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Author Topic: ME7_eepromtablefinder, dumps eeprom descriptor table on almost any ME7 bin.  (Read 18121 times)
fluke9
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Small tool, may not be worth much but for people interested where setzi62s info on the eeprom descriptor table came from in here:
http://nefariousmotorsports.com/forum/index.php?topic=362.0title=


Tool is up at github here:
https://github.com/fluke9/ME7_eepromtablefinder

linux and windows bins included (windows bin might need mingw dlls, too lazy for now to build native)

Output is like follows:
Code:
image is 512kb big...
loaded file "0261207609-1037363702-55180795.BIN" ...
trying to find the table len=524288
found at addr 0x073B0C
we found the table address 0x59c8 but we do not know the segment yet...
dumping table at 159c8
00  0027 (PAGEUSED) (CHECKSUM) (BIT2) (BIT5)
01  0010 (BIT4)
02  0103 (PAGEUSED) (CHECKSUM)
03  0227 (PAGEUSED) (CHECKSUM) (BIT2) (BIT5)
04  0323 (PAGEUSED) (CHECKSUM) (BIT5)
05  0483 (PAGEUSED) (CHECKSUM) (BACKUPPAGE)
06  04C3 (PAGEUSED) (CHECKSUM) (CSUM-1) (BACKUPPAGE)
07  0527 (PAGEUSED) (CHECKSUM) (BIT2) (BIT5)
08  0623 (PAGEUSED) (CHECKSUM) (BIT5)
09  07A3 (PAGEUSED) (CHECKSUM) (BACKUPPAGE) (BIT5)
10  07E3 (PAGEUSED) (CHECKSUM) (CSUM-1) (BACKUPPAGE) (BIT5)
11  0823 (PAGEUSED) (CHECKSUM) (BIT5)
12  0923 (PAGEUSED) (CHECKSUM) (BIT5)
13  0A23 (PAGEUSED) (CHECKSUM) (BIT5)
14  0B07 (PAGEUSED) (CHECKSUM) (BIT2)
15  0B10 (BIT4)
16  0B10 (BIT4)
17  0B10 (BIT4)
18  0B10 (BIT4)
19  0B10 (BIT4)
20  0B10 (BIT4)
21  0B10 (BIT4)
22  0C33 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
23  0D33 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
24  0E33 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
25  0F33 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
26  1033 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
27  1133 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
28  1233 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
29  1333 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
30  1433 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
31  1533 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
32  1633 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
33  1733 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
34  1833 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
35  1933 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
36  1A33 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
37  1B33 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
38  1C33 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
39  1D33 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
40  1E33 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
41  1F33 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
42  2033 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
43  2133 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
44  2233 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
45  2333 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
46  2433 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
47  2533 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
48  2633 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
49  2733 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
50  2833 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
51  2933 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
52  2A33 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
53  2B33 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
54  2C33 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
55  2D33 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
56  2E33 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
57  2F33 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
58  3033 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
59  3133 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
60  3233 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
61  3333 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
62  3433 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
63  3533 (PAGEUSED) (CHECKSUM) (BIT4) (BIT5)
your table has 64 pages, so your eeprom is 1024 bytes big

Will use this later on to reconstruct eeprom files from the eeprom mirror in ram retrieved via my
McMess code so one can read and write the eeprom without bootmode on all ecus which support mcmess.

Worked on all of nyets stock bins and all my Alfa ME7.3.1 bins.

More stuff will follow on github.

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360trev
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Good job, so glad to see people doing these little projects still.

I've just added a single line snippet and included my C16x disassembler. Plus 1 include file.


        if (!memcmp(data+addr, needle, sizeof(needle)))
        {
            printf("found at addr 0x%06X\n", addr);
            foundaddr = addr;

            if(show_diss) { c167x_diss(addr, data+addr, 32); }  // Show asm output on found byte match.
            break;
        }



Result is...

Searching for EEPROM table...trying to find the table len=524288
found at addr 0x069576

0x00069576: (+0  )  C4 20 04 00                  mov      [r0+4], r2
0x0006957A: (+4  )  F4 85 02 00                  movb     r14, [r5+2]
0x0006957E: (+8  )  C0 84                        movbz    r4, r14
0x00069580: (+10 )  C4 40 06 00                  mov      [r0+6], r4
0x00069584: (+14 )  08 54                        add      r5, #4
0x00069586: (+16 )  A9 85                        movb     r14, [r5]
0x00069588: (+18 )  47 F8 20 00                  cmpb     r14, #0020h
0x0006958C: (+22 )  EA 30 66 97                  jmpa     cc_UC, loc_69766
; ------------------------------------------------------------------------------

0x00069590: (+26 )  F7 8E 27 A6                  movb     byte_A627, ZEROS
***


I'll upload a git project with the C16x dissassembler standalone for you to add to your projects. Makes it easier indeed. Also have some good helper functions which support mask searching.

