static vsf_err_t hcs12_flash_cmd(uint8_t param_num, uint16_t *param)
{
uint8_t i;
for (i = 0; i < param_num; i++)
{
if (hcs12_write_byte(HCS12_FTMR_CCOBIX_ADDR, i))
{
return VSFERR_FAIL;
}
// param is in little endian, change to big endian first
if (hcs12_write_word(HCS12_FTMR_FCCOB_ADDR, param[i]))
{
return VSFERR_FAIL;
}
}
// launch the command
if (hcs12_write_byte(HCS12_FTMR_FSTAT_ADDR, HCS12_FTMR_FSTAT_FPVIOL
| HCS12_FTMR_FSTAT_FACCERR | HCS12_FTMR_FSTAT_CCIF))
{
return VSFERR_FAIL;
}
// poll
poll_start();
hcs12_read_word(HCS12_FTMR_FSTAT_ADDR, NULL);
poll_fail(1, HCS12_FTMR_FSTAT_FPVIOL, HCS12_FTMR_FSTAT_FPVIOL);
poll_fail(1, HCS12_FTMR_FSTAT_FACCERR, HCS12_FTMR_FSTAT_FACCERR);
poll_ok(1, HCS12_FTMR_FSTAT_CCIF, HCS12_FTMR_FSTAT_CCIF);
poll_end();
return VSFERR_NONE;
}
void AVR_JTAG_WaitComplete(uint16_t cmd)
{
uint16_t dr;
poll_start();
AVR_JTAG_PROG_INS(cmd);
poll_ok(0, 0x02, 0x02);
poll_end();
}
vsf_err_t c8051f_c2_addr_poll(uint8_t mask, uint8_t value, uint16_t poll_cnt)
{
poll_start(poll_cnt * 10);
c2_read_ir(NULL);
poll_ok(0, mask, value);
poll_end();
return VSFERR_NONE;
}
static vsf_err_t hcs08_flash_cmd(uint16_t addr, uint8_t value, uint8_t cmd)
{
if (hcs08_write_byte(addr, value) ||
hcs08_write_byte(HCS08_FCMD_ADDR, cmd) ||
hcs08_write_byte(HCS08_FSTAT_ADDR,
HCS08_FSTAT_FCBEF | HCS08_FSTAT_FPVIOL | HCS08_FSTAT_FACCERR))
{
return VSFERR_FAIL;
}
// poll
poll_start();
hcs08_read_byte(HCS08_FSTAT_ADDR, NULL);
poll_fail(0, HCS08_FSTAT_FPVIOL, HCS08_FSTAT_FPVIOL);
poll_fail(0, HCS08_FSTAT_FACCERR, HCS08_FSTAT_FACCERR);
poll_ok(0, HCS08_FSTAT_FCCF, HCS08_FSTAT_FCCF);
poll_end();
return VSFERR_NONE;
}
/************************************************************************
* Main Program ***** Programa Principal *
************************************************************************/
void main()
{
setup_psp(PSP_DISABLED);
setup_wdt(WDT_OFF);
setup_timer_0(RTCC_INTERNAL);
setup_timer_1(T1_INTERNAL|T1_DIV_BY_8);
setup_timer_2(T2_DIV_BY_16,0xFF,16);
setup_timer_3(T3_DISABLED|T3_DIV_BY_1);
setup_comparator(NC_NC_NC_NC);
setup_vref(FALSE);
setup_adc( ADC_OFF );
enable_interrupts(INT_TIMER1);
enable_interrupts(INT_TIMER2);
enable_interrupts(INT_RDA);
enable_interrupts(INT_EXT1);
enable_interrupts(global);
str_init(print_date);
str_init(print_time);
set_timer1(0);
init_ext_eeprom();
ds1307_init();
glcd_init(ON);
readconfig();
draw_sect();
while (1)
{
if (firstrun==255)
{
glcd_fillscreen(OFF);
glcd_loadscreen();
glcd_showlogo();
delay_ms(1500);
menu_mainmenu();
firstrun = 0;
write_eeprom(0x00, firstrun);
}
if (config==1)
{
menu_mainmenu();
