void JIT::compileOpCall(OpcodeID opcodeID, Instruction* instruction, unsigned)
{
int callee = instruction[1].u.operand;
int argCount = instruction[2].u.operand;
int registerOffset = instruction[3].u.operand;
// Handle eval
Jump wasEval;
if (opcodeID == op_call_eval) {
JITStubCall stubCall(this, cti_op_call_eval);
stubCall.addArgument(callee, regT0);
stubCall.addArgument(JIT::Imm32(registerOffset));
stubCall.addArgument(JIT::Imm32(argCount));
stubCall.call();
wasEval = branchPtr(NotEqual, regT0, TrustedImmPtr(JSValue::encode(JSValue())));
}
emitGetVirtualRegister(callee, regT0);
// Check for JSFunctions.
emitJumpSlowCaseIfNotJSCell(regT0);
addSlowCase(branchPtr(NotEqual, Address(regT0), TrustedImmPtr(m_globalData->jsFunctionVPtr)));
// Speculatively roll the callframe, assuming argCount will match the arity.
storePtr(callFrameRegister, Address(callFrameRegister, (RegisterFile::CallerFrame + registerOffset) * static_cast<int>(sizeof(Register))));
addPtr(Imm32(registerOffset * static_cast<int>(sizeof(Register))), callFrameRegister);
move(Imm32(argCount), regT1);
emitNakedCall(opcodeID == op_construct ? m_globalData->jitStubs->ctiVirtualConstruct() : m_globalData->jitStubs->ctiVirtualCall());
if (opcodeID == op_call_eval)
wasEval.link(this);
sampleCodeBlock(m_codeBlock);
}
void MacroAssemblerX86Common::probe(MacroAssemblerX86Common::ProbeFunction function, void* arg1, void* arg2)
{
push(RegisterID::esp);
push(RegisterID::eax);
move(TrustedImmPtr(arg2), RegisterID::eax);
push(RegisterID::eax);
move(TrustedImmPtr(arg1), RegisterID::eax);
push(RegisterID::eax);
move(TrustedImmPtr(reinterpret_cast<void*>(function)), RegisterID::eax);
push(RegisterID::eax);
move(TrustedImmPtr(reinterpret_cast<void*>(ctiMasmProbeTrampoline)), RegisterID::eax);
call(RegisterID::eax);
}
void JIT::compileOpCallVarargs(Instruction* instruction)
{
int callee = instruction[1].u.operand;
int argCountRegister = instruction[2].u.operand;
int registerOffset = instruction[3].u.operand;
emitLoad(callee, regT1, regT0);
emitLoadPayload(argCountRegister, regT2); // argCount
addPtr(Imm32(registerOffset), regT2, regT3); // registerOffset
emitJumpSlowCaseIfNotJSCell(callee, regT1);
addSlowCase(branchPtr(NotEqual, Address(regT0), TrustedImmPtr(m_globalData->jsFunctionVPtr)));
// Speculatively roll the callframe, assuming argCount will match the arity.
mul32(TrustedImm32(sizeof(Register)), regT3, regT3);
addPtr(callFrameRegister, regT3);
store32(TrustedImm32(JSValue::CellTag), tagFor(RegisterFile::CallerFrame, regT3));
storePtr(callFrameRegister, payloadFor(RegisterFile::CallerFrame, regT3));
move(regT3, callFrameRegister);
move(regT2, regT1); // argCount
emitNakedCall(m_globalData->jitStubs->ctiVirtualCall());
sampleCodeBlock(m_codeBlock);
}
void JIT::compileLoadVarargs(Instruction* instruction)
{
int thisValue = instruction[2].u.operand;
int arguments = instruction[3].u.operand;
int firstFreeRegister = instruction[4].u.operand;
killLastResultRegister();
JumpList slowCase;
JumpList end;
if (m_codeBlock->usesArguments() && arguments == m_codeBlock->argumentsRegister()) {
emitGetVirtualRegister(arguments, regT0);
slowCase.append(branchPtr(NotEqual, regT0, TrustedImmPtr(JSValue::encode(JSValue()))));
emitGetFromCallFrameHeader32(RegisterFile::ArgumentCount, regT0);
slowCase.append(branch32(Above, regT0, TrustedImm32(Arguments::MaxArguments + 1)));
// regT0: argumentCountIncludingThis
move(regT0, regT1);
add32(TrustedImm32(firstFreeRegister + RegisterFile::CallFrameHeaderSize), regT1);
lshift32(TrustedImm32(3), regT1);
addPtr(callFrameRegister, regT1);
// regT1: newCallFrame
slowCase.append(branchPtr(Below, AbsoluteAddress(m_globalData->interpreter->registerFile().addressOfEnd()), regT1));
// Initialize ArgumentCount.
emitFastArithReTagImmediate(regT0, regT2);
storePtr(regT2, Address(regT1, RegisterFile::ArgumentCount * static_cast<int>(sizeof(Register))));
// Initialize 'this'.
emitGetVirtualRegister(thisValue, regT2);
storePtr(regT2, Address(regT1, CallFrame::thisArgumentOffset() * static_cast<int>(sizeof(Register))));
// Copy arguments.
neg32(regT0);
signExtend32ToPtr(regT0, regT0);
end.append(branchAddPtr(Zero, Imm32(1), regT0));
// regT0: -argumentCount
Label copyLoop = label();
loadPtr(BaseIndex(callFrameRegister, regT0, TimesEight, CallFrame::thisArgumentOffset() * static_cast<int>(sizeof(Register))), regT2);
storePtr(regT2, BaseIndex(regT1, regT0, TimesEight, CallFrame::thisArgumentOffset() * static_cast<int>(sizeof(Register))));
branchAddPtr(NonZero, Imm32(1), regT0).linkTo(copyLoop, this);
end.append(jump());
}
if (m_codeBlock->usesArguments() && arguments == m_codeBlock->argumentsRegister())
slowCase.link(this);
JITStubCall stubCall(this, cti_op_load_varargs);
stubCall.addArgument(thisValue, regT0);
stubCall.addArgument(arguments, regT0);
stubCall.addArgument(Imm32(firstFreeRegister));
stubCall.call(regT1);
if (m_codeBlock->usesArguments() && arguments == m_codeBlock->argumentsRegister())
end.link(this);
}
void JIT::compileCallEvalSlowCase(Instruction* instruction, Vector<SlowCaseEntry>::iterator& iter)
{
CallLinkInfo* info = m_codeBlock->addCallLinkInfo();
info->setUpCall(CallLinkInfo::Call, CodeOrigin(m_bytecodeOffset), regT0);
linkSlowCase(iter);
int registerOffset = -instruction[4].u.operand;
addPtr(TrustedImm32(registerOffset * sizeof(Register) + sizeof(CallerFrameAndPC)), callFrameRegister, stackPointerRegister);
loadPtr(Address(stackPointerRegister, sizeof(Register) * JSStack::Callee - sizeof(CallerFrameAndPC)), regT0);
loadPtr(Address(stackPointerRegister, sizeof(Register) * JSStack::Callee - sizeof(CallerFrameAndPC)), regT1);
move(TrustedImmPtr(info), regT2);
emitLoad(JSStack::Callee, regT1, regT0);
MacroAssemblerCodeRef virtualThunk = virtualThunkFor(m_vm, *info);
info->setSlowStub(createJITStubRoutine(virtualThunk, *m_vm, nullptr, true));
emitNakedCall(virtualThunk.code());
addPtr(TrustedImm32(stackPointerOffsetFor(m_codeBlock) * sizeof(Register)), callFrameRegister, stackPointerRegister);
checkStackPointerAlignment();
sampleCodeBlock(m_codeBlock);
emitPutCallResult(instruction);
}
void JIT::compileOpCallSlowCase(OpcodeID opcodeID, Instruction* instruction, Vector<SlowCaseEntry>::iterator& iter, unsigned callLinkInfoIndex)
{
if (opcodeID == op_call_eval) {
compileCallEvalSlowCase(instruction, iter);
return;
}
linkSlowCase(iter);
if (opcodeID == op_tail_call || opcodeID == op_tail_call_varargs || opcodeID == op_tail_call_forward_arguments)
emitRestoreCalleeSaves();
move(TrustedImmPtr(m_callCompilationInfo[callLinkInfoIndex].callLinkInfo), regT2);
m_callCompilationInfo[callLinkInfoIndex].callReturnLocation = emitNakedCall(m_vm->getCTIStub(linkCallThunkGenerator).code());
if (opcodeID == op_tail_call || opcodeID == op_tail_call_varargs) {
abortWithReason(JITDidReturnFromTailCall);
return;
}
addPtr(TrustedImm32(stackPointerOffsetFor(m_codeBlock) * sizeof(Register)), callFrameRegister, stackPointerRegister);
checkStackPointerAlignment();
sampleCodeBlock(m_codeBlock);
emitPutCallResult(instruction);
}
void JITCompiler::compileExceptionHandlers()
{
if (m_exceptionChecks.empty() && m_exceptionChecksWithCallFrameRollback.empty())
return;
Jump doLookup;
if (!m_exceptionChecksWithCallFrameRollback.empty()) {
m_exceptionChecksWithCallFrameRollback.link(this);
emitGetCallerFrameFromCallFrameHeaderPtr(GPRInfo::argumentGPR1);
doLookup = jump();
}
if (!m_exceptionChecks.empty())
m_exceptionChecks.link(this);
// lookupExceptionHandler is passed two arguments, the VM and the exec (the CallFrame*).