I also wrote the table format dumpers too so you can dump all the different types of tables you can find in a rom in all the different formats they come in and your segment calculator too.

So adding this little snippet..


    printf("we found the table address 0x%x but we do not know the segment yet...\n", tableoffset);

    MPTR _offset;
    translate_seg(&_offset, "OFFSET", data, dpp1_value-1, get16((unsigned char *)data+foundaddr) /*val*/);
    show_seg(&_offset);

    unsigned int testaddr = tableoffset;

    testaddr += 0x10000;
    printf ("dumping table at %x\n", testaddr);


Shows...

we found the table address 0x6132 but we do not know the segment yet...
OFFSET     @ ROM:0x816132 RAM:0x7b7152 File-Offset:0x16132 (seg=0x0204 val=0x6132)
dumping table at 16132


If your interested in these helper functions let me know and ill add them as a standalone project to my Swiss Army Knife tool.
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fluke9
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Good job, so glad to see people doing these little projects still.
This was really a superquick 5 minute hack as i was curios why my eepromMirror memory location does differ a lot from the real eeprom.
This table explains it.

I have done a lot of McMess reverse engineering recently and wanted to use it to dump/write the eeprom by using the mirror in ram without bootmode.
It is written to the eeprom in the afterrun code after ignition goes off.
With this table i can reconstruct it now (besides the IMMO bytes which are missing?!).

With my current McMess code i can dump the whole ram in about 10-20 seconds and write to any location.
Coolest thing ever would be a function in ram which i have yet to find to take over the ecu from OBD.

I've just added a single line snippet and included my C16x disassembler. Plus 1 include file.

Cool, i have seen your stuff (and used it quickly already) and i already wanted to steal your disassembler.


I'll upload a git project with the C16x dissassembler standalone for you to add to your projects. Makes it easier indeed. Also have some good helper functions which support mask searching.

If your interested in these helper functions let me know and ill add them as a standalone project to my Swiss Army Knife tool.

Would really rock, i could use it for my McMess stuff too, just have to figure out how to link in a repo as dependency.

The McMess code is not ready for primetime yet but will follow soon(tm) on github.
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360trev
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Did you fully reverse the entire McMess and all its sub functions?

Something like this...  ?


