/* 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. */ #include #include #include "backend_x64/a64_emit_x64.h" #include "backend_x64/a64_jitstate.h" #include "backend_x64/block_of_code.h" #include "backend_x64/jitstate_info.h" #include "common/assert.h" #include "common/scope_exit.h" #include "dynarmic/A64/a64.h" #include "frontend/A64/translate/translate.h" #include "frontend/ir/basic_block.h" #include "ir_opt/passes.h" namespace Dynarmic { namespace A64 { using namespace BackendX64; template static Ret Thunk(A64::UserCallbacks* cb, Args... args) { return (cb->*fn)(std::forward(args)...); } static RunCodeCallbacks GenRunCodeCallbacks(A64::UserCallbacks* cb, CodePtr (*LookupBlock)(void* lookup_block_arg), void* arg) { return RunCodeCallbacks{ std::make_unique(LookupBlock, reinterpret_cast(arg)), std::make_unique(&Thunk<&A64::UserCallbacks::AddTicks, void, u64>, reinterpret_cast(cb)), std::make_unique(&Thunk<&A64::UserCallbacks::GetTicksRemaining, u64>, reinterpret_cast(cb)), }; } struct Jit::Impl final { public: explicit Impl(UserConfig conf) : conf(conf) , block_of_code(GenRunCodeCallbacks(conf.callbacks, &GetCurrentBlockThunk, this), JitStateInfo{jit_state}) , emitter(&block_of_code, conf) {} ~Impl() = default; void Run() { ASSERT(!is_executing); is_executing = true; SCOPE_EXIT({ this->is_executing = false; }); jit_state.halt_requested = false; block_of_code.RunCode(&jit_state); PerformRequestedCacheInvalidation(); } void ClearCache() { invalidate_entire_cache = true; RequestCacheInvalidation(); } void InvalidateCacheRange(u64 start_address, size_t length) { const auto end_address = static_cast(start_address + length - 1); const auto range = boost::icl::discrete_interval::closed(start_address, end_address); invalid_cache_ranges.add(range); RequestCacheInvalidation(); } void Reset() { ASSERT(!is_executing); jit_state = {}; } void HaltExecution() { jit_state.halt_requested = true; } u64 GetSP() const { return jit_state.sp; } void SetSP(u64 value) { jit_state.sp = value; } u64 GetPC() const { return jit_state.pc; } void SetPC(u64 value) { jit_state.pc = value; } u64 GetRegister(size_t index) const { if (index == 31) return GetSP(); return jit_state.reg.at(index); } void SetRegister(size_t index, u64 value) { if (index == 31) return SetSP(value); jit_state.reg.at(index) = value; } Vector GetVector(size_t index) const { return {jit_state.vec.at(index * 2), jit_state.vec.at(index * 2 + 1)}; } void SetVector(size_t index, Vector value) { jit_state.vec.at(index * 2) = value.low; jit_state.vec.at(index * 2 + 1) = value.high; } u32 GetFpcr() const { return jit_state.GetFpcr(); } void SetFpcr(u32 value) { jit_state.SetFpcr(value); } bool IsExecuting() const { return is_executing; } private: static CodePtr GetCurrentBlockThunk(void* thisptr) { Jit::Impl* this_ = reinterpret_cast(thisptr); return this_->GetCurrentBlock(); } CodePtr GetCurrentBlock() { IR::LocationDescriptor current_location{jit_state.GetUniqueHash()}; if (auto block = emitter.GetBasicBlock(current_location)) return block->entrypoint; constexpr size_t MINIMUM_REMAINING_CODESIZE = 1 * 1024 * 1024; if (block_of_code.SpaceRemaining() < MINIMUM_REMAINING_CODESIZE) { // Immediately evacuate cache invalidate_entire_cache = true; PerformRequestedCacheInvalidation(); } // JIT Compile IR::Block ir_block = A64::Translate(A64::LocationDescriptor{current_location}, [this](u64 vaddr) { return conf.callbacks->MemoryReadCode(vaddr); }); Optimization::DeadCodeElimination(ir_block); // printf("%s\n", IR::DumpBlock(ir_block).c_str()); Optimization::VerificationPass(ir_block); return emitter.Emit(ir_block).entrypoint; } void RequestCacheInvalidation() { if (is_executing) { jit_state.halt_requested = true; return; } PerformRequestedCacheInvalidation(); } void PerformRequestedCacheInvalidation() { if (!invalidate_entire_cache && invalid_cache_ranges.empty()) { return; } jit_state.ResetRSB(); if (invalidate_entire_cache) { block_of_code.ClearCache(); emitter.ClearCache(); } else { emitter.InvalidateCacheRanges(invalid_cache_ranges); } invalid_cache_ranges.clear(); invalidate_entire_cache = false; } bool is_executing = false; UserConfig conf; A64JitState jit_state; BlockOfCode block_of_code; A64EmitX64 emitter; bool invalidate_entire_cache = false; boost::icl::interval_set invalid_cache_ranges; }; Jit::Jit(UserConfig conf) : impl(std::make_unique(conf)) {} Jit::~Jit() = default; void Jit::Run() { impl->Run(); } void Jit::ClearCache() { impl->ClearCache(); } void Jit::InvalidateCacheRange(u64 start_address, size_t length) { impl->InvalidateCacheRange(start_address, length); } void Jit::Reset() { impl->Reset(); } void Jit::HaltExecution() { impl->HaltExecution(); } u64 Jit::GetSP() const { return impl->GetSP(); } void Jit::SetSP(u64 value) { impl->SetSP(value); } u64 Jit::GetPC() const { return impl->GetPC(); } void Jit::SetPC(u64 value) { impl->SetPC(value); } u64 Jit::GetRegister(size_t index) const { return impl->GetRegister(index); } void Jit::SetRegister(size_t index, u64 value) { impl->SetRegister(index, value); } Jit::Vector Jit::GetVector(size_t index) const { return impl->GetVector(index); } void Jit::SetVector(size_t index, Vector value) { impl->SetVector(index, value); } u32 Jit::GetFpcr() const { return impl->GetFpcr(); } void Jit::SetFpcr(u32 value) { impl->SetFpcr(value); } bool Jit::IsExecuting() const { return impl->IsExecuting(); } } // namespace A64 } // namespace Dynarmic