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CPU/Recompiler: Implement j/jal/jr/jalr/beq/bne/bgtz/blez

This commit is contained in:
Connor McLaughlin 2019-11-22 21:41:10 +10:00
parent 44676a6810
commit 167e2a3454
8 changed files with 287 additions and 58 deletions
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95
src/core/cpu_recompiler_code_generator.cpp
View File

@ -91,6 +91,15 @@ bool CodeGenerator::CompileInstruction(const CodeBlockInstruction& cbi)
result = Compile_Store(cbi);
break;
case InstructionOp::j:
case InstructionOp::jal:
case InstructionOp::beq:
case InstructionOp::bne:
case InstructionOp::bgtz:
case InstructionOp::blez:
result = Compile_Branch(cbi);
break;
case InstructionOp::lui:
result = Compile_lui(cbi);
break;
@ -127,6 +136,11 @@ bool CodeGenerator::CompileInstruction(const CodeBlockInstruction& cbi)
result = Compile_Multiply(cbi);
break;
case InstructionFunct::jr:
case InstructionFunct::jalr:
result = Compile_Branch(cbi);
break;
default:
result = Compile_Fallback(cbi);
break;
@ -998,6 +1012,87 @@ bool CodeGenerator::Compile_Multiply(const CodeBlockInstruction& cbi)
return true;
}
bool CodeGenerator::Compile_Branch(const CodeBlockInstruction& cbi)
{
// Force sync since we branches are PC-relative.
InstructionPrologue(cbi, 1, true);
// Compute the branch target.
// This depends on the form of the instruction.
switch (cbi.instruction.op)
{
case InstructionOp::j:
case InstructionOp::jal:
{
// npc = (pc & 0xF0000000) | (target << 2)
Value branch_target =
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,
std::move(branch_target));
}
break;
case InstructionOp::funct:
{
Assert(cbi.instruction.r.funct == InstructionFunct::jr || cbi.instruction.r.funct == InstructionFunct::jalr);
// 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,
std::move(branch_target));
}
break;
case InstructionOp::beq:
case InstructionOp::bne:
case InstructionOp::bgtz:
case InstructionOp::blez:
{
// npc = pc + (sext(imm) << 2)
Value branch_target = AddValues(m_register_cache.ReadGuestRegister(Reg::pc, false),
Value::FromConstantU32(cbi.instruction.i.imm_sext32() << 2));
// branch <- rs op rt
Value lhs = m_register_cache.ReadGuestRegister(cbi.instruction.i.rs, true, true);
Value rhs = m_register_cache.ReadGuestRegister(cbi.instruction.i.rt);
EmitCmp(lhs.host_reg, rhs);
Condition condition;
switch (cbi.instruction.op)
{
case InstructionOp::beq:
condition = Condition::Equal;
break;
case InstructionOp::bne:
condition = Condition::NotEqual;
break;
case InstructionOp::bgtz:
condition = Condition::GreaterThanZero;
break;
case InstructionOp::blez:
condition = Condition::LessOrEqualToZero;
break;
default:
condition = Condition::Always;
break;
}
EmitBranch(condition, Reg::count, std::move(branch_target));
}
break;
default:
UnreachableCode();
break;
}
InstructionEpilogue(cbi);
return true;
}
bool CodeGenerator::Compile_lui(const CodeBlockInstruction& cbi)
{
InstructionPrologue(cbi, 1);

6
src/core/cpu_recompiler_code_generator.h
View File

@ -49,8 +49,8 @@ public:
void EmitCopyValue(HostReg to_reg, const Value& value);
void EmitAdd(HostReg to_reg, const Value& value);
void EmitSub(HostReg to_reg, const Value& value);
void EmitMul(HostReg to_reg_hi, HostReg to_reg_lo, const Value& lhs, const Value& rhs, bool signed_multiply);
void EmitCmp(HostReg to_reg, const Value& value);
void EmitMul(HostReg to_reg_hi, HostReg to_reg_lo, const Value& lhs, const Value& rhs, bool signed_multiply);
void EmitInc(HostReg to_reg, RegSize size);
void EmitDec(HostReg to_reg, RegSize size);
void EmitShl(HostReg to_reg, RegSize size, const Value& amount_value);
@ -73,6 +73,9 @@ public:
Value EmitLoadGuestMemory(const Value& address, RegSize size);
void EmitStoreGuestMemory(const Value& address, const Value& value);
// Branching, generates two paths.
void EmitBranch(Condition condition, Reg lr_reg, Value&& branch_target);
u32 PrepareStackForCall();
void RestoreStackAfterCall(u32 adjust_size);
@ -173,6 +176,7 @@ private:
bool Compile_Store(const CodeBlockInstruction& cbi);
bool Compile_MoveHiLo(const CodeBlockInstruction& cbi);
bool Compile_Multiply(const CodeBlockInstruction& cbi);
bool Compile_Branch(const CodeBlockInstruction& cbi);
bool Compile_lui(const CodeBlockInstruction& cbi);
bool Compile_addiu(const CodeBlockInstruction& cbi);

