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|
// Copyright 2012 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef V8_EXECUTION_FRAMES_H_
#define V8_EXECUTION_FRAMES_H_
#include "src/codegen/safepoint-table.h"
#include "src/common/globals.h"
#include "src/handles/handles.h"
#include "src/objects/code.h"
#include "src/objects/objects.h"
namespace v8 {
namespace internal {
namespace wasm {
class WasmCode;
}
// Forward declarations.
class AbstractCode;
class Debug;
class ExternalCallbackScope;
class InnerPointerToCodeCache;
class Isolate;
class ObjectVisitor;
class Register;
class RootVisitor;
class StackFrameIteratorBase;
class StringStream;
class ThreadLocalTop;
class WasmDebugInfo;
class WasmInstanceObject;
class WasmModuleObject;
class StackHandlerConstants : public AllStatic {
public:
static const int kNextOffset = 0 * kSystemPointerSize;
static const int kPaddingOffset = 1 * kSystemPointerSize;
static const int kSize = kPaddingOffset + kSystemPointerSize;
static const int kSlotCount = kSize >> kSystemPointerSizeLog2;
};
class StackHandler {
public:
// Get the address of this stack handler.
inline Address address() const;
// Get the next stack handler in the chain.
inline StackHandler* next() const;
// Get the next stack handler, as an Address. This is safe to use even
// when the next handler is null.
inline Address next_address() const;
// Conversion support.
static inline StackHandler* FromAddress(Address address);
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(StackHandler);
};
#define STACK_FRAME_TYPE_LIST(V) \
V(ENTRY, EntryFrame) \
V(CONSTRUCT_ENTRY, ConstructEntryFrame) \
V(EXIT, ExitFrame) \
V(OPTIMIZED, OptimizedFrame) \
V(WASM_COMPILED, WasmCompiledFrame) \
V(WASM_TO_JS, WasmToJsFrame) \
V(JS_TO_WASM, JsToWasmFrame) \
V(WASM_INTERPRETER_ENTRY, WasmInterpreterEntryFrame) \
V(C_WASM_ENTRY, CWasmEntryFrame) \
V(WASM_EXIT, WasmExitFrame) \
V(WASM_COMPILE_LAZY, WasmCompileLazyFrame) \
V(INTERPRETED, InterpretedFrame) \
V(STUB, StubFrame) \
V(BUILTIN_CONTINUATION, BuiltinContinuationFrame) \
V(JAVA_SCRIPT_BUILTIN_CONTINUATION, JavaScriptBuiltinContinuationFrame) \
V(JAVA_SCRIPT_BUILTIN_CONTINUATION_WITH_CATCH, \
JavaScriptBuiltinContinuationWithCatchFrame) \
V(INTERNAL, InternalFrame) \
V(CONSTRUCT, ConstructFrame) \
V(ARGUMENTS_ADAPTOR, ArgumentsAdaptorFrame) \
V(BUILTIN, BuiltinFrame) \
V(BUILTIN_EXIT, BuiltinExitFrame) \
V(NATIVE, NativeFrame)
// Abstract base class for all stack frames.
class StackFrame {
public:
#define DECLARE_TYPE(type, ignore) type,
enum Type {
NONE = 0,
STACK_FRAME_TYPE_LIST(DECLARE_TYPE) NUMBER_OF_TYPES,
// Used by FrameScope to indicate that the stack frame is constructed
// manually and the FrameScope does not need to emit code.
MANUAL
};
#undef DECLARE_TYPE
// Used to mark the outermost JS entry frame.
