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view src/ghostwriter.asm @ 654:75e90cd0c2c3
hwOS sport 10.77 release
| author | heinrichsweikamp |
|---|---|
| date | Thu, 14 Mar 2024 16:56:46 +0100 |
| parents | 4050675965ea |
| children |
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;============================================================================= ; ; File ghostwriter.asm * combined next generation V3.09.4k ; ; Ghostwriter (Log profile recorder) ; ; Copyright (c) 2011, JD Gascuel, heinrichs weikamp gmbh, all right reserved. ;============================================================================= ; HISTORY ; 2011-11-27 : [mH] Creation #include "hwos.inc" ; Mandatory header #include "shared_definitions.h" ; Mailbox from/to p2_deco.c #include "external_flash.inc" #include "surfmode.inc" #include "eeprom_rs232.inc" #include "strings.inc" #include "tft_outputs.inc" #include "divemode.inc" #include "rtc.inc" #include "logbook.inc" #include "convert.inc" extern deco_pull_tissues_from_vault ;----------------------------------------------------------------------------- ; Macros - write PROFILE Data to FLASH (all macros are bank-safe) FLASH_LIT_PROFILE macro literal ; write 1 byte LITERAL to FLASH profile data movlw literal rcall ghostwrite_WREG_profile_exec endm FLASH_WREG_PROFILE macro ; write 1 byte from WREG to FLASH profile data rcall ghostwrite_WREG_profile_exec endm FLASH_CC_PROFILE macro memory_address ; write 1 byte from memory to FLASH profile data MOVCC memory_address,WREG rcall ghostwrite_WREG_profile_exec endm FLASH_II_PROFILE macro memory_address ; write 2 byte from memory to FLASH profile data lfsr FSR0,memory_address rcall ghostwrite_II_profile_exec endm ;----------------------------------------------------------------------------- ; private local Variables CBLOCK local3 ; max size is 16 Byte !!! divisor_temperature ; divisor used to time the sampling of dive data divisor_deco ; divisor used to time the sampling of dive data divisor_supersat ; divisor used to time the sampling of dive data divisor_ppo2_sensors ; divisor used to time the sampling of dive data divisor_decoplan ; divisor used to time the sampling of dive data divisor_cns ; divisor used to time the sampling of dive data divisor_tank ; divisor used to time the sampling of dive data ProfileFlagByte ; used to store events ENDC ; used: 8 byte, remaining: 8 byte ;============================================================================= ghostwrite1 CODE ;============================================================================= ;----------------------------------------------------------------------------- ; prepare Data Recording ; global init_recording_params ; initialize profile recording parameters init_recording_params: movlw div_temperature ; get divisor for temperature storage movwf divisor_temperature ; initialize divisor movlw div_deco ; get divisor for deco status movwf divisor_deco ; initialize divisor movlw div_gf ; get divisor for saturation movwf divisor_supersat ; initialize divisor movlw div_decoplan ; get divisor for deco plan movwf divisor_decoplan ; initialize divisor movlw div_cns ; get divisor for CNS movwf divisor_cns ; initialize divisor IFDEF _rx_functions clrf WREG ; default to no tank data logging btfsc tr_functions_activated ; TR functions activated? movlw div_tank ; YES - get divisor for tank data movwf divisor_tank ; initialize divisor ENDIF IFDEF _external_sensor movlw div_ppo2_sensors ; get divisor for ppO2 sensor movwf divisor_ppo2_sensors ; initialize divisor by default btfsc FLAG_ccr_mode ; in CCR mode? bra init_recording_params_2 ; YES - keep divisor btfsc FLAG_pscr_mode ; NO - in pSCR mode? bra init_recording_params_2 ; YES - keep divisor clrf divisor_ppo2_sensors ; NO - clear divisor again ENDIF init_recording_params_2: return ;============================================================================= ghostwrite2 CODE ;============================================================================= ;----------------------------------------------------------------------------- ; sample and store a Set of Dive Data ; global store_dive_data store_dive_data: bcf trigger_sample_divedata ; clear flag ifndef _DEBUG ; In DEBUG compile, write simulated dives to logbook btfsc sensor_override_active ; in simulator mode? return ; YES - no dive data stored in simulator mode endif btfss FLAG_apnoe_mode ; in