Source/JavaScriptCore/interpreter/CallFrame.h - WebKit - Git at Google

 /*
  *  Copyright (C) 1999-2001 Harri Porten (porten@kde.org)
  *  Copyright (C) 2001 Peter Kelly (pmk@post.com)
  *  Copyright (C) 2003-2021 Apple Inc. All rights reserved.
  *
  *  This library is free software; you can redistribute it and/or
  *  modify it under the terms of the GNU Library General Public
  *  License as published by the Free Software Foundation; either
  *  version 2 of the License, or (at your option) any later version.
  *
  *  This library is distributed in the hope that it will be useful,
  *  but WITHOUT ANY WARRANTY; without even the implied warranty of
  *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  *  Library General Public License for more details.
  *
  *  You should have received a copy of the GNU Library General Public License
  *  along with this library; see the file COPYING.LIB.  If not, write to
  *  the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
  *  Boston, MA 02110-1301, USA.
  *
  */

 #pragma once

 #include "AbstractPC.h"
 #include "CalleeBits.h"
 #include "MacroAssemblerCodeRef.h"
 #include "Register.h"
 #include "StackVisitor.h"
 #include "VM.h"
 #include <wtf/EnumClassOperatorOverloads.h>

 namespace JSC  {

     class Arguments;
     class CallFrame;
     class Interpreter;
     class JSCallee;
     class JSScope;
     class SourceOrigin;
     class VirtualRegister;

     struct Instruction;

     class CallSiteIndex {
     public:
         CallSiteIndex() = default;

         CallSiteIndex(WTF::HashTableDeletedValueType)
             : m_bits(deletedValue().bits())
         {
         }

         explicit CallSiteIndex(BytecodeIndex bytecodeIndex)
             : m_bits(bytecodeIndex.offset())
         {
             ASSERT(!bytecodeIndex.checkpoint());
         }
         explicit CallSiteIndex(uint32_t bits)
             : m_bits(bits)
         { }

         explicit operator bool() const { return !!m_bits; }
         bool operator==(const CallSiteIndex& other) const { return m_bits == other.m_bits; }

         unsigned hash() const { return intHash(m_bits); }
         static CallSiteIndex deletedValue() { return fromBits(s_invalidIndex - 1); }
         bool isHashTableDeletedValue() const { return *this == deletedValue(); }

         uint32_t bits() const { return m_bits; }
         static CallSiteIndex fromBits(uint32_t bits) { return CallSiteIndex(bits); }

         BytecodeIndex bytecodeIndex() const { return BytecodeIndex(bits()); }

     private:
         static constexpr uint32_t s_invalidIndex = std::numeric_limits<uint32_t>::max();

         uint32_t m_bits { s_invalidIndex };
     };

     struct CallSiteIndexHash {
         static unsigned hash(const CallSiteIndex& key) { return key.hash(); }
         static bool equal(const CallSiteIndex& a, const CallSiteIndex& b) { return a == b; }
         static constexpr bool safeToCompareToEmptyOrDeleted = true;
     };

     class DisposableCallSiteIndex : public CallSiteIndex {
     public:
         DisposableCallSiteIndex() = default;

         explicit DisposableCallSiteIndex(uint32_t bits)
             : CallSiteIndex(bits)
         {
         }

         static DisposableCallSiteIndex fromCallSiteIndex(CallSiteIndex callSiteIndex)
         {
             return DisposableCallSiteIndex(callSiteIndex.bits());
         }
     };

     // arm64_32 expects caller frame and return pc to use 8 bytes
     struct CallerFrameAndPC {
         alignas(CPURegister) CallFrame* callerFrame;
         alignas(CPURegister) void* returnPC;
         static constexpr int sizeInRegisters = 2 * sizeof(CPURegister) / sizeof(Register);
     };
     static_assert(CallerFrameAndPC::sizeInRegisters == sizeof(CallerFrameAndPC) / sizeof(Register), "CallerFrameAndPC::sizeInRegisters is incorrect.");

     enum class CallFrameSlot {
         codeBlock = CallerFrameAndPC::sizeInRegisters,
         callee = codeBlock + 1,
         argumentCountIncludingThis = callee + 1,
         thisArgument = argumentCountIncludingThis + 1,
         firstArgument = thisArgument + 1,
     };

