/[H9]/trunk/Embedded/main.c
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Annotation of /trunk/Embedded/main.c

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Wed Dec 5 16:11:12 2007 UTC (16 years, 6 months ago) by hedin
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1 hedin 82 #include <pic18.h>
2     #include <stdio.h>
3 hedin 148 #include <htc.h>
4 hedin 82 #include <string.h>
5 hedin 160 #include <stdlib.h>
6 hedin 148
7 hedin 82 #include "lcd.h"
8 hedin 137 #include "Delay.h"
9 hedin 109 // Delay.h is included inside lcd.c
10 hedin 82
11 hedin 109 #define LCD_LENGTH 16
12     #define LCD_ROWS 2
13 hedin 150 #define BUFFER 128
14 hedin 148 #define PWRFAIL RB1
15     #define FIREDET RB2
16     #define FEEDING RB3
17     #define EMPTYTANK RB4
18 hedin 109
19    
20 hedin 137 unsigned char global_Pot_Hi, global_Pot_Lo;
21 hedin 150 unsigned char global_serial_send[BUFFER], global_serial_recieve_buffer[BUFFER];
22 hedin 148 bit global_recieve_done = 0, global_interval_changed = 0;
23     unsigned int global_serial_byte_counter = 0, global_sms_counter = 1, global_time_counter = 0;
24     unsigned int global_emergency_counter = 600, global_time_interval = 3600;
25     unsigned char global_temp = 0;
26 hedin 137
27 hedin 165 unsigned char global_temp_update_display = 0;
28    
29 hedin 160 unsigned char global_message_buffer1[BUFFER];
30     unsigned char global_message_buffer2[BUFFER];
31     unsigned char global_message_buffer_length1;
32     unsigned char global_message_buffer_length2;
33 hedin 155
34 hedin 151 unsigned char global_lcd_buf[16];
35    
36 hedin 150 unsigned short global_imei_tversum;
37    
38 hedin 160 unsigned char global_cell_nr[15] = ""; // = "21681784";
39 hedin 150 bit global_modem_init = 0;
40 hedin 160 bit global_has_imei = 0;
41 hedin 148
42 hedin 155 unsigned char global_sms_recieve_number[3];
43    
44 hedin 148 __EEPROM_DATA( 60, 0, 1, 8, '2', '1', '6', '8');
45     __EEPROM_DATA( '1', '7', '8', '4',0,0,0,0);
46    
47 hedin 137 void serial_recieved(void);
48 hedin 139 void serial_send(void);
49     void update_lcd(void);
50 hedin 148 void convertTemp(void);
51     void timer1_interrupt(void);
52 hedin 150 void on_recieve(void);
53     void on_initial_recieve(void);
54 hedin 155 void sms_recieved(void);
55 hedin 163 void send_sms(const unsigned char* payload);
56 hedin 137
57 hedin 150
58     void reset_recieve_buffer(void)
59 hedin 109 {
60 hedin 155 global_recieve_done = 0;
61    
62 hedin 160 global_message_buffer_length1 = 0;
63     //global_message_buffer1[0] = 0;
64     global_message_buffer_length2 = 0;
65     //global_message_buffer2[0] = 0;
66 hedin 155
67 hedin 160 memset(global_message_buffer1, 0, BUFFER);
68     memset(global_message_buffer2, 0, BUFFER);
69 hedin 150 }
70    
71 hedin 160 void pic18_io_init(void)
72     {
73     TRISA0 = 1; // analog input
74     TRISA5 = 0; // Output
75     TRISB1 = 1; // TRISB1-4 Digital input
76     TRISB2 = 1;
77     TRISB3 = 1;
78     TRISB4 = 1;
79     }
80 hedin 150
81 hedin 160
82    
83 hedin 150 void ad_init(void) // Nicked from H7
84     {
85 hedin 109 // AD Conversion clock
86     ADCS0 = 0;
87     ADCS1 = 0;
88     ADCS2 = 0;
89 hedin 82
90 hedin 109 //Select AN0/RA0 for AD source
91     // In this (000) setup, it's only RA0/AN0 that does ad convertion.
