// -*- mode:c++ -*-
-// Copyright (c) 2010 ARM Limited
+// Copyright (c) 2010-2013 ARM Limited
// All rights reserved
//
// The license below extends only to copyright in the software and shall
let {{
svcCode = '''
-#if FULL_SYSTEM
- fault = new SupervisorCall;
-#else
- fault = new SupervisorCall(machInst);
-#endif
+ fault = new SupervisorCall(machInst, imm);
'''
- svcIop = InstObjParams("svc", "Svc", "PredOp",
+ svcIop = InstObjParams("svc", "Svc", "ImmOp",
{ "code": svcCode,
- "predicate_test": predicateTest }, ["IsSyscall"])
- header_output = BasicDeclare.subst(svcIop)
- decoder_output = BasicConstructor.subst(svcIop)
+ "predicate_test": predicateTest },
+ ["IsSyscall", "IsNonSpeculative", "IsSerializeAfter"])
+ header_output = ImmOpDeclare.subst(svcIop)
+ decoder_output = ImmOpConstructor.subst(svcIop)
exec_output = PredOpExecute.subst(svcIop)
+ smcCode = '''
+ HCR hcr = Hcr;
+ CPSR cpsr = Cpsr;
+ SCR scr = Scr;
+
+ if ((cpsr.mode != MODE_USER) && FullSystem) {
+ if (ArmSystem::haveVirtualization(xc->tcBase()) &&
+ !inSecureState(scr, cpsr) && (cpsr.mode != MODE_HYP) && hcr.tsc) {
+ fault = new HypervisorTrap(machInst, 0, EC_SMC_TO_HYP);
+ } else {
+ if (scr.scd) {
+ fault = disabledFault();
+ } else {
+ fault = new SecureMonitorCall(machInst);
+ }
+ }
+ } else {
+ fault = disabledFault();
+ }
+ '''
+
+ smcIop = InstObjParams("smc", "Smc", "PredOp",
+ { "code": smcCode,
+ "predicate_test": predicateTest },
+ ["IsNonSpeculative", "IsSerializeAfter"])
+ header_output += BasicDeclare.subst(smcIop)
+ decoder_output += BasicConstructor.subst(smcIop)
+ exec_output += PredOpExecute.subst(smcIop)
+
+ hvcCode = '''
+ CPSR cpsr = Cpsr;
+ SCR scr = Scr;
+
+ // Filter out the various cases where this instruction isn't defined
+ if (!FullSystem || !ArmSystem::haveVirtualization(xc->tcBase()) ||
+ (cpsr.mode == MODE_USER) ||
+ (ArmSystem::haveSecurity(xc->tcBase()) && (!scr.ns || !scr.hce))) {
+ fault = disabledFault();
+ } else {
+ fault = new HypervisorCall(machInst, imm);
+ }
+ '''
+
+ hvcIop = InstObjParams("hvc", "Hvc", "ImmOp",
+ { "code": hvcCode,
+ "predicate_test": predicateTest },
+ ["IsNonSpeculative", "IsSerializeAfter"])
+ header_output += ImmOpDeclare.subst(hvcIop)
+ decoder_output += ImmOpConstructor.subst(hvcIop)
+ exec_output += PredOpExecute.subst(hvcIop)
+
+ eretCode = '''
+ SCTLR sctlr = Sctlr;
+ CPSR old_cpsr = Cpsr;
+ old_cpsr.nz = CondCodesNZ;
+ old_cpsr.c = CondCodesC;
+ old_cpsr.v = CondCodesV;
+ old_cpsr.ge = CondCodesGE;
+
+ CPSR new_cpsr = cpsrWriteByInstr(old_cpsr, Spsr, Scr, Nsacr, 0xF,
+ true, sctlr.nmfi, xc->tcBase());
+ Cpsr = ~CondCodesMask & new_cpsr;
+ CondCodesNZ = new_cpsr.nz;
+ CondCodesC = new_cpsr.c;
+ CondCodesV = new_cpsr.v;
+ CondCodesGE = new_cpsr.ge;
+
+ NextThumb = (new_cpsr).t;
+ NextJazelle = (new_cpsr).j;
+ NextItState = (((new_cpsr).it2 << 2) & 0xFC)
+ | ((new_cpsr).it1 & 0x3);
+
+ NPC = (old_cpsr.mode == MODE_HYP) ? ElrHyp : LR;
+ '''
+
+ eretIop = InstObjParams("eret", "Eret", "PredOp",
+ { "code": eretCode,
+ "predicate_test": predicateTest },
+ ["IsNonSpeculative", "IsSerializeAfter"])
+ header_output += BasicDeclare.subst(eretIop)
+ decoder_output += BasicConstructor.subst(eretIop)
+ exec_output += PredOpExecute.subst(eretIop)
+
+
+
}};
let {{
header_output = decoder_output = exec_output = ""
- mrsCpsrCode = "Dest = (Cpsr | CondCodes) & 0xF8FF03DF"
+ mrsCpsrCode = '''
+ CPSR cpsr = Cpsr;
+ cpsr.nz = CondCodesNZ;
+ cpsr.c = CondCodesC;
+ cpsr.v = CondCodesV;
+ cpsr.ge = CondCodesGE;
+ Dest = cpsr & 0xF8FF03DF
+ '''
+
mrsCpsrIop = InstObjParams("mrs", "MrsCpsr", "MrsOp",
{ "code": mrsCpsrCode,
- "predicate_test": predicateTest }, [])
+ "predicate_test": condPredicateTest },
+ ["IsSerializeBefore"])
header_output += MrsDeclare.subst(mrsCpsrIop)
