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1612 dongfang 1
#include <avr/io.h>
2
#include <avr/interrupt.h>
3
#include <avr/wdt.h>
4
#include <avr/pgmspace.h>
5
#include <stdarg.h>
6
#include <string.h>
7
 
8
#include "eeprom.h"
9
#include "menu.h"
10
#include "timer0.h"
11
#include "uart0.h"
12
#include "rc.h"
13
#include "externalControl.h"
1775 - 14
#include "output.h"
1864 - 15
#include "attitude.h"
2048 - 16
#include "commands.h"
1612 dongfang 17
 
2039 - 18
#ifdef USE_DIRECT_GPS
1612 dongfang 19
#include "mk3mag.h"
20
#endif
21
 
22
#define FC_ADDRESS 1
23
#define NC_ADDRESS 2
24
#define MK3MAG_ADDRESS 3
25
 
26
#define FALSE	0
27
#define TRUE	1
2055 - 28
 
29
uint8_t requestedDebugLabel = 255;
30
 
2018 - 31
uint8_t request_verInfo = FALSE;
32
uint8_t request_externalControl = FALSE;
33
uint8_t request_display = FALSE;
34
uint8_t request_display1 = FALSE;
35
uint8_t request_debugData = FALSE;
36
uint8_t request_data3D = FALSE;
1821 - 37
uint8_t request_PPMChannels = FALSE;
2018 - 38
uint8_t request_motorTest = FALSE;
1821 - 39
uint8_t request_variables = FALSE;
2055 - 40
uint8_t request_OSD = FALSE;
1775 - 41
 
2055 - 42
/*
43
#define request_verInfo         (1<<0)
44
#define request_externalControl (1<<1)
45
#define request_display         (1<<3)
46
#define request_display1        (1<<4)
47
#define request_debugData       (1<<5)
48
#define request_data3D          (1<<6)
49
#define request_PPMChannels     (1<<7)
50
#define request_motorTest       (1<<8)
51
#define request_variables       (1<<9)
52
#define request_OSD             (1<<10)
53
*/
54
 
55
//uint16_t request = 0;
56
 
2018 - 57
uint8_t displayLine = 0;
1612 dongfang 58
 
59
volatile uint8_t txd_buffer[TXD_BUFFER_LEN];
60
volatile uint8_t rxd_buffer_locked = FALSE;
61
volatile uint8_t rxd_buffer[RXD_BUFFER_LEN];
62
volatile uint8_t txd_complete = TRUE;
2018 - 63
volatile uint8_t receivedBytes = 0;
1612 dongfang 64
volatile uint8_t *pRxData = 0;
2018 - 65
volatile uint8_t rxDataLen = 0;
1612 dongfang 66
 
1821 - 67
uint8_t motorTestActive = 0;
68
uint8_t motorTest[16] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };
2018 - 69
uint8_t confirmFrame;
1612 dongfang 70
 
71
typedef struct {
2039 - 72
	int16_t heading;
1821 - 73
}__attribute__((packed)) Heading_t;
1612 dongfang 74
 
2018 - 75
Data3D_t data3D;
1612 dongfang 76
 
2018 - 77
uint16_t debugData_timer;
78
uint16_t data3D_timer;
2055 - 79
uint16_t OSD_timer;
2018 - 80
uint16_t debugData_interval = 0; // in 1ms
81
uint16_t data3D_interval = 0; // in 1ms
2055 - 82
uint16_t OSD_interval = 0;
1612 dongfang 83
 
2039 - 84
#ifdef USE_DIRECT_GPS
85
int16_t toMk3MagTimer;
1612 dongfang 86
#endif
87
 
88
// keep lables in flash to save 512 bytes of sram space
89
const prog_uint8_t ANALOG_LABEL[32][16] = {
1821 - 90
		//1234567890123456
91
		"AnglePitch      ", //0
92
		"AngleRoll       ",
93
		"AngleYaw        ",
1974 - 94
		"GyroPitch       ",
95
		"GyroRoll        ",
96
		"GyroYaw         ", //5
2055 - 97
		"PitchTerm       ",
98
		"RollTerm        ",
99
		"ThrottleTerm    ",
100
		"YawTerm         ",
2073 - 101
		"heightP         ", //10
102
		"heightI         ",
103
        "heightD         ",
104
		"heightErr/10    ",
2059 - 105
		"controlActivity ",
106
		"accVector       ", //15
2074 - 107
		"NaviMode        ",
108
		"NaviStatus      ",
109
        "NaviStickP      ",
110
		"NaviStickR      ",
2069 - 111
		"control act wghd", //20
112
		"acc vector wghd ",
2058 - 113
		"Height[dm]      ",
114
		"dHeight         ",
2069 - 115
		"acc vector      ",
2059 - 116
		"EFT             ", //25
2058 - 117
		"naviPitch       ",
118
		"naviRoll        ",
119
		"i part contrib  ",
2069 - 120
		"Acc Z           ",
2088 - 121
		"GPS altitude    ", //30
2079 - 122
		"GPS vert accura "
2045 - 123
  };
1612 dongfang 124
 
