mirror of
https://github.com/vxunderground/MalwareSourceCode.git
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255 lines
15 KiB
NASM
255 lines
15 KiB
NASM
INTERRUPTS SEGMENT AT 0H ;This is where the disk interrupt
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ORG 13H*4 ;holds the address of its service routine
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DISK_INT LABEL DWORD
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INTERRUPTS ENDS
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CODE_SEG SEGMENT
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ASSUME CS:CODE_SEG
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ORG 100H ;ORG = 100H to make this into a .COM file
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FIRST: JMP LOAD_CACHE ;First time through jump to initialize routine
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CPY_RGT DB '(C)1985 S.Holzner' ;A signature in bytes
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TBL_LEN DW 64 ;<-- # OF SECTORS TO STORE IN CACHE, MIN=24, MAX=124.
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;THIS IS THE ONLY PLACE YOU MUST SET THIS NUMBER. EACH SECTOR = 512 BYTES.
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TIME DW 0 ;Time used to time-stamp each sector
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OLD_CX DW 0 ;Stores original value of CX (CX is used often)
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LOW_TIM DW 0 ;Used in searching for least recently used sect.
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INT13H DD 0 ;Stores the original INT 13H address
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RET_ADR LABEL DWORD ;Playing games with the stack here to preserve
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RET_ADR_WORD DW 2 DUP(0) ;flags returned by Int 13H
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DISK_CACHE PROC FAR ;The Disk interrupt will now come here.
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ASSUME CS:CODE_SEG
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CMP AX,201H ;Is this a read (AH=2) of 1 sector (AL=1)?
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JE READ ;Yes, jump to Read
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CMP AH,3 ;No. Perchance a write or format?
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JB OLD_INT ;No, release control to old disk Int.
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JMP WRITE ;Yes, jump to Write
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OLD_INT:PUSHF ;Pushf for Int 13H's final Iret
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CALL INT13H ;Call the Disk Int
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JMP PAST ;And jump past all usual Pops
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READ: PUSH BX ;Push just about every register ever heard of
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PUSH CX
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PUSH DX
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PUSH DI
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PUSH SI
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PUSH DS
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PUSH ES
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MOV DI,BX ;Int 13H gets data address as ES:BX, switch to ES:DI
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ASSUME DS:CODE_SEG ;Make sure all labels found correctly
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PUSH CS ;Move CS into DS by pushing CS, popping DS
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POP DS
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MOV OLD_CX,CX ;Save original CX since we're about to use it
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CMP DH,0 ;DH holds requested head -- head 0?
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JNE NOT_FAT1 ;Nope, this can't be the first Fat sector
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CMP CX,6 ;If this is the directory, check if we have a
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JE FAT1 ; new disk.
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CMP CX,2 ;Track 0 (CH)? Sector 2 (CL)?
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JNE NOT_FAT1 ;If not, this sure isn't the FAT1
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FAT1: CALL FIND_MATCH ;DOS reads in this sector first to check disk format
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JCXZ NONE ;We'll use it for a check-sum. Do we have it
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MOV BX,DI ; stored yet? CX=0-->no. If yes, restore BX
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MOV CX,OLD_CX ; and CX from original values
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PUSHF ;And now do the Pushf and call of Int13H to read
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CALL INT13H ; FAT1
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JC ERR ;If error, leave
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MOV CX,256 ;No error, FAT1 was read, check our value
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REPE CMPSW ; with CMPSW -- if no match, disk was changed
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JCXZ BYE ;Everything checks out, Bingo, exit.
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LEA SI,TABLE ;New Disk! Zero all the old disk's sectors
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MOV CX,TBL_LEN ;Loop over all entries, DL holds drive #
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CLR: CMP DS:[SI+2],DL ;Is this stored sector from the old disk?
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JNE NO_CLR ;Nope, don't clear this entry
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MOV WORD PTR DS:[SI],0 ;Match, zero this entry, zero first word
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NO_CLR: ADD SI,518 ;Move on to next stored sector (512 bytes of stored
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LOOP CLR ; sector and 3 words of identification & time-stamp)
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JMP BYE ;Reset for new disk, let's leave
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NONE: CALL STORE_SECTOR ;Store FAT1 if there was no match to it
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JC ERR ;Error -- exit ungraciously
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JMP BYE ;No Error, Bye.
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NOT_FAT1: ;The requested sector was not FAT1. Let's
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CALL FIND_MATCH ;get it. Or do we have it already?
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JCXZ NO_MATCH ;No, jump to No_Match, store sector
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MOV CX,512 ;ES:DI and DS:SI already set up from Find_Match
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REP MOVSB ;Move 512 bytes to requested memory area
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CMP WORD PTR [BX+4],0FFFFH ;Is this a a directory sector?
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JE BYE ;Yes, don't reset time (already highest poss.)
