CPU/Recompiler: Fix b{ltz,gez}al when using a load delayed register

This commit is contained in:
Connor McLaughlin 2019-11-24 16:47:18 +10:00
parent 8c5fcc8f48
commit e3965d9be3
3 changed files with 20 additions and 19 deletions

View File

@ -93,7 +93,7 @@ bool CodeGenerator::CompileInstruction(const CodeBlockInstruction& cbi)
case InstructionOp::j:
case InstructionOp::jal:
//case InstructionOp::b:
case InstructionOp::b:
case InstructionOp::beq:
case InstructionOp::bne:
case InstructionOp::bgtz:
@ -1253,7 +1253,7 @@ bool CodeGenerator::Compile_Branch(const CodeBlockInstruction& cbi)
OrValues(AndValues(m_register_cache.ReadGuestRegister(Reg::pc, false), Value::FromConstantU32(0xF0000000)),
Value::FromConstantU32(cbi.instruction.j.target << 2));
EmitBranch(Condition::Always, (cbi.instruction.op == InstructionOp::jal) ? Reg::ra : Reg::count, false,
EmitBranch(Condition::Always, (cbi.instruction.op == InstructionOp::jal) ? Reg::ra : Reg::count,
std::move(branch_target));
}
break;
@ -1265,7 +1265,7 @@ bool CodeGenerator::Compile_Branch(const CodeBlockInstruction& cbi)
// npc = rs, link to rt
Value branch_target = m_register_cache.ReadGuestRegister(cbi.instruction.r.rs);
EmitBranch(Condition::Always,
(cbi.instruction.r.funct == InstructionFunct::jalr) ? cbi.instruction.r.rd : Reg::count, false,
(cbi.instruction.r.funct == InstructionFunct::jalr) ? cbi.instruction.r.rd : Reg::count,
std::move(branch_target));
}
else if (cbi.instruction.r.funct == InstructionFunct::syscall ||
@ -1295,7 +1295,7 @@ bool CodeGenerator::Compile_Branch(const CodeBlockInstruction& cbi)
EmitCmp(lhs.host_reg, rhs);
const Condition condition = (cbi.instruction.op == InstructionOp::beq) ? Condition::Equal : Condition::NotEqual;
EmitBranch(condition, Reg::count, false, std::move(branch_target));
EmitBranch(condition, Reg::count, std::move(branch_target));
}
break;
@ -1312,7 +1312,7 @@ bool CodeGenerator::Compile_Branch(const CodeBlockInstruction& cbi)
const Condition condition =
(cbi.instruction.op == InstructionOp::bgtz) ? Condition::Greater : Condition::LessEqual;
EmitBranch(condition, Reg::count, false, std::move(branch_target));
EmitBranch(condition, Reg::count, std::move(branch_target));
}
break;
@ -1327,9 +1327,20 @@ bool CodeGenerator::Compile_Branch(const CodeBlockInstruction& cbi)
const Condition condition = bgez ? Condition::PositiveOrZero : Condition::Negative;
const bool link = (rt & u8(0x1E)) == u8(0x10);
// Read has to happen before the link as the compare can use ra.
// This is a little dangerous since lhs can get freed, but there aren't any allocations inbetween here and the
// test so it shouldn't be an issue.
Value lhs = m_register_cache.ReadGuestRegister(cbi.instruction.i.rs, true, true);
// The return address is always written if link is set, regardless of whether the branch is taken.
if (link)
{
EmitCancelInterpreterLoadDelayForReg(Reg::ra);
m_register_cache.WriteGuestRegister(Reg::ra, m_register_cache.ReadGuestRegister(Reg::npc, false));
}
EmitTest(lhs.host_reg, lhs);
EmitBranch(condition, link ? Reg::ra : Reg::count, link, std::move(branch_target));
EmitBranch(condition, Reg::count, std::move(branch_target));
}
break;

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@ -78,7 +78,7 @@ public:
void EmitStoreGuestMemory(const Value& address, const Value& value);
// Branching, generates two paths.
void EmitBranch(Condition condition, Reg lr_reg, bool always_link, Value&& branch_target);
void EmitBranch(Condition condition, Reg lr_reg, Value&& branch_target);
// Raising exception if condition is true.
void EmitRaiseException(Exception excode, Condition condition = Condition::Always);

View File

@ -1742,22 +1742,12 @@ static void EmitConditionalJump(Condition condition, bool invert, Xbyak::CodeGen
}
}
void CodeGenerator::EmitBranch(Condition condition, Reg lr_reg, bool always_link, Value&& branch_target)
void CodeGenerator::EmitBranch(Condition condition, Reg lr_reg, Value&& branch_target)
{
// we have to always read the old PC.. when we can push/pop the register cache state this won't be needed
Value old_npc;
if (lr_reg != Reg::count)
{
old_npc = m_register_cache.ReadGuestRegister(Reg::npc, false, true);
if (always_link)
{
// Can't cache because we have two branches. Load delay cancel is due to the immediate flush afterwards,
// if we don't cancel it, at the end of the instruction the value we write can be overridden.
EmitCancelInterpreterLoadDelayForReg(lr_reg);
m_register_cache.WriteGuestRegister(lr_reg, std::move(old_npc));
m_register_cache.FlushGuestRegister(lr_reg, true, true);
}
}
// condition is inverted because we want the case for skipping it
Xbyak::Label skip_branch;
@ -1765,7 +1755,7 @@ void CodeGenerator::EmitBranch(Condition condition, Reg lr_reg, bool always_link
EmitConditionalJump(condition, true, m_emit, skip_branch);
// save the old PC if we want to
if (lr_reg != Reg::count && !always_link)
if (lr_reg != Reg::count)
{
// Can't cache because we have two branches. Load delay cancel is due to the immediate flush afterwards,
// if we don't cancel it, at the end of the instruction the value we write can be overridden.