apnoe mode? bra store_dive_data_1 ; NO - proceed TSTOSS opt_store_apnoe ; YES - logging in apnoe mode enabled? return ; NO - done store_dive_data_1: ; store depth with every sample MOVII pressure_rel_cur_cached,mpr ; copy current relative pressure to MPR call convert_pres_to_depth ; convert pressure in [mbar] to depth in [cm] FLASH_II_PROFILE mpr ; store depth ; first, find out how many bytes will be appended to this sample set clrf ProfileFlagByte ; start with no bytes to append ; check extended information decfsz divisor_temperature,W ; check divisor if it will become 0, dump decremented value to WREG bra check_extended1 ; NO - skip movlw infolength_temperature ; YES - get length of extra data addwf ProfileFlagByte,F ; - add to ProfileFlagByte check_extended1: decfsz divisor_deco,W ; check divisor if it will become 0, dump decremented value to WREG bra check_extended2 ; NO - skip movlw infolength_deco ; YES - get length of extra data addwf ProfileFlagByte,F ; - add to ProfileFlagByte check_extended2: decfsz divisor_supersat,W ; check divisor if it will become 0, dump decremented value to WREG bra check_extended3 ; NO - skip movlw infolength_gf ; YES - get length of extra data addwf ProfileFlagByte,F ; - add to ProfileFlagByte check_extended3: IFDEF _external_sensor decfsz divisor_ppo2_sensors,W ; check divisor if it will become 0, dump decremented value to WREG bra check_extended4 ; NO - skip movlw infolength_ppo2_sensors ; YES - get length of extra data addwf ProfileFlagByte,F ; - add to ProfileFlagByte ENDIF check_extended4: decfsz divisor_decoplan,W ; check divisor if it will become 0, dump decremented value to WREG bra check_extended5 ; NO - skip movlw infolength_decoplan ; YES - get length of extra data addwf ProfileFlagByte,F ; - add to ProfileFlagByte check_extended5: decfsz divisor_cns,W ; check divisor if it will become 0, dump decremented value to WREG bra check_extended6 ; NO - skip movlw infolength_cns ; YES - get length of extra data addwf ProfileFlagByte,F ; - add to ProfileFlagByte check_extended6: IFDEF _rx_functions decfsz divisor_tank,W ; check divisor if it will become 0, dump decremented value to WREG bra check_extended7 ; NO - skip movlw infolength_tank ; YES - get length of extra data addwf ProfileFlagByte,F ; - add to ProfileFlagByte ENDIF check_extended7: ; second, check global event flag btfss event_occured ; check global event flag bra store_dive_data3 ; no event incf ProfileFlagByte,F ; add one byte (the event byte 1) clrf event_byte1 ; reset event byte 1 clrf event_byte2 ; reset event byte 2 movf alarm_type,W ; type of alarm Bit 0-3 addwf event_byte1,F ; copy to event byte 1, bit 0-3 clrf alarm_type ; reset alarm type ; third, check events and add additional bytes btfss event_gas_change_gas6 ; did a change to gas 6 occur? bra check_event2 ; NO movlw d'2' ; YES - set information length addwf ProfileFlagByte,F ; - add to ProfileFlagByte bsf event_byte1,4 ; - set flag in event byte 1 check_event2: btfss event_gas_change ; did a gas change occur? bra check_event3 ; NO movlw d'1' ; YES - set information length addwf ProfileFlagByte,F ; - add to ProfileFlagByte bsf event_byte1,5 ; - set flag in event byte 1 check_event3: IFDEF _ccr_pscr btfss event_SP_change ; did a setpoint change occur? bra check_event4 ; NO movlw d'1' ; YES - set information length addwf ProfileFlagByte,F ; - add to ProfileFlagByte bsf event_byte1,6 ; - set flag in event byte 1 ENDIF check_event4: IFDEF _ccr_pscr btfss event_bailout ; did a gas change due to bailout occur? bra check_event5 movlw d'2' ; information length addwf ProfileFlagByte,F ; add to ProfileFlagByte bsf event_byte2,0 ; set flag in event byte 2 bsf event_byte1,7 ; =1: another event byte is available ENDIF check_event5: ; more events in future time... store_dive_data3: btfsc event_byte1,7 ; is another event byte available? incf ProfileFlagByte,F ; YES - add one byte (the event byte 2) btfsc event_occured ; global event flag set? bsf ProfileFlagByte,7 ; YES - set event byte 1 flag in ProfileFlagByte FLASH_CC_PROFILE ProfileFlagByte ; store ProfileFlagByte btfss event_occured ; global event flag set? bra store_dive_data4 ; NO - no events to store ; store the EventByte(s) + additional bytes now FLASH_CC_PROFILE event_byte1 ; store 1st event byte btfss event_byte1,7 ; another event byte available? bra store_dive_data3a ; NO - skip FLASH_CC_PROFILE event_byte2 ; YES - store 