#include "jit.h" #include "jitintern.h" #include "printf.h" extern PString *TypeString; extern PStruct *TypeVector2; extern PStruct *TypeVector3; static void OutputJitLog(const asmjit::StringLogger &logger); JitFuncPtr JitCompile(VMScriptFunction *sfunc) { #if 0 if (strcmp(sfunc->PrintableName.GetChars(), "StatusScreen.drawNum") != 0) return nullptr; #endif using namespace asmjit; StringLogger logger; try { ThrowingErrorHandler errorHandler; CodeHolder code; code.init(GetHostCodeInfo()); code.setErrorHandler(&errorHandler); code.setLogger(&logger); JitCompiler compiler(&code, sfunc); return reinterpret_cast(AddJitFunction(&code, &compiler)); } catch (const CRecoverableError &e) { OutputJitLog(logger); Printf("%s: Unexpected JIT error: %s\n",sfunc->PrintableName.GetChars(), e.what()); return nullptr; } } void JitDumpLog(FILE *file, VMScriptFunction *sfunc) { using namespace asmjit; StringLogger logger; try { ThrowingErrorHandler errorHandler; CodeHolder code; code.init(GetHostCodeInfo()); code.setErrorHandler(&errorHandler); code.setLogger(&logger); JitCompiler compiler(&code, sfunc); compiler.Codegen(); fwrite(logger.getString(), logger.getLength(), 1, file); } catch (const std::exception &e) { fwrite(logger.getString(), logger.getLength(), 1, file); FString err; err.Format("Unexpected JIT error: %s\n", e.what()); fwrite(err.GetChars(), err.Len(), 1, file); fclose(file); I_FatalError("Unexpected JIT error: %s\n", e.what()); } } static void OutputJitLog(const asmjit::StringLogger &logger) { // Write line by line since I_FatalError seems to cut off long strings const char *pos = logger.getString(); const char *end = pos; while (*end) { if (*end == '\n') { FString substr(pos, (int)(ptrdiff_t)(end - pos)); Printf("%s\n", substr.GetChars()); pos = end + 1; } end++; } if (pos != end) Printf("%s\n", pos); } ///////////////////////////////////////////////////////////////////////////// static const char *OpNames[NUM_OPS] = { #define xx(op, name, mode, alt, kreg, ktype) #op, #include "vmops.h" #undef xx }; asmjit::CCFunc *JitCompiler::Codegen() { Setup(); int lastLine = -1; pc = sfunc->Code; auto end = pc + sfunc->CodeSize; while (pc != end) { int i = (int)(ptrdiff_t)(pc - sfunc->Code); op = pc->op; int curLine = sfunc->PCToLine(pc); if (curLine != lastLine) { lastLine = curLine; auto label = cc.newLabel(); cc.bind(label); JitLineInfo info; info.Label = label; info.LineNumber = curLine; LineInfo.Push(info); } if (op != OP_PARAM && op != OP_PARAMI && op != OP_VTBL) { FString lineinfo; lineinfo.Format("; line %d: %02x%02x%02x%02x %s", curLine, pc->op, pc->a, pc->b, pc->c, OpNames[op]); cc.comment("", 0); cc.comment(lineinfo.GetChars(), lineinfo.Len()); } labels[i].cursor = cc.getCursor(); ResetTemp(); EmitOpcode(); pc++; } BindLabels(); cc.endFunc(); cc.finalize(); auto code = cc.getCode (); for (unsigned int j = 0; j < LineInfo.Size (); j++) { auto info = LineInfo[j]; if (!code->isLabelValid (info.Label)) { continue; } info.InstructionIndex = code->getLabelOffset (info.Label); LineInfo[j] = info; } std::stable_sort(LineInfo.begin(), LineInfo.end(), [](const