     OVERLOAD_MATH_OPERATORS_FOR_ENUM_CLASS_WITH_INTEGRALS(CallFrameSlot)
     OVERLOAD_RELATIONAL_OPERATORS_FOR_ENUM_CLASS_WITH_INTEGRALS(CallFrameSlot)

     // Represents the current state of script execution.
     // Passed as the first argument to most functions.
     class CallFrame : private Register {
     public:
         static constexpr int headerSizeInRegisters = static_cast<int>(CallFrameSlot::argumentCountIncludingThis) + 1;

         // This function should only be called in very specific circumstances
         // when you've guaranteed the callee can't be a Wasm callee, and can
         // be an arbitrary JSValue. This function should basically never be used.
         // Its only use right now is when we are making a call, and we're not
         // yet sure if the callee is a cell. In general, a JS callee is guaranteed
         // to be a cell, however, there is a brief window where we need to check
         // to see if it's a cell, and if it's not, we throw an exception.
         inline JSValue guaranteedJSValueCallee() const;
         inline JSObject* jsCallee() const;
         CalleeBits callee() const { return CalleeBits(this[static_cast<int>(CallFrameSlot::callee)].pointer()); }
         SUPPRESS_ASAN CalleeBits unsafeCallee() const { return CalleeBits(this[static_cast<int>(CallFrameSlot::callee)].asanUnsafePointer()); }
         CodeBlock* codeBlock() const;
         CodeBlock** addressOfCodeBlock() const { return bitwise_cast<CodeBlock**>(this + static_cast<int>(CallFrameSlot::codeBlock)); }
         inline SUPPRESS_ASAN CodeBlock* unsafeCodeBlock() const;
         inline JSScope* scope(int scopeRegisterOffset) const;

         JS_EXPORT_PRIVATE bool isAnyWasmCallee();

         // Global object in which the currently executing code was defined.
         // Differs from VM::deprecatedVMEntryGlobalObject() during function calls across web browser frames.
         JSGlobalObject* lexicalGlobalObject(VM&) const;

         // FIXME: Remove this function
         // https://bugs.webkit.org/show_bug.cgi?id=203272
         VM& deprecatedVM() const;

         static CallFrame* create(Register* callFrameBase) { return static_cast<CallFrame*>(callFrameBase); }
         Register* registers() { return this; }
         const Register* registers() const { return this; }

         CallFrame& operator=(const Register& r) { *static_cast<Register*>(this) = r; return *this; }

         CallFrame* callerFrame() const { return static_cast<CallFrame*>(callerFrameOrEntryFrame()); }
         void* callerFrameOrEntryFrame() const { return callerFrameAndPC().callerFrame; }
         SUPPRESS_ASAN void* unsafeCallerFrameOrEntryFrame() const { return unsafeCallerFrameAndPC().callerFrame; }

         CallFrame* unsafeCallerFrame(EntryFrame*&) const;
         JS_EXPORT_PRIVATE CallFrame* callerFrame(EntryFrame*&) const;

         JS_EXPORT_PRIVATE SourceOrigin callerSourceOrigin(VM&);

         static ptrdiff_t callerFrameOffset() { return OBJECT_OFFSETOF(CallerFrameAndPC, callerFrame); }

         ReturnAddressPtr returnPC() const { return ReturnAddressPtr::fromTaggedPC(callerFrameAndPC().returnPC, this + CallerFrameAndPC::sizeInRegisters); }
         bool hasReturnPC() const { return !!callerFrameAndPC().returnPC; }
         void clearReturnPC() { callerFrameAndPC().returnPC = nullptr; }
         static ptrdiff_t returnPCOffset() { return OBJECT_OFFSETOF(CallerFrameAndPC, returnPC); }
         AbstractPC abstractReturnPC(VM& vm) { return AbstractPC(vm, this); }

         bool callSiteBitsAreBytecodeOffset() const;
         bool callSiteBitsAreCodeOriginIndex() const;

         unsigned callSiteAsRawBits() const;
         unsigned unsafeCallSiteAsRawBits() const;
         CallSiteIndex callSiteIndex() const;
         CallSiteIndex unsafeCallSiteIndex() const;
     private:
         unsigned callSiteBitsAsBytecodeOffset() const;
 #if ENABLE(WEBASSEMBLY)
         JS_EXPORT_PRIVATE JSGlobalObject* lexicalGlobalObjectFromWasmCallee(VM&) const;
 #endif
     public:

         // This will try to get you the bytecode offset, but you should be aware that
         // this bytecode offset may be bogus in the presence of inlining. This will
         // also return 0 if the call frame has no notion of bytecode offsets (for
         // example if it's native code).
         // https://bugs.webkit.org/show_bug.cgi?id=121754
         BytecodeIndex bytecodeIndex() const;

         // This will get you a CodeOrigin. It will always succeed. May return
         // CodeOrigin(BytecodeIndex(0)) if we're in native code.
         JS_EXPORT_PRIVATE CodeOrigin codeOrigin() const;

         inline Register* topOfFrame();

         const Instruction* currentVPC() const; // This only makes sense in the LLInt and baseline.
         void setCurrentVPC(const Instruction*);

         void setCallerFrame(CallFrame* frame) { callerFrameAndPC().callerFrame = frame; }
         inline void setScope(int scopeRegisterOffset, JSScope*);

         static void initDeprecatedCallFrameForDebugger(CallFrame* globalExec, JSCallee* globalCallee);

         // Read a register from the codeframe (or constant from the CodeBlock).
         Register& r(VirtualRegister);
         // Read a register for a known non-constant
         Register& uncheckedR(VirtualRegister);

         // Access to arguments as passed. (After capture, arguments may move to a different location.)
         size_t argumentCount() const { return argumentCountIncludingThis() - 1; }
         size_t argumentCountIncludingThis() const { return this[static_cast<int>(CallFrameSlot::argumentCountIncludingThis)].payload(); }
         static int argumentOffset(int argument) { return (CallFrameSlot::firstArgument + argument); }
         static int argumentOffsetIncludingThis(int argument) { return (CallFrameSlot::thisArgument + argument); }

         // In the following (argument() and setArgument()), the 'argument'
         // parameter is the index of the arguments of the target function of
         // this frame. The index starts at 0 for the first arg, 1 for the
         // second, etc.
         //
         // The arguments (in this case) do not include the 'this' value.
         // arguments(0) will not fetch the 'this' value. To get/set 'this',
         // use thisValue() and setThisValue() below.

         JSValue* addressOfArgumentsStart() const { return bitwise_cast<JSValue*>(this + argumentOffset(0)); }
         JSValue argument(size_t argument) const
         {
             if (argument >= argumentCount())
                  return jsUndefined();
             return getArgumentUnsafe(argument);
         }
         JSValue uncheckedArgument(size_t argument) const
         {
             ASSERT(argument < argumentCount());
             return getArgumentUnsafe(argument);
         }
         void setArgument(size_t argument, JSValue value)
         {
             this[argumentOffset(argument)] = value;
         }

         JSValue getArgumentUnsafe(size_t argIndex) const
         {
             // User beware! This method does not verify that there is a valid
             // argument at the specified argIndex. This is used for debugging
             // and verification code only. The caller is expected to know what
             // he/she is doing when calling this method.
             return this[argumentOffset(argIndex)].jsValue();
         }

         static int thisArgumentOffset() { return argumentOffsetIncludingThis(0); }
         JSValue thisValue() const { return this[thisArgumentOffset()].jsValue(); }
         void setThisValue(JSValue value) { this[thisArgumentOffset()] = value; }

         // Under the constructor implemented in C++, thisValue holds the newTarget instead of the automatically constructed value.
         // The result of this function is only effective under the "construct" context.
         JSValue newTarget() const { return thisValue(); }