2nd event byte store_dive_data3a: btfss event_gas_change_gas6 ; did a change to gas 6 occur? bra store_dive_data3b ; NO - skip FLASH_CC_PROFILE char_I_O2_ratio ; YES - store gas 6 O2 ratio IFDEF _helium FLASH_CC_PROFILE char_I_He_ratio ; - store gas 6 He ratio ELSE FLASH_LIT_PROFILE .0 ; - store He ratio as zero ENDIF bcf event_gas_change_gas6 ; - clear event flag store_dive_data3b: btfss event_gas_change ; did a gas change occur? bra store_dive_data3c ; NO - skip IFDEF _ccr_pscr movf active_dil,W ; YES - get active diluent by default btfsc FLAG_oc_mode ; - in OC mode? movf active_gas,W ; YES - replace by active gas btfsc bailout_mode ; - in bailout? ENDIF movf active_gas,W ; (YES) - get (replace with) active OC (bailout) gas FLASH_WREG_PROFILE ; - store active gas/diluent bcf event_gas_change ; - clear event flag store_dive_data3c: IFDEF _ccr_pscr btfss event_SP_change ; did a setpoint change occur? bra store_dive_data3d ; NO - skip FLASH_CC_PROFILE char_I_const_ppO2 ; YES - store setpoint bcf event_SP_change ; - clear event flag ENDIF store_dive_data3d: IFDEF _ccr_pscr btfss event_bailout ; did a gas change due to bailout occur? bra store_dive_data4 ; NO - skip FLASH_CC_PROFILE char_I_O2_ratio ; YES - store O2 ratio of bailout gas IFDEF _helium FLASH_CC_PROFILE char_I_He_ratio ; - store He ratio of bailout gas ELSE FLASH_LIT_PROFILE .0 ; - store He ratio as zero ENDIF ; helium bcf event_bailout ; - clear event flag ENDIF ; _ccr_pscr store_dive_data4: ; Store extended information decfsz divisor_temperature,F ; decrement timer, did it became 0 ? bra store_dive_data4a ; NO - skip rcall store_dive_temperature ; YES - store temperature store_dive_data4a: btfsc divisor_temperature,7 ; did the divisor under-run? clrf divisor_temperature ; YES - reset timer decfsz divisor_deco,F ; decrement timer, did it became 0 ? bra store_dive_data4b ; NO - skip rcall store_dive_decodata ; YES - store deco data store_dive_data4b: btfsc divisor_deco,7 ; did the timer under-run? clrf divisor_deco ; YES - reset timer decfsz divisor_supersat,F ; decrement timer, did it became 0 ? bra store_dive_data4c ; NO - skip rcall store_dive_supersat ; YES - store supersaturation store_dive_data4c: btfsc divisor_supersat,7 ; did the timer under-run? clrf divisor_supersat ; YES - reset timer IFDEF _external_sensor decfsz divisor_ppo2_sensors,F ; decrement timer, did it became 0 ? bra store_dive_data4d ; NO - skip rcall store_dive_ppO2_sensors ; YES - store sensor data store_dive_data4d: btfsc divisor_ppo2_sensors,7 ; did the timer under-run? clrf divisor_ppo2_sensors ; YES - reset timer ENDIF decfsz divisor_decoplan,F ; decrement timer, did it became 0 ? bra store_dive_data4e ; NO - skip rcall store_dive_decoplan ; YES - store deco plan store_dive_data4e: btfsc divisor_decoplan,7 ; did the timer under-run? clrf divisor_decoplan ; YES - reset timer decfsz divisor_cns,F ; decrement timer, did it became 0 ? bra store_dive_data4f ; NO - skip rcall store_dive_cns ; YES - store CNS store_dive_data4f: btfsc divisor_cns,7 ; did the timer under-run? clrf divisor_cns ; YES - reset timer IFDEF _rx_functions decfsz divisor_tank,F ; decrement timer, did it became 0 ? bra store_dive_data4g ; NO - skip rcall store_dive_tank ; YES - store tank pressure store_dive_data4g: btfsc divisor_tank,7 ; did the timer under-run? clrf divisor_tank ; YES - reset timer ENDIF store_dive_data5: bcf event_occured ; clear the global event flag clrf event_byte1 ; reset event byte 1 clrf event_byte2 ; reset event byte 2 return ; done IFDEF _rx_functions store_dive_tank: FLASH_II_PROFILE int_O_tank_pressure ; store tank pressure movlw div_tank ; get sampling rate movwf divisor_tank ; reload timer return ENDIF store_dive_cns: MOVII int_O_CNS_current,mpr ; get current CNS bcf mpr+1,int_warning_flag ; clear warning flag bcf mpr+1,int_attention_flag ; clear attention flag FLASH_II_PROFILE mpr ; store CNS movlw div_cns ; get sampling rate movwf divisor_cns ; reload timer return store_dive_decoplan: ; store the deco plan lfsr FSR1,char_O_deco_time_for_log ; load base address of deco stop times table movlw NUM_STOPS_LOG ; load size of deco stop times table movwf lo ; copy size to loop counter store_dive_decoplan_loop: movf POSTINC1,W ; get a stop time FLASH_WREG_PROFILE ; store it decfsz lo,F ; decrement loop counter, became zero? bra store_dive_decoplan_loop ; NO - loop movlw div_decoplan ; YES - get sampling