125
/****************************************************************/
126
/*              Initialization of the USART0                    */
127
/****************************************************************/
2018 - 128
void usart0_init(void) {
1821 - 129
	uint8_t sreg = SREG;
130
	uint16_t ubrr = (uint16_t) ((uint32_t) SYSCLK / (8 * USART0_BAUD) - 1);
131
 
132
	// disable all interrupts before configuration
133
	cli();
134
 
135
	// disable RX-Interrupt
136
	UCSR0B &= ~(1 << RXCIE0);
137
	// disable TX-Interrupt
138
	UCSR0B &= ~(1 << TXCIE0);
139
 
140
	// set direction of RXD0 and TXD0 pins
141
	// set RXD0 (PD0) as an input pin
142
	PORTD |= (1 << PORTD0);
143
	DDRD &= ~(1 << DDD0);
144
	// set TXD0 (PD1) as an output pin
145
	PORTD |= (1 << PORTD1);
146
	DDRD |= (1 << DDD1);
147
 
148
	// USART0 Baud Rate Register
149
	// set clock divider
150
	UBRR0H = (uint8_t) (ubrr >> 8);
151
	UBRR0L = (uint8_t) ubrr;
152
 
153
	// USART0 Control and Status Register A, B, C
154
 
155
	// enable double speed operation in
156
	UCSR0A |= (1 << U2X0);
157
	// enable receiver and transmitter in
158
	UCSR0B = (1 << TXEN0) | (1 << RXEN0);
159
	// set asynchronous mode
160
	UCSR0C &= ~(1 << UMSEL01);
161
	UCSR0C &= ~(1 << UMSEL00);
162
	// no parity
163
	UCSR0C &= ~(1 << UPM01);
164
	UCSR0C &= ~(1 << UPM00);
165
	// 1 stop bit
166
	UCSR0C &= ~(1 << USBS0);
167
	// 8-bit
168
	UCSR0B &= ~(1 << UCSZ02);
169
	UCSR0C |= (1 << UCSZ01);
170
	UCSR0C |= (1 << UCSZ00);
171
 
172
	// flush receive buffer
173
	while (UCSR0A & (1 << RXC0))
174
		UDR0;
175
 
176
	// enable interrupts at the end
177
	// enable RX-Interrupt
178
	UCSR0B |= (1 << RXCIE0);
179
	// enable TX-Interrupt
180
	UCSR0B |= (1 << TXCIE0);
181
 
182
	// initialize the debug timer
2018 - 183
	debugData_timer = setDelay(debugData_interval);
1821 - 184
 
185
	// unlock rxd_buffer
186
	rxd_buffer_locked = FALSE;
187
	pRxData = 0;
2018 - 188
	rxDataLen = 0;
1821 - 189
 
190
	// no bytes to send
191
	txd_complete = TRUE;
192
 
2039 - 193
#ifdef USE_DIRECT_GPS
194
	toMk3MagTimer = setDelay(220);
1612 dongfang 195
#endif
1821 - 196
 
2018 - 197
	versionInfo.SWMajor = VERSION_MAJOR;
198
	versionInfo.SWMinor = VERSION_MINOR;
199
	versionInfo.SWPatch = VERSION_PATCH;
200
	versionInfo.protoMajor = VERSION_SERIAL_MAJOR;
201
	versionInfo.protoMinor = VERSION_SERIAL_MINOR;
1821 - 202
 
