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/kernel/trunk/unpacker.inc
0,0 → 1,504
; void __stdcall unpack(void* packed_data, void* unpacked_data);
unpack:
pushad
mov esi, [esp+32+4]
mov edi, [esp+32+8]
mov eax, [esi+8]
and al, 0xC0
cmp al, 0xC0
jz .failed
mov eax, [esi+8]
push eax
add esi, 12
and al, not 0xC0
dec eax
jz .lzma
.failed:
pop eax
popad
ret 8
.lzma:
call .lzma_unpack
.common:
pop eax
test al, 0x80
jnz .ctr1
test al, 0x40
jz .ok
lodsd
mov ecx, eax
jecxz .ok
mov dl, [esi]
mov esi, [esp+32+8]
.c1:
lodsb
sub al, 0E8h
cmp al, 1
ja .c1
cmp byte [esi], dl
jnz .c1
lodsd
; "bswap eax" is not supported on i386
shr ax, 8
ror eax, 16
xchg al, ah
sub eax, esi
add eax, [esp+32+8]
mov [esi-4], eax
loop .c1
.ok:
popad
ret 8
.ctr1:
lodsd
mov ecx, eax
jecxz .ok
mov dl, [esi]
mov esi, [esp+32+8]
.c2:
lodsb
@@:
cmp al, 0xF
jnz .f
lodsb
cmp al, 80h
jb @b
cmp al, 90h
jb @f
.f:
sub al, 0E8h
cmp al, 1
ja .c2
@@:
cmp byte [esi], dl
jnz .c2
lodsd
shr ax, 8
ror eax, 16
xchg al, ah
sub eax, esi
add eax, [esp+32+8]
mov [esi-4], eax
loop .c2
jmp .ok
 
.lzma_unpack:
 
.pb = 2 ; pos state bits
.lp = 0 ; literal pos state bits
.lc = 3 ; literal context bits
.posStateMask = ((1 shl .pb)-1)
.literalPosMask = ((1 shl .lp)-1)
 
.kNumPosBitsMax = 4
.kNumPosStatesMax = (1 shl .kNumPosBitsMax)
 
.kLenNumLowBits = 3
.kLenNumLowSymbols = (1 shl .kLenNumLowBits)
.kLenNumMidBits = 3
.kLenNumMidSymbols = (1 shl .kLenNumMidBits)
.kLenNumHighBits = 8
.kLenNumHighSymbols = (1 shl .kLenNumHighBits)
 
.LenChoice = 0
.LenChoice2 = 1
.LenLow = 2
.LenMid = (.LenLow + (.kNumPosStatesMax shl .kLenNumLowBits))
.LenHigh = (.LenMid + (.kNumPosStatesMax shl .kLenNumMidBits))
.kNumLenProbs = (.LenHigh + .kLenNumHighSymbols)
 
.kNumStates = 12
.kNumLitStates = 7
.kStartPosModelIndex = 4
.kEndPosModelIndex = 14
.kNumFullDistances = (1 shl (.kEndPosModelIndex/2))
.kNumPosSlotBits = 6
.kNumLenToPosStates = 4
.kNumAlignBits = 4
.kAlignTableSize = (1 shl .kNumAlignBits)
.kMatchMinLen = 2
 
.IsMatch = 0
.IsRep = (.IsMatch + (.kNumStates shl .kNumPosBitsMax))
.IsRepG0 = (.IsRep + .kNumStates)
.IsRepG1 = (.IsRepG0 + .kNumStates)
.IsRepG2 = (.IsRepG1 + .kNumStates)
.IsRep0Long = (.IsRepG2 + .kNumStates)
.PosSlot = (.IsRep0Long + (.kNumStates shl .kNumPosBitsMax))
.SpecPos = (.PosSlot + (.kNumLenToPosStates shl .kNumPosSlotBits))
.Align_ = (.SpecPos + .kNumFullDistances - .kEndPosModelIndex)
.Lencoder = (.Align_ + .kAlignTableSize)
.RepLencoder = (.Lencoder + .kNumLenProbs)
.Literal = (.RepLencoder + .kNumLenProbs)
 
.LZMA_BASE_SIZE = 1846 ; must be ==Literal
.LZMA_LIT_SIZE = 768
 
.kNumTopBits = 24
.kTopValue = (1 shl .kNumTopBits)
 
