source: firmware/FSC/src/FSC_test.c@ 10698

Last change on this file since 10698 was 10677, checked in by neise, 14 years ago
File size: 12.0 KB
Line 
1//-----------------------------------------------------------------------------
2#include "typedefs.h"
3#include "application.h"
4#include "spi_master.h"
5#include "ad7719_adc.h"
6#include "atmega_adc.h"
7#include "usart.h"
8#include "macros.h"
9#include "muxer_fsc.h"
10#include "output.h"
11#include "parser.h"
12#include "interpol.h"
13#include "timer.h"
14#include "w5100_spi_interface.h"
15#include <avr/interrupt.h>
16#include <avr/wdt.h>
17#include <stdlib.h>
18//-----------------------------------------------------------------------------
19// definition of some functions:
20// these function are implemented in this file, this is not doog coding style.
21// sooner or later, they will be moved into more apropriate files.
22
23void parse(); //doesn't do anything at the moment
24
25// end of function definition:
26//-----------------------------------------------------------------------------
27
28
29// MAIN WORKFLOW GLOBAL VARIABLES
30 bool verbose;
31 bool heartbeat_enable;
32/*
33// USART global variables
34 U08 usart_rx_buffer[USART_RX_BUFFER_SIZE];
35 U08 usart_tx_buffer[USART_TX_BUFFER_SIZE];
36 U08 usart_rx_buffer_index = 0;
37 U08 usart_tx_buffer_index = 0;
38 U08 usart_last_char; // last received char
39
40// USART FLAGS
41 bool usart_tx_buffer_overflow = false; // true if usart_tx_buffer was full.
42 */
43// TIMER global variable
44 volatile U32 local_ms = 0;
45
46// AD7719 global variables
47 U32 ad7719_values[RESISTANCE_CHANNELS];
48 U08 ad7719_enables[RESISTANCE_CHANNELS/8];
49 U08 ad7719_channels_ready[RESISTANCE_CHANNELS/8];
50 U08 ad7719_readings_since_last_muxing = 0;
51 U08 ad7719_current_channel = 0;
52 U32 ad7719_current_reading = 0;
53 bool ad7719_measured_all = false;
54
55// ATMEGA ADC global variables
56 U08 adc_values[VOLTAGE_CHANNELS]; // stores measured voltage in steps of 16mV
57 U08 adc_enables[VOLTAGE_CHANNELS/8];
58 U08 adc_channels_ready[VOLTAGE_CHANNELS/8];
59 U08 adc_readings_since_last_muxing = 0;
60 U08 adc_current_channel = 0;
61 U08 adc_current_reading = 0;
62 bool adc_measured_all = false;
63
64 bool once_told_you = true;
65 bool debug_mode = false;
66
67#ifndef ___MAIN_WORKFLOW_GLOBAL_VARS
68#define ___MAIN_WORKFLOW_GLOBAL_VARS
69 #define TEMP_CHANNELS 64
70 #define CHANNEL_BITMAP 8
71 #define AD7719_READINGS_UNTIL_SETTLED 1 // bei3:480ms
72 #define V_CHANNELS 40
73 #define I_CHANNELS 40
74 #define H_CHANNELS 4
75 #define V_BITMAP 5
76 #define I_BITMAP 5
77 #define H_BITMAP 1
78 #define ADC_READINGS_UNTIL_SETTLED 1
79
80#endif // ___MAIN_WORKFLOW_GLOBAL_VARS
81
82
83//-----------------------------------------------------------------------------
84// M A I N --- M A I N --- M A I N --- M A I N --- M A I N
85//-----------------------------------------------------------------------------
86int main(void)
87{
88
89 app_init(); // Setup: Watchdog and I/Os
90 usart_init();
91 spi_init(); // Initialize SPI interface as master
92
93// TIMER2 is used as local clock:
94// configure timer 2
95 TCCR2 = (1<<WGM21); // CTC Modus
96 TCCR2 |= (1<<CS21) | (1<<CS20); // Prescaler 64 --> counts up every 8us
97 OCR2 = 125-1; // --> output compare interrupt occurs every 125 x 8us = 1ms
98 // Compare Interrupt erlauben
99 TIMSK |= (1<<OCIE2);
100
101 // Enable interrupts
102 sei();
103
104 usart_write_str((pU08)"Start of test firmware (06.05.11) now:\n");
105 if (local_ms % 10000 == 0) {
106 usart_write_str((pU08)"time: ");
107 usart_write_U32(local_ms/1000,6);
108 usart_write_str((pU08)"sec.\n");
109 }
110
111 PORTB &= ~(1<<PB2); //#reset = LOW --> W5100 is in reset ...
112 _delay_ms(50); //reset
113
114 PORTB |= 1<<PB2; //#reset = HIGH --> W5100 is active
115 _delay_ms(5); // give it 5ms to accomodate.
