dynarmic/src/backend/x64/a32_interface.cpp

300 lines
9 KiB
C++

/* 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 <memory>
#include <boost/icl/interval_set.hpp>
#include <fmt/format.h>
#include "backend/x64/a32_emit_x64.h"
#include "backend/x64/a32_jitstate.h"
#include "backend/x64/block_of_code.h"
#include "backend/x64/callback.h"
#include "backend/x64/devirtualize.h"
#include "backend/x64/jitstate_info.h"
#include "common/assert.h"
#include "common/common_types.h"
#include "common/llvm_disassemble.h"
#include "common/scope_exit.h"
#include "dynarmic/A32/a32.h"
#include "dynarmic/A32/context.h"
#include "frontend/A32/translate/translate.h"
#include "frontend/ir/basic_block.h"
#include "frontend/ir/location_descriptor.h"
#include "ir_opt/passes.h"
namespace Dynarmic::A32 {
using namespace BackendX64;
static RunCodeCallbacks GenRunCodeCallbacks(A32::UserCallbacks* cb, CodePtr (*LookupBlock)(void* lookup_block_arg), void* arg) {
return RunCodeCallbacks{
std::make_unique<ArgCallback>(LookupBlock, reinterpret_cast<u64>(arg)),
std::make_unique<ArgCallback>(Devirtualize<&A32::UserCallbacks::AddTicks>(cb)),
std::make_unique<ArgCallback>(Devirtualize<&A32::UserCallbacks::GetTicksRemaining>(cb)),
};
}
struct Jit::Impl {
Impl(Jit* jit, A32::UserConfig config)
: block_of_code(GenRunCodeCallbacks(config.callbacks, &GetCurrentBlock, this), JitStateInfo{jit_state})
, emitter(block_of_code, config, jit)
, config(config)
, jit_interface(jit)
{}
A32JitState jit_state;
BlockOfCode block_of_code;
A32EmitX64 emitter;
const A32::UserConfig config;
// Requests made during execution to invalidate the cache are queued up here.
size_t invalid_cache_generation = 0;
boost::icl::interval_set<u32> invalid_cache_ranges;
bool invalidate_entire_cache = false;
void Execute() {
const u32 new_rsb_ptr = (jit_state.rsb_ptr - 1) & A32JitState::RSBPtrMask;
if (jit_state.GetUniqueHash() == jit_state.rsb_location_descriptors[new_rsb_ptr]) {
jit_state.rsb_ptr = new_rsb_ptr;
block_of_code.RunCodeFrom(&jit_state, reinterpret_cast<CodePtr>(jit_state.rsb_codeptrs[new_rsb_ptr]));
} else {
block_of_code.RunCode(&jit_state);
}
}
std::string Disassemble(const IR::LocationDescriptor& descriptor) {
auto block = GetBasicBlock(descriptor);
std::string result = fmt::format("address: {}\nsize: {} bytes\n", block.entrypoint, block.size);
result += Common::DisassembleX64(block.entrypoint, reinterpret_cast<const char*>(block.entrypoint) + block.size);
return result;
}
void PerformCacheInvalidation() {
if (invalidate_entire_cache) {
jit_state.ResetRSB();
block_of_code.ClearCache();
emitter.ClearCache();
invalid_cache_ranges.clear();
invalidate_entire_cache = false;
invalid_cache_generation++;
return;
}
if (invalid_cache_ranges.empty()) {
return;
}
jit_state.ResetRSB();
emitter.InvalidateCacheRanges(invalid_cache_ranges);
invalid_cache_ranges.clear();
invalid_cache_generation++;
}
void RequestCacheInvalidation() {
if (jit_interface->is_executing) {
jit_state.halt_requested = true;
return;
}
PerformCacheInvalidation();
}
private:
Jit* jit_interface;
static CodePtr GetCurrentBlock(void* this_voidptr) {
Jit::Impl& this_ = *static_cast<Jit::Impl*>(this_voidptr);
A32JitState& jit_state = this_.jit_state;
u32 pc = jit_state.Reg[15];
A32::PSR cpsr{jit_state.Cpsr()};
A32::FPSCR fpscr{jit_state.FPSCR_mode};
A32::LocationDescriptor descriptor{pc, cpsr, fpscr};
return this_.GetBasicBlock(descriptor).entrypoint;
}
A32EmitX64::BlockDescriptor GetBasicBlock(IR::LocationDescriptor descriptor) {
auto block = emitter.GetBasicBlock(descriptor);
if (block)
return *block;
constexpr size_t MINIMUM_REMAINING_CODESIZE = 1 * 1024 * 1024;
if (block_of_code.SpaceRemaining() < MINIMUM_REMAINING_CODESIZE) {
invalidate_entire_cache = true;
PerformCacheInvalidation();
}
IR::Block ir_block = A32::Translate(A32::LocationDescriptor{descriptor}, [this](u32 vaddr) { return config.callbacks->MemoryReadCode(vaddr); }, {config.define_unpredictable_behaviour});
Optimization::A32GetSetElimination(ir_block);
Optimization::DeadCodeElimination(ir_block);