move(GPRInfo::callFrameRegister, GPRInfo::argumentGPR1);
if (doLookup.isSet())
doLookup.link(this);
move(TrustedImmPtr(vm()), GPRInfo::argumentGPR0);
#if CPU(X86)
// FIXME: should use the call abstraction, but this is currently in the SpeculativeJIT layer!
poke(GPRInfo::argumentGPR0);
poke(GPRInfo::argumentGPR1, 1);
#endif
m_calls.append(CallLinkRecord(call(), lookupExceptionHandler));
jumpToExceptionHandler();
}
void JIT::compileOpCallSlowCase(Instruction* instruction, Vector<SlowCaseEntry>::iterator& iter, unsigned callLinkInfoIndex, OpcodeID opcodeID)
{
int argCount = instruction[2].u.operand;
int registerOffset = instruction[3].u.operand;
linkSlowCase(iter);
// Fast check for JS function.
Jump callLinkFailNotObject = emitJumpIfNotJSCell(regT0);
Jump callLinkFailNotJSFunction = branchPtr(NotEqual, Address(regT0), TrustedImmPtr(m_globalData->jsFunctionVPtr));
// Speculatively roll the callframe, assuming argCount will match the arity.
storePtr(callFrameRegister, Address(callFrameRegister, (RegisterFile::CallerFrame + registerOffset) * static_cast<int>(sizeof(Register))));
addPtr(Imm32(registerOffset * static_cast<int>(sizeof(Register))), callFrameRegister);
move(Imm32(argCount), regT1);
m_callStructureStubCompilationInfo[callLinkInfoIndex].callReturnLocation = emitNakedCall(opcodeID == op_construct ? m_globalData->jitStubs->ctiVirtualConstructLink() : m_globalData->jitStubs->ctiVirtualCallLink());
// Done! - return back to the hot path.
ASSERT(OPCODE_LENGTH(op_call) == OPCODE_LENGTH(op_call_eval));
ASSERT(OPCODE_LENGTH(op_call) == OPCODE_LENGTH(op_construct));
emitJumpSlowToHot(jump(), OPCODE_LENGTH(op_call));
// This handles host functions
callLinkFailNotObject.link(this);
callLinkFailNotJSFunction.link(this);
JITStubCall stubCall(this, opcodeID == op_construct ? cti_op_construct_NotJSConstruct : cti_op_call_NotJSFunction);
stubCall.addArgument(regT0);
stubCall.addArgument(JIT::Imm32(registerOffset));
stubCall.addArgument(JIT::Imm32(argCount));
stubCall.call();
sampleCodeBlock(m_codeBlock);
}
void JIT::compileOpCallVarargs(Instruction* instruction)
{
int callee = instruction[1].u.operand;
int argCountRegister = instruction[2].u.operand;
int registerOffset = instruction[3].u.operand;
emitGetVirtualRegister(argCountRegister, regT1);
emitFastArithImmToInt(regT1);
emitGetVirtualRegister(callee, regT0);
addPtr(Imm32(registerOffset), regT1, regT2);
// Check for JSFunctions.
emitJumpSlowCaseIfNotJSCell(regT0);
addSlowCase(branchPtr(NotEqual, Address(regT0), TrustedImmPtr(m_globalData->jsFunctionVPtr)));
// Speculatively roll the callframe, assuming argCount will match the arity.
mul32(TrustedImm32(sizeof(Register)), regT2, regT2);
intptr_t offset = (intptr_t)sizeof(Register) * (intptr_t)RegisterFile::CallerFrame;
addPtr(Imm32((int32_t)offset), regT2, regT3);
addPtr(callFrameRegister, regT3);
storePtr(callFrameRegister, regT3);
addPtr(regT2, callFrameRegister);
emitNakedCall(m_globalData->jitStubs->ctiVirtualCall());
sampleCodeBlock(m_codeBlock);
}
void AssemblyHelpers::purifyNaN(FPRReg fpr)
{
MacroAssembler::Jump notNaN = branchDouble(DoubleEqual, fpr, fpr);
static const double NaN = PNaN;
loadDouble(TrustedImmPtr(&NaN), fpr);
notNaN.link(this);
}
void JIT::privateCompileClosureCall(CallLinkInfo* callLinkInfo, CodeBlock* calleeCodeBlock, Structure* expectedStructure, ExecutableBase* expectedExecutable, MacroAssemblerCodePtr codePtr)
{
JumpList slowCases;
slowCases.append(branch32(NotEqual, regT1, TrustedImm32(JSValue::CellTag)));
slowCases.append(branchPtr(NotEqual, Address(regT0, JSCell::structureOffset()), TrustedImmPtr(expectedStructure)));
slowCases.append(branchPtr(NotEqual, Address(regT0, JSFunction::offsetOfExecutable()), TrustedImmPtr(expectedExecutable)));
loadPtr(Address(regT0, JSFunction::offsetOfScopeChain()), regT1);
emitPutCellToCallFrameHeader(regT1, JSStack::ScopeChain);
Call call = nearCall();
Jump done = jump();
slowCases.link(this);
move(TrustedImmPtr(callLinkInfo->callReturnLocation.executableAddress()), regT2);
restoreReturnAddressBeforeReturn(regT2);
Jump slow = jump();
LinkBuffer patchBuffer(*m_vm, this, m_codeBlock);
patchBuffer.link(call, FunctionPtr(codePtr.executableAddress()));
patchBuffer.link(done, callLinkInfo->hotPathOther.labelAtOffset(0));
patchBuffer.link(slow, CodeLocationLabel(m_vm->getCTIStub(virtualCallThunkGenerator).code()));
RefPtr<ClosureCallStubRoutine> stubRoutine = adoptRef(new ClosureCallStubRoutine(
FINALIZE_CODE(
patchBuffer,
("Baseline closure call stub for %s, return point %p, target %p (%s)",
toCString(*m_codeBlock).data(),
callLinkInfo->hotPathOther.labelAtOffset(0).executableAddress(),
codePtr.executableAddress(),
toCString(pointerDump(calleeCodeBlock)).data())),
*m_vm, m_codeBlock->ownerExecutable(), expectedStructure, expectedExecutable,
callLinkInfo->codeOrigin));
RepatchBuffer repatchBuffer(m_codeBlock);
repatchBuffer.replaceWithJump(
RepatchBuffer::startOfBranchPtrWithPatchOnRegister(callLinkInfo->hotPathBegin),
CodeLocationLabel(stubRoutine->code().code()));
repatchBuffer.relink(callLinkInfo->callReturnLocation, m_vm->getCTIStub(virtualCallThunkGenerator).code());
callLinkInfo->stub = stubRoutine.release();
}
void JIT::compileCallEval()
{
JITStubCall stubCall(this, cti_op_call_eval); // Initializes ScopeChain; ReturnPC; CodeBlock.
