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/*
* Copyright (c) 2010, 2012-2017 ARM Limited
* All rights reserved
*
* The license below extends only to copyright in the software and shall
* not be construed as granting a license to any other intellectual
* property including but not limited to intellectual property relating
* to a hardware implementation of the functionality of the software
* licensed hereunder. You may use the software subject to the license
* terms below provided that you ensure that this notice is replicated
* unmodified and in its entirety in all distributions of the software,
* modified or unmodified, in source code or in binary form.
*
* 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
*/
#ifndef __ARCH_ARM_ISA_HH__
#define __ARCH_ARM_ISA_HH__
#include "arch/arm/isa_device.hh"
#include "arch/arm/miscregs.hh"
#include "arch/arm/registers.hh"
#include "arch/arm/system.hh"
#include "arch/arm/tlb.hh"
#include "arch/arm/types.hh"
#include "arch/generic/traits.hh"
#include "debug/Checkpoint.hh"
#include "enums/VecRegRenameMode.hh"
#include "sim/sim_object.hh"
#include "enums/DecoderFlavour.hh"
struct ArmISAParams;
struct DummyArmISADeviceParams;
class ThreadContext;
class Checkpoint;
class EventManager;
namespace ArmISA
{
class ISA : public SimObject
{
protected:
// Parent system
ArmSystem *system;
// Micro Architecture
const Enums::DecoderFlavour _decoderFlavour;
const Enums::VecRegRenameMode _vecRegRenameMode;
/** Dummy device for to handle non-existing ISA devices */
DummyISADevice dummyDevice;
// PMU belonging to this ISA
BaseISADevice *pmu;
// Generic timer interface belonging to this ISA
std::unique_ptr<BaseISADevice> timer;
// Cached copies of system-level properties
bool highestELIs64;
bool haveSecurity;
bool haveLPAE;
bool haveVirtualization;
bool haveLargeAsid64;
uint8_t physAddrRange64;
/** MiscReg metadata **/
struct MiscRegLUTEntry {
uint32_t lower; // Lower half mapped to this register
uint32_t upper; // Upper half mapped to this register
uint64_t _reset; // value taken on reset (i.e. initialization)
uint64_t _res0; // reserved
uint64_t _res1; // reserved
uint64_t _raz; // read as zero (fixed at 0)
uint64_t _rao; // read as one (fixed at 1)
public:
MiscRegLUTEntry() :
lower(0), upper(0),
_reset(0), _res0(0), _res1(0), _raz(0), _rao(0) {}
uint64_t reset() const { return _reset; }
uint64_t res0() const { return _res0; }
uint64_t res1() const { return _res1; }
uint64_t raz() const { return _raz; }
uint64_t rao() const { return _rao; }
// raz/rao implies writes ignored
uint64_t wi() const { return _raz | _rao; }
};
/** Metadata table accessible via the value of the register */
static std::vector<struct MiscRegLUTEntry> lookUpMiscReg;
class MiscRegLUTEntryInitializer {
struct MiscRegLUTEntry &entry;
std::bitset<NUM_MISCREG_INFOS> &info;
typedef const MiscRegLUTEntryInitializer& chain;
public:
chain mapsTo(uint32_t l, uint32_t u = 0) const {
entry.lower = l;
