vtx: fix VTX_SETTINGS_POWER_COUNT and add dummy entries to saPowerNames
[inav.git] / src / main / io / serial_4way.c
blobdd825050e1684e072776b1a8e3d14a8dd72c831f
1 /*
2 * This file is part of Cleanflight.
4 * Cleanflight is free software: you can redistribute it and/or modify
5 * it under the terms of the GNU General Public License as published by
6 * the Free Software Foundation, either version 3 of the License, or
7 * (at your option) any later version.
9 * Cleanflight is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 * GNU General Public License for more details.
14 * You should have received a copy of the GNU General Public License
15 * along with Cleanflight. If not, see <http://www.gnu.org/licenses/>.
16 * Author: 4712
19 #include <stdbool.h>
20 #include <stdint.h>
21 #include <string.h>
23 #include "platform.h"
25 #ifdef USE_SERIAL_4WAY_BLHELI_INTERFACE
27 #include "drivers/buf_writer.h"
28 #include "drivers/io.h"
29 #include "drivers/serial.h"
30 #include "drivers/timer.h"
31 #include "drivers/pwm_mapping.h"
32 #include "drivers/pwm_output.h"
33 #include "drivers/light_led.h"
34 #include "drivers/system.h"
36 #include "flight/mixer.h"
38 #include "io/beeper.h"
39 #include "io/serial_4way.h"
41 #ifdef USE_SERIAL_4WAY_BLHELI_BOOTLOADER
42 #include "io/serial_4way_avrootloader.h"
43 #endif
44 #if defined(USE_SERIAL_4WAY_SK_BOOTLOADER)
45 #include "io/serial_4way_stk500v2.h"
46 #endif
48 #if defined(USE_HAL_DRIVER)
49 #define Bit_RESET GPIO_PIN_RESET
50 #elif defined(AT32F43x)
51 #define Bit_RESET 0U
52 #endif
54 #define USE_TXRX_LED
56 #ifdef USE_TXRX_LED
57 #define RX_LED_OFF LED0_OFF
58 #define RX_LED_ON LED0_ON
59 #ifdef LED1
60 #define TX_LED_OFF LED1_OFF
61 #define TX_LED_ON LED1_ON
62 #else
63 #define TX_LED_OFF LED0_OFF
64 #define TX_LED_ON LED0_ON
65 #endif
66 #else
67 #define RX_LED_OFF
68 #define RX_LED_ON
69 #define TX_LED_OFF
70 #define TX_LED_ON
71 #endif
73 #define SERIAL_4WAY_INTERFACE_NAME_STR "m4wFCIntf"
74 // *** change to adapt Revision
75 #define SERIAL_4WAY_VER_MAIN 20
76 #define SERIAL_4WAY_VER_SUB_1 (uint8_t) 0
77 #define SERIAL_4WAY_VER_SUB_2 (uint8_t) 05
79 #define SERIAL_4WAY_PROTOCOL_VER 107
80 // *** end
82 #if (SERIAL_4WAY_VER_MAIN > 24)
83 #error "beware of SERIAL_4WAY_VER_SUB_1 is uint8_t"
84 #endif
86 #define SERIAL_4WAY_VERSION (uint16_t) ((SERIAL_4WAY_VER_MAIN * 1000) + (SERIAL_4WAY_VER_SUB_1 * 100) + SERIAL_4WAY_VER_SUB_2)
88 #define SERIAL_4WAY_VERSION_HI (uint8_t) (SERIAL_4WAY_VERSION / 100)
89 #define SERIAL_4WAY_VERSION_LO (uint8_t) (SERIAL_4WAY_VERSION % 100)
91 static uint8_t escCount;
93 escHardware_t escHardware[MAX_SUPPORTED_MOTORS];
95 uint8_t selected_esc;
97 uint8_32_u DeviceInfo;
99 #define DeviceInfoSize 4
101 inline bool isMcuConnected(void)
103 return (DeviceInfo.bytes[0] > 0);
106 inline bool isEscHi(uint8_t selEsc)
108 return (IORead(escHardware[selEsc].io) != Bit_RESET);
110 inline bool isEscLo(uint8_t selEsc)
112 return (IORead(escHardware[selEsc].io) == Bit_RESET);
115 inline void setEscHi(uint8_t selEsc)
117 IOHi(escHardware[selEsc].io);
120 inline void setEscLo(uint8_t selEsc)
122 IOLo(escHardware[selEsc].io);
125 inline void setEscInput(uint8_t selEsc)
127 IOConfigGPIO(escHardware[selEsc].io, IOCFG_IPU);
130 inline void setEscOutput(uint8_t selEsc)
132 IOConfigGPIO(escHardware[selEsc].io, IOCFG_OUT_PP);
135 uint8_t esc4wayInit(void)
137 // StopPwmAllMotors();
138 pwmDisableMotors();
139 escCount = 0;
140 memset(&escHardware, 0, sizeof(escHardware));
142 for (int idx = 0; idx < getMotorCount(); idx++) {