//
// The mark is an opaque value that should be pushed onto the stack directly,
// carefully crafted to not be interpreted as a tagged pointer.
enum JsFrameMarker {
INNER_JSENTRY_FRAME = (0 << kSmiTagSize) | kSmiTag,
OUTERMOST_JSENTRY_FRAME = (1 << kSmiTagSize) | kSmiTag
};
// NOLINTNEXTLINE(runtime/references) (false positive)
STATIC_ASSERT((INNER_JSENTRY_FRAME & kHeapObjectTagMask) != kHeapObjectTag);
// NOLINTNEXTLINE(runtime/references) (false positive)
STATIC_ASSERT((OUTERMOST_JSENTRY_FRAME & kHeapObjectTagMask) !=
kHeapObjectTag);
struct State {
Address sp = kNullAddress;
Address fp = kNullAddress;
Address* pc_address = nullptr;
Address* callee_pc_address = nullptr;
Address* constant_pool_address = nullptr;
};
// Convert a stack frame type to a marker that can be stored on the stack.
//
// The marker is an opaque value, not intended to be interpreted in any way
// except being checked by IsTypeMarker or converted by MarkerToType.
// It has the same tagging as Smis, so any marker value that does not pass
// IsTypeMarker can instead be interpreted as a tagged pointer.
//
// Note that the marker is not a Smi: Smis on 64-bit architectures are stored
// in the top 32 bits of a 64-bit value, which in turn makes them expensive
// (in terms of code/instruction size) to push as immediates onto the stack.
static int32_t TypeToMarker(Type type) {
DCHECK_GE(type, 0);
return (type << kSmiTagSize) | kSmiTag;
}
// Convert a marker back to a stack frame type.
//
// Unlike the return value of TypeToMarker, this takes an intptr_t, as that is
// the type of the value on the stack.
static Type MarkerToType(intptr_t marker) {
DCHECK(IsTypeMarker(marker));
intptr_t type = marker >> kSmiTagSize;
// TODO(petermarshall): There is a bug in the arm simulators that causes
// invalid frame markers.
#if !(defined(USE_SIMULATOR) && (V8_TARGET_ARCH_ARM64 || V8_TARGET_ARCH_ARM))
DCHECK_LT(static_cast<uintptr_t>(type), Type::NUMBER_OF_TYPES);
#endif
return static_cast<Type>(type);
}
// Check if a marker is a stack frame type marker or a tagged pointer.
//
// Returns true if the given marker is tagged as a stack frame type marker,
// and should be converted back to a stack frame type using MarkerToType.
// Otherwise, the value is a tagged function pointer.
static bool IsTypeMarker(intptr_t function_or_marker) {
return (function_or_marker & kSmiTagMask) == kSmiTag;
}
// Copy constructor; it breaks the connection to host iterator
// (as an iterator usually lives on stack).
StackFrame(const StackFrame& original) V8_NOEXCEPT {
this->state_ = original.state_;
this->iterator_ = nullptr;
this->isolate_ = original.isolate_;
}
// Type testers.
bool is_entry() const { return type() == ENTRY; }
bool is_construct_entry() const { return type() == CONSTRUCT_ENTRY; }
bool is_exit() const { return type() == EXIT; }
bool is_optimized() const { return type() == OPTIMIZED; }
bool is_interpreted() const { return type() == INTERPRETED; }
bool is_wasm_compiled() const { return type() == WASM_COMPILED; }
bool is_wasm_compile_lazy() const { return type() == WASM_COMPILE_LAZY; }
bool is_wasm_interpreter_entry() const {
return type() == WASM_INTERPRETER_ENTRY;
}
bool is_arguments_adaptor() const { return type() == ARGUMENTS_ADAPTOR; }
bool is_builtin() const { return type() == BUILTIN; }
bool is_internal() const { return type() == INTERNAL; }
bool is_builtin_continuation() const {
return type() == BUILTIN_CONTINUATION;
}
bool is_java_script_builtin_continuation() const {
return type() == JAVA_SCRIPT_BUILTIN_CONTINUATION;
}
bool is_java_script_builtin_with_catch_continuation() const {
return type() == JAVA_SCRIPT_BUILTIN_CONTINUATION_WITH_CATCH;
}
bool is_construct() const { return type() == CONSTRUCT; }
bool is_builtin_exit() const { return type() == BUILTIN_EXIT; }
virtual bool is_standard() const { return false; }
bool is_java_script() const {
Type type = this->type();
return (type == OPTIMIZED) || (type == INTERPRETED) || (type == BUILTIN) ||
(type == JAVA_SCRIPT_BUILTIN_CONTINUATION) ||
(type == JAVA_SCRIPT_BUILTIN_CONTINUATION_WITH_CATCH);
}
bool is_wasm() const {
Type type = this->type();
return type == WASM_COMPILED || type == WASM_INTERPRETER_ENTRY;
}
// Accessors.
