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nihalot
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« on: May 29, 2017, 03:35:05 PM »

Hope this helps anyone, although there doesnt seem to be much interest in this ECU...

Follow my other post and disable the checksums first.

1st step is to find how the CANBUS is handled. There is a buffer in RAM in which the messages are stored before they are transmitted.
On edc15, finding the buffer is easy. Example: Search for sequence of bytes: 0x280 or 0x288 or any other CAN id used by the ecu...
This will point you to the code which handles canbus:

Code:
ROM:00094156                 mov     r5, #280h
ROM:0009415A                 mov     CAN_280, r5               ;CAN_280- RAM buffer handling id -0x280
ROM:0009415E                 movb    rl4, #8
ROM:00094160                 movb    byte_C743, rl4
ROM:00094164                 mov     r4, #288h
ROM:00094168                 mov     CAN_288, r4
ROM:0009416C                 movb    rl4, #8
ROM:0009416E                 movb    byte_C74F, rl4
ROM:00094172                 mov     r4, #380h
ROM:00094176                 mov     CAN_380, r4
ROM:0009417A                 movb    rl4, #8
ROM:0009417C                 movb    byte_C75B, rl4
ROM:00094180                 mov     r4, #480h

Now that you've found the CAN buffer, refer to the FR CAN section.
Below, Ive shown the CANBUS buffer handling id 0x280 in my file.

Code:
MEM_EXT:0000C744 CAN_280:        ds 2                    ; DATA XREF: ROM:0009415Aw
MEM_EXT:0000C746 byte_C746:      ds 1                    ; DATA XREF: ROM:000945DCw
MEM_EXT:0000C746                                         ; ROM:0009463Ew ...
MEM_EXT:0000C747 byte_C747:      ds 1                    ; DATA XREF: ROM:0009468Aw
MEM_EXT:0000C747                                         ; ROM:0009475Ew
MEM_EXT:0000C748 can_nmot_low:   ds 1                    ; DATA XREF: ROM:0009468Ew
MEM_EXT:0000C748                                         ; ROM:00094788w
MEM_EXT:0000C749 can_nmot_high:  ds 1                    ; DATA XREF: ROM:00094692w
MEM_EXT:0000C749                                         ; ROM:00094790w
MEM_EXT:0000C74A byte_C74A:      ds 1                    ; DATA XREF: ROM:00094696w
MEM_EXT:0000C74A                                         ; ROM:00094814w ...
MEM_EXT:0000C74B byte_C74B:      ds 1                    ; DATA XREF: ROM:loc_948A0w
MEM_EXT:0000C74B                                         ; ROM:000948CAw
MEM_EXT:0000C74C byte_C74C:      ds 1                    ; DATA XREF: ROM:00094D2Ew
MEM_EXT:0000C74C                                         ; ROM:loc_94DB6w
MEM_EXT:0000C74D byte_C74D:      ds 1                    ; DATA XREF: ROM:0009469Ew
MEM_EXT:0000C74D                                         ; ROM:000947E6w
MEM_EXT:0000C74E byte_C74E:      ds 1                    ; DATA XREF: ROM:000945C0w
MEM_EXT:0000C74F byte_C74F:      ds 1                    ; DATA XREF: ROM:0009416Ew

To use the rpm gauge for showing the present map(or any other parameter like boost, SOI,etc), you'll have to modify the subroutine writing to bytes 3 and 4 of the CAN id 0x280.

Code:
ROM:00094780                 calls   9, sub_94002
ROM:00094784                 add     r0, #4
ROM:00094786                 mov     r9, r4
ROM:00094788                 movb    can_nmot_low, rl4
ROM:0009478C                 mov     r4, r9
ROM:0009478E                 ashr    r4, #8
ROM:00094790                 movb    can_nmot_high, rl4
ROM:00094794                 mov     r1, word_C420
ROM:00094798                 add     r1, word_C426
ROM:0009479C                 cmp     r1, word_F962
ROM:000947A0                 jmpr    cc_SGE, loc_947A6
ROM:000947A2                 mov     r9, r1
ROM:000947A4                 jmpr    cc_UC, loc_947AA

r4 contains the actual RPM. We will modify this vaue to whatever we want; to show the map selected in our case.
I inserted my call at 94784, to my routine. Its upto you to decide where to insert this call, but make sure you dont change the original logic.