143 ioTag_t tag = pwmGetMotorPinTag(idx);
144 if (tag != IOTAG_NONE) {
145 escHardware[escCount].io = IOGetByTag(tag);
146 setEscInput(escCount);
147 setEscHi(escCount);
148 escCount++;
152 return escCount;
155 void esc4wayRelease(void)
157 while (escCount > 0) {
158 escCount--;
159 IOConfigGPIO(escHardware[escCount].io, IOCFG_AF_PP);
160 setEscLo(escCount);
162 pwmEnableMotors();
166 #define SET_DISCONNECTED DeviceInfo.words[0] = 0
168 #define INTF_MODE_IDX 3 // index for DeviceInfostate
170 // Interface related only
171 // establish and test connection to the Interface
173 // Send Structure
174 // ESC + CMD PARAM_LEN [PARAM (if len > 0)] CRC16_Hi CRC16_Lo
175 // Return
176 // ESC CMD PARAM_LEN [PARAM (if len > 0)] + ACK (uint8_t OK or ERR) + CRC16_Hi CRC16_Lo
178 #define cmd_Remote_Escape 0x2E // '.'
179 #define cmd_Local_Escape 0x2F // '/'
181 // Test Interface still present
182 #define cmd_InterfaceTestAlive 0x30 // '0' alive
183 // RETURN: ACK
185 // get Protocol Version Number 01..255
186 #define cmd_ProtocolGetVersion 0x31 // '1' version
187 // RETURN: uint8_t VersionNumber + ACK
189 // get Version String
190 #define cmd_InterfaceGetName 0x32 // '2' name
191 // RETURN: String + ACK
193 //get Version Number 01..255
194 #define cmd_InterfaceGetVersion 0x33 // '3' version
195 // RETURN: uint8_t AVersionNumber + ACK
198 // Exit / Restart Interface - can be used to switch to Box Mode
199 #define cmd_InterfaceExit 0x34 // '4' exit
200 // RETURN: ACK
202 // Reset the Device connected to the Interface
203 #define cmd_DeviceReset 0x35 // '5' reset
204 // RETURN: ACK
206 // Get the Device ID connected
207 // #define cmd_DeviceGetID 0x36 //'6' device id removed since 06/106
208 // RETURN: uint8_t DeviceID + ACK
210 // Initialize Flash Access for Device connected
211 #define cmd_DeviceInitFlash 0x37 // '7' init flash access
212 // RETURN: ACK
214 // Erase the whole Device Memory of connected Device
215 #define cmd_DeviceEraseAll 0x38 // '8' erase all
216 // RETURN: ACK
218 // Erase one Page of Device Memory of connected Device
219 #define cmd_DevicePageErase 0x39 // '9' page erase
220 // PARAM: uint8_t APageNumber
221 // RETURN: ACK
223 // Read to Buffer from Device Memory of connected Device // Buffer Len is Max 256 Bytes
224 // BuffLen = 0 means 256 Bytes
225 #define cmd_DeviceRead 0x3A // ':' read Device
226 // PARAM: uint8_t ADRESS_Hi + ADRESS_Lo + BuffLen[0..255]
227 // RETURN: PARAM: uint8_t ADRESS_Hi + ADRESS_Lo + BUffLen + Buffer[0..255] ACK
229 // Write to Buffer for Device Memory of connected Device // Buffer Len is Max 256 Bytes
230 // BuffLen = 0 means 256 Bytes
231 #define cmd_DeviceWrite 0x3B // ';' write
232 // PARAM: uint8_t ADRESS_Hi + ADRESS_Lo + BUffLen + Buffer[0..255]
233 // RETURN: ACK
235 // Set C2CK low infinite ) permanent Reset state
236 #define cmd_DeviceC2CK_LOW 0x3C // '<'
237 // RETURN: ACK
239 // Read to Buffer from Device Memory of connected Device //Buffer Len is Max 256 Bytes
240 // BuffLen = 0 means 256 Bytes
241 #define cmd_DeviceReadEEprom 0x3D // '=' read Device
242 // PARAM: uint8_t ADRESS_Hi + ADRESS_Lo + BuffLen[0..255]
243 // RETURN: PARAM: uint8_t ADRESS_Hi + ADRESS_Lo + BUffLen + Buffer[0..255] ACK
245 // Write to Buffer for Device Memory of connected Device // Buffer Len is Max 256 Bytes
246 // BuffLen = 0 means 256 Bytes
247 #define cmd_DeviceWriteEEprom 0x3E // '>' write
248 // PARAM: uint8_t ADRESS_Hi + ADRESS_Lo + BUffLen + Buffer[0..255]
249 // RETURN: ACK
251 // Set Interface Mode
252 #define cmd_InterfaceSetMode 0x3F // '?'