Address sp() const { return state_.sp; }
Address fp() const { return state_.fp; }
Address callee_pc() const {
return state_.callee_pc_address ? *state_.callee_pc_address : kNullAddress;
}
Address caller_sp() const { return GetCallerStackPointer(); }
// If this frame is optimized and was dynamically aligned return its old
// unaligned frame pointer. When the frame is deoptimized its FP will shift
// up one word and become unaligned.
Address UnpaddedFP() const;
Address pc() const { return *pc_address(); }
void set_pc(Address pc) { *pc_address() = pc; }
Address constant_pool() const { return *constant_pool_address(); }
void set_constant_pool(Address constant_pool) {
*constant_pool_address() = constant_pool;
}
Address* pc_address() const { return state_.pc_address; }
Address* constant_pool_address() const {
return state_.constant_pool_address;
}
// Get the id of this stack frame.
StackFrameId id() const { return static_cast<StackFrameId>(caller_sp()); }
// Get the top handler from the current stack iterator.
inline StackHandler* top_handler() const;
// Get the type of this frame.
virtual Type type() const = 0;
// Get the code associated with this frame.
// This method could be called during marking phase of GC.
virtual Code unchecked_code() const = 0;
// Search for the code associated with this frame.
V8_EXPORT_PRIVATE Code LookupCode() const;
virtual void Iterate(RootVisitor* v) const = 0;
static void IteratePc(RootVisitor* v, Address* pc_address,
Address* constant_pool_address, Code holder);
// Sets a callback function for return-address rewriting profilers
// to resolve the location of a return address to the location of the
// profiler's stashed return address.
static void SetReturnAddressLocationResolver(
ReturnAddressLocationResolver resolver);
// Resolves pc_address through the resolution address function if one is set.
static inline Address* ResolveReturnAddressLocation(Address* pc_address);
// Printing support.
enum PrintMode { OVERVIEW, DETAILS };
virtual void Print(StringStream* accumulator, PrintMode mode,
int index) const;
Isolate* isolate() const { return isolate_; }
void operator=(const StackFrame& original) = delete;
protected:
inline explicit StackFrame(StackFrameIteratorBase* iterator);
virtual ~StackFrame() = default;
// Compute the stack pointer for the calling frame.
virtual Address GetCallerStackPointer() const = 0;
// Compute the stack frame type for the given state.
static Type ComputeType(const StackFrameIteratorBase* iterator, State* state);
#ifdef DEBUG
bool can_access_heap_objects() const;
#endif
private:
const StackFrameIteratorBase* iterator_;
Isolate* isolate_;
State state_;
static ReturnAddressLocationResolver return_address_location_resolver_;
// Fill in the state of the calling frame.
virtual void ComputeCallerState(State* state) const = 0;
// Get the type and the state of the calling frame.
virtual Type GetCallerState(State* state) const;
static const intptr_t kIsolateTag = 1;
friend class StackFrameIterator;
friend class StackFrameIteratorBase;
friend class StackHandlerIterator;
friend class SafeStackFrameIterator;
};
class NativeFrame : public StackFrame {
public:
Type type() const override { return NATIVE; }
Code unchecked_code() const override;
// Garbage collection support.
void Iterate(RootVisitor* v) const override {}
protected:
inline explicit NativeFrame(StackFrameIteratorBase* iterator);
Address GetCallerStackPointer() const override;
private:
void ComputeCallerState(State* state) const override;
friend class StackFrameIteratorBase;
};
// Entry frames are used to enter JavaScript execution from C.
class EntryFrame : public StackFrame {
public:
Type type() const override { return ENTRY; }
Code unchecked_code() const override;
// Garbage collection support.
void Iterate(RootVisitor* v) const override;
static EntryFrame* cast(StackFrame* frame) {
DCHECK(frame->is_entry());
return static_cast<EntryFrame*>(frame);
}
protected:
inline explicit EntryFrame(StackFrameIteratorBase* iterator);
// The caller stack pointer for entry frames is always zero. The
// real information about the caller frame is available through the
// link to the top exit frame.