7
src/core/cpu_recompiler_code_generator_generic.cpp
View File

@ -39,4 +39,11 @@ void CodeGenerator::EmitStoreLoadDelay(Reg reg, const Value& value)
m_load_delay_dirty = true;
}
#if !defined(Y_CPU_X64)
void CodeGenerator::EmitBranch(Condition condition, Reg lr_reg, bool relative, const Value& branch_address)
{
Panic("Not implemented");
}
#endif
} // namespace CPU::Recompiler

204
src/core/cpu_recompiler_code_generator_x64.cpp
View File

@ -1,5 +1,7 @@
#include "YBaseLib/Log.h"
#include "cpu_recompiler_code_generator.h"
#include "cpu_recompiler_thunks.h"
Log_SetChannel(CPU::Recompiler);
namespace CPU::Recompiler {
@ -451,6 +453,63 @@ void CodeGenerator::EmitSub(HostReg to_reg, const Value& value)
}
}
void CodeGenerator::EmitCmp(HostReg to_reg, const Value& value)
{
DebugAssert(value.IsConstant() || value.IsInHostRegister());
switch (value.size)
{
case RegSize_8:
{
if (value.IsConstant())
m_emit->cmp(GetHostReg8(to_reg), SignExtend32(Truncate8(value.constant_value)));
else
m_emit->cmp(GetHostReg8(to_reg), GetHostReg8(value.host_reg));
}
break;
case RegSize_16:
{
if (value.IsConstant())
m_emit->cmp(GetHostReg16(to_reg), SignExtend32(Truncate16(value.constant_value)));
else
m_emit->cmp(GetHostReg16(to_reg), GetHostReg16(value.host_reg));
}
break;
case RegSize_32:
{
if (value.IsConstant())
m_emit->cmp(GetHostReg32(to_reg), Truncate32(value.constant_value));
else
m_emit->cmp(GetHostReg32(to_reg), GetHostReg32(value.host_reg));
}
break;
case RegSize_64:
{
if (value.IsConstant())
{
if (!Xbyak::inner::IsInInt32(value.constant_value))
{
Value temp = m_register_cache.AllocateScratch(RegSize_64);
m_emit->mov(GetHostReg64(temp.host_reg), value.constant_value);
m_emit->cmp(GetHostReg64(to_reg), GetHostReg64(temp.host_reg));
}
else
{
m_emit->cmp(GetHostReg64(to_reg), Truncate32(value.constant_value));
}
}
else
{
m_emit->cmp(GetHostReg64(to_reg), GetHostReg64(value.host_reg));
}
}
break;
}
}
void CodeGenerator::EmitMul(HostReg to_reg_hi, HostReg to_reg_lo, const Value& lhs, const Value& rhs,
bool signed_multiply)
{
@ -567,63 +626,6 @@ void CodeGenerator::EmitMul(HostReg to_reg_hi, HostReg to_reg_lo, const Value& l
m_emit->pop(m_emit->rax);
}
void CodeGenerator::EmitCmp(HostReg to_reg, const Value& value)
{
DebugAssert(value.IsConstant() || value.IsInHostRegister());
switch (value.size)
{
case RegSize_8:
{
if (value.IsConstant())
m_emit->cmp(GetHostReg8(to_reg), SignExtend32(Truncate8(value.constant_value)));
else
m_emit->cmp(GetHostReg8(to_reg), GetHostReg8(value.host_reg));
}
break;
case RegSize_16:
{
if (value.IsConstant())
m_emit->cmp(GetHostReg16(to_reg), SignExtend32(Truncate16(value.constant_value)));
else
m_emit->cmp(GetHostReg16(to_reg), GetHostReg16(value.host_reg));
}
break;
case RegSize_32:
{
if (value.IsConstant())
m_emit->cmp(GetHostReg32(to_reg), Truncate32(value.constant_value));
else
m_emit->cmp(GetHostReg32(to_reg), GetHostReg32(value.host_reg));
}
break;
case RegSize_64:
{
if (value.IsConstant())
{
if (!Xbyak::inner::IsInInt32(value.constant_value))
{
Value temp = m_register_cache.AllocateScratch(RegSize_64);
m_emit->mov(GetHostReg64(temp.host_reg), value.constant_value);
m_emit->cmp(GetHostReg64(to_reg), GetHostReg64(temp.host_reg));
}
else
{
m_emit->cmp(GetHostReg64(to_reg), Truncate32(value.constant_value));
}
}
else
{
m_emit->cmp(GetHostReg64(to_reg), GetHostReg64(value.host_reg));
}
}
break;
}
}
void CodeGenerator::EmitInc(HostReg to_reg, RegSize size)
{
switch (size)
@ -1599,6 +1601,94 @@ void CodeGenerator::EmitDelaySlotUpdate(bool skip_check_for_delay, bool skip_che
}
}
static void EmitConditionalJump(Condition condition, bool invert, Xbyak::CodeGenerator* emit, const Xbyak::Label& label)
{
switch (condition)
{
case Condition::Always:
emit->jmp(label);
break;
case Condition::NotEqual:
invert ? emit->je(label) : emit->jne(label);
break;
case Condition::Equal:
invert ? emit->jne(label) : emit->je(label);
break;
case Condition::Overflow:
invert ? emit->jno(label) : emit->jo(label);
break;
case Condition::GreaterThanZero:
invert ? emit->jng(label) : emit->jg(label);
break;
case Condition::LessOrEqualToZero:
invert ? emit->jnle(label) : emit->jle(label);
break;
default:
UnreachableCode();
break;
}
}
void CodeGenerator::EmitBranch(Condition condition, Reg lr_reg, Value&& branch_target)
{
Xbyak::Label skip_branch;
// 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);
// condition is inverted because we want the case for skipping it
if (condition != Condition::Always)
EmitConditionalJump(condition, true, m_emit, skip_branch);
// save the old PC if we want to
if (lr_reg != Reg::count)
{
// can't cache because we have two branches
m_register_cache.WriteGuestRegister(lr_reg, std::move(old_npc));
m_register_cache.FlushGuestRegister(lr_reg, true, true);
}
// we don't need to test the address of constant branches unless they're definitely misaligned, which would be
// strange.
if (!branch_target.IsConstant() || (branch_target.constant_value & 0x3) != 0)
{
if (branch_target.IsConstant())
{
Log_WarningPrintf("Misaligned constant target branch 0x%08X, this is strange",
Truncate32(branch_target.constant_value));
}
else
{
// check the alignment of the target
m_emit->test(GetHostReg32(branch_target), 0x3);
m_emit->jnz(GetCurrentFarCodePointer());
}
// exception exit for misaligned target
SwitchToFarCode();
EmitFunctionCall(nullptr, &Thunks::RaiseAddressException, m_register_cache.GetCPUPtr(), branch_target,
Value::FromConstantU8(0), Value::FromConstantU8(1));
EmitExceptionExit();
SwitchToNearCode();
}
// branch taken path - write new PC and flush it, since two branches
m_register_cache.WriteGuestRegister(Reg::npc, std::move(branch_target));
m_register_cache.FlushGuestRegister(Reg::npc, true, true);
EmitStoreCPUStructField(offsetof(Core, m_current_instruction_was_branch_taken), Value::FromConstantU8(1));
// converge point
m_emit->L(skip_branch);
}
#if 0
class ThunkGenerator
{