entry.upper = u;
return *this;
}
chain res0(uint64_t mask) const {
entry._res0 = mask;
return *this;
}
chain res1(uint64_t mask) const {
entry._res1 = mask;
return *this;
}
chain raz(uint64_t mask) const {
entry._raz = mask;
return *this;
}
chain rao(uint64_t mask) const {
entry._rao = mask;
return *this;
}
chain implemented(bool v = true) const {
info[MISCREG_IMPLEMENTED] = v;
return *this;
}
chain unimplemented() const {
return implemented(false);
}
chain unverifiable(bool v = true) const {
info[MISCREG_UNVERIFIABLE] = v;
return *this;
}
chain warnNotFail(bool v = true) const {
info[MISCREG_WARN_NOT_FAIL] = v;
return *this;
}
chain mutex(bool v = true) const {
info[MISCREG_MUTEX] = v;
return *this;
}
chain banked(bool v = true) const {
info[MISCREG_BANKED] = v;
return *this;
}
chain bankedChild(bool v = true) const {
info[MISCREG_BANKED_CHILD] = v;
return *this;
}
chain userNonSecureRead(bool v = true) const {
info[MISCREG_USR_NS_RD] = v;
return *this;
}
chain userNonSecureWrite(bool v = true) const {
info[MISCREG_USR_NS_WR] = v;
return *this;
}
chain userSecureRead(bool v = true) const {
info[MISCREG_USR_S_RD] = v;
return *this;
}
chain userSecureWrite(bool v = true) const {
info[MISCREG_USR_S_WR] = v;
return *this;
}
chain user(bool v = true) const {
userNonSecureRead(v);
userNonSecureWrite(v);
userSecureRead(v);
userSecureWrite(v);
return *this;
}
chain privNonSecureRead(bool v = true) const {
info[MISCREG_PRI_NS_RD] = v;
return *this;
}
chain privNonSecureWrite(bool v = true) const {
info[MISCREG_PRI_NS_WR] = v;
return *this;
}
chain privSecureRead(bool v = true) const {
info[MISCREG_PRI_S_RD] = v;
return *this;
}
chain privSecureWrite(bool v = true) const {
info[MISCREG_PRI_S_WR] = v;
return *this;
}
chain privSecure(bool v = true) const {
privSecureRead(v);
privSecureWrite(v);
return *this;
}
chain hypRead(bool v = true) const {
info[MISCREG_HYP_RD] = v;
return *this;
}
chain hypWrite(bool v = true) const {
info[MISCREG_HYP_WR] = v;
return *this;
}
chain hyp(bool v = true) const {
hypRead(v);
hypWrite(v);
return *this;
}
chain monSecureRead(bool v = true) const {
info[MISCREG_MON_NS0_RD] = v;
return *this;
}
chain monSecureWrite(bool v = true) const {
info[MISCREG_MON_NS0_WR] = v;
return *this;
}
chain monNonSecureRead(bool v = true) const {
info[MISCREG_MON_NS1_RD] = v;
return *this;
}
chain monNonSecureWrite(bool v = true) const {
info[MISCREG_MON_NS1_WR] = v;
return *this;
}
chain mon(bool v = true) const {
monSecureRead(v);
monSecureWrite(v);
monNonSecureRead(v);
monNonSecureWrite(v);
return *this;
}
chain monSecure(bool v = true) const {
monSecureRead(v);
monSecureWrite(v);
return *this;
}
chain monNonSecure(bool v = true) const {
monNonSecureRead(v);
monNonSecureWrite(v);
return *this;
}
chain allPrivileges(bool v = true) const {
userNonSecureRead(v);
userNonSecureWrite(v);
userSecureRead(v);
userSecureWrite(v);
privNonSecureRead(v);
privNonSecureWrite(v);
privSecureRead(v);