Next step is to take inputs like clutch, brake or cruise control.
This can also be inferenced from the CAN buffer.
example: id 0x280, byte 0, bit 4 is B_kuppl(clutch pedal).
Find the code which writes to this bit, and you will find B_kuppl

Code:
ROM:00094EBC                 movb    rl4, word_C49A+1
ROM:00094EC0                 jmpr    cc_NZ, loc_94ED0
ROM:00094EC2                 mov     r4, word_14D6
ROM:00094EC6                 movb    rl5, [r4]
ROM:00094EC8                 jmpr    cc_NZ, loc_94ED0
ROM:00094ECA                 movb    rl4, #8
ROM:00094ECC                 orb     byte_C746, rl4

As seen in above code, 0xC94B contains the status of the clutch pedal. But this is not the global variable. I suppose, this is a temporary RAM address to which the clutch switch status is copied when this subroutine starts(so that as long as the subroutine is still being executed, any change in the clutch status will not be updated. Otherwise, it's possible that at the start of the subroutine the status of the clutch is different from that when the subroutine ends, resulting in unpredictable behaviour)
Find the global variable by searching for xrefs to 0xc94b

Code:
ROM:0009433E                 movb    rl2, byte_C370
ROM:00094342                 movb    word_C49A+1, rl2

0xc370 is the global variable for B_kuppl.

Repeat this for other variables you want to use(cruise control status is on id 0x388/0x38A and brake pedals on 0x288)

Now, for mapswitching, you need to change the DPP's
Each datablock is referred using DPP0, DPP1 and DPP2. DPP3 is used for CAN.

datablock 1:
DPP0- 0x34
DPP1- 0x35
DPP2- 0x36

datablock 2:
DPP0- 0x38
DPP1- 0x39
DPP2- 0x3A

datablock 3:
DPP0- 0x3C
DPP1- 0x3D
DPP2- 0x3E

This is the code I use for switching between maps and displaying boost on RPM gauge.

Code:
$MOD167                                 ; Define C167 mode
$SEGMENTED ; Segemented memory mode
$CASE ; Symbols case sensitive
$include (reg167.inc)
NAME MINIMON
ASSUME DPP3:system
StackData0 SECTION DATA SYSSTACK ; Data Section to reserve
; Stack-Memory 
DSB 20H ; 32 Byte
StackData0 ENDS ; End of Dummy-Section
DriverCode0 SECTION CODE PUBLIC 'CDRIVER'
DriverProc PROC FAR

mov r4, 0xc036  ;boost
shl r4,#2
movb rl1,0xc370  ;b_kuppl
jnb r1.0, needle
movb rl1,0xc379  ;cc_cancel toggle button
jnb r1.0, xyz
movb rl1,#1
movb 0xc76e,rl1 ;cc_off debounce
jmpr cc_uc, needle
xyz:
movb rl1,0xc76e
jmpr cc_z, needle
movb rl1,#0
movb 0xc76e,rl1
movb rl1,0xc76f  ;delay counter
jmpr cc_nz, dpp
movb rl1,#0x7f  ; initialize delay counter so that r4 isnt updated by the ECU for atleast ~ 40ms * 0x7F= 5080ms ~ 5sec
movb 0xc76f,rl1
jmpr cc_uc, needle

dpp:
cmp dpp0,#0x3c
jmpr cc_eq, dppl
mov dpp0,#0x3c
mov dpp1,#0x3d
mov dpp2,#0x3e
jmpr cc_uc,needle

dppl:
mov dpp0,#0x34
mov dpp1,#0x35
mov dpp2,#0x36

needle:
mov rl1,0xc76f
jmpr cc_z,end1
subb rl1,#1
mov 0xc76f,rl1
cmp dpp0,#0x3c
jmpr cc_ne, n1
mov r4,#0x2ee0
jmpr cc_uc, end1
n1:
mov r4,#0x3e80
end1:
add r0,#4
mov r9,r4
rets


DriverProc ENDP
DriverCode0 ENDS
END

I suggest writing your own code, as mine can be a bit difficult to follow Tongue
Basically, my code does this:
- check if clutch is pressed, if yes then continue.
- check if cruice control cancel button is pressed. If yes, store 1 in a free ram byte ( lots of free ram in this ECU, 0xC820-0xC82F is free on all the edc15's I've worked on, enough for our small subroutine) and exit the subroutine
This is done to "debounce" the button press (as long as the button is pressed, no change will take place)
- check if the "debounce" ram byte is 1, if yes, set it to 0 and switch maps( by changing the DPP's)
- To display the map selected understand how the rpm is displayed on the instrument cluster.
Lets say you want the rpm needle to show 2000rpm. There is a factor of 4.
So the transmitted CAN message for rpm is 2000*4= 8000 which corresponds to 0x1F40 in hex
All we need to do is replace the value in r4 with the value you want to display.
- Setup a counter for displaying the selected map. This is necessary because replacing r4 with the desired value once is not enough. The main loop takes around 40ms to execute. So after 40ms r4 will get overwritten by RPM and the needle will not show the value you wanted it to show. Look at my code for a better understanding...


