53 |
void on_initial_recieve(void); |
void on_initial_recieve(void); |
54 |
void sms_recieved(void); |
void sms_recieved(void); |
55 |
void send_sms(const unsigned char* payload); |
void send_sms(const unsigned char* payload); |
56 |
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void eeprom_writer(void); |
57 |
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58 |
void reset_recieve_buffer(void) |
void reset_recieve_buffer(void) |
59 |
{ |
{ |
99 |
PCFG2=1; |
PCFG2=1; |
100 |
PCFG3=1; |
PCFG3=1; |
101 |
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102 |
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//Reset the A/D result registers |
103 |
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ADRESH = 0; |
104 |
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ADRESL = 0; |
105 |
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106 |
//Result is right justified |
//Result is right justified |
107 |
ADFM=1; |
ADFM=1; |
108 |
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152 |
{ |
{ |
153 |
int i; |
int i; |
154 |
char buf[2]; |
char buf[2]; |
155 |
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156 |
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while ( strstr(global_message_buffer1,"+WIND: 7") == 0 && global_time_counter < 10 ) ; // Waiting for the modem to be ready |
157 |
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|
158 |
reset_recieve_buffer(); |
reset_recieve_buffer(); |
159 |
sprintf(global_serial_send,"at+cgsn\r"); |
sprintf(global_serial_send,"at+cgsn\r"); |
160 |
serial_send(); |
serial_send(); |
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DelaySek(1); |
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//while(!global_recieve_done) ; |
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161 |
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162 |
while (global_has_imei == 0) |
while (global_has_imei == 0) |
163 |
{ |
{ |
169 |
buf[0] = global_message_buffer2[i]; |
buf[0] = global_message_buffer2[i]; |
170 |
buf[1] = 0; |
buf[1] = 0; |
171 |
global_imei_tversum += atoi(buf); |
global_imei_tversum += atoi(buf); |
|
//global_imei_tversum += (global_message_buffer2[i] - '0'); |
|
172 |
} |
} |
173 |
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|
174 |
global_has_imei = 1; |
global_has_imei = 1; |
245 |
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|
246 |
if ( global_serial_byte_counter < BUFFER) //Prevent buffer overrun |
if ( global_serial_byte_counter < BUFFER) //Prevent buffer overrun |
247 |
global_serial_recieve_buffer[ global_serial_byte_counter++ ] = data_byte; // fills the data_byte into our buffer. |
global_serial_recieve_buffer[ global_serial_byte_counter++ ] = data_byte; // fills the data_byte into our buffer. |
248 |
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else |
249 |
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{ |
250 |
|
global_serial_recieve_buffer[0] = 0; |
251 |
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global_serial_byte_counter = 0; |
252 |
|
return; |
253 |
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} |
254 |
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255 |
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|
256 |
if (data_byte == '\r') // when we meet a '\r', the transmission is done, and we fill the constxt of |
if (data_byte == '\r') // when we meet a '\r', the transmission is done, and we fill the constxt of |
287 |
{ |
{ |
288 |
if(global_temp_update_display != global_time_counter) |
if(global_temp_update_display != global_time_counter) |
289 |
{ |
{ |
290 |
lcd_clear(); |
// lcd_clear(); |
291 |
lcd_goto(0x00); |
lcd_goto(0x00); |
292 |
|
|
293 |
sprintf(global_lcd_buf, "Temp: %3d", global_temp); |
sprintf(global_lcd_buf, "Temp: %3d", global_temp); |
313 |
sprintf(global_serial_send, "%s%c", payload, 0x1A); |
sprintf(global_serial_send, "%s%c", payload, 0x1A); |
314 |
serial_send(); |
serial_send(); |
315 |
DelayMs(150); |
DelayMs(150); |
316 |
|
if(global_sms_counter % 3 == 0) |
317 |
|
{ |
318 |
|
eeprom_writer(); |
319 |
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sprintf(global_serial_send, "at+cmgd=1,3\r"); |
320 |
|
serial_send(); |
321 |
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while ( strstr(global_message_buffer1,"OK") == 0) ; |
322 |
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} |
323 |
} |
} |
324 |
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|
325 |
void convertTemp() |
void convertTemp() |
471 |
ad_init(); |
ad_init(); |
472 |
lcd_init(0); |
lcd_init(0); |
473 |
interrupt_init(); |
interrupt_init(); |
|
sms_init(); |
|
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//eeprom_init(); |
|
474 |
timer_init(); |
timer_init(); |
475 |
|
sms_init(); |
476 |
eeprom_reader(); |
eeprom_reader(); |
477 |
/////////////// |
/////////////// |
478 |
// Main loop // |
// Main loop // |
485 |
while(1) |
while(1) |
486 |
{ |
{ |
487 |
// If there happends to be a critical state on the system, we send a sms. |
// If there happends to be a critical state on the system, we send a sms. |
488 |
if( (global_temp >= 90 || PWRFAIL == 1 || FIREDET == 0 || FEEDING == 1 || EMPTYTANK == 1) && global_emergency_counter >= 600 ) |
if( (global_temp >= 90 || PWRFAIL == 1 || FIREDET == 0 || FEEDING ==1 ) && global_emergency_counter >= 600 ) |
489 |
{ |
{ |
490 |
send_update(); |
send_update(); |
491 |
global_emergency_counter = 0; |
global_emergency_counter = 0; |