.kNumBitModelTotalBits = 11
.kBitModelTotal = (1 shl .kNumBitModelTotalBits)
.kNumMoveBits = 5
 
push edi
; int state=0;
xor ebx, ebx
mov [.previousByte], bl
; unsigned rep0=1,rep1=1,rep2=1,rep3=1;
mov eax, 1
mov edi, .rep0
stosd
stosd
stosd
stosd
; int len=0;
; result=0;
mov ecx, .Literal + (.LZMA_LIT_SIZE shl (.lc+.lp))
mov eax, .kBitModelTotal/2
mov edi, .p
rep stosd
; RangeDecoderInit
; rd->ExtraBytes = 0
; rd->Buffer = stream
; rd->BufferLim = stream+bufferSize
; rd->Range = 0xFFFFFFFF
pop edi
mov ebp, [esi-8] ; dest_length
add ebp, edi ; ebp = destination limit
lodsd
; rd->code_ = eax
mov [.code_], eax
or [.range], -1
.main_loop:
cmp edi, ebp
jae .main_loop_done
mov edx, edi
and edx, .posStateMask
mov eax, ebx
shl eax, .kNumPosBitsMax+2
lea eax, [.p + .IsMatch*4 + eax + edx*4]
call .RangeDecoderBitDecode
jc .1
movzx eax, [.previousByte]
if .literalPosMask
mov ah, dl
and ah, .literalPosMask
end if
shr eax, 8-.lc
imul eax, .LZMA_LIT_SIZE*4
add eax, .p+.Literal*4
cmp ebx, .kNumLitStates
jb .literal
xor edx, edx
sub edx, [.rep0]
mov dl, [edi + edx]
call .LzmaLiteralDecodeMatch
jmp @f
.literal:
call .LzmaLiteralDecode
@@:
mov [.previousByte], al
stosb
mov al, bl
cmp bl, 4
jb @f
mov al, 3
cmp bl, 10
jb @f
mov al, 6
@@: sub bl, al
jmp .main_loop
.1:
lea eax, [.p + .IsRep*4 + ebx*4]
call .RangeDecoderBitDecode
jnc .10
lea eax, [.p + .IsRepG0*4 + ebx*4]
call .RangeDecoderBitDecode
jc .111
mov eax, ebx
shl eax, .kNumPosBitsMax+2
lea eax, [.p + .IsRep0Long*4 + eax + edx*4]
call .RangeDecoderBitDecode
jc .1101
cmp bl, 7
setae bl
lea ebx, [9 + ebx + ebx]
xor edx, edx
sub edx, [.rep0]
mov al, [edi + edx]
stosb
mov [.previousByte], al
jmp .main_loop
.111:
lea eax, [.p + .IsRepG1*4 + ebx*4]
call .RangeDecoderBitDecode
mov eax, [.rep1]
jnc .l3
.l1:
lea eax, [.p + .IsRepG2*4 + ebx*4]
call .RangeDecoderBitDecode
mov eax, [.rep2]
jnc .l2
xchg [.rep3], eax
.l2:
push [.rep1]
pop [.rep2]
.l3:
xchg eax, [.rep0]
mov [.rep1], eax
.1101:
mov eax, .p + .RepLencoder*4
call .LzmaLenDecode
cmp bl, 7
setc bl
adc bl, bl
xor bl, 3
add bl, 8
jmp .repmovsb
.10:
mov eax, [.rep0]
xchg eax, [.rep1]
xchg eax, [.rep2]
xchg eax, [.rep3]
cmp bl, 7
setc bl
adc bl, bl
xor bl, 3
add bl, 7
mov eax, .p + .Lencoder*4
call .LzmaLenDecode
mov eax, .kNumLenToPosStates-1
cmp eax, ecx
jb @f
mov eax, ecx
@@:
push ecx
mov ecx, .kNumPosSlotBits
shl eax, cl
shl eax, 2
add eax, .p+.PosSlot*4
call .RangeDecoderBitTreeDecode
mov [.rep0], ecx
cmp ecx, .kStartPosModelIndex
jb .l6
push ecx
mov eax, ecx
and eax, 1
shr ecx, 1
or eax, 2
dec ecx
shl eax, cl
mov [.rep0], eax
pop edx
cmp edx, .kEndPosModelIndex
jae .l5
sub eax, edx
shl eax, 2
add eax, .p + (.SpecPos - 1)*4
call .RangeDecoderReverseBitTreeDecode
add [.rep0], ecx
jmp .l6
.l5:
sub ecx, .kNumAlignBits
call .RangeDecoderDecodeDirectBits
mov ecx, .kNumAlignBits
shl eax, cl
add [.rep0], eax
mov eax, .p+.Align_*4
call .RangeDecoderReverseBitTreeDecode
add [.rep0], ecx
.l6:
pop ecx
inc [.rep0]
jz .main_loop_done
.repmovsb:
add ecx, .kMatchMinLen
push esi
mov esi, edi
sub esi, [.rep0]
rep movsb
pop esi
mov al, [edi-1]
mov [.previousByte], al
jmp .main_loop
.main_loop_done:
ret
 