Compile using Uvision or a compiler of your choice. Load the output hex file into Winols, search where your code begins, and copy it to a free space in your flash.

Then insert a call to your new function. I chose to insert my call at 0x94784(0x14784 in WinOLS)
Free space in my file - 0x1A000 which translates to 0x9A000

Hence, opcode for call: DA 09 00 A0

I will be posting a part 2 showing how you can save the selected datablock over ignition cycles.


PS: @nyet, I'm inspired by your views, hence making my work open source Smiley
I encourage everyone else to share too. This community is too secretive, although there are a few who do share!
Together we can beat the corporates Wink
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contact for reverse engineering services of any ECU/TCU
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« Reply #1 on: May 29, 2017, 05:25:32 PM »

Thank you for share your job, im interested in learn the ASM code, but Im a noob in this things.

I'll be here reading you.
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lepatron972
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« Reply #2 on: May 30, 2017, 02:15:43 AM »

Hope this helps anyone, although there doesnt seem to be much interest in this ECU...

Follow my other post and disable the checksums first.

1st step is to find how the CANBUS is handled. There is a buffer in RAM in which the messages are stored before they are transmitted.
On edc15, finding the buffer is easy. Example: Search for sequence of bytes: 0x280 or 0x288 or any other CAN id used by the ecu...
This will point you to the code which handles canbus:

Code:
ROM:00094156                 mov     r5, #280h
ROM:0009415A                 mov     CAN_280, r5               ;CAN_280- RAM buffer handling id -0x280
ROM:0009415E                 movb    rl4, #8
ROM:00094160                 movb    byte_C743, rl4
ROM:00094164                 mov     r4, #288h
ROM:00094168                 mov     CAN_288, r4
ROM:0009416C                 movb    rl4, #8
ROM:0009416E                 movb    byte_C74F, rl4
ROM:00094172                 mov     r4, #380h
ROM:00094176                 mov     CAN_380, r4
ROM:0009417A                 movb    rl4, #8
ROM:0009417C                 movb    byte_C75B, rl4
ROM:00094180                 mov     r4, #480h

Now that you've found the CAN buffer, refer to the FR CAN section.
Below, Ive shown the CANBUS buffer handling id 0x280 in my file.

Code:
MEM_EXT:0000C744 CAN_280:        ds 2                    ; DATA XREF: ROM:0009415Aw
MEM_EXT:0000C746 byte_C746:      ds 1                    ; DATA XREF: ROM:000945DCw
MEM_EXT:0000C746                                         ; ROM:0009463Ew ...
MEM_EXT:0000C747 byte_C747:      ds 1                    ; DATA XREF: ROM:0009468Aw
MEM_EXT:0000C747                                         ; ROM:0009475Ew
MEM_EXT:0000C748 can_nmot_low:   ds 1                    ; DATA XREF: ROM:0009468Ew
MEM_EXT:0000C748                                         ; ROM:00094788w
MEM_EXT:0000C749 can_nmot_high:  ds 1                    ; DATA XREF: ROM:00094692w
MEM_EXT:0000C749                                         ; ROM:00094790w
MEM_EXT:0000C74A byte_C74A:      ds 1                    ; DATA XREF: ROM:00094696w
MEM_EXT:0000C74A                                         ; ROM:00094814w ...
MEM_EXT:0000C74B byte_C74B:      ds 1                    ; DATA XREF: ROM:loc_948A0w
MEM_EXT:0000C74B                                         ; ROM:000948CAw
MEM_EXT:0000C74C byte_C74C:      ds 1                    ; DATA XREF: ROM:00094D2Ew
MEM_EXT:0000C74C                                         ; ROM:loc_94DB6w
MEM_EXT:0000C74D byte_C74D:      ds 1                    ; DATA XREF: ROM:0009469Ew
MEM_EXT:0000C74D                                         ; ROM:000947E6w
MEM_EXT:0000C74E byte_C74E:      ds 1                    ; DATA XREF: ROM:000945C0w
MEM_EXT:0000C74F byte_C74F:      ds 1                    ; DATA XREF: ROM:0009416Ew

To use the rpm gauge for showing the present map(or any other parameter like boost, SOI,etc), you'll have to modify the subroutine writing to bytes 3 and 4 of the CAN id 0x280.