rate movwf divisor_decoplan ; - reload timer return ; - done IFDEF _external_sensor store_dive_ppO2_sensors: FLASH_CC_PROFILE sensor1_ppO2 ; store sensor 1 ppO2 (in 0.01 bar steps) SMOVII sensor1_mv,mpr ; ISR-safe 2 byte copy of o2_mv_sensor FLASH_II_PROFILE mpr ; store sensor 1 mV FLASH_CC_PROFILE sensor2_ppO2 ; store sensor 2 ppO2 (in 0.01 bar steps) SMOVII sensor2_mv,mpr ; ISR-safe 2 byte copy of o2_mv_sensor FLASH_II_PROFILE mpr ; store sensor 2 mV FLASH_CC_PROFILE sensor3_ppO2 ; store sensor 3 ppO2 (in 0.01 bar steps) SMOVII sensor3_mv,mpr ; ISR-safe 2 byte copy of o2_mv_sensor FLASH_II_PROFILE mpr ; store sensor 3 mV movlw div_ppo2_sensors ; get sampling rate movwf divisor_ppo2_sensors ; reload timer return ; done ENDIF store_dive_supersat: FLASH_CC_PROFILE int_O_lead_supersat+0 ; store leading tissue's supersaturation (value is limited to 255, only lower byte is used for the value) movlw div_gf ; get sampling rate movwf divisor_supersat ; reload timer return ; done store_dive_decodata: ; Check if deco stops are necessary movff char_O_deco_depth,WREG ; get depth of the first stop tstfsz WREG ; depth of first stop > 0 m (aka in deco) ? bra store_dive_decodata_deco ; YES ;bra store_dive_decodata_ndl ; NO store_dive_decodata_ndl: FLASH_LIT_PROFILE .0 ; store depth of first stop as zero (encodes NDL dive) FLASH_CC_PROFILE int_O_NDL_norm+0 ; store NDL time from normal plan bra store_dive_decodata_common store_dive_decodata_deco: FLASH_CC_PROFILE char_O_deco_depth ; store depth of the first stop in meters FLASH_CC_PROFILE char_O_deco_time ; store duration of the first stop in minutes ;bra store_dive_decodata_common store_dive_decodata_common: movlw div_deco ; get sampling rate movwf divisor_deco ; reload timer return ; done store_dive_temperature: SMOVII temperature_cur,mpr ; ISR-safe 2 byte copy of current temperature FLASH_II_PROFILE mpr ; store temperature movlw div_temperature ; get sampling rate movwf divisor_temperature ; reload timer return ; done ; ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ; flash writing through the macros ; ghostwrite_II_profile_exec: movf POSTINC0,W ; get byte into WREG call ext_flash_write_byte_0x20_incdc ; write to external flash and increment ext_flash_dive_counter movf POSTINC0,W ; get next byte into WREG ghostwrite_WREG_profile_exec: goto ext_flash_write_byte_0x20_incdc ; write to external flash and increment ext_flash_dive_counter (and return) ; ; ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ;----------------------------------------------------------------------------- ; finish Dive Data Recording and write Header ; global ghostwriter_end_dive ghostwriter_end_dive: ; save end-of-profile pointer for later storage in EEPROM MOVTT ext_flash_address,ext_flash_log_pointer ; remember last custom view shown in dive mode movff active_customview,customview_divemode ; reset gas/diluent lost & staged flags lfsr FSR1,opt_gas_type ; load FSR1 with base address of opt_gas_type IFDEF _ccr_pscr movlw 2*NUM_GAS ; load loop counter with number of gases + diluents = 2*5 ELSE movlw NUM_GAS ; load loop counter with number of gases = 5 ENDIF ghostwriter_end_dive_0: bcf INDF1,gas_lost ; clear lost flag and keep index at present gas/dil bcf POSTINC1,gas_staged ; clear staged flag and advance index to next gas/dil decfsz WREG ; decrement loop counter and check if it became zero bra ghostwriter_end_dive_0 ; NO - not yet, loop ; clear bailout state (if applicable) bcf bailout_mode ; check if dive is worth storage at all btfss divetime_longer_1min ; dive longer than one minute? goto ghostwriter_end_dive_common ; NO - discard everything ifndef _DEBUG ; in DEBUG compile, write simulated dives to logbook btfsc sensor_override_active ; in simulator mode? goto ghostwriter_end_dive_common ; YES - discard everything endif ; calculate desaturation time call deco_calc_desaturation_time ; call the C-code banksel common ; back to bank common ; condition apnoe mode btfss FLAG_apnoe_mode ; are we in apnoe mode? bra ghostwriter_end_dive_00 ; NO - proceed MOVII apnoe_max_pressure,pressure_rel_max_cached ; YES - get max pressure of all yoyo dives ghostwriter_end_dive_00: ; compute max depth for storage and last dive statistics MOVII pressure_rel_max_cached,mpr ; get max pressure call convert_pres_to_depth ; convert pressure in [mbar] to depth in [cm] MOVII mpr,lastdive_maxdepth ; store for last dive statistics ; compute