stubCall.call();
addSlowCase(branchPtr(Equal, regT0, TrustedImmPtr(JSValue::encode(JSValue()))));
emitGetFromCallFrameHeaderPtr(RegisterFile::CallerFrame, callFrameRegister);
sampleCodeBlock(m_codeBlock);
}
void JITCompiler::jitAssertIsInt32(GPRReg gpr)
{
#if CPU(X86_64)
Jump checkInt32 = branchPtr(BelowOrEqual, gpr, TrustedImmPtr(reinterpret_cast<void*>(static_cast<uintptr_t>(0xFFFFFFFFu))));
breakpoint();
checkInt32.link(this);
#else
UNUSED_PARAM(gpr);
#endif
}
void JIT::compileOpCall(OpcodeID opcodeID, Instruction* instruction, unsigned callLinkInfoIndex)
{
int callee = instruction[1].u.operand;
int argCount = instruction[2].u.operand;
int registerOffset = instruction[3].u.operand;
// Handle eval
Jump wasEval;
if (opcodeID == op_call_eval) {
JITStubCall stubCall(this, cti_op_call_eval);
stubCall.addArgument(callee, regT0);
stubCall.addArgument(JIT::Imm32(registerOffset));
stubCall.addArgument(JIT::Imm32(argCount));
stubCall.call();
wasEval = branchPtr(NotEqual, regT0, TrustedImmPtr(JSValue::encode(JSValue())));
}
// This plants a check for a cached JSFunction value, so we can plant a fast link to the callee.
// This deliberately leaves the callee in ecx, used when setting up the stack frame below
emitGetVirtualRegister(callee, regT0);
DataLabelPtr addressOfLinkedFunctionCheck;
BEGIN_UNINTERRUPTED_SEQUENCE(sequenceOpCall);
Jump jumpToSlow = branchPtrWithPatch(NotEqual, regT0, addressOfLinkedFunctionCheck, TrustedImmPtr(JSValue::encode(JSValue())));
END_UNINTERRUPTED_SEQUENCE(sequenceOpCall);
addSlowCase(jumpToSlow);
ASSERT_JIT_OFFSET(differenceBetween(addressOfLinkedFunctionCheck, jumpToSlow), patchOffsetOpCallCompareToJump);
m_callStructureStubCompilationInfo[callLinkInfoIndex].hotPathBegin = addressOfLinkedFunctionCheck;
m_callStructureStubCompilationInfo[callLinkInfoIndex].isCall = opcodeID != op_construct;
// The following is the fast case, only used whan a callee can be linked.
// Fast version of stack frame initialization, directly relative to edi.
// Note that this omits to set up RegisterFile::CodeBlock, which is set in the callee
loadPtr(Address(regT0, OBJECT_OFFSETOF(JSFunction, m_scopeChain)), regT1); // newScopeChain
store32(TrustedImm32(Int32Tag), intTagFor(registerOffset + RegisterFile::ArgumentCount));
store32(Imm32(argCount), intPayloadFor(registerOffset + RegisterFile::ArgumentCount));
storePtr(callFrameRegister, Address(callFrameRegister, (registerOffset + RegisterFile::CallerFrame) * static_cast<int>(sizeof(Register))));
storePtr(regT0, Address(callFrameRegister, (registerOffset + RegisterFile::Callee) * static_cast<int>(sizeof(Register))));
storePtr(regT1, Address(callFrameRegister, (registerOffset + RegisterFile::ScopeChain) * static_cast<int>(sizeof(Register))));
addPtr(Imm32(registerOffset * sizeof(Register)), callFrameRegister);
// Call to the callee
m_callStructureStubCompilationInfo[callLinkInfoIndex].hotPathOther = emitNakedCall();
if (opcodeID == op_call_eval)
wasEval.link(this);
sampleCodeBlock(m_codeBlock);
}
void JITCompiler::compileExceptionHandlers()
{
if (!m_exceptionChecksWithCallFrameRollback.empty()) {
m_exceptionChecksWithCallFrameRollback.link(this);
copyCalleeSavesToVMCalleeSavesBuffer();
// lookupExceptionHandlerFromCallerFrame is passed two arguments, the VM and the exec (the CallFrame*).
move(TrustedImmPtr(vm()), GPRInfo::argumentGPR0);
move(GPRInfo::callFrameRegister, GPRInfo::argumentGPR1);
addPtr(TrustedImm32(m_graph.stackPointerOffset() * sizeof(Register)), GPRInfo::callFrameRegister, stackPointerRegister);
#if CPU(X86)
// FIXME: should use the call abstraction, but this is currently in the SpeculativeJIT layer!
poke(GPRInfo::argumentGPR0);
poke(GPRInfo::argumentGPR1, 1);
#endif
m_calls.append(CallLinkRecord(call(), lookupExceptionHandlerFromCallerFrame));
jumpToExceptionHandler();
}
if (!m_exceptionChecks.empty()) {
m_exceptionChecks.link(this);
copyCalleeSavesToVMCalleeSavesBuffer();
// lookupExceptionHandler is passed two arguments, the VM and the exec (the CallFrame*).
move(TrustedImmPtr(vm()), GPRInfo::argumentGPR0);
move(GPRInfo::callFrameRegister, GPRInfo::argumentGPR1);
#if CPU(X86)
// FIXME: should use the call abstraction, but this is currently in the SpeculativeJIT layer!
poke(GPRInfo::argumentGPR0);
poke(GPRInfo::argumentGPR1, 1);
#endif
m_calls.append(CallLinkRecord(call(), lookupExceptionHandler));
jumpToExceptionHandler();
}
}
void AssemblyHelpers::callExceptionFuzz()
{
if (!Options::enableExceptionFuzz())
return;
EncodedJSValue* buffer = vm()->exceptionFuzzingBuffer(sizeof(EncodedJSValue) * (GPRInfo::numberOfRegisters + FPRInfo::numberOfRegisters));
for (unsigned i = 0; i < GPRInfo::numberOfRegisters; ++i) {
#if USE(JSVALUE64)
store64(GPRInfo::toRegister(i), buffer + i);
#else
store32(GPRInfo::toRegister(i), buffer + i);
#endif
}
for (unsigned i = 0; i < FPRInfo::numberOfRegisters; ++i) {
move(TrustedImmPtr(buffer + GPRInfo::numberOfRegisters + i), GPRInfo::regT0);
storeDouble(FPRInfo::toRegister(i), Address(GPRInfo::regT0));
}
// Set up one argument.