if(UniTemp[0]==0x43)
{
write_eeprom(0x01, 1);
}
else if(UniTemp[0]==0x46)
{
write_eeprom(0x01, 2);
}
if(UniPres[0]==0x6D)
{
write_eeprom(0x02, 1);
}
else if(UniPres[0]==0x50)
{
write_eeprom(0x02, 2);
}
if(UniVel[0]==0x4E)
{
write_eeprom(0x03, 1);
}
else if(UniVel[0]==0x6B)
{
write_eeprom(0x03, 2);
}
else if(UniVel[0]==0x6D)
{
write_eeprom(0x03, 3);
}
update_readings();
button = !PRESSED;
config=0;
}
if (uh>40)
{
twop[0]=":";
guion[0]="-";
spa[0]=" ";
str_init(print_time);
str_init(print_date);
ds1307_get_time(aux_hr,aux_min,aux_sec);
ds1307_get_date(aux_day, aux_month, aux_year, aux_dow);
itoa(aux_day,10,print_day);
itoa(aux_month,10,print_month);
itoa(aux_year,10,print_year);
switch(aux_dow)
{
case 0:
{
print_dow[0] = "D";
break;
}
case 1:
{
print_dow[0] = "L";
break;
}
case 2:
{
print_dow[0] = "M";
break;
}
case 3:
{
print_dow[0] = "I";
break;
}
case 4:
{
print_dow[0] = "J";
break;
}
case 5:
{
print_dow[0] = "V";
break;
}
case 6:
{
print_dow[0] = "S";
break;
}
}
sprintf(print_date,"%s:%s-%s-%s",print_dow,print_day,print_month,print_year);
//strcat(print_date,print_dow);
//strcat(print_date,twop);
//strcat(print_date,print_day);
//strcat(print_date,guion);
// strcat(print_date,print_month);
//strcat(print_date,guion);
//strcat(print_date,print_year);
if(aop[0]==0x50)
{
aux_hr=aux_hr-20;
}
itoa(aux_hr,10,print_hr);
itoa(aux_min,10,print_min);
strcat(print_time,print_hr);
strcat(print_time,twop);
strcat(print_time,print_min);
if ((aop[0]==0x41)||(aop[0]==0x50))
{
strcat(print_time,twop);
strcat(print_time,aop);
}
rcv_td=1;
uh=0;
}
poll_ok();
lightbuttons();
while(bkbhit)
{
auxi = bgetc();
switch (auxi)
{
case 0x54: //T
{
type=1;
str_init(string);
break;
}
case 0x50: //P
{
type=2;
str_init(string);
break;
}
case 0x48: //H
{
type=3;
str_init(string);
break;
}
case 0x41: //A
{
type=4;
str_init(string);
break;
}
case 0x57: //W
{
type=5;
str_init(string);
break;
}
case 0x52: //R
{
type=6;
str_init(string);
break;
}
case 0x44: //D
{
type=7;
str_init(string);
break;
}
case 0x4C: //L
{
type=8;
str_init(string);
break;
}
case 0x56: //V
{
type=9;
str_init(string);
break;
}
case 0x42: //B
{
type=10;
str_init(string);
break;
}
}
switch (type)
{
case 1: //Temperatura
{
if ((auxi!=0x0D)&&(auxi!=0x54))
{
string[i] = auxi;
i++;
}
if (auxi==0x0D)
{
i=0;
str_init(tprint);
tt = atol(string);
if(UniTemp[0]==0x46)
{
tt = ((tt*9)/5)+320;
}
strcat(temp_buffer_eeprom,string);
eep+=3;
sprintf(ttt,"%3.1w",tt);
strcat(tprint,ttt);
strcat(tprint,UniTemp);
strcpy(t2_print,tprint);
rcv_t=1;
}
break;
}
case 2: //Presion
{
if ((auxi!=0x0D)&&(auxi!=0x50))
{
string[i] = auxi;
i++;
}