decoder_output += MrsConstructor.subst(mrsCpsrIop)
exec_output += PredOpExecute.subst(mrsCpsrIop)
mrsSpsrCode = "Dest = Spsr"
mrsSpsrIop = InstObjParams("mrs", "MrsSpsr", "MrsOp",
{ "code": mrsSpsrCode,
- "predicate_test": predicateTest }, [])
+ "predicate_test": predicateTest },
+ ["IsSerializeBefore"])
header_output += MrsDeclare.subst(mrsSpsrIop)
decoder_output += MrsConstructor.subst(mrsSpsrIop)
exec_output += PredOpExecute.subst(mrsSpsrIop)
+ mrsBankedRegCode = '''
+ bool isIntReg;
+ int regIdx;
+
+ if (decodeMrsMsrBankedReg(byteMask, r, isIntReg, regIdx, Cpsr, Scr, Nsacr)) {
+ if (isIntReg) {
+ Dest = DecodedBankedIntReg;
+ } else {
+ Dest = xc->readMiscReg(regIdx);
+ }
+ } else {
+ return new UndefinedInstruction(machInst, false, mnemonic);
+ }
+ '''
+ mrsBankedRegIop = InstObjParams("mrs", "MrsBankedReg", "MrsOp",
+ { "code": mrsBankedRegCode,
+ "predicate_test": predicateTest },
+ ["IsSerializeBefore"])
+ header_output += MrsBankedRegDeclare.subst(mrsBankedRegIop)
+ decoder_output += MrsBankedRegConstructor.subst(mrsBankedRegIop)
+ exec_output += PredOpExecute.subst(mrsBankedRegIop)
+
+ msrBankedRegCode = '''
+ bool isIntReg;
+ int regIdx;
+
+ if (decodeMrsMsrBankedReg(byteMask, r, isIntReg, regIdx, Cpsr, Scr, Nsacr)) {
+ if (isIntReg) {
+ // This is a bit nasty, you would have thought that
+ // DecodedBankedIntReg wouldn't be written to unless the
+ // conditions on the IF statements above are met, however if
+ // you look at the generated C code you'll find that they are.
+ // However this is safe as DecodedBankedIntReg (which is used
+ // in operands.isa to get the index of DecodedBankedIntReg)
+ // will return INTREG_DUMMY if its not a valid integer
+ // register, so redirecting the write to somewhere we don't
+ // care about.
+ DecodedBankedIntReg = Op1;
+ } else {
+ xc->setMiscReg(regIdx, Op1);
+ }
+ } else {
+ return new UndefinedInstruction(machInst, false, mnemonic);
+ }
+ '''
+ msrBankedRegIop = InstObjParams("msr", "MsrBankedReg", "MsrRegOp",
+ { "code": msrBankedRegCode,
+ "predicate_test": predicateTest },
+ ["IsSerializeAfter"])
+ header_output += MsrBankedRegDeclare.subst(msrBankedRegIop)
+ decoder_output += MsrBankedRegConstructor.subst(msrBankedRegIop)
+ exec_output += PredOpExecute.subst(msrBankedRegIop)
+
msrCpsrRegCode = '''
- uint32_t newCpsr =
- cpsrWriteByInstr(Cpsr | CondCodes, Op1, byteMask, false);
- Cpsr = ~CondCodesMask & newCpsr;
- CondCodes = CondCodesMask & newCpsr;
+ SCTLR sctlr = Sctlr;
+ CPSR old_cpsr = Cpsr;
+ old_cpsr.nz = CondCodesNZ;
+ old_cpsr.c = CondCodesC;
+ old_cpsr.v = CondCodesV;
+ old_cpsr.ge = CondCodesGE;
+
+ CPSR new_cpsr =
+ cpsrWriteByInstr(old_cpsr, Op1, Scr, Nsacr, byteMask, false,
+ sctlr.nmfi, xc->tcBase());
+ Cpsr = ~CondCodesMask & new_cpsr;
+ CondCodesNZ = new_cpsr.nz;
+ CondCodesC = new_cpsr.c;
+ CondCodesV = new_cpsr.v;
+ CondCodesGE = new_cpsr.ge;
'''
msrCpsrRegIop = InstObjParams("msr", "MsrCpsrReg", "MsrRegOp",
{ "code": msrCpsrRegCode,
- "predicate_test": predicateTest }, [])
+ "predicate_test": condPredicateTest },
+ ["IsSerializeAfter","IsNonSpeculative"])
header_output += MsrRegDeclare.subst(msrCpsrRegIop)
decoder_output += MsrRegConstructor.subst(msrCpsrRegIop)
exec_output += PredOpExecute.subst(msrCpsrRegIop)
msrSpsrRegCode = "Spsr = spsrWriteByInstr(Spsr, Op1, byteMask, false);"
msrSpsrRegIop = InstObjParams("msr", "MsrSpsrReg", "MsrRegOp",
{ "code": msrSpsrRegCode,
- "predicate_test": predicateTest }, [])
+ "predicate_test": predicateTest },
+ ["IsSerializeAfter","IsNonSpeculative"])
header_output += MsrRegDeclare.subst(msrSpsrRegIop)
decoder_output += MsrRegConstructor.subst(msrSpsrRegIop)
exec_output += PredOpExecute.subst(msrSpsrRegIop)
msrCpsrImmCode = '''
- uint32_t newCpsr =
