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/*
* Copyright (C) 2008-2019 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#if ENABLE(JIT)
#if USE(JSVALUE64)
#include "JIT.h"
#include "CallFrameShuffler.h"
#include "CodeBlock.h"
#include "JITInlines.h"
#include "JSArray.h"
#include "JSFunction.h"
#include "Interpreter.h"
#include "JSCInlines.h"
#include "LinkBuffer.h"
#include "OpcodeInlines.h"
#include "ResultType.h"
#include "SetupVarargsFrame.h"
#include "StackAlignment.h"
#include "ThunkGenerators.h"
#include <wtf/StringPrintStream.h>
namespace JSC {
template<typename Op>
void JIT::emitPutCallResult(const Op& bytecode)
{
emitValueProfilingSite(bytecode.metadata(m_codeBlock));
emitPutVirtualRegister(bytecode.m_dst.offset());
}
template<typename Op>
std::enable_if_t<
Op::opcodeID != op_call_varargs && Op::opcodeID != op_construct_varargs
&& Op::opcodeID != op_tail_call_varargs && Op::opcodeID != op_tail_call_forward_arguments
, void>
JIT::compileSetupFrame(const Op& bytecode, CallLinkInfo*)
{
auto& metadata = bytecode.metadata(m_codeBlock);
int argCount = bytecode.m_argc;
int registerOffset = -static_cast<int>(bytecode.m_argv);
if (Op::opcodeID == op_call && shouldEmitProfiling()) {
emitGetVirtualRegister(registerOffset + CallFrame::argumentOffsetIncludingThis(0), regT0);
Jump done = branchIfNotCell(regT0);
load32(Address(regT0, JSCell::structureIDOffset()), regT0);
store32(regT0, metadata.m_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)));
}
template<typename Op>
std::enable_if_t<
Op::opcodeID == op_call_varargs || Op::opcodeID == op_construct_varargs
|| Op::opcodeID == op_tail_call_varargs || Op::opcodeID == op_tail_call_forward_arguments
, void>
JIT::compileSetupFrame(const Op& bytecode, CallLinkInfo* info)
{
int thisValue = bytecode.m_thisValue.offset();
int arguments = bytecode.m_arguments.offset();
int firstFreeRegister = bytecode.m_firstFree.offset();
int firstVarArgOffset = bytecode.m_firstVarArg;
emitGetVirtualRegister(arguments, regT1);
Z_JITOperation_EJZZ sizeOperation;
if (Op::opcodeID == op_tail_call_forward_arguments)
sizeOperation = operationSizeFrameForForwardArguments;
else
sizeOperation = operationSizeFrameForVarargs;
callOperation(sizeOperation, regT1, -firstFreeRegister, firstVarArgOffset);
move(TrustedImm32(-firstFreeRegister), regT1);
emitSetVarargsFrame(*this, returnValueGPR, false, regT1, regT1);
addPtr(TrustedImm32(-(sizeof(CallerFrameAndPC) + WTF::roundUpToMultipleOf(stackAlignmentBytes(), 5 * sizeof(void*)))), regT1, stackPointerRegister);
emitGetVirtualRegister(arguments, regT2);
F_JITOperation_EFJZZ setupOperation;
if (Op::opcodeID == op_tail_call_forward_arguments)
setupOperation = operationSetupForwardArgumentsFrame;
else
setupOperation = operationSetupVarargsFrame;
callOperation(setupOperation, regT1, regT2, firstVarArgOffset, regT0);
move(returnValueGPR, regT1);
// Profile the argument count.
load32(Address(regT1, CallFrameSlot::argumentCount * static_cast<int>(sizeof(Register)) + PayloadOffset), regT2);
load32(info->addressOfMaxNumArguments(), regT0);
Jump notBiggest = branch32(Above, regT0, regT2);
store32(regT2, info->addressOfMaxNumArguments());
notBiggest.link(this);
// Initialize 'this'.
emitGetVirtualRegister(thisValue, regT0);
store64(regT0, Address(regT1, CallFrame::thisArgumentOffset() * static_cast<int>(sizeof(Register))));
addPtr(TrustedImm32(sizeof(CallerFrameAndPC)), regT1, stackPointerRegister);
}
template<typename Op>
bool JIT::compileCallEval(const Op&)
{
return false;
}
template<>
bool JIT::compileCallEval(const OpCallEval& bytecode)
{
addPtr(TrustedImm32(-static_cast<ptrdiff_t>(sizeof(CallerFrameAndPC))), stackPointerRegister, regT1);
storePtr(callFrameRegister, Address(regT1, CallFrame::callerFrameOffset()));
addPtr(TrustedImm32(stackPointerOffsetFor(m_codeBlock) * sizeof(Register)), callFrameRegister, stackPointerRegister);
checkStackPointerAlignment();
callOperation(operationCallEval, regT1);
addSlowCase(branchIfEmpty(regT0));
sampleCodeBlock(m_codeBlock);
emitPutCallResult(bytecode);
return true;
}
void JIT::compileCallEvalSlowCase(const Instruction* instruction, Vector<SlowCaseEntry>::iterator& iter)
{
linkAllSlowCases(iter);
auto bytecode = instruction->as<OpCallEval>();
CallLinkInfo* info = m_codeBlock->addCallLinkInfo();
info->setUpCall(CallLinkInfo::Call, CodeOrigin(m_bytecodeOffset), regT0);
int registerOffset = -bytecode.m_argv;
addPtr(TrustedImm32(registerOffset * sizeof(Register) + sizeof(CallerFrameAndPC)), callFrameRegister, stackPointerRegister);
load64(Address(stackPointerRegister, sizeof(Register) * CallFrameSlot::callee - sizeof(CallerFrameAndPC)), regT0);
emitDumbVirtualCall(*vm(), info);