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INC TIME ;No, reset the time, this sector just accessed
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MOV AX,TIME ;Move time into Time word of sector's 3 words
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MOV [BX+4],AX ; of identification
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JMP BYE ;And leave. If there's an article you'd like to
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NO_MATCH: ;see, by all means write in C/O PC Magazine.
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CALL STORE_SECTOR ;Don't have this sector yet, get it.
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JC ERR ;If read failed, exit with error
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BYE: CLC ;The exit point. Clear carry flag, set AX=1
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MOV AX,1 ; CY=0 --> no error, AH=0 --> error code = 0
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ERR: POP ES ;If error, preserve flags and AX with error code
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POP DS ;Pop all conceivable registers (except AX)
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POP SI
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POP DI
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POP DX
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POP CX ;Now that the flags are set, we want to get the
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POP BX ;old flags off the stack (put there by original
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PAST: POP CS:RET_ADR_WORD ;Int call) To do that we save the return address
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POP CS:RET_ADR_WORD[2] ;first and then pop the flags harmlessly
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POP CS:OLD_CX ;into Old_CX, and then jump to RET_ADR.
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JMP CS:RET_ADR ;Done with read. Now let's consider write.
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WRITE: PUSH BX ;Push all registers, past and present
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PUSH CX
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PUSH DX
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PUSH DI
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PUSH SI
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PUSH DS
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PUSH ES
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PUSH AX
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CMP AX,301H ;Is this a write of one sector?
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JNE NOSAVE ;No, don't save it in the sector bank
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PUSH CS ;Yep, set DS (for call to Int13H label) and
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POP DS ; write this sector out
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PUSHF
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CALL INT13H
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JNC SAVE ;If there was an error we don't want to save sector
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POP CS:OLD_CX ;Save AH error code, Pop old AX into Old_CX
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JMP ERR ;And jump to an ignoble exit
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SAVE: MOV OLD_CX,CX ;We're going to save this sector.
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MOV DI,BX ;Set up DI for string move (to store written
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CALL FIND_MATCH ; sector. Do we have it in memory? (set SI)
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JCXZ LEAVE ;Nope, Leave (like above's Bye).
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XCHG DI,SI ;Exchange destination and source
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PUSH ES ;Set up DS:SI to point to where data written
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POP DS ; from. We'll then use a string move
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PUSH CS ;Set up ES so ES:DI points to sector bank
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POP ES ; SI was set by Find_Match, Xchg'd into DI
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MOV CX,512 ;Get ready to move 512 bytes
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REP MOVSB ;Here we go
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LEAVE: POP AX ;Here is the leave
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JMP BYE ;Which only pops AX and then jumps to Bye
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NOSAVE: PUSH CS ;More than 1 sector written, don't save but
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POP DS ; do zero stored sectors that will be written
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MOV AH,0 ;Use AX as loop index (AL=# of sectors to write)
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TOP: PUSH CX ;Save CX since destroyed by Find_Match
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CALL FIND_MATCH ;Do we have this one?
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JCXZ NOPE ;Nope if CX = 0
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MOV WORD PTR [BX],0 ;There is a match, zero this sector
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NOPE: POP CX ;Restore CX, the sector index
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INC CL ;Move on to next one
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DEC AX ;Decrement loop index
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JNZ TOP ;And, unless that gives 0, go back again
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POPS: POP AX ;Pop 'em all, starting with AX
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POP ES
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POP DS
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POP SI
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POP DI
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POP DX
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POP CX
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POP BX
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JMP OLD_INT ;And go back to OLD_INT for write.
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DISK_CACHE ENDP
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FIND_MATCH PROC NEAR ;This routine finds a sector in the sector bank
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PUSH AX ;And returns SI set to sector's entry, BX set
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LEA SI,SECTORS ; to the beginning of the 'table' -- the 3 words
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LEA BX,TABLE ;that precede all sectors. If there was no match
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MOV AX,TBL_LEN ; CX=0. When Int13H called, CH=trk #, CL=sec. #
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XCHG AX,CX ; DH=head #, DL=Drive #. Get Tbl_Len into CX
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FIND: CMP DS:[BX],AX ;Compare stored sector's original AX to current
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JNE NO ;If not, not.