avg depth for storage and last dive statistics MOVII pressure_rel_avg_total,mpr ; get average pressure call convert_pres_to_depth ; convert pressure in [mbar] to depth in [cm] MOVII mpr,lastdive_avgdepth ; store in last dive statistics ; get dive duration for last dive statistics SMOVTT counted_divetime_mins,lastdive_duration ; ISR-safe 3 byte copy of minutes:2 and seconds ; check logging of apnoe mode btfss FLAG_apnoe_mode ; are we in apnoe mode? bra ghostwriter_end_dive_1 ; NO - proceed TSTOSS opt_store_apnoe ; YES - logging in apnoe mode enabled? goto ghostwriter_end_dive_cleanup ; NO - skip logging but do the after-dive cleanup ghostwriter_end_dive_1: ;---- dive finished (and longer than one minute) ------------------------- ; close profile recording FLASH_LIT_PROFILE 0xFD ; write end-of-profile code, byte 1 FLASH_LIT_PROFILE 0xFD ; write end-of-profile code, byte 2 ; save end-of-profile pointer for later storage in header and EEPROM MOVTT ext_flash_address,ext_flash_log_pointer ; go back again to start of profile data to store the profile length (number of recorded bytes) call ghostwriter_load_pointer ; skip internal "0xFA 0xFA #Divenumber:2 0xFA 0xFA" header, i.e. the first 6 bytes EXT_FLASH_INC_ADDRESS_0x20 d'6' ; store dive length (NO ext_flash_length_counter increase, NO page delete) movf ext_flash_length_counter+0,W ; get length of profile data, low byte call ext_flash_write_byte_0x20_nodel ; write to flash movf ext_flash_length_counter+1,W ; get length of profile data, high byte call ext_flash_write_byte_0x20_nodel ; write to flash movf ext_flash_length_counter+2,W ; get length of profile data, upper byte call ext_flash_write_byte_0x20_nodel ; write to flash ; ... profile recording done ; read, increment, and store updated total number of dives call eeprom_total_dives_read ; read total number of dives INCI mpr ; increment by one call eeprom_total_dives_write ; store updated number of total dives ; prepare header CLRR header_buffer,.256 ; initialize header to all zeros ; store header start code MOVLI 0xFAFA,mpr MOVII mpr,header_buffer+index_header_start ; store pointer to begin of dive profile EEPROM_TT_READ eeprom_log_pointer,mpr MOVTT mpr,header_buffer+index_profile_start_address ; store pointer to end of dive profile MOVTT ext_flash_log_pointer,header_buffer+index_profile_end_address ; write the profile format version (defined in hwos.inc) movlw logbook_profile_version MOVCC WREG,header_buffer+index_profile_version ; store dive length (in units of recording entries) MOVTT ext_flash_length_counter,header_buffer+index_profile_byte_count ; store time time & date of dive begin MOVTT start_year,header_buffer+index_date MOVTT start_hour,header_buffer+index_time ; store max depth MOVII lastdive_maxdepth,header_buffer+index_max_depth ; store dive time (ISR-safe 3 byte copy of minutes:2 and seconds) SMOVTT counted_divetime_mins,header_buffer+index_divetime ; store minimum temperature MOVII temperature_min,header_buffer+index_min_temp ; store surface pressure (as used by deco engine) MOVII int_I_pres_surface,header_buffer+index_surface_press ; store desaturation time MOVII int_O_desaturation_time,header_buffer+index_desattime ; store gases / diluents lfsr FSR1,header_buffer+index_gas1 ; load FSR1 with base address of gases / diluents in header IFDEF _ccr_pscr btfsc FLAG_ccr_mode ; in CCR mode? bra end_dive_gaslist_diluent ; YES - write diluent gas list btfsc FLAG_pscr_mode ; NO - in pSCR mode? bra end_dive_gaslist_diluent ; YES - write diluent gas list ;bra end_dive_gaslist_gas ; NO - write OC gas list ENDIF end_dive_gaslist_gas: ; write OC gases lfsr FSR0,opt_gas_O2_ratio-.1 ; set base address to (opt_gas_O2_ratio - 1) because of pre-increment statement bra end_dive_gaslist_common ; write all 5 OC gases IFDEF _ccr_pscr end_dive_gaslist_diluent: ; write diluents lfsr FSR0,opt_dil_O2_ratio-.1 ; set base address to (opt_dil_O2_ratio - 1) because of pre-increment statement ;bra end_dive_gaslist_common ; write all 5 diluents ENDIF end_dive_gaslist_common: ; helper function for writing gas list entries ; Memory Map: ; ------------------------- ; opt_gas_O2_ratio res 5 ; opt_dil_O2_ratio res 5 ; opt_gas_He_ratio res 5 ; opt_dil_He_ratio res 5 ; opt_gas_type res 5 ; opt_dil_type res 5 ; opt_gas_change res 5 ; opt_dil_change res 5 movlw .5 ; 5 gases to store movwf lo ; use lo as counter end_dive_gaslist_loop: movff PREINC0,POSTINC1 ; increment FSR0 address and copy O2 ratio to buffer movlw .10 ; offset for H2 ratios movff PLUSW0,POSTINC1 ; copy H2 ratio to buffer movlw .30 ; offset for change depths movff PLUSW0,POSTINC1 ; copy change depth to buffer movlw .20 ; offset for types movff PLUSW0,POSTINC1 ; copy type to buffer decfsz lo ; decrement counter, did it became 0 ? bra end_dive_gaslist_loop ; NO - loop ; store major firmware version movlw fw_version_major MOVCC WREG,header_buffer+index_firmware+0 ; store minor firmware version movlw fw_version_minor MOVCC WREG,header_buffer+index_firmware+1 ; store battery voltage MOVII batt_voltage,header_buffer+index_battery_voltage ; store sampling rate MOVCC sampling_rate,header_buffer+index_samplingrate ; store CNS at beginning of dive MOVII CNS_start,header_buffer+index_cns_start ; store supersaturations MOVCC supersat_start, header_buffer+index_supersat_start MOVCC int_O_lead_supersat+0,header_buffer+index_supersat_end ; low byte only needed ; store logbook offset call eeprom_log_offset_read MOVII mpr,header_buffer+index_logoffset ; increment log offset rcall increment_log_offset ; store battery level MOVCC batt_percent,header_buffer+index_batt_percent IFDEF _ccr_pscr ; store setpoints lfsr FSR0,opt_setpoint_cbar ; base address of ppO2 values lfsr FSR1,opt_setpoint_change ; base address of change depths lfsr FSR2,header_buffer+index_sp1 ; base address of setpoint data in header buffer movlw .5 ; 5 setpoints (ppO2, depth) to be stored movwf lo ; use lo as counter end_dive_sp_loop: movff POSTINC0,POSTINC2 ; copy ppO2 value movff POSTINC1,POSTINC2 ; copy change depth decfsz lo ; decrement counter, did it became 0 ? bra end_dive_sp_loop ; NO - loop ELSE ; just leave the zero bytes written during header initialization in place ENDIF ; store salinity MOVCC opt_salinity,header_buffer+index_salinity ; store CNS at end of dive MOVII int_O_CNS_current,mpr ; get CNS into mpr bcf mpr+1,int_warning_flag ; clear warning flag bcf mpr+1,int_attention_flag ; clear attention flag MOVII mpr,header_buffer+index_cns_end ; store CNS ; store average depth MOVII lastdive_avgdepth,header_buffer+index_avr_depth ; store total dive time (ISR-safe 2 byte copy) SMOVII total_divetime_secs,header_buffer+index_total_seconds ; store GF low/high or saturation/desaturation multiplier movff char_I_model,WREG ; get deco model xorlw .1 ; deco model = ZH-L16-GF ? bz end_dive_gf ; YES - store GFs ;bnz end_dive_sat ; NO - store sat/desat end_dive_sat: movff char_I_saturation_multiplier, header_buffer+index_factor_sat_desat+0 ; saturation multiplier movff char_I_desaturation_multiplier,header_buffer+index_factor_sat_desat+1 ; desaturation multiplier bra end_dive_sat_gf_done ; continue end_dive_gf: movff char_I_GF_Low_percentage, header_buffer+index_gf_lo_hi+0 ; GF low movff char_I_GF_High_percentage, header_buffer+index_gf_lo_hi+1 ; GF high ;bra end_dive_sat_gf_done ; continue end_dive_sat_gf_done: ; store deco model MOVCC char_I_model,header_buffer+index_decomodel ; store total dive number call eeprom_total_dives_read MOVII mpr,header_buffer+index_total_dives ; store dive mode MOVCC opt_dive_mode,header_buffer+index_divemode ; store tissue data - total tissue pressure lfsr FSR1,char_O_tissue_pressure ; load base address of total tissue pressures (chars) lfsr FSR2,header_buffer+index_tissue_pres_total ; load corresponding base address in header bsf aux_flag ; clear bit 7 (on-/off-gassing flag bit) movlw .16 ; 16 tissues to copy rcall copy_tissuepres_to_header ; store the tissue pressures ; store tissue data - N2 floats lfsr FSR1,0x700 ; load base address of N2 tissue pressures (floats) ;lfsr FSR2,header_buffer+index_tissue_pres_N2 ; load corresponding base address in header bcf aux_flag ; do not touch bit 7 movlw .64 ; 16 tissue x 4 byte/tissue to copy rcall copy_tissuepres_to_header ; store the tissue pressures ; store tissue data - tissue supersaturations lfsr FSR1,char_O_tissue_saturation ; load base address of tissue saturations (chars) ;lfsr FSR2,header_buffer+index_tissue_supersat ; load corresponding base address in header bsf aux_flag ; clear bit 7 (on-/off-gassing flag bit) movlw .16 ; 16 tissues to copy rcall copy_tissuepres_to_header ; store the tissue pressures ; store tissue data - He floats lfsr FSR1,0x740 ; load base address of He tissue pressures (floats) ;lfsr FSR2,header_buffer+index_tissue_pres_He ; load corresponding base address in header