203
	// restore global interrupt flags
204
	SREG = sreg;
1612 dongfang 205
}
206
 
207
/****************************************************************/
208
/* USART0 transmitter ISR                                       */
209
/****************************************************************/
2018 - 210
ISR(USART0_TX_vect) {
1821 - 211
	static uint16_t ptr_txd_buffer = 0;
212
	uint8_t tmp_tx;
213
	if (!txd_complete) { // transmission not completed
214
		ptr_txd_buffer++; // die [0] wurde schon gesendet
215
		tmp_tx = txd_buffer[ptr_txd_buffer];
216
		// if terminating character or end of txd buffer was reached
217
		if ((tmp_tx == '\r') || (ptr_txd_buffer == TXD_BUFFER_LEN)) {
218
			ptr_txd_buffer = 0; // reset txd pointer
219
			txd_complete = 1; // stop transmission
220
		}
221
		UDR0 = tmp_tx; // send current byte will trigger this ISR again
222
	}
223
	// transmission completed
224
	else
225
		ptr_txd_buffer = 0;
1612 dongfang 226
}
227
 
228
/****************************************************************/
229
/* USART0 receiver               ISR                            */
230
/****************************************************************/
2018 - 231
ISR(USART0_RX_vect) {
1969 - 232
	static uint16_t checksum;
1821 - 233
	static uint8_t ptr_rxd_buffer = 0;
1969 - 234
	uint8_t checksum1, checksum2;
1821 - 235
	uint8_t c;
1612 dongfang 236
 
1821 - 237
	c = UDR0; // catch the received byte
1612 dongfang 238
 
1821 - 239
	if (rxd_buffer_locked)
240
		return; // if rxd buffer is locked immediately return
1612 dongfang 241
 
1821 - 242
	// the rxd buffer is unlocked
243
	if ((ptr_rxd_buffer == 0) && (c == '#')) { // if rxd buffer is empty and syncronisation character is received
244
		rxd_buffer[ptr_rxd_buffer++] = c; // copy 1st byte to buffer
1969 - 245
		checksum = c; // init checksum
1821 - 246
	}
247
	else if (ptr_rxd_buffer < RXD_BUFFER_LEN) { // collect incomming bytes
248
		if (c != '\r') { // no termination character
249
			rxd_buffer[ptr_rxd_buffer++] = c; // copy byte to rxd buffer
1969 - 250
			checksum += c; // update checksum
1821 - 251
		} else { // termination character was received
252
			// the last 2 bytes are no subject for checksum calculation
253
			// they are the checksum itself
1969 - 254
			checksum -= rxd_buffer[ptr_rxd_buffer - 2];
255
			checksum -= rxd_buffer[ptr_rxd_buffer - 1];
1821 - 256
			// calculate checksum from transmitted data
1969 - 257
			checksum %= 4096;
258
			checksum1 = '=' + checksum / 64;
259
			checksum2 = '=' + checksum % 64;
1821 - 260
			// compare checksum to transmitted checksum bytes
1969 - 261
			if ((checksum1 == rxd_buffer[ptr_rxd_buffer - 2]) && (checksum2
1821 - 262
					== rxd_buffer[ptr_rxd_buffer - 1])) {
263
				// checksum valid
264
				rxd_buffer[ptr_rxd_buffer] = '\r'; // set termination character
2018 - 265
				receivedBytes = ptr_rxd_buffer + 1;// store number of received bytes
1821 - 266
				rxd_buffer_locked = TRUE; // lock the rxd buffer
267
				// if 2nd byte is an 'R' enable watchdog that will result in an reset
268
				if (rxd_buffer[2] == 'R') {
269
					wdt_enable(WDTO_250MS);
270
				} // Reset-Commando
271
			} else { // checksum invalid
272
				rxd_buffer_locked = FALSE; // unlock rxd buffer
273
			}
274
			ptr_rxd_buffer = 0; // reset rxd buffer pointer
275
		}
276
	} else { // rxd buffer overrun
277
		ptr_rxd_buffer = 0; // reset rxd buffer
278
		rxd_buffer_locked = FALSE; // unlock rxd buffer
279
	}
1612 dongfang 280
}
281
 
282
// --------------------------------------------------------------------------
2055 - 283
void addChecksum(uint16_t datalen) {
1969 - 284
	uint16_t tmpchecksum = 0, i;
1821 - 285
	for (i = 0; i < datalen; i++) {
1969 - 286
		tmpchecksum += txd_buffer[i];
1821 - 287
	}
1969 - 288
	tmpchecksum %= 4096;
2059 - 289
	txd_buffer[i++] = '=' + (tmpchecksum >> 6);
290
	txd_buffer[i++] = '=' + (tmpchecksum & 0x3F);
1821 - 291
	txd_buffer[i++] = '\r';
292
	txd_complete = FALSE;
293
	UDR0 = txd_buffer[0]; // initiates the transmittion (continued in the TXD ISR)
1612 dongfang 294
}
295
 
