382 lines
17 KiB
Plaintext
382 lines
17 KiB
Plaintext
This file describes where to start debugging Wine. If at any point
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you get stuck and want to ask for help, please read the file
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documentation/bugreports for information on how to write useful bug
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reports.
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Crashes
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=======
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These usually show up like this:
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|Unexpected Windows program segfault - opcode = 8b
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|Segmentation fault in Windows program 1b7:c41.
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|Loading symbols from ELF file /root/wine/wine...
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|....more Loading symbols from ...
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|In 16 bit mode.
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|Register dump:
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| CS:01b7 SS:016f DS:0287 ES:0000
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| IP:0c41 SP:878a BP:8796 FLAGS:0246
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| AX:811e BX:0000 CX:0000 DX:0000 SI:0001 DI:ffff
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|Stack dump:
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|0x016f:0x878a: 0001 016f ffed 0000 0000 0287 890b 1e5b
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|0x016f:0x879a: 01b7 0001 000d 1050 08b7 016f 0001 000d
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|0x016f:0x87aa: 000a 0003 0004 0000 0007 0007 0190 0000
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|0x016f:0x87ba:
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|0050: sel=0287 base=40211d30 limit=0b93f (bytes) 16-bit rw-
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|Backtrace:
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|0 0x01b7:0x0c41 (PXSRV_FONGETFACENAME+0x7c)
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|1 0x01b7:0x1e5b (PXSRV_FONPUTCATFONT+0x2cd)
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|2 0x01a7:0x05aa
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|3 0x01b7:0x0768 (PXSRV_FONINITFONTS+0x81)
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|4 0x014f:0x03ed (PDOXWIN_@SQLCURCB$Q6CBTYPEULN8CBSCTYPE+0x1b1)
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|5 0x013f:0x00ac
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|0x01b7:0x0c41 (PXSRV_FONGETFACENAME+0x7c): movw %es:0x38(%bx),%dx
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Steps to debug a crash. You may stop at any step, but please report the bug
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and provide as much of the information gathered to the newsgroup or the
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relevant developer as feasonable.
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1. Get the reason for the crash. This is usually an access to an invalid
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selector, an access to an out of range address in a valid selector,
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popping a segmentregister from the stack or the like. When reporting a
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crash, report this WHOLE crashdump even if it doesn't make sense to you.
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(In this case it is access to an invalid selector, for %es is 0000, as
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seen in the register dump).
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2. Determine where the reason came from.
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Since this is usually a primary/secondary reaction to a failed or
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misbehaving Wine function, rerun Wine with "-debugmsg +relay" (without ")
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added to the commandline. This will get rather much output, but usually
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the reason is located in the last call(s). Those lines usually look like
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this:
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|Call KERNEL.90: LSTRLEN(0227:0692 "text") ret=01e7:2ce7 ds=0227
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^^^^^^^^^ ^ ^^^^^^^^^ ^^^^^^ ^^^^^^^^^ ^^^^
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| | | | | |Datasegment
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| | | | |Return address
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| | | |textual parameter
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| | |
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| | |Argument(s). This one is a win16 segmented pointer.
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| |Function called.
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|The module, the function is called in. In this case it is KERNEL.
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|Ret KERNEL.90: LSTRLEN() retval=0x0004 ret=01e7:2ce7 ds=0227
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^^^^^^
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|Returnvalue is 16 bit and has the value 4.
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3. If you have found a misbehaving function, try to find out why it
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misbehaves. Find the function in the source code. Try to make sense of
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the arguments passed. Usually there is a 'TRACE(<channel>,"(...)\n");'
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at the beginning of the function. Rerun wine with
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"-debugmsg +xyz,+relay" added to the commandline.
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4. Additional information on how to debug using the internal debugger can be
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found in debugger/README.
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5. If those information isn't clear enough or if you want to know more about
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what's happening in the function itself, try running wine with "-debugmsg
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+all", which dumps ALL included debug information in wine.
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6. If that isn't enough add more debug output for yourself into the
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functions you find relevant. See documentation/debug-msgs.
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You might also try to run the program in gdb instead of using the
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WINE-debugger. If you do that, use "handle SIGSEGV nostop noprint"
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to disable the handling of seg faults inside gdb (needed for Win16).
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If you don't use the "-desktop" or "-managed" option,
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start the WINE process with "-sync", or chances are good to get X into
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an unusable state.
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7. You can also set a breakpoint for that function. Start wine with the
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"-debug" option added to the commandline. After loading the executable
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wine will enter the internal debugger. Use "break KERNEL_LSTRLEN"
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(replace by function you want to debug, CASE IS RELEVANT.) to set a
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breakpoint. Then use "continue" to start normal program-execution. Wine
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will stop if it reaches the breakpoint. If the program isn't yet at the
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crashing call of that function, use "continue" again until you are about
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to enter that function. You may now proceed with single-stepping the
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function until you reach the point of crash. Use the other debugger
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commands to print registers and the like.
