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/*
* Copyright (c) 2009 The Regents of The University of Michigan
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met: redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer;
* redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution;
* neither the name of the copyright holders nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* Authors: Gabe Black
*/
#include "arch/x86/decoder.hh"
#include "arch/x86/isa.hh"
#include "arch/x86/tlb.hh"
#include "cpu/base.hh"
#include "cpu/thread_context.hh"
#include "params/X86ISA.hh"
#include "sim/serialize.hh"
namespace X86ISA
{
void
ISA::updateHandyM5Reg(Efer efer, CR0 cr0,
SegAttr csAttr, SegAttr ssAttr, RFLAGS rflags,
ThreadContext *tc)
{
HandyM5Reg m5reg = 0;
if (efer.lma) {
m5reg.mode = LongMode;
if (csAttr.longMode)
m5reg.submode = SixtyFourBitMode;
else
m5reg.submode = CompatabilityMode;
} else {
m5reg.mode = LegacyMode;
if (cr0.pe) {
if (rflags.vm)
m5reg.submode = Virtual8086Mode;
else
m5reg.submode = ProtectedMode;
} else {
m5reg.submode = RealMode;
}
}
m5reg.cpl = csAttr.dpl;
m5reg.paging = cr0.pg;
m5reg.prot = cr0.pe;
// Compute the default and alternate operand size.
if (m5reg.submode == SixtyFourBitMode || csAttr.defaultSize) {
m5reg.defOp = 2;
m5reg.altOp = 1;
} else {
m5reg.defOp = 1;
m5reg.altOp = 2;
}
// Compute the default and alternate address size.
if (m5reg.submode == SixtyFourBitMode) {
m5reg.defAddr = 3;
m5reg.altAddr = 2;
} else if (csAttr.defaultSize) {
m5reg.defAddr = 2;
m5reg.altAddr = 1;
} else {
m5reg.defAddr = 1;
m5reg.altAddr = 2;
}
// Compute the stack size
if (m5reg.submode == SixtyFourBitMode) {
m5reg.stack = 3;
} else if (ssAttr.defaultSize) {
m5reg.stack = 2;
} else {
m5reg.stack = 1;
}
regVal[MISCREG_M5_REG] = m5reg;
if (tc)
tc->getDecoderPtr()->setM5Reg(m5reg);
}
void
ISA::clear()
{
// Blank everything. 0 might not be an appropriate value for some things,
// but it is for most.
memset(regVal, 0, NumMiscRegs * sizeof(MiscReg));
regVal[MISCREG_DR6] = (mask(8) << 4) | (mask(16) << 16);
regVal[MISCREG_DR7] = 1 << 10;
}
ISA::ISA(Params *p)
: SimObject(p)
{
clear();
}
const X86ISAParams *
ISA::params() const
{
return dynamic_cast<const Params *>(_params);
}
MiscReg
ISA::readMiscRegNoEffect(int miscReg) const
{
// Make sure we're not dealing with an illegal control register.
// Instructions should filter out these indexes, and nothing else should
// attempt to read them directly.
assert(miscReg >= MISCREG_CR0 &&
miscReg < NUM_MISCREGS &&
miscReg != MISCREG_CR1 &&
!(miscReg > MISCREG_CR4 &&
miscReg < MISCREG_CR8) &&
!(miscReg > MISCREG_CR8 &&
miscReg <= MISCREG_CR15));
return regVal[miscReg];
}
MiscReg
ISA::readMiscReg(int miscReg, ThreadContext * tc)
{
if (miscReg == MISCREG_TSC) {
return regVal[MISCREG_TSC] + tc->getCpuPtr()->curCycle();
}
if (miscReg == MISCREG_FSW) {
MiscReg fsw = regVal[MISCREG_FSW];
MiscReg top = regVal[MISCREG_X87_TOP];
return (fsw & (~(7ULL << 11))) + (top << 11);
}
return readMiscRegNoEffect(miscReg);
}
void
ISA::setMiscRegNoEffect(int miscReg, MiscReg val)
{
// Make sure we're not dealing with an illegal control register.
