static void dispatch(CCallHelpers& jit, FTL::State* state, const B3::StackmapGenerationParams& params, DFG::Node* node, Box<CCallHelpers::JumpList> exceptions, CCallHelpers::JumpList from, OperationType operation, ResultType result, Arguments arguments, std::index_sequence<ArgumentsIndex...>)
{
CCallHelpers::Label done = jit.label();
params.addLatePath([=] (CCallHelpers& jit) {
AllowMacroScratchRegisterUsage allowScratch(jit);
from.link(&jit);
callOperation(
*state, params.unavailableRegisters(), jit, node->origin.semantic,
exceptions.get(), operation, extractResult(result), std::get<ArgumentsIndex>(arguments)...);
jit.jump().linkTo(done, &jit);
});
}
void JSCallVarargs::emit(CCallHelpers& jit, State& state, int32_t spillSlotsOffset, int32_t osrExitFromGenericUnwindSpillSlots)
{
// We are passed three pieces of information:
// - The callee.
// - The arguments object, if it's not a forwarding call.
// - The "this" value, if it's a constructor call.
CallVarargsData* data = m_node->callVarargsData();
GPRReg calleeGPR = GPRInfo::argumentGPR0;
GPRReg argumentsGPR = InvalidGPRReg;
GPRReg thisGPR = InvalidGPRReg;
bool forwarding = false;
switch (m_node->op()) {
case CallVarargs:
case TailCallVarargs:
case TailCallVarargsInlinedCaller:
case ConstructVarargs:
argumentsGPR = GPRInfo::argumentGPR1;
thisGPR = GPRInfo::argumentGPR2;
break;
case CallForwardVarargs:
case TailCallForwardVarargs:
case TailCallForwardVarargsInlinedCaller:
case ConstructForwardVarargs:
thisGPR = GPRInfo::argumentGPR1;
forwarding = true;
break;
default:
RELEASE_ASSERT_NOT_REACHED();
break;
}
const unsigned calleeSpillSlot = 0;
const unsigned argumentsSpillSlot = 1;
const unsigned thisSpillSlot = 2;
const unsigned stackPointerSpillSlot = 3;
// Get some scratch registers.
RegisterSet usedRegisters;
usedRegisters.merge(RegisterSet::stackRegisters());
usedRegisters.merge(RegisterSet::reservedHardwareRegisters());
usedRegisters.merge(RegisterSet::calleeSaveRegisters());
usedRegisters.set(calleeGPR);
if (argumentsGPR != InvalidGPRReg)
usedRegisters.set(argumentsGPR);
ASSERT(thisGPR);
usedRegisters.set(thisGPR);
ScratchRegisterAllocator allocator(usedRegisters);
GPRReg scratchGPR1 = allocator.allocateScratchGPR();
GPRReg scratchGPR2 = allocator.allocateScratchGPR();
GPRReg scratchGPR3 = allocator.allocateScratchGPR();
RELEASE_ASSERT(!allocator.numberOfReusedRegisters());
auto computeUsedStack = [&] (GPRReg targetGPR, unsigned extra) {
if (isARM64()) {
// Have to do this the weird way because $sp on ARM64 means zero when used in a subtraction.
jit.move(CCallHelpers::stackPointerRegister, targetGPR);
jit.negPtr(targetGPR);
jit.addPtr(GPRInfo::callFrameRegister, targetGPR);
} else {
jit.move(GPRInfo::callFrameRegister, targetGPR);
jit.subPtr(CCallHelpers::stackPointerRegister, targetGPR);
}
if (extra)
jit.subPtr(CCallHelpers::TrustedImm32(extra), targetGPR);
jit.urshiftPtr(CCallHelpers::Imm32(3), targetGPR);
};
auto callWithExceptionCheck = [&] (void* callee) {
jit.move(CCallHelpers::TrustedImmPtr(callee), GPRInfo::nonPreservedNonArgumentGPR);
jit.call(GPRInfo::nonPreservedNonArgumentGPR);
m_exceptions.append(jit.emitExceptionCheck(AssemblyHelpers::NormalExceptionCheck, AssemblyHelpers::FarJumpWidth));
};
if (isARM64()) {
jit.move(CCallHelpers::stackPointerRegister, scratchGPR1);
jit.storePtr(scratchGPR1, CCallHelpers::addressFor(spillSlotsOffset + stackPointerSpillSlot));
} else
jit.storePtr(CCallHelpers::stackPointerRegister, CCallHelpers::addressFor(spillSlotsOffset + stackPointerSpillSlot));
unsigned extraStack = sizeof(CallerFrameAndPC) +
WTF::roundUpToMultipleOf(stackAlignmentBytes(), 5 * sizeof(void*));
if (forwarding) {
CCallHelpers::JumpList slowCase;
computeUsedStack(scratchGPR2, 0);
emitSetupVarargsFrameFastCase(jit, scratchGPR2, scratchGPR1, scratchGPR2, scratchGPR3, m_node->child2()->origin.semantic.inlineCallFrame, data->firstVarArgOffset, slowCase);
CCallHelpers::Jump done = jit.jump();
slowCase.link(&jit);
jit.subPtr(CCallHelpers::TrustedImm32(extraStack), CCallHelpers::stackPointerRegister);
jit.setupArgumentsExecState();
callWithExceptionCheck(bitwise_cast<void*>(operationThrowStackOverflowForVarargs));
jit.abortWithReason(DFGVarargsThrowingPathDidNotThrow);
done.link(&jit);
jit.move(calleeGPR, GPRInfo::regT0);
} else {
// Gotta spill the callee, arguments, and this because we will need them later and we will have some
// calls that clobber them.
jit.store64(calleeGPR, CCallHelpers::addressFor(spillSlotsOffset + calleeSpillSlot));
jit.store64(argumentsGPR, CCallHelpers::addressFor(spillSlotsOffset + argumentsSpillSlot));
jit.store64(thisGPR, CCallHelpers::addressFor(spillSlotsOffset + thisSpillSlot));
computeUsedStack(scratchGPR1, 0);
jit.subPtr(CCallHelpers::TrustedImm32(extraStack), CCallHelpers::stackPointerRegister);
jit.setupArgumentsWithExecState(argumentsGPR, scratchGPR1, CCallHelpers::TrustedImm32(data->firstVarArgOffset));
callWithExceptionCheck(bitwise_cast<void*>(operationSizeFrameForVarargs));
jit.move(GPRInfo::returnValueGPR, scratchGPR1);
computeUsedStack(scratchGPR2, extraStack);
jit.load64(CCallHelpers::addressFor(spillSlotsOffset + argumentsSpillSlot), argumentsGPR);
emitSetVarargsFrame(jit, scratchGPR1, false, scratchGPR2, scratchGPR2);
jit.addPtr(CCallHelpers::TrustedImm32(-extraStack), scratchGPR2, CCallHelpers::stackPointerRegister);
jit.setupArgumentsWithExecState(scratchGPR2, argumentsGPR, CCallHelpers::TrustedImm32(data->firstVarArgOffset), scratchGPR1);
callWithExceptionCheck(bitwise_cast<void*>(operationSetupVarargsFrame));
jit.move(GPRInfo::returnValueGPR, scratchGPR2);
jit.load64(CCallHelpers::addressFor(spillSlotsOffset + thisSpillSlot), thisGPR);
jit.load64(CCallHelpers::addressFor(spillSlotsOffset + calleeSpillSlot), GPRInfo::regT0);
}
jit.addPtr(CCallHelpers::TrustedImm32(sizeof(CallerFrameAndPC)), scratchGPR2, CCallHelpers::stackPointerRegister);
jit.store64(thisGPR, CCallHelpers::calleeArgumentSlot(0));
// Henceforth we make the call. The base FTL call machinery expects the callee in regT0 and for the
// stack frame to already be set up, which it is.
