#pragma once // Include asmjit with warnings ignored #define ASMJIT_EMBED #define ASMJIT_DEBUG #ifdef _MSC_VER #pragma warning(push, 0) #include #pragma warning(pop) #else #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wall" #pragma GCC diagnostic ignored "-Wextra" #pragma GCC diagnostic ignored "-Wold-style-cast" #pragma GCC diagnostic ignored "-Wunused-parameter" #include #pragma GCC diagnostic pop #endif #include #include enum class jit_class { ppu_code, ppu_data, spu_code, spu_data, }; // ASMJIT runtime for emitting code in a single 2G region struct jit_runtime final : asmjit::HostRuntime { jit_runtime(); ~jit_runtime() override; // Allocate executable memory asmjit::Error _add(void** dst, asmjit::CodeHolder* code) noexcept override; // Do nothing (deallocation is delayed) asmjit::Error _release(void* p) noexcept override; // Allocate memory static u8* alloc(usz size, uint align, bool exec = true) noexcept; // Should be called at least once after global initialization static void initialize(); // Deallocate all memory static void finalize() noexcept; }; namespace asmjit { // Should only be used to build global functions asmjit::Runtime& get_global_runtime(); // Emit xbegin and adjacent loop, return label at xbegin (don't use xabort please) template [[nodiscard]] inline asmjit::Label build_transaction_enter(asmjit::X86Assembler& c, asmjit::Label fallback, F func) { Label fall = c.newLabel(); Label begin = c.newLabel(); c.jmp(begin); c.bind(fall); // Don't repeat on zero status (may indicate syscall or interrupt) c.test(x86::eax, x86::eax); c.jz(fallback); // First invoked after failure (can fallback to proceed, or jump anywhere else) func(); // Other bad statuses are ignored regardless of repeat flag (TODO) c.align(kAlignCode, 16); c.bind(begin); return fall; // xbegin should be issued manually, allows to add more check before entering transaction } // Helper to spill RDX (EDX) register for RDTSC inline void build_swap_rdx_with(asmjit::X86Assembler& c, std::array& args, const asmjit::X86Gp& with) { #ifdef _WIN32 c.xchg(args[1], with); args[1] = with; #else c.xchg(args[2], with); args[2] = with; #endif } // Get full RDTSC value into chosen register (clobbers rax/rdx or saves only rax with other target) inline void build_get_tsc(asmjit::X86Assembler& c, const asmjit::X86Gp& to = asmjit::x86::rax) { if (&to != &x86::rax && &to != &x86::rdx) { // Swap to save its contents c.xchg(x86::rax, to); } c.rdtsc(); c.shl(x86::rdx, 32); if (&to == &x86::rax) { c.or_(x86::rax, x86::rdx); } else if (&to == &x86::rdx) { c.or_(x86::rdx, x86::rax); } else { // Swap back, maybe there is more effective way to do it c.xchg(x86::rax, to); c.mov(to.r32(), to.r32()); c.or_(to.r64(), x86::rdx); } } } // Build runtime function with asmjit::X86Assembler template inline FT build_function_asm(F&& builder) { using namespace asmjit; auto& rt = get_global_runtime(); CodeHolder code; code.init(rt.getCodeInfo()); code._globalHints = asmjit::CodeEmitter::kHintOptimizedAlign; std::array args; #ifdef _WIN32 args[0] = x86::rcx; args[1] = x86::rdx; args[2] = x86::r8; args[3] = x86::r9; #else args[0] = x86::rdi; args[1] = x86::rsi; args[2] = x86::rdx; args[3] = x86::rcx; #endif X86Assembler compiler(&code); builder(std::ref(compiler), args); ensure(compiler.getLastError() == 0); FT result; if (rt.add(&result, &code)) { return nullptr; } return result; } #ifdef LLVM_AVAILABLE #include #include #include #include #include "util/types.hpp" #include "mutex.h" #ifdef _MSC_VER #pragma warning(push, 0) #else #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wall" #pragma GCC diagnostic ignored "-Wextra" #pragma GCC diagnostic ignored "-Wold-style-cast" #pragma GCC diagnostic ignored "-Wsuggest-override" #pragma GCC diagnostic ignored "-Wunused-parameter" #ifdef __clang__ #pragma clang diagnostic ignored "-Winconsistent-missing-override" #endif #endif #include "llvm/IR/LLVMContext.h" #include "llvm/IR/Module.h" #include "llvm/ExecutionEngine/ExecutionEngine.h" #ifdef _MSC_VER #pragma warning(pop) #else #pragma GCC diagnostic pop #endif // Temporary compiler interface class jit_compiler final { // Local LLVM context llvm::LLVMContext m_context; // Execution instance std::unique_ptr m_engine; // Arch std::string m_cpu; public: jit_compiler(const std::unordered_map& _link, const std::string& _cpu, u32 flags = 0); ~jit_compiler(); // Get LLVM context auto& get_context() { return m_context; } auto& get_engine() const { return *m_engine; } // Add module (path to obj cache dir) void add(std::unique_ptr _module, const std::string& path); // Add module (not cached) void add(std::unique_ptr _module); // Add object (path to obj file) void add(const std::string& path); // Check object file static bool check(const std::string& path); // Finalize void fin(); // Get compiled function address u64 get(const std::string& name); // Get CPU info static std::string cpu(const std::string& _cpu); }; #endif