├── LICENSE
├── Makefile
├── README
├── k5_flash.raw
├── k5prog.c
├── uvk5.h
└── uvk5_original_eeprom.raw


/LICENSE:
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563 |   14. Revised Versions of this License.
564 | 
565 |   The Free Software Foundation may publish revised and/or new versions of
566 | the GNU General Public License from time to time.  Such new versions will
567 | be similar in spirit to the present version, but may differ in detail to
568 | address new problems or concerns.
569 | 
570 |   Each version is given a distinguishing version number.  If the
571 | Program specifies that a certain numbered version of the GNU General
572 | Public License "or any later version" applies to it, you have the
573 | option of following the terms and conditions either of that numbered
574 | version or of any later version published by the Free Software
575 | Foundation.  If the Program does not specify a version number of the
576 | GNU General Public License, you may choose any version ever published
577 | by the Free Software Foundation.
578 | 
579 |   If the Program specifies that a proxy can decide which future
580 | versions of the GNU General Public License can be used, that proxy's
581 | public statement of acceptance of a version permanently authorizes you
582 | to choose that version for the Program.
583 | 
584 |   Later license versions may give you additional or different
585 | permissions.  However, no additional obligations are imposed on any
586 | author or copyright holder as a result of your choosing to follow a
587 | later version.
588 | 
589 |   15. Disclaimer of Warranty.
590 | 
591 |   THERE IS NO WARRANTY FOR THE PROGRAM, TO THE EXTENT PERMITTED BY
592 | APPLICABLE LAW.  EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT
593 | HOLDERS AND/OR OTHER PARTIES PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY
594 | OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO,
595 | THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
596 | PURPOSE.  THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE PROGRAM
597 | IS WITH YOU.  SHOULD THE PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF
598 | ALL NECESSARY SERVICING, REPAIR OR CORRECTION.
599 | 
600 |   16. Limitation of Liability.
601 | 
602 |   IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING
603 | WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MODIFIES AND/OR CONVEYS
604 | THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY
605 | GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE
606 | USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED TO LOSS OF
607 | DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD
608 | PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS),
609 | EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF
610 | SUCH DAMAGES.
611 | 
612 |   17. Interpretation of Sections 15 and 16.
613 | 
614 |   If the disclaimer of warranty and limitation of liability provided
615 | above cannot be given local legal effect according to their terms,
616 | reviewing courts shall apply local law that most closely approximates
617 | an absolute waiver of all civil liability in connection with the
618 | Program, unless a warranty or assumption of liability accompanies a
619 | copy of the Program in return for a fee.
620 | 
621 |                      END OF TERMS AND CONDITIONS
622 | 
623 |             How to Apply These Terms to Your New Programs
624 | 
625 |   If you develop a new program, and you want it to be of the greatest
626 | possible use to the public, the best way to achieve this is to make it
627 | free software which everyone can redistribute and change under these terms.
628 | 
629 |   To do so, attach the following notices to the program.  It is safest
630 | to attach them to the start of each source file to most effectively
631 | state the exclusion of warranty; and each file should have at least
632 | the "copyright" line and a pointer to where the full notice is found.
633 | 
634 |     <one line to give the program's name and a brief idea of what it does.>
635 |     Copyright (C) <year>  <name of author>
636 | 
637 |     This program is free software: you can redistribute it and/or modify
638 |     it under the terms of the GNU General Public License as published by
639 |     the Free Software Foundation, either version 3 of the License, or
640 |     (at your option) any later version.
641 | 
642 |     This program is distributed in the hope that it will be useful,
643 |     but WITHOUT ANY WARRANTY; without even the implied warranty of
644 |     MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
645 |     GNU General Public License for more details.
646 | 
647 |     You should have received a copy of the GNU General Public License
648 |     along with this program.  If not, see <https://www.gnu.org/licenses/>.
649 | 
650 | Also add information on how to contact you by electronic and paper mail.
651 | 
652 |   If the program does terminal interaction, make it output a short
653 | notice like this when it starts in an interactive mode:
654 | 
655 |     <program>  Copyright (C) <year>  <name of author>
656 |     This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
657 |     This is free software, and you are welcome to redistribute it
658 |     under certain conditions; type `show c' for details.
659 | 
660 | The hypothetical commands `show w' and `show c' should show the appropriate
661 | parts of the General Public License.  Of course, your program's commands
662 | might be different; for a GUI interface, you would use an "about box".
663 | 
664 |   You should also get your employer (if you work as a programmer) or school,
665 | if any, to sign a "copyright disclaimer" for the program, if necessary.
666 | For more information on this, and how to apply and follow the GNU GPL, see
667 | <https://www.gnu.org/licenses/>.
668 | 
669 |   The GNU General Public License does not permit incorporating your program
670 | into proprietary programs.  If your program is a subroutine library, you
671 | may consider it more useful to permit linking proprietary applications with
672 | the library.  If this is what you want to do, use the GNU Lesser General
673 | Public License instead of this License.  But first, please read
674 | <https://www.gnu.org/licenses/why-not-lgpl.html>.
675 | 


--------------------------------------------------------------------------------
/Makefile:
--------------------------------------------------------------------------------
 1 | # Makefile for k5prog
 2 | 
 3 | CC=gcc
 4 | COPTS=-g -O2 -Wall
 5 | 
 6 | default: k5prog
 7 | 
 8 | k5prog: k5prog.c uvk5.h
 9 | 	$(CC) $(COPTS) k5prog.c -o k5prog
10 | 
11 | clean:
12 | 	rm k5prog
13 | 


--------------------------------------------------------------------------------
/README:
--------------------------------------------------------------------------------
  1 | k5prog - Quansheng UV-K5 EEPROM and flash programmer  v0.9
  2 | (c) 2023 Jacek Lipkowski <sq5bpf@lipkowski.org>
  3 | 
  4 | This program can read and write the EEPROM of Quansheng UV-K5.
  5 | It can read/write arbitrary data, and might be useful for making backups of
  6 | the configuration, mass programming of radios or reverse engineering of 
  7 | the radio configuration. Please note that it is probably possible to break 
  8 | your radio by writing a bad configuration to it, so please use at your own 
  9 | risk.
 10 | 
 11 | Note that this program does not edit the contents of the EEPROM. Use an
 12 | external hex editor.
 13 | 
 14 | 
 15 | The program can also flash the firmware on the Quansheng UV-K5. This will
 16 | flash the raw binary, and not the Quansheng-encrypted firmware files. 
 17 | A Quansheng-encrypted firmware can be decrypted using the fw.py script from
 18 | here:
 19 | https://github.com/fagci/qs-uvk5-firmware-modder
 20 | An example decrypted file is provided in k5_flash_test.raw, this is the vendor
 21 | 2.01.23 firmware without any modifications.
 22 | Please use extreme caution, as reprogramming the radioflash can potentially
 23 | brick your radio. If unsure, please use the vendor flashing software.
 24 | 
 25 | The flashing support in k5prog was used in at least 2 cases to recover radios
 26 | which were bricked by flashing firmware using the vendor flasher. I don't know
 27 | why this worked, but it did.
 28 | 
 29 | 
 30 | To compile, please see the compiling section at the end.
 31 | 
 32 | 
 33 | The program is written to (hopefully) run on POSIX systems. Testing was done 
 34 | on GNU/Linux, but macOS and Windows under Cygwin should work too. 
 35 | 
 36 | For licensing see the file LICENSE.
 37 | 
 38 | 
 39 | ---- Usage ----
 40 | 
 41 | to display help run the program without arguments, or with the -h option. 
 42 | 
 43 | The configuration options are:
 44 | Quansheng UV-K5 EEPROM programmer v0.8 (c) 2023 Jacek Lipkowski <sq5bpf@lipkowski.org>
 45 | 
 46 | cmdline opts:
 47 | -f <file>       filename that contains the EEPROM dump (default: k5_eeprom.raw)
 48 | -b <file>       filename that contains the raw flash image (default k5_flash.raw)
 49 | -Y      increase "I know what I'm doing" value, to enable functionality likely to break the radio
 50 | -D      wait for the message from the radio flasher, print it's version
 51 | -F      flash firmware, WARNING: this will likely brick your radio!
 52 | -M <ver>        Set the firmware major version to <ver> during the flash process (default: *.01.23)
 53 | -r      read EEPROM
 54 | -w      write EEPROM like the original software does
 55 | -W      write most of the EEPROM (but without what I think is calibration data)
 56 | -B      write ALL of the EEPROM (the "brick my radio" mode)
 57 | -p <port>       device name (default: /dev/ttyUSB0)
 58 | -s <speed>      serial speed (default: 38400, the UV-K5 doesn't accept any other speed)
 59 | -h      print this help
 60 | -v      be verbose, use multiple times for more verbosity
 61 | 
 62 | 
 63 | ---- Reading/writing the configuration EEPROM ----
 64 | 
 65 | For a basic usage use -r to read EEPROM, -w to write EEPROM. The -v option
 66 | gives more verbosity.
 67 | 
 68 | Read configuration:
 69 | 
 70 | sq5bpf@chronos:~/k5prog$ ./k5prog -r -v
 71 | Quansheng UV-K5 EEPROM programmer v0.5 (c) 2023 Jacek Lipkowski <sq5bpf@lipkowski.org>
 72 | 
 73 | k5_prepare: try 0
 74 | ******  Connected to firmware version: [k5_2.01.23]
 75 | Successfully read EEPROM
 76 | 
 77 | 
 78 | The EEPROM contents are written to the file k5_eeprom.raw, this can be
 79 | changed with the -f option.
 80 | 
 81 | 
 82 | Write configuration from file k5_eeprom.raw:
 83 | 
 84 | sq5bpf@chronos:~/chirp/k5prog$ ./k5prog -w -v
 85 | Quansheng UV-K5 EEPROM programmer v0.5 (c) 2023 Jacek Lipkowski <sq5bpf@lipkowski.org>
 86 | 
 87 | k5_prepare: try 0
 88 | ******  Connected to firmware version: [k5_2.01.23]
 89 | Read file k5_eeprom.raw success
 90 | Successfully wrote EEPROM
 91 | 
 92 | 
 93 | 
 94 | The -w option writes only the memory blocks which are written by the original
 95 | radio software, in the same order. 
 96 | 
 97 | The -W option is a bit braver as it writes all memory upto 0x1d00. I _think_
 98 | that the radio has calibration data above this address, but of course this is
 99 | not certain, because this knowledge is a result of reverse engineering, and not
100 | information from the manufacturer.
101 | 
102 | 
103 | The -B option is the "brick my radio" mode. It writes all memory, possibly 
104 | allowing overwriting of calibration data (if there is any) or other data which
105 | may be critical to the proper functioning of your radio. I have used this on
106 | my radio, and it still works but please be extra-careful.
107 | 
108 | I have written the radio EEPROM with the -W option tens of times, and others 
109 | have too. So far it hasn't produced any bad results. But of course beware.
110 | 
111 | 
112 | ---- Flashing support ----
113 | 
114 | The flashing support is for the really brave people who know what they are
115 | doing (hence the -Y flag is needed).
116 | 
117 | It is possible to read the bootloader version using the -D option. This option
118 | is safe, but needs the -Y value. Put the radio into flash mode and:
119 | 
120 | ./k5prog -Y -D
121 | 
122 | Quansheng UV-K5 EEPROM programmer v0.5 (c) 2023 Jacek Lipkowski <sq5bpf@lipkowski.org>
123 | 
124 | "I know what I'm doing" value set to 1
125 | ********  k5 command hexdump [obf_len:44 clear_len:36 crc_ok:1 **********
126 | ## obfuscated ##
127 | 
128 | 0x00002c |0 |1 |2 |3 |4 |5 |6 |7 |8 |9 |a |b |c |d |e |f |
129 | ---------+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+------------
130 | 0x000000: ab cd 24 00 0e 69 34 e6 2f 93 0f 46 3d 66 85 0a   ..$..i4./..F=f..   