- cpsrWriteByInstr(Cpsr | CondCodes, imm, byteMask, false);
- Cpsr = ~CondCodesMask & newCpsr;
- CondCodes = CondCodesMask & newCpsr;
+ SCTLR sctlr = Sctlr;
+ CPSR old_cpsr = Cpsr;
+ old_cpsr.nz = CondCodesNZ;
+ old_cpsr.c = CondCodesC;
+ old_cpsr.v = CondCodesV;
+ old_cpsr.ge = CondCodesGE;
+ CPSR new_cpsr =
+ cpsrWriteByInstr(old_cpsr, imm, Scr, Nsacr, byteMask, false,
+ sctlr.nmfi, xc->tcBase());
+ Cpsr = ~CondCodesMask & new_cpsr;
+ CondCodesNZ = new_cpsr.nz;
+ CondCodesC = new_cpsr.c;
+ CondCodesV = new_cpsr.v;
+ CondCodesGE = new_cpsr.ge;
'''
msrCpsrImmIop = InstObjParams("msr", "MsrCpsrImm", "MsrImmOp",
{ "code": msrCpsrImmCode,
- "predicate_test": predicateTest }, [])
+ "predicate_test": condPredicateTest },
+ ["IsSerializeAfter","IsNonSpeculative"])
header_output += MsrImmDeclare.subst(msrCpsrImmIop)
decoder_output += MsrImmConstructor.subst(msrCpsrImmIop)
exec_output += PredOpExecute.subst(msrCpsrImmIop)
msrSpsrImmCode = "Spsr = spsrWriteByInstr(Spsr, imm, byteMask, false);"
msrSpsrImmIop = InstObjParams("msr", "MsrSpsrImm", "MsrImmOp",
{ "code": msrSpsrImmCode,
- "predicate_test": predicateTest }, [])
+ "predicate_test": predicateTest },
+ ["IsSerializeAfter","IsNonSpeculative"])
header_output += MsrImmDeclare.subst(msrSpsrImmIop)
decoder_output += MsrImmConstructor.subst(msrSpsrImmIop)
exec_output += PredOpExecute.subst(msrSpsrImmIop)
uint32_t val = Op1;
Dest = swap_byte(val);
'''
- revIop = InstObjParams("rev", "Rev", "RevOp",
+ revIop = InstObjParams("rev", "Rev", "RegRegOp",
{ "code": revCode,
"predicate_test": predicateTest }, [])
- header_output += RevOpDeclare.subst(revIop)
- decoder_output += RevOpConstructor.subst(revIop)
+ header_output += RegRegOpDeclare.subst(revIop)
+ decoder_output += RegRegOpConstructor.subst(revIop)
exec_output += PredOpExecute.subst(revIop)
rev16Code = '''
(bits(val, 31, 24) << 16) |
(bits(val, 23, 16) << 24);
'''
- rev16Iop = InstObjParams("rev16", "Rev16", "RevOp",
+ rev16Iop = InstObjParams("rev16", "Rev16", "RegRegOp",
{ "code": rev16Code,
"predicate_test": predicateTest }, [])
- header_output += RevOpDeclare.subst(rev16Iop)
- decoder_output += RevOpConstructor.subst(rev16Iop)
+ header_output += RegRegOpDeclare.subst(rev16Iop)
+ decoder_output += RegRegOpConstructor.subst(rev16Iop)
exec_output += PredOpExecute.subst(rev16Iop)
revshCode = '''
uint16_t val = Op1;
Dest = sext<16>(swap_byte(val));
'''
- revshIop = InstObjParams("revsh", "Revsh", "RevOp",
+ revshIop = InstObjParams("revsh", "Revsh", "RegRegOp",
{ "code": revshCode,
"predicate_test": predicateTest }, [])
- header_output += RevOpDeclare.subst(revshIop)
- decoder_output += RevOpConstructor.subst(revshIop)
+ header_output += RegRegOpDeclare.subst(revshIop)
+ decoder_output += RegRegOpConstructor.subst(revshIop)
exec_output += PredOpExecute.subst(revshIop)
rbitCode = '''
}
Dest = resTemp;
'''
- rbitIop = InstObjParams("rbit", "Rbit", "RevOp",
+ rbitIop = InstObjParams("rbit", "Rbit", "RegRegOp",
{ "code": rbitCode,
"predicate_test": predicateTest }, [])
- header_output += RevOpDeclare.subst(rbitIop)
- decoder_output += RevOpConstructor.subst(rbitIop)
+ header_output += RegRegOpDeclare.subst(rbitIop)
+ decoder_output += RegRegOpConstructor.subst(rbitIop)
exec_output += PredOpExecute.subst(rbitIop)
+ clzCode = '''
+ Dest = (Op1 == 0) ? 32 : (31 - findMsbSet(Op1));
+ '''
+ clzIop = InstObjParams("clz", "Clz", "RegRegOp",
+ { "code": clzCode,
+ "predicate_test": predicateTest }, [])
+ header_output += RegRegOpDeclare.subst(clzIop)
+ decoder_output += RegRegOpConstructor.subst(clzIop)
+ exec_output += PredOpExecute.subst(clzIop)
+
ssatCode = '''
int32_t operand = shift_rm_imm(Op1, shiftAmt, shiftType, 0);
int32_t res;
if (satInt(res, operand, imm))
- CondCodes = CondCodes | (1 << 27);
- else