privSecureWrite(v);
hypRead(v);
hypWrite(v);
monSecureRead(v);
monSecureWrite(v);
monNonSecureRead(v);
monNonSecureWrite(v);
return *this;
}
chain nonSecure(bool v = true) const {
userNonSecureRead(v);
userNonSecureWrite(v);
privNonSecureRead(v);
privNonSecureWrite(v);
hypRead(v);
hypWrite(v);
monNonSecureRead(v);
monNonSecureWrite(v);
return *this;
}
chain secure(bool v = true) const {
userSecureRead(v);
userSecureWrite(v);
privSecureRead(v);
privSecureWrite(v);
monSecureRead(v);
monSecureWrite(v);
return *this;
}
chain reads(bool v) const {
userNonSecureRead(v);
userSecureRead(v);
privNonSecureRead(v);
privSecureRead(v);
hypRead(v);
monSecureRead(v);
monNonSecureRead(v);
return *this;
}
chain writes(bool v) const {
userNonSecureWrite(v);
userSecureWrite(v);
privNonSecureWrite(v);
privSecureWrite(v);
hypWrite(v);
monSecureWrite(v);
monNonSecureWrite(v);
return *this;
}
chain exceptUserMode() const {
user(0);
return *this;
}
MiscRegLUTEntryInitializer(struct MiscRegLUTEntry &e,
std::bitset<NUM_MISCREG_INFOS> &i)
: entry(e),
info(i)
{
// force unimplemented registers to be thusly declared
implemented(1);
}
};
const MiscRegLUTEntryInitializer InitReg(uint32_t reg) {
return MiscRegLUTEntryInitializer(lookUpMiscReg[reg],
miscRegInfo[reg]);
}
void initializeMiscRegMetadata();
MiscReg miscRegs[NumMiscRegs];
const IntRegIndex *intRegMap;
void
updateRegMap(CPSR cpsr)
{
if (cpsr.width == 0) {
intRegMap = IntReg64Map;
} else {
switch (cpsr.mode) {
case MODE_USER:
case MODE_SYSTEM:
intRegMap = IntRegUsrMap;
break;
case MODE_FIQ:
intRegMap = IntRegFiqMap;
break;
case MODE_IRQ:
intRegMap = IntRegIrqMap;
break;
case MODE_SVC:
intRegMap = IntRegSvcMap;
break;
case MODE_MON:
intRegMap = IntRegMonMap;
break;
case MODE_ABORT:
intRegMap = IntRegAbtMap;
break;
case MODE_HYP:
intRegMap = IntRegHypMap;
break;
case MODE_UNDEFINED:
intRegMap = IntRegUndMap;
break;
default:
panic("Unrecognized mode setting in CPSR.\n");
}
}
}
BaseISADevice &getGenericTimer(ThreadContext *tc);
private:
inline void assert32(ThreadContext *tc) {
CPSR cpsr M5_VAR_USED = readMiscReg(MISCREG_CPSR, tc);
assert(cpsr.width);
}
inline void assert64(ThreadContext *tc) {
CPSR cpsr M5_VAR_USED = readMiscReg(MISCREG_CPSR, tc);
assert(!cpsr.width);
}
void tlbiVA(ThreadContext *tc, MiscReg newVal, uint16_t asid,
bool secure_lookup, uint8_t target_el);
void tlbiALL(ThreadContext *tc, bool secure_lookup, uint8_t target_el);
void tlbiALLN(ThreadContext *tc, bool hyp, uint8_t target_el);
void tlbiMVA(ThreadContext *tc, MiscReg newVal, bool secure_lookup,
bool hyp, uint8_t target_el);
public:
void clear();
void clear64(const ArmISAParams *p);
MiscReg readMiscRegNoEffect(int misc_reg) const;
MiscReg readMiscReg(int misc_reg, ThreadContext *tc);
void setMiscRegNoEffect(int misc_reg, const MiscReg &val);
void setMiscReg(int misc_reg, const MiscReg &val, ThreadContext *tc);
RegId
flattenRegId(const RegId& regId) const
{
switch (regId.classValue()) {