McMess_MainProtocol                              McMess_MainProtocol:
McMess_MainProtocol      88 C0                                   mov     [-r0], r12
McMess_MainProtocol+2    88 90                                   mov     [-r0], r9
McMess_MainProtocol+4    88 80                                   mov     [-r0], r8
McMess_MainProtocol+6    88 70                                   mov     [-r0], r7
McMess_MainProtocol+8    88 60                                   mov     [-r0], r
McMess_MainProtocol+A    26 F0 0A 00                             sub     r0, #0Ah
McMess_MainProtocol+E    F4 80 12 00                             movb    rl4, [r0+12h]
McMess_MainProtocol+12   49 82                                   cmpb    rl4, #2         ; ... read pp
McMess_MainProtocol+14   EA 20 18 77                             jmpa    cc_Z, mcMess_readPP
McMess_MainProtocol+18   49 84                                   cmpb    rl4, #4         ; ... read Var1
McMess_MainProtocol+1A   EA 20 26 77                             jmpa    cc_Z, mcMess_readVar1
McMess_MainProtocol+1E   49 87                                   cmpb    rl4, #7         ; ... read Var2
McMess_MainProtocol+20   EA 20 34 77                             jmpa    cc_Z, mcMess_readVar2
McMess_MainProtocol+24   47 F8 0B 00                             cmpb    rl4, #0Bh       ; ... read ROM(Var2,Var1 )
McMess_MainProtocol+28   EA 20 42 77                             jmpa    cc_Z, mcMess_readROM
McMess_MainProtocol+2C   47 F8 0E 00                             cmpb    rl4, #0Eh       ; ... read RAM(Var1,Var2)
McMess_MainProtocol+30   EA 20 84 77                             jmpa    cc_Z, mcMess_readRAM
McMess_MainProtocol+34   47 F8 10 00                             cmpb    rl4, #10h       ; ... Read byte (Var1)
McMess_MainProtocol+38   EA 20 C6 77                             jmpa    cc_Z, mcMess_readByte
McMess_MainProtocol+3C   47 F8 13 00                             cmpb    rl4, #13h       ; ... Read error memory (var1, var2)
McMess_MainProtocol+40   EA 20 22 78                             jmpa    cc_Z, mcMess_readErrorMemory_unsupported_EB
McMess_MainProtocol+44   47 F8 15 00                             cmpb    rl4, #15h
McMess_MainProtocol+48   EA 20 2C 78                             jmpa    cc_Z, mcMess_unknown1_unsupported_EB
McMess_MainProtocol+4C   47 F8 16 00                             cmpb    rl4, #16h
McMess_MainProtocol+50   EA 20 36 78                             jmpa    cc_Z, mcMess_unknown2_unsupported_EB
McMess_MainProtocol+54   47 F8 19 00                             cmpb    rl4, #19h   ; ... Read SG identification (DAMOS-ID) code (var1)
McMess_MainProtocol+58   EA 20 40 78                             jmpa    cc_Z, mcMess_ReadSGid
McMess_MainProtocol+5C   47 F8 1F 00                             cmpb    rl4, #1Fh
McMess_MainProtocol+60   EA 20 38 79                             jmpa    cc_Z, mcMess_unknown3
McMess_MainProtocol+64   47 F8 25 00                             cmpb    rl4, #25h ;  ... Var1:= pp (used as LSB address)
McMess_MainProtocol+68   EA 20 64 79                             jmpa    cc_Z, mcMess_var1pp
McMess_MainProtocol+6C   47 F8 26 00                             cmpb    rl4, #26h ;  ... Var2:= pp (used as midB address)
McMess_MainProtocol+70   EA 20 80 79                             jmpa    cc_Z, mcMess_var2pp
McMess_MainProtocol+74   47 F8 2F 00                             cmpb    rl4, #2Fh ;
McMess_MainProtocol+78   EA 20 9C 79                             jmpa    cc_Z, mcMess_unknown4
McMess_MainProtocol+7C   47 F8 31 00                             cmpb    rl4, #31h ;  ... Byte (var1) of request table := pp
McMess_MainProtocol+80   EA 20 FE 79                             jmpa    cc_Z, mcMess_var1reqtable
McMess_MainProtocol+84   47 F8 34 00                             cmpb    rl4, #34h ;  ... Preparing adjustment ("prefix function")
McMess_MainProtocol+88   EA 20 08 7B                             jmpa    cc_Z, mcMess_prefix
McMess_MainProtocol+8C   47 F8 37 00                             cmpb    rl4, #37h ;
McMess_MainProtocol+90   EA 20 26 7B                             jmpa    cc_Z, mcMess_unknown5
McMess_MainProtocol+94   47 F8 38 00                             cmpb    rl4, #38h ;
McMess_MainProtocol+98   EA 20 70 7B                             jmpa    cc_Z, mcMess_unknown6_copy_bytes
McMess_MainProtocol+9C   47 F8 3D 00                             cmpb    rl4, #3Dh ;
McMess_MainProtocol+A0   EA 20 82 7B                             jmpa    cc_Z, mcMess_unknown7
McMess_MainProtocol+A4   EA 00 B0 7B                             jmpa    cc_UC, mcMess_unsupported_EB


etc..?

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fluke9
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Almost all of its subfunctions, and i did a patch to redirect the synctable to another address and introduce a len byte in front of it.
So can log cranksync as many memory locations as i want to.

I also patched out the stupid coding "mistake" they made that they read their own data as command (commands need bit9 set),
if the receivebuffer has a byte without command bit it exits sync reading and tears down mcmess.