131 | 0x000010: 24 44 16 8f 9a 6c 47 e6 1c bf 3d 70 0f 05 e3 40   $D...lG...=p...@   
132 | 0x000020: 27 09 e9 80 16 6c 14 c6 d1 6e dc ba               '....l...n..       
133 | ## cleartext ##
134 | 
135 | 0x000024 |0 |1 |2 |3 |4 |5 |6 |7 |8 |9 |a |b |c |d |e |f |
136 | ---------+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+------------
137 | 0x000000: 18 05 20 00 01 02 02 06 1c 53 50 4a 37 47 ff 0f   .. ......SPJ7G..   
138 | 0x000010: 8c 00 53 00 32 2e 30 30 2e 30 36 00 34 0a 00 00   ..S.2.00.06.4...   
139 | 0x000020: 00 00 00 20                                       ...                
140 | *****************
141 | Flasher version is: [2.00.06]
142 | 
143 | The radio can also be flashed with the raw unencrypted binary.
144 | An example binary is provided in the  k5_flash.raw  file (this is the 2.01.23
145 | firmware). The binary file can be specified with the -b option. 
146 | Flashing the radio requires the "I know what I'm doing value" of at least 5.
147 | 
148 | ./k5prog -b k5_flash.raw  -YYYYYY -F                   
149 | 
150 | Quansheng UV-K5 EEPROM programmer v0.5 (c) 2023 Jacek Lipkowski <sq5bpf@lipkowski.org>
151 | 
152 | "I know what I'm doing" value set to 6
153 | ********  k5 command hexdump [obf_len:44 clear_len:36 crc_ok:1 **********
154 | ## obfuscated ##
155 | 
156 | 0x00002c |0 |1 |2 |3 |4 |5 |6 |7 |8 |9 |a |b |c |d |e |f |
157 | ---------+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+------------
158 | 0x000000: ab cd 24 00 0e 69 34 e6 2f 93 0f 46 3d 66 85 0a   ..$..i4./..F=f..   
159 | 0x000010: 24 44 16 8f 9a 6c 47 e6 1c bf 3d 70 0f 05 e3 40   $D...lG...=p...@   
160 | 0x000020: 27 09 e9 80 16 6c 14 c6 d1 6e dc ba               '....l...n..       
161 | ## cleartext ##
162 | 
163 | 0x000024 |0 |1 |2 |3 |4 |5 |6 |7 |8 |9 |a |b |c |d |e |f |
164 | ---------+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+------------
165 | 0x000000: 18 05 20 00 01 02 02 06 1c 53 50 4a 37 47 ff 0f   .. ......SPJ7G..   
166 | 0x000010: 8c 00 53 00 32 2e 30 30 2e 30 36 00 34 0a 00 00   ..S.2.00.06.4...   
167 | 0x000020: 00 00 00 20                                       ...                
168 | *****************
169 | Flasher version is: [2.00.06]
170 | *** FLASH at 0x0000 length 0x0100  result=1
171 | *** FLASH at 0x0100 length 0x0100  result=1
172 | *** FLASH at 0x0200 length 0x0100  result=1
173 | *** FLASH at 0x0300 length 0x0100  result=1
174 | etc... until all flash is writtem
175 | 
176 | 
177 | It is possible to set the flashed firmware version, which will be later
178 | checked by the bootloader. Currently this is set to *.01.23, which all
179 | known bootloaders will accept, but can be set explicitly to some firmware
180 | version like:
181 | 
182 | /k5prog  -YYY -F -M '2.01.23' -b firmware.bin
183 | 
184 | 
185 | ---- Compiling ----
186 | 
187 | This software was tested to compile using gcc on GNU/Linux systems, using a
188 | simple makefile:
189 | 
190 | sq5bpf@dellix:~/k5prog-0.1$ make
191 | gcc -O2 k5prog.c -o k5prog
192 | 
193 | Other POSIX platforms should work also, including macOS. 
194 | 
195 | The software compiles under Cygwin/Microsoft Windows, but has not been tested.
196 | According to the Cygwin documentation you should use /dev/comX to use port comX
197 | (for example using com6: k5prog.exe -v -r -p /dev/com6)
198 | 
199 | 
200 | If you port this to another platform, or do anything interesting with this
201 | software, tell me about it.
202 | 
203 | ---- Other uses ----
204 | 
205 | The file uvk5_original_eeprom.raw contains an EEPROM downloaded from an UV-K5
206 | radio.  Maybe it can be used to resurrect another radio of the same type 
207 | if it was broken (perhaps by the use of this software :).
208 | 
209 | 
210 | 
211 | 
212 | ---- Protocol ----
213 | 
214 | The programming protocol used by this software has been reverse engineered
215 | by observing communications between the radio and the original programming
216 | software. It is not a variation of the typical Baofeng-like protocol.
217 | 
218 | 
219 | The format of the datagram sent to the radio is:
220 | 
221 | 0xAB 0xCD len 0x00 <data bytes> <2 bytes CRC> 0xDC 0xBA
222 | 
223 | The length is the length of the data bytes.
224 | 
225 | The data is protected by a typical CRC-16 xmodem algorithm.
226 | The data bytes and the CRC are obfuscated by xor-in it with an 8-byte 
227 | sequence.
228 | 
229 | Fortunately the EEPROM data contains a lot of 0xFF and 0x00 bytes, so the XOR
230 | sequence is easy to find by observing the traffic.
231 | 
232 | 
233 | The datagram sent from the radio is the same, but the CRC field is set to
234 | 0xFFFF. This shows that the CRC is not for data integrity, but for further
235 | obfuscation (same as the XOR).
236 | 
237 | 
238 | I intend to publish a further description of the protocol, and the EEPROM
239 | contents, meanwhile the sources can be used as documentation.
240 | 
241 | 
242 | VY 73
243 | 
244 | Jacek / SQ5BPF
245 | 
246 | 


--------------------------------------------------------------------------------
/k5_flash.raw:
--------------------------------------------------------------------------------
https://raw.githubusercontent.com/sq5bpf/k5prog/241ab18b61f6d8933fecf60643fe94322fbf4198/k5_flash.raw


--------------------------------------------------------------------------------
/k5prog.c:
--------------------------------------------------------------------------------
   1 | /* Quansheng UV-K5 EEPROM programmer v0.9 
   2 |  * (c) 2023 Jacek Lipkowski <sq5bpf@lipkowski.org>
   3 |  *
   4 |  * This program can read and write the EEPROM of Quansheng UVK5 Mark II 
   5 |  * and probably other similar radios via the serial port. 
   6 |  *
   7 |  * It can read/write arbitrary data, and might be useful for reverse
   8 |  * engineering the radio configuration.
   9 |  *
  10 |  * It can also flash you radio, which has a very high probability of
  11 |  * permanently breaking your radio. The flash image is an unencrypted
  12 |  * image, without the version inserted at 0x2000.
  13 |  *
  14 |  * Use at your own risk. 
  15 |  *
  16 |  *
  17 |  * This program is licensed under the GNU GENERAL PUBLIC LICENSE v3
  18 |  * License text avaliable at: http://www.gnu.org/copyleft/gpl.html 
  19 |  */
  20 | 
  21 | /*
  22 |  *
  23 |  * This program is free software: you can redistribute it and/or modify
  24 |  * it under the terms of the GNU General Public License as published by
  25 |  * the Free Software Foundation, either version 3 of the License, or
  26 |  * (at your option) any later version.
  27 |  *
  28 |  * This program is distributed in the hope that it will be useful,
  29 |  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  30 |  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  31 |  * GNU General Public License for more details.
  32 |  *
  33 |  * You should have received a copy of the GNU General Public License
  34 |  * along with this program.  If not, see <http://www.gnu.org/licenses/>.
  35 |  *
  36 |  */
  37 | 
  38 | #include <sys/types.h>
  39 | #include <sys/stat.h>
  40 | #include <sys/select.h>
  41 | #include <fcntl.h>
  42 | #include <string.h>
  43 | #include <errno.h>
  44 | #include <stdlib.h>
  45 | #include <termios.h>
  46 | #include <unistd.h>
  47 | #include <stdio.h>
  48 | #include <getopt.h>
  49 | #include <ctype.h>
  50 | #include <stdint.h>
  51 | #include "uvk5.h"
  52 | 
  53 | #define VERSION "Quansheng UV-K5 EEPROM programmer v0.9 (c) 2023 Jacek Lipkowski <sq5bpf@lipkowski.org>"
  54 | 
  55 | #define MODE_NONE 0
  56 | #define MODE_READ 1
  57 | #define MODE_WRITE 2
  58 | #define MODE_WRITE_MOST 3
  59 | #define MODE_WRITE_ALL 4
  60 | #define MODE_FLASH_DEBUG 5
  61 | #define MODE_FLASH 6
  62 | 
  63 | 
  64 | #define UVK5_EEPROM_SIZE 0x2000
  65 | #define UVK5_EEPROM_SIZE_WITHOUT_CALIBRATION 0x1d00
  66 | #define UVK5_EEPROM_BLOCKSIZE 0x80
  67 | #define UVK5_PREPARE_TRIES 10
  68 | 
  69 | /* actually the flash is bigger, but there is a bootloader at 0xf000 that we don't want to overwrite 
  70 |  * if you're really brave, then you can modify the code by changing UVK5_MAX_FLASH_SIZE to 0x10000
  71 |  * and probably flash the bootloader too, but i would really advise against doing this
  72 |  *
  73 |  * maybe at some point i will make a command line flag for this
  74 |  */
  75 | #define UVK5_MAX_FLASH_SIZE 0xf000 
  76 | #define UVK5_FLASH_BLOCKSIZE 0x100
  77 | 
  78 | #define DEFAULT_SERIAL_PORT "/dev/ttyUSB0"
  79 | #define DEFAULT_FILE_NAME "k5_eeprom.raw"
  80 | #define DEFAULT_FLASH_NAME "k5_flash.raw"
  81 | 
  82 | /* the vendor flasher sends the firmware version like "2.01.23" */