         JSValue argumentAfterCapture(size_t argument);

         static int offsetFor(size_t argumentCountIncludingThis) { return CallFrameSlot::thisArgument + argumentCountIncludingThis - 1; }

         static CallFrame* noCaller() { return nullptr; }
         bool isDeprecatedCallFrameForDebugger() const
         {
             return callerFrameAndPC().callerFrame == noCaller() && callerFrameAndPC().returnPC == nullptr;
         }

         void convertToStackOverflowFrame(VM&, CodeBlock* codeBlockToKeepAliveUntilFrameIsUnwound);
         bool isStackOverflowFrame() const;
         bool isWasmFrame() const;

         void setArgumentCountIncludingThis(int count) { static_cast<Register*>(this)[static_cast<int>(CallFrameSlot::argumentCountIncludingThis)].payload() = count; }
         inline void setCallee(JSObject*);
         inline void setCodeBlock(CodeBlock*);
         void setReturnPC(void* value) { callerFrameAndPC().returnPC = value; }

         JS_EXPORT_PRIVATE static JSGlobalObject* globalObjectOfClosestCodeBlock(VM&, CallFrame*);
         String friendlyFunctionName();

         // CallFrame::iterate() expects a Functor that implements the following method:
         //     StackVisitor::Status operator()(StackVisitor&) const;
         // FIXME: This method is improper. We rely on the fact that we can call it with a null
         // receiver. We should always be using StackVisitor directly.
         // It's only valid to call this from a non-wasm top frame.
         template <StackVisitor::EmptyEntryFrameAction action = StackVisitor::ContinueIfTopEntryFrameIsEmpty, typename Functor> void iterate(VM& vm, const Functor& functor)
         {
             void* rawThis = this;
             if (!!rawThis)
                 RELEASE_ASSERT(callee().isCell());
             StackVisitor::visit<action, Functor>(this, vm, functor);
         }

         void dump(PrintStream&) const;

         // This function is used in LLDB btjs.
         JS_EXPORT_PRIVATE const char* describeFrame();

     private:

         CallFrame();
         ~CallFrame();

         Register* topOfFrameInternal();

         // The following are for internal use in debugging and verification
         // code only and not meant as an API for general usage:

         size_t argIndexForRegister(Register* reg)
         {
             // The register at 'offset' number of slots from the frame pointer
             // i.e.
             //       reg = frame[offset];
             //   ==> reg = frame + offset;
             //   ==> offset = reg - frame;
             int offset = reg - this->registers();

             // The offset is defined (based on argumentOffset()) to be:
             //       offset = CallFrameSlot::firstArgument - argIndex;
             // Hence:
             //       argIndex = CallFrameSlot::firstArgument - offset;
             size_t argIndex = offset - CallFrameSlot::firstArgument;
             return argIndex;
         }

         CallerFrameAndPC& callerFrameAndPC() { return *reinterpret_cast<CallerFrameAndPC*>(this); }
         const CallerFrameAndPC& callerFrameAndPC() const { return *reinterpret_cast<const CallerFrameAndPC*>(this); }
         SUPPRESS_ASAN const CallerFrameAndPC& unsafeCallerFrameAndPC() const { return *reinterpret_cast<const CallerFrameAndPC*>(this); }
     };

 JS_EXPORT_PRIVATE bool isFromJSCode(void* returnAddress);

 #if USE(BUILTIN_FRAME_ADDRESS)
 // FIXME (see rdar://72897291): Work around a Clang bug where __builtin_return_address()
 // sometimes gives us a signed pointer, and sometimes does not.
 #define DECLARE_CALL_FRAME(vm) \
     ({ \
         ASSERT(JSC::isFromJSCode(removeCodePtrTag<void*>(__builtin_return_address(0)))); \
         bitwise_cast<JSC::CallFrame*>(__builtin_frame_address(1)); \
     })
 #else
 #define DECLARE_CALL_FRAME(vm) ((vm).topCallFrame)
 #endif


 } // namespace JSC

 namespace WTF {

 template<typename T> struct DefaultHash;
 template<> struct DefaultHash<JSC::CallSiteIndex> : JSC::CallSiteIndexHash { };

 template<typename T> struct HashTraits;
 template<> struct HashTraits<JSC::CallSiteIndex> : SimpleClassHashTraits<JSC::CallSiteIndex> {
     static constexpr bool emptyValueIsZero = false;
 };

