Leaked source code of windows server 2003
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7.5 KiB

/*++
Copyright (c) 1995 Microsoft Corporation
Module Name:
shr1632a.c
Abstract:
Instruction fragments with common (shared) WORD, and DWORD flavors
(but not BYTE).
Compiled twice per flavor, once with UNALIGNED and once with ALIGNED
pointers.
Author:
05-Nov-1995 BarryBo
Revision History:
--*/
#include <nt.h>
#include <ntrtl.h>
#include <nturtl.h>
#include <windows.h>
#include <stdio.h>
#include "shr1632a.h"
FRAGCOMMON2(BtMemFrag)
{
UTYPE bit = 1<<(op2&LMB);
op2 /= LMB+1; // compute offset of the correct WORD/DWORD
SET_CFLAG_IND(GET_VAL(pop1+op2) & bit);
}
FRAGCOMMON2(BtsMemFrag)
{
DWORD NewCFlag;
UTYPE bit = 1<<(op2&LMB);
UTYPE op1;
op2 /= LMB+1; // compute offset of the correct WORD/DWORD
pop1 += op2;
op1 = GET_VAL(pop1);
NewCFlag = op1 & bit;
// Intel docs indicate that we can safely overwrite all 2/4 bytes
// when writing the value back out. (pg. 26/43)
PUT_VAL(pop1, (op1|bit));
SET_CFLAG_IND(NewCFlag);
}
FRAGCOMMON2(BtcMemFrag)
{
DWORD NewCFlag;
UTYPE bit = 1<<(op2&LMB);
UTYPE op1;
op2 /= LMB+1; // compute offset of the correct WORD/DWORD
pop1 += op2;
op1 = GET_VAL(pop1);
NewCFlag = op1 & bit;
// Intel docs indicate that we can safely overwrite all 2/4 bytes
// when writing the value back out. (pg. 26/43)
PUT_VAL(pop1, op1 ^ bit);
SET_CFLAG_IND(NewCFlag);
}
FRAGCOMMON2(BtrMemFrag)
{
DWORD NewCFlag;
UTYPE bit = 1<<(op2&LMB);
UTYPE op1;
op2 /= LMB+1; // compute offset of the correct WORD/DWORD
pop1 += op2;
op1 = GET_VAL(pop1);
NewCFlag = op1 & bit;
// Intel docs indicate that we can safely overwrite all 2/4 bytes
// when writing the value back out. (pg. 26/43)
PUT_VAL(pop1, (op1&(~bit)));
SET_CFLAG_IND(NewCFlag);
}
FRAGCOMMON2(BtRegFrag)
{
UTYPE bit = 1<<(op2&LMB);
SET_CFLAG_IND(GET_VAL(pop1) & bit);
}
FRAGCOMMON2(BtsRegFrag)
{
DWORD NewCFlag;
UTYPE bit = 1<<(op2&LMB);
UTYPE op1;
op1 = GET_VAL(pop1);
NewCFlag = op1 & bit;
// Intel docs indicate that we can safely overwrite all 2/4 bytes
// when writing the value back out. (pg. 26/43)
PUT_VAL(pop1, (op1|bit));
SET_CFLAG_IND(NewCFlag);
}
FRAGCOMMON2(BtcRegFrag)
{
DWORD NewCFlag;
UTYPE bit = 1<<(op2&LMB);
UTYPE op1;
op1 = GET_VAL(pop1);
NewCFlag = op1 & bit;
// Intel docs indicate that we can safely overwrite all 2/4 bytes
// when writing the value back out. (pg. 26/43)
PUT_VAL(pop1, (op1 ^ bit));
SET_CFLAG_IND(NewCFlag);
}
FRAGCOMMON2(BtrRegFrag)
{
DWORD NewCFlag;
UTYPE bit = 1<<(op2&LMB);
UTYPE op1;
op1 = GET_VAL(pop1);
NewCFlag = op1 & bit;
// Intel docs indicate that we can safely overwrite all 2/4 bytes
// when writing the value back out. (pg. 26/43)
PUT_VAL(pop1, (op1&(~bit)));
SET_CFLAG_IND(NewCFlag);
}
FRAGCOMMON3(ShldFrag)
{
// pop1 = Base -- ptr to dest reg/mem
// op2 = inBits -- value of register containing bits to shift into Base
// op3 = count -- number of bits to shift
DWORD NewCFlag;
UTYPE Base;
if (op3 == 0) {
return; // nothing to do - nop with all flags preserved
}
op3 &= 0x1f; // make the count MOD 32 (now op3 = ShiftAmt)
#if MSB == 0x8000
if (op3 > 16) {
// Bad parameters - *pop1 UNDEFINED!