253 // #define imC2 0
254 // #define imSIL_BLB 1
255 // #define imATM_BLB 2
256 // #define imSK 3
257 // PARAM: uint8_t Mode
258 // RETURN: ACK or ACK_I_INVALID_CHANNEL
260 //Write to Buffer for Verify Device Memory of connected Device //Buffer Len is Max 256 Bytes
261 //BuffLen = 0 means 256 Bytes
262 #define cmd_DeviceVerify 0x40 //'@' write
263 //PARAM: uint8_t ADRESS_Hi + ADRESS_Lo + BUffLen + Buffer[0..255]
264 //RETURN: ACK
267 // responses
268 #define ACK_OK 0x00
269 // #define ACK_I_UNKNOWN_ERROR 0x01
270 #define ACK_I_INVALID_CMD 0x02
271 #define ACK_I_INVALID_CRC 0x03
272 #define ACK_I_VERIFY_ERROR 0x04
273 // #define ACK_D_INVALID_COMMAND 0x05
274 // #define ACK_D_COMMAND_FAILED 0x06
275 // #define ACK_D_UNKNOWN_ERROR 0x07
277 #define ACK_I_INVALID_CHANNEL 0x08
278 #define ACK_I_INVALID_PARAM 0x09
279 #define ACK_D_GENERAL_ERROR 0x0F
281 /* Copyright (c) 2002, 2003, 2004 Marek Michalkiewicz
282 Copyright (c) 2005, 2007 Joerg Wunsch
283 Copyright (c) 2013 Dave Hylands
284 Copyright (c) 2013 Frederic Nadeau
285 All rights reserved.
287 Redistribution and use in source and binary forms, with or without
288 modification, are permitted provided that the following conditions are met:
290 * Redistributions of source code must retain the above copyright
291 notice, this list of conditions and the following disclaimer.
293 * Redistributions in binary form must reproduce the above copyright
294 notice, this list of conditions and the following disclaimer in
295 the documentation and/or other materials provided with the
296 distribution.
298 * Neither the name of the copyright holders nor the names of
299 contributors may be used to endorse or promote products derived
300 from this software without specific prior written permission.
