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