jit.store64(GPRInfo::regT0, CCallHelpers::calleeFrameSlot(JSStack::Callee));
m_callBase.emit(jit, state, osrExitFromGenericUnwindSpillSlots);
// Undo the damage we've done.
if (isARM64()) {
GPRReg scratchGPRAtReturn = CCallHelpers::selectScratchGPR(GPRInfo::returnValueGPR);
jit.loadPtr(CCallHelpers::addressFor(spillSlotsOffset + stackPointerSpillSlot), scratchGPRAtReturn);
jit.move(scratchGPRAtReturn, CCallHelpers::stackPointerRegister);
} else
jit.loadPtr(CCallHelpers::addressFor(spillSlotsOffset + stackPointerSpillSlot), CCallHelpers::stackPointerRegister);
}
void GetterSetterAccessCase::emitDOMJITGetter(AccessGenerationState& state, const DOMJIT::GetterSetter* domJIT, GPRReg baseForGetGPR)
{
CCallHelpers& jit = *state.jit;
StructureStubInfo& stubInfo = *state.stubInfo;
JSValueRegs valueRegs = state.valueRegs;
GPRReg baseGPR = state.baseGPR;
GPRReg scratchGPR = state.scratchGPR;
// We construct the environment that can execute the DOMJIT::Snippet here.
Ref<DOMJIT::CallDOMGetterSnippet> snippet = domJIT->compiler()();
Vector<GPRReg> gpScratch;
Vector<FPRReg> fpScratch;
Vector<SnippetParams::Value> regs;
ScratchRegisterAllocator allocator(stubInfo.patch.usedRegisters);
allocator.lock(baseGPR);
#if USE(JSVALUE32_64)
allocator.lock(static_cast<GPRReg>(stubInfo.patch.baseTagGPR));
#endif
allocator.lock(valueRegs);
allocator.lock(scratchGPR);
GPRReg paramBaseGPR = InvalidGPRReg;
GPRReg paramGlobalObjectGPR = InvalidGPRReg;
JSValueRegs paramValueRegs = valueRegs;
GPRReg remainingScratchGPR = InvalidGPRReg;
// valueRegs and baseForGetGPR may be the same. For example, in Baseline JIT, we pass the same regT0 for baseGPR and valueRegs.
// In FTL, there is no constraint that the baseForGetGPR interferes with the result. To make implementation simple in
// Snippet, Snippet assumes that result registers always early interfere with input registers, in this case,
// baseForGetGPR. So we move baseForGetGPR to the other register if baseForGetGPR == valueRegs.
if (baseForGetGPR != valueRegs.payloadGPR()) {
paramBaseGPR = baseForGetGPR;
if (!snippet->requireGlobalObject)
remainingScratchGPR = scratchGPR;
else
paramGlobalObjectGPR = scratchGPR;
} else {
jit.move(valueRegs.payloadGPR(), scratchGPR);
paramBaseGPR = scratchGPR;
if (snippet->requireGlobalObject)
paramGlobalObjectGPR = allocator.allocateScratchGPR();
}
JSGlobalObject* globalObjectForDOMJIT = structure()->globalObject();
regs.append(paramValueRegs);
regs.append(paramBaseGPR);
if (snippet->requireGlobalObject) {
ASSERT(paramGlobalObjectGPR != InvalidGPRReg);
regs.append(SnippetParams::Value(paramGlobalObjectGPR, globalObjectForDOMJIT));
}
if (snippet->numGPScratchRegisters) {
unsigned i = 0;
if (remainingScratchGPR != InvalidGPRReg) {
gpScratch.append(remainingScratchGPR);
++i;
}
for (; i < snippet->numGPScratchRegisters; ++i)
gpScratch.append(allocator.allocateScratchGPR());
}
for (unsigned i = 0; i < snippet->numFPScratchRegisters; ++i)
fpScratch.append(allocator.allocateScratchFPR());
// Let's store the reused registers to the stack. After that, we can use allocated scratch registers.
ScratchRegisterAllocator::PreservedState preservedState =
allocator.preserveReusedRegistersByPushing(jit, ScratchRegisterAllocator::ExtraStackSpace::SpaceForCCall);
if (verbose) {
dataLog("baseGPR = ", baseGPR, "\n");
dataLog("valueRegs = ", valueRegs, "\n");
dataLog("scratchGPR = ", scratchGPR, "\n");
dataLog("paramBaseGPR = ", paramBaseGPR, "\n");
if (paramGlobalObjectGPR != InvalidGPRReg)
dataLog("paramGlobalObjectGPR = ", paramGlobalObjectGPR, "\n");
dataLog("paramValueRegs = ", paramValueRegs, "\n");
for (unsigned i = 0; i < snippet->numGPScratchRegisters; ++i)
dataLog("gpScratch[", i, "] = ", gpScratch[i], "\n");
}
if (snippet->requireGlobalObject)
jit.move(CCallHelpers::TrustedImmPtr(globalObjectForDOMJIT), paramGlobalObjectGPR);
// We just spill the registers used in Snippet here. For not spilled registers here explicitly,
// they must be in the used register set passed by the callers (Baseline, DFG, and FTL) if they need to be kept.
// Some registers can be locked, but not in the used register set. For example, the caller could make baseGPR
// same to valueRegs, and not include it in the used registers since it will be changed.