bcf aux_flag ; do not touch bit 7 movlw .64 ; 16 tissue x 4 byte/tissue to copy rcall copy_tissuepres_to_header ; store the tissue pressures ; store last stop depth MOVCC char_I_last_stop_depth,header_buffer+index_last_stop ; store deco distance ; -> the deco distance concept is disposed of, so just store a hard-coded zero ; --> so just leave the zero written during header initialization in place ;clrf WREG ;MOVCC WREG,header_buffer+index_decodistance IFDEF _external_sensor ; store last HUD data (ISR-safe 3 byte copy) SMOVTT hud_status_byte,header_buffer+index_hud_data ELSE ; just leave the zero bytes in place ENDIF ; store battery gauge registers [nAs] (ISR-safe 6 byte copy) SMOVSS battery_gauge,header_buffer+index_battery_gauge ; write header stop code MOVLI 0xFBFB,mpr MOVII mpr,header_buffer+index_header_stop ; store header in the FLASH call eeprom_total_dives_read ; read total number of dives decf mpr+0,W ; compute index from low(total number of dives) call log_header_addr_by_index ; compute header start address call ext_flash_erase_4kB ; erase the FLASH 4 kB block where the header will be stored FLASH_RR_WRITE header_buffer,.256 ; write the header to the FLASH ghostwriter_end_dive_cleanup: call eeprom_deco_data_write ; update deco data in EEPROM bsf reset_surface_interval ; request ISR to reset the surface interval timer ghostwriter_end_dive_common: ; memorize current ext_flash_log_pointer in EEPROM EEPROM_TT_WRITE ext_flash_log_pointer,eeprom_log_pointer ; terminate simulator mode btfss simulatormode ; in simulator mode, i.e. need to restore tissue pressures? bra ghostwriter_end_dive_common_1 ; NO - continue bcf simulatormode ; YES - end simulator mode bcf sensor_override_request ; - request ISR to terminate the simulator mode btfsc sensor_override_active ; - has the ISR confirmed termination of simulator mode? bra $-2 ; NO - not yet, loop waiting for the ISR ifndef _DEBUG ; in DEBUG compile, keep tissue pressures from simulated dives call deco_pull_tissues_from_vault ; - restore tissue pressures (C-code) banksel common ; - back to bank common endif ghostwriter_end_dive_common_1: ; restart the timebase bsf reset_timebase ; request ISR to reset the timebase ; btfsc reset_timebase ; has the ISR confirmed reset of timebase? ; bra $-2 ; NO - not yet, loop waiting for the ISR ; update battery gauge into EEPROM call eeprom_battery_gauge_write ; catch-up simulator runtime / calculate deco data for surface mode movff simulator_time,char_I_dive_interval ; get the simulator runtime, reads 0 if exiting from a real dive call deco_calc_dive_interval ; catch up with tissue desaturation when exiting from simulator, ; else calculates for 2 seconds only when exiting from a real dive, ; needed to update CNS, GF and tissue graphics for surface display. call deco_calc_desaturation_time ; calculate desaturation and no-fly/no-altitude time after catch-up banksel common ; back to bank common ; the last surface pressure sample may have been taken while being submerged a bit already, ; therefore it will be replaced by the sample taken one more before, which is the one that ; became the surface pressure reference used while this dive. MOVII pressure_abs_ref,pressure_abs_sampled ; done with post-dive operations, return to surface loop goto surfloop ;----------------------------------------------------------------------------- ; Helper Function - copy Tissue Pressures ; copy_tissuepres_to_header: movwf eeprom_loop ; initialize loop counter (EEPROM var used here) copy_tissuepres_to_header_loop: movf POSTINC1,W ; copy tissue pressure to WREG btfsc aux_flag ; shall clear bit 7 ? bcf WREG,7 ; YES - clear bit for on-gassing/off-gassing movwf POSTINC2 ; copy WREG to header buffer decfsz eeprom_loop,F ; decrement loop counter, all done? bra copy_tissuepres_to_header_loop ; NO - loop return ; YES - done ;----------------------------------------------------------------------------- ; Helper Function - increment Log Offset ; increment_log_offset: call eeprom_log_offset_read ; read current logbook offset into mpr movf mpr+0,W ; get low byte iorwf mpr+1,W ; inclusive-or with high byte, result zero? bz increment_log_offset_1 ; YES - skip offset correction INCI mpr ; NO - increment offset call eeprom_log_offset_write ; - store incremented offset as new offset increment_log_offset_1: return ; done ;----------------------------------------------------------------------------- ; start