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Program hangs, nothing happens
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==============================
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Switch to UNIX shell, get the process-ID using "ps -a|grep wine", and do a
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"kill -HUP <pid>" (without " and <>). Wine will then enter its internal
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debugger and you can proceed as explained above. Also, you can use -debug
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switch and then you can get into internal debugger by pressing Ctrl-C in
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the terminal where you run Wine.
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Program reports an error with a Messagebox
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==========================================
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Sometimes programs are reporting failure using a more or less nondescript
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messageboxes. We can debug this using the same method as Crashes, but there
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is one problem... For setting up a message box the program also calls Wine
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producing huge chunks of debug code.
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Since the failure happens usually directly before setting up the Messagebox
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you can start wine with "-debug" added to the commandline, set a breakpoint
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at "MessageBox32A" (called by win16 and win32 programs) and proceed with
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"continue". With "-debugmsg +all" Wine will now stop directly before
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setting up the Messagebox. Proceed as explained above.
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You can also run wine using "wine -debugmsg +relay program.exe 2>&1|less -i"
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and in less search for messagebox.
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Disassembling programs:
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=======================
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You may also try to disassemble the offending program to check for
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undocumented features and/or use of them.
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The best, freely available, disassembler for Win16 programs is
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Windows Codeback, archivename wcbxxx.zip, which usually can be found
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in the Cica-Mirror subdirectory on the WINE ftpsites. (See ANNOUNCE).
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Disassembling win32 programs is possible using the Windows Disassembler 32,
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archivename something like w32dsm87.zip (or similar) on ftp.winsite.com
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and mirrors. The shareware version does not allow saving of disassembly
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listings.
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You can also use the newer (and in the full version better) Interactive
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Disassembler (IDA) from the ftp sites mentioned at the end of the document.
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Understanding disassembled code is mostly a question of exercise.
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Most code out there uses standard C function entries (for it is usually
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written in C). Win16 function entries usually look like that:
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| push bp
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| mov bp, sp
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| ... function code ..
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| retf XXXX <--------- XXXX is number of bytes of arguments
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This is a FAR function with no local storage. The arguments usually start
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at [bp+6] with increasing offsets. Note, that [bp+6] belongs to the RIGHTMOST
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argument, for exported win16 functions use the PASCAL calling convention.
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So, if we use strcmp(a,b) with a and b both 32 bit variables b would be at
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[bp+6] and a at [bp+10].
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Most functions make also use of local storage in the stackframe:
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| enter 0086, 00
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| ... function code ...
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| leave
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| retf XXXX
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This does mostly the same as above, but also adds 0x86 bytes of
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stackstorage, which is accessed using [bp-xx].
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Before calling a function, arguments are pushed on the stack using something
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like this:
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| push word ptr [bp-02] <- will be at [bp+8]
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| push di <- will be at [bp+6]
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| call KERNEL.LSTRLEN
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Here first the selector and then the offset to the passed string are pushed.
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Sample debugging session:
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=========================
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Let's debug the infamous Word SHARE.EXE messagebox:
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|marcus@jet $ wine winword.exe
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| +---------------------------------------------+
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| | ! You must leave Windows and load SHARE.EXE|
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| | before starting Word. |
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| +---------------------------------------------+
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|marcus@jet $ wine winword.exe -debugmsg +relay -debug
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|CallTo32(wndproc=0x40065bc0,hwnd=000001ac,msg=00000081,wp=00000000,lp=00000000)
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|Win16 task 'winword': Breakpoint 1 at 0x01d7:0x001a
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|CallTo16(func=0127:0070,ds=0927)
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|Call WPROCS.24: TASK_RESCHEDULE() ret=00b7:1456 ds=0927
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|Ret WPROCS.24: TASK_RESCHEDULE() retval=0x8672 ret=00b7:1456 ds=0927
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|CallTo16(func=01d7:001a,ds=0927)
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| AX=0000 BX=3cb4 CX=1f40 DX=0000 SI=0000 DI=0927 BP=0000 ES=11f7
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|Loading symbols: /home/marcus/wine/wine...
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|Stopped on breakpoint 1 at 0x01d7:0x001a
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|In 16 bit mode.