RegisterSet registersToSpillForCCall;
for (auto& value : regs) {
SnippetReg reg = value.reg();
if (reg.isJSValueRegs())
registersToSpillForCCall.set(reg.jsValueRegs());
else if (reg.isGPR())
registersToSpillForCCall.set(reg.gpr());
else
registersToSpillForCCall.set(reg.fpr());
}
for (GPRReg reg : gpScratch)
registersToSpillForCCall.set(reg);
for (FPRReg reg : fpScratch)
registersToSpillForCCall.set(reg);
registersToSpillForCCall.exclude(RegisterSet::registersToNotSaveForCCall());
AccessCaseSnippetParams params(state.m_vm, WTFMove(regs), WTFMove(gpScratch), WTFMove(fpScratch));
snippet->generator()->run(jit, params);
allocator.restoreReusedRegistersByPopping(jit, preservedState);
state.succeed();
CCallHelpers::JumpList exceptions = params.emitSlowPathCalls(state, registersToSpillForCCall, jit);
if (!exceptions.empty()) {
exceptions.link(&jit);
allocator.restoreReusedRegistersByPopping(jit, preservedState);
state.emitExplicitExceptionHandler();
}
}
static MacroAssemblerCodeRef virtualForThunkGenerator(
VM* vm, CodeSpecializationKind kind, RegisterPreservationMode registers)
{
// The callee is in regT0 (for JSVALUE32_64, the tag is in regT1).
// The return address is on the stack, or in the link register. We will hence
// jump to the callee, or save the return address to the call frame while we
// make a C++ function call to the appropriate JIT operation.
CCallHelpers jit(vm);
CCallHelpers::JumpList slowCase;
// FIXME: we should have a story for eliminating these checks. In many cases,
// the DFG knows that the value is definitely a cell, or definitely a function.
#if USE(JSVALUE64)
jit.move(CCallHelpers::TrustedImm64(TagMask), GPRInfo::regT2);
slowCase.append(
jit.branchTest64(
CCallHelpers::NonZero, GPRInfo::regT0, GPRInfo::regT2));
#else
slowCase.append(
jit.branch32(
CCallHelpers::NotEqual, GPRInfo::regT1,
CCallHelpers::TrustedImm32(JSValue::CellTag)));
#endif
AssemblyHelpers::emitLoadStructure(jit, GPRInfo::regT0, GPRInfo::regT2, GPRInfo::regT1);
slowCase.append(
jit.branchPtr(
CCallHelpers::NotEqual,
CCallHelpers::Address(GPRInfo::regT2, Structure::classInfoOffset()),
CCallHelpers::TrustedImmPtr(JSFunction::info())));
// Now we know we have a JSFunction.
jit.loadPtr(
CCallHelpers::Address(GPRInfo::regT0, JSFunction::offsetOfExecutable()),
GPRInfo::regT2);
jit.loadPtr(
CCallHelpers::Address(
GPRInfo::regT2, ExecutableBase::offsetOfJITCodeWithArityCheckFor(kind, registers)),
GPRInfo::regT2);
slowCase.append(jit.branchTestPtr(CCallHelpers::Zero, GPRInfo::regT2));
// Now we know that we have a CodeBlock, and we're committed to making a fast
// call.
jit.loadPtr(
CCallHelpers::Address(GPRInfo::regT0, JSFunction::offsetOfScopeChain()),
GPRInfo::regT1);
#if USE(JSVALUE64)
jit.emitPutToCallFrameHeaderBeforePrologue(GPRInfo::regT1, JSStack::ScopeChain);
#else
jit.emitPutPayloadToCallFrameHeaderBeforePrologue(GPRInfo::regT1, JSStack::ScopeChain);
jit.emitPutTagToCallFrameHeaderBeforePrologue(CCallHelpers::TrustedImm32(JSValue::CellTag),
JSStack::ScopeChain);
#endif
// Make a tail call. This will return back to JIT code.
emitPointerValidation(jit, GPRInfo::regT2);
jit.jump(GPRInfo::regT2);
slowCase.link(&jit);
// Here we don't know anything, so revert to the full slow path.
slowPathFor(jit, vm, operationVirtualFor(kind, registers));
LinkBuffer patchBuffer(*vm, &jit, GLOBAL_THUNK_ID);
return FINALIZE_CODE(
patchBuffer,
("Virtual %s%s slow path thunk", kind == CodeForCall ? "call" : "construct", registers == MustPreserveRegisters ? " that preserves registers" : ""));
}
static MacroAssemblerCodeRef virtualForThunkGenerator(
JSGlobalData* globalData, CodeSpecializationKind kind)
{
// The return address is on the stack, or in the link register. We will hence
// jump to the callee, or save the return address to the call frame while we
// make a C++ function call to the appropriate DFG operation.
CCallHelpers jit(globalData);
CCallHelpers::JumpList slowCase;
// FIXME: we should have a story for eliminating these checks. In many cases,
// the DFG knows that the value is definitely a cell, or definitely a function.
#if USE(JSVALUE64)
slowCase.append(
jit.branchTestPtr(
CCallHelpers::NonZero, GPRInfo::nonArgGPR0, GPRInfo::tagMaskRegister));
#else
slowCase.append(
jit.branch32(
CCallHelpers::NotEqual, GPRInfo::nonArgGPR1,
CCallHelpers::TrustedImm32(JSValue::CellTag)));
#endif
jit.loadPtr(CCallHelpers::Address(GPRInfo::nonArgGPR0, JSCell::structureOffset()), GPRInfo::nonArgGPR2);
slowCase.append(
jit.branchPtr(
CCallHelpers::NotEqual,
CCallHelpers::Address(GPRInfo::nonArgGPR2, Structure::classInfoOffset()),
CCallHelpers::TrustedImmPtr(&JSFunction::s_info)));
// Now we know we have a JSFunction.
jit.loadPtr(
CCallHelpers::Address(GPRInfo::nonArgGPR0, JSFunction::offsetOfExecutable()),
GPRInfo::nonArgGPR2);
slowCase.append(
jit.branch32(
CCallHelpers::LessThan,
CCallHelpers::Address(
GPRInfo::nonArgGPR2, ExecutableBase::offsetOfNumParametersFor(kind)),
CCallHelpers::TrustedImm32(0)));
// Now we know that we have a CodeBlock, and we're committed to making a fast
// call.
jit.loadPtr(
CCallHelpers::Address(GPRInfo::nonArgGPR0, JSFunction::offsetOfScopeChain()),
GPRInfo::nonArgGPR1);
#if USE(JSVALUE64)
jit.storePtr(
GPRInfo::nonArgGPR1,
CCallHelpers::Address(
GPRInfo::callFrameRegister,
static_cast<ptrdiff_t>(sizeof(Register)) * RegisterFile::ScopeChain));
#else
jit.storePtr(
GPRInfo::nonArgGPR1,
CCallHelpers::Address(
GPRInfo::callFrameRegister,
static_cast<ptrdiff_t>(sizeof(Register)) * RegisterFile::ScopeChain +
OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)));
jit.store32(
CCallHelpers::TrustedImm32(JSValue::CellTag),
CCallHelpers::Address(
GPRInfo::callFrameRegister,
static_cast<ptrdiff_t>(sizeof(Register)) * RegisterFile::ScopeChain +
OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)));
#endif
jit.loadPtr(
CCallHelpers::Address(GPRInfo::nonArgGPR2, ExecutableBase::offsetOfJITCodeWithArityCheckFor(kind)),
GPRInfo::regT0);
// Make a tail call. This will return back to DFG code.
