Mercurial > public > mk2
view code_part1/OSTC_code_asm_part1/interface.asm @ 644:420e62cd88ad
point to correct diluent location
author | heinrichsweikamp |
---|---|
date | Wed, 03 Oct 2012 13:12:02 +0200 |
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/>. ; Interface, Downloader, MD2 Hash send routine ; written by: Matthias Heinrichs, info@heinrichsweikamp.com ; written: 10/30/05 ; last updated: 12/27/07 ; known bugs: ; ToDo: uart_store_tissues: bcf uart_store_tissue_data ; Clear flag bcf PIE1,RCIE ; No Interrupt for UART bsf LED_blue call simulator_save_tissue_data ; store and set flag for automatic restore movlw 'k' ; send echo movwf TXREG ; When done call rs232_wait_tx ; wait for UART bcf LED_blue bsf PIE1,RCIE ; Interrupt for RS232 goto surfloop_loop ; return to surface loop ; reset Decodata reset_decodata: bcf uart_reset_decodata ; clear flag bcf PIE1,RCIE ; No Interrupt for UART bsf LED_blue call deco_clear_tissue ; Reset Decodata movlb b'00000001' ; select ram bank 1 call deco_calc_desaturation_time ; calculate desaturation time movlb b'00000001' ; select ram bank 1 call deco_clear_CNS_fraction ; clear CNS movlb b'00000001' ; select ram bank 1 clrf nofly_time+0 ; Clear nofly time clrf nofly_time+1 ; Clear nofly time movlw 'h' ; send echo movwf TXREG ; When done call rs232_wait_tx ; wait for UART bsf oneminupdate ; set flag, so display will be updated at once bcf LED_blue bsf PIE1,RCIE ; Interrupt for RS232 goto surfloop_loop ; return to surface loop ; send internal EEPROM BANK 0 via the UART send_int_eeprom_b0: bcf uart_send_int_eeprom ; clear flag movlw .0 ; Point to Bank0 rcall send_internal_eeprom1 ; sends complete 1st. page of internal EEPROM goto surfloop_loop ; return to surface loop ; send internal EEPROM BANK 1 via the UART send_int_eeprom_b1: bcf uart_send_int_eeprom2 ; clear flag movlw d'1' movwf EEADRH ; Point to Bank1 rcall send_internal_eeprom1 ; sends complete 2nd page of internal EEPROM goto surfloop_loop ; return to surface loop ; send internal EEPROM BANK 2 via the UART send_int_eeprom_b2: bcf uart_send_int_eeprom3 ; clear flag movlw d'2' movwf EEADRH ; Point to Bank1 rcall send_internal_eeprom1 ; sends complete 2nd page of internal EEPROM goto surfloop_loop ; return to surface loop ; Send firmware version and 16bytes MD2 hash via the UART send_md2_hash: bcf uart_send_hash ; clear flag bcf PIE1,RCIE ; No Interrupt for UART bsf LED_blue call rs232_wait_tx ; wait for UART movlw softwareversion_x ; Softwareversion movwf TXREG call rs232_wait_tx ; wait for UART movlw softwareversion_y ; Softwareversion movwf TXREG lfsr FSR2, char_O_hash movlw d'16' movwf temp1 send_md2_hash2: call rs232_wait_tx ; wait for UART movff POSTINC2,TXREG ; copy hash byte to TXREG decfsz temp1,F bra send_md2_hash2 ; loop 16 times bcf LED_blue bsf PIE1,RCIE ; Interrupt for RS232 goto surfloop_loop ; return to surface loop ; Sends first 256Byte from internal and first 32KB from external EEPROM using the UART module menu_interface: bcf