Code:
821B78 mcmess_routine:                         ; CODE XREF: McMess_Handler10ms+32↓P
821B78                 mov     [-r0], r12
821B7A                 mov     [-r0], r9
821B7C                 mov     [-r0], r8
821B7E                 mov     [-r0], r7
821B80                 mov     [-r0], r6
821B82                 sub     r0, #0Ah
821B86                 movb    rl4, [r0+12h]
821B8A                 cmpb    rl4, #2
821B8C                 jmpa    cc_Z, readNewData
821B90                 cmpb    rl4, #4
821B92                 jmpa    cc_Z, readLowAddress
821B96                 cmpb    rl4, #7
821B98                 jmpa    cc_Z, readHighAddress
821B9C                 cmpb    rl4, #0Bh
821BA0                 jmpa    cc_Z, readFromFlashMemory
821BA4                 cmpb    rl4, #0Eh
821BA8                 jmpa    cc_Z, readFromRAMMemory
821BAC                 cmpb    rl4, #10h
821BB0                 jmpa    cc_Z, highspeed_readFromSyncAddressTable
821BB4                 cmpb    rl4, #13h
821BB8                 jmpa    cc_Z, notImplemented_13h
821BBC                 cmpb    rl4, #15h
821BC0                 jmpa    cc_Z, notImplemented_15h
821BC4                 cmpb    rl4, #16h
821BC8                 jmpa    cc_Z, notImplemented_16h
821BCC                 cmpb    rl4, #19h
821BD0                 jmpa    cc_Z, getStringECUEPK
821BD4                 cmpb    rl4, #1Fh
821BD8                 jmpa    cc_Z, readNextVerstellsystemVariable
821BDC                 cmpb    rl4, #25h ; '%'
821BE0                 jmpa    cc_Z, setLowAddress
821BE4                 cmpb    rl4, #26h ; '&'
821BE8                 jmpa    cc_Z, setHighAddress
821BEC                 cmpb    rl4, #2Fh ; '/'
821BF0                 jmpa    cc_Z, writeToRAMMemory
821BF4                 cmpb    rl4, #31h ; '1'
821BF8                 jmpa    cc_Z, highspeed_writeToSyncAddressTable
821BFC                 cmpb    rl4, #34h ; '4'
821C00                 jmpa    cc_Z, setDataByte
821C04                 cmpb    rl4, #37h ; '7'
821C08                 jmpa    cc_Z, writeNextVerstellsystemVariable
821C0C                 cmpb    rl4, #38h ; '8'
821C10                 jmpa    cc_Z, initializeVerstellSystemVaribles
821C14                 cmpb    rl4, #3Dh ; '='
821C18                 jmpa    cc_Z, highspeed_gotoReadSyncValues
821C1C                 jmpa    cc_UC, loc_8220B8

My logger works for me but needs my currently quite ugly patch.
Want to do automated patching soon.
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fluke9
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I use the writing to memory function to fill my relocated table (used the memory normally used by define local identifier)
and the crank sync routine is patched:

Code:
822450 MCMessSyncroPush:                       ; CODE XREF: CrankShaftSyncronousRoutine_sub_821226+9C↑P
822450                 mov     [-r0], r9
822452                 mov     [-r0], r8
822454                 movb    rl4, asc0_ComMode ; 0x1? == McMess
822458                 cmpb    rl4, #15h
82245C                 jmpa    cc_NZ, _mcmh_out
822460                 mov     r8, S0RBUF
822464                 movb    nosync_TimoutCounter, ZEROS
822468                 mov     r4, #100h
82246C                 and     r4, r8
82246E                 cmp     r4, #100h
822472                 jmpr    cc_NZ, _ENDCOMM
822474                 cmp     r8, #1AAh
822478                 jmpr    cc_Z, _recv1AA_return_to_normal_mcmess
82247A                 mov     r4, #10h
82247E                 or      asc0_Bits, r4
822482                 bclr    S0TIR
822484
822484 loc_822484:
822484                 calls   82h, mcmess_patched_transmit_8267E2
822488                 nop
lots of nops ;-)
8224C0                 nop
8224C2
8224C2 _ENDCOMM:                               ; CODE XREF: MCMessSyncroPush+22↑j
8224C2                 nop
8224C4                 nop
8224C6                 jmpr    cc_UC, _mcmh_out

patched transmit routine (i just copied the original one to a keil a66 file and defined stuff need so i can produce my hex):

Code:
$MOD167
$CASE
$NOMACRO

MAINCODE section code  WORD PUBLIC 'MAINCODE'
MAINPROC proc TASK INTNO RESET = 0

;__CSTART_PR     SECTION CODE WORD PUBLIC 'CPROGRAM'
;?C_RESET        PROC TASK C_STARTUP INTNO RESET = 0

mcMessSynchroTabPre EQU 0AA2Eh
mcMessSynchroTab   EQU 0AA30h
mcMessSynchroTab2 EQU 0AA32h

asc0_CommunicationBuf EQU 0E0A4h
asc0_CommunicationBuf_1 EQU 0E0A5h
asc0_ComMode EQU 0E07Ch
asc0_Bits EQU 0E074h
asc0_MaxToReceive EQU 0E076h
nosync_TimoutCounter EQU 8EA2h
word_380E86 EQU 8E86h
transmitData_s0 EQU 821B4Ah