addPtr(TrustedImm32(stackPointerOffsetFor(m_codeBlock) * sizeof(Register)), callFrameRegister, stackPointerRegister);
checkStackPointerAlignment();
sampleCodeBlock(m_codeBlock);
emitPutCallResult(bytecode);
}
template<typename Op>
bool JIT::compileTailCall(const Op&, CallLinkInfo*, unsigned)
{
return false;
}
template<>
bool JIT::compileTailCall(const OpTailCall& bytecode, CallLinkInfo* info, unsigned callLinkInfoIndex)
{
CallFrameShuffleData shuffleData;
shuffleData.numPassedArgs = bytecode.m_argc;
shuffleData.tagTypeNumber = GPRInfo::tagTypeNumberRegister;
shuffleData.numLocals =
bytecode.m_argv - sizeof(CallerFrameAndPC) / sizeof(Register);
shuffleData.args.resize(bytecode.m_argc);
for (unsigned i = 0; i < bytecode.m_argc; ++i) {
shuffleData.args[i] =
ValueRecovery::displacedInJSStack(
virtualRegisterForArgument(i) - bytecode.m_argv,
DataFormatJS);
}
shuffleData.callee =
ValueRecovery::inGPR(regT0, DataFormatJS);
shuffleData.setupCalleeSaveRegisters(m_codeBlock);
info->setFrameShuffleData(shuffleData);
CallFrameShuffler(*this, shuffleData).prepareForTailCall();
m_callCompilationInfo[callLinkInfoIndex].hotPathOther = emitNakedTailCall();
return true;
}
template<typename Op>
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 bytecodeOffset = m_codeBlock->bytecodeOffset(instruction);
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 (compileCallEval(bytecode)) {
return;
}
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;
if (compileTailCall(bytecode, info, callLinkInfoIndex)) {
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(bytecode);
}
template<typename Op>
void JIT::compileOpCallSlowCase(const Instruction* instruction, Vector<SlowCaseEntry>::iterator& iter, unsigned callLinkInfoIndex)
{
OpcodeID opcodeID = Op::opcodeID;
ASSERT(opcodeID != op_call_eval);
linkAllSlowCases(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).retaggedCode<NoPtrTag>());
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);
auto bytecode = instruction->as<Op>();
emitPutCallResult(bytecode);
}
void JIT::emit_op_call(const Instruction* currentInstruction)
{
compileOpCall<OpCall>(currentInstruction, m_callLinkInfoIndex++);
}
void JIT::emit_op_tail_call(const Instruction* currentInstruction)
{
compileOpCall<OpTailCall>(currentInstruction, m_callLinkInfoIndex++);
}
void JIT::emit_op_call_eval(const Instruction* currentInstruction)
{
compileOpCall<OpCallEval>(currentInstruction, m_callLinkInfoIndex);
}
void JIT::emit_op_call_varargs(const Instruction* currentInstruction)
{
compileOpCall<OpCallVarargs>(currentInstruction, m_callLinkInfoIndex++);
}
void JIT::emit_op_tail_call_varargs(const Instruction* currentInstruction)
{
compileOpCall<OpTailCallVarargs>(currentInstruction, m_callLinkInfoIndex++);
}
void JIT::emit_op_tail_call_forward_arguments(const Instruction* currentInstruction)
{
compileOpCall<OpTailCallForwardArguments>(currentInstruction, m_callLinkInfoIndex++);
}
void JIT::emit_op_construct_varargs(const Instruction* currentInstruction)
{
compileOpCall<OpConstructVarargs>(currentInstruction, m_callLinkInfoIndex++);
}
void JIT::emit_op_construct(const Instruction* currentInstruction)
{
compileOpCall<OpConstruct>(currentInstruction, m_callLinkInfoIndex++);
}
void JIT::emitSlow_op_call(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter)
{
compileOpCallSlowCase<OpCall>(currentInstruction, iter, m_callLinkInfoIndex++);
}
void JIT::emitSlow_op_tail_call(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter)
{
compileOpCallSlowCase<OpTailCall>(currentInstruction, iter, m_callLinkInfoIndex++);
}
void JIT::emitSlow_op_call_eval(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter)
{
compileCallEvalSlowCase(currentInstruction, iter);
}
void JIT::emitSlow_op_call_varargs(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter)
{
compileOpCallSlowCase<OpCallVarargs>(currentInstruction, iter, m_callLinkInfoIndex++);
}
void JIT::emitSlow_op_tail_call_varargs(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter)
{
compileOpCallSlowCase<OpTailCallVarargs>(currentInstruction, iter, m_callLinkInfoIndex++);
}
void JIT::emitSlow_op_tail_call_forward_arguments(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter)
{
compileOpCallSlowCase<OpTailCallForwardArguments>(currentInstruction, iter, m_callLinkInfoIndex++);
}
void JIT::emitSlow_op_construct_varargs(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter)
{
compileOpCallSlowCase<OpConstructVarargs>(currentInstruction, iter, m_callLinkInfoIndex++);
}
void JIT::emitSlow_op_construct(const Instruction* currentInstruction, Vector<SlowCaseEntry>::iterator& iter)
{
compileOpCallSlowCase<OpConstruct>(currentInstruction, iter, m_callLinkInfoIndex++);
}
} // namespace JSC
#endif // USE(JSVALUE64)
#endif // ENABLE(JIT)