#if CPU(X86)
poke(GPRInfo::callFrameRegister, 0);
#else
move(GPRInfo::callFrameRegister, GPRInfo::argumentGPR0);
#endif
move(TrustedImmPtr(bitwise_cast<void*>(operationExceptionFuzz)), GPRInfo::nonPreservedNonReturnGPR);
call(GPRInfo::nonPreservedNonReturnGPR);
for (unsigned i = 0; i < FPRInfo::numberOfRegisters; ++i) {
move(TrustedImmPtr(buffer + GPRInfo::numberOfRegisters + i), GPRInfo::regT0);
loadDouble(Address(GPRInfo::regT0), FPRInfo::toRegister(i));
}
for (unsigned i = 0; i < GPRInfo::numberOfRegisters; ++i) {
#if USE(JSVALUE64)
load64(buffer + i, GPRInfo::toRegister(i));
#else
load32(buffer + i, GPRInfo::toRegister(i));
#endif
}
}
void JIT::compileCallEvalSlowCase(Instruction* instruction, Vector<SlowCaseEntry>::iterator& iter)
{
linkSlowCase(iter);
load64(Address(stackPointerRegister, sizeof(Register) * JSStack::Callee - sizeof(CallerFrameAndPC)), regT0);
move(TrustedImmPtr(&CallLinkInfo::dummy()), regT2);
emitNakedCall(m_vm->getCTIStub(virtualCallThunkGenerator).code());
addPtr(TrustedImm32(stackPointerOffsetFor(m_codeBlock) * sizeof(Register)), callFrameRegister, stackPointerRegister);
checkStackPointerAlignment();
sampleCodeBlock(m_codeBlock);
emitPutCallResult(instruction);
}
void AssemblyHelpers::callExceptionFuzz()
{
if (!Options::enableExceptionFuzz())
return;
ASSERT(stackAlignmentBytes() >= sizeof(void*) * 2);
subPtr(TrustedImm32(stackAlignmentBytes()), stackPointerRegister);
poke(GPRInfo::returnValueGPR, 0);
poke(GPRInfo::returnValueGPR2, 1);
move(TrustedImmPtr(bitwise_cast<void*>(operationExceptionFuzz)), GPRInfo::nonPreservedNonReturnGPR);
call(GPRInfo::nonPreservedNonReturnGPR);
peek(GPRInfo::returnValueGPR, 0);
peek(GPRInfo::returnValueGPR2, 1);
addPtr(TrustedImm32(stackAlignmentBytes()), stackPointerRegister);
}
void JIT::compileOpCallSlowCase(OpcodeID opcodeID, Instruction* instruction, Vector<SlowCaseEntry>::iterator& iter, unsigned callLinkInfoIndex)
{
if (opcodeID == op_call_eval) {
compileCallEvalSlowCase(instruction, iter);
return;
}
linkSlowCase(iter);
linkSlowCase(iter);
move(TrustedImmPtr(m_callCompilationInfo[callLinkInfoIndex].callLinkInfo), regT2);
m_callCompilationInfo[callLinkInfoIndex].callReturnLocation = emitNakedCall(m_vm->getCTIStub(linkCallThunkGenerator).code());
addPtr(TrustedImm32(stackPointerOffsetFor(m_codeBlock) * sizeof(Register)), callFrameRegister, stackPointerRegister);
checkStackPointerAlignment();
sampleCodeBlock(m_codeBlock);
emitPutCallResult(instruction);
}
void JIT::compileOpCall(OpcodeID opcodeID, Instruction* instruction, unsigned callLinkInfoIndex)
{
int callee = instruction[2].u.operand;
/* Caller always:
- Updates callFrameRegister to callee callFrame.
- Initializes ArgumentCount; CallerFrame; Callee.
For a JS call:
- Caller initializes ScopeChain.
- Callee initializes ReturnPC; CodeBlock.
- Callee restores callFrameRegister before return.
For a non-JS call:
- Caller initializes ScopeChain; ReturnPC; CodeBlock.
- Caller restores callFrameRegister after return.
*/
if (opcodeID == op_call_varargs)
compileLoadVarargs(instruction);
else {
int argCount = instruction[3].u.operand;
int registerOffset = -instruction[4].u.operand;
if (opcodeID == op_call && shouldEmitProfiling()) {
emitLoad(registerOffset + CallFrame::argumentOffsetIncludingThis(0), regT0, regT1);
Jump done = branch32(NotEqual, regT0, TrustedImm32(JSValue::CellTag));
loadPtr(Address(regT1, JSCell::structureOffset()), regT1);
storePtr(regT1, instruction[6].u.arrayProfile->addressOfLastSeenStructure());
done.link(this);
}
addPtr(TrustedImm32(registerOffset * sizeof(Register)), callFrameRegister, regT3);
store32(TrustedImm32(argCount), payloadFor(JSStack::ArgumentCount, regT3));
} // regT3 holds newCallFrame with ArgumentCount initialized.
uint32_t locationBits = CallFrame::Location::encodeAsBytecodeInstruction(instruction);
store32(TrustedImm32(locationBits), tagFor(JSStack::ArgumentCount, callFrameRegister));
emitLoad(callee, regT1, regT0); // regT1, regT0 holds callee.
storePtr(callFrameRegister, Address(regT3, JSStack::CallerFrame * static_cast<int>(sizeof(Register))));
emitStore(JSStack::Callee, regT1, regT0, regT3);
move(regT3, callFrameRegister);
if (opcodeID == op_call_eval) {
compileCallEval(instruction);
return;
}
DataLabelPtr addressOfLinkedFunctionCheck;
Jump slowCase = branchPtrWithPatch(NotEqual, regT0, addressOfLinkedFunctionCheck, TrustedImmPtr(0));
addSlowCase(slowCase);
addSlowCase(branch32(NotEqual, regT1, TrustedImm32(JSValue::CellTag)));
ASSERT(m_callStructureStubCompilationInfo.size() == callLinkInfoIndex);
m_callStructureStubCompilationInfo.append(StructureStubCompilationInfo());
m_callStructureStubCompilationInfo[callLinkInfoIndex].hotPathBegin = addressOfLinkedFunctionCheck;
m_callStructureStubCompilationInfo[callLinkInfoIndex].callType = CallLinkInfo::callTypeFor(opcodeID);
m_callStructureStubCompilationInfo[callLinkInfoIndex].bytecodeIndex = m_bytecodeOffset;
loadPtr(Address(regT0, OBJECT_OFFSETOF(JSFunction, m_scope)), regT1);
emitPutCellToCallFrameHeader(regT1, JSStack::ScopeChain);
m_callStructureStubCompilationInfo[callLinkInfoIndex].hotPathOther = emitNakedCall();
sampleCodeBlock(m_codeBlock);
emitPutCallResult(instruction);
}
void JIT::compileOpCall(OpcodeID opcodeID, Instruction* instruction, unsigned callLinkInfoIndex)
{
int callee = instruction[2].u.operand;
/* Caller always:
- Updates callFrameRegister to callee callFrame.
- Initializes ArgumentCount; CallerFrame; Callee.
For a JS call:
- Callee initializes ReturnPC; CodeBlock.