296
// --------------------------------------------------------------------------
1775 - 297
// application example:
2018 - 298
// sendOutData('A', FC_ADDRESS, 2, (uint8_t *)&request_DebugLabel, sizeof(request_DebugLabel), label, 16);
1775 - 299
/*
2018 - 300
 void sendOutData(uint8_t cmd, uint8_t addr, uint8_t numofbuffers, ...) { // uint8_t *pdata, uint8_t len, ...
1821 - 301
 va_list ap;
302
 uint16_t txd_bufferIndex = 0;
303
 uint8_t *currentBuffer;
304
 uint8_t currentBufferIndex;
305
 uint16_t lengthOfCurrentBuffer;
306
 uint8_t shift = 0;
1775 - 307
 
1821 - 308
 txd_buffer[txd_bufferIndex++] = '#';			// Start character
309
 txd_buffer[txd_bufferIndex++] = 'a' + addr;	        // Address (a=0; b=1,...)
310
 txd_buffer[txd_bufferIndex++] = cmd;			// Command
1775 - 311
 
1821 - 312
 va_start(ap, numofbuffers);
313
 
314
 while(numofbuffers) {
315
 currentBuffer = va_arg(ap, uint8_t*);
316
 lengthOfCurrentBuffer = va_arg(ap, int);
317
 currentBufferIndex = 0;
318
 // Encode data: 3 bytes of data are encoded into 4 bytes,
319
 // where the 2 most significant bits are both 0.
320
 while(currentBufferIndex != lengthOfCurrentBuffer) {
321
 if (!shift) txd_buffer[txd_bufferIndex] = 0;
322
 txd_buffer[txd_bufferIndex]  |= currentBuffer[currentBufferIndex] >> (shift + 2);
323
 txd_buffer[++txd_bufferIndex] = (currentBuffer[currentBufferIndex] << (4 - shift)) & 0b00111111;
324
 shift += 2;
325
 if (shift == 6) { shift=0; txd_bufferIndex++; }
326
 currentBufferIndex++;
327
 }
328
 }
329
 // If the number of data bytes was not divisible by 3, stuff
330
 //  with 0 pseudodata  until length is again divisible by 3.
331
 if (shift == 2) {
332
 // We need to stuff with zero bytes at the end.
333
 txd_buffer[txd_bufferIndex]  &= 0b00110000;
334
 txd_buffer[++txd_bufferIndex] = 0;
335
 shift = 4;
336
 }
337
 if (shift == 4) {
338
 // We need to stuff with zero bytes at the end.
339
 txd_buffer[txd_bufferIndex++] &= 0b00111100;
340
 txd_buffer[txd_bufferIndex]    = 0;
341
 }
342
 va_end(ap);
1969 - 343
 Addchecksum(pt); // add checksum after data block and initates the transmission
1821 - 344
 }
345
 */
346
 
2018 - 347
void sendOutData(uint8_t cmd, uint8_t addr, uint8_t numofbuffers, ...) { // uint8_t *pdata, uint8_t len, ...
1821 - 348
	va_list ap;
349
	uint16_t pt = 0;
350
	uint8_t a, b, c;
351
	uint8_t ptr = 0;
1612 dongfang 352
 
1821 - 353
	uint8_t *pdata = 0;
354
	int len = 0;
1612 dongfang 355
 
1821 - 356
	txd_buffer[pt++] = '#'; // Start character
357
	txd_buffer[pt++] = 'a' + addr; // Address (a=0; b=1,...)
358
	txd_buffer[pt++] = cmd; // Command
359
 
360
	va_start(ap, numofbuffers);
361
 
362
	if (numofbuffers) {
363
		pdata = va_arg(ap, uint8_t*);
364
		len = va_arg(ap, int);
365
		ptr = 0;
366
		numofbuffers--;
367
	}
368
 