- CondCodes = CondCodes;
+ CpsrQ = 1 << 27;
Dest = res;
'''
ssatIop = InstObjParams("ssat", "Ssat", "RegImmRegShiftOp",
{ "code": ssatCode,
- "predicate_test": predicateTest }, [])
+ "predicate_test": pickPredicate(ssatCode) }, [])
header_output += RegImmRegShiftOpDeclare.subst(ssatIop)
decoder_output += RegImmRegShiftOpConstructor.subst(ssatIop)
exec_output += PredOpExecute.subst(ssatIop)
int32_t operand = shift_rm_imm(Op1, shiftAmt, shiftType, 0);
int32_t res;
if (uSatInt(res, operand, imm))
- CondCodes = CondCodes | (1 << 27);
- else
- CondCodes = CondCodes;
+ CpsrQ = 1 << 27;
Dest = res;
'''
usatIop = InstObjParams("usat", "Usat", "RegImmRegShiftOp",
{ "code": usatCode,
- "predicate_test": predicateTest }, [])
+ "predicate_test": pickPredicate(usatCode) }, [])
header_output += RegImmRegShiftOpDeclare.subst(usatIop)
decoder_output += RegImmRegShiftOpConstructor.subst(usatIop)
exec_output += PredOpExecute.subst(usatIop)
ssat16Code = '''
int32_t res;
uint32_t resTemp = 0;
- CondCodes = CondCodes;
int32_t argLow = sext<16>(bits(Op1, 15, 0));
int32_t argHigh = sext<16>(bits(Op1, 31, 16));
if (satInt(res, argLow, imm))
- CondCodes = CondCodes | (1 << 27);
+ CpsrQ = 1 << 27;
replaceBits(resTemp, 15, 0, res);
if (satInt(res, argHigh, imm))
- CondCodes = CondCodes | (1 << 27);
+ CpsrQ = 1 << 27;
replaceBits(resTemp, 31, 16, res);
Dest = resTemp;
'''
ssat16Iop = InstObjParams("ssat16", "Ssat16", "RegImmRegOp",
{ "code": ssat16Code,
- "predicate_test": predicateTest }, [])
+ "predicate_test": pickPredicate(ssat16Code) }, [])
header_output += RegImmRegOpDeclare.subst(ssat16Iop)
decoder_output += RegImmRegOpConstructor.subst(ssat16Iop)
exec_output += PredOpExecute.subst(ssat16Iop)
usat16Code = '''
int32_t res;
uint32_t resTemp = 0;
- CondCodes = CondCodes;
int32_t argLow = sext<16>(bits(Op1, 15, 0));
int32_t argHigh = sext<16>(bits(Op1, 31, 16));
if (uSatInt(res, argLow, imm))
- CondCodes = CondCodes | (1 << 27);
+ CpsrQ = 1 << 27;
replaceBits(resTemp, 15, 0, res);
if (uSatInt(res, argHigh, imm))
- CondCodes = CondCodes | (1 << 27);
+ CpsrQ = 1 << 27;
replaceBits(resTemp, 31, 16, res);
Dest = resTemp;
'''
usat16Iop = InstObjParams("usat16", "Usat16", "RegImmRegOp",
{ "code": usat16Code,
- "predicate_test": predicateTest }, [])
+ "predicate_test": pickPredicate(usat16Code) }, [])
header_output += RegImmRegOpDeclare.subst(usat16Iop)
decoder_output += RegImmRegOpConstructor.subst(usat16Iop)
exec_output += PredOpExecute.subst(usat16Iop)
sxtbIop = InstObjParams("sxtb", "Sxtb", "RegImmRegOp",
{ "code":
- "Dest = sext<8>((uint8_t)(Op1.ud >> imm));",
+ "Dest = sext<8>((uint8_t)(Op1_ud >> imm));",
"predicate_test": predicateTest }, [])
header_output += RegImmRegOpDeclare.subst(sxtbIop)
decoder_output += RegImmRegOpConstructor.subst(sxtbIop)
sxtabIop = InstObjParams("sxtab", "Sxtab", "RegRegRegImmOp",
{ "code":
'''
- Dest = sext<8>((uint8_t)(Op2.ud >> imm)) +
+ Dest = sext<8>((uint8_t)(Op2_ud >> imm)) +
Op1;
''',
"predicate_test": predicateTest }, [])
exec_output += PredOpExecute.subst(sxtahIop)
uxtbIop = InstObjParams("uxtb", "Uxtb", "RegImmRegOp",
- { "code": "Dest = (uint8_t)(Op1.ud >> imm);",
+ { "code": "Dest = (uint8_t)(Op1_ud >> imm);",
"predicate_test": predicateTest }, [])
header_output += RegImmRegOpDeclare.subst(uxtbIop)
decoder_output += RegImmRegOpConstructor.subst(uxtbIop)
uxtabIop = InstObjParams("uxtab", "Uxtab", "RegRegRegImmOp",
{ "code":
- "Dest = (uint8_t)(Op2.ud >> imm) + Op1;",
+ "Dest = (uint8_t)(Op2_ud >> imm) + Op1;",
"predicate_test": predicateTest }, [])
header_output += RegRegRegImmOpDeclare.subst(uxtabIop)
decoder_output += RegRegRegImmOpConstructor.subst(uxtabIop)
int low = i * 8;
int high = low + 7;
replaceBits(resTemp, high, low,
- bits(CondCodes, 16 + i) ?
+ bits(CondCodesGE, i) ?