10
src/core/cpu_recompiler_register_cache.cpp
View File

@ -334,7 +334,17 @@ Value RegisterCache::ReadGuestRegister(Reg guest_reg, bool cache /* = true */, b
{
// register zero is always zero
if (guest_reg == Reg::zero)
{
// return a scratch value of zero if it's forced
if (force_host_register)
{
Value temp = AllocateScratch(RegSize_32, forced_host_reg);
m_code_generator.EmitXor(temp.host_reg, temp);
return temp;
}
return Value::FromConstantU32(0);
}
Value& cache_value = m_guest_reg_cache[static_cast<u8>(guest_reg)];
if (cache_value.IsValid())

9
src/core/cpu_recompiler_thunks.cpp
View File

@ -78,4 +78,13 @@ void Thunks::UpdateLoadDelay(Core* cpu)
cpu->UpdateLoadDelay();
}
void Thunks::RaiseAddressException(Core* cpu, u32 address, bool store, bool branch)
{
cpu->m_cop0_regs.BadVaddr = address;
if (branch)
cpu->RaiseException(Exception::AdEL, address, false, false, 0);
else
cpu->RaiseException(store ? Exception::AdES : Exception::AdEL);
}
} // namespace CPU::Recompiler

1
src/core/cpu_recompiler_thunks.h
View File

@ -21,6 +21,7 @@ public:
static bool WriteMemoryWord(Core* cpu, u32 address, u32 value);
static bool InterpretInstruction(Core* cpu);
static void UpdateLoadDelay(Core* cpu);
static void RaiseAddressException(Core* cpu, u32 address, bool store, bool branch);
};
class ASMFunctions

13
src/core/cpu_recompiler_types.h
View File

@ -24,6 +24,19 @@ enum RegSize : u8
RegSize_64,
};
enum class Condition: u8
{
Always,
NotEqual,
Equal,
Overflow,
GreaterThanZero,
LessOrEqualToZero,
NotZero = NotEqual,
Zero = Equal
};
#if defined(Y_CPU_X64)
using HostReg = Xbyak::Operand::Code;
using CodeEmitter = Xbyak::CodeGenerator;