Address GetCallerStackPointer() const override { return 0; }
private:
void ComputeCallerState(State* state) const override;
Type GetCallerState(State* state) const override;
friend class StackFrameIteratorBase;
};
class ConstructEntryFrame : public EntryFrame {
public:
Type type() const override { return CONSTRUCT_ENTRY; }
Code unchecked_code() const override;
static ConstructEntryFrame* cast(StackFrame* frame) {
DCHECK(frame->is_construct_entry());
return static_cast<ConstructEntryFrame*>(frame);
}
protected:
inline explicit ConstructEntryFrame(StackFrameIteratorBase* iterator);
private:
friend class StackFrameIteratorBase;
};
// Exit frames are used to exit JavaScript execution and go to C.
class ExitFrame : public StackFrame {
public:
Type type() const override { return EXIT; }
Code unchecked_code() const override;
// Garbage collection support.
void Iterate(RootVisitor* v) const override;
static ExitFrame* cast(StackFrame* frame) {
DCHECK(frame->is_exit());
return static_cast<ExitFrame*>(frame);
}
// Compute the state and type of an exit frame given a frame
// pointer. Used when constructing the first stack frame seen by an
// iterator and the frames following entry frames.
static Type GetStateForFramePointer(Address fp, State* state);
static Address ComputeStackPointer(Address fp);
static StackFrame::Type ComputeFrameType(Address fp);
static void FillState(Address fp, Address sp, State* state);
protected:
inline explicit ExitFrame(StackFrameIteratorBase* iterator);
Address GetCallerStackPointer() const override;
private:
void ComputeCallerState(State* state) const override;
friend class StackFrameIteratorBase;
};
// Builtin exit frames are a special case of exit frames, which are used
// whenever C++ builtins (e.g., Math.acos) are called. Their main purpose is
// to allow such builtins to appear in stack traces.
class BuiltinExitFrame : public ExitFrame {
public:
Type type() const override { return BUILTIN_EXIT; }
static BuiltinExitFrame* cast(StackFrame* frame) {
DCHECK(frame->is_builtin_exit());
return static_cast<BuiltinExitFrame*>(frame);
}
JSFunction function() const;
Object receiver() const;
bool IsConstructor() const;
void Print(StringStream* accumulator, PrintMode mode,
int index) const override;
protected:
inline explicit BuiltinExitFrame(StackFrameIteratorBase* iterator);
private:
Object GetParameter(int i) const;
int ComputeParametersCount() const;
inline Object receiver_slot_object() const;
inline Object argc_slot_object() const;
inline Object target_slot_object() const;
inline Object new_target_slot_object() const;
friend class StackFrameIteratorBase;
friend class FrameArrayBuilder;
};
class StandardFrame;
class V8_EXPORT_PRIVATE FrameSummary {
public:
// Subclasses for the different summary kinds:
#define FRAME_SUMMARY_VARIANTS(F) \
F(JAVA_SCRIPT, JavaScriptFrameSummary, java_script_summary_, JavaScript) \
F(WASM_COMPILED, WasmCompiledFrameSummary, wasm_compiled_summary_, \
WasmCompiled) \
F(WASM_INTERPRETED, WasmInterpretedFrameSummary, wasm_interpreted_summary_, \
WasmInterpreted)
#define FRAME_SUMMARY_KIND(kind, type, field, desc) kind,
enum Kind { FRAME_SUMMARY_VARIANTS(FRAME_SUMMARY_KIND) };
#undef FRAME_SUMMARY_KIND
class FrameSummaryBase {
public:
FrameSummaryBase(Isolate* isolate, Kind kind)
: isolate_(isolate), kind_(kind) {}
Isolate* isolate() const { return isolate_; }