emitPointerValidation(jit, GPRInfo::regT0);
jit.jump(GPRInfo::regT0);
slowCase.link(&jit);
// Here we don't know anything, so revert to the full slow path.
slowPathFor(jit, globalData, kind == CodeForCall ? operationVirtualCall : operationVirtualConstruct);
LinkBuffer patchBuffer(*globalData, &jit, GLOBAL_THUNK_ID);
return FINALIZE_CODE(
patchBuffer,
("DFG virtual %s slow path thunk", kind == CodeForCall ? "call" : "construct"));
}
static void fixFunctionBasedOnStackMaps(
State& state, CodeBlock* codeBlock, JITCode* jitCode, GeneratedFunction generatedFunction,
StackMaps::RecordMap& recordMap, bool didSeeUnwindInfo)
{
Graph& graph = state.graph;
VM& vm = graph.m_vm;
StackMaps stackmaps = jitCode->stackmaps;
int localsOffset =
offsetOfStackRegion(recordMap, state.capturedStackmapID) + graph.m_nextMachineLocal;
int varargsSpillSlotsOffset;
if (state.varargsSpillSlotsStackmapID != UINT_MAX)
varargsSpillSlotsOffset = offsetOfStackRegion(recordMap, state.varargsSpillSlotsStackmapID);
else
varargsSpillSlotsOffset = 0;
for (unsigned i = graph.m_inlineVariableData.size(); i--;) {
InlineCallFrame* inlineCallFrame = graph.m_inlineVariableData[i].inlineCallFrame;
if (inlineCallFrame->argumentsRegister.isValid())
inlineCallFrame->argumentsRegister += localsOffset;
if (inlineCallFrame->argumentCountRegister.isValid())
inlineCallFrame->argumentCountRegister += localsOffset;
for (unsigned argument = inlineCallFrame->arguments.size(); argument-- > 1;) {
inlineCallFrame->arguments[argument] =
inlineCallFrame->arguments[argument].withLocalsOffset(localsOffset);
}
if (inlineCallFrame->isClosureCall) {
inlineCallFrame->calleeRecovery =
inlineCallFrame->calleeRecovery.withLocalsOffset(localsOffset);
}
}
if (codeBlock->usesArguments()) {
codeBlock->setArgumentsRegister(
VirtualRegister(codeBlock->argumentsRegister().offset() + localsOffset));
}
MacroAssembler::Label stackOverflowException;
{
CCallHelpers checkJIT(&vm, codeBlock);
// At this point it's perfectly fair to just blow away all state and restore the
// JS JIT view of the universe.
checkJIT.move(MacroAssembler::TrustedImmPtr(&vm), GPRInfo::argumentGPR0);
checkJIT.move(GPRInfo::callFrameRegister, GPRInfo::argumentGPR1);
MacroAssembler::Call callLookupExceptionHandler = checkJIT.call();
checkJIT.jumpToExceptionHandler();
stackOverflowException = checkJIT.label();
checkJIT.move(MacroAssembler::TrustedImmPtr(&vm), GPRInfo::argumentGPR0);
checkJIT.move(GPRInfo::callFrameRegister, GPRInfo::argumentGPR1);
MacroAssembler::Call callLookupExceptionHandlerFromCallerFrame = checkJIT.call();
checkJIT.jumpToExceptionHandler();
auto linkBuffer = std::make_unique<LinkBuffer>(
vm, checkJIT, codeBlock, JITCompilationMustSucceed);
linkBuffer->link(callLookupExceptionHandler, FunctionPtr(lookupExceptionHandler));
linkBuffer->link(callLookupExceptionHandlerFromCallerFrame, FunctionPtr(lookupExceptionHandlerFromCallerFrame));
state.finalizer->handleExceptionsLinkBuffer = WTF::move(linkBuffer);
}
ExitThunkGenerator exitThunkGenerator(state);
exitThunkGenerator.emitThunks();
if (exitThunkGenerator.didThings()) {
RELEASE_ASSERT(state.finalizer->osrExit.size());
RELEASE_ASSERT(didSeeUnwindInfo);
auto linkBuffer = std::make_unique<LinkBuffer>(
vm, exitThunkGenerator, codeBlock, JITCompilationMustSucceed);
RELEASE_ASSERT(state.finalizer->osrExit.size() == state.jitCode->osrExit.size());
for (unsigned i = 0; i < state.jitCode->osrExit.size(); ++i) {
OSRExitCompilationInfo& info = state.finalizer->osrExit[i];
OSRExit& exit = jitCode->osrExit[i];
if (verboseCompilationEnabled())
dataLog("Handling OSR stackmap #", exit.m_stackmapID, " for ", exit.m_codeOrigin, "\n");
auto iter = recordMap.find(exit.m_stackmapID);
if (iter == recordMap.end()) {
// It was optimized out.
continue;
}
info.m_thunkAddress = linkBuffer->locationOf(info.m_thunkLabel);
exit.m_patchableCodeOffset = linkBuffer->offsetOf(info.m_thunkJump);
for (unsigned j = exit.m_values.size(); j--;) {
ExitValue value = exit.m_values[j];
if (!value.isInJSStackSomehow())
continue;
if (!value.virtualRegister().isLocal())
continue;
exit.m_values[j] = value.withVirtualRegister(
VirtualRegister(value.virtualRegister().offset() + localsOffset));
}
if (verboseCompilationEnabled()) {
DumpContext context;
dataLog(" Exit values: ", inContext(exit.m_values, &context), "\n");
}
}
state.finalizer->exitThunksLinkBuffer = WTF::move(linkBuffer);
}
if (!state.getByIds.isEmpty() || !state.putByIds.isEmpty() || !state.checkIns.isEmpty()) {
CCallHelpers slowPathJIT(&vm, codeBlock);
CCallHelpers::JumpList exceptionTarget;
for (unsigned i = state.getByIds.size(); i--;) {
GetByIdDescriptor& getById = state.getByIds[i];
if (verboseCompilationEnabled())
dataLog("Handling GetById stackmap #", getById.stackmapID(), "\n");
auto iter = recordMap.find(getById.stackmapID());
if (iter == recordMap.end()) {
// It was optimized out.
continue;
}
for (unsigned i = 0; i < iter->value.size(); ++i) {
StackMaps::Record& record = iter->value[i];
RegisterSet usedRegisters = usedRegistersFor(record);
GPRReg result = record.locations[0].directGPR();
GPRReg base = record.locations[1].directGPR();
JITGetByIdGenerator gen(
codeBlock, getById.codeOrigin(), usedRegisters, JSValueRegs(base),
JSValueRegs(result), NeedToSpill);
MacroAssembler::Label begin = slowPathJIT.label();
MacroAssembler::Call call = callOperation(
state, usedRegisters, slowPathJIT, getById.codeOrigin(), &exceptionTarget,
operationGetByIdOptimize, result, gen.stubInfo(), base, getById.uid());
gen.reportSlowPathCall(begin, call);
getById.m_slowPathDone.append(slowPathJIT.jump());
getById.m_generators.append(gen);
}
}
for (unsigned i = state.putByIds.size(); i--;) {
PutByIdDescriptor& putById = state.putByIds[i];
if (verboseCompilationEnabled())
dataLog("Handling PutById stackmap #", putById.stackmapID(), "\n");
auto iter = recordMap.find(putById.stackmapID());
if (iter == recordMap.end()) {
// It was optimized out.