.RangeDecoderBitDecode:
; in: eax->prob
; out: CF=bit; destroys eax
push edx
mov edx, [.range]
shr edx, .kNumBitModelTotalBits
imul edx, [eax]
cmp [.code_], edx
jae .ae
mov [.range], edx
mov edx, .kBitModelTotal
sub edx, [eax]
shr edx, .kNumMoveBits
add [eax], edx
clc
.n:
lahf
cmp [.range], .kTopValue
jae @f
shl [.range], 8
shl [.code_], 8
lodsb
mov byte [.code_], al
@@:
sahf
pop edx
ret
.ae:
sub [.range], edx
sub [.code_], edx
mov edx, [eax]
shr edx, .kNumMoveBits
sub [eax], edx
stc
jmp .n
 
.RangeDecoderDecodeDirectBits:
; in: ecx=numTotalBits
; out: eax=result; destroys edx
xor eax, eax
.l:
shr [.range], 1
shl eax, 1
mov edx, [.code_]
sub edx, [.range]
jb @f
mov [.code_], edx
or eax, 1
@@:
cmp [.range], .kTopValue
jae @f
shl [.range], 8
shl [.code_], 8
push eax
lodsb
mov byte [.code_], al
pop eax
@@:
loop .l
ret
 
.LzmaLiteralDecode:
; in: eax->probs
; out: al=byte; destroys edx
push ecx
mov ecx, 1
@@:
push eax
lea eax, [eax+ecx*4]
call .RangeDecoderBitDecode
pop eax
adc cl, cl
jnc @b
.LzmaLiteralDecode.ret:
mov al, cl
pop ecx
ret
.LzmaLiteralDecodeMatch:
; in: eax->probs, dl=matchByte
; out: al=byte; destroys edx
push ecx
mov ecx, 1
.LzmaLiteralDecodeMatch.1:
add dl, dl
setc ch
push eax
lea eax, [eax+ecx*4+0x100*4]
call .RangeDecoderBitDecode
pop eax
adc cl, cl
jc .LzmaLiteralDecode.ret
xor ch, cl
test ch, 1
mov ch, 0
jnz @b
jmp .LzmaLiteralDecodeMatch.1
 
.LzmaLenDecode:
; in: eax->prob, edx=posState
; out: ecx=len
push eax
add eax, .LenChoice*4
call .RangeDecoderBitDecode
pop eax
jnc .0
push eax
add eax, .LenChoice2*4
call .RangeDecoderBitDecode
pop eax
jc @f
mov ecx, .kLenNumMidBits
shl edx, cl
lea eax, [eax + .LenMid*4 + edx*4]
call .RangeDecoderBitTreeDecode
add ecx, .kLenNumLowSymbols
ret
@@:
add eax, .LenHigh*4
mov ecx, .kLenNumHighBits
call .RangeDecoderBitTreeDecode
add ecx, .kLenNumLowSymbols + .kLenNumMidSymbols
ret
.0:
mov ecx, .kLenNumLowBits
shl edx, cl
lea eax, [eax + .LenLow*4 + edx*4]
.RangeDecoderBitTreeDecode:
; in: eax->probs,ecx=numLevels
; out: ecx=length; destroys edx
push ebx
mov edx, 1
mov ebx, edx
@@:
push eax
lea eax, [eax+edx*4]
call .RangeDecoderBitDecode
pop eax
adc dl, dl
add bl, bl
loop @b
sub dl, bl
pop ebx
mov ecx, edx
ret
.RangeDecoderReverseBitTreeDecode:
; in: eax->probs,ecx=numLevels
; out: ecx=length; destroys edx
push ebx ecx
mov edx, 1
xor ebx, ebx
@@:
push eax
lea eax, [eax+edx*4]
call .RangeDecoderBitDecode
lahf
adc edx, edx
sahf
rcr ebx, 1
pop eax
loop @b
pop ecx
rol ebx, cl
mov ecx, ebx
pop ebx
ret
 
uglobal
align 4
unpack.p rd unpack.LZMA_BASE_SIZE + (unpack.LZMA_LIT_SIZE shl (unpack.lc+unpack.lp))
unpack.code_ dd ?
unpack.range dd ?
unpack.rep0 dd ?
unpack.rep1 dd ?
unpack.rep2 dd ?
unpack.rep3 dd ?
unpack.previousByte db ?
endg
Property changes:
Added: svn:executable
+*
\ No newline at end of property