dynarmic/src/backend_x64/block_of_code.h

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* This software may be used and distributed according to the terms of the GNU
* General Public License version 2 or any later version.
*/
#pragma once
#include <type_traits>
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#include <xbyak.h>
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#include "backend_x64/jitstate.h"
#include "common/common_types.h"
#include "dynarmic/callbacks.h"
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namespace Dynarmic {
namespace BackendX64 {
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class BlockOfCode final : public Xbyak::CodeGenerator {
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public:
explicit BlockOfCode(UserCallbacks cb);
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/// Clears this block of code and resets code pointer to beginning.
void ClearCache(bool poison_memory);
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/// Runs emulated code for approximately `cycles_to_run` cycles.
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size_t RunCode(JitState* jit_state, CodePtr basic_block, size_t cycles_to_run) const;
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/// Code emitter: Returns to host
void ReturnFromRunCode(bool MXCSR_switch = true);
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/// Code emitter: Makes guest MXCSR the current MXCSR
void SwitchMxcsrOnEntry();
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/// Code emitter: Makes saved host MXCSR the current MXCSR
void SwitchMxcsrOnExit();
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/// Code emitter: Calls the function
template <typename FunctionPointer>
void CallFunction(FunctionPointer fn) {
static_assert(std::is_pointer<FunctionPointer>() && std::is_function<std::remove_pointer_t<FunctionPointer>>(),
"Supplied type must be a pointer to a function");
const u64 address = reinterpret_cast<u64>(fn);
const u64 distance = address - (getCurr<u64>() + 5);
if (distance >= 0x0000000080000000ULL && distance < 0xFFFFFFFF80000000ULL) {
// Far call
mov(rax, address);
call(rax);
} else {
call(fn);
}
}
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Xbyak::Address MFloatPositiveZero32() {
return xword[rip + consts.FloatPositiveZero32];
}
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Xbyak::Address MFloatNegativeZero32() {
return xword[rip + consts.FloatNegativeZero32];
}
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Xbyak::Address MFloatNaN32() {
return xword[rip + consts.FloatNaN32];
}
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Xbyak::Address MFloatNonSignMask32() {
return xword[rip + consts.FloatNonSignMask32];
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}
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Xbyak::Address MFloatPositiveZero64() {
return xword[rip + consts.FloatPositiveZero64];
}
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Xbyak::Address MFloatNegativeZero64() {
return xword[rip + consts.FloatNegativeZero64];
}
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Xbyak::Address MFloatNaN64() {
return xword[rip + consts.FloatNaN64];
}
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Xbyak::Address MFloatNonSignMask64() {
return xword[rip + consts.FloatNonSignMask64];
}
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Xbyak::Address MFloatPenultimatePositiveDenormal64() {
return xword[rip + consts.FloatPenultimatePositiveDenormal64];
}
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Xbyak::Address MFloatMinS32() {
return xword[rip + consts.FloatMinS32];
}
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Xbyak::Address MFloatMaxS32() {
return xword[rip + consts.FloatMaxS32];
}
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Xbyak::Address MFloatMinU32() {
return xword[rip + consts.FloatMinU32];
}
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Xbyak::Address MFloatMaxU32() {
return xword[rip + consts.FloatMaxU32];
}
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const void* GetReturnFromRunCodeAddress() const {
return return_from_run_code;
}
const void* GetMemoryReadCallback(size_t bit_size) const {
switch (bit_size) {
case 8:
return read_memory_8;
case 16:
return read_memory_16;
case 32:
return read_memory_32;
case 64:
return read_memory_64;
default:
return nullptr;
}
}
const void* GetMemoryWriteCallback(size_t bit_size) const {
switch (bit_size) {
case 8:
return write_memory_8;
case 16:
return write_memory_16;
case 32:
return write_memory_32;
case 64:
return write_memory_64;
default:
return nullptr;
}
}
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void int3() { db(0xCC); }
void nop(size_t size = 1);
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void SetCodePtr(CodePtr ptr);
void EnsurePatchLocationSize(CodePtr begin, size_t size);
#ifdef _WIN32
Xbyak::Reg64 ABI_RETURN = rax;
Xbyak::Reg64 ABI_PARAM1 = rcx;
Xbyak::Reg64 ABI_PARAM2 = rdx;
Xbyak::Reg64 ABI_PARAM3 = r8;
Xbyak::Reg64 ABI_PARAM4 = r9;
#else
Xbyak::Reg64 ABI_RETURN = rax;
Xbyak::Reg64 ABI_PARAM1 = rdi;
Xbyak::Reg64 ABI_PARAM2 = rsi;
Xbyak::Reg64 ABI_PARAM3 = rdx;
Xbyak::Reg64 ABI_PARAM4 = rcx;
#endif
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private:
UserCallbacks cb;
struct Consts {
Xbyak::Label FloatPositiveZero32;
Xbyak::Label FloatNegativeZero32;
Xbyak::Label FloatNaN32;
Xbyak::Label FloatNonSignMask32;
Xbyak::Label FloatPositiveZero64;
Xbyak::Label FloatNegativeZero64;
Xbyak::Label FloatNaN64;
Xbyak::Label FloatNonSignMask64;
Xbyak::Label FloatPenultimatePositiveDenormal64;
Xbyak::Label FloatMinS32;
Xbyak::Label FloatMaxS32;
Xbyak::Label FloatMinU32;
Xbyak::Label FloatMaxU32;
} consts;
void GenConstants();
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using RunCodeFuncType = void(*)(JitState*, CodePtr);
RunCodeFuncType run_code = nullptr;
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void GenRunCode();
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const void* return_from_run_code = nullptr;
const void* return_from_run_code_without_mxcsr_switch = nullptr;
void GenReturnFromRunCode();
const void* read_memory_8 = nullptr;
const void* read_memory_16 = nullptr;
const void* read_memory_32 = nullptr;
const void* read_memory_64 = nullptr;
const void* write_memory_8 = nullptr;
const void* write_memory_16 = nullptr;
const void* write_memory_32 = nullptr;
const void* write_memory_64 = nullptr;
void GenMemoryAccessors();
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};
} // namespace BackendX64
} // namespace Dynarmic