continue;
}
for (unsigned i = 0; i < iter->value.size(); ++i) {
StackMaps::Record& record = iter->value[i];
RegisterSet usedRegisters = usedRegistersFor(record);
GPRReg base = record.locations[0].directGPR();
GPRReg value = record.locations[1].directGPR();
JITPutByIdGenerator gen(
codeBlock, putById.codeOrigin(), usedRegisters, JSValueRegs(base),
JSValueRegs(value), GPRInfo::patchpointScratchRegister, NeedToSpill,
putById.ecmaMode(), putById.putKind());
MacroAssembler::Label begin = slowPathJIT.label();
MacroAssembler::Call call = callOperation(
state, usedRegisters, slowPathJIT, putById.codeOrigin(), &exceptionTarget,
gen.slowPathFunction(), gen.stubInfo(), value, base, putById.uid());
gen.reportSlowPathCall(begin, call);
putById.m_slowPathDone.append(slowPathJIT.jump());
putById.m_generators.append(gen);
}
}
for (unsigned i = state.checkIns.size(); i--;) {
CheckInDescriptor& checkIn = state.checkIns[i];
if (verboseCompilationEnabled())
dataLog("Handling checkIn stackmap #", checkIn.stackmapID(), "\n");
auto iter = recordMap.find(checkIn.stackmapID());
if (iter == recordMap.end()) {
// It was optimized out.
continue;
}
for (unsigned i = 0; i < iter->value.size(); ++i) {
StackMaps::Record& record = iter->value[i];
RegisterSet usedRegisters = usedRegistersFor(record);
GPRReg result = record.locations[0].directGPR();
GPRReg obj = record.locations[1].directGPR();
StructureStubInfo* stubInfo = codeBlock->addStubInfo();
stubInfo->codeOrigin = checkIn.codeOrigin();
stubInfo->patch.baseGPR = static_cast<int8_t>(obj);
stubInfo->patch.valueGPR = static_cast<int8_t>(result);
stubInfo->patch.usedRegisters = usedRegisters;
stubInfo->patch.spillMode = NeedToSpill;
MacroAssembler::Label begin = slowPathJIT.label();
MacroAssembler::Call slowCall = callOperation(
state, usedRegisters, slowPathJIT, checkIn.codeOrigin(), &exceptionTarget,
operationInOptimize, result, stubInfo, obj, checkIn.m_id);
checkIn.m_slowPathDone.append(slowPathJIT.jump());
checkIn.m_generators.append(CheckInGenerator(stubInfo, slowCall, begin));
}
}
exceptionTarget.link(&slowPathJIT);
MacroAssembler::Jump exceptionJump = slowPathJIT.jump();
state.finalizer->sideCodeLinkBuffer = std::make_unique<LinkBuffer>(vm, slowPathJIT, codeBlock, JITCompilationMustSucceed);
state.finalizer->sideCodeLinkBuffer->link(
exceptionJump, state.finalizer->handleExceptionsLinkBuffer->entrypoint());
for (unsigned i = state.getByIds.size(); i--;) {
generateICFastPath(
state, codeBlock, generatedFunction, recordMap, state.getByIds[i],
sizeOfGetById());
}
for (unsigned i = state.putByIds.size(); i--;) {
generateICFastPath(
state, codeBlock, generatedFunction, recordMap, state.putByIds[i],
sizeOfPutById());
}
for (unsigned i = state.checkIns.size(); i--;) {
generateCheckInICFastPath(
state, codeBlock, generatedFunction, recordMap, state.checkIns[i],
sizeOfIn());
}
}
adjustCallICsForStackmaps(state.jsCalls, recordMap);
for (unsigned i = state.jsCalls.size(); i--;) {
JSCall& call = state.jsCalls[i];
CCallHelpers fastPathJIT(&vm, codeBlock);
call.emit(fastPathJIT);
char* startOfIC = bitwise_cast<char*>(generatedFunction) + call.m_instructionOffset;
LinkBuffer linkBuffer(vm, fastPathJIT, startOfIC, sizeOfCall());
if (!linkBuffer.isValid()) {
dataLog("Failed to insert inline cache for call because we thought the size would be ", sizeOfCall(), " but it ended up being ", fastPathJIT.m_assembler.codeSize(), " prior to compaction.\n");
RELEASE_ASSERT_NOT_REACHED();
}
MacroAssembler::AssemblerType_T::fillNops(
startOfIC + linkBuffer.size(), sizeOfCall() - linkBuffer.size());
call.link(vm, linkBuffer);
}
adjustCallICsForStackmaps(state.jsCallVarargses, recordMap);
for (unsigned i = state.jsCallVarargses.size(); i--;) {
JSCallVarargs& call = state.jsCallVarargses[i];
CCallHelpers fastPathJIT(&vm, codeBlock);
call.emit(fastPathJIT, graph, varargsSpillSlotsOffset);
char* startOfIC = bitwise_cast<char*>(generatedFunction) + call.m_instructionOffset;
size_t sizeOfIC = sizeOfICFor(call.node());
LinkBuffer linkBuffer(vm, fastPathJIT, startOfIC, sizeOfIC);
if (!linkBuffer.isValid()) {
dataLog("Failed to insert inline cache for varargs call (specifically, ", Graph::opName(call.node()->op()), ") because we thought the size would be ", sizeOfIC, " but it ended up being ", fastPathJIT.m_assembler.codeSize(), " prior to compaction.\n");
RELEASE_ASSERT_NOT_REACHED();
}
MacroAssembler::AssemblerType_T::fillNops(
startOfIC + linkBuffer.size(), sizeOfIC - linkBuffer.size());
call.link(vm, linkBuffer, state.finalizer->handleExceptionsLinkBuffer->entrypoint());
}
RepatchBuffer repatchBuffer(codeBlock);
auto iter = recordMap.find(state.handleStackOverflowExceptionStackmapID);
// It's sort of remotely possible that we won't have an in-band exception handling
// path, for some kinds of functions.
if (iter != recordMap.end()) {
for (unsigned i = iter->value.size(); i--;) {
StackMaps::Record& record = iter->value[i];
CodeLocationLabel source = CodeLocationLabel(
bitwise_cast<char*>(generatedFunction) + record.instructionOffset);
RELEASE_ASSERT(stackOverflowException.isSet());
repatchBuffer.replaceWithJump(source, state.finalizer->handleExceptionsLinkBuffer->locationOf(stackOverflowException));
}
}
iter = recordMap.find(state.handleExceptionStackmapID);
// It's sort of remotely possible that we won't have an in-band exception handling
// path, for some kinds of functions.