Optimization::A32ConstantMemoryReads(ir_block, config.callbacks);
Optimization::ConstantPropagation(ir_block);
Optimization::DeadCodeElimination(ir_block);
Optimization::VerificationPass(ir_block);
return emitter.Emit(ir_block);
}
};
Jit::Jit(UserConfig config) : impl(std::make_unique<Impl>(this, config)) {}
Jit::~Jit() {}
void Jit::Run() {
ASSERT(!is_executing);
is_executing = true;
SCOPE_EXIT { this->is_executing = false; };
impl->jit_state.halt_requested = false;
impl->Execute();
impl->PerformCacheInvalidation();
}
void Jit::ClearCache() {
impl->invalidate_entire_cache = true;
impl->RequestCacheInvalidation();
}
void Jit::InvalidateCacheRange(std::uint32_t start_address, std::size_t length) {
impl->invalid_cache_ranges.add(boost::icl::discrete_interval<u32>::closed(start_address, static_cast<u32>(start_address + length - 1)));
impl->RequestCacheInvalidation();
}
void Jit::Reset() {
ASSERT(!is_executing);
impl->jit_state = {};
}
void Jit::HaltExecution() {
impl->jit_state.halt_requested = true;
}
std::array<u32, 16>& Jit::Regs() {
return impl->jit_state.Reg;
}
const std::array<u32, 16>& Jit::Regs() const {
return impl->jit_state.Reg;
}
std::array<u32, 64>& Jit::ExtRegs() {
return impl->jit_state.ExtReg;
}
const std::array<u32, 64>& Jit::ExtRegs() const {
return impl->jit_state.ExtReg;
}
u32 Jit::Cpsr() const {
return impl->jit_state.Cpsr();
}
void Jit::SetCpsr(u32 value) {
return impl->jit_state.SetCpsr(value);
}
u32 Jit::Fpscr() const {
return impl->jit_state.Fpscr();
}
void Jit::SetFpscr(u32 value) {
return impl->jit_state.SetFpscr(value);
}
Context Jit::SaveContext() const {
Context ctx;
SaveContext(ctx);
return ctx;
}
struct Context::Impl {
A32JitState jit_state;
size_t invalid_cache_generation;
};
Context::Context() : impl(std::make_unique<Context::Impl>()) { impl->jit_state.ResetRSB(); }
Context::~Context() = default;
Context::Context(const Context& ctx) : impl(std::make_unique<Context::Impl>(*ctx.impl)) {}
Context::Context(Context&& ctx) : impl(std::move(ctx.impl)) {}
Context& Context::operator=(const Context& ctx) {
*impl = *ctx.impl;
return *this;
}
Context& Context::operator=(Context&& ctx) {
impl = std::move(ctx.impl);
return *this;
}
std::array<std::uint32_t, 16>& Context::Regs() {
return impl->jit_state.Reg;
}
const std::array<std::uint32_t, 16>& Context::Regs() const {
return impl->jit_state.Reg;
}
std::array<std::uint32_t, 64>& Context::ExtRegs() {
return impl->jit_state.ExtReg;
}
const std::array<std::uint32_t, 64>& Context::ExtRegs() const {
return impl->jit_state.ExtReg;
}
/// View and modify CPSR.
std::uint32_t Context::Cpsr() const {
return impl->jit_state.Cpsr();
}
void Context::SetCpsr(std::uint32_t value) {
impl->jit_state.SetCpsr(value);
}
/// View and modify FPSCR.
std::uint32_t Context::Fpscr() const {
return impl->jit_state.Fpscr();
}
void Context::SetFpscr(std::uint32_t value) {
return impl->jit_state.SetFpscr(value);
}
void TransferJitState(A32JitState& dest, const A32JitState& src, bool reset_rsb) {
dest.CPSR_ge = src.CPSR_ge;
dest.CPSR_et = src.CPSR_et;
dest.CPSR_q = src.CPSR_q;
dest.CPSR_nzcv = src.CPSR_nzcv;
dest.CPSR_jaifm = src.CPSR_jaifm;
dest.Reg = src.Reg;
dest.ExtReg = src.ExtReg;
dest.guest_MXCSR = src.guest_MXCSR;
dest.FPSCR_IDC = src.FPSCR_IDC;
dest.FPSCR_UFC = src.FPSCR_UFC;
dest.FPSCR_mode = src.FPSCR_mode;
dest.FPSCR_nzcv = src.FPSCR_nzcv;
if (reset_rsb) {
dest.ResetRSB();
} else {
dest.rsb_ptr = src.rsb_ptr;
dest.rsb_location_descriptors = src.rsb_location_descriptors;
dest.rsb_codeptrs = src.rsb_codeptrs;
}
}
void Jit::SaveContext(Context& ctx) const {
TransferJitState(ctx.impl->jit_state, impl->jit_state, false);
ctx.impl->invalid_cache_generation = impl->invalid_cache_generation;
}
void Jit::LoadContext(const Context& ctx) {
bool reset_rsb = ctx.impl->invalid_cache_generation != impl->invalid_cache_generation;
TransferJitState(impl->jit_state, ctx.impl->jit_state, reset_rsb);
}
std::string Jit::Disassemble(const IR::LocationDescriptor& descriptor) {
return impl->Disassemble(descriptor);
}
} // namespace Dynarmic::A32