 } // namespace WTF
	/*
	* Copyright (C) 1999-2001 Harri Porten (porten@kde.org)
	* Copyright (C) 2001 Peter Kelly (pmk@post.com)
	* Copyright (C) 2003-2021 Apple Inc. All rights reserved.
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Library General Public
	* License as published by the Free Software Foundation; either
	* version 2 of the License, or (at your option) any later version.
	*
	* This library is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* Library General Public License for more details.
	*
	* You should have received a copy of the GNU Library General Public License
	* along with this library; see the file COPYING.LIB. If not, write to
	* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
	* Boston, MA 02110-1301, USA.
	*
	*/

	#pragma once

	#include "AbstractPC.h"
	#include "CalleeBits.h"
	#include "MacroAssemblerCodeRef.h"
	#include "Register.h"
	#include "StackVisitor.h"
	#include "VM.h"
	#include <wtf/EnumClassOperatorOverloads.h>

	namespace JSC {

	class Arguments;
	class CallFrame;
	class Interpreter;
	class JSCallee;
	class JSScope;
	class SourceOrigin;
	class VirtualRegister;

	struct Instruction;

	class CallSiteIndex {
	public:
	CallSiteIndex() = default;

	CallSiteIndex(WTF::HashTableDeletedValueType)
	: m_bits(deletedValue().bits())
	{
	}

	explicit CallSiteIndex(BytecodeIndex bytecodeIndex)
	: m_bits(bytecodeIndex.offset())
	{
	ASSERT(!bytecodeIndex.checkpoint());
	}
	explicit CallSiteIndex(uint32_t bits)
	: m_bits(bits)
	{ }

	explicit operator bool() const { return !!m_bits; }
	bool operator==(const CallSiteIndex& other) const { return m_bits == other.m_bits; }

	unsigned hash() const { return intHash(m_bits); }
	static CallSiteIndex deletedValue() { return fromBits(s_invalidIndex - 1); }
	bool isHashTableDeletedValue() const { return *this == deletedValue(); }

	uint32_t bits() const { return m_bits; }
	static CallSiteIndex fromBits(uint32_t bits) { return CallSiteIndex(bits); }

	BytecodeIndex bytecodeIndex() const { return BytecodeIndex(bits()); }

	private:
	static constexpr uint32_t s_invalidIndex = std::numeric_limits<uint32_t>::max();

	uint32_t m_bits { s_invalidIndex };
	};

	struct CallSiteIndexHash {
	static unsigned hash(const CallSiteIndex& key) { return key.hash(); }
	static bool equal(const CallSiteIndex& a, const CallSiteIndex& b) { return a == b; }
	static constexpr bool safeToCompareToEmptyOrDeleted = true;
	};

	class DisposableCallSiteIndex : public CallSiteIndex {
	public:
	DisposableCallSiteIndex() = default;

	explicit DisposableCallSiteIndex(uint32_t bits)
	: CallSiteIndex(bits)
	{
	}

	static DisposableCallSiteIndex fromCallSiteIndex(CallSiteIndex callSiteIndex)
	{
	return DisposableCallSiteIndex(callSiteIndex.bits());
	}
	};

	// arm64_32 expects caller frame and return pc to use 8 bytes
	struct CallerFrameAndPC {
	alignas(CPURegister) CallFrame* callerFrame;
	alignas(CPURegister) void* returnPC;
	static constexpr int sizeInRegisters = 2 * sizeof(CPURegister) / sizeof(Register);
	};
	static_assert(CallerFrameAndPC::sizeInRegisters == sizeof(CallerFrameAndPC) / sizeof(Register), "CallerFrameAndPC::sizeInRegisters is incorrect.");

	enum class CallFrameSlot {
	codeBlock = CallerFrameAndPC::sizeInRegisters,
	callee = codeBlock + 1,
	argumentCountIncludingThis = callee + 1,
	thisArgument = argumentCountIncludingThis + 1,
	firstArgument = thisArgument + 1,
	};