// Instructions should filter out these indexes, and nothing else should
// attempt to write to them directly.
assert(miscReg >= MISCREG_CR0 &&
miscReg < NUM_MISCREGS &&
miscReg != MISCREG_CR1 &&
!(miscReg > MISCREG_CR4 &&
miscReg < MISCREG_CR8) &&
!(miscReg > MISCREG_CR8 &&
miscReg <= MISCREG_CR15));
HandyM5Reg m5Reg = readMiscRegNoEffect(MISCREG_M5_REG);
switch (miscReg) {
case MISCREG_FSW:
val &= (1ULL << 16) - 1;
regVal[miscReg] = val;
miscReg = MISCREG_X87_TOP;
val <<= 11;
case MISCREG_X87_TOP:
val &= (1ULL << 3) - 1;
break;
case MISCREG_FTW:
val &= (1ULL << 8) - 1;
break;
case MISCREG_FCW:
case MISCREG_FOP:
val &= (1ULL << 16) - 1;
break;
case MISCREG_MXCSR:
val &= (1ULL << 32) - 1;
break;
case MISCREG_FISEG:
case MISCREG_FOSEG:
if (m5Reg.submode != SixtyFourBitMode)
val &= (1ULL << 16) - 1;
break;
case MISCREG_FIOFF:
case MISCREG_FOOFF:
if (m5Reg.submode != SixtyFourBitMode)
val &= (1ULL << 32) - 1;
break;
default:
break;
}
regVal[miscReg] = val;
}
void
ISA::setMiscReg(int miscReg, MiscReg val, ThreadContext * tc)
{
MiscReg newVal = val;
switch(miscReg)
{
case MISCREG_CR0:
{
CR0 toggled = regVal[miscReg] ^ val;
CR0 newCR0 = val;
Efer efer = regVal[MISCREG_EFER];
if (toggled.pg && efer.lme) {
if (newCR0.pg) {
//Turning on long mode
efer.lma = 1;
regVal[MISCREG_EFER] = efer;
} else {
//Turning off long mode
efer.lma = 0;
regVal[MISCREG_EFER] = efer;
}
}
if (toggled.pg) {
tc->getITBPtr()->flushAll();
tc->getDTBPtr()->flushAll();
}
//This must always be 1.
newCR0.et = 1;
newVal = newCR0;
updateHandyM5Reg(regVal[MISCREG_EFER],
newCR0,
regVal[MISCREG_CS_ATTR],
regVal[MISCREG_SS_ATTR],
regVal[MISCREG_RFLAGS],
tc);
}
break;
case MISCREG_CR2:
break;
case MISCREG_CR3:
tc->getITBPtr()->flushNonGlobal();
tc->getDTBPtr()->flushNonGlobal();
break;
case MISCREG_CR4:
{
CR4 toggled = regVal[miscReg] ^ val;
if (toggled.pae || toggled.pse || toggled.pge) {
tc->getITBPtr()->flushAll();
tc->getDTBPtr()->flushAll();
}
}
break;
case MISCREG_CR8:
break;
case MISCREG_CS_ATTR:
{
SegAttr toggled = regVal[miscReg] ^ val;
SegAttr newCSAttr = val;
if (toggled.longMode) {
if (newCSAttr.longMode) {
regVal[MISCREG_ES_EFF_BASE] = 0;
regVal[MISCREG_CS_EFF_BASE] = 0;
regVal[MISCREG_SS_EFF_BASE] = 0;
regVal[MISCREG_DS_EFF_BASE] = 0;
} else {
regVal[MISCREG_ES_EFF_BASE] = regVal[MISCREG_ES_BASE];
regVal[MISCREG_CS_EFF_BASE] = regVal[MISCREG_CS_BASE];
regVal[MISCREG_SS_EFF_BASE] = regVal[MISCREG_SS_BASE];
regVal[MISCREG_DS_EFF_BASE] = regVal[MISCREG_DS_BASE];
}
}
updateHandyM5Reg(regVal[MISCREG_EFER],
regVal[MISCREG_CR0],
newCSAttr,
regVal[MISCREG_SS_ATTR],
regVal[MISCREG_RFLAGS],
tc);
}
break;
case MISCREG_SS_ATTR:
updateHandyM5Reg(regVal[MISCREG_EFER],
regVal[MISCREG_CR0],
regVal[MISCREG_CS_ATTR],
val,
regVal[MISCREG_RFLAGS],
tc);
break;
// These segments always actually use their bases, or in other words
// their effective bases must stay equal to their actual bases.
case MISCREG_FS_BASE:
case MISCREG_GS_BASE:
case MISCREG_HS_BASE:
case MISCREG_TSL_BASE:
case MISCREG_TSG_BASE:
case MISCREG_TR_BASE:
case MISCREG_IDTR_BASE:
regVal[MISCREG_SEG_EFF_BASE(miscReg - MISCREG_SEG_BASE_BASE)] = val;
break;
// These segments ignore their bases in 64 bit mode.