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|Wine-dbg>break MessageBox32A <---- Set Breakpoint
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|Breakpoint 2 at 0x40189100 (MessageBox32A [msgbox.c:190])
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|Wine-dbg>c <---- Continue
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|Call KERNEL.91: INITTASK() ret=0157:0022 ds=08a7
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| AX=0000 BX=3cb4 CX=1f40 DX=0000 SI=0000 DI=08a7 ES=11d7 EFL=00000286
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|CallTo16(func=090f:085c,ds=0dcf,0x0000,0x0000,0x0000,0x0000,0x0800,0x0000,0x0000,0x0dcf)
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|... <----- Much debugoutput
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|Call KERNEL.136: GETDRIVETYPE(0x0000) ret=060f:097b ds=0927
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^^^^^^ Drive 0 (A:)
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|Ret KERNEL.136: GETDRIVETYPE() retval=0x0002 ret=060f:097b ds=0927
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^^^^^^ DRIVE_REMOVEABLE
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(It is a floppy diskdrive.)
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|Call KERNEL.136: GETDRIVETYPE(0x0001) ret=060f:097b ds=0927
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^^^^^^ Drive 1 (B:)
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|Ret KERNEL.136: GETDRIVETYPE() retval=0x0000 ret=060f:097b ds=0927
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^^^^^^ DRIVE_CANNOTDETERMINE
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(I don't have drive B: assigned)
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|Call KERNEL.136: GETDRIVETYPE(0x0002) ret=060f:097b ds=0927
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^^^^^^^ Drive 2 (C:)
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|Ret KERNEL.136: GETDRIVETYPE() retval=0x0003 ret=060f:097b ds=0927
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^^^^^^ DRIVE_FIXED
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(specified as a harddisk)
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|Call KERNEL.97: GETTEMPFILENAME(0x00c3,0x09278364"doc",0x0000,0927:8248) ret=060f:09b1 ds=0927
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^^^^^^ ^^^^^ ^^^^^^^^^
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| | |buffer for fname
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| |temporary name ~docXXXX.tmp
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|Force use of Drive C:.
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|Warning: GetTempFileName returns 'C:~doc9281.tmp', which doesn't seem to be writeable.
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|Please check your configuration file if this generates a failure.
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Whoops, it even detects that something is wrong!
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|Ret KERNEL.97: GETTEMPFILENAME() retval=0x9281 ret=060f:09b1 ds=0927
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^^^^^^ Temporary storage ID
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|Call KERNEL.74: OPENFILE(0x09278248"C:~doc9281.tmp",0927:82da,0x1012) ret=060f:09d8 ds=0927
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^^^^^^^^^^^^^^^^ ^^^^^^^^^ ^^^^^^^
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|filename |OFSTRUCT |open mode:
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OF_CREATE|OF_SHARE_EXCLUSIVE|OF_READWRITE
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This fails, since my C: drive is in this case mounted readonly.
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|Ret KERNEL.74: OPENFILE() retval=0xffff ret=060f:09d8 ds=0927
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^^^^^^ HFILE_ERROR16, yes, it failed.
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|Call USER.1: MESSAGEBOX(0x0000,0x09278376"Sie m<>ssen Windows verlassen und SHARE.EXE laden bevor Sie Word starten.",0x00000000,0x1030) ret=060f:084f ds=0927
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And MessageBox'ed.
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|Stopped on breakpoint 2 at 0x40189100 (MessageBox32A [msgbox.c:190])
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|190 { <- the sourceline
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In 32 bit mode.
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Wine-dbg>
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The code seems to find a writeable harddisk and tries to create a file
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there. To work around this bug, you can define C: as a networkdrive,
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which is ignored by the code above.
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Written by Marcus Meissner <msmeissn@cip.informatik.uni-erlangen.de>,
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additions welcome.
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-------
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Here are some useful debugging tips, added by Andreas Mohr:
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a) If you have a program crashing at such an early loader phase that you can't
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use the Wine debugger normally, but Wine already executes the program's
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start code, then you may use a special trick:
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You should do a
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wine -debugmsg +relay program
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to get a listing of the functions the program calls in its start function.
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Now you do a
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wine -debug winfile.exe
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This way, you get into Wine-dbg. Now you can set a breakpoint on any
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function the program calls in the start function and just type "c" to bypass
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the eventual calls of Winfile to this function until you are finally at the
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place where this function gets called by the crashing start function.
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Now you can proceed with your debugging as usual.
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b) If you try to run a program and it quits after showing an error messagebox,
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the problem can usually be identified in the return value of one of the
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functions executed before MessageBox().
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That's why you should re-run the program with e.g.
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wine -debugmsg +relay <program name> &>relmsg
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Then do a "more relmsg" and search for the last occurrence of a call to the string "MESSAGEBOX".