92     CHS0=0;
93     CHS1=0;
94     CHS2=0;
95    
96     //Only AN0 is selected for AD and with Vdd/Vss as limits
97     PCFG0=0;
98     PCFG1=1;
99     PCFG2=1;
100     PCFG3=1;
101    
102 hedin 148 //Result is right justified
103     ADFM=1;
104 hedin 109
105     //Fire up for A/D converter module
106     ADON=1;
107     }
108    
109 hedin 82 void rs232_init(void)
110     {
111     SPEN = 0; // Serial Port Enable Bit... 0 = disabled
112 hedin 137 TRISC6 = 0;
113 hedin 82 TRISC7 = 1;
114 hedin 137
115     SPBRG = 207; // 1200 baud rate... 25 = 9600
116     // x = (Fosc / (16*[baud rate]) )-1
117     TXSTA = 0x24; // Enables BRGH and TXEN inthe TXSTA register
118     RCSTA = 0x90; // 0x90 enables SPEN and CREN in the RCSTA register
119 hedin 82 }
120    
121     void interrupt_init(void)
122     {
123     // Assumes that all interrupts default is 0
124     PEIE = 1;
125     GIE = 1;
126 hedin 137 RCIE = 1; // Recieve interrupt enable.
127     IPEN = 0; // Nfo interrupt priority
128     TXIE = 0; // Serial interrupt enabled
129 hedin 148 TMR1IE = 1; // Enables timer 1
130 hedin 82 }
131    
132 hedin 148 void timer_init(void)
133     {
134     TMR1CS = 1; //use external clock
135    
136     T1CKPS1 = 1; //1:8 prescale
137     T1CKPS0 = 1;
138    
139     TMR1H = 0xEF;
140     TMR1L = 0xFF;
141    
142     T1OSCEN = 1; //enable oscillator circuit
143     RD16 = 0; //normal 8 bit writes
144     TMR1ON = 1;
145 hedin 82 }
146    
147 hedin 137 void sms_init(void)
148 hedin 82 {
149 hedin 148 int i;
150 hedin 160 char buf[2];
151 hedin 148
152 hedin 160
153 hedin 150 reset_recieve_buffer();
154 hedin 148 sprintf(global_serial_send,"at+cgsn\r");
155     serial_send();
156     DelaySek(1);
157 hedin 160 //while(!global_recieve_done) ;
158    
159     while (global_has_imei == 0)
160     {
161     if (strstr(global_message_buffer1,"OK") != 0)
162     {
163     global_imei_tversum = 0;
164     for (i=0; i<15; ++i)
165     {
166     buf[0] = global_message_buffer2[i];
167     buf[1] = 0;
168     global_imei_tversum += atoi(buf);
169     //global_imei_tversum += (global_message_buffer2[i] - '0');
170     }
171    
172     global_has_imei = 1;
173     }
174     }
175 hedin 148
176    
177 hedin 139 sprintf(global_serial_send,"%s", "at+cpin=8043\r");
178     serial_send();
179    
180 hedin 150 while(global_modem_init == 0)
181     {
182     on_initial_recieve();
183     }
184 hedin 160 DelayMs(5);
185    
186     reset_recieve_buffer();
187     sprintf(global_serial_send, "at+cmgd=1,4\r");
188     serial_send();
189     while ( strstr(global_message_buffer1,"OK") == 0) ;
190 hedin 82 }
191    
192 hedin 148
193 hedin 82 void interrupt interrupt_handler(void)
194     {
195 hedin 109 // Finds out what interrupt have been trigged, and starts the respective function.