bits(Op1, high, low) : bits(Op2, high, low));
}
Dest = resTemp;
decoder_output += RegRegRegRegOpConstructor.subst(usada8Iop)
exec_output += PredOpExecute.subst(usada8Iop)
- nopIop = InstObjParams("nop", "NopInst", "ArmStaticInst", "", [])
+ bkptCode = 'return new PrefetchAbort(PC, ArmFault::DebugEvent);\n'
+ bkptIop = InstObjParams("bkpt", "BkptInst", "PredOp", bkptCode)
+ header_output += BasicDeclare.subst(bkptIop)
+ decoder_output += BasicConstructor.subst(bkptIop)
+ exec_output += BasicExecute.subst(bkptIop)
+
+ nopIop = InstObjParams("nop", "NopInst", "ArmStaticInst", "", ['IsNop'])
header_output += BasicDeclare.subst(nopIop)
- decoder_output += BasicConstructor.subst(nopIop)
+ decoder_output += BasicConstructor64.subst(nopIop)
exec_output += BasicExecute.subst(nopIop)
+
+ yieldIop = InstObjParams("yield", "YieldInst", "PredOp", \
+ { "code" : "", "predicate_test" : predicateTest })
+ header_output += BasicDeclare.subst(yieldIop)
+ decoder_output += BasicConstructor.subst(yieldIop)
+ exec_output += PredOpExecute.subst(yieldIop)
+
+ wfeCode = '''
+ HCR hcr = Hcr;
+ CPSR cpsr = Cpsr;
+ SCR scr = Scr64;
+ SCTLR sctlr = Sctlr;
+
+ // WFE Sleeps if SevMailbox==0 and no unmasked interrupts are pending,
+ ThreadContext *tc = xc->tcBase();
+ if (SevMailbox == 1) {
+ SevMailbox = 0;
+ PseudoInst::quiesceSkip(tc);
+ } else if (tc->getCpuPtr()->getInterruptController()->checkInterrupts(tc)) {
+ PseudoInst::quiesceSkip(tc);
+ } else if (cpsr.el == EL0 && !sctlr.ntwe) {
+ PseudoInst::quiesceSkip(tc);
+ fault = new SupervisorTrap(machInst, 0x1E00001, EC_TRAPPED_WFI_WFE);
+ } else if (ArmSystem::haveVirtualization(tc) &&
+ !inSecureState(scr, cpsr) && (cpsr.mode != MODE_HYP) &&
+ hcr.twe) {
+ PseudoInst::quiesceSkip(tc);
+ fault = new HypervisorTrap(machInst, 0x1E00001, EC_TRAPPED_WFI_WFE);
+ } else if (ArmSystem::haveSecurity(tc) && cpsr.el != EL3 && scr.twe) {
+ PseudoInst::quiesceSkip(tc);
+ fault = new SecureMonitorTrap(machInst, 0x1E00001, EC_TRAPPED_WFI_WFE);
+ } else {
+ PseudoInst::quiesce(tc);
+ }
+ '''
+ wfePredFixUpCode = '''
+ // WFE is predicated false, reset SevMailbox to reduce spurious sleeps
+ // and SEV interrupts
+ SevMailbox = 1;
+ '''
+ wfeIop = InstObjParams("wfe", "WfeInst", "PredOp", \
+ { "code" : wfeCode,
+ "pred_fixup" : wfePredFixUpCode,
+ "predicate_test" : predicateTest },
+ ["IsNonSpeculative", "IsQuiesce",
+ "IsSerializeAfter", "IsUnverifiable"])
+ header_output += BasicDeclare.subst(wfeIop)
+ decoder_output += BasicConstructor.subst(wfeIop)
+ exec_output += QuiescePredOpExecuteWithFixup.subst(wfeIop)
+
+ wfiCode = '''
+ HCR hcr = Hcr;
+ CPSR cpsr = Cpsr;
+ SCR scr = Scr64;
+ SCTLR sctlr = Sctlr;
+
+ // WFI doesn't sleep if interrupts are pending (masked or not)
+ ThreadContext *tc = xc->tcBase();
+ if (tc->getCpuPtr()->getInterruptController()->checkWfiWake(hcr, cpsr,
+ scr)) {
+ PseudoInst::quiesceSkip(tc);
+ } else if (cpsr.el == EL0 && !sctlr.ntwi) {
+ PseudoInst::quiesceSkip(tc);
+ fault = new SupervisorTrap(machInst, 0x1E00000, EC_TRAPPED_WFI_WFE);
+ } else if (ArmSystem::haveVirtualization(tc) && hcr.twi &&
+ (cpsr.mode != MODE_HYP) && !inSecureState(scr, cpsr)) {
+ PseudoInst::quiesceSkip(tc);
+ fault = new HypervisorTrap(machInst, 0x1E00000, EC_TRAPPED_WFI_WFE);
+ } else if (ArmSystem::haveSecurity(tc) && cpsr.el != EL3 && scr.twi) {
+ PseudoInst::quiesceSkip(tc);
+ fault = new SecureMonitorTrap(machInst, 0x1E00000, EC_TRAPPED_WFI_WFE);
+ } else {
+ PseudoInst::quiesce(tc);
+ }
+ tc->getCpuPtr()->clearInterrupt(INT_ABT, 0);
+ '''
+ wfiIop = InstObjParams("wfi", "WfiInst", "PredOp", \
+ { "code" : wfiCode, "predicate_test" : predicateTest },
+ ["IsNonSpeculative", "IsQuiesce",
+ "IsSerializeAfter", "IsUnverifiable"])
+ header_output += BasicDeclare.subst(wfiIop)
+ decoder_output += BasicConstructor.subst(wfiIop)
+ exec_output += QuiescePredOpExecute.subst(wfiIop)
+
+ sevCode = '''
+ SevMailbox = 1;
+ System *sys = xc->tcBase()->getSystemPtr();
+ for (int x = 0; x < sys->numContexts(); x++) {
+ ThreadContext *oc = sys->getThreadContext(x);
+ if (oc == xc->tcBase())
+ continue;
+ // Wake CPU with interrupt if they were sleeping
+ if (oc->readMiscReg(MISCREG_SEV_MAILBOX) == 0) {
+ // Post Interrupt and wake cpu if needed
+ oc->getCpuPtr()->postInterrupt(INT_SEV, 0);
+ }
+ }
+ '''
+ sevIop = InstObjParams("sev", "SevInst", "PredOp", \
+ { "code" : sevCode, "predicate_test" : predicateTest },
+ ["IsNonSpeculative", "IsSquashAfter", "IsUnverifiable"])
+ header_output += BasicDeclare.subst(sevIop)