case IntRegClass:
return RegId(IntRegClass, flattenIntIndex(regId.index()));
case FloatRegClass:
return RegId(FloatRegClass, flattenFloatIndex(regId.index()));
case VecRegClass:
return RegId(VecRegClass, flattenVecIndex(regId.index()));
case VecElemClass:
return RegId(VecElemClass, flattenVecElemIndex(regId.index()));
case CCRegClass:
return RegId(CCRegClass, flattenCCIndex(regId.index()));
case MiscRegClass:
return RegId(MiscRegClass, flattenMiscIndex(regId.index()));
}
return RegId();
}
int
flattenIntIndex(int reg) const
{
assert(reg >= 0);
if (reg < NUM_ARCH_INTREGS) {
return intRegMap[reg];
} else if (reg < NUM_INTREGS) {
return reg;
} else if (reg == INTREG_SPX) {
CPSR cpsr = miscRegs[MISCREG_CPSR];
ExceptionLevel el = opModeToEL(
(OperatingMode) (uint8_t) cpsr.mode);
if (!cpsr.sp && el != EL0)
return INTREG_SP0;
switch (el) {
case EL3:
return INTREG_SP3;
case EL2:
return INTREG_SP2;
case EL1:
return INTREG_SP1;
case EL0:
return INTREG_SP0;
default:
panic("Invalid exception level");
break;
}
} else {
return flattenIntRegModeIndex(reg);
}
}
int
flattenFloatIndex(int reg) const
{
assert(reg >= 0);
return reg;
}
int
flattenVecIndex(int reg) const
{
assert(reg >= 0);
return reg;
}
int
flattenVecElemIndex(int reg) const
{
assert(reg >= 0);
return reg;
}
int
flattenCCIndex(int reg) const
{
assert(reg >= 0);
return reg;
}
int
flattenMiscIndex(int reg) const
{
assert(reg >= 0);
int flat_idx = reg;
if (reg == MISCREG_SPSR) {
CPSR cpsr = miscRegs[MISCREG_CPSR];
switch (cpsr.mode) {
case MODE_EL0T:
warn("User mode does not have SPSR\n");
flat_idx = MISCREG_SPSR;
break;
case MODE_EL1T:
case MODE_EL1H:
flat_idx = MISCREG_SPSR_EL1;
break;
case MODE_EL2T:
case MODE_EL2H:
flat_idx = MISCREG_SPSR_EL2;
break;
case MODE_EL3T:
case MODE_EL3H:
flat_idx = MISCREG_SPSR_EL3;
break;
case MODE_USER:
warn("User mode does not have SPSR\n");
flat_idx = MISCREG_SPSR;
break;
case MODE_FIQ:
flat_idx = MISCREG_SPSR_FIQ;
break;
case MODE_IRQ:
flat_idx = MISCREG_SPSR_IRQ;
break;
case MODE_SVC:
flat_idx = MISCREG_SPSR_SVC;
break;
case MODE_MON:
flat_idx = MISCREG_SPSR_MON;
break;
case MODE_ABORT:
flat_idx = MISCREG_SPSR_ABT;
break;
case MODE_HYP:
flat_idx = MISCREG_SPSR_HYP;
break;
case MODE_UNDEFINED:
flat_idx = MISCREG_SPSR_UND;
break;
default:
warn("Trying to access SPSR in an invalid mode: %d\n",
cpsr.mode);
flat_idx = MISCREG_SPSR;
break;
}
} else if (miscRegInfo[reg][MISCREG_MUTEX]) {
// Mutually exclusive CP15 register
switch (reg) {
case MISCREG_PRRR_MAIR0:
case MISCREG_PRRR_MAIR0_NS:
case MISCREG_PRRR_MAIR0_S:
{
TTBCR ttbcr = readMiscRegNoEffect(MISCREG_TTBCR);
// If the muxed reg has been flattened, work out the
// offset and apply it to the unmuxed reg
int idxOffset = reg - MISCREG_PRRR_MAIR0;
if (ttbcr.eae)
flat_idx = flattenMiscIndex(MISCREG_MAIR0 +
idxOffset);
else
flat_idx = flattenMiscIndex(MISCREG_PRRR +
idxOffset);
}
break;
case MISCREG_NMRR_MAIR1:
case MISCREG_NMRR_MAIR1_NS:
case MISCREG_NMRR_MAIR1_S:
{
TTBCR ttbcr = readMiscRegNoEffect(MISCREG_TTBCR);
// If the muxed reg has been flattened, work out the
// offset and apply it to the unmuxed reg
int idxOffset = reg - MISCREG_NMRR_MAIR1;
if (ttbcr.eae)
flat_idx = flattenMiscIndex(MISCREG_MAIR1 +
idxOffset);
else
flat_idx = flattenMiscIndex(MISCREG_NMRR +
idxOffset);
}
break;
case MISCREG_PMXEVTYPER_PMCCFILTR:
{
PMSELR pmselr = miscRegs[MISCREG_PMSELR];
if (pmselr.sel == 31)
flat_idx = flattenMiscIndex(MISCREG_PMCCFILTR);
else
flat_idx = flattenMiscIndex(MISCREG_PMXEVTYPER);
}
break;
default:
panic("Unrecognized misc. register.\n");
break;
}
} else {
if (miscRegInfo[reg][MISCREG_BANKED]) {
bool secureReg = haveSecurity && !highestELIs64 &&
inSecureState(miscRegs[MISCREG_SCR],
miscRegs[MISCREG_CPSR]);
flat_idx += secureReg ? 2 : 1;
}
}
return flat_idx;
}
std::pair<int,int> getMiscIndices(int misc_reg) const
{
// Note: indexes of AArch64 registers are left unchanged
int flat_idx = flattenMiscIndex(misc_reg);
if (lookUpMiscReg[flat_idx].lower == 0) {
return std::make_pair(flat_idx, 0);
}
// do additional S/NS flattenings if mapped to NS while in S
bool S = haveSecurity && !highestELIs64 &&
inSecureState(miscRegs[MISCREG_SCR],
miscRegs[MISCREG_CPSR]);
int lower = lookUpMiscReg[flat_idx].lower;
int upper = lookUpMiscReg[flat_idx].upper;
// upper == 0, which is CPSR, is not MISCREG_BANKED_CHILD (no-op)
lower += S && miscRegInfo[lower][MISCREG_BANKED_CHILD];
upper += S && miscRegInfo[upper][MISCREG_BANKED_CHILD];
return std::make_pair(lower, upper);
}
void serialize(CheckpointOut &cp) const
{
DPRINTF(Checkpoint, "Serializing Arm Misc Registers\n");
SERIALIZE_ARRAY(miscRegs, NumMiscRegs);
SERIALIZE_SCALAR(highestELIs64);
SERIALIZE_SCALAR(haveSecurity);
SERIALIZE_SCALAR(haveLPAE);
SERIALIZE_SCALAR(haveVirtualization);
SERIALIZE_SCALAR(haveLargeAsid64);
SERIALIZE_SCALAR(physAddrRange64);
}
void unserialize(CheckpointIn &cp)
{
DPRINTF(Checkpoint, "Unserializing Arm Misc Registers\n");
UNSERIALIZE_ARRAY(miscRegs, NumMiscRegs);
CPSR tmp_cpsr = miscRegs[MISCREG_CPSR];
updateRegMap(tmp_cpsr);
UNSERIALIZE_SCALAR(highestELIs64);
UNSERIALIZE_SCALAR(haveSecurity);
UNSERIALIZE_SCALAR(haveLPAE);
UNSERIALIZE_SCALAR(haveVirtualization);
UNSERIALIZE_SCALAR(haveLargeAsid64);
UNSERIALIZE_SCALAR(physAddrRange64);
}
void startup(ThreadContext *tc) {}
Enums::DecoderFlavour decoderFlavour() const { return _decoderFlavour; }
Enums::VecRegRenameMode
vecRegRenameMode() const
{
return _vecRegRenameMode;
}
/// Explicitly import the otherwise hidden startup
using SimObject::startup;
typedef ArmISAParams Params;
const Params *params() const;
ISA(Params *p);
};
}
template<>
struct initRenameMode<ArmISA::ISA>
{
static Enums::VecRegRenameMode mode(const ArmISA::ISA* isa)
{
return isa->vecRegRenameMode();
}
static bool equals(const ArmISA::ISA* isa1, const ArmISA::ISA* isa2)
{
return mode(isa1) == mode(isa2);
}
};
#endif
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