if (iter != recordMap.end()) {
for (unsigned i = iter->value.size(); i--;) {
StackMaps::Record& record = iter->value[i];
CodeLocationLabel source = CodeLocationLabel(
bitwise_cast<char*>(generatedFunction) + record.instructionOffset);
repatchBuffer.replaceWithJump(source, state.finalizer->handleExceptionsLinkBuffer->entrypoint());
}
}
for (unsigned exitIndex = 0; exitIndex < jitCode->osrExit.size(); ++exitIndex) {
OSRExitCompilationInfo& info = state.finalizer->osrExit[exitIndex];
OSRExit& exit = jitCode->osrExit[exitIndex];
iter = recordMap.find(exit.m_stackmapID);
Vector<const void*> codeAddresses;
if (iter != recordMap.end()) {
for (unsigned i = iter->value.size(); i--;) {
StackMaps::Record& record = iter->value[i];
CodeLocationLabel source = CodeLocationLabel(
bitwise_cast<char*>(generatedFunction) + record.instructionOffset);
codeAddresses.append(bitwise_cast<char*>(generatedFunction) + record.instructionOffset + MacroAssembler::maxJumpReplacementSize());
if (info.m_isInvalidationPoint)
jitCode->common.jumpReplacements.append(JumpReplacement(source, info.m_thunkAddress));
else
repatchBuffer.replaceWithJump(source, info.m_thunkAddress);
}
}
if (graph.compilation())
graph.compilation()->addOSRExitSite(codeAddresses);
}
}
static void fixFunctionBasedOnStackMaps(
State& state, CodeBlock* codeBlock, JITCode* jitCode, GeneratedFunction generatedFunction,
StackMaps::RecordMap& recordMap)
{
Graph& graph = state.graph;
VM& vm = graph.m_vm;
StackMaps stackmaps = jitCode->stackmaps;
int localsOffset = offsetOfStackRegion(recordMap, state.capturedStackmapID) + graph.m_nextMachineLocal;
int varargsSpillSlotsOffset = offsetOfStackRegion(recordMap, state.varargsSpillSlotsStackmapID);
for (unsigned i = graph.m_inlineVariableData.size(); i--;) {
InlineCallFrame* inlineCallFrame = graph.m_inlineVariableData[i].inlineCallFrame;
if (inlineCallFrame->argumentCountRegister.isValid())
inlineCallFrame->argumentCountRegister += localsOffset;
for (unsigned argument = inlineCallFrame->arguments.size(); argument-- > 1;) {
inlineCallFrame->arguments[argument] =
inlineCallFrame->arguments[argument].withLocalsOffset(localsOffset);
}
if (inlineCallFrame->isClosureCall) {
inlineCallFrame->calleeRecovery =
inlineCallFrame->calleeRecovery.withLocalsOffset(localsOffset);
}
if (graph.hasDebuggerEnabled())
codeBlock->setScopeRegister(codeBlock->scopeRegister() + localsOffset);
}
MacroAssembler::Label stackOverflowException;
{
CCallHelpers checkJIT(&vm, codeBlock);
// At this point it's perfectly fair to just blow away all state and restore the
// JS JIT view of the universe.
checkJIT.copyCalleeSavesToVMCalleeSavesBuffer();
checkJIT.move(MacroAssembler::TrustedImmPtr(&vm), GPRInfo::argumentGPR0);
checkJIT.move(GPRInfo::callFrameRegister, GPRInfo::argumentGPR1);
MacroAssembler::Call callLookupExceptionHandler = checkJIT.call();
checkJIT.jumpToExceptionHandler();
stackOverflowException = checkJIT.label();
checkJIT.copyCalleeSavesToVMCalleeSavesBuffer();
checkJIT.move(MacroAssembler::TrustedImmPtr(&vm), GPRInfo::argumentGPR0);
checkJIT.move(GPRInfo::callFrameRegister, GPRInfo::argumentGPR1);
MacroAssembler::Call callLookupExceptionHandlerFromCallerFrame = checkJIT.call();
checkJIT.jumpToExceptionHandler();
auto linkBuffer = std::make_unique<LinkBuffer>(
vm, checkJIT, codeBlock, JITCompilationCanFail);
if (linkBuffer->didFailToAllocate()) {
state.allocationFailed = true;
return;
}
linkBuffer->link(callLookupExceptionHandler, FunctionPtr(lookupExceptionHandler));
linkBuffer->link(callLookupExceptionHandlerFromCallerFrame, FunctionPtr(lookupExceptionHandlerFromCallerFrame));
state.finalizer->handleExceptionsLinkBuffer = WTF::move(linkBuffer);
}
ExitThunkGenerator exitThunkGenerator(state);
exitThunkGenerator.emitThunks();
if (exitThunkGenerator.didThings()) {
RELEASE_ASSERT(state.finalizer->osrExit.size());
auto linkBuffer = std::make_unique<LinkBuffer>(
vm, exitThunkGenerator, codeBlock, JITCompilationCanFail);
if (linkBuffer->didFailToAllocate()) {
state.allocationFailed = true;
return;
}
RELEASE_ASSERT(state.finalizer->osrExit.size() == state.jitCode->osrExit.size());
for (unsigned i = 0; i < state.jitCode->osrExit.size(); ++i) {
OSRExitCompilationInfo& info = state.finalizer->osrExit[i];
OSRExit& exit = jitCode->osrExit[i];
if (verboseCompilationEnabled())
dataLog("Handling OSR stackmap #", exit.m_stackmapID, " for ", exit.m_codeOrigin, "\n");
auto iter = recordMap.find(exit.m_stackmapID);
if (iter == recordMap.end()) {
// It was optimized out.
continue;
}
info.m_thunkAddress = linkBuffer->locationOf(info.m_thunkLabel);
exit.m_patchableCodeOffset = linkBuffer->offsetOf(info.m_thunkJump);
for (unsigned j = exit.m_values.size(); j--;)
exit.m_values[j] = exit.m_values[j].withLocalsOffset(localsOffset);
for (ExitTimeObjectMaterialization* materialization : exit.m_materializations)
materialization->accountForLocalsOffset(localsOffset);
if (verboseCompilationEnabled()) {
DumpContext context;
dataLog(" Exit values: ", inContext(exit.m_values, &context), "\n");
if (!exit.m_materializations.isEmpty()) {
dataLog(" Materializations: \n");
for (ExitTimeObjectMaterialization* materialization : exit.m_materializations)
dataLog(" Materialize(", pointerDump(materialization), ")\n");
}
}
}
state.finalizer->exitThunksLinkBuffer = WTF::move(linkBuffer);
}
if (!state.getByIds.isEmpty() || !state.putByIds.isEmpty() || !state.checkIns.isEmpty()) {
CCallHelpers slowPathJIT(&vm, codeBlock);
CCallHelpers::JumpList exceptionTarget;
for (unsigned i = state.getByIds.size(); i--;) {
GetByIdDescriptor& getById = state.getByIds[i];
if (verboseCompilationEnabled())
dataLog("Handling GetById stackmap #", getById.stackmapID(), "\n");
auto iter = recordMap.find(getById.stackmapID());
if (iter == recordMap.end()) {
// It was optimized out.