116/*
117 PORTB |= (1<<PB4);
118 usart_write_str((pU08)"PB4 switched HIGH. Please check & hit ENTER.\n");
119 while(!enter_received){
120 if ( UCSRA & (1<<RXC) ) {
121 if (UDR == '\n')
122 enter_received = true;
123 }
124 }
125 enter_received = false;
126*/
127
128 usart_write_str((pU08)"W5300 init begins at:");
129 usart_write_U32(local_ms,10);
130 usart_write_str((pU08)"ms.\n");
131
132 w5100_init();
133
134 usart_write_str((pU08)"W5300 init finished at:");
135 usart_write_U32(local_ms,10);
136 usart_write_str((pU08)"ms.\n");
137
138 usart_write_str((pU08)"Wait for PC to connect to FSC...");
139 while (!w5100_is_established()) {
140 usart_write_str((pU08)"Socket status is:");
141 usart_write_U08_hex(w5100_sock_status());
142 usart_write_char('\n');
143 _delay_ms(333);
144 }
145
146 usart_write_str((pU08)"connection to PC established at:");
147 usart_write_U32(local_ms/1000,6);
148 usart_write_str((pU08)"sec.\n");
149
150 usart_write_str((pU08)"Ready to investigate, what's happening next? - HIT ENTER - \n");
151 while(!usart_rx_ready){
152 _delay_ms(10);
153 }
154 usart_rx_ready = false;
155
156
157 usart_write_str((pU08)"S0_TX_FSR\t|S0_TX_RD\t|S0_TX_WR\t|S0_RX_RSR\t|S0_RX_RD\t| 0x0426 | 0x0427 |\n");
158 while(!usart_rx_ready){
159
160 usart_write_U16_hex(get_S0_TX_FSR()); usart_write_char('\t'); usart_write_char('|');
161 usart_write_U16_hex(get_S0_TX_RD()); usart_write_char('\t'); usart_write_char('|');
162 usart_write_U16_hex(get_S0_TX_WR()); usart_write_char('\t'); usart_write_char('|');
163 usart_write_U16_hex(get_S0_RX_RSR()); usart_write_char('\t'); usart_write_char('|');
164 usart_write_U16_hex(get_S0_RX_RD()); usart_write_char('\t'); usart_write_char('|');
165 usart_write_U08_hex( w5100_read(0x0426) ); usart_write_char('\t'); usart_write_char('|');
166 usart_write_U08_hex( w5100_read(0x0427) ); usart_write_char('\t'); usart_write_char('|');
167
168 usart_write_char('\n');
169
170 _delay_ms(400);
171 _delay_ms(400);
172 }
173 usart_rx_ready = false;
174
175 U16 received_bytes;
176 U08 really_downloaded_bytes;
177 while(!usart_rx_ready){
178 received_bytes = get_S0_RX_RSR();
179
180 usart_write_U16_hex(get_S0_TX_FSR()); usart_write_char('\t'); usart_write_char('|');
181 usart_write_U16_hex(get_S0_TX_RD()); usart_write_char('\t'); usart_write_char('|');
182 usart_write_U16_hex(get_S0_TX_WR()); usart_write_char('\t'); usart_write_char('|');
183 usart_write_U16_hex(get_S0_RX_RSR()); usart_write_char('\t'); usart_write_char('|');
184 usart_write_U16_hex(get_S0_RX_RD()); usart_write_char('\t'); usart_write_char('|');
185
186
187 if (get_S0_RX_RSR() != 0) { // we have something to read
188 usart_write_str((pU08)"\nReading ");
189 usart_write_U16(get_S0_RX_RSR(), 6);
190 usart_write_str((pU08)" b from W5100\n");
191
192 while (received_bytes != 0) {
193 really_downloaded_bytes = w5100_get_RX(16, true);
194 usart_write_char('!');
195 usart_write_U08(really_downloaded_bytes,4);
196 usart_write_char('\n');
197 for (U08 i=0; i<really_downloaded_bytes; i++){
198 usart_write_U08_hex(eth_read_buffer[i]);
199 usart_write_char(' ');
200 }
201 received_bytes -= really_downloaded_bytes;
202 }
203 }
204 usart_write_char('\n');
205
206 _delay_ms(400);
207 _delay_ms(400);
208 _delay_ms(400);
209 _delay_ms(400);
210 }
211 usart_rx_ready = false;
212
213 bool quit = false;
214 while (!quit) {
215 usart_write_str((pU08)"Enter the string to send to PC or \"XXX\" in order to quit\n");
216 while(!usart_rx_ready){
217 _delay_ms(100);
218 }
219 usart_rx_ready = false;
220
221 if ( (usart_rx_buffer[0]=='X') && (usart_rx_buffer[1]=='X') && (usart_rx_buffer[2]=='X') )
222 quit = true;
223 else {
224 // copy string to W5100 TX buffer and issue 'SEND' command.