Kind kind() const { return kind_; }
private:
Isolate* isolate_;
Kind kind_;
};
class JavaScriptFrameSummary : public FrameSummaryBase {
public:
JavaScriptFrameSummary(Isolate* isolate, Object receiver,
JSFunction function, AbstractCode abstract_code,
int code_offset, bool is_constructor,
FixedArray parameters);
void EnsureSourcePositionsAvailable();
bool AreSourcePositionsAvailable() const;
Handle<Object> receiver() const { return receiver_; }
Handle<JSFunction> function() const { return function_; }
Handle<AbstractCode> abstract_code() const { return abstract_code_; }
int code_offset() const { return code_offset_; }
bool is_constructor() const { return is_constructor_; }
Handle<FixedArray> parameters() const { return parameters_; }
bool is_subject_to_debugging() const;
int SourcePosition() const;
int SourceStatementPosition() const;
Handle<Object> script() const;
Handle<String> FunctionName() const;
Handle<Context> native_context() const;
private:
Handle<Object> receiver_;
Handle<JSFunction> function_;
Handle<AbstractCode> abstract_code_;
int code_offset_;
bool is_constructor_;
Handle<FixedArray> parameters_;
};
class WasmFrameSummary : public FrameSummaryBase {
protected:
WasmFrameSummary(Isolate*, Kind, Handle<WasmInstanceObject>,
bool at_to_number_conversion);
public:
Handle<Object> receiver() const;
uint32_t function_index() const;
int byte_offset() const;
bool is_constructor() const { return false; }
bool is_subject_to_debugging() const { return true; }
int SourcePosition() const;
int SourceStatementPosition() const { return SourcePosition(); }
Handle<Script> script() const;
Handle<WasmInstanceObject> wasm_instance() const { return wasm_instance_; }
Handle<String> FunctionName() const;
Handle<Context> native_context() const;
bool at_to_number_conversion() const { return at_to_number_conversion_; }
private:
Handle<WasmInstanceObject> wasm_instance_;
bool at_to_number_conversion_;
};
class WasmCompiledFrameSummary : public WasmFrameSummary {
public:
WasmCompiledFrameSummary(Isolate*, Handle<WasmInstanceObject>,
wasm::WasmCode*, int code_offset,
bool at_to_number_conversion);
uint32_t function_index() const;
wasm::WasmCode* code() const { return code_; }
int code_offset() const { return code_offset_; }
int byte_offset() const;
static int GetWasmSourcePosition(const wasm::WasmCode* code, int offset);
private:
wasm::WasmCode* const code_;
int code_offset_;
};
class WasmInterpretedFrameSummary : public WasmFrameSummary {
public:
WasmInterpretedFrameSummary(Isolate*, Handle<WasmInstanceObject>,
uint32_t function_index, int byte_offset);
uint32_t function_index() const { return function_index_; }
int code_offset() const { return byte_offset_; }
int byte_offset() const { return byte_offset_; }
private:
uint32_t function_index_;
int byte_offset_;
};
#define FRAME_SUMMARY_CONS(kind, type, field, desc) \
FrameSummary(type summ) : field(summ) {} // NOLINT
FRAME_SUMMARY_VARIANTS(FRAME_SUMMARY_CONS)
#undef FRAME_SUMMARY_CONS
~FrameSummary();
static FrameSummary GetTop(const StandardFrame* frame);
static FrameSummary GetBottom(const StandardFrame* frame);
static FrameSummary GetSingle(const StandardFrame* frame);
static FrameSummary Get(const StandardFrame* frame, int index);
void EnsureSourcePositionsAvailable();
bool AreSourcePositionsAvailable() const;
// Dispatched accessors.