dump_external_eeprom ; clear flag bcf PIE1,RCIE ; No Interrupt for UART bsf LED_blue call PLED_ClearScreen call PLED_topline_box WIN_INVERT .1 ; Init new Wordprocessor DISPLAYTEXT .15 ; "Interface" WIN_INVERT .0 ; Init new Wordprocessor movlw d'5' movwf uart1_temp menu_interface1: movlw 0xAA ; Startbytes movwf TXREG call rs232_wait_tx ; wait for UART decfsz uart1_temp bra menu_interface1 movlw 0x55 ; finish preamble movwf TXREG DISPLAYTEXT .16 ; "Start" call get_free_EEPROM_location ; movlw d'1' ; increase addwf eeprom_address+0,F movlw d'0' addwfc eeprom_address+1,F ;For debug only ;clrf eeprom_address+0,F ;clrf eeprom_address+1,F DISPLAYTEXT .17 ; "Data" movlw .0 ; Point to Bank0 rcall send_internal_eeprom1 ; sends complete 1st. page of internal EEPROM bsf LED_blue call rs232_wait_tx ; wait for UART movff batt_voltage+0,TXREG ; Battery call rs232_wait_tx ; wait for UART movff batt_voltage+1,TXREG ; Battery call rs232_wait_tx ; wait for UART movlw softwareversion_x ; Softwareversion movwf TXREG call rs232_wait_tx ; wait for UART movlw softwareversion_y ; Softwareversion movwf TXREG DISPLAYTEXT .18 ; "Header" setf uart1_temp ; low address counter setf uart2_temp ; high address counter menu_interface3: bsf SSPCON2,SEN ; Start condition call WaitMSSP movlw b'10101110' ; Bit0=0: WRITE, Bit0=1: READ, BLOCK2 btfss eeprom_address+1,7 ; Access Block2? movlw b'10100110' ; No, -> Bit0=0: WRITE, Bit0=1: READ, BLOCK1 movwf SSPBUF ; control byte call WaitMSSP btfsc SSPCON2,ACKSTAT bra menu_interface3 ; No Ack, try again! movff eeprom_address+1,SSPBUF ; High Address byte call WaitMSSP call I2C_WaitforACK movff eeprom_address+0,SSPBUF ; Low Address byte call WaitMSSP call I2C_WaitforACK bsf SSPCON2,RSEN ; Start condition call WaitMSSP movlw b'10101111' ; Bit0=0: WRITE, Bit0=1: READ, BLOCK2 btfss eeprom_address+1,7 ; Access Block2? movlw b'10100111' ; No, -> Bit0=0: WRITE, Bit0=1: READ, BLOCK1 movwf SSPBUF ; control byte call WaitMSSP call I2C_WaitforACK DISPLAYTEXT .19 ; "Profile" menu_interface2: call rs232_wait_tx ; wait for UART movlw d'1' addwf uart1_temp,F movlw d'0' addwfc uart2_temp,F ; Slow but safe... call I2CREAD2 ; same as I2CREAD but with automatic address increase movff SSPBUF, TXREG movlw 0xFF cpfseq uart2_temp ;=0xFFFF? bra menu_interface2 ; No, continue cpfseq uart1_temp ;=0xFFFF? bra menu_interface2 ; No, continue DISPLAYTEXT .20 ; Done. WAITMS d'250' bcf LED_blue bsf PIE1,RCIE ; Interrupt for RS232 goto surfloop ; back to surfacemode send_internal_eeprom1: movwf EEADRH ; Point to Bank "WREG" bcf PIE1,RCIE ; No Interrupt for UART bsf LED_blue clrf uart1_temp ; Send the total of 256bytes clrf EEADR ; Send bytes 0-255 from internal EEPROM send_internal_eeprom2: call read_eeprom ; read byte movff EEDATA,TXREG ; send byte incf EEADR,F ; increase pointer call rs232_wait_tx ; wait for UART decfsz uart1_temp,F ; until limit reached bra send_internal_eeprom2 clrf EEADRH ; Point to Bank0 bcf LED_blue bsf PIE1,RCIE ; Interrupt for RS232 return