- Callee restores callFrameRegister before return.
For a non-JS call:
- Caller initializes ReturnPC; CodeBlock.
- Caller restores callFrameRegister after return.
*/
COMPILE_ASSERT(OPCODE_LENGTH(op_call) == OPCODE_LENGTH(op_construct), call_and_construct_opcodes_must_be_same_length);
COMPILE_ASSERT(OPCODE_LENGTH(op_call) == OPCODE_LENGTH(op_call_varargs), call_and_call_varargs_opcodes_must_be_same_length);
COMPILE_ASSERT(OPCODE_LENGTH(op_call) == OPCODE_LENGTH(op_construct_varargs), call_and_construct_varargs_opcodes_must_be_same_length);
COMPILE_ASSERT(OPCODE_LENGTH(op_call) == OPCODE_LENGTH(op_tail_call), call_and_tail_call_opcodes_must_be_same_length);
COMPILE_ASSERT(OPCODE_LENGTH(op_call) == OPCODE_LENGTH(op_tail_call_varargs), call_and_tail_call_varargs_opcodes_must_be_same_length);
COMPILE_ASSERT(OPCODE_LENGTH(op_call) == OPCODE_LENGTH(op_tail_call_forward_arguments), call_and_tail_call_forward_arguments_opcodes_must_be_same_length);
CallLinkInfo* info = nullptr;
if (opcodeID != op_call_eval)
info = m_codeBlock->addCallLinkInfo();
if (opcodeID == op_call_varargs || opcodeID == op_construct_varargs || opcodeID == op_tail_call_varargs || opcodeID == op_tail_call_forward_arguments)
compileSetupVarargsFrame(opcodeID, instruction, info);
else {
int argCount = instruction[3].u.operand;
int registerOffset = -instruction[4].u.operand;
if (opcodeID == op_call && shouldEmitProfiling()) {
emitGetVirtualRegister(registerOffset + CallFrame::argumentOffsetIncludingThis(0), regT0);
Jump done = emitJumpIfNotJSCell(regT0);
load32(Address(regT0, JSCell::structureIDOffset()), regT0);
store32(regT0, instruction[OPCODE_LENGTH(op_call) - 2].u.arrayProfile->addressOfLastSeenStructureID());
done.link(this);
}
addPtr(TrustedImm32(registerOffset * sizeof(Register) + sizeof(CallerFrameAndPC)), callFrameRegister, stackPointerRegister);
store32(TrustedImm32(argCount), Address(stackPointerRegister, CallFrameSlot::argumentCount * static_cast<int>(sizeof(Register)) + PayloadOffset - sizeof(CallerFrameAndPC)));
} // SP holds newCallFrame + sizeof(CallerFrameAndPC), with ArgumentCount initialized.
uint32_t bytecodeOffset = instruction - m_codeBlock->instructions().begin();
uint32_t locationBits = CallSiteIndex(bytecodeOffset).bits();
store32(TrustedImm32(locationBits), Address(callFrameRegister, CallFrameSlot::argumentCount * static_cast<int>(sizeof(Register)) + TagOffset));
emitGetVirtualRegister(callee, regT0); // regT0 holds callee.
store64(regT0, Address(stackPointerRegister, CallFrameSlot::callee * static_cast<int>(sizeof(Register)) - sizeof(CallerFrameAndPC)));
if (opcodeID == op_call_eval) {
compileCallEval(instruction);
return;
}
DataLabelPtr addressOfLinkedFunctionCheck;
Jump slowCase = branchPtrWithPatch(NotEqual, regT0, addressOfLinkedFunctionCheck, TrustedImmPtr(0));
addSlowCase(slowCase);
ASSERT(m_callCompilationInfo.size() == callLinkInfoIndex);
info->setUpCall(CallLinkInfo::callTypeFor(opcodeID), CodeOrigin(m_bytecodeOffset), regT0);
m_callCompilationInfo.append(CallCompilationInfo());
m_callCompilationInfo[callLinkInfoIndex].hotPathBegin = addressOfLinkedFunctionCheck;
m_callCompilationInfo[callLinkInfoIndex].callLinkInfo = info;
if (opcodeID == op_tail_call) {
CallFrameShuffleData shuffleData;
shuffleData.tagTypeNumber = GPRInfo::tagTypeNumberRegister;
shuffleData.numLocals =
instruction[4].u.operand - sizeof(CallerFrameAndPC) / sizeof(Register);
shuffleData.args.resize(instruction[3].u.operand);
for (int i = 0; i < instruction[3].u.operand; ++i) {
shuffleData.args[i] =
ValueRecovery::displacedInJSStack(
virtualRegisterForArgument(i) - instruction[4].u.operand,
DataFormatJS);
}
shuffleData.callee =
ValueRecovery::inGPR(regT0, DataFormatJS);
shuffleData.setupCalleeSaveRegisters(m_codeBlock);
info->setFrameShuffleData(shuffleData);
CallFrameShuffler(*this, shuffleData).prepareForTailCall();
m_callCompilationInfo[callLinkInfoIndex].hotPathOther = emitNakedTailCall();
return;
}
if (opcodeID == op_tail_call_varargs || opcodeID == op_tail_call_forward_arguments) {
emitRestoreCalleeSaves();
prepareForTailCallSlow();
m_callCompilationInfo[callLinkInfoIndex].hotPathOther = emitNakedTailCall();
return;
}
m_callCompilationInfo[callLinkInfoIndex].hotPathOther = emitNakedCall();
addPtr(TrustedImm32(stackPointerOffsetFor(m_codeBlock) * sizeof(Register)), callFrameRegister, stackPointerRegister);
checkStackPointerAlignment();
sampleCodeBlock(m_codeBlock);
emitPutCallResult(instruction);
}
void JIT::compileOpCall(OpcodeID opcodeID, Instruction* instruction, unsigned callLinkInfoIndex)
{
int callee = instruction[1].u.operand;
/* Caller always:
- Updates callFrameRegister to callee callFrame.
- Initializes ArgumentCount; CallerFrame; Callee.
For a JS call:
- Caller initializes ScopeChain.
- Callee initializes ReturnPC; CodeBlock.
- Callee restores callFrameRegister before return.
For a non-JS call:
- Caller initializes ScopeChain; ReturnPC; CodeBlock.
- Caller restores callFrameRegister after return.
*/
if (opcodeID == op_call_varargs)
compileLoadVarargs(instruction);
else {
int argCount = instruction[2].u.operand;
int registerOffset = instruction[3].u.operand;
addPtr(TrustedImm32(registerOffset * sizeof(Register)), callFrameRegister, regT3);
store32(TrustedImm32(argCount), payloadFor(RegisterFile::ArgumentCount, regT3));
} // regT3 holds newCallFrame with ArgumentCount initialized.
emitLoad(callee, regT1, regT0); // regT1, regT0 holds callee.