continue;
}
CodeOrigin codeOrigin = state.jitCode->common.codeOrigins[getById.callSiteIndex().bits()];
for (unsigned i = 0; i < iter->value.size(); ++i) {
StackMaps::Record& record = iter->value[i];
RegisterSet usedRegisters = usedRegistersFor(record);
GPRReg result = record.locations[0].directGPR();
GPRReg base = record.locations[1].directGPR();
JITGetByIdGenerator gen(
codeBlock, codeOrigin, getById.callSiteIndex(), usedRegisters, JSValueRegs(base),
JSValueRegs(result), NeedToSpill);
MacroAssembler::Label begin = slowPathJIT.label();
MacroAssembler::Call call = callOperation(
state, usedRegisters, slowPathJIT, codeOrigin, &exceptionTarget,
operationGetByIdOptimize, result, gen.stubInfo(), base, getById.uid());
gen.reportSlowPathCall(begin, call);
getById.m_slowPathDone.append(slowPathJIT.jump());
getById.m_generators.append(gen);
}
}
for (unsigned i = state.putByIds.size(); i--;) {
PutByIdDescriptor& putById = state.putByIds[i];
if (verboseCompilationEnabled())
dataLog("Handling PutById stackmap #", putById.stackmapID(), "\n");
auto iter = recordMap.find(putById.stackmapID());
if (iter == recordMap.end()) {
// It was optimized out.
continue;
}
CodeOrigin codeOrigin = state.jitCode->common.codeOrigins[putById.callSiteIndex().bits()];
for (unsigned i = 0; i < iter->value.size(); ++i) {
StackMaps::Record& record = iter->value[i];
RegisterSet usedRegisters = usedRegistersFor(record);
GPRReg base = record.locations[0].directGPR();
GPRReg value = record.locations[1].directGPR();
JITPutByIdGenerator gen(
codeBlock, codeOrigin, putById.callSiteIndex(), usedRegisters, JSValueRegs(base),
JSValueRegs(value), GPRInfo::patchpointScratchRegister, NeedToSpill,
putById.ecmaMode(), putById.putKind());
MacroAssembler::Label begin = slowPathJIT.label();
MacroAssembler::Call call = callOperation(
state, usedRegisters, slowPathJIT, codeOrigin, &exceptionTarget,
gen.slowPathFunction(), gen.stubInfo(), value, base, putById.uid());
gen.reportSlowPathCall(begin, call);
putById.m_slowPathDone.append(slowPathJIT.jump());
putById.m_generators.append(gen);
}
}
for (unsigned i = state.checkIns.size(); i--;) {
CheckInDescriptor& checkIn = state.checkIns[i];
if (verboseCompilationEnabled())
dataLog("Handling checkIn stackmap #", checkIn.stackmapID(), "\n");
auto iter = recordMap.find(checkIn.stackmapID());
if (iter == recordMap.end()) {
// It was optimized out.
continue;
}
CodeOrigin codeOrigin = state.jitCode->common.codeOrigins[checkIn.callSiteIndex().bits()];
for (unsigned i = 0; i < iter->value.size(); ++i) {
StackMaps::Record& record = iter->value[i];
RegisterSet usedRegisters = usedRegistersFor(record);
GPRReg result = record.locations[0].directGPR();
GPRReg obj = record.locations[1].directGPR();
StructureStubInfo* stubInfo = codeBlock->addStubInfo(AccessType::In);
stubInfo->codeOrigin = codeOrigin;
stubInfo->callSiteIndex = checkIn.callSiteIndex();
stubInfo->patch.baseGPR = static_cast<int8_t>(obj);
stubInfo->patch.valueGPR = static_cast<int8_t>(result);
stubInfo->patch.usedRegisters = usedRegisters;
stubInfo->patch.spillMode = NeedToSpill;
MacroAssembler::Label begin = slowPathJIT.label();
MacroAssembler::Call slowCall = callOperation(
state, usedRegisters, slowPathJIT, codeOrigin, &exceptionTarget,
operationInOptimize, result, stubInfo, obj, checkIn.m_uid);
checkIn.m_slowPathDone.append(slowPathJIT.jump());
checkIn.m_generators.append(CheckInGenerator(stubInfo, slowCall, begin));
}
}
exceptionTarget.link(&slowPathJIT);
MacroAssembler::Jump exceptionJump = slowPathJIT.jump();
state.finalizer->sideCodeLinkBuffer = std::make_unique<LinkBuffer>(vm, slowPathJIT, codeBlock, JITCompilationCanFail);
if (state.finalizer->sideCodeLinkBuffer->didFailToAllocate()) {
state.allocationFailed = true;
return;
}
state.finalizer->sideCodeLinkBuffer->link(
exceptionJump, state.finalizer->handleExceptionsLinkBuffer->entrypoint());
for (unsigned i = state.getByIds.size(); i--;) {
generateICFastPath(
state, codeBlock, generatedFunction, recordMap, state.getByIds[i],
sizeOfGetById());
}
for (unsigned i = state.putByIds.size(); i--;) {
generateICFastPath(
state, codeBlock, generatedFunction, recordMap, state.putByIds[i],
sizeOfPutById());
}
for (unsigned i = state.checkIns.size(); i--;) {
generateCheckInICFastPath(
state, codeBlock, generatedFunction, recordMap, state.checkIns[i],
sizeOfIn());
}
}
adjustCallICsForStackmaps(state.jsCalls, recordMap);
for (unsigned i = state.jsCalls.size(); i--;) {
JSCall& call = state.jsCalls[i];
CCallHelpers fastPathJIT(&vm, codeBlock);
call.emit(fastPathJIT, state.jitCode->stackmaps.stackSizeForLocals());
char* startOfIC = bitwise_cast<char*>(generatedFunction) + call.m_instructionOffset;
generateInlineIfPossibleOutOfLineIfNot(state, vm, codeBlock, fastPathJIT, startOfIC, sizeOfCall(), "JSCall inline cache", [&] (LinkBuffer& linkBuffer, CCallHelpers&, bool) {
call.link(vm, linkBuffer);
});
}
adjustCallICsForStackmaps(state.jsCallVarargses, recordMap);
for (unsigned i = state.jsCallVarargses.size(); i--;) {
JSCallVarargs& call = state.jsCallVarargses[i];
CCallHelpers fastPathJIT(&vm, codeBlock);
call.emit(fastPathJIT, varargsSpillSlotsOffset);
char* startOfIC = bitwise_cast<char*>(generatedFunction) + call.m_instructionOffset;
size_t sizeOfIC = sizeOfICFor(call.node());
generateInlineIfPossibleOutOfLineIfNot(state, vm, codeBlock, fastPathJIT, startOfIC, sizeOfIC, "varargs call inline cache", [&] (LinkBuffer& linkBuffer, CCallHelpers&, bool) {
call.link(vm, linkBuffer, state.finalizer->handleExceptionsLinkBuffer->entrypoint());
});
}
adjustCallICsForStackmaps(state.jsTailCalls, recordMap);
for (unsigned i = state.jsTailCalls.size(); i--;) {
JSTailCall& call = state.jsTailCalls[i];
CCallHelpers fastPathJIT(&vm, codeBlock);
call.emit(*state.jitCode.get(), fastPathJIT);
char* startOfIC = bitwise_cast<char*>(generatedFunction) + call.m_instructionOffset;
size_t sizeOfIC = call.estimatedSize();
generateInlineIfPossibleOutOfLineIfNot(state, vm, codeBlock, fastPathJIT, startOfIC, sizeOfIC, "tail call inline cache", [&] (LinkBuffer& linkBuffer, CCallHelpers&, bool) {
call.link(vm, linkBuffer);
});
}
auto iter = recordMap.find(state.handleStackOverflowExceptionStackmapID);
// It's sort of remotely possible that we won't have an in-band exception handling
// path, for some kinds of functions.