// - CF,OF,SF,ZF,AF,PF UNDEFINED!
return;
}
#endif
Base = GET_VAL(pop1);
NewCFlag = Base & (1<<(LMB+1-op3)); // Get the new CF value
Base <<= op3; // shift Base left
op2 >>= LMB+1-op3; // shift the top op3 bits of op2 right
Base |= op2; // merge the two together
PUT_VAL(pop1, Base);
SET_CFLAG_IND(NewCFlag);
SET_ZFLAG(Base);
SET_PFLAG(Base);
SET_SFLAG(Base << (31-LMB));
}
FRAGCOMMON3(ShldNoFlagsFrag)
{
// pop1 = Base -- ptr to dest reg/mem
// op2 = inBits -- value of register containing bits to shift into Base
// op3 = count -- number of bits to shift
UTYPE Base;
if (op3 == 0) {
return; // nothing to do - nop with all flags preserved
}
op3 &= 0x1f; // make the count MOD 32 (now op3 = ShiftAmt)
#if MSB == 0x8000
if (op3 > 16) {
// Bad parameters - *pop1 UNDEFINED!
// - CF,OF,SF,ZF,AF,PF UNDEFINED!
return;
}
#endif
Base = GET_VAL(pop1);
Base <<= op3; // shift Base left
op2 >>= LMB+1-op3; // shift the top op3 bits of op2 right
Base |= op2; // merge the two together
PUT_VAL(pop1, Base);
}
FRAGCOMMON3(ShrdFrag)
{
// pop1 = Base -- ptr to dest reg/mem
// op2 = inBits -- value of register containing bits to shift into Base
// op3 = count -- number of bits to shift
DWORD NewCFlag;
UTYPE Base;
int i;
if (op3 == 0) {
return; // nothing to do - nop with all flags preserved
}
op3 &= 0x1f; // make the count MOD 32 (now op3 = ShiftAmt)
#if MSB == 0x8000
if (op3 > 16) {
// Bad parameters - *pop1 UNDEFINED!
// - CF,OF,SF,ZF,AF,PF UNDEFINED!
return;
}
#endif
Base = GET_VAL(pop1);
NewCFlag = Base & (1<<(op3-1)); // Get the new CF value
Base >>= op3; // shift Base right
op2 <<= LMB+1-op3; // shift the low op3 bits of op2
Base |= op2; // merge the two together
PUT_VAL(pop1, Base);
SET_CFLAG_IND(NewCFlag);
SET_ZFLAG(Base);
SET_PFLAG(Base);
SET_SFLAG(Base << (31-LMB));
}
FRAGCOMMON3(ShrdNoFlagsFrag)
{
// pop1 = Base -- ptr to dest reg/mem
// op2 = inBits -- value of register containing bits to shift into Base
// op3 = count -- number of bits to shift
UTYPE Base;
int i;
if (op3 == 0) {
return; // nothing to do - nop with all flags preserved
}
op3 &= 0x1f; // make the count MOD 32 (now op3 = ShiftAmt)
#if MSB == 0x8000
if (op3 > 16) {
// Bad parameters - *pop1 UNDEFINED!
// - CF,OF,SF,ZF,AF,PF UNDEFINED!
return;
}
#endif
Base = GET_VAL(pop1);
Base >>= op3; // shift Base right
op2 <<= LMB+1-op3; // shift the low op3 bits of op2
Base |= op2; // merge the two together
PUT_VAL(pop1, Base);
}
FRAGCOMMON2(BsfFrag)
{
int i;
if (op2 == 0) {
// value is 0 - set ZFLAG and return
SET_ZFLAG(0);
// *pop1 = UNDEFINED
return;
}
// scan from bit 0 forward, looking for the index of '1' bit
for (i=0; (op2 & 1) == 0; ++i) {
op2 >>= 1;
}
// write the index of the '1' bit and clear the ZFLAG
PUT_VAL(pop1, i);
SET_ZFLAG(op2);
}
FRAGCOMMON2(BsrFrag)
{
int i;
if (op2 == 0) {
// value is 0 - set ZFLAG and return
SET_ZFLAG(0);
// *pop1 = UNDEFINED
return;
}
// scan from bit 31/15 downward, looking for the index of '1' bit
for (i=LMB; (op2 & MSB) == 0; --i) {
op2 <<= 1;
}
// write the index of the '1' bit and clear the ZFLAG
PUT_VAL(pop1, i);
SET_ZFLAG(op2);
}
FRAGCOMMON1(PopFrag)
{
POP_VAL(GET_VAL(pop1));
}