302 THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
303 AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
304 IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
305 ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
306 LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
307 CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
308 SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
309 INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
310 CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
311 ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
312 POSSIBILITY OF SUCH DAMAGE. */
313 uint16_t _crc_xmodem_update (uint16_t crc, uint8_t data) {
314 int i;
316 crc = crc ^ ((uint16_t)data << 8);
317 for (i=0; i < 8; i++) {
318 if (crc & 0x8000)
319 crc = (crc << 1) ^ 0x1021;
320 else
321 crc <<= 1;
323 return crc;
325 // * End copyright
328 #define ATMEL_DEVICE_MATCH ((pDeviceInfo->words[0] == 0x9307) || (pDeviceInfo->words[0] == 0x930A) || \
329 (pDeviceInfo->words[0] == 0x930F) || (pDeviceInfo->words[0] == 0x940B))
331 #define SILABS_DEVICE_MATCH ((pDeviceInfo->words[0] == 0xF310)||(pDeviceInfo->words[0] == 0xF330) || \
332 (pDeviceInfo->words[0] == 0xF410) || (pDeviceInfo->words[0] == 0xF390) || \
333 (pDeviceInfo->words[0] == 0xF850) || (pDeviceInfo->words[0] == 0xE8B1) || \
334 (pDeviceInfo->words[0] == 0xE8B2))
336 // BLHeli_32 MCU ID hi > 0x00 and < 0x90 / lo always = 0x06
337 #define ARM_DEVICE_MATCH ((pDeviceInfo->bytes[1] > 0x00) && (pDeviceInfo->bytes[1] < 0x90) && (pDeviceInfo->bytes[0] == 0x06))
339 static uint8_t CurrentInterfaceMode;
341 static uint8_t Connect(uint8_32_u *pDeviceInfo)
343 for (uint8_t I = 0; I < 3; ++I) {
344 #if (defined(USE_SERIAL_4WAY_BLHELI_BOOTLOADER) && defined(USE_SERIAL_4WAY_SK_BOOTLOADER))
345 if ((CurrentInterfaceMode != imARM_BLB) && Stk_ConnectEx(pDeviceInfo) && ATMEL_DEVICE_MATCH) {
346 CurrentInterfaceMode = imSK;
347 return 1;
348 } else {
349 if (BL_ConnectEx(pDeviceInfo)) {
350 if SILABS_DEVICE_MATCH {
351 CurrentInterfaceMode = imSIL_BLB;
352 return 1;
353 } else if ATMEL_DEVICE_MATCH {
354 CurrentInterfaceMode = imATM_BLB;
355 return 1;
356 } else if ARM_DEVICE_MATCH {
357 CurrentInterfaceMode = imARM_BLB;
358 return 1;
362 #elif defined(USE_SERIAL_4WAY_BLHELI_BOOTLOADER)
363 if (BL_ConnectEx(pDeviceInfo)) {
364 if SILABS_DEVICE_MATCH {
365 CurrentInterfaceMode = imSIL_BLB;
366 return 1;
367 } else if ATMEL_DEVICE_MATCH {
368 CurrentInterfaceMode = imATM_BLB;
369 return 1;
370 } else if ARM_DEVICE_MATCH {
371 CurrentInterfaceMode = imARM_BLB;
372 return 1;
375 #elif defined(USE_SERIAL_4WAY_SK_BOOTLOADER)
376 if (Stk_ConnectEx(pDeviceInfo)) {
377 CurrentInterfaceMode = imSK;
378 if ATMEL_DEVICE_MATCH return 1;
380 #endif
382 return 0;
385 static serialPort_t *port;
387 static uint8_t ReadByte(void)
389 // need timeout?
390 while (!serialRxBytesWaiting(port));
391 return serialRead(port);
394 static uint8_16_u CRC_in;
395 static uint8_t ReadByteCrc(void)
397 uint8_t b = ReadByte();
398 CRC_in.word = _crc_xmodem_update(CRC_in.word, b);