JitLineInfo &a, const JitLineInfo &b) { return a.InstructionIndex < b.InstructionIndex; }); return func; } void JitCompiler::EmitOpcode() { switch (op) { #define xx(op, name, mode, alt, kreg, ktype) case OP_##op: Emit##op(); break; #include "vmops.h" #undef xx default: I_FatalError("JIT error: Unknown VM opcode %d\n", op); break; } } void JitCompiler::BindLabels() { asmjit::CBNode *cursor = cc.getCursor(); unsigned int size = labels.Size(); for (unsigned int i = 0; i < size; i++) { const OpcodeLabel &label = labels[i]; if (label.inUse) { cc.setCursor(label.cursor); cc.bind(label.label); } } cc.setCursor(cursor); } void JitCompiler::CheckVMFrame() { if (!vmframeAllocated) { auto cursor = cc.getCursor(); cc.setCursor(vmframeCursor); auto vmstack = cc.newStack(sfunc->StackSize, 16, "vmstack"); vmframe = cc.newIntPtr("vmframe"); cc.lea(vmframe, vmstack); cc.setCursor(cursor); vmframeAllocated = true; } } asmjit::X86Gp JitCompiler::GetCallReturns() { if (!callReturnsAllocated) { auto cursor = cc.getCursor(); cc.setCursor(callReturnsCursor); auto stackalloc = cc.newStack(sizeof(VMReturn) * MAX_RETURNS, alignof(VMReturn), "stackalloc"); callReturns = cc.newIntPtr("callReturns"); cc.lea(callReturns, stackalloc); cc.setCursor(cursor); callReturnsAllocated = true; } return callReturns; } void JitCompiler::Setup() { using namespace asmjit; ResetTemp(); static const char *marks = "======================================================="; cc.comment("", 0); cc.comment(marks, 56); FString funcname; funcname.Format("Function: %s", sfunc->PrintableName.GetChars()); cc.comment(funcname.GetChars(), funcname.Len()); cc.comment(marks, 56); cc.comment("", 0); auto unusedFunc = cc.newIntPtr("func"); // VMFunction* args = cc.newIntPtr("args"); // VMValue *params numargs = cc.newInt32("numargs"); // int numargs ret = cc.newIntPtr("ret"); // VMReturn *ret numret = cc.newInt32("numret"); // int numret func = cc.addFunc(FuncSignature5()); cc.setArg(0, unusedFunc); cc.setArg(1, args); cc.setArg(2, numargs); cc.setArg(3, ret); cc.setArg(4, numret); callReturnsCursor = cc.getCursor(); konstd = sfunc->KonstD; konstf = sfunc->KonstF; konsts = sfunc->KonstS; konsta = sfunc->KonstA; labels.Resize(sfunc->CodeSize); CreateRegisters(); IncrementVMCalls(); SetupFrame(); } void JitCompiler::SetupFrame() { // the VM version reads this from the stack, but it is constant data offsetParams = ((int)sizeof(VMFrame) + 15) & ~15; offsetF = offsetParams + (int)(sfunc->MaxParam * sizeof(VMValue)); offsetS = offsetF + (int)(sfunc->NumRegF * sizeof(double)); offsetA = offsetS + (int)(sfunc->NumRegS * sizeof(FString)); offsetD = offsetA + (int)(sfunc->NumRegA * sizeof(void*)); offsetExtra = (offsetD + (int)(sfunc->NumRegD * sizeof(int32_t)) + 15) & ~15; if (sfunc->SpecialInits.Size() == 0 && sfunc->NumRegS == 0 && sfunc->ExtraSpace == 0) { SetupSimpleFrame(); } else { SetupFullVMFrame(); } } void JitCompiler::SetupSimpleFrame() { using namespace asmjit; // This is a simple frame with no constructors or destructors. Allocate it on the stack ourselves. vmframeCursor = cc.getCursor(); int argsPos = 0; int regd = 