+ decoder_output += BasicConstructor.subst(sevIop)
+ exec_output += PredOpExecute.subst(sevIop)
+
+ sevlCode = '''
+ SevMailbox = 1;
+ '''
+ sevlIop = InstObjParams("sevl", "SevlInst", "PredOp", \
+ { "code" : sevlCode, "predicate_test" : predicateTest },
+ ["IsNonSpeculative", "IsSquashAfter", "IsUnverifiable"])
+ header_output += BasicDeclare.subst(sevlIop)
+ decoder_output += BasicConstructor.subst(sevlIop)
+ exec_output += BasicExecute.subst(sevlIop)
+
+ itIop = InstObjParams("it", "ItInst", "PredOp", \
+ { "code" : ";",
+ "predicate_test" : predicateTest }, [])
+ header_output += BasicDeclare.subst(itIop)
+ decoder_output += BasicConstructor.subst(itIop)
+ exec_output += PredOpExecute.subst(itIop)
+ unknownCode = '''
+ return new UndefinedInstruction(machInst, true);
+ '''
+ unknownIop = InstObjParams("unknown", "Unknown", "UnknownOp", \
+ { "code": unknownCode,
+ "predicate_test": predicateTest })
+ header_output += BasicDeclare.subst(unknownIop)
+ decoder_output += BasicConstructor.subst(unknownIop)
+ exec_output += PredOpExecute.subst(unknownIop)
+
+ ubfxCode = '''
+ Dest = bits(Op1, imm2, imm1);
+ '''
+ ubfxIop = InstObjParams("ubfx", "Ubfx", "RegRegImmImmOp",
+ { "code": ubfxCode,
+ "predicate_test": predicateTest }, [])
+ header_output += RegRegImmImmOpDeclare.subst(ubfxIop)
+ decoder_output += RegRegImmImmOpConstructor.subst(ubfxIop)
+ exec_output += PredOpExecute.subst(ubfxIop)
+
+ sbfxCode = '''
+ int32_t resTemp = bits(Op1, imm2, imm1);
+ Dest = resTemp | -(resTemp & (1 << (imm2 - imm1)));
+ '''
+ sbfxIop = InstObjParams("sbfx", "Sbfx", "RegRegImmImmOp",
+ { "code": sbfxCode,
+ "predicate_test": predicateTest }, [])
+ header_output += RegRegImmImmOpDeclare.subst(sbfxIop)
+ decoder_output += RegRegImmImmOpConstructor.subst(sbfxIop)
+ exec_output += PredOpExecute.subst(sbfxIop)
+
+ bfcCode = '''
+ Dest = Op1 & ~(mask(imm2 - imm1 + 1) << imm1);
+ '''
+ bfcIop = InstObjParams("bfc", "Bfc", "RegRegImmImmOp",
+ { "code": bfcCode,
+ "predicate_test": predicateTest }, [])
+ header_output += RegRegImmImmOpDeclare.subst(bfcIop)
+ decoder_output += RegRegImmImmOpConstructor.subst(bfcIop)
+ exec_output += PredOpExecute.subst(bfcIop)
+
+ bfiCode = '''
+ uint32_t bitMask = (mask(imm2 - imm1 + 1) << imm1);
+ Dest = ((Op1 << imm1) & bitMask) | (Dest & ~bitMask);
+ '''
+ bfiIop = InstObjParams("bfi", "Bfi", "RegRegImmImmOp",
+ { "code": bfiCode,
+ "predicate_test": predicateTest }, [])
+ header_output += RegRegImmImmOpDeclare.subst(bfiIop)
+ decoder_output += RegRegImmImmOpConstructor.subst(bfiIop)
+ exec_output += PredOpExecute.subst(bfiIop)
+
+ mrc14code = '''
+ MiscRegIndex miscReg = (MiscRegIndex) xc->tcBase()->flattenMiscIndex(op1);
+ if (!canReadCoprocReg(miscReg, Scr, Cpsr, xc->tcBase())) {
+ return new UndefinedInstruction(machInst, false, mnemonic);
+ }
+ if (mcrMrc14TrapToHyp((const MiscRegIndex) op1, Hcr, Cpsr, Scr, Hdcr,
+ Hstr, Hcptr, imm)) {
+ return new HypervisorTrap(machInst, imm, EC_TRAPPED_CP14_MCR_MRC);
+ }
+ Dest = MiscOp1;
+ '''
+
+ mrc14Iop = InstObjParams("mrc", "Mrc14", "RegRegImmOp",
+ { "code": mrc14code,
+ "predicate_test": predicateTest }, [])
+ header_output += RegRegImmOpDeclare.subst(mrc14Iop)
+ decoder_output += RegRegImmOpConstructor.subst(mrc14Iop)
+ exec_output += PredOpExecute.subst(mrc14Iop)
+
+
+ mcr14code = '''
+ MiscRegIndex miscReg = (MiscRegIndex) xc->tcBase()->flattenMiscIndex(dest);
+ if (!canWriteCoprocReg(miscReg, Scr, Cpsr, xc->tcBase())) {
+ return new UndefinedInstruction(machInst, false, mnemonic);
+ }
+ if (mcrMrc14TrapToHyp(miscReg, Hcr, Cpsr, Scr, Hdcr,
+ Hstr, Hcptr, imm)) {
+ return new HypervisorTrap(machInst, imm, EC_TRAPPED_CP14_MCR_MRC);
+ }
+ MiscDest = Op1;
+ '''
+ mcr14Iop = InstObjParams("mcr", "Mcr14", "RegRegImmOp",
+ { "code": mcr14code,
+ "predicate_test": predicateTest },
+ ["IsSerializeAfter","IsNonSpeculative"])
+ header_output += RegRegImmOpDeclare.subst(mcr14Iop)
+ decoder_output += RegRegImmOpConstructor.subst(mcr14Iop)
+ exec_output += PredOpExecute.subst(mcr14Iop)
+
+ mrc15code = '''
+ int preFlatOp1 = flattenMiscRegNsBanked(op1, xc->tcBase());
+ MiscRegIndex miscReg = (MiscRegIndex)
+ xc->tcBase()->flattenMiscIndex(preFlatOp1);
+ bool hypTrap = mcrMrc15TrapToHyp(miscReg, Hcr, Cpsr, Scr, Hdcr, Hstr,
+ Hcptr, imm);
+ bool canRead = canReadCoprocReg(miscReg, Scr, Cpsr, xc->tcBase());
+
+ // if we're in non secure PL1 mode then we can trap regargless of whether
+ // the register is accessable, in other modes we trap if only if the register
+ // IS accessable.