  83 | #define DEFAULT_FLASH_VERSION "*.01.23"
  84 | 
  85 | /* globals */
  86 | speed_t ser_speed=B38400;
  87 | char *ser_port=DEFAULT_SERIAL_PORT;
  88 | int verbose=0;
  89 | int mode=MODE_NONE;
  90 | char *file=DEFAULT_FILE_NAME;
  91 | char *flash_file=DEFAULT_FLASH_NAME;
  92 | 
  93 | char flash_version_string[8]=DEFAULT_FLASH_VERSION;
  94 | 
  95 | int write_offset=0;
  96 | int write_length=-1;
  97 | 
  98 | int i_know_what_im_doing=0; /* flag the user sets to confirm that he thinks he knows what he's doing */
  99 | 
 100 | struct k5_command {
 101 | 	unsigned char *cmd;
 102 | 	int len;
 103 | 	unsigned char *obfuscated_cmd;
 104 | 	int obfuscated_len;
 105 | 	int crcok;
 106 | };
 107 | 
 108 | /**** commands ********/
 109 | unsigned char uvk5_hello2[]={0x14, 0x05, 0x04, 0x00, 0x9f, 0x25, 0x5a, 0x64}; 
 110 | 
 111 | /* commands:
 112 |  * 0x14 - hello
 113 |  * 0x1b - read EEPROM
 114 |  * 0x1d - write EEPROM
 115 |  * 0xdd - reset radio
 116 |  */
 117 | 
 118 | /*
 119 |  * flash commands:
 120 |  * 0x30 - say hello to the radio and present the version (reply is also 0x18)
 121 |  * 0x19 - send flash block (reply from radio is 0x1a)
 122 |  *
 123 |  * from the radio:
 124 |  * 0x18 - broadcast from the radio when flash mode is enabled
 125 |  * 
 126 |  *
 127 |  */
 128 | 
 129 | /* the last 6 bytes have to be the same for each "session" */
 130 | unsigned char uvk5_hello[]={ 0x14,  0x5,  0x4,  0x0,  0x6a,  0x39,  0x57,  0x64 };
 131 | unsigned char uvk5_readmem1[]={ 0x1b,  0x5,  0x8,  0x0,  0x80,  0xe,  0x80,  0x0,  0x6a,  0x39,  0x57,  0x64 }; /* byte6 - length (max 0x80), byte 4 (lsb) ,5 (msb)  address */
 132 | unsigned char uvk5_writemem1[]={ 0x1d, 0x5, 0x18, 0x0, 0x50, 0xf, 0x10, 0x0, 0x14, 0xad, 0x5c, 0x64, 0x43, 0x48, 0x30, 0x30, 0x31, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0 }; /* byte3 - command length, byte6 - data to be written length, byte4 - (lsb) byte5( msb) address, byte12-end data */
 133 | 
 134 | unsigned char uvk5_reset[]={ 0xdd,  0x5,  0x0,  0x0 };
 135 | 
 136 | /* terrible hexdump ripped from some old code, please don't look */
 137 | void hdump(unsigned char *buf,int len)
 138 | {
 139 | 	int tmp1;
 140 | 	char adump[80];
 141 | 	int tmp2=0;
 142 | 	int tmp3=0;
 143 | 	unsigned char sss;
 144 | 	char hexz[]="0123456789abcdef";
 145 | 
 146 | 	int lasttmp=0;
 147 | 
 148 | 	printf("\n0x%6.6x |0 |1 |2 |3 |4 |5 |6 |7 |8 |9 |a |b |c |d |e |f |\n",len);
 149 | 	printf("---------+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+------------\n");
 150 | 
 151 | 	memset(&adump,' ',78);
 152 | 	adump[78]=0;
 153 | 
 154 | 	for (tmp1=0; tmp1<len; tmp1++)
 155 | 	{
 156 | 		tmp2=tmp1%16;
 157 | 		if (tmp2==0) {
 158 | 			if (tmp1!=0)  { printf("0x%6.6x: %.69s\n",tmp3,adump); lasttmp=tmp1; }
 159 | 			memset(&adump,' ',78);
 160 | 			adump[78]=0;
 161 | 			tmp3=tmp1;
 162 | 		}
 163 | 		sss=buf[tmp1];
 164 | 		adump[tmp2*3]=hexz[sss/16];
 165 | 		adump[tmp2*3+1]=hexz[sss%16];
 166 | 
 167 | 		if (isprint(sss)) { adump[tmp2+50]=sss; } else adump[tmp2+50]='.';
 168 | 	}
 169 | 	//if (((tmp1%16)!=0)||(len==16)) printf("0x%6.6x: %.69s\n",tmp3,adump);
 170 | 	if (lasttmp!=tmp1) printf("0x%6.6x: %.69s\n",tmp3,adump);
 171 | }
 172 | 
 173 | int openport(char *port,speed_t speed)
 174 | {
 175 | 	int fd;
 176 | 	struct termios my_termios;
 177 | 
 178 | 	fd = open(port, O_RDWR | O_NOCTTY);
 179 | 
 180 | 	if (fd < 0)
 181 | 	{
 182 | 		printf("open error %d %s\n", errno, strerror(errno));
 183 | 		return(-1);
 184 | 	}
 185 | 
 186 | 	if (tcgetattr(fd, &my_termios))
 187 | 	{
 188 | 		printf("tcgetattr error %d %s\n", errno, strerror(errno));
 189 | 		return(-1);
 190 | 	}
 191 | 
 192 | 	if (tcflush(fd, TCIFLUSH))
 193 | 	{
 194 | 		printf("tcgetattr error %d %s\n", errno, strerror(errno));
 195 | 		return(-1);
 196 | 	}
 197 | 
 198 | 
 199 | 	my_termios.c_cflag =  CS8 |CREAD | CLOCAL | HUPCL;
 200 | 	cfmakeraw(&my_termios);
 201 | 	cfsetospeed(&my_termios, speed);
 202 | 	if (	tcsetattr(fd, TCSANOW, &my_termios))
 203 | 	{
 204 | 		printf("tcsetattr error %d %s\n", errno, strerror(errno));
 205 | 		return(-1);
 206 | 	}
 207 | 
 208 | 
 209 | 	return(fd);
 210 | 
 211 | }
 212 | 
 213 | /* read with timeout */
 214 | int read_timeout(int fd, unsigned char *buf, int maxlen, int timeout)
 215 | {
 216 | 	fd_set rfd;
 217 | 	int len=0;
 218 | 	int ret;
 219 | 	struct timeval tv;
 220 | 	int nr;
 221 | 	unsigned char *buf2;
 222 | 	buf2=buf;
 223 | 	FD_ZERO(&rfd);
 224 | 
 225 | 	while(1) {
 226 | 		FD_SET(fd,&rfd);
 227 | 		tv.tv_sec=timeout/1000;
 228 | 		tv.tv_usec=(timeout%1000)/1000;
 229 | 
 230 | 		ret=select(fd+1,&rfd,0,0,&tv);
 231 | 
 232 | 		if (ret==0)  {
 233 | 			if(timeout) /* Only print if we requested a timeout */
 234 | 				fprintf(stderr,"read_timeout\n");
 235 | 			/* error or timeout */
 236 | 			break;
 237 | 		}
 238 | 
 239 | 		if (FD_ISSET(fd,&rfd)) {
 240 | 			nr=read(fd,buf,maxlen);
 241 | 
 242 | 			len=len+nr;
 243 | 			buf=buf+nr;
 244 | 			if (nr>=0) maxlen=maxlen-nr;
 245 | 			if (maxlen==0) break;
 246 | 		}
 247 | 	}
 248 | 	if (verbose>2 && len > 0) {
 249 | 		printf("RXRXRX:\n");
 250 | 		hdump(buf2,len);
 251 | 	}
 252 | 
 253 | 	return(len);
 254 | }
 255 | 
 256 | 
 257 | 
 258 | void destroy_k5_struct(struct k5_command *cmd)
 259 | {
 260 | 	if (cmd->cmd) { free(cmd->cmd); }
 261 | 	if (cmd->obfuscated_cmd) { free(cmd->obfuscated_cmd); }
 262 | 	free(cmd);
 263 | }
 264 | 
 265 | /* ripped from https://mdfs.net/Info/Comp/Comms/CRC16.htm */
 266 | uint16_t crc16xmodem(unsigned char *addr, int num, int crc)
 267 | {
 268 | #define poly 0x1021
 269 | 	int i;
 270 | 
 271 | 	for (; num>0; num--)               /* Step through bytes in memory */
 272 | 	{
 273 | 		crc = crc ^ (*addr++ << 8);      /* Fetch byte from memory, XOR into CRC top byte*/
 274 | 		for (i=0; i<8; i++)              /* Prepare to rotate 8 bits */
 275 | 		{
 276 | 			crc = crc << 1;                /* rotate */
 277 | 			if (crc & 0x10000)             /* bit 15 was set (now bit 16)... */
 278 | 				crc = (crc ^ poly) & 0xFFFF; /* XOR with XMODEM polynomic */
 279 | 			/* and ensure CRC remains 16-bit value */
 280 | 		}                              /* Loop for 8 bits */
 281 | 	}                                /* Loop until num=0 */
 282 | 
 283 | 	return(crc);                     /* Return updated CRC */
 284 | }
 285 | 
 286 | 
 287 | /* (de)obfuscate the string using xor */
 288 | void xorarr(unsigned char *inarr,int len)
 289 | {
 290 | 	int len2=0;
 291 | 	unsigned char k5_xor_array[16]= { 
 292 | 		0x16 , 0x6c , 0x14 , 0xe6 , 0x2e , 0x91 , 0x0d , 0x40 ,
 293 | 		0x21 , 0x35 , 0xd5 , 0x40 , 0x13 , 0x03 , 0xe9 , 0x80 };
 294 | 
 295 | 	while (len2<len) {
 296 | 		*inarr=*inarr^k5_xor_array[len2%sizeof(k5_xor_array)];
 297 | 		len2++;
 298 | 		inarr++;
 299 | 	}
 300 | }
 301 | 
 302 | /* hexdump a k5_command struct */
 303 | void k5_hexdump(struct k5_command *cmd) {
 304 | 	printf ("********  k5 command hexdump [obf_len:%i clear_len:%i crc_ok:%i **********\n",cmd->obfuscated_len,cmd->len,cmd->crcok);
 305 | 	if (cmd->obfuscated_cmd) {
 306 | 		printf("## obfuscated ##\n");
 307 | 		hdump(cmd->obfuscated_cmd,cmd->obfuscated_len);
 308 | 	}
 309 | 	if (cmd->cmd) {
 310 | 		printf("## cleartext ##\n");
 311 | 		hdump(cmd->cmd,cmd->len);
 312 | 	}
 313 | 	printf("*****************\n");
 314 | }
 315 | 
 316 | 
 317 | /* obfuscate a k5 datagram */
 318 | int k5_obfuscate(struct k5_command *cmd)
 319 | {
 320 | 	uint16_t c;
 321 | 	if (!cmd->cmd) return(0);
 322 | 	if (cmd->obfuscated_cmd) { free (cmd->obfuscated_cmd); }
 323 | 	cmd->obfuscated_len=cmd->len+8; /* header  + length + data + crc + footer */
 324 | 	cmd->obfuscated_cmd=calloc(cmd->obfuscated_len,1);
 325 | 	cmd->obfuscated_cmd[0]=0xab;
 326 | 	cmd->obfuscated_cmd[1]=0xcd;
 327 | 	cmd->obfuscated_cmd[2]=(cmd->len)&0xff;
 328 | 	cmd->obfuscated_cmd[3]=(cmd->len>>8)&0xff;
 329 | 	memcpy((cmd->obfuscated_cmd)+4,cmd->cmd,cmd->len);
 330 | 	c=crc16xmodem((cmd->obfuscated_cmd)+4,cmd->len,0);
 331 | 	cmd->obfuscated_cmd[cmd->len+4]=c&0xff;
 332 | 	cmd->obfuscated_cmd[cmd->len+5]=(c>>8)&0xff;
 333 | 	xorarr((cmd->obfuscated_cmd)+4,cmd->len+2);
 334 | 	cmd->obfuscated_cmd[cmd->len+6]=0xdc;
 335 | 	cmd->obfuscated_cmd[cmd->len+7]=0xba;
 336 | 	cmd->crcok=1;
 337 | 	return(1);
 338 | }
 339 | 
 340 | /* deobfuscate a k5 datagram and verify it */
 341 | int k5_deobfuscate(struct k5_command *cmd)
 342 | {
 343 | 	uint16_t c,d;
 344 | 
 345 | 	if (!cmd->obfuscated_cmd) return(0);
 346 | 	if (cmd->cmd) { free (cmd->cmd); }
 347 | 	/* check the obfuscated datagram */
 348 | 	if ((cmd->obfuscated_cmd[0]!=0xab)||(cmd->obfuscated_cmd[1]!=0xcd)) { 