	OVERLOAD_MATH_OPERATORS_FOR_ENUM_CLASS_WITH_INTEGRALS(CallFrameSlot)
	OVERLOAD_RELATIONAL_OPERATORS_FOR_ENUM_CLASS_WITH_INTEGRALS(CallFrameSlot)

	// Represents the current state of script execution.
	// Passed as the first argument to most functions.
	class CallFrame : private Register {
	public:
	static constexpr int headerSizeInRegisters = static_cast<int>(CallFrameSlot::argumentCountIncludingThis) + 1;

	// This function should only be called in very specific circumstances
	// when you've guaranteed the callee can't be a Wasm callee, and can
	// be an arbitrary JSValue. This function should basically never be used.
	// Its only use right now is when we are making a call, and we're not
	// yet sure if the callee is a cell. In general, a JS callee is guaranteed
	// to be a cell, however, there is a brief window where we need to check
	// to see if it's a cell, and if it's not, we throw an exception.
	inline JSValue guaranteedJSValueCallee() const;
	inline JSObject* jsCallee() const;
	CalleeBits callee() const { return CalleeBits(this[static_cast<int>(CallFrameSlot::callee)].pointer()); }
	SUPPRESS_ASAN CalleeBits unsafeCallee() const { return CalleeBits(this[static_cast<int>(CallFrameSlot::callee)].asanUnsafePointer()); }
	CodeBlock* codeBlock() const;
	CodeBlock addressOfCodeBlock() const { return bitwise_cast<CodeBlock>(this + static_cast<int>(CallFrameSlot::codeBlock)); }
	inline SUPPRESS_ASAN CodeBlock* unsafeCodeBlock() const;
	inline JSScope* scope(int scopeRegisterOffset) const;

	JS_EXPORT_PRIVATE bool isAnyWasmCallee();

	// Global object in which the currently executing code was defined.
	// Differs from VM::deprecatedVMEntryGlobalObject() during function calls across web browser frames.
	JSGlobalObject* lexicalGlobalObject(VM&) const;

	// FIXME: Remove this function
	// https://bugs.webkit.org/show_bug.cgi?id=203272
	VM& deprecatedVM() const;

	static CallFrame* create(Register* callFrameBase) { return static_cast<CallFrame*>(callFrameBase); }
	Register* registers() { return this; }
	const Register* registers() const { return this; }

	CallFrame& operator=(const Register& r) { static_cast<Register>(this) = r; return *this; }

	CallFrame* callerFrame() const { return static_cast<CallFrame*>(callerFrameOrEntryFrame()); }
	void* callerFrameOrEntryFrame() const { return callerFrameAndPC().callerFrame; }
	SUPPRESS_ASAN void* unsafeCallerFrameOrEntryFrame() const { return unsafeCallerFrameAndPC().callerFrame; }

	CallFrame* unsafeCallerFrame(EntryFrame*&) const;
	JS_EXPORT_PRIVATE CallFrame* callerFrame(EntryFrame*&) const;

	JS_EXPORT_PRIVATE SourceOrigin callerSourceOrigin(VM&);

	static ptrdiff_t callerFrameOffset() { return OBJECT_OFFSETOF(CallerFrameAndPC, callerFrame); }

	ReturnAddressPtr returnPC() const { return ReturnAddressPtr::fromTaggedPC(callerFrameAndPC().returnPC, this + CallerFrameAndPC::sizeInRegisters); }
	bool hasReturnPC() const { return !!callerFrameAndPC().returnPC; }
	void clearReturnPC() { callerFrameAndPC().returnPC = nullptr; }
	static ptrdiff_t returnPCOffset() { return OBJECT_OFFSETOF(CallerFrameAndPC, returnPC); }
	AbstractPC abstractReturnPC(VM& vm) { return AbstractPC(vm, this); }

	bool callSiteBitsAreBytecodeOffset() const;
	bool callSiteBitsAreCodeOriginIndex() const;

	unsigned callSiteAsRawBits() const;
	unsigned unsafeCallSiteAsRawBits() const;
	CallSiteIndex callSiteIndex() const;
	CallSiteIndex unsafeCallSiteIndex() const;
	private:
	unsigned callSiteBitsAsBytecodeOffset() const;
	#if ENABLE(WEBASSEMBLY)
	JS_EXPORT_PRIVATE JSGlobalObject* lexicalGlobalObjectFromWasmCallee(VM&) const;
	#endif
	public:

	// This will try to get you the bytecode offset, but you should be aware that
	// this bytecode offset may be bogus in the presence of inlining. This will
	// also return 0 if the call frame has no notion of bytecode offsets (for
	// example if it's native code).
	// https://bugs.webkit.org/show_bug.cgi?id=121754
	BytecodeIndex bytecodeIndex() const;

	// This will get you a CodeOrigin. It will always succeed. May return
	// CodeOrigin(BytecodeIndex(0)) if we're in native code.
	JS_EXPORT_PRIVATE CodeOrigin codeOrigin() const;

	inline Register* topOfFrame();

	const Instruction* currentVPC() const; // This only makes sense in the LLInt and baseline.
	void setCurrentVPC(const Instruction*);

	void setCallerFrame(CallFrame* frame) { callerFrameAndPC().callerFrame = frame; }
	inline void setScope(int scopeRegisterOffset, JSScope*);

	static void initDeprecatedCallFrameForDebugger(CallFrame* globalExec, JSCallee* globalCallee);

	// Read a register from the codeframe (or constant from the CodeBlock).
	Register& r(VirtualRegister);
	// Read a register for a known non-constant
	Register& uncheckedR(VirtualRegister);

	// Access to arguments as passed. (After capture, arguments may move to a different location.)
	size_t argumentCount() const { return argumentCountIncludingThis() - 1; }
	size_t argumentCountIncludingThis() const { return this[static_cast<int>(CallFrameSlot::argumentCountIncludingThis)].payload(); }
	static int argumentOffset(int argument) { return (CallFrameSlot::firstArgument + argument); }
	static int argumentOffsetIncludingThis(int argument) { return (CallFrameSlot::thisArgument + argument); }

	// In the following (argument() and setArgument()), the 'argument'
	// parameter is the index of the arguments of the target function of
	// this frame. The index starts at 0 for the first arg, 1 for the
	// second, etc.
	//
	// The arguments (in this case) do not include the 'this' value.
	// arguments(0) will not fetch the 'this' value. To get/set 'this',
	// use thisValue() and setThisValue() below.

	JSValue* addressOfArgumentsStart() const { return bitwise_cast<JSValue*>(this + argumentOffset(0)); }
	JSValue argument(size_t argument) const
	{
	if (argument >= argumentCount())
	return jsUndefined();
	return getArgumentUnsafe(argument);
	}
	JSValue uncheckedArgument(size_t argument) const
	{
	ASSERT(argument < argumentCount());
	return getArgumentUnsafe(argument);
	}
	void setArgument(size_t argument, JSValue value)
	{
	this[argumentOffset(argument)] = value;
	}

	JSValue getArgumentUnsafe(size_t argIndex) const
	{
	// User beware! This method does not verify that there is a valid
	// argument at the specified argIndex. This is used for debugging
	// and verification code only. The caller is expected to know what
	// he/she is doing when calling this method.
	return this[argumentOffset(argIndex)].jsValue();
	}

	static int thisArgumentOffset() { return argumentOffsetIncludingThis(0); }
	JSValue thisValue() const { return this[thisArgumentOffset()].jsValue(); }
	void setThisValue(JSValue value) { this[thisArgumentOffset()] = value; }

	// Under the constructor implemented in C++, thisValue holds the newTarget instead of the automatically constructed value.
	// The result of this function is only effective under the "construct" context.
	JSValue newTarget() const { return thisValue(); }

