accesses internal EEPROM BANK 1 via the UART bcf internal_eeprom_write2 ; clear flag! movlw d'1' movwf EEADRH ;BANK1 movlw "i" bra internal_eeprom_access1 ; Continue with common routines internal_eeprom_access_b0: ; accesses internal EEPROM BANK 0 via the UART bcf internal_eeprom_write ; clear flag! clrf EEADRH ; Bank0 movlw "d" ; bra internal_eeprom_access1 ; Continue with common routines internal_eeprom_access1: movwf TXREG ; Send command echo ("i", "d" or "n") bsf no_sensor_int ; No Sensor Interrupt movlw d'4' movwf EEADR bcf PIE1,RCIE ; no interrupt for UART bcf PIR1,RCIF ; clear flag bsf LED_blue ; LEDusb ON internal_eeprom_access2: rcall rs232_get_byte ; Get byte to write... movff RCREG,EEDATA ; copy to write register bsf LED_red ; show activity btfsc rs232_recieve_overflow ; overflow recieved? bra internal_eeprom_access3 ; Yes, abort! rcall write_eeprom ; No, write one byte bcf LED_red movff EEDATA,TXREG ; Send echo! rcall rs232_wait_tx ; Wait for UART incfsz EEADR,F ; Do until EEADR rolls to zero bra internal_eeprom_access2 internal_eeprom_access2a: bcf LED_blue ; LEDusb OFF bcf PIR1,RCIF ; clear flag bsf PIE1,RCIE ; re-enable interrupt for UART clrf EEADRH ; Point to Bank0 again bcf rs232_recieve_overflow ; Clear Flag bcf no_sensor_int ; Renable Sensor Interrupt goto restart internal_eeprom_access3: ; Overflow! Abort writing movlw 0xFF movwf TXREG ; Error Byte bra internal_eeprom_access2a ; Quit read_eeprom: ; reads from internal eeprom bcf EECON1,EEPGD bcf EECON1,CFGS bsf EECON1,RD return write_eeprom: ; writes into internal eeprom bcf EECON1,EEPGD bcf EECON1,CFGS bsf EECON1,WREN bcf INTCON,GIE ; even the RTC will be delayed 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 enable_rs232: ;IO Ports must be input in order to activate the module bsf TRISC,6 ; TX Pin bsf TRISC,7 ; RX Pin movlw b'00100100' ; BRGH=1 movwf TXSTA movlw b'10010000' movwf RCSTA movlw b'00001000' movwf BAUDCON clrf SPBRGH movlw SPBRG_VALUE ; Take care of the baud rate when changing Fosc! movwf SPBRG clrf RCREG clrf PIR1 bsf PIE1,RCIE ; enable interrupt for RS232 return disable_rs232: clrf TXSTA clrf RCSTA bcf PIE1,RCIE ; disable interrupt for RS232 bcf TRISC,6 ; TX Pin bcf TRISC,7 ; RX Pin bcf PORTC,6 ; TX Pin bcf PORTC,7 ; RX Pin return rs232_wait_tx: btfss RCSTA,SPEN ; Transmitter active? return ; No, return! nop btfss TXSTA,TRMT ; RS232 Busy? bra rs232_wait_tx ; yes, wait... return ; Done. rs232_get_byte: bcf PIR1,RCIF ; clear flag bcf rs232_recieve_overflow ; clear flag clrf uart1_temp rs232_get_byte2: clrf uart2_temp rs232_get_byte3: btfsc PIR1,RCIF ; data arrived? return ; data received nop ; Wait 1us * 255 * 255 = 65ms+x Timeout/Byte nop nop nop nop nop nop nop btfsc PIR1,RCIF ; data arrived? return nop nop nop nop nop nop nop nop btfsc PIR1,RCIF ; data arrived? return nop nop nop nop nop nop nop nop btfsc PIR1,RCIF ; data arrived? return nop nop nop nop nop nop nop nop btfsc PIR1,RCIF ; data arrived? return decfsz uart2_temp,F bra rs232_get_byte3 decfsz uart1_temp,F bra rs232_get_byte2 ; timeout occoured (about 20ms) bcf RCSTA,CREN ; Clear receiver status bsf RCSTA,CREN bsf rs232_recieve_overflow ; set flag return ; and return anyway uart_115k_bootloader: bcf PIE1,RCIE ; disable interrupt for RS232 call PLED_ClearScreen ; Clear screen movlw color_red call PLED_set_color ; Set to Red DISPLAYTEXTH d'302' ; Bootloader bcf RCSTA,CREN ; Clear receiver status bsf RCSTA,CREN bcf PIR1,RCIF ; clear flag movlw d'200' ; one second movwf uart1_temp uart_115k_bootloader0: btfsc PIR1,RCIF ; New byte in UART? bra uart_115k_bootloader1 ; Yes, Check if 0xC1 WAITMS d'5' decfsz uart1_temp,F bra uart_115k_bootloader0 uart_115k_bootloader2: DISPLAYTEXTH d'304' ; Aborted! movlw d'8' ; Two seconds movwf uart1_temp uart_115k_bootloader3: WAITMS d'250' decfsz uart1_temp,F bra uart_115k_bootloader3 goto restart uart_115k_bootloader1: movlw 0xC1 cpfseq RCREG ; 115200Baud Bootloader request? bra uart_115k_bootloader2 ; No, Abort DISPLAYTEXTH d'303' ; Yes, "Please wait!" clrf INTCON ; Interrupts disabled bcf PIR1,RCIF ; clear flag goto 0x17F56 ; Enter straight into bootloader. Good luck!