369
	while (len) {
370
		if (len) {
371
			a = pdata[ptr++];
372
			len--;
373
			if ((!len) && numofbuffers) {
374
				pdata = va_arg(ap, uint8_t*);
375
				len = va_arg(ap, int);
376
				ptr = 0;
377
				numofbuffers--;
378
			}
379
		} else
380
			a = 0;
381
		if (len) {
382
			b = pdata[ptr++];
383
			len--;
384
			if ((!len) && numofbuffers) {
385
				pdata = va_arg(ap, uint8_t*);
386
				len = va_arg(ap, int);
387
				ptr = 0;
388
				numofbuffers--;
389
			}
390
		} else
391
			b = 0;
392
		if (len) {
393
			c = pdata[ptr++];
394
			len--;
395
			if ((!len) && numofbuffers) {
396
				pdata = va_arg(ap, uint8_t*);
397
				len = va_arg(ap, int);
398
				ptr = 0;
399
				numofbuffers--;
400
			}
401
		} else
402
			c = 0;
403
		txd_buffer[pt++] = '=' + (a >> 2);
404
		txd_buffer[pt++] = '=' + (((a & 0x03) << 4) | ((b & 0xf0) >> 4));
405
		txd_buffer[pt++] = '=' + (((b & 0x0f) << 2) | ((c & 0xc0) >> 6));
406
		txd_buffer[pt++] = '=' + (c & 0x3f);
407
	}
408
	va_end(ap);
2055 - 409
	addChecksum(pt); // add checksum after data block and initates the transmission
1612 dongfang 410
}
411
 
412
// --------------------------------------------------------------------------
2055 - 413
void decode64(void) {
1821 - 414
	uint8_t a, b, c, d;
415
	uint8_t x, y, z;
416
	uint8_t ptrIn = 3;
417
	uint8_t ptrOut = 3;
2018 - 418
	uint8_t len = receivedBytes - 6;
1821 - 419
 
420
	while (len) {
421
		a = rxd_buffer[ptrIn++] - '=';
422
		b = rxd_buffer[ptrIn++] - '=';
423
		c = rxd_buffer[ptrIn++] - '=';
424
		d = rxd_buffer[ptrIn++] - '=';
425
		//if(ptrIn > ReceivedBytes - 3) break;
426
 
427
		x = (a << 2) | (b >> 4);
428
		y = ((b & 0x0f) << 4) | (c >> 2);
429
		z = ((c & 0x03) << 6) | d;
430
 
431
		if (len--)
432
			rxd_buffer[ptrOut++] = x;
433
		else
434
			break;
435
		if (len--)
436
			rxd_buffer[ptrOut++] = y;
437
		else
438
			break;
439
		if (len--)
440
			rxd_buffer[ptrOut++] = z;
441
		else
442
			break;
443
	}
444
	pRxData = &rxd_buffer[3];
2018 - 445
	rxDataLen = ptrOut - 3;
1612 dongfang 446
}
447
 
448
// --------------------------------------------------------------------------
2018 - 449
void usart0_processRxData(void) {
1821 - 450
	// We control the motorTestActive var from here: Count it down.
451
	if (motorTestActive)
452
		motorTestActive--;
453
	// if data in the rxd buffer are not locked immediately return
454
	if (!rxd_buffer_locked)
455
		return;
1980 - 456
	uint8_t tempchar[3];
2055 - 457
	decode64(); // decode data block in rxd_buffer
1775 - 458
 
1821 - 459
	switch (rxd_buffer[1] - 'a') {
1775 - 460
 
1821 - 461
	case FC_ADDRESS:
462
		switch (rxd_buffer[2]) {
2039 - 463
#ifdef USE_DIRECT_GPS
1821 - 464
		case 'K':// compass value
2041 - 465
		  // What is the point of this - the compass will overwrite this soon?
466
		magneticHeading = ((Heading_t *)pRxData)->heading;
1821 - 467
		// compassOffCourse = ((540 + compassHeading - compassCourse) % 360) - 180;
468
		break;
1612 dongfang 469
#endif
1821 - 470
		case 't': // motor test
2018 - 471
			if (rxDataLen > 20) {
1821 - 472
				memcpy(&motorTest[0], (uint8_t*) pRxData, sizeof(motorTest));
473
			} else {
474
				memcpy(&motorTest[0], (uint8_t*) pRxData, 4);
475
			}
476
			motorTestActive = 255;
477
			externalControlActive = 255;
478
			break;
1612 dongfang 479
 
1821 - 480
		case 'n':// "Get Mixer Table
481
			while (!txd_complete)
482
				; // wait for previous frame to be sent
2018 - 483
			sendOutData('N', FC_ADDRESS, 1, (uint8_t *) &mixerMatrix, sizeof(mixerMatrix));
1821 - 484
			break;
1612 dongfang 485
 