399 return b;
402 static void WriteByte(uint8_t b)
404 serialWrite(port, b);
407 static uint8_16_u CRCout;
408 static void WriteByteCrc(uint8_t b)
410 WriteByte(b);
411 CRCout.word = _crc_xmodem_update(CRCout.word, b);
414 void esc4wayProcess(serialPort_t *mspPort)
417 uint8_t ParamBuf[256];
418 uint8_t ESC;
419 uint8_t I_PARAM_LEN;
420 uint8_t CMD;
421 uint8_t ACK_OUT;
422 uint8_16_u CRC_check;
423 uint8_16_u Dummy;
424 uint8_t O_PARAM_LEN;
425 uint8_t *O_PARAM;
426 uint8_t *InBuff;
427 ioMem_t ioMem;
429 port = mspPort;
431 // Start here with UART Main loop
432 #if defined(BEEPER) || defined(USE_DSHOT)
433 // fix for buzzer often starts beeping continuously when the ESCs are read
434 // switch beeper silent here
435 beeperSilence();
436 #endif
437 bool isExitScheduled = false;
439 while (1) {
440 // restart looking for new sequence from host
441 do {
442 CRC_in.word = 0;
443 ESC = ReadByteCrc();
444 } while (ESC != cmd_Local_Escape);
446 RX_LED_ON;
448 Dummy.word = 0;
449 O_PARAM = &Dummy.bytes[0];
450 O_PARAM_LEN = 1;
451 CMD = ReadByteCrc();
452 ioMem.D_FLASH_ADDR_H = ReadByteCrc();
453 ioMem.D_FLASH_ADDR_L = ReadByteCrc();
454 I_PARAM_LEN = ReadByteCrc();
456 InBuff = ParamBuf;
457 uint8_t i = I_PARAM_LEN;
458 do {
459 *InBuff = ReadByteCrc();
460 InBuff++;
461 i--;
462 } while (i != 0);
464 CRC_check.bytes[1] = ReadByte();
465 CRC_check.bytes[0] = ReadByte();
467 if (CRC_check.word == CRC_in.word) {
468 ACK_OUT = ACK_OK;
469 } else {
470 ACK_OUT = ACK_I_INVALID_CRC;
473 TX_LED_ON;
475 if (ACK_OUT == ACK_OK)
477 // wtf.D_FLASH_ADDR_H=Adress_H;
478 // wtf.D_FLASH_ADDR_L=Adress_L;
479 ioMem.D_PTR_I = ParamBuf;
482 switch (CMD) {
483 // ******* Interface related stuff *******
484 case cmd_InterfaceTestAlive:
486 if (isMcuConnected()) {
487 switch (CurrentInterfaceMode)
489 #ifdef USE_SERIAL_4WAY_BLHELI_BOOTLOADER
490 case imATM_BLB:
491 case imSIL_BLB:
492 case imARM_BLB:
494 if (!BL_SendCMDKeepAlive()) { // SetStateDisconnected() included
495 ACK_OUT = ACK_D_GENERAL_ERROR;
497 break;
499 #endif
500 #ifdef USE_SERIAL_4WAY_SK_BOOTLOADER
501 case imSK:
503 if (!Stk_SignOn()) { // SetStateDisconnected();
504 ACK_OUT = ACK_D_GENERAL_ERROR;
506 break;
508 #endif
509 default:
510 ACK_OUT = ACK_D_GENERAL_ERROR;
512 if ( ACK_OUT != ACK_OK) SET_DISCONNECTED;
514 break;
516 case cmd_ProtocolGetVersion:
518 // Only interface itself, no matter what Device
519 Dummy.bytes[0] = SERIAL_4WAY_PROTOCOL_VER;
520 break;
523 case cmd_InterfaceGetName:
525 // Only interface itself, no matter what Device
526 // O_PARAM_LEN=16;
527 O_PARAM_LEN = strlen(SERIAL_4WAY_INTERFACE_NAME_STR);
528 O_PARAM = (uint8_t *)SERIAL_4WAY_INTERFACE_NAME_STR;
529 break;
532 case cmd_InterfaceGetVersion:
534 // Only interface itself, no matter what Device
535 // Dummy = iUart_res_InterfVersion;
536 O_PARAM_LEN = 2;
537 Dummy.bytes[0] = SERIAL_4WAY_VERSION_HI;
538 Dummy.bytes[1] = SERIAL_4WAY_VERSION_LO;
539 break;
541 case cmd_InterfaceExit:
543 isExitScheduled = true;
544 break;
546 case cmd_InterfaceSetMode:
548 #if defined(USE_SERIAL_4WAY_BLHELI_BOOTLOADER) && defined(USE_SERIAL_4WAY_SK_BOOTLOADER)
549 if ((ParamBuf[0] <= imARM_BLB) && (ParamBuf[0] >= imSIL_BLB)) {
550 #elif defined(USE_SERIAL_4WAY_BLHELI_BOOTLOADER)
551 if (((ParamBuf[0] <= imATM_BLB)||(ParamBuf[0] == imARM_BLB)) && (ParamBuf[0] >= imSIL_BLB)) {
552 #elif defined(USE_SERIAL_4WAY_SK_BOOTLOADER)
553 if (ParamBuf[0] == imSK) {
554 #endif
555 CurrentInterfaceMode = ParamBuf[0];
556 } else {
557 ACK_OUT = ACK_I_INVALID_PARAM;
559 break;
562 case cmd_DeviceReset:
564 if (ParamBuf[0] < escCount) {
565 // Channel may change here
566 selected_esc = ParamBuf[0];
568 else {
569 ACK_OUT = ACK_I_INVALID_CHANNEL;
570 break;
572 switch (CurrentInterfaceMode)
574 case imSIL_BLB:
575 #ifdef USE_SERIAL_4WAY_BLHELI_BOOTLOADER
576 case imATM_BLB:
577 case imARM_BLB:
579 BL_SendCMDRunRestartBootloader(&DeviceInfo);
580 break;
582 #endif
583 #ifdef USE_SERIAL_4WAY_SK_BOOTLOADER
584 case imSK:
586 break;
588 #endif
590 SET_DISCONNECTED;
591 break;
593 case cmd_DeviceInitFlash:
595 SET_DISCONNECTED;
596 if (ParamBuf[0] < escCount) {
597 //Channel may change here
598 //ESC_LO or ESC_HI; Halt state for prev channel
599 selected_esc = ParamBuf[0];
600 } else {
601 ACK_OUT = ACK_I_INVALID_CHANNEL;
602 break;
604 O_PARAM_LEN = DeviceInfoSize; //4
605 O_PARAM = (uint8_t *)&DeviceInfo;
606 if (Connect(&DeviceInfo)) {
607 DeviceInfo.bytes[INTF_MODE_IDX] = CurrentInterfaceMode;
608 } else {
609 SET_DISCONNECTED;
610 ACK_OUT = ACK_D_GENERAL_ERROR;
612 break;
615 #ifdef USE_SERIAL_4WAY_SK_BOOTLOADER
616 case cmd_DeviceEraseAll:
618 switch (CurrentInterfaceMode)
620 case imSK:
622 if (!Stk_Chip_Erase()) ACK_OUT=ACK_D_GENERAL_ERROR;
623 break;
625 default:
626 ACK_OUT = ACK_I_INVALID_CMD;
628 break;
630 #endif
632 #ifdef USE_SERIAL_4WAY_BLHELI_BOOTLOADER
633 case cmd_DevicePageErase:
635 switch (CurrentInterfaceMode)
637 case imSIL_BLB:
638 case imARM_BLB:
640 Dummy.bytes[0] = ParamBuf[0];
641 if (CurrentInterfaceMode == imARM_BLB) {
642 // Address =Page * 1024
643 ioMem.D_FLASH_ADDR_H = (Dummy.bytes[0] << 2);
644 } else {
645 // Address =Page * 512
646 ioMem.D_FLASH_ADDR_H = (Dummy.bytes[0] << 1);
648 ioMem.D_FLASH_ADDR_L = 0;
649 if (!BL_PageErase(&ioMem)) ACK_OUT = ACK_D_GENERAL_ERROR;
650 break;
652 default:
653 ACK_OUT = ACK_I_INVALID_CMD;
655 break;
657 #endif
659 //*** Device Memory Read Ops ***
660 case cmd_DeviceRead:
662 ioMem.D_NUM_BYTES = ParamBuf[0];
664 wtf.D_FLASH_ADDR_H=Adress_H;
665 wtf.D_FLASH_ADDR_L=Adress_L;
666 wtf.D_PTR_I = BUF_I;
668 switch (CurrentInterfaceMode)
670 #ifdef USE_SERIAL_4WAY_BLHELI_BOOTLOADER
671 case imSIL_BLB:
672 case imATM_BLB:
673 case imARM_BLB:
675 if (!BL_ReadFlash(CurrentInterfaceMode, &ioMem))
677 ACK_OUT = ACK_D_GENERAL_ERROR;
679 break;
681 #endif
682 #ifdef USE_SERIAL_4WAY_SK_BOOTLOADER
683 case imSK:
685 if (!Stk_ReadFlash(&ioMem))
687 ACK_OUT = ACK_D_GENERAL_ERROR;
689 break;
691 #endif
692 default:
693 ACK_OUT = ACK_I_INVALID_CMD;
695 if (ACK_OUT == ACK_OK)
697 O_PARAM_LEN = ioMem.D_NUM_BYTES;
698 O_PARAM = (uint8_t *)&ParamBuf;
700 break;