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CMP DS:[BX+2],DX ;If so, check DX of stored sector with current
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JE GOT_IT ;Yes, there is a match, leave
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NO: ADD BX,518 ;Point to next Table entry
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ADD SI,518 ;And next sector too
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LOOP FIND ;Keep looping until there is a match
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GOT_IT: POP AX ;If there is no match, CX will be left 0
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RET ;Return
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FIND_MATCH ENDP
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STORE_SECTOR PROC NEAR ;This routine, as it says, stores sectors
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MOV BX,DI ;Original BX (ES:BX was original data address)
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MOV CX,OLD_CX ; and CX restored (CX=trk#, Sector#)
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PUSHF ;Pushf for Int 13H's Iret and call it
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CALL INT13H
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JNC ALL_OK ;If there was an exit, exit ignominiously
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JMP FIN ;If error, leave CY flag set, code in AH, exit
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ALL_OK: PUSH CX ;No error, push used registers
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PUSH BX ; and find space for sector in sector bank
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PUSH DX
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LEA DI,SECTORS ;Point to sector bank
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LEA BX,TABLE ; and Table
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MOV CX,TBL_LEN ; and get ready to loop over all of them to
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CHK0: CMP WORD PTR DS:[BX],0 ;find if there is an unused sector
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JE FOUND ;If the first word is 0, use this sector
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ADD DI,518 ;But this one isn't so update DI, SI and
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ADD BX,518 ; loop again
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LOOP CHK0
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MOV LOW_TIM,0FFFEH ;All sectors were filled, find least recently
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LEA DI,SECTORS ; used and write over that one
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LEA SI,TABLE
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MOV CX,TBL_LEN ;Loop over all stored sectors
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CHKTIM: MOV DX,LOW_TIM ;Compare stored sector to so-far low time
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CMP [SI+4],DX
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JA MORE_RECENT ;If this one is more recent, don't use it
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MOV AX,DI ;This one is older than previous oldest
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MOV BX,SI ;Store sector bank address (DI) and table
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MOV DX,[SI+4] ; entry (now in SI)
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MOV LOW_TIM,DX ;And update the Low Time to this one
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MORE_RECENT:
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ADD DI,518 ;Move on to next stored sector
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ADD SI,518 ;And next table entry
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LOOP CHKTIM ;Loop again until all covered
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MOV DI,AX ;Get Sector bank address of oldest into DI
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FOUND: POP DX ;Restore used registers
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POP SI ;Old BX (data read-to-address) --> SI
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POP CX
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MOV [BX],CX ;Store the new CX as the sector's first word
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MOV [BX+2],DX ;2nd word of Table is sector's DX
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INC TIME ;Now find the new time
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MOV AX,TIME ;Prepare to move it into 3rd word of Table
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CMP DH,0 ;Is this directory or FAT? (time-->FFFF)
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JNE SIDE1 ;If head is not 0, check other head
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CMP CX,9 ;Head zero, trk# 0, first sector? (directory)
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JLE DIR ;Yes, this is a piece we always want stored
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JMP NOT_DIR ;No, definitely not FAT or directory
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SIDE1: CMP DH,1 ;Head 1?
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JNE NOT_DIR ;No, this is not File Alloc. Table or directory
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CMP CX,2 ;Part of the top of the directory?
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JA NOT_DIR ;No, go to Not_Dir and set time
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DIR: MOV AX,0FFFFH ;Dir or FAT, set time high so always kept
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NOT_DIR:MOV [BX+4],AX ;Not FAT or dir, store the incremented time
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PUSH ES ;And now get the data to fill the sector
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POP DS ;SI, DI already set. Now set ES and DS for
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PUSH CS ; string move.
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POP ES
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MOV CX,512 ;Move 512 bytes
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REP MOVSB ;Right here
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CLC ;Clear the carry flag (no error)
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FIN: RET ;Error exit here (do not reset CY flag)
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STORE_SECTOR ENDP
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TABLE: DW 3 DUP(0) ;Table and sector storage begins right here
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SECTORS: ;First thing to write over is the following
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; booster program.
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LOAD_CACHE PROC NEAR ;This procedure intializes everything
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LEA BX,CLEAR
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ASSUME DS:INTERRUPTS ;The data segment will be the Interrupt area
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MOV AX,INTERRUPTS
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MOV DS,AX
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MOV AX,word ptr DISK_INT ;Get the old interrupt service routine
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MOV word ptr INT13H,AX ; address and put it into our location MOV AX,word ptr DISK_INT[2]
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; INT13H so we can call it.
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MOV word ptr INT13H[2],AX
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MOV word ptr DISK_INT,OFFSET DISK_CACHE ;Now load address of Cache
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MOV word ptr DISK_INT[2],CS ;routine into the Disk interrupt
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MOV AX,TBL_LEN ;The number of sectors to store in cache
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MOV CX,518 ;Multiply by 518 (3 words of id and 512
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MUL CX ; bytes of sector data)
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MOV CX,AX ;Also, zero all the bytes so that
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ZERO: MOV BYTE PTR CS:[BX],0 ; Store_Sector will find 1st word a 0,
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INC BX ; indicating virgin territory.
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LOOP ZERO
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MOV DX,OFFSET TABLE ;To attach in memory, add # bytes to
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ADD DX,AX ;store to Table's location and use
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INT 27H ; Int 27H
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LOAD_CACHE ENDP
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CLEAR:
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CODE_SEG ENDS
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END FIRST ;END "FIRST" so 8088 will go to FIRST first.
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