Code:
ROM:00094780                 calls   9, sub_94002
ROM:00094784                 add     r0, #4
ROM:00094786                 mov     r9, r4
ROM:00094788                 movb    can_nmot_low, rl4
ROM:0009478C                 mov     r4, r9
ROM:0009478E                 ashr    r4, #8
ROM:00094790                 movb    can_nmot_high, rl4
ROM:00094794                 mov     r1, word_C420
ROM:00094798                 add     r1, word_C426
ROM:0009479C                 cmp     r1, word_F962
ROM:000947A0                 jmpr    cc_SGE, loc_947A6
ROM:000947A2                 mov     r9, r1
ROM:000947A4                 jmpr    cc_UC, loc_947AA

r4 contains the actual RPM. We will modify this vaue to whatever we want; to show the map selected in our case.
I inserted my call at 94784, to my routine. Its upto you to decide where to insert this call, but make sure you dont change the original logic.

Next step is to take inputs like clutch, brake or cruise control.
This can also be inferenced from the CAN buffer.
example: id 0x280, byte 0, bit 4 is B_kuppl(clutch pedal).
Find the code which writes to this bit, and you will find B_kuppl

Code:
ROM:00094EBC                 movb    rl4, word_C49A+1
ROM:00094EC0                 jmpr    cc_NZ, loc_94ED0
ROM:00094EC2                 mov     r4, word_14D6
ROM:00094EC6                 movb    rl5, [r4]
ROM:00094EC8                 jmpr    cc_NZ, loc_94ED0
ROM:00094ECA                 movb    rl4, #8
ROM:00094ECC                 orb     byte_C746, rl4

As seen in above code, 0xC94B contains the status of the clutch pedal. But this is not the global variable. I suppose, this is a temporary RAM address to which the clutch switch status is copied when this subroutine starts(so that as long as the subroutine is still being executed, any change in the clutch status will not be updated. Otherwise, it's possible that at the start of the subroutine the status of the clutch is different from that when the subroutine ends, resulting in unpredictable behaviour)
Find the global variable by searching for xrefs to 0xc94b

Code:
ROM:0009433E                 movb    rl2, byte_C370
ROM:00094342                 movb    word_C49A+1, rl2

0xc370 is the global variable for B_kuppl.

Repeat this for other variables you want to use(cruise control status is on id 0x388/0x38A and brake pedals on 0x288)

Now, for mapswitching, you need to change the DPP's
Each datablock is referred using DPP0, DPP1 and DPP2. DPP3 is used for CAN.

datablock 1:
DPP0- 0x34
DPP1- 0x35
DPP2- 0x36

datablock 2:
DPP0- 0x38
DPP1- 0x39
DPP2- 0x3A

datablock 3:
DPP0- 0x3C
DPP1- 0x3D
DPP2- 0x3E

This is the code I use for switching between maps and displaying boost on RPM gauge.

Code:
$MOD167                                 ; Define C167 mode
$SEGMENTED ; Segemented memory mode
$CASE ; Symbols case sensitive
$include (reg167.inc)
NAME MINIMON
ASSUME DPP3:system
StackData0 SECTION DATA SYSSTACK ; Data Section to reserve
; Stack-Memory 
DSB 20H ; 32 Byte
StackData0 ENDS ; End of Dummy-Section
DriverCode0 SECTION CODE PUBLIC 'CDRIVER'
DriverProc PROC FAR

mov r4, 0xc036  ;boost
shl r4,#2
movb rl1,0xc370  ;b_kuppl
jnb r1.0, needle
movb rl1,0xc379  ;cc_cancel toggle button
jnb r1.0, xyz
movb rl1,#1
movb 0xc76e,rl1 ;cc_off debounce
jmpr cc_uc, needle
xyz:
movb rl1,0xc76e
jmpr cc_z, needle
movb rl1,#0
movb 0xc76e,rl1
movb rl1,0xc76f  ;delay counter
jmpr cc_nz, dpp
movb rl1,#0x7f  ; initialize delay counter so that r4 isnt updated by the ECU for atleast ~ 40ms * 0x7F= 5080ms ~ 5sec
movb 0xc76f,rl1
jmpr cc_uc, needle

dpp:
cmp dpp0,#0x3c
jmpr cc_eq, dppl
mov dpp0,#0x3c
mov dpp1,#0x3d
mov dpp2,#0x3e
jmpr cc_uc,needle

dppl:
mov dpp0,#0x34
mov dpp1,#0x35
mov dpp2,#0x36

needle:
mov rl1,0xc76f
jmpr cc_z,end1
subb rl1,#1
mov 0xc76f,rl1
cmp dpp0,#0x3c
jmpr cc_ne, n1
mov r4,#0x2ee0
jmpr cc_uc, end1
n1:
mov r4,#0x3e80
end1:
add r0,#4
mov r9,r4
rets