1821 - 486
		case 'm':// "Set Mixer Table
487
			if (pRxData[0] == EEMIXER_REVISION) {
1960 - 488
				memcpy(&mixerMatrix, (uint8_t*) pRxData, sizeof(mixerMatrix));
489
				mixerMatrix_writeToEEProm();
1821 - 490
				while (!txd_complete)
491
					; // wait for previous frame to be sent
1980 - 492
				tempchar[0] = 1;
1821 - 493
			} else {
1980 - 494
				tempchar[0] = 0;
1821 - 495
			}
2018 - 496
			sendOutData('M', FC_ADDRESS, 1, &tempchar, 1);
1821 - 497
			break;
1612 dongfang 498
 
1821 - 499
		case 'p': // get PPM channels
500
			request_PPMChannels = TRUE;
501
			break;
1612 dongfang 502
 
1821 - 503
		case 'q':// request settings
504
			if (pRxData[0] == 0xFF) {
1960 - 505
				pRxData[0] = getParamByte(PID_ACTIVE_SET);
1821 - 506
			}
507
			// limit settings range
508
			if (pRxData[0] < 1)
509
				pRxData[0] = 1; // limit to 1
510
			else if (pRxData[0] > 5)
511
				pRxData[0] = 5; // limit to 5
512
			// load requested parameter set
2059 - 513
 
1960 - 514
			paramSet_readFromEEProm(pRxData[0]);
2059 - 515
 
1980 - 516
			tempchar[0] = pRxData[0];
517
			tempchar[1] = EEPARAM_REVISION;
518
			tempchar[2] = sizeof(staticParams);
1821 - 519
			while (!txd_complete)
520
				; // wait for previous frame to be sent
2018 - 521
			sendOutData('Q', FC_ADDRESS, 2, &tempchar, 3, (uint8_t *) &staticParams, sizeof(staticParams));
1821 - 522
			break;
1612 dongfang 523
 
1821 - 524
		case 's': // save settings
525
			if (!(MKFlags & MKFLAG_MOTOR_RUN)) // save settings only if motors are off
526
			{
2051 - 527
				if ((1 <= pRxData[0]) && (pRxData[0] <= 5) && (pRxData[1] == EEPARAM_REVISION) && (pRxData[2] == sizeof(staticParams))) // check for setting to be in range and version of settings
1821 - 528
				{
2051 - 529
					memcpy(&staticParams, (uint8_t*) &pRxData[3], sizeof(staticParams));
1960 - 530
					paramSet_writeToEEProm(pRxData[0]);
2059 - 531
					setActiveParamSet(pRxData[0]);
532
					configuration_paramSetDidChange();
1980 - 533
					tempchar[0] = getActiveParamSet();
534
					beepNumber(tempchar[0]);
1821 - 535
				} else {
1980 - 536
					tempchar[0] = 0; //indicate bad data
1821 - 537
				}
538
				while (!txd_complete)
539
					; // wait for previous frame to be sent
2018 - 540
				sendOutData('S', FC_ADDRESS, 1, &tempchar, 1);
1821 - 541
			}
542
			break;
1612 dongfang 543
 
1821 - 544
		default:
545
			//unsupported command received
546
			break;
547
		} // case FC_ADDRESS:
1612 dongfang 548
 
1821 - 549
	default: // any Slave Address
550
		switch (rxd_buffer[2]) {
551
		case 'a':// request for labels of the analog debug outputs
2055 - 552
			requestedDebugLabel = pRxData[0];
553
			if (requestedDebugLabel > 31)
554
				requestedDebugLabel = 31;
1821 - 555
			break;
1612 dongfang 556
 
1821 - 557
		case 'b': // submit extern control
558
			memcpy(&externalControl, (uint8_t*) pRxData, sizeof(externalControl));
2018 - 559
			confirmFrame = externalControl.frame;
1821 - 560
			externalControlActive = 255;
561
			break;
1612 dongfang 562
 
1821 - 563
		case 'h':// request for display columns
2018 - 564
			remoteKeys |= pRxData[0];
565
			if (remoteKeys)
566
				displayLine = 0;
567
			request_display = TRUE;
1821 - 568
			break;
1612 dongfang 569
 
1821 - 570
		case 'l':// request for display columns
2018 - 571
			menuItem = pRxData[0];
572
			request_display1 = TRUE;
1821 - 573
			break;
1612 dongfang 574
 