 349 | 		//bad header
 350 | 		if (verbose>2)	{ printf("bad header\n"); k5_hexdump(cmd); }
 351 | 		return(0); 
 352 | 	} 
 353 | 	if ((cmd->obfuscated_cmd[cmd->obfuscated_len-2]!=0xdc)||(cmd->obfuscated_cmd[cmd->obfuscated_len-1]!=0xba)) { 
 354 | 		//bad footer
 355 | 		if (verbose>2)	{ printf("bad footer\n"); k5_hexdump(cmd); }
 356 | 		return(0); 
 357 | 	} 
 358 | 	cmd->len=cmd->obfuscated_len-6; /* header  + length + data + crc + footer */
 359 | 	cmd->cmd=calloc(cmd->len,1);
 360 | 	memcpy(cmd->cmd,cmd->obfuscated_cmd+4,cmd->len);
 361 | 	xorarr(cmd->cmd,cmd->len);
 362 | 	c=crc16xmodem(cmd->cmd,cmd->len-2,0);
 363 | 	d=(cmd->cmd[cmd->len-2])|(cmd->cmd[cmd->len-1]<<8);
 364 | 	//if ((*cmd->cmd[*cmd->cmd-2]==(c&0xff))&&(*cmd->cmd[*cmd->cmd-2]==((c<<8)&0xff)))
 365 | 	/* the protocol looks like it would use crc from the radio to the pc, but instead the radio sends 0xffff */
 366 | 	if (d==0xffff)
 367 | 	{
 368 | 		cmd->crcok=1;
 369 | 		cmd->len=cmd->len-2; /* skip crc */
 370 | 	} else {
 371 | 		if (d==c) {
 372 | 			printf("** the protocol actually uses proper crc on datagrams from the radio, please inform the author of the radio/firmware version\n");
 373 | 			k5_hexdump(cmd);
 374 | 		} 
 375 | 		cmd->crcok=0;
 376 | 		if (verbose>2)	{ printf("bad crc 0x%4.4x (should be 0x%4.4x)\n",d,c); k5_hexdump(cmd); }
 377 | 		cmd->len=cmd->len-2; /* skip crc */
 378 | 		return(0); 
 379 | 
 380 | 	}
 381 | 	return(1);
 382 | }
 383 | 
 384 | /* obfuscate a command, send it */
 385 | int k5_send_cmd(int fd,struct k5_command *cmd) {
 386 | 	int l;
 387 | 
 388 | 	if (!k5_obfuscate(cmd)) { 
 389 | 		fprintf(stderr,"obfuscate error!\n");
 390 | 		return(0);
 391 | 	}
 392 | 
 393 | 	if (verbose>1) k5_hexdump(cmd);
 394 | 
 395 | 	l=write(fd,cmd->obfuscated_cmd,cmd->obfuscated_len);
 396 | 	if (verbose>2) printf("write %i\n",l);
 397 | 	return(1);
 398 | }
 399 | 
 400 | int k5_send_buf(int fd,unsigned char *buf,int len) {
 401 | 	int l;
 402 | 	struct k5_command *cmd;
 403 | 
 404 | 	cmd=calloc(sizeof(struct k5_command),1);
 405 | 	cmd->len=len;
 406 | 	cmd->cmd=malloc(cmd->len);
 407 | 	memcpy(cmd->cmd,buf,len);
 408 | 	l=k5_send_cmd(fd,cmd);
 409 | 	destroy_k5_struct(cmd);
 410 | 	return(l);
 411 | }
 412 | 
 413 | /* receive a response, deobfuscate it */
 414 | struct k5_command *k5_receive(int fd,int tmout) {
 415 | 	unsigned char buf[4];
 416 | 	struct k5_command *cmd;
 417 | 	int len;
 418 | 
 419 | 	len=read_timeout(fd,(unsigned char *)&buf,sizeof(buf),10000); /* wait 500ms */
 420 | 
 421 | 	if (len>0) {
 422 | 		if (verbose>2)	{ printf("magic:\n"); hdump((unsigned char *)&buf,len); }
 423 | 	} else
 424 | 	{
 425 | 		fprintf(stderr,"k5_receive: err read1\n");
 426 | 		return(0);
 427 | 	}
 428 | 
 429 |     /* During plugging in etc we can receive a single byte.
 430 |      * Handle this case here. */
 431 |     if (len != sizeof(buf))
 432 |     {
 433 |         fprintf(stderr,"k5_receive: got %d expected %ld\n", len, sizeof(buf));
 434 |         return(0);
 435 |     }
 436 | 
 437 |     if ((buf[0]!=0xab)||(buf[1]!=0xcd)) {
 438 |         fprintf(stderr,"k5_receive: bad magic number\n");
 439 |         /* Assume we are out of sync and flush rx buffer by reading everything.
 440 |          * This works because the boot message is repeated. */
 441 |         while (len>0)
 442 |             len =read_timeout(fd,(unsigned char *)&buf,sizeof(buf),10000);
 443 |         return(0);
 444 |     }
 445 | 
 446 | 	if (buf[3]!=0) {
 447 | 		fprintf(stderr,"k5_receive: it seems that byte 3 can be something else than 0, please notify the author\n");
 448 | 		return(0);
 449 | 	}
 450 | 
 451 | 	cmd=calloc(sizeof(struct k5_command),1);
 452 | 	cmd->obfuscated_len=buf[2]+8;
 453 | 	cmd->obfuscated_cmd=calloc(cmd->obfuscated_len,1);
 454 | 	memcpy(cmd->obfuscated_cmd,buf,4);
 455 | 	len=read_timeout(fd,cmd->obfuscated_cmd+4,buf[2]+4,tmout); /* wait 500ms */
 456 | 	if ((len+4)!=(cmd->obfuscated_len)) {
 457 | 		fprintf(stderr,"k5_receive err read1 len=%i wanted=%i\n",len,cmd->obfuscated_len);
 458 | 		return(0);
 459 | 	}
 460 | 
 461 | 
 462 | 	/* deobfuscate */
 463 | 	k5_deobfuscate(cmd);
 464 | 	if (verbose>2)	k5_hexdump(cmd);
 465 | 	return(cmd);
 466 | }
 467 | /******************************/
 468 | /*  EEPROM read/write support */
 469 | /******************************/
 470 | int k5_readmem(int fd, unsigned char *buf, unsigned char maxlen, int offset)
 471 | {
 472 | 	unsigned char readmem[sizeof(uvk5_readmem1)];
 473 | 
 474 | 
 475 | 	int r;
 476 | 	struct k5_command *cmd;
 477 | 
 478 | 	if (verbose>1) 	printf("@@@@@@@@@@@@@@@@@@     readmem offset=0x%4.4x len=0x%2.2x\n",offset,maxlen);
 479 | 	/* byte6 - length (max 0x80), byte 4 (lsb) ,5 (msb)  address */
 480 | 	memcpy(readmem,uvk5_readmem1,sizeof(uvk5_readmem1));
 481 | 	readmem[6]=maxlen;
 482 | 	readmem[4]=offset&0xff;
 483 | 	readmem[5]=(offset>>8)&0xff;
 484 | 
 485 | 
 486 | 	r=k5_send_buf(fd,readmem,sizeof(readmem));
 487 | 	if (!r) return(0);
 488 | 	cmd=k5_receive(fd,10000);
 489 | 	if (!cmd) return(0);
 490 | 
 491 | 
 492 | 	if (verbose>2) k5_hexdump(cmd);
 493 | 
 494 | 	memcpy(buf,cmd->cmd+8,cmd->len-8);
 495 | 	destroy_k5_struct(cmd);
 496 | 	return(1);
 497 | 
 498 | }
 499 | 
 500 | int k5_writemem(int fd, unsigned char *buf, unsigned char len, int offset)
 501 | {
 502 | 	unsigned char writemem[512];
 503 | 
 504 | 
 505 | 	int r;
 506 | 	struct k5_command *cmd;
 507 | 
 508 | 	if (verbose>1) printf("@@@@@@@@@@@@@@@@@@     writemem offset=0x%4.4x len=0x%2.2x\n",offset,len);
 509 | 	/* byte6 - length (max 0x80), byte 4 (lsb) ,5 (msb)  address */
 510 | 
 511 | 
 512 | 	writemem[0]=0x1d;
 513 | 	writemem[1]=0x5;
 514 | 	writemem[2]=len+8;
 515 | 	writemem[3]=0;
 516 | 	writemem[4]=offset&0xff;
 517 | 	writemem[5]=(offset>>8)&0xff;
 518 | 	writemem[6]=len;
 519 | 	writemem[7]=1;
 520 | 
 521 | 	writemem[8]=0x6a;
 522 | 	writemem[9]=0x39;
 523 | 	writemem[10]=0x57;
 524 | 	writemem[11]=0x64;
 525 | 
 526 | 	memcpy((void *)&writemem+12,buf,len);
 527 | 
 528 | 	r=k5_send_buf(fd,writemem,len+12);
 529 | 	if (!r) return(0);
 530 | 
 531 | 	cmd=k5_receive(fd,10000);
 532 | 	if (!cmd) return(0);
 533 | 
 534 | 	if (verbose>2) k5_hexdump(cmd);
 535 | 
 536 | 	if (((cmd->cmd[0])!=0x1e)||((cmd->cmd[4])!=writemem[4])||((cmd->cmd[5])!=writemem[5])) {
 537 | 		fprintf(stderr,"bad write confirmation\n");
 538 | 		destroy_k5_struct(cmd);
 539 | 		return(0);
 540 | 	}
 541 | 
 542 | 	destroy_k5_struct(cmd);
 543 | 	return(1);
 544 | }
 545 | 
 546 | /* reset the radio */
 547 | int k5_reset(int fd)
 548 | {
 549 | 	int r;
 550 | 
 551 | 	if (verbose>1) printf("@@@@@@@@@@@@@@@@@@    reset\n");
 552 | 	r=k5_send_buf(fd,uvk5_reset,sizeof(uvk5_reset));
 553 | 	return(r);
 554 | }	
 555 | /*  end of EEPROM read/write support */
 556 | 
 557 | 
 558 | /******************************/
 559 | /*  flash read/write support */
 560 | /******************************/
 561 | 
 562 | /* wait for a "i'm in flashing mode" message */
 563 | int wait_flash_message(int fd,int ntimes) {
 564 | 	struct k5_command *cmd;
 565 | 	int ok=0;
 566 | 	char buf[17];
 567 | 	int i,j;
 568 | 
 569 | 	while(ntimes) {
 570 | 		ntimes--;
 571 | 
 572 | 		if (verbose>1) { printf("wait_flash_message try %i\n",ntimes); }
 573 | 
 574 | 		cmd=k5_receive(fd,10000);
 575 | 
 576 | 		if (!cmd) {
 577 | 			/* No need to print, k5_receive already printed why it failed */
 578 | 			//printf("wait_flash_message: timeout\n");
 579 | 			continue;
 580 | 		}
 581 | 
 582 | 		k5_hexdump(cmd);
 583 | 
 584 | 		if (!cmd->cmd) {
 585 | 			printf("wait_flash_message: received malformed packet\n");
 586 | 			destroy_k5_struct(cmd);
 587 | 			continue;
 588 | 		}
 589 | 
 590 | 		if ((cmd->cmd[0]!=0x18)&&(cmd->cmd[1]!=0x05)) {
 591 | 			printf("wait_flash_message: got unexpected command type 0x%2.2x 0x%2.2x\n",cmd->cmd[1],cmd->cmd[0]);
 592 | 			destroy_k5_struct(cmd);
 593 | 			continue;
 594 | 		}
 595 | 		/* 36 is normal length, 22 is sent by some LSENG UV-K5 clone, 
 596 | 		 * 20 is sent by some other version, so just use an arbitrarily chosen range */
 597 | 		if ((cmd->len<18)||(cmd->len>50)) {
 598 | 			printf("wait_flash_message: got unexpected command length %i\n",cmd->len);
 599 | 			destroy_k5_struct(cmd);
 600 | 			continue;
 601 | 		}
 602 | 
 603 | 		/*
 604 | 		 * this is what a "i'm in flashing mode" packet looks like
 605 | 		 *
 606 | 		 * 
 607 | 		 *  0x000024 |0 |1 |2 |3 |4 |5 |6 |7 |8 |9 |a |b |c |d |e |f |
 608 | 		 *  ---------+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+------------
 609 | 		 *  0x000000: 18 05 20 00 01 02 02 06 1c 53 50 4a 37 47 ff 0f   .. ......SPJ7G..   