Dive Data Recording (write short Header with Dive Number) ; global ghostwriter_short_header ghostwriter_short_header: ; get pointer for profile storing rcall ghostwriter_load_pointer ; the following code is used to write a clean new dive after the previous ; hasn't been stored correctly. e.g. after a power loss during the dive FLASH_II_READ_0x20 mpr ; read first two bytes incfsz mpr+0,F ; is 1st byte = 0xFF ? bra ghostwriter_short_header_init ; NO - initialize page incfsz mpr+1,F ; - is 2nd byte = 0xFF ? bra ghostwriter_short_header_init ; NO - initialize page bra ghostwriter_short_header_2 ; YES - page is clean, can continue ghostwriter_short_header_init: clrf ext_flash_address+0 ; low byte: set to zero movlw 0xF0 ; high byte: keep upper nibble, set lower nibble to zero andwf ext_flash_address+1,F ; ... movlw .16 ; increment ext_flash_address to next multiple of 16*256 addwf ext_flash_address+1,F ; ... movlw .0 ; ... addwfc ext_flash_address+2,F ; ... movlw 0x20 ; at address 0x200000 ? cpfseq ext_flash_address+2 ; ... bra ghostwriter_short_header_init_2 ; NO - continue clrf ext_flash_address+2 ; YES - rollover to 0x000000 ghostwriter_short_header_init_2: ; update pointer in EEPROM EEPROM_TT_WRITE ext_flash_address,eeprom_log_pointer ghostwriter_short_header_2: ; reload the pointer (required after above checks) rcall ghostwriter_load_pointer ; reload ext_flash_address from EEPROM ; clear dive length counter CLRT ext_flash_length_counter ; write short start header with dive number into profile memory FLASH_LIT_PROFILE 0xFA ; 1st byte FLASH_LIT_PROFILE 0xFA ; 2nd byte ; load total number of dives call eeprom_total_dives_read ; read total number of dives into mpr:2 incf mpr+0,F ; increment low byte + 1 FLASH_II_PROFILE mpr ; write mpr:2 to FLASH ; close short header FLASH_LIT_PROFILE 0xFA ; 1st byte FLASH_LIT_PROFILE 0xFA ; 2nd byte ; Keep room for dive length ext_flash_length_counter:3 (stored at the end of the dive), ; writing 0xFF here is mandatory because 0xFF can be overwritten when closing the dive. ; The stored dive length counter itself is not part of the counted dive length. setf WREG ; write 0xFF call ext_flash_write_byte_0x20 ; write to profile (no dive length increment) setf WREG ; write 0xFF call ext_flash_write_byte_0x20 ; write to profile (no dive length increment) setf WREG ; write 0xFF call ext_flash_write_byte_0x20 ; write to profile (no dive length increment) ; store sizes and sampling rates of recording datasets FLASH_CC_PROFILE sampling_rate ; get general sampling rate FLASH_LIT_PROFILE .7 ; number of additional datasets FLASH_LIT_PROFILE .0 ; type: temperature FLASH_LIT_PROFILE infolength_temperature ; get size of recording data FLASH_LIT_PROFILE div_temperature ; get sampling rate FLASH_LIT_PROFILE .1 ; type: +++ FLASH_LIT_PROFILE infolength_deco ; get size of recording data FLASH_LIT_PROFILE div_deco ; get sampling rate FLASH_LIT_PROFILE .2 ; type: saturation FLASH_LIT_PROFILE infolength_gf ; get size of recording data FLASH_LIT_PROFILE div_gf ; get sampling rate FLASH_LIT_PROFILE .3 ; type: ppO2 sensor data FLASH_LIT_PROFILE infolength_ppo2_sensors ; get size of recording data movlw .0 ; default to no ppO2 data IFDEF _external_sensor btfsc FLAG_ccr_mode ; in CCR mode? movlw div_ppo2_sensors ; YES - get sampling rate btfsc FLAG_pscr_mode ; in pSCR mode? movlw div_ppo2_sensors ; YES - get sampling rate ENDIF FLASH_WREG_PROFILE ; WREG -> profile in ext. flash FLASH_LIT_PROFILE .4 ; type: deco plan (stop times) FLASH_LIT_PROFILE infolength_decoplan ; get size of recording data FLASH_LIT_PROFILE div_decoplan ; get sampling rate FLASH_LIT_PROFILE .5 ; type: CNS FLASH_LIT_PROFILE infolength_cns ; get size of recording data FLASH_LIT_PROFILE div_cns ; get sampling rate FLASH_LIT_PROFILE .6 ; type: tank pressure FLASH_LIT_PROFILE infolength_tank ; get size of recording data movlw .0 ; default to no tank pressure data IFDEF _rx_functions btfsc tr_functions_activated ; TR functions activated? movlw div_tank ; YES - get sampling rate ENDIF FLASH_WREG_PROFILE ; WREG -> profile in ext. flash return ; done ;----------------------------------------------------------------------------- ; Helper Function - load ext_flash_address from EEPROM ; ghostwriter_load_pointer: EEPROM_TT_READ eeprom_log_pointer,ext_flash_address return ;----------------------------------------------------------------------------- END