2055 - 575
		case 'o':// request for OSD data (FC style)
576
		  OSD_interval = (uint16_t) pRxData[0] * 10;
577
		  if (OSD_interval > 0)
578
		    request_OSD = TRUE;
579
		  break;
580
 
1821 - 581
		case 'v': // request for version and board release
2018 - 582
			request_verInfo = TRUE;
1821 - 583
			break;
1775 - 584
 
1821 - 585
		case 'x':
586
			request_variables = TRUE;
587
			break;
1612 dongfang 588
 
1821 - 589
		case 'g':// get external control data
2018 - 590
			request_externalControl = TRUE;
1821 - 591
			break;
1612 dongfang 592
 
1821 - 593
		case 'd': // request for the debug data
2018 - 594
			debugData_interval = (uint16_t) pRxData[0] * 10;
595
			if (debugData_interval > 0)
596
				request_debugData = TRUE;
1821 - 597
			break;
1612 dongfang 598
 
1821 - 599
		case 'c': // request for the 3D data
2018 - 600
			data3D_interval = (uint16_t) pRxData[0] * 10;
601
			if (data3D_interval > 0)
602
				request_data3D = TRUE;
1821 - 603
			break;
604
 
605
		default:
606
			//unsupported command received
607
			break;
608
		}
609
		break; // default:
610
	}
611
	// unlock the rxd buffer after processing
612
	pRxData = 0;
2018 - 613
	rxDataLen = 0;
1821 - 614
	rxd_buffer_locked = FALSE;
1612 dongfang 615
}
616
 
1645 - 617
/************************************************************************/
2035 - 618
/* Routine f�r die Serielle Ausgabe                                     */
1645 - 619
/************************************************************************/
1821 - 620
int16_t uart_putchar(int8_t c) {
621
	if (c == '\n')
622
		uart_putchar('\r');
623
	// wait until previous character was send
624
	loop_until_bit_is_set(UCSR0A, UDRE0);
625
	// send character
626
	UDR0 = c;
627
	return (0);
1612 dongfang 628
}
629
 
630
//---------------------------------------------------------------------------------------------
2018 - 631
void usart0_transmitTxData(void) {
1821 - 632
	if (!txd_complete)
633
		return;
1612 dongfang 634
 
2018 - 635
	if (request_verInfo && txd_complete) {
636
		sendOutData('V', FC_ADDRESS, 1, (uint8_t *) &versionInfo, sizeof(versionInfo));
637
		request_verInfo = FALSE;
1821 - 638
	}
1612 dongfang 639
 
2018 - 640
	if (request_display && txd_complete) {
641
		LCD_printMenu();
642
		sendOutData('H', FC_ADDRESS, 2, &displayLine, sizeof(displayLine),
643
				&displayBuff[displayLine * 20], 20);
644
		displayLine++;
645
		if (displayLine >= 4)
646
			displayLine = 0;
647
		request_display = FALSE;
1821 - 648
	}
1612 dongfang 649
 
2018 - 650
	if (request_display1 && txd_complete) {
651
		LCD_printMenu();
652
		sendOutData('L', FC_ADDRESS, 3, &menuItem, sizeof(menuItem), &maxMenuItem,
653
				sizeof(maxMenuItem), displayBuff, sizeof(displayBuff));
654
		request_display1 = FALSE;
1821 - 655
	}
656
 
2055 - 657
	if (requestedDebugLabel != 0xFF && txd_complete) { // Texte f�r die Analogdaten
1821 - 658
		uint8_t label[16]; // local sram buffer
2055 - 659
		memcpy_P(label, ANALOG_LABEL[requestedDebugLabel], 16); // read lable from flash to sram buffer
660
		sendOutData('A', FC_ADDRESS, 2, (uint8_t *) &requestedDebugLabel,
661
				sizeof(requestedDebugLabel), label, 16);
662
		requestedDebugLabel = 0xFF;
1821 - 663
	}
664
 
2035 - 665
	if (confirmFrame && txd_complete) { // Datensatz ohne checksum best�tigen
2018 - 666
		sendOutData('B', FC_ADDRESS, 1, (uint8_t*) &confirmFrame, sizeof(confirmFrame));
667
		confirmFrame = 0;
1821 - 668
	}
669
 
2018 - 670
	if (((debugData_interval && checkDelay(debugData_timer)) || request_debugData)
1821 - 671
			&& txd_complete) {
2018 - 672
		sendOutData('D', FC_ADDRESS, 1, (uint8_t *) &debugOut, sizeof(debugOut));
673
		debugData_timer = setDelay(debugData_interval);
674
		request_debugData = FALSE;
1821 - 675
	}
676
 