Handle<Object> receiver() const;
int code_offset() const;
bool is_constructor() const;
bool is_subject_to_debugging() const;
Handle<Object> script() const;
int SourcePosition() const;
int SourceStatementPosition() const;
Handle<String> FunctionName() const;
Handle<Context> native_context() const;
#define FRAME_SUMMARY_CAST(kind_, type, field, desc) \
bool Is##desc() const { return base_.kind() == kind_; } \
const type& As##desc() const { \
DCHECK_EQ(base_.kind(), kind_); \
return field; \
}
FRAME_SUMMARY_VARIANTS(FRAME_SUMMARY_CAST)
#undef FRAME_SUMMARY_CAST
bool IsWasm() const { return IsWasmCompiled() || IsWasmInterpreted(); }
const WasmFrameSummary& AsWasm() const {
if (IsWasmCompiled()) return AsWasmCompiled();
return AsWasmInterpreted();
}
private:
#define FRAME_SUMMARY_FIELD(kind, type, field, desc) type field;
union {
FrameSummaryBase base_;
FRAME_SUMMARY_VARIANTS(FRAME_SUMMARY_FIELD)
};
#undef FRAME_SUMMARY_FIELD
};
class StandardFrame : public StackFrame {
public:
// Testers.
bool is_standard() const override { return true; }
// Accessors.
virtual Object receiver() const;
virtual Script script() const;
virtual Object context() const;
virtual int position() const;
// Access the expressions in the stack frame including locals.
inline Object GetExpression(int index) const;
inline void SetExpression(int index, Object value);
int ComputeExpressionsCount() const;
// Access the parameters.
virtual Object GetParameter(int index) const;
virtual int ComputeParametersCount() const;
// Check if this frame is a constructor frame invoked through 'new'.
virtual bool IsConstructor() const;
// Build a list with summaries for this frame including all inlined frames.
// The functions are ordered bottom-to-top (i.e. summaries.last() is the
// top-most activation; caller comes before callee).
virtual void Summarize(std::vector<FrameSummary>* frames) const;
static StandardFrame* cast(StackFrame* frame) {
DCHECK(frame->is_standard());
return static_cast<StandardFrame*>(frame);
}
protected:
inline explicit StandardFrame(StackFrameIteratorBase* iterator);
void ComputeCallerState(State* state) const override;
// Accessors.
inline Address caller_fp() const;
inline Address caller_pc() const;
// Computes the address of the PC field in the standard frame given
// by the provided frame pointer.
static inline Address ComputePCAddress(Address fp);
// Computes the address of the constant pool field in the standard
// frame given by the provided frame pointer.
static inline Address ComputeConstantPoolAddress(Address fp);
// Iterate over expression stack including stack handlers, locals,
// and parts of the fixed part including context and code fields.
void IterateExpressions(RootVisitor* v) const;
// Returns the address of the n'th expression stack element.
virtual Address GetExpressionAddress(int n) const;
// Determines if the standard frame for the given frame pointer is
// an arguments adaptor frame.
static inline bool IsArgumentsAdaptorFrame(Address fp);
// Determines if the standard frame for the given frame pointer is a
// construct frame.
static inline bool IsConstructFrame(Address fp);
// Used by OptimizedFrames and StubFrames.
void IterateCompiledFrame(RootVisitor* v) const;
private:
friend class StackFrame;
friend class SafeStackFrameIterator;
};
class JavaScriptFrame : public StandardFrame {
public:
Type type() const override = 0;
void Summarize(std::vector<FrameSummary>* frames) const override;
// Accessors.
virtual JSFunction function() const;
Object unchecked_function() const;
Object receiver() const override;
Object context() const override;
Script script() const override;
inline void set_receiver(Object value);
// Access the parameters.
inline Address GetParameterSlot(int index) const;
Object GetParameter(int index) const override;
int ComputeParametersCount() const override;
Handle<FixedArray> GetParameters() const;
// Debugger access.
void SetParameterValue(int index, Object value) const;
// Check if this frame is a constructor frame invoked through 'new'.
bool IsConstructor() const override;
// Determines whether this frame includes inlined activations. To get details
// about the inlined frames use {GetFunctions} and {Summarize}.
bool HasInlinedFrames() const;
// Check if this frame has "adapted" arguments in the sense that the
// actual passed arguments are available in an arguments adaptor
// frame below it on the stack.
inline bool has_adapted_arguments() const;
// Garbage collection support.
void Iterate(RootVisitor* v) const override;
// Printing support.
void Print(StringStream* accumulator, PrintMode mode,
int index) const override;
// Determine the code for the frame.