703 case cmd_DeviceReadEEprom:
705 ioMem.D_NUM_BYTES = ParamBuf[0];
707 wtf.D_FLASH_ADDR_H = Adress_H;
708 wtf.D_FLASH_ADDR_L = Adress_L;
709 wtf.D_PTR_I = BUF_I;
711 switch (CurrentInterfaceMode)
713 #ifdef USE_SERIAL_4WAY_BLHELI_BOOTLOADER
714 case imATM_BLB:
716 if (!BL_ReadEEprom(&ioMem))
718 ACK_OUT = ACK_D_GENERAL_ERROR;
720 break;
722 #endif
723 #ifdef USE_SERIAL_4WAY_SK_BOOTLOADER
724 case imSK:
726 if (!Stk_ReadEEprom(&ioMem))
728 ACK_OUT = ACK_D_GENERAL_ERROR;
730 break;
732 #endif
733 default:
734 ACK_OUT = ACK_I_INVALID_CMD;
736 if (ACK_OUT == ACK_OK)
738 O_PARAM_LEN = ioMem.D_NUM_BYTES;
739 O_PARAM = (uint8_t *)&ParamBuf;
741 break;
744 //*** Device Memory Write Ops ***
745 case cmd_DeviceWrite:
747 ioMem.D_NUM_BYTES = I_PARAM_LEN;
749 wtf.D_FLASH_ADDR_H=Adress_H;
750 wtf.D_FLASH_ADDR_L=Adress_L;
751 wtf.D_PTR_I = BUF_I;
753 switch (CurrentInterfaceMode)
755 #ifdef USE_SERIAL_4WAY_BLHELI_BOOTLOADER
756 case imSIL_BLB:
757 case imATM_BLB:
758 case imARM_BLB:
760 if (!BL_WriteFlash(&ioMem)) {
761 ACK_OUT = ACK_D_GENERAL_ERROR;
763 break;
765 #endif
766 #ifdef USE_SERIAL_4WAY_SK_BOOTLOADER
767 case imSK:
769 if (!Stk_WriteFlash(&ioMem))
771 ACK_OUT = ACK_D_GENERAL_ERROR;
773 break;
775 #endif
777 break;
780 case cmd_DeviceWriteEEprom:
782 ioMem.D_NUM_BYTES = I_PARAM_LEN;
783 ACK_OUT = ACK_D_GENERAL_ERROR;
785 wtf.D_FLASH_ADDR_H=Adress_H;
786 wtf.D_FLASH_ADDR_L=Adress_L;
787 wtf.D_PTR_I = BUF_I;
789 switch (CurrentInterfaceMode)
791 #ifdef USE_SERIAL_4WAY_BLHELI_BOOTLOADER
792 case imSIL_BLB:
794 ACK_OUT = ACK_I_INVALID_CMD;
795 break;
797 case imATM_BLB:
799 if (BL_WriteEEprom(&ioMem))
801 ACK_OUT = ACK_OK;
803 break;
805 #endif
806 #ifdef USE_SERIAL_4WAY_SK_BOOTLOADER
807 case imSK:
809 if (Stk_WriteEEprom(&ioMem))
811 ACK_OUT = ACK_OK;
813 break;
815 #endif
817 break;
819 //*** Device Memory Verify Ops ***
820 #ifdef USE_SERIAL_4WAY_BLHELI_BOOTLOADER
821 case cmd_DeviceVerify:
823 switch (CurrentInterfaceMode)
825 case imARM_BLB:
827 ioMem.D_NUM_BYTES = I_PARAM_LEN;
829 wtf.D_FLASH_ADDR_H=Adress_H;
830 wtf.D_FLASH_ADDR_L=Adress_L;
831 wtf.D_PTR_I = BUF_I;
834 ACK_OUT = BL_VerifyFlash(&ioMem);
835 switch (ACK_OUT) {
836 case brSUCCESS:
837 ACK_OUT = ACK_OK;
838 break;
839 case brERRORVERIFY:
840 ACK_OUT = ACK_I_VERIFY_ERROR;
841 break;
842 default:
843 ACK_OUT = ACK_D_GENERAL_ERROR;
844 break;
846 break;
848 default:
850 ACK_OUT = ACK_I_INVALID_CMD;
851 break;
854 break;
856 #endif
857 default:
859 ACK_OUT = ACK_I_INVALID_CMD;
864 CRCout.word = 0;
866 RX_LED_OFF;
868 serialBeginWrite(port);
869 WriteByteCrc(cmd_Remote_Escape);
870 WriteByteCrc(CMD);
871 WriteByteCrc(ioMem.D_FLASH_ADDR_H);
872 WriteByteCrc(ioMem.D_FLASH_ADDR_L);
873 WriteByteCrc(O_PARAM_LEN);
875 i=O_PARAM_LEN;
876 do {
877 while (!serialTxBytesFree(port));
879 WriteByteCrc(*O_PARAM);
880 O_PARAM++;
881 i--;
882 } while (i > 0);
884 WriteByteCrc(ACK_OUT);
885 WriteByte(CRCout.bytes[1]);
886 WriteByte(CRCout.bytes[0]);
887 serialEndWrite(port);
889 TX_LED_OFF;
890 if (isExitScheduled) {
891 esc4wayRelease();
892 return;
899 #endif