+ if (!canRead & !(hypTrap & !inUserMode(Cpsr) & !inSecureState(Scr, Cpsr))) {
+ return new UndefinedInstruction(machInst, false, mnemonic);
+ }
+ if (hypTrap) {
+ return new HypervisorTrap(machInst, imm, EC_TRAPPED_CP15_MCR_MRC);
+ }
+ Dest = MiscNsBankedOp1;
+ '''
+
+ mrc15Iop = InstObjParams("mrc", "Mrc15", "RegRegImmOp",
+ { "code": mrc15code,
+ "predicate_test": predicateTest }, [])
+ header_output += RegRegImmOpDeclare.subst(mrc15Iop)
+ decoder_output += RegRegImmOpConstructor.subst(mrc15Iop)
+ exec_output += PredOpExecute.subst(mrc15Iop)
+
+
+ mcr15code = '''
+ int preFlatDest = flattenMiscRegNsBanked(dest, xc->tcBase());
+ MiscRegIndex miscReg = (MiscRegIndex)
+ xc->tcBase()->flattenMiscIndex(preFlatDest);
+ bool hypTrap = mcrMrc15TrapToHyp(miscReg, Hcr, Cpsr, Scr, Hdcr, Hstr,
+ Hcptr, imm);
+ bool canWrite = canWriteCoprocReg(miscReg, Scr, Cpsr, xc->tcBase());
+
+ // if we're in non secure PL1 mode then we can trap regargless of whether
+ // the register is accessable, in other modes we trap if only if the register
+ // IS accessable.
+ if (!canWrite & !(hypTrap & !inUserMode(Cpsr) & !inSecureState(Scr, Cpsr))) {
+ return new UndefinedInstruction(machInst, false, mnemonic);
+ }
+ if (hypTrap) {
+ return new HypervisorTrap(machInst, imm, EC_TRAPPED_CP15_MCR_MRC);
+ }
+ MiscNsBankedDest = Op1;
+ '''
+ mcr15Iop = InstObjParams("mcr", "Mcr15", "RegRegImmOp",
+ { "code": mcr15code,
+ "predicate_test": predicateTest },
+ ["IsSerializeAfter","IsNonSpeculative"])
+ header_output += RegRegImmOpDeclare.subst(mcr15Iop)
+ decoder_output += RegRegImmOpConstructor.subst(mcr15Iop)
+ exec_output += PredOpExecute.subst(mcr15Iop)
+
+
+ mrrc15code = '''
+ int preFlatOp1 = flattenMiscRegNsBanked(op1, xc->tcBase());
+ MiscRegIndex miscReg = (MiscRegIndex)
+ xc->tcBase()->flattenMiscIndex(preFlatOp1);
+ bool hypTrap = mcrrMrrc15TrapToHyp(miscReg, Cpsr, Scr, Hstr, Hcr, imm);
+ bool canRead = canReadCoprocReg(miscReg, Scr, Cpsr, xc->tcBase());
+
+ // if we're in non secure PL1 mode then we can trap regargless of whether
+ // the register is accessable, in other modes we trap if only if the register
+ // IS accessable.
+ if (!canRead & !(hypTrap & !inUserMode(Cpsr) & !inSecureState(Scr, Cpsr))) {
+ return new UndefinedInstruction(machInst, false, mnemonic);
+ }
+ if (hypTrap) {
+ return new HypervisorTrap(machInst, imm, EC_TRAPPED_CP15_MCRR_MRRC);
+ }
+ Dest = bits(MiscNsBankedOp164, 63, 32);
+ Dest2 = bits(MiscNsBankedOp164, 31, 0);
+ '''
+ mrrc15Iop = InstObjParams("mrrc", "Mrrc15", "MrrcOp",
+ { "code": mrrc15code,
+ "predicate_test": predicateTest }, [])
+ header_output += MrrcOpDeclare.subst(mrrc15Iop)
+ decoder_output += MrrcOpConstructor.subst(mrrc15Iop)
+ exec_output += PredOpExecute.subst(mrrc15Iop)
+
+
+ mcrr15code = '''
+ int preFlatDest = flattenMiscRegNsBanked(dest, xc->tcBase());
+ MiscRegIndex miscReg = (MiscRegIndex)
+ xc->tcBase()->flattenMiscIndex(preFlatDest);
+ bool hypTrap = mcrrMrrc15TrapToHyp(miscReg, Cpsr, Scr, Hstr, Hcr, imm);
+ bool canWrite = canWriteCoprocReg(miscReg, Scr, Cpsr, xc->tcBase());
+
+ // if we're in non secure PL1 mode then we can trap regargless of whether
+ // the register is accessable, in other modes we trap if only if the register
+ // IS accessable.