Code unchecked_code() const override;
// Return a list with {SharedFunctionInfo} objects of this frame.
virtual void GetFunctions(std::vector<SharedFunctionInfo>* functions) const;
void GetFunctions(std::vector<Handle<SharedFunctionInfo>>* functions) const;
// Lookup exception handler for current {pc}, returns -1 if none found. Also
// returns data associated with the handler site specific to the frame type:
// - OptimizedFrame : Data is the stack slot count of the entire frame.
// - InterpretedFrame: Data is the register index holding the context.
virtual int LookupExceptionHandlerInTable(
int* data, HandlerTable::CatchPrediction* prediction);
// Architecture-specific register description.
static Register fp_register();
static Register context_register();
static Register constant_pool_pointer_register();
static JavaScriptFrame* cast(StackFrame* frame) {
DCHECK(frame->is_java_script());
return static_cast<JavaScriptFrame*>(frame);
}
static void PrintFunctionAndOffset(JSFunction function, AbstractCode code,
int code_offset, FILE* file,
bool print_line_number);
static void PrintTop(Isolate* isolate, FILE* file, bool print_args,
bool print_line_number);
static void CollectFunctionAndOffsetForICStats(JSFunction function,
AbstractCode code,
int code_offset);
protected:
inline explicit JavaScriptFrame(StackFrameIteratorBase* iterator);
Address GetCallerStackPointer() const override;
virtual void PrintFrameKind(StringStream* accumulator) const {}
private:
inline Object function_slot_object() const;
friend class StackFrameIteratorBase;
};
class StubFrame : public StandardFrame {
public:
Type type() const override { return STUB; }
// GC support.
void Iterate(RootVisitor* v) const override;
// Determine the code for the frame.
Code unchecked_code() const override;
// Lookup exception handler for current {pc}, returns -1 if none found. Only
// TurboFan stub frames are supported. Also returns data associated with the
// handler site:
// - TurboFan stub: Data is the stack slot count of the entire frame.
int LookupExceptionHandlerInTable(int* data);
protected:
inline explicit StubFrame(StackFrameIteratorBase* iterator);
Address GetCallerStackPointer() const override;
friend class StackFrameIteratorBase;
};
class OptimizedFrame : public JavaScriptFrame {
public:
Type type() const override { return OPTIMIZED; }
// GC support.
void Iterate(RootVisitor* v) const override;
// Return a list with {SharedFunctionInfo} objects of this frame.
// The functions are ordered bottom-to-top (i.e. functions.last()
// is the top-most activation)
void GetFunctions(std::vector<SharedFunctionInfo>* functions) const override;
void Summarize(std::vector<FrameSummary>* frames) const override;
// Lookup exception handler for current {pc}, returns -1 if none found.
int LookupExceptionHandlerInTable(
int* data, HandlerTable::CatchPrediction* prediction) override;
DeoptimizationData GetDeoptimizationData(int* deopt_index) const;
Object receiver() const override;
int ComputeParametersCount() const override;
static int StackSlotOffsetRelativeToFp(int slot_index);
protected:
inline explicit OptimizedFrame(StackFrameIteratorBase* iterator);
private:
friend class StackFrameIteratorBase;
Object StackSlotAt(int index) const;
};
class InterpretedFrame : public JavaScriptFrame {
public:
Type type() const override { return INTERPRETED; }
// Accessors.
int position() const override;
// Lookup exception handler for current {pc}, returns -1 if none found.
int LookupExceptionHandlerInTable(
int* data, HandlerTable::CatchPrediction* prediction) override;
// Returns the current offset into the bytecode stream.
int GetBytecodeOffset() const;
// Updates the current offset into the bytecode stream, mainly used for stack
// unwinding to continue execution at a different bytecode offset.
void PatchBytecodeOffset(int new_offset);
// Returns the frame's current bytecode array.