196 hedin 137 if(RCIF == 1) // Serial recieve interrupt
197 hedin 82 {
198 hedin 137 serial_recieved();
199 hedin 82 RCIF = 0;
200     }
201 hedin 148
202     if(TMR1IF == 1) // timer1 interrupt trigger.
203     {
204     timer1_interrupt();
205     TMR1IF = 0;
206     }
207 hedin 82 }
208 hedin 109
209 hedin 137
210     void serial_send(void)
211     {
212     int i;
213 hedin 148 char data_byte;
214 hedin 150 for(i = 0; i < BUFFER; i++)
215 hedin 109 {
216 hedin 148 data_byte = global_serial_send[i];
217     if( data_byte == '\r')
218 hedin 150 i = (BUFFER - 1);
219 hedin 148 TXREG = data_byte;
220 hedin 139 while(TRMT==0) ;
221 hedin 148 DelayMs(10);
222 hedin 109 }
223 hedin 163 DelayMs(150);
224 hedin 160 global_serial_send[0] = 0;
225 hedin 163 DelayMs(150);
226 hedin 137 }
227    
228 hedin 160 ///////////////////////////////////////////////////////////////////////////////////////////////////
229     // Takes the recieving data and fills it in a buffer, when we meet a '\r' we fill the data from,
230     // global_serial_recieve_buffer, to global_message_buffer1, and sets the flag global_recieve_done.
231     void serial_recieved(void)
232 hedin 137 {
233 hedin 162 char data_byte;
234 hedin 137
235 hedin 148 data_byte = RCREG;
236 hedin 137
237 hedin 160 if (data_byte == '\n') // Cant be bothered to do anyting if the byte is a '\n'.
238 hedin 150 return;
239 hedin 151
240 hedin 160 if (global_serial_byte_counter == 0 && data_byte == '\r') // don't care about '\r', if it's the first byte we recieve.
241 hedin 151 return;
242 hedin 150
243 hedin 160
244 hedin 162 if ( global_serial_byte_counter < BUFFER) //Prevent buffer overrun
245     global_serial_recieve_buffer[ global_serial_byte_counter++ ] = data_byte; // fills the data_byte into our buffer.
246 hedin 167 else
247     {
248     global_serial_recieve_buffer[0] = 0;
249     global_serial_byte_counter = 0;
250     return;
251     }
252 hedin 160
253    
254     if (data_byte == '\r') // when we meet a '\r', the transmission is done, and we fill the constxt of
255     // global_message_buffer1 into global_message_buffer2 our main buffer into
256     // global_message_buffer2, and the same with our recieve buffer, global_serial_recieve_buffer
257     // into global_message_buffer1.
258 hedin 137 {
259 hedin 160 global_recieve_done = 1; // indicates the recieve transmission is done.
260 hedin 155 global_serial_recieve_buffer[global_serial_byte_counter] = 0; //zero terminate
261    
262 hedin 160 // global_message_buffer1 -> global_message_buffer2
263     strcpy(global_message_buffer2, global_message_buffer1);
264     global_message_buffer_length2 = global_message_buffer_length1;
265    
266     // global_serial_recieve_buffer -> global_message_buffer1
267     strcpy(global_message_buffer1, global_serial_recieve_buffer);
268     global_message_buffer_length1 = global_serial_byte_counter;
269    
270    
271     global_serial_byte_counter = 0;
272 hedin 137 }
273     }
274 hedin 148
275     void timer1_interrupt(void)
276     {
277     TMR1H = 0xEF;
278     TMR1L = 0xFF;
279     global_time_counter++;
280     global_emergency_counter++;
281     RA1 = !RA1;
282     }
283    
284 hedin 139 void update_lcd(void)
285     {
286 hedin 165 if(global_temp_update_display != global_time_counter)