storePtr(callFrameRegister, Address(regT3, RegisterFile::CallerFrame * static_cast<int>(sizeof(Register))));
emitStore(RegisterFile::Callee, regT1, regT0, regT3);
move(regT3, callFrameRegister);
if (opcodeID == op_call_eval) {
compileCallEval();
return;
}
DataLabelPtr addressOfLinkedFunctionCheck;
BEGIN_UNINTERRUPTED_SEQUENCE(sequenceOpCall);
Jump slowCase = branchPtrWithPatch(NotEqual, regT0, addressOfLinkedFunctionCheck, TrustedImmPtr(0));
END_UNINTERRUPTED_SEQUENCE(sequenceOpCall);
addSlowCase(slowCase);
addSlowCase(branch32(NotEqual, regT1, TrustedImm32(JSValue::CellTag)));
ASSERT_JIT_OFFSET(differenceBetween(addressOfLinkedFunctionCheck, slowCase), patchOffsetOpCallCompareToJump);
ASSERT(m_callStructureStubCompilationInfo.size() == callLinkInfoIndex);
m_callStructureStubCompilationInfo.append(StructureStubCompilationInfo());
m_callStructureStubCompilationInfo[callLinkInfoIndex].hotPathBegin = addressOfLinkedFunctionCheck;
m_callStructureStubCompilationInfo[callLinkInfoIndex].callType = CallLinkInfo::callTypeFor(opcodeID);
m_callStructureStubCompilationInfo[callLinkInfoIndex].bytecodeIndex = m_bytecodeOffset;
loadPtr(Address(regT0, OBJECT_OFFSETOF(JSFunction, m_scopeChain)), regT1);
emitPutCellToCallFrameHeader(regT1, RegisterFile::ScopeChain);
m_callStructureStubCompilationInfo[callLinkInfoIndex].hotPathOther = emitNakedCall();
sampleCodeBlock(m_codeBlock);
}
void JIT::compileOpCall(OpcodeID opcodeID, Instruction* instruction, unsigned callLinkInfoIndex)
{
int callee = instruction[1].u.operand;
/* Caller always:
- Updates callFrameRegister to callee callFrame.
- Initializes ArgumentCount; CallerFrame; Callee.
For a JS call:
- Caller initializes ScopeChain.
- Callee initializes ReturnPC; CodeBlock.
- Callee restores callFrameRegister before return.
For a non-JS call:
- Caller initializes ScopeChain; ReturnPC; CodeBlock.
- Caller restores callFrameRegister after return.
*/
if (opcodeID == op_call_varargs)
compileLoadVarargs(instruction);
else {
int argCount = instruction[2].u.operand;
int registerOffset = instruction[3].u.operand;
if (opcodeID == op_call && canBeOptimized()) {
emitGetVirtualRegister(registerOffset + CallFrame::argumentOffsetIncludingThis(0), regT0);
Jump done = emitJumpIfNotJSCell(regT0);
loadPtr(Address(regT0, JSCell::structureOffset()), regT0);
storePtr(regT0, instruction[5].u.arrayProfile->addressOfLastSeenStructure());
done.link(this);
}
addPtr(TrustedImm32(registerOffset * sizeof(Register)), callFrameRegister, regT1);
store32(TrustedImm32(argCount), Address(regT1, JSStack::ArgumentCount * static_cast<int>(sizeof(Register)) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)));
} // regT1 holds newCallFrame with ArgumentCount initialized.
store32(TrustedImm32(instruction - m_codeBlock->instructions().begin()), Address(callFrameRegister, JSStack::ArgumentCount * static_cast<int>(sizeof(Register)) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)));
emitGetVirtualRegister(callee, regT0); // regT0 holds callee.
store64(callFrameRegister, Address(regT1, JSStack::CallerFrame * static_cast<int>(sizeof(Register))));
store64(regT0, Address(regT1, JSStack::Callee * static_cast<int>(sizeof(Register))));
move(regT1, callFrameRegister);
if (opcodeID == op_call_eval) {
compileCallEval();
return;
}
DataLabelPtr addressOfLinkedFunctionCheck;
BEGIN_UNINTERRUPTED_SEQUENCE(sequenceOpCall);
Jump slowCase = branchPtrWithPatch(NotEqual, regT0, addressOfLinkedFunctionCheck, TrustedImmPtr(0));
END_UNINTERRUPTED_SEQUENCE(sequenceOpCall);
addSlowCase(slowCase);
ASSERT(m_callStructureStubCompilationInfo.size() == callLinkInfoIndex);
m_callStructureStubCompilationInfo.append(StructureStubCompilationInfo());
m_callStructureStubCompilationInfo[callLinkInfoIndex].hotPathBegin = addressOfLinkedFunctionCheck;
m_callStructureStubCompilationInfo[callLinkInfoIndex].callType = CallLinkInfo::callTypeFor(opcodeID);
m_callStructureStubCompilationInfo[callLinkInfoIndex].bytecodeIndex = m_bytecodeOffset;
loadPtr(Address(regT0, OBJECT_OFFSETOF(JSFunction, m_scope)), regT1);
emitPutToCallFrameHeader(regT1, JSStack::ScopeChain);
m_callStructureStubCompilationInfo[callLinkInfoIndex].hotPathOther = emitNakedCall();
sampleCodeBlock(m_codeBlock);
}
void JIT::compileOpCall(const Instruction* instruction, unsigned callLinkInfoIndex)
{
OpcodeID opcodeID = Op::opcodeID;
auto bytecode = instruction->as<Op>();
int callee = bytecode.m_callee.offset();
/* Caller always:
- Updates callFrameRegister to callee callFrame.
- Initializes ArgumentCount; CallerFrame; Callee.
For a JS call:
- Callee initializes ReturnPC; CodeBlock.
- Callee restores callFrameRegister before return.
For a non-JS call:
- Caller initializes ReturnPC; CodeBlock.
- Caller restores callFrameRegister after return.
*/
CallLinkInfo* info = nullptr;
if (opcodeID != op_call_eval)
info = m_codeBlock->addCallLinkInfo();
compileSetupFrame(bytecode, info);
// SP holds newCallFrame + sizeof(CallerFrameAndPC), with ArgumentCount initialized.
uint32_t locationBits = CallSiteIndex(instruction).bits();
store32(TrustedImm32(locationBits), tagFor(CallFrameSlot::argumentCount));
emitLoad(callee, regT1, regT0); // regT1, regT0 holds callee.