 610 | 		 *  0x000010: 8c 00 53 00 32 2e 30 30 2e 30 36 00 34 0a 00 00   ..S.2.00.06.4...   
 611 | 		 *  0x000020: 00 00 00 20                                       ...                
 612 | 		 */
 613 | 
 614 | 
 615 | 		/* all is good, so break */
 616 | 		ok=1; 	break;
 617 | 
 618 | 
 619 | 	}
 620 | 
 621 | 	if (!ok) {
 622 | 		printf("wait_flash_message: no flash message from radio\n");
 623 | 		return(0);
 624 | 	}
 625 | 
 626 | 	for (i=0;i<(sizeof(buf)-1);i++) {
 627 | 		j=i+0x14;
 628 | 		if (j>=cmd->len) break;
 629 | 		if (!isprint(cmd->cmd[j])) break;
 630 | 		buf[i]=cmd->cmd[j];
 631 | 	}
 632 | 	buf[i]=0;
 633 | 	printf("Flasher version is: [%s]\n",buf);
 634 | 	destroy_k5_struct(cmd);
 635 | 	return(1);
 636 | }
 637 | 
 638 | /* sends the version of firmware that we will be flashing, 
 639 |  * unobfuscated firmware will have the version number in 16 bytes at 0x2000
 640 |  * probably these bytes are sent.
 641 |  *
 642 |  * the vendor flasher sends the real version,  something like  2.01.23
 643 |  * if we send a * as the first character, then all known bootloaders
 644 |  * will accept it
 645 |  */
 646 | int k5_send_flash_version_message(int fd,char *version_string) {
 647 | 
 648 | 	int r;
 649 | 	struct k5_command *cmd;
 650 | 	//unsigned char uvk5_flash_version[]={ 0x30, 0x5, 0x10, 0x0, '2', '.', '0', '1', '.', '2', '3', 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0};
 651 | 	unsigned char uvk5_flash_version[]={ 0x30, 0x5, 0x10, 0x0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0};
 652 | 	strncpy ((char *)&uvk5_flash_version+4,flash_version_string,8);
 653 | 	r=k5_send_buf(fd,uvk5_flash_version,sizeof(uvk5_flash_version));
 654 | 	if (!r) return(0);
 655 | 
 656 | 	/* check if we're still getting packets, usually this is a 0x18 type packet, but not sure what else the radio can send  */
 657 | 	cmd=k5_receive(fd,10000);
 658 | 	if (!cmd) return(0);
 659 | 
 660 | 	if (verbose>1) k5_hexdump(cmd);
 661 | 	destroy_k5_struct(cmd);
 662 | 
 663 | 	return(1);
 664 | }
 665 | 
 666 | int k5_writeflash(int fd, unsigned char *buf, int  len, int offset,int max_flash_addr)
 667 | {
 668 | 	int l;
 669 | 	unsigned char writeflash[512];
 670 | 
 671 | 	int ok=0;
 672 | 
 673 | 	int r;
 674 | 	struct k5_command *cmd;
 675 | 
 676 | 	if (verbose>1) printf("@@@@@@@@@@@@@@@@@@     writeflash offset=0x%4.4x len=0x%2.2x\n",offset,len);
 677 | 	memset(writeflash,0,sizeof(writeflash));
 678 | 
 679 | 	/* 0x19  0x5  0xc  0x1  0x8a  0x8d  0x9f  0x1d  
 680 | 	 * address_msb  address_lsb  0xe6  0x0  length_msb  length_lsb  0x0  0x0 
 681 | 	 * [0x100 bytes of data, if length is <0x100 then fill the rest with zeroes] */
 682 | 	writeflash[0]=0x19;
 683 | 	writeflash[1]=0x5;
 684 | 	/* bytes 2,3: length is 0x10c */
 685 | 	writeflash[2]=0xc;
 686 | 	writeflash[3]=1; 
 687 | 	writeflash[4]=0x8a;
 688 | 	writeflash[5]=0x8d;
 689 | 	writeflash[6]=0x9f;
 690 | 	writeflash[7]=0x1d;
 691 | 
 692 | 	writeflash[8]=(offset>>8)&0xff;
 693 | 	writeflash[9]=offset&0xff;
 694 | 	//writeflash[10]=0xe6;
 695 | 	writeflash[10]=(max_flash_addr>>8)&0xff;
 696 | 	writeflash[11]=0x00;
 697 | 	//writeflash[11]=max_flash_addr&0xff;
 698 | 	writeflash[12]=len&0xff;
 699 | 	writeflash[13]=(len>>8)&0xff;
 700 | 	writeflash[14]=0x00;
 701 | 	writeflash[15]=0x00;
 702 | 
 703 | 	memcpy((void *)&writeflash+16,buf,len);
 704 | 
 705 | 	r=k5_send_buf(fd,writeflash,0x100+16); /* we always send 0x100 bytes, header is 16 bytes */
 706 | 	if (!r) return(0);
 707 | 
 708 | 	/* wait for a reply packet */
 709 | 	l=5;
 710 | 	while(l) {
 711 | 		cmd=k5_receive(fd,10000);
 712 | 		l--;
 713 | 		if (!cmd) { 
 714 | 			usleep(1000); 
 715 | 			continue;
 716 | 		}
 717 | 
 718 | 		if (verbose>1) {
 719 | 			printf("|||||  reply packet after flash command\n");
 720 | 			k5_hexdump(cmd);
 721 | 		}
 722 | 		/* we're still getting "i'm in flash mode packets", can happen after the first flash command, ignore it */
 723 | 		if ((cmd->cmd[0]==0x18)&&(cmd->cmd[1]==0x05)&&(cmd->cmd[2]==0x20)&&(cmd->cmd[3]==0x0)&&(cmd->cmd[4]==0x1)&&(cmd->cmd[5]==0x2)&&(cmd->cmd[6]==0x2)) {
 724 | 			if (verbose>1)  printf("&&&&|  ignoring \"i'm in flash mode\" packet\n");
 725 | 			destroy_k5_struct(cmd);
 726 | 			continue;
 727 | 		}
 728 | 
 729 | 
 730 | 		/* reply packet:
 731 | 		 * 0x1a  0x5  0x8  0x0  0x8a  0x8d  0x9f  0x1d  0x0  0x0  0x0  0x0
 732 | 		 */
 733 | 		if (((cmd->cmd[0])!=0x1a)||((cmd->cmd[8])!=writeflash[8])||((cmd->cmd[9])!=writeflash[9])) {
 734 | 			fprintf(stderr,"bad write confirmation\n");
 735 | 			destroy_k5_struct(cmd);
 736 | 			continue;
 737 | 		}
 738 | 		ok=1; 
 739 | 		destroy_k5_struct(cmd);
 740 | 		break;
 741 | 	}
 742 | 
 743 | 	if (!ok) {
 744 | 		printf("\n\nERROR: no confirmation for flash block 0x%4.4x, length 0x%4.4x\n\n",offset,len);
 745 | 		/* TODO: what do we do if there wasn't a proper confirmation? retry maybe? */
 746 | 	}
 747 | 	return(ok);
 748 | }
 749 | 
 750 | 
 751 | void helpme()
 752 | {
 753 | 	printf( 
 754 | 			"cmdline opts:\n"
 755 | 			"-f <file>\tfilename that contains the eeprom dump (default: " DEFAULT_FILE_NAME ")\n"
 756 | 			"-b <file>\tfilename that contains the raw flash image (default " DEFAULT_FLASH_NAME ")\n"
 757 | 			"-Y \tincrease \"I know what I'm doing\" value, to enable functionality likely to break the radio\n"
 758 | 			"-D \twait for the message from the radio flasher, print it's version\n"
 759 | 			"-F \tflash firmware, WARNING: this will likely brick your radio!\n"
 760 | 			"-M <ver> \tSet the firmware major version to <ver> during the flash process (default: " DEFAULT_FLASH_VERSION ")\n"
 761 | 			"-r \tread eeprom\n"
 762 | 			"-w \twrite eeprom like the original software does\n"
 763 | 			"-W \twrite most of the EEPROM (but without what I think is calibration data)\n"
 764 | 			"-B \twrite ALL of the EEPROM (the \"brick my radio\" mode)\n"
 765 | 			"-p <port>\tdevice name (default: " DEFAULT_SERIAL_PORT ")\n"
 766 | 			"-s <speed>\tserial speed (default: 38400, the UV-K5 doesn't accept any other speed)\n"
 767 | 			"-h \tprint this help\n"
 768 | 			"-v \tbe verbose, use multiple times for more verbosity\n"
 769 | 
 770 | 	      );
 771 | }
 772 | 
 773 | 
 774 | static speed_t baud_to_speed_t(int baud)
 775 | {
 776 | 	switch (baud) {
 777 | 		case 0:
 778 | 			return B0;
 779 | 		case 50:
 780 | 			return B50;
 781 | 		case 75:
 782 | 			return B75;
 783 | 		case 110:
 784 | 			return B110;
 785 | 		case 150:
 786 | 			return B150;
 787 | 		case 200:
 788 | 			return B200;
 789 | 		case 300:
 790 | 			return B300;
 791 | 		case 600:
 792 | 			return B600;
 793 | 		case 1200:
 794 | 			return B1200;
 795 | 		case 1800:
 796 | 			return B1800;
 797 | 		case 2400:
 798 | 			return B2400;
 799 | 		case 4800:
 800 | 			return B4800;
 801 | 		case 9600:
 802 | 			return B9600;
 803 | 		case 19200:
 804 | 			return B19200;
 805 | 		case 38400:
 806 | 			return B38400;
 807 | 		case 57600:
 808 | 			return B57600;
 809 | 		case 115200:
 810 | 			return B115200;
 811 | 		default:
 812 | 			return B0;
 813 | 	}
 814 | 
 815 | 
 816 | }
 817 | 
 818 | void parse_cmdline(int argc, char **argv)
 819 | {
 820 | 	int opt;
 821 | 
 822 | 	/* cmdline opts:
 823 | 	 * -f <file>
 824 | 	 * -b <flash file>
 825 | 	 * -F (flash firmware)
 826 | 	 * -r (read)
 827 | 	 * -w (write)
 828 | 	 * -p <port>