if (iter != recordMap.end()) {
for (unsigned i = iter->value.size(); i--;) {
StackMaps::Record& record = iter->value[i];
CodeLocationLabel source = CodeLocationLabel(
bitwise_cast<char*>(generatedFunction) + record.instructionOffset);
RELEASE_ASSERT(stackOverflowException.isSet());
MacroAssembler::replaceWithJump(source, state.finalizer->handleExceptionsLinkBuffer->locationOf(stackOverflowException));
}
}
iter = recordMap.find(state.handleExceptionStackmapID);
// It's sort of remotely possible that we won't have an in-band exception handling
// path, for some kinds of functions.
if (iter != recordMap.end()) {
for (unsigned i = iter->value.size(); i--;) {
StackMaps::Record& record = iter->value[i];
CodeLocationLabel source = CodeLocationLabel(
bitwise_cast<char*>(generatedFunction) + record.instructionOffset);
MacroAssembler::replaceWithJump(source, state.finalizer->handleExceptionsLinkBuffer->entrypoint());
}
}
for (unsigned exitIndex = 0; exitIndex < jitCode->osrExit.size(); ++exitIndex) {
OSRExitCompilationInfo& info = state.finalizer->osrExit[exitIndex];
OSRExit& exit = jitCode->osrExit[exitIndex];
iter = recordMap.find(exit.m_stackmapID);
Vector<const void*> codeAddresses;
if (iter != recordMap.end()) {
for (unsigned i = iter->value.size(); i--;) {
StackMaps::Record& record = iter->value[i];
CodeLocationLabel source = CodeLocationLabel(
bitwise_cast<char*>(generatedFunction) + record.instructionOffset);
codeAddresses.append(bitwise_cast<char*>(generatedFunction) + record.instructionOffset + MacroAssembler::maxJumpReplacementSize());
if (info.m_isInvalidationPoint)
jitCode->common.jumpReplacements.append(JumpReplacement(source, info.m_thunkAddress));
else
MacroAssembler::replaceWithJump(source, info.m_thunkAddress);
}
}
if (graph.compilation())
graph.compilation()->addOSRExitSite(codeAddresses);
}
}
// FIXME: We should distinguish between a megamorphic virtual call vs. a slow
// path virtual call so that we can enable fast tail calls for megamorphic
// virtual calls by using the shuffler.
// https://bugs.webkit.org/show_bug.cgi?id=148831
MacroAssemblerCodeRef virtualThunkFor(VM* vm, CallLinkInfo& callLinkInfo)
{
// The callee is in regT0 (for JSVALUE32_64, the tag is in regT1).
// The return address is on the stack, or in the link register. We will hence
// jump to the callee, or save the return address to the call frame while we
// make a C++ function call to the appropriate JIT operation.
CCallHelpers jit(vm);
CCallHelpers::JumpList slowCase;
// This is a slow path execution, and regT2 contains the CallLinkInfo. Count the
// slow path execution for the profiler.
jit.add32(
CCallHelpers::TrustedImm32(1),
CCallHelpers::Address(GPRInfo::regT2, CallLinkInfo::offsetOfSlowPathCount()));
// FIXME: we should have a story for eliminating these checks. In many cases,
// the DFG knows that the value is definitely a cell, or definitely a function.
#if USE(JSVALUE64)
jit.move(CCallHelpers::TrustedImm64(TagMask), GPRInfo::regT4);
slowCase.append(
jit.branchTest64(
CCallHelpers::NonZero, GPRInfo::regT0, GPRInfo::regT4));
#else
slowCase.append(
jit.branch32(
CCallHelpers::NotEqual, GPRInfo::regT1,
CCallHelpers::TrustedImm32(JSValue::CellTag)));
#endif
AssemblyHelpers::emitLoadStructure(jit, GPRInfo::regT0, GPRInfo::regT4, GPRInfo::regT1);
slowCase.append(
jit.branchPtr(
CCallHelpers::NotEqual,
CCallHelpers::Address(GPRInfo::regT4, Structure::classInfoOffset()),
CCallHelpers::TrustedImmPtr(JSFunction::info())));
// Now we know we have a JSFunction.
jit.loadPtr(
CCallHelpers::Address(GPRInfo::regT0, JSFunction::offsetOfExecutable()),
GPRInfo::regT4);
jit.loadPtr(
CCallHelpers::Address(
GPRInfo::regT4, ExecutableBase::offsetOfJITCodeWithArityCheckFor(
callLinkInfo.specializationKind())),
GPRInfo::regT4);
slowCase.append(jit.branchTestPtr(CCallHelpers::Zero, GPRInfo::regT4));
// Now we know that we have a CodeBlock, and we're committed to making a fast
// call.
// Make a tail call. This will return back to JIT code.
emitPointerValidation(jit, GPRInfo::regT4);
if (callLinkInfo.isTailCall()) {
jit.preserveReturnAddressAfterCall(GPRInfo::regT0);
jit.prepareForTailCallSlow(GPRInfo::regT4);
}
jit.jump(GPRInfo::regT4);
slowCase.link(&jit);
// Here we don't know anything, so revert to the full slow path.
slowPathFor(jit, vm, operationVirtualCall);
LinkBuffer patchBuffer(*vm, jit, GLOBAL_THUNK_ID);
return FINALIZE_CODE(
patchBuffer,
("Virtual %s slow path thunk",
callLinkInfo.callMode() == CallMode::Regular ? "call" : callLinkInfo.callMode() == CallMode::Tail ? "tail call" : "construct"));
}