287     {
288 hedin 167 // lcd_clear();
289 hedin 165 lcd_goto(0x00);
290 hedin 151
291 hedin 165 sprintf(global_lcd_buf, "Temp: %3d", global_temp);
292     lcd_puts(global_lcd_buf);
293     global_temp_update_display = global_time_counter;
294     }
295 hedin 148
296     }
297    
298     void send_update(void)
299     {
300 hedin 160 char update[40];
301     sprintf(update, "%d:%d:%d:%d:%d:%d", global_sms_counter, global_temp, FIREDET, EMPTYTANK, FEEDING, PWRFAIL);
302     send_sms(update);
303    
304     global_sms_counter++;
305     }
306    
307 hedin 163 void send_sms(const unsigned char* payload)
308 hedin 160 {
309     sprintf(global_serial_send, "at+cmgs=\"%s\"\r", global_cell_nr);
310 hedin 148 serial_send();
311 hedin 160 sprintf(global_serial_send, "%s%c", payload, 0x1A);
312 hedin 148 serial_send();
313 hedin 163 DelayMs(150);
314 hedin 160
315 hedin 148 }
316    
317     void convertTemp()
318     {
319     short adVal;
320     adVal = (global_Pot_Hi << 8) | global_Pot_Lo;
321     if( adVal >=840 )
322     global_temp = 100;
323     else
324 hedin 160 global_temp = (unsigned char) (adVal / 8.3886);
325 hedin 148 }
326    
327    
328    
329     void eeprom_writer(void)
330     {
331     char len,i;
332    
333 hedin 160 len = strlen(global_cell_nr);
334 hedin 148 eeprom_write(0, (global_time_interval/60));
335     eeprom_write(1, global_sms_counter>>8);
336     eeprom_write(2, global_sms_counter);
337     eeprom_write(3, len);
338    
339     for (i=0; i<len; ++i)
340 hedin 139 {
341 hedin 160 eeprom_write(i+4, global_cell_nr[i] );
342 hedin 139 }
343     }
344 hedin 148
345     void eeprom_reader(void)
346     {
347     char len,i;
348 hedin 109
349 hedin 148 global_time_interval = eeprom_read(0);
350     global_time_interval *= 60;
351     global_sms_counter = (eeprom_read(1)<<8) | eeprom_read(2);
352     len = eeprom_read(3);
353    
354     for (i=0; i<len; ++i)
355     {
356 hedin 160 global_cell_nr[i] = eeprom_read(i+4);
357 hedin 148 }
358    
359 hedin 160 global_cell_nr[i] = 0; //zero terminated!
360 hedin 148 }
361    
362 hedin 150 void on_initial_recieve(void)
363     {
364     char imei[16];
365     char* ptr;
366     char i;
367 hedin 160 char buf[2];
368 hedin 150
369     if (strstr(global_serial_recieve_buffer,"+WIND: 11") != 0)
370     {
371     global_modem_init = 1;
372    
373     ptr = strstr(global_serial_recieve_buffer,"cgsn");
374     ptr +=4;
375     strncpy(imei, ptr,15);
376     imei[15] = 0;
377    
378     reset_recieve_buffer();
379     }
380     }
381    
382 hedin 148 void on_recieve(void)
383     {
384 hedin 160 char tmp[3];
385 hedin 151 char* ptr;
386     tmp[0]=0;
387    
388 hedin 160 if (global_recieve_done == 0 || global_message_buffer_length1 == 0)
389 hedin 150 return;
390 hedin 151
391 hedin 160 if (strstr(global_message_buffer1,"CMTI") != 0) // here we handles a incomming SMS
392     {
393     ptr = strstr(global_message_buffer1,","); // finds the point just before the nr. of the SMS.
394     strcat(tmp,ptr+1); // puts that number in tmp
395     global_sms_recieve_number[0] = 0; // wanna be sure that we write the new number from global_sms_recieve_number[0]
396     strcat(global_sms_recieve_number, tmp); // puts the sms number into the global variable.