 829 | 	 * -s <speed>
 830 | 	 * -h (help)
 831 | 	 * -v (verbose)
 832 | 	 * -D (flashdebug)
 833 | 	 * -F (flash)
 834 | 	 * -Y (i know what i'm doing)
 835 | 	 */
 836 | 
 837 | 	while ((opt=getopt(argc,argv,"f:rwWBp:s:hvDFYb:M:"))!=EOF)
 838 | 	{
 839 | 		switch (opt)
 840 | 		{
 841 | 			case 'h':
 842 | 				helpme();
 843 | 				exit(0);
 844 | 				break;
 845 | 			case 'v':
 846 | 				verbose++;
 847 | 				break;
 848 | 			case 'Y':
 849 | 				i_know_what_im_doing++;
 850 | 				break;
 851 | 			case 'r':
 852 | 				mode=MODE_READ;
 853 | 				break;
 854 | 			case 'w':
 855 | 				mode=MODE_WRITE;
 856 | 				break;
 857 | 			case 'D':
 858 | 				mode=MODE_FLASH_DEBUG;
 859 | 				break;
 860 | 			case 'F':
 861 | 				mode=MODE_FLASH;
 862 | 				break;
 863 | 			case 'b':
 864 | 				flash_file=optarg;
 865 | 				break;
 866 | 			case 'M':
 867 | 				strncpy(flash_version_string,optarg,sizeof(flash_version_string)-1);
 868 | 				break;
 869 | 			case 'W':
 870 | 				mode=MODE_WRITE_MOST;
 871 | 				break;
 872 | 			case 'B':
 873 | 				mode=MODE_WRITE_ALL;
 874 | 				break;
 875 | 			case 'f':
 876 | 				file=optarg;
 877 | 				break;
 878 | 			case 'p':
 879 | 				ser_port=optarg;
 880 | 				break;
 881 | 			case 's':
 882 | 
 883 | 				ser_speed=baud_to_speed_t(atoi(optarg));
 884 | 				if (ser_speed==B0) {
 885 | 					fprintf(stderr,"ERROR, unknown speed %s\n",optarg);
 886 | 					exit(1);
 887 | 					break;
 888 | 
 889 | 					default:
 890 | 					fprintf(stderr,"Unknown command line option %s\n",optarg);
 891 | 					exit(1);
 892 | 					break;
 893 | 				}
 894 | 		}
 895 | 	}
 896 | 	if ((mode==MODE_FLASH)&&(write_offset%UVK5_FLASH_BLOCKSIZE!=0))
 897 | 	{
 898 | 		fprintf(stderr,"ERROR: write offset has to be a multiple of %x\n",UVK5_FLASH_BLOCKSIZE);
 899 | 		exit(1);
 900 | 	}
 901 | 	if ((mode==MODE_WRITE)&&(write_offset%UVK5_EEPROM_BLOCKSIZE!=0))
 902 | 	{
 903 | 		fprintf(stderr,"ERROR: write offset has to be a multiple of %x\n",UVK5_EEPROM_BLOCKSIZE);
 904 | 		exit(1);
 905 | 	}
 906 | }
 907 | 
 908 | int write_file(char *name, unsigned char *buffer, int len)
 909 | {
 910 | 	int fd;
 911 | 	int l;
 912 | 
 913 | 	fd=open(name,O_WRONLY|O_CREAT|O_TRUNC,0600);
 914 | 	if (fd<0) {
 915 | 		printf("open %s error %d %s\n", name,errno, strerror(errno));
 916 | 		return(-1);
 917 | 	}
 918 | 
 919 | 	l=write(fd,buffer,len);
 920 | 
 921 | 	if (l!=len) {
 922 | 		printf("short write (%i) error %d %s\n", l,errno, strerror(errno));
 923 | 		return(-1);
 924 | 	}
 925 | 
 926 | 	close(fd);
 927 | 	return(1);
 928 | }
 929 | int k5_prepare(int fd) {
 930 | 	int r;
 931 | 	struct k5_command *cmd;
 932 | 
 933 | 	r=k5_send_buf(fd,uvk5_hello,sizeof(uvk5_hello));
 934 | 	if (!r) return(0);
 935 | 	cmd=k5_receive(fd,10000);
 936 | 	if (!cmd) return(0);
 937 | 
 938 | 	/* this is a bit problem with people trying to read the radio config in firmware flash mode,
 939 | 	 * don't know why people do this, but they do it quite often */
 940 | 	if ((cmd->cmd[0]==0x18)&&(cmd->cmd[1]==0x05)) {
 941 | 		fprintf(stderr,"\nWARNING: this radio is in firmware flash mode (PTT + turn on).\n"
 942 | 				"Please have the radio in normal mode to read the EEPROM\n\n");
 943 | 		return(0);
 944 | 	}
 945 | 	printf ("cmd: %2.2x %2.2x ok:%i\n",cmd->cmd[0],cmd->cmd[1],cmd->crcok);
 946 | 	printf("******  Connected to firmware version: [%s]\n",(cmd->cmd)+4);
 947 | 	destroy_k5_struct(cmd);
 948 | 
 949 | 	return(1);
 950 | }
 951 | 
 952 | int main(int argc,char **argv)
 953 | {
 954 | 	int fd,ffd;
 955 | 	unsigned char eeprom[UVK5_EEPROM_SIZE];
 956 | 	unsigned char flash[UVK5_MAX_FLASH_SIZE];
 957 | 	int flash_length;
 958 | 	int flash_max_addr;
 959 | 	int flash_max_block_addr;
 960 | 	int i,r,j,len;
 961 | 
 962 | 	printf (VERSION "\n\n"); 
 963 | 
 964 | 	parse_cmdline(argc,argv);
 965 | 
 966 | 	if (mode==MODE_NONE) {
 967 | 		fprintf(stderr,"No operating mode selected, use -w or -r\n");
 968 | 		helpme();
 969 | 		exit(1);
 970 | 	}
 971 | 
 972 | 
 973 | 	fd=openport(ser_port,ser_speed);
 974 | 
 975 | 	if (fd<0) {
 976 | 		fprintf(stderr,"Open %s failed\n",ser_port);
 977 | 		exit(1);
 978 | 	}
 979 | 
 980 | 	if (i_know_what_im_doing) {
 981 | 		printf("\"I know what i'm doing\" value set to %i\n",i_know_what_im_doing);
 982 | 	}
 983 | 
 984 | 
 985 | 
 986 | 	/* flash mode */
 987 | 	switch(mode)
 988 | 	{
 989 | 
 990 | 		case MODE_FLASH_DEBUG:
 991 | 			if (i_know_what_im_doing<1) {
 992 | 				printf("ERROR: the \"I know what i'm doing\" value has to be at least 1 to confirm that you know what you're doing\n");
 993 | 				exit(0);
 994 | 			}
 995 | 			wait_flash_message(fd,10000);
 996 | 			exit(0);
 997 | 			break;
 998 | 
 999 | 		case MODE_FLASH:
1000 | 			if (i_know_what_im_doing<3) {
1001 | 				printf("ERROR: the \"I know what i'm doing\" value has to be at least 3, to confirm that you really know what you're doing\n");
1002 | 				exit(0);
1003 | 			}
1004 | 
1005 | 			ffd=open(flash_file,O_RDONLY);
1006 | 			if (ffd<0) {
1007 | 				fprintf(stderr,"open %s error %d %s\n", flash_file, errno, strerror(errno));
1008 | 				exit(1);
1009 | 			}
1010 | 			flash_length=read(ffd,(unsigned char *)&flash,UVK5_MAX_FLASH_SIZE);
1011 | 			close(ffd);
1012 | 
1013 | 			/* arbitrary limit do that someone doesn't flash some random short file */
1014 | 			if ((i_know_what_im_doing<5)&&(flash_length<50000)) {
1015 | 				fprintf(stderr,"Failed to read whole EEPROM from file %s (read %i), file too short or some other error\n",file,flash_length);
1016 | 				if (flash_length>0) {
1017 | 					fprintf(stderr,"This failsafe is here so that people don't mistake config files with flash.\nIt can be ignored with an 'i know what i'm doing' value of at least 5\n");
1018 | 				}
1019 | 				exit(1);
1020 | 			}
1021 | 			if (verbose>0) { printf ("Read file %s success\n",flash_file); }
1022 | 			flash_max_addr=flash_length;
1023 | 
1024 | 			if (write_length>0)  flash_max_addr=write_offset+write_length;
1025 | 			if (flash_max_addr>flash_length) flash_max_addr=flash_length;
1026 | 
1027 | 			if (flash_max_addr&0xff) {
1028 | 				flash_max_block_addr=(flash_max_addr&0xff00)+UVK5_FLASH_BLOCKSIZE;
1029 | 			} else {
1030 | 				flash_max_block_addr=(flash_max_addr&0xff00);
1031 | 			}
1032 | 
1033 | 			printf("Writing blocks from address 0x%x until 0x%x, firmware size is 0x%x\n",write_offset,flash_max_block_addr,flash_length);
1034 | 
1035 | 
1036 | 			if (flash_max_block_addr>UVK5_MAX_FLASH_SIZE)  {
1037 | 				fprintf(stderr,"flash length 0x%x is greater than max flash size 0x%x\n",flash_max_block_addr,UVK5_MAX_FLASH_SIZE);
1038 | 				exit(1);
1039 | 			}
1040 | 
1041 | 			r=wait_flash_message(fd,10000);
1042 | 			if (!r) exit(0);
1043 | 
1044 | 			k5_send_flash_version_message(fd,flash_version_string);
1045 | 
1046 | 			for(i=write_offset; i<flash_max_addr; i+=UVK5_FLASH_BLOCKSIZE)
1047 | 			{
1048 | 				len=flash_max_addr-i;
1049 | 				if (len>UVK5_FLASH_BLOCKSIZE) len=UVK5_FLASH_BLOCKSIZE;
1050 | 
1051 | 				r=k5_writeflash(fd, (unsigned char *)&flash+i,len,i,flash_max_block_addr);
1052 | 
1053 | 				printf("*** FLASH at 0x%4.4x length 0x%4.4x  result=%i\n",i,len,r);
1054 | 				if (!r) {
1055 | 					printf("Stopping flash due to ERROR!!!\n");
1056 | 					break;
1057 | 				}
1058 | 			}
1059 | 			exit(0);
1060 | 
1061 | 	}
1062 | 
1063 | 
1064 | 