S0RBUF EQU 0FEB2h
S0TBUF EQU 0FEB0h

S0TIC   EQU 0FF6Ch
S0TIE BIT S0TIC.6
S0TIR BIT S0TIC.7

S0RIC EQU 0FF6Eh
S0RIE BIT S0RIC.6
S0RIR BIT S0RIC.7

;MCMessSyncroPush:                       ; CODE XREF: sub_821226+9C?P
; mov     [-r0], r9
; mov     [-r0], r8
; movb    rl4, asc0_ComMode ; 0x1? == McMess
; cmpb    rl4, #15h
; jmpa    cc_NZ, _mcmh_out
; mov     r8, S0RBUF
; movb    nosync_TimoutCounter, ZEROS
;                 mov     r4, #100h
;                 and     r4, r8
;                 cmp     r4, #100h
;                 jmpr    cc_NZ, _ENDCOMM
;                 cmp     r8, #1AAh
;                 jmpr    cc_Z, _recv1AA_return_to_normal_mcmess
;                 mov     r4, #10h
;                 or      asc0_Bits, r4
;                 bclr    S0TIR

                 mov r8, #mcMessSynchroTabPre
                 mov r8, [r8]
                 mov     r9, #1
loc_822486:                             ; CODE XREF: MCMessSyncroPush+4E?j
                 mov     r4, r9
                 shl     r4, #2
                 mov     r10, [r4+#mcMessSynchroTab]
                 mov     r11, [r4+#mcMessSynchroTab2]
                 exts    r11, #1
                 movb    rl4, [r10]
                 movb    [r9+#asc0_CommunicationBuf], rl4
                 add     r9, #1
                 cmp     r9, r8
                 jmpr    cc_C, loc_822486
                 bset    S0TIE
                 mov     r4, #asc0_CommunicationBuf_1
add r8, #500h
                 mov     SRCP6, r4
                 mov     PECC6, r8
                 mov     r4, mcMessSynchroTab
                 mov     r5, mcMessSynchroTab2
                 exts    r5, #1
                 movb    rl3, [r4]
                 movbz   r2, rl3
                 mov     S0TBUF, r2

rets


MAINPROC              endp
MAINCODE              ends

end

McMess normally only supports 6 bytes to be read crank sync...
« Last Edit: November 05, 2019, 01:05:22 PM by fluke9 » Logged
360trev
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Impressive work.

Just found a small bug on your eepromtable finder... Some roms I have here have many more pages than your artificially set limit of 65...

I raised it to 129 and it works now successfully on 1mb roms with 2048 byte eeprom tables.

    for (i=0; i < 129; i++)
    {
        unsigned short value = *((unsigned short*)(data + testaddr + (i*2)));
...

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fluke9
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Impressive work.
Thanks a lot, yours too!

I have to find time to half polish my console application, so i can put it on github, right now its quite a (mc)mess/hackbed..

if you want to take a glimpse:
https://gist.github.com/fluke9/697f264618ec5929cabd6211fc25b673


Just found a small bug on your eepromtable finder... Some roms I have here have many more pages than your artificially set limit of 65...

I raised it to 129 and it works now successfully on 1mb roms with 2048 byte eeprom tables.

   for (i=0; i < 129; i++)
    {
        unsigned short value = *((unsigned short*)(data + testaddr + (i*2)));
...



ohhh, did not know that that big eeproms exist,
i introduced an arbitrary limit so that the output stops if the magic is missing in some bins.

changed and pushed, thanks!
« Last Edit: November 05, 2019, 01:20:53 PM by fluke9 » Logged
fluke9
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McMess Routines:

https://gist.github.com/fluke9/17a972bb1d19c16647390292c64d50c5
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360trev
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You have a PM!
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chill gates
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I became a full member by talking to myself lol



Looks ground breaking. Impressive work. I'll def have to go alpha n for now but I'm coming back for ya eventually.... I'm gonna blow my motor up anyway  Grin
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nyet
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WWW

I'll def have to go alpha n for now

SMH
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ME7.1 tuning guide (READ FIRST)
ECUx Plot
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