225 for (U08 i =0; i<usart_received_chars; i++){
226 eth_write_buffer[i]=usart_rx_buffer[i];
227 }
228
229 w5100_set_TX(usart_received_chars);
230
231 }
232
233
234 }
235
236} // end of main()
237
238/*
239//MAIN LOOP
240while (1)
241{
242 if (heartbeat_enable) PORTB ^= (1<<PB3); // toggle Out2_spare --> heartbeat
243//----------------------------------------------------------------------------
244 //IF we need to send away one byte, and ready to send
245
246 if ( (usart_tx_buffer_index > 0) && (UCSRA & (1<<UDRE)) ) {
247 UDR = usart_tx_buffer[0];
248 // THis is shit
249 for (U08 i=0 ; i < USART_TX_BUFFER_SIZE; ++i) {
250 usart_tx_buffer[i] = usart_tx_buffer[i+1];
251 }
252 usart_tx_buffer_index--;
253 }
254//----------------------------------------------------------------------------
255
256 //IF we just received one byte, and there is enough space in the RX_buffer
257 if ( (UCSRA & (1<<RXC)) && (usart_rx_buffer_index < USART_RX_BUFFER_SIZE) ){
258 usart_last_char = UDR;
259 if (usart_last_char == '\n'){ // if EOL was received
260 usart_rx_ready = true;
261 }else {
262 usart_rx_buffer[usart_rx_buffer_index] = usart_last_char;
263 usart_rx_buffer_index++;
264 }
265 // here is still something strange .... better send an enter automatically
266 } else if (UCSRA & (1<<RXC)) { // if there is no scace in the buffer; read anyway.
267 usart_last_char = UDR;
268 usart_rx_buffer_index =0;
269 }
270//----------------------------------------------------------------------------
271
272 //IF USART DOR bit is set, PC is sending data to fast!!!
273 if ( UCSRA & (1<<DOR) ){
274 // flush TX_buffer and write warning message in
275 // maybe even switch off every measurement. ?
276 }
277//----------------------------------------------------------------------------
278
279 //IF TX_BUFFER was overrun.
280 if (usart_tx_buffer_overflow) {
281 // flash TX_buffer and write warning message in
282 // maybe even switch off every measurement. ?
283 //
284 // this should only happen, in verbose mode and with low baudrates.
285 }
286//----------------------------------------------------------------------------
287
288 //IF one command was received.
289 // -It is not allowed to send more than one command between two '\n'
290 if (usart_rx_ready){
291 parse();
292 usart_rx_buffer_index = 0;
293 usart_rx_ready = false;
294 }
295//----------------------------------------------------------------------------
296
297 //IF ATmega internal ADC did finish a conversion --every 200us
298 if ( (ADCSRA & (1<<ADIF)) && !adc_measured_all) {
299 adc_current_reading = ADCH;
300 if (adc_readings_since_last_muxing == ADC_READINGS_UNTIL_SETTLED) {
301 adc_values[adc_current_channel] = adc_current_reading;
302 adc_readings_since_last_muxing=0;
303 // note that this channel is ready, now and
304 adc_output(adc_current_channel, adc_current_reading);
305 // proceed to the next enabled channel.
306 adc_channels_ready[adc_current_channel/8] |= (1<<(adc_current_channel%8));
307 adc_current_channel = increase_adc (adc_current_channel);
308 Set_V_Muxer(adc_current_channel);
309 } else { // the ADC did not settle yet, we discard the reading
310 ++adc_readings_since_last_muxing;
311 // current reading is not used for anything else
312 }
313 }
314//----------------------------------------------------------------------------
315
316 //IF AD7719 ADC just finished a conversion -- every 60ms
317
318 if (AD7719_IS_READY()) {
319 ad7719_current_reading = read_adc(); // --takes at 4MHz SCLK speed about 6us
320 // AD7719 is only read out if settled. saves time.
321 if (ad7719_readings_since_last_muxing == AD7719_READINGS_UNTIL_SETTLED) {
322 ad7719_values[ad7719_current_channel] = ad7719_current_reading;
323 ad7719_readings_since_last_muxing=0;
324 // now prepare the data to be send away via USART.
325 //ad7719_output(ad7719_current_channel, ad7719_current_reading);
326 // note that this channel is ready, now and
327 // proceed to the next enabled channel.
328 ad7719_channels_ready[ad7719_current_channel/8] |= (1<<(ad7719_current_channel%8));
329 ad7719_current_channel = increase_ad7719 (ad7719_current_channel);
330 Set_T_Muxer(ad7719_current_channel);
331 } else { // the AD7719 did not settle yet, we discard the reading
332 ++ad7719_readings_since_last_muxing;
333
334 // current reading is not used for anything else
335 }
336 }
337//----------------------------------------------------------------------------
338 //IF one of the ADC measured all channels, we wanted to know.
339 check_if_measured_all();
340
341 if (ad7719_measured_all && adc_measured_all)
342 adc_output_all();
343
344//----------------------------------------------------------------------------
345
346// if (verbose == true)
347 // talk() was just defined so the
348 // code is not at this place ... look down.
349// talk();
350
351
352} // end of MAIN LOOP
353//-----------------------------------------------------------------------------
354// E N D E N D E N D E N D E N D E N D E N D
355//-----------------------------------------------------------------------------
356
357*/
358
359/*
360
361ISR (TIMER2_COMP_vect)
362{
363 ++local_ms;
364}
365
366
367
368
369*/
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