store32(regT0, Address(stackPointerRegister, CallFrameSlot::callee * static_cast<int>(sizeof(Register)) + PayloadOffset - sizeof(CallerFrameAndPC)));
store32(regT1, Address(stackPointerRegister, CallFrameSlot::callee * static_cast<int>(sizeof(Register)) + TagOffset - sizeof(CallerFrameAndPC)));
if (compileCallEval(bytecode))
return;
if (opcodeID == op_tail_call || opcodeID == op_tail_call_varargs)
emitRestoreCalleeSaves();
addSlowCase(branchIfNotCell(regT1));
DataLabelPtr addressOfLinkedFunctionCheck;
Jump slowCase = branchPtrWithPatch(NotEqual, regT0, addressOfLinkedFunctionCheck, TrustedImmPtr(nullptr));
addSlowCase(slowCase);
ASSERT(m_callCompilationInfo.size() == callLinkInfoIndex);
info->setUpCall(CallLinkInfo::callTypeFor(opcodeID), CodeOrigin(m_bytecodeOffset), regT0);
m_callCompilationInfo.append(CallCompilationInfo());
m_callCompilationInfo[callLinkInfoIndex].hotPathBegin = addressOfLinkedFunctionCheck;
m_callCompilationInfo[callLinkInfoIndex].callLinkInfo = info;
checkStackPointerAlignment();
if (opcodeID == op_tail_call || opcodeID == op_tail_call_varargs || opcodeID == op_tail_call_forward_arguments) {
prepareForTailCallSlow();
m_callCompilationInfo[callLinkInfoIndex].hotPathOther = emitNakedTailCall();
return;
}
m_callCompilationInfo[callLinkInfoIndex].hotPathOther = emitNakedCall();
addPtr(TrustedImm32(stackPointerOffsetFor(m_codeBlock) * sizeof(Register)), callFrameRegister, stackPointerRegister);
checkStackPointerAlignment();
sampleCodeBlock(m_codeBlock);
emitPutCallResult(bytecode);
}
void JIT::compileOpCall(OpcodeID opcodeID, Instruction* instruction, unsigned callLinkInfoIndex)
{
int callee = instruction[1].u.operand;
int argCount = instruction[2].u.operand;
int registerOffset = instruction[3].u.operand;
Jump wasEval;
if (opcodeID == op_call_eval) {
JITStubCall stubCall(this, cti_op_call_eval);
stubCall.addArgument(callee);
stubCall.addArgument(JIT::Imm32(registerOffset));
stubCall.addArgument(JIT::Imm32(argCount));
stubCall.call();
wasEval = branch32(NotEqual, regT1, TrustedImm32(JSValue::EmptyValueTag));
}
emitLoad(callee, regT1, regT0);
DataLabelPtr addressOfLinkedFunctionCheck;
BEGIN_UNINTERRUPTED_SEQUENCE(sequenceOpCall);
Jump jumpToSlow = branchPtrWithPatch(NotEqual, regT0, addressOfLinkedFunctionCheck, TrustedImmPtr(0));
END_UNINTERRUPTED_SEQUENCE(sequenceOpCall);
addSlowCase(jumpToSlow);
ASSERT_JIT_OFFSET(differenceBetween(addressOfLinkedFunctionCheck, jumpToSlow), patchOffsetOpCallCompareToJump);
m_callStructureStubCompilationInfo[callLinkInfoIndex].hotPathBegin = addressOfLinkedFunctionCheck;
addSlowCase(branch32(NotEqual, regT1, TrustedImm32(JSValue::CellTag)));
// The following is the fast case, only used whan a callee can be linked.
// Fast version of stack frame initialization, directly relative to edi.
// Note that this omits to set up RegisterFile::CodeBlock, which is set in the callee
loadPtr(Address(regT0, OBJECT_OFFSETOF(JSFunction, m_scopeChain)), regT2);
store32(TrustedImm32(JSValue::Int32Tag), tagFor(registerOffset + RegisterFile::ArgumentCount));
store32(Imm32(argCount), payloadFor(registerOffset + RegisterFile::ArgumentCount));
storePtr(callFrameRegister, payloadFor(RegisterFile::CallerFrame + registerOffset, callFrameRegister));
emitStore(registerOffset + RegisterFile::Callee, regT1, regT0);
store32(TrustedImm32(JSValue::CellTag), tagFor(registerOffset + RegisterFile::ScopeChain));
store32(regT2, payloadFor(registerOffset + RegisterFile::ScopeChain));
addPtr(Imm32(registerOffset * sizeof(Register)), callFrameRegister);
// Call to the callee
m_callStructureStubCompilationInfo[callLinkInfoIndex].hotPathOther = emitNakedCall();
if (opcodeID == op_call_eval)
wasEval.link(this);
sampleCodeBlock(m_codeBlock);
}
void JITCompiler::compileFunction()
{
SamplingRegion samplingRegion("DFG Backend");
setStartOfCode();
compileEntry();
// === Function header code generation ===
// This is the main entry point, without performing an arity check.
// If we needed to perform an arity check we will already have moved the return address,
// so enter after this.
Label fromArityCheck(this);
// Plant a check that sufficient space is available in the JSStack.
addPtr(TrustedImm32(virtualRegisterForLocal(m_graph.requiredRegisterCountForExecutionAndExit() - 1).offset() * sizeof(Register)), GPRInfo::callFrameRegister, GPRInfo::regT1);
Jump stackOverflow = branchPtr(Above, AbsoluteAddress(m_vm->addressOfStackLimit()), GPRInfo::regT1);
// Move the stack pointer down to accommodate locals
addPtr(TrustedImm32(m_graph.stackPointerOffset() * sizeof(Register)), GPRInfo::callFrameRegister, stackPointerRegister);
checkStackPointerAlignment();
// === Function body code generation ===
m_speculative = adoptPtr(new SpeculativeJIT(*this));
compileBody();
setEndOfMainPath();
// === Function footer code generation ===
//
// Generate code to perform the stack overflow handling (if the stack check in
// the function header fails), and generate the entry point with arity check.
//
// Generate the stack overflow handling; if the stack check in the function head fails,
// we need to call out to a helper function to throw the StackOverflowError.
stackOverflow.link(this);
emitStoreCodeOrigin(CodeOrigin(0));
if (maxFrameExtentForSlowPathCall)
addPtr(TrustedImm32(-maxFrameExtentForSlowPathCall), stackPointerRegister);
m_speculative->callOperationWithCallFrameRollbackOnException(operationThrowStackOverflowError, m_codeBlock);
// The fast entry point into a function does not check the correct number of arguments
// have been passed to the call (we only use the fast entry point where we can statically
// determine the correct number of arguments have been passed, or have already checked).
// In cases where an arity check is necessary, we enter here.
// FIXME: change this from a cti call to a DFG style operation (normal C calling conventions).
m_arityCheck = label();
compileEntry();
load32(AssemblyHelpers::payloadFor((VirtualRegister)JSStack::ArgumentCount), GPRInfo::regT1);
branch32(AboveOrEqual, GPRInfo::regT1, TrustedImm32(m_codeBlock->numParameters())).linkTo(fromArityCheck, this);
emitStoreCodeOrigin(CodeOrigin(0));
if (maxFrameExtentForSlowPathCall)
addPtr(TrustedImm32(-maxFrameExtentForSlowPathCall), stackPointerRegister);
m_speculative->callOperationWithCallFrameRollbackOnException(m_codeBlock->m_isConstructor ? operationConstructArityCheck : operationCallArityCheck, GPRInfo::regT0);
if (maxFrameExtentForSlowPathCall)
addPtr(TrustedImm32(maxFrameExtentForSlowPathCall), stackPointerRegister);
branchTest32(Zero, GPRInfo::regT0).linkTo(fromArityCheck, this);
emitStoreCodeOrigin(CodeOrigin(0));
move(TrustedImmPtr(m_vm->arityCheckFailReturnThunks->returnPCsFor(*m_vm, m_codeBlock->numParameters())), GPRInfo::regT5);
loadPtr(BaseIndex(GPRInfo::regT5, GPRInfo::regT0, timesPtr()), GPRInfo::regT5);
m_callArityFixup = call();
jump(fromArityCheck);
// Generate slow path code.
m_speculative->runSlowPathGenerators();
compileExceptionHandlers();
linkOSRExits();
// Create OSR entry trampolines if necessary.
m_speculative->createOSREntries();
setEndOfCode();
}
void JIT::compileOpCall(OpcodeID opcodeID, Instruction* instruction, unsigned callLinkInfoIndex)
{
CallLinkInfo* info = m_codeBlock->addCallLinkInfo();
int callee = instruction[2].u.operand;
/* Caller always:
- Updates callFrameRegister to callee callFrame.
- Initializes ArgumentCount; CallerFrame; Callee.
For a JS call:
- Callee initializes ReturnPC; CodeBlock.
- Callee restores callFrameRegister before return.
For a non-JS call:
- Caller initializes ReturnPC; CodeBlock.
- Caller restores callFrameRegister after return.
