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/*
* Copyright (c) 2014,2016-2018 ARM Limited
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*
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* terms below provided that you ensure that this notice is replicated
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*
* Copyright (c) 2007-2008 The Florida State University
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#include "arch/arm/insts/pseudo.hh"
#include "cpu/exec_context.hh"
namespace gem5
{
using namespace ArmISA;
DecoderFaultInst::DecoderFaultInst(ExtMachInst _machInst)
: ArmStaticInst("gem5decoderFault", _machInst, No_OpClass),
faultId(static_cast<DecoderFault>(
static_cast<uint8_t>(_machInst.decoderFault)))
{
// Don't call execute() if we're on a speculative path and the
// fault is an internal panic fault.
flags[IsNonSpeculative] = (faultId == DecoderFault::PANIC);
}
Fault
DecoderFaultInst::execute(ExecContext *xc, Trace::InstRecord *traceData) const
{
const Addr pc = xc->pcState().instAddr();
switch (faultId) {
case DecoderFault::UNALIGNED:
if (machInst.aarch64) {
return std::make_shared<PCAlignmentFault>(pc);
} else {
// TODO: We should check if we the receiving end is in
// aarch64 mode and raise a PCAlignment fault instead.
return std::make_shared<PrefetchAbort>(
pc, ArmFault::AlignmentFault);
}
case DecoderFault::PANIC:
panic("Internal error in instruction decoder\n");
case DecoderFault::OK:
panic("Decoder fault instruction without decoder fault.\n");
}
panic("Unhandled fault type");
}
const char *
DecoderFaultInst::faultName() const
{
switch (faultId) {
case DecoderFault::OK:
return "OK";
case DecoderFault::UNALIGNED:
return "UnalignedInstruction";
case DecoderFault::PANIC:
return "DecoderPanic";
}
panic("Unhandled fault type");
}
std::string
DecoderFaultInst::generateDisassembly(
Addr pc, const loader::SymbolTable *symtab) const
{
return csprintf("gem5fault %s", faultName());
}
FailUnimplemented::FailUnimplemented(const char *_mnemonic,
ExtMachInst _machInst)
: ArmStaticInst(_mnemonic, _machInst, No_OpClass)
{
// don't call execute() (which panics) if we're on a
// speculative path
flags[IsNonSpeculative] = true;
}
FailUnimplemented::FailUnimplemented(const char *_mnemonic,
ExtMachInst _machInst,
const std::string& _fullMnemonic)
: ArmStaticInst(_mnemonic, _machInst, No_OpClass),
fullMnemonic(_fullMnemonic)
{
// don't call execute() (which panics) if we're on a
// speculative path
flags[IsNonSpeculative] = true;
}
Fault
FailUnimplemented::execute(ExecContext *xc, Trace::InstRecord *traceData) const
{
return std::make_shared<UndefinedInstruction>(machInst, false, mnemonic);
}
std::string
FailUnimplemented::generateDisassembly(
Addr pc, const loader::SymbolTable *symtab) const
{
return csprintf("%-10s (unimplemented)",
fullMnemonic.size() ? fullMnemonic.c_str() : mnemonic);
}
WarnUnimplemented::WarnUnimplemented(const char *_mnemonic,
ExtMachInst _machInst)
: ArmStaticInst(_mnemonic, _machInst, No_OpClass), warned(false)
{
// don't call execute() (which panics) if we're on a
// speculative path
flags[IsNonSpeculative] = true;
}
WarnUnimplemented::WarnUnimplemented(const char *_mnemonic,
ExtMachInst _machInst,
const std::string& _fullMnemonic)
: ArmStaticInst(_mnemonic, _machInst, No_OpClass), warned(false),
fullMnemonic(_fullMnemonic)
{
// don't call execute() (which panics) if we're on a
// speculative path
flags[IsNonSpeculative] = true;
}
Fault
WarnUnimplemented::execute(ExecContext *xc, Trace::InstRecord *traceData) const
{
if (!warned) {
warn("\tinstruction '%s' unimplemented\n",
fullMnemonic.size() ? fullMnemonic.c_str() : mnemonic);
warned = true;
}
return NoFault;
}
std::string
WarnUnimplemented::generateDisassembly(
Addr pc, const loader::SymbolTable *symtab) const
{
return csprintf("%-10s (unimplemented)",
fullMnemonic.size() ? fullMnemonic.c_str() : mnemonic);
}
IllegalExecInst::IllegalExecInst(ExtMachInst _machInst)
: ArmStaticInst("Illegal Execution", _machInst, No_OpClass)
{}
Fault
IllegalExecInst::execute(ExecContext *xc, Trace::InstRecord *traceData) const
{
return std::make_shared<IllegalInstSetStateFault>();
}
DebugStep::DebugStep(ExtMachInst _machInst)
: ArmStaticInst("DebugStep", _machInst, No_OpClass)
{ }
Fault
DebugStep::execute(ExecContext *xc, Trace::InstRecord *traceData) const
{
PCState pc_state = xc->pcState().as<PCState>();
pc_state.debugStep(false);
xc->pcState(pc_state);
SelfDebug *sd = ArmISA::ISA::getSelfDebug(xc->tcBase());
bool ldx = sd->getSstep()->getLdx();
return std::make_shared<SoftwareStepFault>(machInst, ldx,
pc_state.stepped());
}
} // namespace gem5