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This is a line like
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Call USER.1: MESSAGEBOX(0x0000,0x01ff1246 "Runtime error 219 at 0004:1056.",0x00000000,0x1010) ret=01f7:2160 ds=01ff
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In my example the lines before the call to MessageBox() look like that:
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Call KERNEL.96: FREELIBRARY(0x0347) ret=01cf:1033 ds=01ff
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CallTo16(func=033f:0072,ds=01ff,0x0000)
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Ret KERNEL.96: FREELIBRARY() retval=0x0001 ret=01cf:1033 ds=01ff
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Call KERNEL.96: FREELIBRARY(0x036f) ret=01cf:1043 ds=01ff
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CallTo16(func=0367:0072,ds=01ff,0x0000)
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Ret KERNEL.96: FREELIBRARY() retval=0x0001 ret=01cf:1043 ds=01ff
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Call KERNEL.96: FREELIBRARY(0x031f) ret=01cf:105c ds=01ff
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CallTo16(func=0317:0072,ds=01ff,0x0000)
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Ret KERNEL.96: FREELIBRARY() retval=0x0001 ret=01cf:105c ds=01ff
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Call USER.171: WINHELP(0x02ac,0x01ff05b4 "COMET.HLP",0x0002,0x00000000) ret=01cf:1070 ds=01ff
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CallTo16(func=0117:0080,ds=01ff)
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Call WPROCS.24: TASK_RESCHEDULE() ret=00a7:0a2d ds=002b
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Ret WPROCS.24: TASK_RESCHEDULE() retval=0x0000 ret=00a7:0a2d ds=002b
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Ret USER.171: WINHELP() retval=0x0001 ret=01cf:1070 ds=01ff
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Call KERNEL.96: FREELIBRARY(0x01be) ret=01df:3e29 ds=01ff
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Ret KERNEL.96: FREELIBRARY() retval=0x0000 ret=01df:3e29 ds=01ff
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Call KERNEL.52: FREEPROCINSTANCE(0x02cf00ba) ret=01f7:1460 ds=01ff
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Ret KERNEL.52: FREEPROCINSTANCE() retval=0x0001 ret=01f7:1460 ds=01ff
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Call USER.1: MESSAGEBOX(0x0000,0x01ff1246 "Runtime error 219 at 0004:1056.",0x00000000,0x1010) ret=01f7:2160 ds=01ff
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I think that the call to MessageBox() in this example is _not_ caused
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by a wrong result value of some previously executed function (it's
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happening quite often like that), but instead the messagebox complains
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about a runtime error at 0x0004:0x1056.
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As the segment value of the address is only "4", I think that that is
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only an internal program value. But the offset address reveals something
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quite interesting:
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Offset 1056 is _very_ close to the return address of FREELIBRARY():
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Call KERNEL.96: FREELIBRARY(0x031f) ret=01cf:105c ds=01ff
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^^^^
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Provided that segment 0x0004 is indeed
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segment 0x1cf, we now we can use IDA (available at
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ftp://ftp.uni-koeln.de/pc/msdos/programming/assembler/ida35bx.zip)
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to disassemble the part that caused the error. We just have to find
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the address of the call to FreeLibrary(). Some lines before that the
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runtime error occurred. But be careful ! In some cases you don't have
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to disassemble the main program, but instead some DLL called by it in
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order to find the correct place where the runtime error occurred. That
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can be determined by finding the origin of the segment value (in this
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case 0x1cf).
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c) If you have created a relay file of some crashing program and want to set a
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breakpoint at a certain location which is not yet available as the
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program loads the breakpoint's segment during execution,
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you may set a breakpoint to GetVersion16/32 as those functions are called
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very often.
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Then do a "c" until you are able to set this breakpoint without error message.
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d) Some useful programs:
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IDA: ftp://ftp.uni-koeln.de/pc/msdos/programming/assembler/ida35bx.zip
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*Very* good DOS disassembler ! It's badly needed for debugging Wine sometimes.
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XRAY: ftp://ftp.th-darmstadt.de/pub/machines/ms-dos/SimTel/msdos/asmutil/xray15.zip
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Traces DOS calls (Int 21h, DPMI, ...). Use it with Windows to correct
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file management problems etc.
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pedump: http://oak.oakland.edu/pub/simtelnet/win95/prog/pedump.zip
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Dumps the imports and exports of a PE (Portable Executable) DLL.
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Some basic debugger usages:
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===========================
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After starting you program with
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wine -debug myprog.exe
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the program loads and you get a prompt at the program starting point.
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Then you can set breakpoints:
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b RoutineName (by outine name) OR
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b *0x812575 (by address)
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Then you hit 'c' (continue) to run the program. It stops at
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the breakpoint. You can type
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step (to step one line) OR
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stepi (to step one machine instruction at a time;
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here, it helps to know the basic 386
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instruction set)
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info reg (to see registers)
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info stack (to see hex values in the stack)
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info local (to see local variables)
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list <line number> (to list source code)
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x <variable name> (to examine a variable; only works if code
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is not compiled with optimization)
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x 0x4269978 (to examine a memory location)
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? (help)
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q (quit)
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By hitting Enter, you repeat the last command.
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