1065 | 	for (i=0;i<UVK5_PREPARE_TRIES;i++)
1066 | 	{
1067 | 		if (verbose>0) { printf("k5_prepare: try %i\n",i); }
1068 | 		r=k5_prepare(fd);
1069 | 		if (r) break;
1070 | 	}
1071 | 
1072 | 	if (!r)
1073 | 	{
1074 | 		fprintf(stderr,"Failed to init radio\n");
1075 | 		exit(1);
1076 | 	}
1077 | 
1078 | 	switch(mode)
1079 | 	{
1080 | 
1081 | 
1082 | 		case MODE_READ:
1083 | 
1084 | 			for(i=0;i<UVK5_EEPROM_SIZE; i=i+UVK5_EEPROM_BLOCKSIZE) {
1085 | 				if (!k5_readmem(fd,(unsigned char *)&eeprom[i],UVK5_EEPROM_BLOCKSIZE,i))
1086 | 				{
1087 | 					fprintf(stderr,"Failed to read block 0x%4.4X\n",i);
1088 | 					exit(1);
1089 | 				}
1090 | 				if (verbose>0) { 
1091 | 					printf("\rread block 0x%4.4X  %i%%",i,(100*i/UVK5_EEPROM_SIZE)); 
1092 | 					fflush(stdout); 
1093 | 				}
1094 | 			}
1095 | 			close(fd);
1096 | 			if (verbose>0) { printf("\rSuccessfully read EEPROM\n"); }
1097 | 			if (verbose>2) { hdump((unsigned char *)&eeprom,UVK5_EEPROM_SIZE); }
1098 | 
1099 | 			write_file(file,(unsigned char *)&eeprom,UVK5_EEPROM_SIZE);
1100 | 
1101 | 			break;
1102 | 
1103 | 		case MODE_WRITE:
1104 | 		case MODE_WRITE_MOST:
1105 | 		case MODE_WRITE_ALL:
1106 | 			if ((mode==MODE_WRITE_ALL)&&(i_know_what_im_doing<1)) {
1107 | 				printf("ERROR: the \"I know what I'm doing\" value has to be at least 1 to confirm that you know what you're doing\n");
1108 | 				exit(0);
1109 | 			}
1110 | 
1111 | 			/* read file */
1112 | 			ffd=open(file,O_RDONLY);
1113 | 			if (ffd<0) {
1114 | 				fprintf(stderr,"open %s error %d %s\n", file, errno, strerror(errno));
1115 | 				exit(1);
1116 | 			}
1117 | 			r=read(ffd,(unsigned char *)&eeprom[i],UVK5_EEPROM_SIZE);
1118 | 			if (r!=UVK5_EEPROM_SIZE) {
1119 | 				fprintf(stderr,"Failed to read whole EEPROM from file %s, file too short?\n",file);
1120 | 				exit(1);
1121 | 			}
1122 | 			close(ffd);
1123 | 			if (verbose>0) { printf ("Read file %s success\n",file); }
1124 | 			if ((mode==MODE_WRITE_ALL) || (mode==MODE_WRITE_MOST)) {
1125 | 				j=UVK5_EEPROM_SIZE_WITHOUT_CALIBRATION;
1126 | 				if (mode==MODE_WRITE_ALL) j=UVK5_EEPROM_SIZE;
1127 | 
1128 | 				/* write to radio */
1129 | 				for(i=0;i<j; i=i+UVK5_EEPROM_BLOCKSIZE) {
1130 | 					if (!k5_writemem(fd,(unsigned char *)&eeprom[i],UVK5_EEPROM_BLOCKSIZE,i))
1131 | 					{
1132 | 						fprintf(stderr,"Failed to write block 0x%4.4X\n",i);
1133 | 						exit(1);
1134 | 					}
1135 | 					if (verbose>0) { 
1136 | 						printf("\rwrite block 0x%4.4X  %i%%",i,(100*i/j)); 
1137 | 						fflush(stdout); 
1138 | 					}
1139 | 
1140 | 				} 
1141 | 			} else {
1142 | 				/* write to radio */
1143 | 
1144 | 				i=0;
1145 | 				while (uvk5_writes[i][1]) { i++; }
1146 | 				j=i;
1147 | 
1148 | 				i=0;
1149 | 				while (uvk5_writes[i][1]) {
1150 | 					if (!k5_writemem(fd,(unsigned char *)&eeprom[uvk5_writes[i][0]],uvk5_writes[i][1],uvk5_writes[i][0]))
1151 | 					{
1152 | 						fprintf(stderr,"Failed to write block 0x%4.4X length 0x%2.2x\n",uvk5_writes[i][0],uvk5_writes[i][1]);
1153 | 						exit(1);
1154 | 					}
1155 | 					if (verbose>0) { 
1156 | 						printf("\rwrite block 0x%4.4X  %i%%",i,(100*i/j)); 
1157 | 						fflush(stdout); 
1158 | 					}
1159 | 					i++;
1160 | 				}
1161 | 			}
1162 | 			k5_reset(fd);
1163 | 			if (verbose>0) { printf("\rSuccessfully wrote EEPROM\n"); }
1164 | 
1165 | 
1166 | 			break;
1167 | 		default:
1168 | 			fprintf(stderr,"this shouldn't happen :)\n");
1169 | 			break;
1170 | 	}
1171 | 
1172 | 	return(0); /* silence gcc */
1173 | }
1174 | 


--------------------------------------------------------------------------------
/uvk5.h:
--------------------------------------------------------------------------------
  1 | /* UV-K5 EEPROM programmer */
  2 | 
  3 | #ifndef UVK5_INCLUDE_H
  4 | #define UVK5_INCLUDE_H
  5 | 
  6 | int uvk5_writesx[][2]={
  7 | //{ 0x0e70 , 0x60 },
  8 | { 0x0eb0 , 0x08 },
  9 | {0,0}
 10 | 	};
 11 | 
 12 | int uvk5_writes[][2]={
 13 | { 0x0e70 , 0x60 },
 14 | { 0x0000 , 0x10 },
 15 | { 0x0f50 , 0x10 },
 16 | { 0x0010 , 0x10 },
 17 | { 0x0f60 , 0x10 },
 18 | { 0x0020 , 0x10 },
 19 | { 0x0f70 , 0x10 },
 20 | { 0x0030 , 0x10 },
 21 | { 0x0f80 , 0x10 },
 22 | { 0x0040 , 0x10 },
 23 | { 0x0f90 , 0x10 },
 24 | { 0x0050 , 0x10 },
 25 | { 0x0fa0 , 0x10 },
 26 | { 0x0060 , 0x10 },
 27 | { 0x0fb0 , 0x10 },
 28 | { 0x0070 , 0x10 },
 29 | { 0x0fc0 , 0x10 },
 30 | { 0x0080 , 0x10 },
 31 | { 0x0fd0 , 0x10 },
 32 | { 0x0090 , 0x10 },
 33 | { 0x0fe0 , 0x10 },
 34 | { 0x00a0 , 0x10 },
 35 | { 0x0ff0 , 0x10 },
 36 | { 0x00b0 , 0x10 },
 37 | { 0x1000 , 0x10 },
 38 | { 0x00c0 , 0x10 },
 39 | { 0x1010 , 0x10 },
 40 | { 0x00d0 , 0x10 },
 41 | { 0x1020 , 0x10 },
 42 | { 0x00e0 , 0x10 },
 43 | { 0x1030 , 0x10 },
 44 | { 0x00f0 , 0x10 },
 45 | { 0x1040 , 0x10 },
 46 | { 0x0100 , 0x10 },
 47 | { 0x1050 , 0x10 },
 48 | { 0x0110 , 0x10 },
 49 | { 0x1060 , 0x10 },
 50 | { 0x0120 , 0x10 },
 51 | { 0x1070 , 0x10 },
 52 | { 0x0130 , 0x10 },
 53 | { 0x1080 , 0x10 },
 54 | { 0x0140 , 0x10 },
 55 | { 0x1090 , 0x10 },
 56 | { 0x0150 , 0x10 },
 57 | { 0x10a0 , 0x10 },
 58 | { 0x0160 , 0x10 },
 59 | { 0x10b0 , 0x10 },
 60 | { 0x0170 , 0x10 },
 61 | { 0x10c0 , 0x10 },
 62 | { 0x0180 , 0x10 },
 63 | { 0x10d0 , 0x10 },
 64 | { 0x0190 , 0x10 },
 65 | { 0x10e0 , 0x10 },
 66 | { 0x01a0 , 0x10 },
 67 | { 0x10f0 , 0x10 },
 68 | { 0x01b0 , 0x10 },
 69 | { 0x1100 , 0x10 },
 70 | { 0x01c0 , 0x10 },
 71 | { 0x1110 , 0x10 },
 72 | { 0x01d0 , 0x10 },
 73 | { 0x1120 , 0x10 },
 74 | { 0x01e0 , 0x10 },
 75 | { 0x1130 , 0x10 },
 76 | { 0x01f0 , 0x10 },
 77 | { 0x1140 , 0x10 },
 78 | { 0x0200 , 0x10 },
 79 | { 0x1150 , 0x10 },
 80 | { 0x0210 , 0x10 },
 81 | { 0x1160 , 0x10 },
 82 | { 0x0220 , 0x10 },
 83 | { 0x1170 , 0x10 },
 84 | { 0x0230 , 0x10 },
 85 | { 0x1180 , 0x10 },
 86 | { 0x0240 , 0x10 },
 87 | { 0x1190 , 0x10 },
 88 | { 0x0250 , 0x10 },
 89 | { 0x11a0 , 0x10 },
 90 | { 0x0260 , 0x10 },
 91 | { 0x11b0 , 0x10 },
 92 | { 0x0270 , 0x10 },
 93 | { 0x11c0 , 0x10 },
 94 | { 0x0280 , 0x10 },
 95 | { 0x11d0 , 0x10 },
 96 | { 0x0290 , 0x10 },
 97 | { 0x11e0 , 0x10 },
 98 | { 0x02a0 , 0x10 },
 99 | { 0x11f0 , 0x10 },
100 | { 0x02b0 , 0x10 },
101 | { 0x1200 , 0x10 },
102 | { 0x02c0 , 0x10 },
103 | { 0x1210 , 0x10 },
104 | { 0x02d0 , 0x10 },
105 | { 0x1220 , 0x10 },
106 | { 0x02e0 , 0x10 },
107 | { 0x1230 , 0x10 },
108 | { 0x02f0 , 0x10 },
109 | { 0x1240 , 0x10 },
110 | { 0x0300 , 0x10 },
111 | { 0x1250 , 0x10 },
112 | { 0x0310 , 0x10 },
113 | { 0x1260 , 0x10 },
114 | { 0x0320 , 0x10 },
115 | { 0x1270 , 0x10 },
116 | { 0x0330 , 0x10 },
117 | { 0x1280 , 0x10 },
118 | { 0x0340 , 0x10 },
119 | { 0x1290 , 0x10 },
120 | { 0x0350 , 0x10 },
121 | { 0x12a0 , 0x10 },
122 | { 0x0360 , 0x10 },
123 | { 0x12b0 , 0x10 },
124 | { 0x0370 , 0x10 },
125 | { 0x12c0 , 0x10 },
126 | { 0x0380 , 0x10 },
127 | { 0x12d0 , 0x10 },
128 | { 0x0390 , 0x10 },
129 | { 0x12e0 , 0x10 },
130 | { 0x03a0 , 0x10 },
131 | { 0x12f0 , 0x10 },
132 | { 0x03b0 , 0x10 },
133 | { 0x1300 , 0x10 },
134 | { 0x03c0 , 0x10 },
135 | { 0x1310 , 0x10 },
136 | { 0x03d0 , 0x10 },
137 | { 0x1320 , 0x10 },
138 | { 0x03e0 , 0x10 },
139 | { 0x1330 , 0x10 },
140 | { 0x03f0 , 0x10 },
141 | { 0x1340 , 0x10 },
142 | { 0x0400 , 0x10 },
143 | { 0x1350 , 0x10 },
144 | { 0x0410 , 0x10 },
145 | { 0x1360 , 0x10 },
146 | { 0x0420 , 0x10 },
147 | { 0x1370 , 0x10 },
148 | { 0x0430 , 0x10 },
149 | { 0x1380 , 0x10 },
150 | { 0x0440 , 0x10 },