DriverProc ENDP
DriverCode0 ENDS
END

I suggest writing your own code, as mine can be a bit difficult to follow Tongue
Basically, my code does this:
- check if clutch is pressed, if yes then continue.
- check if cruice control cancel button is pressed. If yes, store 1 in a free ram byte ( lots of free ram in this ECU, 0xC820-0xC82F is free on all the edc15's I've worked on, enough for our small subroutine) and exit the subroutine
This is done to "debounce" the button press (as long as the button is pressed, no change will take place)
- check if the "debounce" ram byte is 1, if yes, set it to 0 and switch maps( by changing the DPP's)
- To display the map selected understand how the rpm is displayed on the instrument cluster.
Lets say you want the rpm needle to show 2000rpm. There is a factor of 4.
So the transmitted CAN message for rpm is 2000*4= 8000 which corresponds to 0x1F40 in hex
All we need to do is replace the value in r4 with the value you want to display.
- Setup a counter for displaying the selected map. This is necessary because replacing r4 with the desired value once is not enough. The main loop takes around 40ms to execute. So after 40ms r4 will get overwritten by RPM and the needle will not show the value you wanted it to show. Look at my code for a better understanding...


Compile using Uvision or a compiler of your choice. Load the output hex file into Winols, search where your code begins, and copy it to a free space in your flash.

Then insert a call to your new function. I chose to insert my call at 0x94784(0x14784 in WinOLS)
Free space in my file - 0x1A000 which translates to 0x9A000

Hence, opcode for call: DA 09 00 A0

I will be posting a part 2 showing how you can save the selected datablock over ignition cycles.


PS: @nyet, I'm inspired by your views, hence making my work open source Smiley
I encourage everyone else to share too. This community is too secretive, although there are a few who do share!
Together we can beat the corporates Wink

Hi, it's good to ask to share, but the people who spent the hours developing the soft you do not associate them with your post. You do not believe, Basano shared his own on MED9, but you have not done the biggest on the edc15, do not forget to specify that the edc16 is in the pipes. They are things done in secret because it takes a lot of time and not many people in the professional world get into it. It is better to be sincere and impartial with all those who have worked on it.
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lepatron972
nihalot
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« Reply #3 on: May 30, 2017, 02:24:08 AM »

Hi, it's good to ask to share, but the people who spent the hours developing the soft you do not associate them with your post. You do not believe, Basano shared his own on MED9, but you have not done the biggest on the edc15, do not forget to specify that the edc16 is in the pipes. They are things done in secret because it takes a lot of time and not many people in the professional world get into it. It is better to be sincere and impartial with all those who have worked on it.


I've given credit where credits due. Check my checksum disable post.

I don't think I said anywhere in my posts that I've done ground breaking work. I've just posted my findings in a humble way. Thanks for undermining my work though.

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multimap/LC/rolling antilag for MG1/MED17/EDC17/MED9/EDC15

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nihalot
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« Reply #4 on: May 30, 2017, 02:31:20 AM »

Also,
There are so many other communities, working together, sharing their findings, improving on others work. ios jailbreak, nintendo, xbox, playstation hacks come to mind.

Please dont reply if you dont have anything productive to say.
Keep your secrets, there are others willing to share Smiley
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« Reply #5 on: May 30, 2017, 11:58:10 PM »

Hi, it's good to ask to share, but the people who spent the hours developing the soft you do not associate them with your post. You do not believe, Basano shared his own on MED9, but you have not done the biggest on the edc15, do not forget to specify that the edc16 is in the pipes. They are things done in secret because it takes a lot of time and not many people in the professional world get into it. It is better to be sincere and impartial with all those who have worked on it.
How about you crawl back under the rock you came out from? Your bullshit is not welcome here.
This ECU is 20 years old and you are a lunatic.