	JSValue argumentAfterCapture(size_t argument);

	static int offsetFor(size_t argumentCountIncludingThis) { return CallFrameSlot::thisArgument + argumentCountIncludingThis - 1; }

	static CallFrame* noCaller() { return nullptr; }
	bool isDeprecatedCallFrameForDebugger() const
	{
	return callerFrameAndPC().callerFrame == noCaller() && callerFrameAndPC().returnPC == nullptr;
	}

	void convertToStackOverflowFrame(VM&, CodeBlock* codeBlockToKeepAliveUntilFrameIsUnwound);
	bool isStackOverflowFrame() const;
	bool isWasmFrame() const;

	void setArgumentCountIncludingThis(int count) { static_cast<Register*>(this)[static_cast<int>(CallFrameSlot::argumentCountIncludingThis)].payload() = count; }
	inline void setCallee(JSObject*);
	inline void setCodeBlock(CodeBlock*);
	void setReturnPC(void* value) { callerFrameAndPC().returnPC = value; }

	JS_EXPORT_PRIVATE static JSGlobalObject* globalObjectOfClosestCodeBlock(VM&, CallFrame*);
	String friendlyFunctionName();

	// CallFrame::iterate() expects a Functor that implements the following method:
	// StackVisitor::Status operator()(StackVisitor&) const;
	// FIXME: This method is improper. We rely on the fact that we can call it with a null
	// receiver. We should always be using StackVisitor directly.
	// It's only valid to call this from a non-wasm top frame.
	template <StackVisitor::EmptyEntryFrameAction action = StackVisitor::ContinueIfTopEntryFrameIsEmpty, typename Functor> void iterate(VM& vm, const Functor& functor)
	{
	void* rawThis = this;
	if (!!rawThis)
	RELEASE_ASSERT(callee().isCell());
	StackVisitor::visit<action, Functor>(this, vm, functor);
	}

	void dump(PrintStream&) const;

	// This function is used in LLDB btjs.
	JS_EXPORT_PRIVATE const char* describeFrame();

	private:

	CallFrame();
	~CallFrame();

	Register* topOfFrameInternal();

	// The following are for internal use in debugging and verification
	// code only and not meant as an API for general usage:

	size_t argIndexForRegister(Register* reg)
	{
	// The register at 'offset' number of slots from the frame pointer
	// i.e.
	// reg = frame[offset];
	// ==> reg = frame + offset;
	// ==> offset = reg - frame;
	int offset = reg - this->registers();

	// The offset is defined (based on argumentOffset()) to be:
	// offset = CallFrameSlot::firstArgument - argIndex;
	// Hence:
	// argIndex = CallFrameSlot::firstArgument - offset;
	size_t argIndex = offset - CallFrameSlot::firstArgument;
	return argIndex;
	}

	CallerFrameAndPC& callerFrameAndPC() { return reinterpret_cast<CallerFrameAndPC>(this); }
	const CallerFrameAndPC& callerFrameAndPC() const { return reinterpret_cast<const CallerFrameAndPC>(this); }
	SUPPRESS_ASAN const CallerFrameAndPC& unsafeCallerFrameAndPC() const { return reinterpret_cast<const CallerFrameAndPC>(this); }
	};

	JS_EXPORT_PRIVATE bool isFromJSCode(void* returnAddress);

	#if USE(BUILTIN_FRAME_ADDRESS)
	// FIXME (see rdar://72897291): Work around a Clang bug where __builtin_return_address()
	// sometimes gives us a signed pointer, and sometimes does not.
	#define DECLARE_CALL_FRAME(vm) \
	({ \
	ASSERT(JSC::isFromJSCode(removeCodePtrTag<void*>(__builtin_return_address(0)))); \
	bitwise_cast<JSC::CallFrame*>(__builtin_frame_address(1)); \
	})
	#else
	#define DECLARE_CALL_FRAME(vm) ((vm).topCallFrame)
	#endif


	} // namespace JSC

	namespace WTF {

	template<typename T> struct DefaultHash;
	template<> struct DefaultHash<JSC::CallSiteIndex> : JSC::CallSiteIndexHash { };

	template<typename T> struct HashTraits;
	template<> struct HashTraits<JSC::CallSiteIndex> : SimpleClassHashTraits<JSC::CallSiteIndex> {
	static constexpr bool emptyValueIsZero = false;
	};

	} // namespace WTF