// their effective bases must stay equal to their actual bases.
case MISCREG_ES_BASE:
case MISCREG_CS_BASE:
case MISCREG_SS_BASE:
case MISCREG_DS_BASE:
{
Efer efer = regVal[MISCREG_EFER];
SegAttr csAttr = regVal[MISCREG_CS_ATTR];
if (!efer.lma || !csAttr.longMode) // Check for non 64 bit mode.
regVal[MISCREG_SEG_EFF_BASE(miscReg -
MISCREG_SEG_BASE_BASE)] = val;
}
break;
case MISCREG_TSC:
regVal[MISCREG_TSC] = val - tc->getCpuPtr()->curCycle();
return;
case MISCREG_DR0:
case MISCREG_DR1:
case MISCREG_DR2:
case MISCREG_DR3:
/* These should eventually set up breakpoints. */
break;
case MISCREG_DR4:
miscReg = MISCREG_DR6;
/* Fall through to have the same effects as DR6. */
case MISCREG_DR6:
{
DR6 dr6 = regVal[MISCREG_DR6];
DR6 newDR6 = val;
dr6.b0 = newDR6.b0;
dr6.b1 = newDR6.b1;
dr6.b2 = newDR6.b2;
dr6.b3 = newDR6.b3;
dr6.bd = newDR6.bd;
dr6.bs = newDR6.bs;
dr6.bt = newDR6.bt;
newVal = dr6;
}
break;
case MISCREG_DR5:
miscReg = MISCREG_DR7;
/* Fall through to have the same effects as DR7. */
case MISCREG_DR7:
{
DR7 dr7 = regVal[MISCREG_DR7];
DR7 newDR7 = val;
dr7.l0 = newDR7.l0;
dr7.g0 = newDR7.g0;
if (dr7.l0 || dr7.g0) {
panic("Debug register breakpoints not implemented.\n");
} else {
/* Disable breakpoint 0. */
}
dr7.l1 = newDR7.l1;
dr7.g1 = newDR7.g1;
if (dr7.l1 || dr7.g1) {
panic("Debug register breakpoints not implemented.\n");
} else {
/* Disable breakpoint 1. */
}
dr7.l2 = newDR7.l2;
dr7.g2 = newDR7.g2;
if (dr7.l2 || dr7.g2) {
panic("Debug register breakpoints not implemented.\n");
} else {
/* Disable breakpoint 2. */
}
dr7.l3 = newDR7.l3;
dr7.g3 = newDR7.g3;
if (dr7.l3 || dr7.g3) {
panic("Debug register breakpoints not implemented.\n");
} else {
/* Disable breakpoint 3. */
}
dr7.gd = newDR7.gd;
dr7.rw0 = newDR7.rw0;
dr7.len0 = newDR7.len0;
dr7.rw1 = newDR7.rw1;
dr7.len1 = newDR7.len1;
dr7.rw2 = newDR7.rw2;
dr7.len2 = newDR7.len2;
dr7.rw3 = newDR7.rw3;
dr7.len3 = newDR7.len3;
}
break;
case MISCREG_M5_REG:
// Writing anything to the m5reg with side effects makes it update
// based on the current values of the relevant registers. The actual
// value written is discarded.
updateHandyM5Reg(regVal[MISCREG_EFER],
regVal[MISCREG_CR0],
regVal[MISCREG_CS_ATTR],
regVal[MISCREG_SS_ATTR],
regVal[MISCREG_RFLAGS],
tc);
return;
default:
break;
}
setMiscRegNoEffect(miscReg, newVal);
}
void
ISA::serialize(std::ostream & os)
{
SERIALIZE_ARRAY(regVal, NumMiscRegs);
}
void
ISA::unserialize(Checkpoint * cp, const std::string & section)
{
UNSERIALIZE_ARRAY(regVal, NumMiscRegs);
updateHandyM5Reg(regVal[MISCREG_EFER],
regVal[MISCREG_CR0],
regVal[MISCREG_CS_ATTR],
regVal[MISCREG_SS_ATTR],
regVal[MISCREG_RFLAGS],
NULL);
}
void
ISA::startup(ThreadContext *tc)
{
tc->getDecoderPtr()->setM5Reg(regVal[MISCREG_M5_REG]);
}
}
X86ISA::ISA *
X86ISAParams::create()
{
return new X86ISA::ISA(this);
}
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