@nihalot gj.
Map switching is a lot easier to do on EDC15/16, because many of them have inherent multi-bank support.
The thing posted that is of most value here is the CAN handling code.
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« Reply #6 on: May 31, 2017, 01:01:37 AM »

How about you crawl back under the rock you came out from? Your bullshit is not welcome here.
This ECU is 20 years old and you are a lunatic.

@nihalot gj.
Map switching is a lot easier to do on EDC15/16, because many of them have inherent multi-bank support.
The thing posted that is of most value here is the CAN handling code.
You make me laugh, I do not tell bullshit, the CAN code that is welcome, it does not take it out of his hat and was not the only one working on the MINIMOM posted requests it from where it comes from. Certainly they have 20 years map switch, on edc15 as edc16 my buddy bump on it for 4 years. Therefore, I find it unfavorable, even partial disclosure of this long work. With VCDS on switch the map but to the cruse controlled and rotating motor, it is recent.

I could even make you see conversation screenshots with IDA exchange or even it asks sharing for edc16. After each his way of seeing.
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« Reply #7 on: May 31, 2017, 01:29:40 AM »

You make me laugh, I do not tell bullshit, the CAN code that is welcome, it does not take it out of his hat and was not the only one working on the MINIMOM posted requests it from where it comes from. Certainly they have 20 years map switch, on edc15 as edc16 my buddy bump on it for 4 years. Therefore, I find it unfavorable, even partial disclosure of this long work. With VCDS on switch the map but to the cruse controlled and rotating motor, it is recent.

I could even make you see conversation screenshots with IDA exchange or even it asks sharing for edc16. After each his way of seeing.
If it takes you 4 years to write map switch for EDC15/EDC16 you have no business in this industry.
I could do EDC16 map switch in a day, a few at most.

Also, no one cares what you think is favorable or not. Stop spamming your BS in this thread.
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« Reply #8 on: May 31, 2017, 01:33:39 AM »

You make me laugh, I do not tell bullshit, the CAN code that is welcome, it does not take it out of his hat and was not the only one working on the MINIMOM posted requests it from where it comes from. Certainly they have 20 years map switch, on edc15 as edc16 my buddy bump on it for 4 years. Therefore, I find it unfavorable, even partial disclosure of this long work. With VCDS on switch the map but to the cruse controlled and rotating motor, it is recent.

I could even make you see conversation screenshots with IDA exchange or even it asks sharing for edc16. After each his way of seeing.

I worked with john9357. I can send you screenshots too, of him asking me for help. As soon as edc15 multimap was realised, he started selling it, not asking me about it or anything.
He was working on it since past 4 years like you said. HE contacted ME on nefmoto last year, and we worked on it. 4 years no multimap. Contacts me last year, multimap done. Doesnt take a genius to figure out, no? He was stuck at some things, and I helped. In the process I learned a lot too.  You want screenshots?

I asked him for help with edc16, which he ignored. Convenient, no?  I can show screenshots too.
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« Reply #9 on: May 31, 2017, 01:58:38 AM »

We are not professionals and it is annoying that some working partners share some things without consultation. The code not 4 years of work I know, we have our working group on our forum. One thing is sure the following you will see it from afar. Because we feel betrayed by you
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« Reply #10 on: May 31, 2017, 02:07:15 AM »

We are not professionals and it is annoying that some working partners share some things without consultation. The code not 4 years of work I know, we have our working group on our forum. One thing is sure the following you will see it from afar. Because we feel betrayed by you

Huh? You have no right to feel betrayed. If anything, y'all betrayed me.
Why should I consult him or anyone before sharing? He surely didnt consult me before selling it.
Also, if you thought i was a "working partner" why not share edc16 related work?

So much bs...
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« Reply #11 on: May 31, 2017, 02:27:14 AM »

If the biggest comes from you, our help will not be useful, so no need to give you more info. I wish you all the best. Go good road mister indian.
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« Reply #12 on: May 31, 2017, 02:31:27 AM »

Ah, classic. Resort to racism Smiley
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« Reply #13 on: May 31, 2017, 02:46:24 AM »

I'm black where is racism?
It is like my colleagues who call me DOUDOU
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« Reply #14 on: May 31, 2017, 03:06:13 AM »

I'm black where is racism?
It is like my colleagues who call me DOUDOU

Xenophobe then.
Take your spam to your forum. Im sure the mods or others in the community dont like this.
Especially since you refuse to share. This forum has a very basic motto. Share.
Clearly doesnt match your or your "working partners" ideology.
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