0, regf = 0, rega = 0; for (unsigned int i = 0; i < sfunc->Proto->ArgumentTypes.Size(); i++) { const PType *type = sfunc->Proto->ArgumentTypes[i]; if (sfunc->ArgFlags.Size() && sfunc->ArgFlags[i] & (VARF_Out | VARF_Ref)) { cc.mov(regA[rega++], x86::ptr(args, argsPos++ * sizeof(VMValue) + offsetof(VMValue, a))); } else if (type == TypeVector2) { cc.movsd(regF[regf++], x86::qword_ptr(args, argsPos++ * sizeof(VMValue) + offsetof(VMValue, f))); cc.movsd(regF[regf++], x86::qword_ptr(args, argsPos++ * sizeof(VMValue) + offsetof(VMValue, f))); } else if (type == TypeVector3) { cc.movsd(regF[regf++], x86::qword_ptr(args, argsPos++ * sizeof(VMValue) + offsetof(VMValue, f))); cc.movsd(regF[regf++], x86::qword_ptr(args, argsPos++ * sizeof(VMValue) + offsetof(VMValue, f))); cc.movsd(regF[regf++], x86::qword_ptr(args, argsPos++ * sizeof(VMValue) + offsetof(VMValue, f))); } else if (type == TypeFloat64) { cc.movsd(regF[regf++], x86::qword_ptr(args, argsPos++ * sizeof(VMValue) + offsetof(VMValue, f))); } else if (type == TypeString) { I_FatalError("JIT: Strings are not supported yet for simple frames"); } else if (type->isIntCompatible()) { cc.mov(regD[regd++], x86::dword_ptr(args, argsPos++ * sizeof(VMValue) + offsetof(VMValue, i))); } else { cc.mov(regA[rega++], x86::ptr(args, argsPos++ * sizeof(VMValue) + offsetof(VMValue, a))); } } const char *errorDetails = nullptr; if (sfunc->NumArgs != argsPos) { errorDetails = "arguments"; } else if (regd > sfunc->NumRegD) { errorDetails = "integer registers"; } else if (regf > sfunc->NumRegF) { errorDetails = "floating point registers"; } else if (rega > sfunc->NumRegA) { errorDetails = "address registers"; } if (errorDetails) { I_FatalError("JIT: inconsistent number of %s for function %s", errorDetails, sfunc->PrintableName.GetChars()); } for (int i = regd; i < sfunc->NumRegD; i++) cc.xor_(regD[i], regD[i]); for (int i = regf; i < sfunc->NumRegF; i++) cc.xorpd(regF[i], regF[i]); for (int i = rega; i < sfunc->NumRegA; i++) cc.xor_(regA[i], regA[i]); } static VMFrameStack *CreateFullVMFrame(VMScriptFunction *func, VMValue *args, int numargs) { VMFrameStack *stack = &GlobalVMStack; VMFrame *newf = stack->AllocFrame(func); VMFillParams(args, newf, numargs); return stack; } void JitCompiler::SetupFullVMFrame() { using namespace asmjit; stack = cc.newIntPtr("stack"); auto allocFrame = CreateCall(CreateFullVMFrame); allocFrame->setRet(0, stack); allocFrame->setArg(0, imm_ptr(sfunc)); allocFrame->setArg(1, args); allocFrame->setArg(2, numargs); vmframe = cc.newIntPtr("vmframe"); cc.mov(vmframe, x86::ptr(stack)); // stack->Blocks cc.mov(vmframe, x86::ptr(vmframe, VMFrameStack::OffsetLastFrame())); // Blocks->LastFrame vmframeAllocated = true; for (int i = 0; i < sfunc->NumRegD; i++) cc.mov(regD[i], x86::dword_ptr(vmframe, offsetD + i * sizeof(int32_t))); for (int i = 0; i < sfunc->NumRegF; i++) cc.movsd(regF[i], x86::qword_ptr(vmframe, offsetF + i * sizeof(double))); for (int i = 0; i < sfunc->NumRegS; i++) cc.lea(regS[i], x86::ptr(vmframe, offsetS + i * sizeof(FString))); for (int i = 0; i < sfunc->NumRegA; i++) cc.mov(regA[i], x86::ptr(vmframe, offsetA + i * sizeof(void*))); } static void PopFullVMFrame(VMFrameStack *stack) { stack->PopFrame(); } void JitCompiler::EmitPopFrame() { if (sfunc->SpecialInits.Size() != 0 || sfunc->NumRegS != 0 || sfunc->ExtraSpace != 0) { auto popFrame = CreateCall(PopFullVMFrame); popFrame->setArg(0, stack); } } void JitCompiler::IncrementVMCalls() { // VMCalls[0]++ auto vmcallsptr = newTempIntPtr(); auto vmcalls = newTempInt32(); cc.mov(vmcallsptr, asmjit::imm_ptr(VMCalls)); cc.mov(vmcalls, asmjit::x86::dword_ptr(vmcallsptr)); cc.add(vmcalls, (int)1); cc.mov(asmjit::x86::dword_ptr(vmcallsptr), vmcalls); } void JitCompiler::CreateRegisters() { regD.Resize(sfunc->NumRegD); regF.Resize(sfunc->NumRegF); regA.Resize(sfunc->NumRegA); regS.Resize(sfunc->NumRegS); for (int i = 0; i < sfunc->NumRegD; i++) { regname.Format("regD%d", i); regD[i] = cc.newInt32(regname.GetChars()); } for (int i = 0; i < sfunc->NumRegF; i++) { regname.Format("regF%d", i); regF[i] = cc.newXmmSd(regname.GetChars()); } for (int i = 0; i < sfunc->NumRegS; i++) { regname.Format("regS%d", i); regS[i] = cc.newIntPtr(regname.GetChars()); } for (int i = 0; i < sfunc->NumRegA; i++) { regname.Format("regA%d", i); regA[i] = cc.newIntPtr(regname.GetChars()); } } void JitCompiler::EmitNullPointerThrow(int index, EVMAbortException reason) { auto label = EmitThrowExceptionLabel(reason); cc.test(regA[index], regA[index]); cc.je(label); } void JitCompiler::ThrowException(int reason) { ThrowAbortException((EVMAbortException)reason, nullptr); } void JitCompiler::EmitThrowException(EVMAbortException reason) { auto call = CreateCall(&JitCompiler::ThrowException); call->setArg(0, asmjit::imm(reason)); } asmjit::Label JitCompiler::EmitThrowExceptionLabel(EVMAbortException reason) { auto label = cc.newLabel(); auto cursor = cc.getCursor(); cc.bind(label); EmitThrowException(reason); cc.setCursor(cursor); JitLineInfo info; info.Label = label; info.LineNumber = sfunc->PCToLine(pc); LineInfo.Push(info); return label; } asmjit::X86Gp JitCompiler::CheckRegD(int r0, int r1) { if (r0 != r1) { return regD[r0]; } else { auto copy = newTempInt32(); cc.mov(copy, regD[r0]); return copy; } } asmjit::X86Xmm JitCompiler::CheckRegF(int r0, int r1) { if (r0 != r1) { return regF[r0]; } else { auto copy = newTempXmmSd(); cc.movsd(copy, regF[r0]); return copy; } } asmjit::X86Xmm JitCompiler::CheckRegF(int r0, int r1, int r2) { if (r0 != r1 && r0 != r2) { return regF[r0]; } else { auto copy = newTempXmmSd(); cc.movsd(copy, regF[r0]); return copy; } } asmjit::X86Xmm JitCompiler::CheckRegF(int r0, int r1, int r2, int r3) { if (r0 != r1 && r0 != r2 && r0 != r3) { return regF[r0]; } else { auto copy = newTempXmmSd(); cc.movsd(copy, regF[r0]); return copy; } } asmjit::X86Gp JitCompiler::CheckRegS(int r0, int r1) { if (r0 != r1) { return regS[r0]; } else { auto copy = newTempIntPtr(); cc.mov(copy, regS[r0]); return copy; } } asmjit::X86Gp JitCompiler::CheckRegA(int r0, int r1) { if (r0 != r1) { return regA[r0]; } else { auto copy = newTempIntPtr(); cc.mov(copy, regA[r0]); return copy; } } void JitCompiler::EmitNOP() { cc.nop(); }