if (auxi==0x0D)
{
i=0;
str_init(pprint);
pp = atoi32(string);
if(UniPres[0]==0x50)
{
pp = pp*10;
sprintf(ppp,"%6.0w",pp);
strcat(pprint,ppp);
strcat(pprint,UniPres);
}
else
{
sprintf(ppp,"%4.1w",pp);
strcat(pprint,ppp);
strcat(pprint,UniPres);
}
rcv_p=1;
}
break;
}
case 3: //Humedad
{
if ((auxi!=0x0D)&&(auxi!=0x48))
{
string[i] = auxi;
i++;
}
if (auxi==0x0D)
{
i=0;
char uni[]="%";
str_init(hprint);
hh = atol(string);
sprintf(hhh,"%2.1w",hh);
strcat(hprint,hhh);
strcat(hprint,uni);
rcv_h=1;
}
break;
}
case 4: //Altitud
{
if ((auxi!=0x0D)&&(auxi!=0x41))
{
string[i] = auxi;
i++;
}
if (auxi==0x0D)
{
i=0;
char uni[]="m";
str_init(aprint);
aa = atol(string);
sprintf(aaa,"%5.1w",aa);
strcat(aprint,aaa);
strcat(aprint,uni);
rcv_a=1;
}
break;
}
case 5: //Clima
{
if ((auxi!=0x0D)&&(auxi!=0x57))
{
string[i] = auxi;
i++;
}
if (auxi==0x0D)
{
i=0;
ww = atoi(string);
rcv_w=1;
}
break;
}
case 6: //Probabilidad de lluvia
{
if ((auxi!=0x0D)&&(auxi!=0x52))
{
string[i] = auxi;
i++;
}
if (auxi==0x0D)
{
i=0;
char uni[]="%";
str_init(pdlprint);
ppdl = atol(string);
sprintf(pppdl,"%2.0w",ppdl);
strcat(pdlprint,pppdl);
strcat(pdlprint,uni);
rcv_pdl=1;
}
break;
}
case 7: //Direccion del viento
{
if ((auxi!=0x0D)&&(auxi!=0x44))
{
string[i] = auxi;
i++;
}
if (auxi==0x0D)
{
i=0;
str_init(dprint);
dd = atol(string);
switch(dd)
{
case 0:
{
dprint[0]="N";
dprint[1]="\0";
break;
}
case 1:
{
dprint[0]="N";
dprint[1]="E";
dprint[2]="\0";
break;
}
case 2:
{
dprint[0]="E";
dprint[1]="\0";
break;
}
case 3:
{
dprint[0]="S";
dprint[1]="E";
dprint[2]="\0";
break;
}
case 4:
{
dprint[0]="S";
dprint[1]="\0";
break;
}
case 5:
{
dprint[0]="S";
dprint[1]="O";
dprint[2]="\0";
break;
}
case 6:
{
dprint[0]="O";
dprint[1]="\0";
break;
}
case 7:
{
dprint[0]="N";
dprint[1]="O";
dprint[2]="\0";
break;
}
}
rcv_d=1;
}
break;
}
case 8: //Intensidad de luz
{
if ((auxi!=0x0D)&&(auxi!=0x4C))
{
string[i] = auxi;
i++;
}
if (auxi==0x0D)
{
i=0;
ll = atoi(string);
ll = ll*6.3+67;
rcv_l=1;
}
break;
}
case 9: //Velocidad del viento
{
if ((auxi!=0x0D)&&(auxi!=0x56))
{
string[i] = auxi;
i++;
}
if (auxi==0x0D)
{
i=0;
str_init(vprint);
vv = atoi32(string);
if(UniVel[0]==0x6D)
{
vv = vv * 0.5144;
}
else if(UniVel[0]==0x6B)
{
vv = vv * 1.852;
}
else
{
}
sprintf(vvv,"%4.1w",vv);
strcat(vprint,vvv);
strcat(vprint,UniVel);
rcv_v=1;
}
break;
}
case 10: //Bat Status
{
if ((auxi!=0x0D)&&(auxi!=0x42))
{
string[i] = auxi;
i++;
}
if (auxi==0x0D)
{
i=0;
bat1_st = atoi(string);
rcv_bat1_st=1;
}
break;
}
}
if(eep>=9)
{
update_eeprom();
eep=0;
}
update_readings();
glcd_update();
//END KBHIT
}
glcd_update();
//ENDWHILE
}
//ENDMAIN
}