+ if (!canWrite & !(hypTrap & !inUserMode(Cpsr) & !inSecureState(Scr, Cpsr))) {
+ return new UndefinedInstruction(machInst, false, mnemonic);
+ }
+ if (hypTrap) {
+ return new HypervisorTrap(machInst, imm, EC_TRAPPED_CP15_MCRR_MRRC);
+ }
+ MiscNsBankedDest64 = ((uint64_t) Op1 << 32) | Op2;
+ '''
+ mcrr15Iop = InstObjParams("mcrr", "Mcrr15", "McrrOp",
+ { "code": mcrr15code,
+ "predicate_test": predicateTest }, [])
+ header_output += McrrOpDeclare.subst(mcrr15Iop)
+ decoder_output += McrrOpConstructor.subst(mcrr15Iop)
+ exec_output += PredOpExecute.subst(mcrr15Iop)
+
+
+ enterxCode = '''
+ NextThumb = true;
+ NextJazelle = true;
+ '''
+ enterxIop = InstObjParams("enterx", "Enterx", "PredOp",
+ { "code": enterxCode,
+ "predicate_test": predicateTest }, [])
+ header_output += BasicDeclare.subst(enterxIop)
+ decoder_output += BasicConstructor.subst(enterxIop)
+ exec_output += PredOpExecute.subst(enterxIop)
+
+ leavexCode = '''
+ NextThumb = true;
+ NextJazelle = false;
+ '''
+ leavexIop = InstObjParams("leavex", "Leavex", "PredOp",
+ { "code": leavexCode,
+ "predicate_test": predicateTest }, [])
+ header_output += BasicDeclare.subst(leavexIop)
+ decoder_output += BasicConstructor.subst(leavexIop)
+ exec_output += PredOpExecute.subst(leavexIop)
+
+ setendCode = '''
+ CPSR cpsr = Cpsr;
+ cpsr.e = imm;
+ Cpsr = cpsr;
+ '''
+ setendIop = InstObjParams("setend", "Setend", "ImmOp",
+ { "code": setendCode,
+ "predicate_test": predicateTest },
+ ["IsSerializeAfter","IsNonSpeculative"])
+ header_output += ImmOpDeclare.subst(setendIop)
+ decoder_output += ImmOpConstructor.subst(setendIop)
+ exec_output += PredOpExecute.subst(setendIop)
+
+ clrexCode = '''
+ LLSCLock = 0;
+ '''
+ clrexIop = InstObjParams("clrex", "Clrex","PredOp",
+ { "code": clrexCode,
+ "predicate_test": predicateTest },[])
+ header_output += BasicDeclare.subst(clrexIop)
+ decoder_output += BasicConstructor.subst(clrexIop)
+ exec_output += PredOpExecute.subst(clrexIop)
+
+ isbCode = '''
+ // If the barrier is due to a CP15 access check for hyp traps
+ if ((imm != 0) && mcrMrc15TrapToHyp(MISCREG_CP15ISB, Hcr, Cpsr, Scr,
+ Hdcr, Hstr, Hcptr, imm)) {
+ return new HypervisorTrap(machInst, imm,
+ EC_TRAPPED_CP15_MCR_MRC);
+ }
+ fault = new FlushPipe;
+ '''
+ isbIop = InstObjParams("isb", "Isb", "ImmOp",
+ {"code": isbCode,
+ "predicate_test": predicateTest},
+ ['IsSerializeAfter'])
+ header_output += ImmOpDeclare.subst(isbIop)
+ decoder_output += ImmOpConstructor.subst(isbIop)
+ exec_output += PredOpExecute.subst(isbIop)
+
+ dsbCode = '''
+ // If the barrier is due to a CP15 access check for hyp traps
+ if ((imm != 0) && mcrMrc15TrapToHyp(MISCREG_CP15DSB, Hcr, Cpsr, Scr,
+ Hdcr, Hstr, Hcptr, imm)) {
+ return new HypervisorTrap(machInst, imm,
+ EC_TRAPPED_CP15_MCR_MRC);
+ }
+ fault = new FlushPipe;
+ '''
+ dsbIop = InstObjParams("dsb", "Dsb", "ImmOp",
+ {"code": dsbCode,
+ "predicate_test": predicateTest},
+ ['IsMemBarrier', 'IsSerializeAfter'])
+ header_output += ImmOpDeclare.subst(dsbIop)
+ decoder_output += ImmOpConstructor.subst(dsbIop)
+ exec_output += PredOpExecute.subst(dsbIop)
+
+ dmbCode = '''
+ // If the barrier is due to a CP15 access check for hyp traps
+ if ((imm != 0) && mcrMrc15TrapToHyp(MISCREG_CP15DMB, Hcr, Cpsr, Scr,
+ Hdcr, Hstr, Hcptr, imm)) {
+ return new HypervisorTrap(machInst, imm,
+ EC_TRAPPED_CP15_MCR_MRC);
+ }
+ '''
+ dmbIop = InstObjParams("dmb", "Dmb", "ImmOp",
+ {"code": dmbCode,
+ "predicate_test": predicateTest},
+ ['IsMemBarrier'])
+ header_output += ImmOpDeclare.subst(dmbIop)
+ decoder_output += ImmOpConstructor.subst(dmbIop)
+ exec_output += PredOpExecute.subst(dmbIop)
+
+ dbgCode = '''
+ '''
+ dbgIop = InstObjParams("dbg", "Dbg", "PredOp",
+ {"code": dbgCode,
+ "predicate_test": predicateTest})
+ header_output += BasicDeclare.subst(dbgIop)
+ decoder_output += BasicConstructor.subst(dbgIop)
+ exec_output += PredOpExecute.subst(dbgIop)
+
+ cpsCode = '''
+ uint32_t mode = bits(imm, 4, 0);
+ uint32_t f = bits(imm, 5);
+ uint32_t i = bits(imm, 6);
+ uint32_t a = bits(imm, 7);
+ bool setMode = bits(imm, 8);
+ bool enable = bits(imm, 9);
+ CPSR cpsr = Cpsr;
+ SCTLR sctlr = Sctlr;
+ if (cpsr.mode != MODE_USER) {
+ if (enable) {
+ if (f) cpsr.f = 0;
+ if (i) cpsr.i = 0;
+ if (a) cpsr.a = 0;
+ } else {
+ if (f && !sctlr.nmfi) cpsr.f = 1;
+ if (i) cpsr.i = 1;
+ if (a) cpsr.a = 1;
+ }
+ if (setMode) {
+ cpsr.mode = mode;
+ }
+ }
+ Cpsr = cpsr;
+ '''
+ cpsIop = InstObjParams("cps", "Cps", "ImmOp",
+ { "code": cpsCode,
+ "predicate_test": predicateTest },
+ ["IsSerializeAfter","IsNonSpeculative"])
+ header_output += ImmOpDeclare.subst(cpsIop)
+ decoder_output += ImmOpConstructor.subst(cpsIop)
+ exec_output += PredOpExecute.subst(cpsIop)
}};