151 | { 0x1390 , 0x10 },
152 | { 0x0450 , 0x10 },
153 | { 0x13a0 , 0x10 },
154 | { 0x0460 , 0x10 },
155 | { 0x13b0 , 0x10 },
156 | { 0x0470 , 0x10 },
157 | { 0x13c0 , 0x10 },
158 | { 0x0480 , 0x10 },
159 | { 0x13d0 , 0x10 },
160 | { 0x0490 , 0x10 },
161 | { 0x13e0 , 0x10 },
162 | { 0x04a0 , 0x10 },
163 | { 0x13f0 , 0x10 },
164 | { 0x04b0 , 0x10 },
165 | { 0x1400 , 0x10 },
166 | { 0x04c0 , 0x10 },
167 | { 0x1410 , 0x10 },
168 | { 0x04d0 , 0x10 },
169 | { 0x1420 , 0x10 },
170 | { 0x04e0 , 0x10 },
171 | { 0x1430 , 0x10 },
172 | { 0x04f0 , 0x10 },
173 | { 0x1440 , 0x10 },
174 | { 0x0500 , 0x10 },
175 | { 0x1450 , 0x10 },
176 | { 0x0510 , 0x10 },
177 | { 0x1460 , 0x10 },
178 | { 0x0520 , 0x10 },
179 | { 0x1470 , 0x10 },
180 | { 0x0530 , 0x10 },
181 | { 0x1480 , 0x10 },
182 | { 0x0540 , 0x10 },
183 | { 0x1490 , 0x10 },
184 | { 0x0550 , 0x10 },
185 | { 0x14a0 , 0x10 },
186 | { 0x0560 , 0x10 },
187 | { 0x14b0 , 0x10 },
188 | { 0x0570 , 0x10 },
189 | { 0x14c0 , 0x10 },
190 | { 0x0580 , 0x10 },
191 | { 0x14d0 , 0x10 },
192 | { 0x0590 , 0x10 },
193 | { 0x14e0 , 0x10 },
194 | { 0x05a0 , 0x10 },
195 | { 0x14f0 , 0x10 },
196 | { 0x05b0 , 0x10 },
197 | { 0x1500 , 0x10 },
198 | { 0x05c0 , 0x10 },
199 | { 0x1510 , 0x10 },
200 | { 0x05d0 , 0x10 },
201 | { 0x1520 , 0x10 },
202 | { 0x05e0 , 0x10 },
203 | { 0x1530 , 0x10 },
204 | { 0x05f0 , 0x10 },
205 | { 0x1540 , 0x10 },
206 | { 0x0600 , 0x10 },
207 | { 0x1550 , 0x10 },
208 | { 0x0610 , 0x10 },
209 | { 0x1560 , 0x10 },
210 | { 0x0620 , 0x10 },
211 | { 0x1570 , 0x10 },
212 | { 0x0630 , 0x10 },
213 | { 0x1580 , 0x10 },
214 | { 0x0640 , 0x10 },
215 | { 0x1590 , 0x10 },
216 | { 0x0650 , 0x10 },
217 | { 0x15a0 , 0x10 },
218 | { 0x0660 , 0x10 },
219 | { 0x15b0 , 0x10 },
220 | { 0x0670 , 0x10 },
221 | { 0x15c0 , 0x10 },
222 | { 0x0680 , 0x10 },
223 | { 0x15d0 , 0x10 },
224 | { 0x0690 , 0x10 },
225 | { 0x15e0 , 0x10 },
226 | { 0x06a0 , 0x10 },
227 | { 0x15f0 , 0x10 },
228 | { 0x06b0 , 0x10 },
229 | { 0x1600 , 0x10 },
230 | { 0x06c0 , 0x10 },
231 | { 0x1610 , 0x10 },
232 | { 0x06d0 , 0x10 },
233 | { 0x1620 , 0x10 },
234 | { 0x06e0 , 0x10 },
235 | { 0x1630 , 0x10 },
236 | { 0x06f0 , 0x10 },
237 | { 0x1640 , 0x10 },
238 | { 0x0700 , 0x10 },
239 | { 0x1650 , 0x10 },
240 | { 0x0710 , 0x10 },
241 | { 0x1660 , 0x10 },
242 | { 0x0720 , 0x10 },
243 | { 0x1670 , 0x10 },
244 | { 0x0730 , 0x10 },
245 | { 0x1680 , 0x10 },
246 | { 0x0740 , 0x10 },
247 | { 0x1690 , 0x10 },
248 | { 0x0750 , 0x10 },
249 | { 0x16a0 , 0x10 },
250 | { 0x0760 , 0x10 },
251 | { 0x16b0 , 0x10 },
252 | { 0x0770 , 0x10 },
253 | { 0x16c0 , 0x10 },
254 | { 0x0780 , 0x10 },
255 | { 0x16d0 , 0x10 },
256 | { 0x0790 , 0x10 },
257 | { 0x16e0 , 0x10 },
258 | { 0x07a0 , 0x10 },
259 | { 0x16f0 , 0x10 },
260 | { 0x07b0 , 0x10 },
261 | { 0x1700 , 0x10 },
262 | { 0x07c0 , 0x10 },
263 | { 0x1710 , 0x10 },
264 | { 0x07d0 , 0x10 },
265 | { 0x1720 , 0x10 },
266 | { 0x07e0 , 0x10 },
267 | { 0x1730 , 0x10 },
268 | { 0x07f0 , 0x10 },
269 | { 0x1740 , 0x10 },
270 | { 0x0800 , 0x10 },
271 | { 0x1750 , 0x10 },
272 | { 0x0810 , 0x10 },
273 | { 0x1760 , 0x10 },
274 | { 0x0820 , 0x10 },
275 | { 0x1770 , 0x10 },
276 | { 0x0830 , 0x10 },
277 | { 0x1780 , 0x10 },
278 | { 0x0840 , 0x10 },
279 | { 0x1790 , 0x10 },
280 | { 0x0850 , 0x10 },
281 | { 0x17a0 , 0x10 },
282 | { 0x0860 , 0x10 },
283 | { 0x17b0 , 0x10 },
284 | { 0x0870 , 0x10 },
285 | { 0x17c0 , 0x10 },
286 | { 0x0880 , 0x10 },
287 | { 0x17d0 , 0x10 },
288 | { 0x0890 , 0x10 },
289 | { 0x17e0 , 0x10 },
290 | { 0x08a0 , 0x10 },
291 | { 0x17f0 , 0x10 },
292 | { 0x08b0 , 0x10 },
293 | { 0x1800 , 0x10 },
294 | { 0x08c0 , 0x10 },
295 | { 0x1810 , 0x10 },
296 | { 0x08d0 , 0x10 },
297 | { 0x1820 , 0x10 },
298 | { 0x08e0 , 0x10 },
299 | { 0x1830 , 0x10 },
300 | { 0x08f0 , 0x10 },
301 | { 0x1840 , 0x10 },
302 | { 0x0900 , 0x10 },
303 | { 0x1850 , 0x10 },
304 | { 0x0910 , 0x10 },
305 | { 0x1860 , 0x10 },
306 | { 0x0920 , 0x10 },
307 | { 0x1870 , 0x10 },
308 | { 0x0930 , 0x10 },
309 | { 0x1880 , 0x10 },
310 | { 0x0940 , 0x10 },
311 | { 0x1890 , 0x10 },
312 | { 0x0950 , 0x10 },
313 | { 0x18a0 , 0x10 },
314 | { 0x0960 , 0x10 },
315 | { 0x18b0 , 0x10 },
316 | { 0x0970 , 0x10 },
317 | { 0x18c0 , 0x10 },
318 | { 0x0980 , 0x10 },
319 | { 0x18d0 , 0x10 },
320 | { 0x0990 , 0x10 },
321 | { 0x18e0 , 0x10 },
322 | { 0x09a0 , 0x10 },
323 | { 0x18f0 , 0x10 },
324 | { 0x09b0 , 0x10 },
325 | { 0x1900 , 0x10 },
326 | { 0x09c0 , 0x10 },
327 | { 0x1910 , 0x10 },
328 | { 0x09d0 , 0x10 },
329 | { 0x1920 , 0x10 },
330 | { 0x09e0 , 0x10 },
331 | { 0x1930 , 0x10 },
332 | { 0x09f0 , 0x10 },
333 | { 0x1940 , 0x10 },
334 | { 0x0a00 , 0x10 },
335 | { 0x1950 , 0x10 },
336 | { 0x0a10 , 0x10 },
337 | { 0x1960 , 0x10 },
338 | { 0x0a20 , 0x10 },
339 | { 0x1970 , 0x10 },
340 | { 0x0a30 , 0x10 },
341 | { 0x1980 , 0x10 },
342 | { 0x0a40 , 0x10 },
343 | { 0x1990 , 0x10 },
344 | { 0x0a50 , 0x10 },
345 | { 0x19a0 , 0x10 },
346 | { 0x0a60 , 0x10 },
347 | { 0x19b0 , 0x10 },
348 | { 0x0a70 , 0x10 },
349 | { 0x19c0 , 0x10 },
350 | { 0x0a80 , 0x10 },
351 | { 0x19d0 , 0x10 },
352 | { 0x0a90 , 0x10 },
353 | { 0x19e0 , 0x10 },
354 | { 0x0aa0 , 0x10 },
355 | { 0x19f0 , 0x10 },
356 | { 0x0ab0 , 0x10 },
357 | { 0x1a00 , 0x10 },
358 | { 0x0ac0 , 0x10 },
359 | { 0x1a10 , 0x10 },
360 | { 0x0ad0 , 0x10 },
361 | { 0x1a20 , 0x10 },
362 | { 0x0ae0 , 0x10 },
363 | { 0x1a30 , 0x10 },
364 | { 0x0af0 , 0x10 },
365 | { 0x1a40 , 0x10 },
366 | { 0x0b00 , 0x10 },
367 | { 0x1a50 , 0x10 },
368 | { 0x0b10 , 0x10 },
369 | { 0x1a60 , 0x10 },
370 | { 0x0b20 , 0x10 },
371 | { 0x1a70 , 0x10 },
372 | { 0x0b30 , 0x10 },
373 | { 0x1a80 , 0x10 },
374 | { 0x0b40 , 0x10 },
375 | { 0x1a90 , 0x10 },
376 | { 0x0b50 , 0x10 },
377 | { 0x1aa0 , 0x10 },
378 | { 0x0b60 , 0x10 },
379 | { 0x1ab0 , 0x10 },
380 | { 0x0b70 , 0x10 },
381 | { 0x1ac0 , 0x10 },
382 | { 0x0b80 , 0x10 },
383 | { 0x1ad0 , 0x10 },
384 | { 0x0b90 , 0x10 },
385 | { 0x1ae0 , 0x10 },
386 | { 0x0ba0 , 0x10 },
387 | { 0x1af0 , 0x10 },
388 | { 0x0bb0 , 0x10 },
389 | { 0x1b00 , 0x10 },
390 | { 0x0bc0 , 0x10 },
391 | { 0x1b10 , 0x10 },
392 | { 0x0bd0 , 0x10 },
393 | { 0x1b20 , 0x10 },
394 | { 0x0be0 , 0x10 },
395 | { 0x1b30 , 0x10 },
396 | { 0x0bf0 , 0x10 },
397 | { 0x1b40 , 0x10 },
398 | { 0x0c00 , 0x10 },
399 | { 0x1b50 , 0x10 },
400 | { 0x0c10 , 0x10 },
401 | { 0x1b60 , 0x10 },
402 | { 0x0c20 , 0x10 },
403 | { 0x1b70 , 0x10 },
404 | { 0x0c30 , 0x10 },
405 | { 0x1b80 , 0x10 },
406 | { 0x0c40 , 0x10 },
407 | { 0x1b90 , 0x10 },
408 | { 0x0c50 , 0x10 },
409 | { 0x1ba0 , 0x10 },
410 | { 0x0c60 , 0x10 },
411 | { 0x1bb0 , 0x10 },
412 | { 0x0c70 , 0x10 },
413 | { 0x1bc0 , 0x10 },
414 | { 0x0c80 , 0x10 },
415 | { 0x0c90 , 0x10 },
416 | { 0x0ca0 , 0x10 },
417 | { 0x0cb0 , 0x10 },
418 | { 0x0cc0 , 0x10 },
419 | { 0x0cd0 , 0x10 },
420 | { 0x0ce0 , 0x10 },
421 | { 0x0cf0 , 0x10 },
422 | { 0x0d00 , 0x10 },
423 | { 0x0d10 , 0x10 },
424 | { 0x0d20 , 0x10 },
425 | { 0x0d30 , 0x10 },
426 | { 0x0d40 , 0x10 },
427 | { 0x0d50 , 0x10 },
428 | { 0x0d60 , 0x80 },
429 | { 0x0de0 , 0x50 },
430 | { 0x0e40 , 0x28 },
431 | { 0x0ed0 , 0x48 },
432 | { 0x1c00 , 0x80 },
433 | { 0x1c80 , 0x80 },
434 | { 0x0f18 , 0x08 },
435 | {0,0}
436 | };
437 | 
438 | #endif
439 | 
440 | 


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https://raw.githubusercontent.com/sq5bpf/k5prog/241ab18b61f6d8933fecf60643fe94322fbf4198/uvk5_original_eeprom.raw


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