397     sms_recieved();
398     }
399     reset_recieve_buffer();
400     }
401    
402     void sms_recieved(void)
403     {
404     char buf[4];
405     char i,imei;
406     char pos;
407 hedin 151
408 hedin 160 sprintf(global_serial_send, "AT+CMGR=%s\r", global_sms_recieve_number); // formates the variable that sends commands to the SMS modem.
409     serial_send(); // Sends the command.
410    
411     while(strstr(global_message_buffer1, "OK") == 0) // stays here until we recieve a "OK" from the modem.
412     DelayMs(1);
413    
414     DelayUs(10);
415    
416     for (i=0; global_message_buffer2[i] != ':' && global_message_buffer2[i] != 0; ++i)
417 hedin 151 {
418 hedin 160 buf[i] = global_message_buffer2[i];
419 hedin 150 }
420 hedin 160
421     buf[i] = 0;
422     imei = atoi(buf);
423    
424     if (imei == global_imei_tversum)
425 hedin 155 {
426 hedin 160 i++; //spring over ':'
427     pos = 0;
428     for ( ; global_message_buffer2[i] != ':'; ++i, ++pos)
429     {
430     global_cell_nr[pos] = global_message_buffer2[i];
431     }
432     global_cell_nr[pos] = 0; //zero terminator
433    
434     i++; //spring over ':'
435     pos=0;
436     for ( ; global_message_buffer2[i] ; ++i,++pos)
437     {
438     buf[pos] = global_message_buffer2[i];
439     }
440     buf[pos]=0;
441    
442     global_time_interval = atoi(buf);
443     global_time_interval *= 60;
444     eeprom_writer(); // writes the new cell nr. and time interval to the eeprom.
445     send_sms("conf ok");
446 hedin 155 }
447 hedin 148
448    
449 hedin 155 }
450    
451 hedin 160
452    
453 hedin 82 void main()
454     {
455 hedin 148 ////////////////////
456     // Running Init's //
457 hedin 109
458     // Running init for various components.
459 hedin 148 pic18_io_init();
460 hedin 160 RA5 = 1; // Indicates that the board is running inits.
461    
462 hedin 148 rs232_init();
463 hedin 109 ad_init();
464     lcd_init(0);
465 hedin 137 interrupt_init();
466 hedin 139 sms_init();
467 hedin 148 //eeprom_init();
468     timer_init();
469     eeprom_reader();
470     ///////////////
471     // Main loop //
472 hedin 150
473 hedin 151 DelayMs(50);
474     reset_recieve_buffer();
475 hedin 150
476 hedin 160 RA5 = 0; // Inits are done, and RA1 will now work as a error notifier.
477    
478 hedin 109 while(1)
479 hedin 100 {
480 hedin 148 // If there happends to be a critical state on the system, we send a sms.
481     if( (global_temp >= 90 || PWRFAIL == 1 || FIREDET == 0 || FEEDING == 1 || EMPTYTANK == 1) && global_emergency_counter >= 600 )
482     {
483     send_update();
484     global_emergency_counter = 0;
485     }
486     // Every X sec. a status sms is send.
487     if(global_time_counter >= 3600)
488     {
489     send_update();
490     global_time_counter = 0;
491     }
492     // To avoid buffer overrun.
493     if( global_emergency_counter > 7200 )
494     global_emergency_counter = 600;
495    
496     // Checks if there has been recieved a config sms.
497     if(global_interval_changed )
498     {
499     eeprom_writer();
500     global_interval_changed = 0;
501     }
502 hedin 109 // Checking if A/D convertion is done, and save the data in global_Pot_??
503     if(GODONE==0)
504     {
505     global_Pot_Hi = ADRESH;
506     global_Pot_Lo = ADRESL;
507 hedin 148 convertTemp();
508 hedin 165 update_lcd();
509 hedin 112 GODONE = 1;
510 hedin 109 }
511 hedin 151 // Handels the recieve sms'es.
512     on_recieve();
513 hedin 100 }
514 hedin 82 }
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