2055 - 677
	if (((data3D_interval && checkDelay(data3D_timer)) || request_data3D) && txd_complete) {
2018 - 678
		sendOutData('C', FC_ADDRESS, 1, (uint8_t *) &data3D, sizeof(data3D));
2055 - 679
		data3D.anglePitch = (int16_t) (attitude[PITCH] / (GYRO_DEG_FACTOR_PITCHROLL/10)); // convert to multiple of 0.1 deg
680
		data3D.angleRoll = (int16_t) (attitude[ROLL] / (GYRO_DEG_FACTOR_PITCHROLL/10)); // convert to multiple of 0.1 deg
681
		data3D.heading = (int16_t) (heading / (GYRO_DEG_FACTOR_YAW/10)); // convert to multiple of 0.1 deg
2018 - 682
		data3D_timer = setDelay(data3D_interval);
683
		request_data3D = FALSE;
1821 - 684
	}
685
 
2018 - 686
	if (request_externalControl && txd_complete) {
687
		sendOutData('G', FC_ADDRESS, 1, (uint8_t *) &externalControl,
1821 - 688
				sizeof(externalControl));
2018 - 689
		request_externalControl = FALSE;
1821 - 690
	}
691
 
2039 - 692
#ifdef USE_DIRECT_GPS
693
	if((checkDelay(toMk3MagTimer)) && txd_complete) {
2048 - 694
		toMk3Mag.attitude[0] = (int16_t)(attitude[PITCH] / (GYRO_DEG_FACTOR_PITCHROLL/10)); // approx. 0.1 deg
695
		toMk3Mag.attitude[1] = (int16_t)(attitude[ROLL] / (GYRO_DEG_FACTOR_PITCHROLL/10)); // approx. 0.1 deg
2039 - 696
		toMk3Mag.userParam[0] = dynamicParams.userParams[0];
697
		toMk3Mag.userParam[1] = dynamicParams.userParams[1];
698
		toMk3Mag.calState = compassCalState;
2018 - 699
		sendOutData('w', MK3MAG_ADDRESS, 1,(uint8_t *) &toMk3Mag,sizeof(toMk3Mag));
1821 - 700
		// the last state is 5 and should be send only once to avoid multiple flash writing
701
		if(compassCalState > 4) compassCalState = 0;
2039 - 702
		toMk3MagTimer = setDelay(99);
1821 - 703
	}
1612 dongfang 704
#endif
705
 
2018 - 706
	if (request_motorTest && txd_complete) {
707
		sendOutData('T', FC_ADDRESS, 0);
708
		request_motorTest = FALSE;
1821 - 709
	}
1775 - 710
 
1821 - 711
	if (request_PPMChannels && txd_complete) {
2018 - 712
		sendOutData('P', FC_ADDRESS, 1, (uint8_t *) &PPM_in, sizeof(PPM_in));
1821 - 713
		request_PPMChannels = FALSE;
714
	}
715
 
716
	if (request_variables && txd_complete) {
2018 - 717
		sendOutData('X', FC_ADDRESS, 1, (uint8_t *) &variables, sizeof(variables));
1821 - 718
		request_variables = FALSE;
719
	}
2055 - 720
 
721
	if (((OSD_interval && checkDelay(OSD_timer)) || request_OSD) && txd_complete) {
722
	  int32_t height = analog_getHeight();
723
	  data3D.anglePitch = (int16_t) (attitude[PITCH] / (GYRO_DEG_FACTOR_PITCHROLL/10)); // convert to multiple of 0.1 deg
724
	  data3D.angleRoll = (int16_t) (attitude[ROLL] / (GYRO_DEG_FACTOR_PITCHROLL/10)); // convert to multiple of 0.1 deg
725
	  data3D.heading = (int16_t) (heading / (GYRO_DEG_FACTOR_YAW/10)); // convert to multiple of 0.1 deg
726
  	  sendOutData('O', FC_ADDRESS, 4, (uint8_t*)&data3D, sizeof(data3D), (uint8_t*)&GPSInfo, sizeof(GPSInfo), (uint8_t*)&height, sizeof(height), (uint8_t*)UBat, sizeof(UBat));
727
	  OSD_timer = setDelay(OSD_interval);
728
	  request_OSD = FALSE;
729
	}
1612 dongfang 730
}