Jit64: some byte-swapping changes

This commit is contained in:
Tillmann Karras 2015-08-21 21:49:09 +02:00
parent 6015e2d812
commit ee4a12ffe2
5 changed files with 69 additions and 103 deletions

View File

@ -887,8 +887,30 @@ void XEmitter::WriteMOVBE(int bits, u8 op, X64Reg reg, const OpArg& arg)
void XEmitter::MOVBE(int bits, X64Reg dest, const OpArg& src) {WriteMOVBE(bits, 0xF0, dest, src);}
void XEmitter::MOVBE(int bits, const OpArg& dest, X64Reg src) {WriteMOVBE(bits, 0xF1, src, dest);}
void XEmitter::LoadAndSwap(int size, X64Reg dst, const OpArg& src)
void XEmitter::LoadAndSwap(int size, X64Reg dst, const OpArg& src, bool sign_extend)
{
switch (size)
{
case 8:
if (sign_extend)
MOVSX(32, 8, dst, src);
else
MOVZX(32, 8, dst, src);
break;
case 16:
MOVZX(32, 16, dst, src);
if (sign_extend)
{
BSWAP(32, dst);
SAR(32, R(dst), Imm8(16));
}
else
{
ROL(16, R(dst), Imm8(8));
}
break;
case 32:
case 64:
if (cpu_info.bMOVBE)
{
MOVBE(size, dst, src);
@ -898,10 +920,13 @@ void XEmitter::LoadAndSwap(int size, X64Reg dst, const OpArg& src)
MOV(size, R(dst), src);
BSWAP(size, dst);
}
break;
}
}
void XEmitter::SwapAndStore(int size, const OpArg& dst, X64Reg src)
u8* XEmitter::SwapAndStore(int size, const OpArg& dst, X64Reg src)
{
u8* mov_location = GetWritableCodePtr();
if (cpu_info.bMOVBE)
{
MOVBE(size, dst, src);
@ -909,8 +934,10 @@ void XEmitter::SwapAndStore(int size, const OpArg& dst, X64Reg src)
else
{
BSWAP(size, src);
mov_location = GetWritableCodePtr();
MOV(size, dst, R(src));
}
return mov_location;
}

View File

@ -480,8 +480,8 @@ public:
// Available only on Atom or >= Haswell so far. Test with cpu_info.bMOVBE.
void MOVBE(int bits, X64Reg dest, const OpArg& src);
void MOVBE(int bits, const OpArg& dest, X64Reg src);
void LoadAndSwap(int size, X64Reg dst, const OpArg& src);
void SwapAndStore(int size, const OpArg& dst, X64Reg src);
void LoadAndSwap(int size, X64Reg dst, const OpArg& src, bool sign_extend = false);
u8* SwapAndStore(int size, const OpArg& dst, X64Reg src);
// Available only on AMD >= Phenom or Intel >= Haswell
void LZCNT(int bits, X64Reg dest, const OpArg& src);

View File

@ -86,41 +86,42 @@ bool Jitx86Base::BackPatch(u32 emAddress, SContext* ctx)
// Compute the start and length of the memory operation, including
// any byteswapping.
int totalSize;
int totalSize = info.instructionSize;
u8 *start = codePtr;
if (!info.isMemoryWrite)
{
int bswapNopCount;
if (info.byteSwap || info.operandSize == 1)
bswapNopCount = 0;
// Check the following BSWAP for REX byte
else if ((codePtr[info.instructionSize] & 0xF0) == 0x40)
bswapNopCount = 3;
else
bswapNopCount = 2;
totalSize = info.instructionSize + bswapNopCount;
if (info.operandSize == 2 && !info.byteSwap)
// MOVBE and single bytes don't need to be swapped.
if (!info.byteSwap && info.operandSize > 1)
{
// REX
if ((codePtr[totalSize] & 0xF0) == 0x40)
totalSize++;
// BSWAP
if (codePtr[totalSize] == 0x0F && (codePtr[totalSize + 1] & 0xF8) == 0xC8)
totalSize += 2;
if (info.operandSize == 2)
{
++totalSize;
}
if (codePtr[totalSize] != 0xc1 || codePtr[totalSize + 2] != 0x10)
{
PanicAlert("BackPatch: didn't find expected shift %p", codePtr);
return false;
}
// operand size override
if (codePtr[totalSize] == 0x66)
totalSize++;
// REX
if ((codePtr[totalSize] & 0xF0) == 0x40)
totalSize++;
// SAR/ROL
_assert_(codePtr[totalSize] == 0xC1 && (codePtr[totalSize + 2] == 0x10 ||
codePtr[totalSize + 2] == 0x08));
info.signExtend = (codePtr[totalSize + 1] & 0x10) != 0;
totalSize += 3;
}
}
}
else
{
if (info.byteSwap || info.hasImmediate)
{
// The instruction is a MOVBE but it failed so the value is still in little-endian byte order.
totalSize = info.instructionSize;
}
else
{
@ -146,7 +147,7 @@ bool Jitx86Base::BackPatch(u32 emAddress, SContext* ctx)
break;
}
start = codePtr - bswapSize;
totalSize = info.instructionSize + bswapSize;
totalSize += bswapSize;
}
}