*/
if (opcodeID == op_call_varargs || opcodeID == op_construct_varargs)
compileSetupVarargsFrame(instruction, info);
else {
int argCount = instruction[3].u.operand;
int registerOffset = -instruction[4].u.operand;
if (opcodeID == op_call && shouldEmitProfiling()) {
emitLoad(registerOffset + CallFrame::argumentOffsetIncludingThis(0), regT0, regT1);
Jump done = branch32(NotEqual, regT0, TrustedImm32(JSValue::CellTag));
loadPtr(Address(regT1, JSCell::structureIDOffset()), regT1);
storePtr(regT1, instruction[OPCODE_LENGTH(op_call) - 2].u.arrayProfile->addressOfLastSeenStructureID());
done.link(this);
}
addPtr(TrustedImm32(registerOffset * sizeof(Register) + sizeof(CallerFrameAndPC)), callFrameRegister, stackPointerRegister);
store32(TrustedImm32(argCount), Address(stackPointerRegister, JSStack::ArgumentCount * static_cast<int>(sizeof(Register)) + PayloadOffset - sizeof(CallerFrameAndPC)));
} // SP holds newCallFrame + sizeof(CallerFrameAndPC), with ArgumentCount initialized.
uint32_t locationBits = CallFrame::Location::encodeAsBytecodeInstruction(instruction);
store32(TrustedImm32(locationBits), tagFor(JSStack::ArgumentCount, callFrameRegister));
emitLoad(callee, regT1, regT0); // regT1, regT0 holds callee.
store32(regT0, Address(stackPointerRegister, JSStack::Callee * static_cast<int>(sizeof(Register)) + PayloadOffset - sizeof(CallerFrameAndPC)));
store32(regT1, Address(stackPointerRegister, JSStack::Callee * static_cast<int>(sizeof(Register)) + TagOffset - sizeof(CallerFrameAndPC)));
if (opcodeID == op_call_eval) {
compileCallEval(instruction);
return;
}
addSlowCase(branch32(NotEqual, regT1, TrustedImm32(JSValue::CellTag)));
DataLabelPtr addressOfLinkedFunctionCheck;
Jump slowCase = branchPtrWithPatch(NotEqual, regT0, addressOfLinkedFunctionCheck, TrustedImmPtr(0));
addSlowCase(slowCase);
ASSERT(m_callCompilationInfo.size() == callLinkInfoIndex);
info->setUpCall(CallLinkInfo::callTypeFor(opcodeID), CodeOrigin(m_bytecodeOffset), regT0);
m_callCompilationInfo.append(CallCompilationInfo());
m_callCompilationInfo[callLinkInfoIndex].hotPathBegin = addressOfLinkedFunctionCheck;
m_callCompilationInfo[callLinkInfoIndex].callLinkInfo = info;
checkStackPointerAlignment();
m_callCompilationInfo[callLinkInfoIndex].hotPathOther = emitNakedCall();
addPtr(TrustedImm32(stackPointerOffsetFor(m_codeBlock) * sizeof(Register)), callFrameRegister, stackPointerRegister);
checkStackPointerAlignment();
sampleCodeBlock(m_codeBlock);
emitPutCallResult(instruction);
}
void JIT::compileOpCall(OpcodeID opcodeID, Instruction* instruction, unsigned callLinkInfoIndex)
{
int callee = instruction[2].u.operand;
/* Caller always:
- Updates callFrameRegister to callee callFrame.
- Initializes ArgumentCount; CallerFrame; Callee.
For a JS call:
- Caller initializes ScopeChain.
- Callee initializes ReturnPC; CodeBlock.
- Callee restores callFrameRegister before return.
For a non-JS call:
- Caller initializes ScopeChain; ReturnPC; CodeBlock.
- Caller restores callFrameRegister after return.
*/
COMPILE_ASSERT(OPCODE_LENGTH(op_call) == OPCODE_LENGTH(op_construct), call_and_construct_opcodes_must_be_same_length);
COMPILE_ASSERT(OPCODE_LENGTH(op_call) == OPCODE_LENGTH(op_call_varargs), call_and_call_varargs_opcodes_must_be_same_length);
COMPILE_ASSERT(OPCODE_LENGTH(op_call) == OPCODE_LENGTH(op_construct_varargs), call_and_construct_varargs_opcodes_must_be_same_length);
if (opcodeID == op_call_varargs || opcodeID == op_construct_varargs)
compileLoadVarargs(instruction);
else {
int argCount = instruction[3].u.operand;
int registerOffset = -instruction[4].u.operand;
if (opcodeID == op_call && shouldEmitProfiling()) {
emitGetVirtualRegister(registerOffset + CallFrame::argumentOffsetIncludingThis(0), regT0);
Jump done = emitJumpIfNotJSCell(regT0);
load32(Address(regT0, JSCell::structureIDOffset()), regT0);
store32(regT0, instruction[OPCODE_LENGTH(op_call) - 2].u.arrayProfile->addressOfLastSeenStructureID());
done.link(this);
}
addPtr(TrustedImm32(registerOffset * sizeof(Register) + sizeof(CallerFrameAndPC)), callFrameRegister, stackPointerRegister);
store32(TrustedImm32(argCount), Address(stackPointerRegister, JSStack::ArgumentCount * static_cast<int>(sizeof(Register)) + PayloadOffset - sizeof(CallerFrameAndPC)));
} // SP holds newCallFrame + sizeof(CallerFrameAndPC), with ArgumentCount initialized.
uint32_t bytecodeOffset = instruction - m_codeBlock->instructions().begin();
uint32_t locationBits = CallFrame::Location::encodeAsBytecodeOffset(bytecodeOffset);
store32(TrustedImm32(locationBits), Address(callFrameRegister, JSStack::ArgumentCount * static_cast<int>(sizeof(Register)) + TagOffset));
emitGetVirtualRegister(callee, regT0); // regT0 holds callee.
store64(regT0, Address(stackPointerRegister, JSStack::Callee * static_cast<int>(sizeof(Register)) - sizeof(CallerFrameAndPC)));
if (opcodeID == op_call_eval) {
compileCallEval(instruction);
return;
}
DataLabelPtr addressOfLinkedFunctionCheck;
Jump slowCase = branchPtrWithPatch(NotEqual, regT0, addressOfLinkedFunctionCheck, TrustedImmPtr(0));
addSlowCase(slowCase);
ASSERT(m_callCompilationInfo.size() == callLinkInfoIndex);
CallLinkInfo* info = m_codeBlock->addCallLinkInfo();
info->callType = CallLinkInfo::callTypeFor(opcodeID);
info->codeOrigin = CodeOrigin(m_bytecodeOffset);
info->calleeGPR = regT0;
m_callCompilationInfo.append(CallCompilationInfo());
m_callCompilationInfo[callLinkInfoIndex].hotPathBegin = addressOfLinkedFunctionCheck;
m_callCompilationInfo[callLinkInfoIndex].callLinkInfo = info;
loadPtr(Address(regT0, OBJECT_OFFSETOF(JSFunction, m_scope)), regT2);
store64(regT2, Address(MacroAssembler::stackPointerRegister, JSStack::ScopeChain * sizeof(Register) - sizeof(CallerFrameAndPC)));
m_callCompilationInfo[callLinkInfoIndex].hotPathOther = emitNakedCall();
addPtr(TrustedImm32(stackPointerOffsetFor(m_codeBlock) * sizeof(Register)), callFrameRegister, stackPointerRegister);
checkStackPointerAlignment();
sampleCodeBlock(m_codeBlock);
emitPutCallResult(instruction);
}