View File

@ -24,24 +24,8 @@ void EmuCodeBlock::MemoryExceptionCheck()
void EmuCodeBlock::UnsafeLoadRegToReg(X64Reg reg_addr, X64Reg reg_value, int accessSize, s32 offset, bool signExtend)
{
MOVZX(32, accessSize, reg_value, MComplex(RMEM, reg_addr, SCALE_1, offset));
if (accessSize == 32)
{
BSWAP(32, reg_value);
}
else if (accessSize == 16)
{
BSWAP(32, reg_value);
if (signExtend)
SAR(32, R(reg_value), Imm8(16));
else
SHR(32, R(reg_value), Imm8(16));
}
else if (signExtend)
{
// TODO: bake 8-bit into the original load.
MOVSX(32, accessSize, reg_value, R(reg_value));
}
OpArg src = MComplex(RMEM, reg_addr, SCALE_1, offset);
LoadAndSwap(accessSize, reg_value, src, signExtend);
}
void EmuCodeBlock::UnsafeLoadRegToRegNoSwap(X64Reg reg_addr, X64Reg reg_value, int accessSize, s32 offset, bool signExtend)
@ -84,34 +68,7 @@ u8 *EmuCodeBlock::UnsafeLoadToReg(X64Reg reg_value, OpArg opAddress, int accessS
}
result = GetWritableCodePtr();
if (accessSize == 8 && signExtend)
MOVSX(32, accessSize, reg_value, memOperand);
else
MOVZX(64, accessSize, reg_value, memOperand);
switch (accessSize)
{
case 8:
_dbg_assert_(DYNA_REC, BACKPATCH_SIZE - (GetCodePtr() - result <= 0));
break;
case 16:
BSWAP(32, reg_value);
if (signExtend)
SAR(32, R(reg_value), Imm8(16));
else
SHR(32, R(reg_value), Imm8(16));
break;
case 32:
BSWAP(32, reg_value);
break;
case 64:
BSWAP(64, reg_value);
break;
}
LoadAndSwap(accessSize, reg_value, memOperand, signExtend);
return result;
}
@ -415,17 +372,7 @@ u8 *EmuCodeBlock::UnsafeWriteRegToReg(OpArg reg_value, X64Reg reg_addr, int acce
}
else if (swap)
{
if (cpu_info.bMOVBE)
{
MOVBE(accessSize, dest, reg_value.GetSimpleReg());
}
else
{
if (accessSize > 8)
BSWAP(accessSize, reg_value.GetSimpleReg());
result = GetWritableCodePtr();
MOV(accessSize, dest, reg_value);
}
result = SwapAndStore(accessSize, dest, reg_value.GetSimpleReg());
}
else
{

View File

@ -53,21 +53,12 @@ OpArg VertexLoaderX64::GetVertexAddr(int array, u64 attribute)
OpArg data = MDisp(src_reg, m_src_ofs);
if (attribute & MASK_INDEXED)
{
if (attribute == INDEX8)
{
MOVZX(64, 8, scratch1, data);
m_src_ofs += 1;
}
else
{
MOV(16, R(scratch1), data);
m_src_ofs += 2;
BSWAP(16, scratch1);
MOVZX(64, 16, scratch1, R(scratch1));
}
int bits = attribute == INDEX8 ? 8 : 16;
LoadAndSwap(bits, scratch1, data);
m_src_ofs += bits / 8;
if (array == ARRAY_POSITION)
{
CMP(attribute == INDEX8 ? 8 : 16, R(scratch1), Imm8(-1));
CMP(bits, R(scratch1), Imm8(-1));
m_skip_vertex = J_CC(CC_E, true);
}
IMUL(32, scratch1, MPIC(&g_main_cp_state.array_strides[array]));