BytecodeArray GetBytecodeArray() const;
// Updates the frame's BytecodeArray with |bytecode_array|. Used by the
// debugger to swap execution onto a BytecodeArray patched with breakpoints.
void PatchBytecodeArray(BytecodeArray bytecode_array);
// Access to the interpreter register file for this frame.
Object ReadInterpreterRegister(int register_index) const;
void WriteInterpreterRegister(int register_index, Object value);
// Build a list with summaries for this frame including all inlined frames.
void Summarize(std::vector<FrameSummary>* frames) const override;
static int GetBytecodeOffset(Address fp);
static InterpretedFrame* cast(StackFrame* frame) {
DCHECK(frame->is_interpreted());
return static_cast<InterpretedFrame*>(frame);
}
protected:
inline explicit InterpretedFrame(StackFrameIteratorBase* iterator);
Address GetExpressionAddress(int n) const override;
private:
friend class StackFrameIteratorBase;
};
// Arguments adaptor frames are automatically inserted below
// JavaScript frames when the actual number of parameters does not
// match the formal number of parameters.
class ArgumentsAdaptorFrame : public JavaScriptFrame {
public:
Type type() const override { return ARGUMENTS_ADAPTOR; }
// Determine the code for the frame.
Code unchecked_code() const override;
static ArgumentsAdaptorFrame* cast(StackFrame* frame) {
DCHECK(frame->is_arguments_adaptor());
return static_cast<ArgumentsAdaptorFrame*>(frame);
}
int ComputeParametersCount() const override;
// Printing support.
void Print(StringStream* accumulator, PrintMode mode,
int index) const override;
protected:
inline explicit ArgumentsAdaptorFrame(StackFrameIteratorBase* iterator);
private:
friend class StackFrameIteratorBase;
};
// Builtin frames are built for builtins with JavaScript linkage, such as
// various standard library functions (i.e. Math.asin, Math.floor, etc.).
class BuiltinFrame final : public JavaScriptFrame {
public:
Type type() const final { return BUILTIN; }
static BuiltinFrame* cast(StackFrame* frame) {
DCHECK(frame->is_builtin());
return static_cast<BuiltinFrame*>(frame);
}
int ComputeParametersCount() const final;
protected:
inline explicit BuiltinFrame(StackFrameIteratorBase* iterator);
void PrintFrameKind(StringStream* accumulator) const override;
private:
friend class StackFrameIteratorBase;
};
class WasmCompiledFrame : public StandardFrame {
public:
Type type() const override { return WASM_COMPILED; }
// GC support.
void Iterate(RootVisitor* v) const override;
// Printing support.
void Print(StringStream* accumulator, PrintMode mode,
int index) const override;
// Lookup exception handler for current {pc}, returns -1 if none found. Also
// returns the stack slot count of the entire frame.
int LookupExceptionHandlerInTable(int* data);
// Determine the code for the frame.
Code unchecked_code() const override;
// Accessors.
WasmInstanceObject wasm_instance() const;
wasm::WasmCode* wasm_code() const;
uint32_t function_index() const;
Script script() const override;
int position() const override;
bool at_to_number_conversion() const;
void Summarize(std::vector<FrameSummary>* frames) const override;
static WasmCompiledFrame* cast(StackFrame* frame) {
DCHECK(frame->is_wasm_compiled());
return static_cast<WasmCompiledFrame*>(frame);
}
protected:
inline explicit WasmCompiledFrame(StackFrameIteratorBase* iterator);
Address GetCallerStackPointer() const override;
private:
friend class StackFrameIteratorBase;
WasmModuleObject module_object() const;
};
class WasmExitFrame : public WasmCompiledFrame {
public:
Type type() const override { return WASM_EXIT; }
static Address ComputeStackPointer(Address fp);
protected:
inline explicit WasmExitFrame(StackFrameIteratorBase* iterator);
private:
friend class StackFrameIteratorBase;
};
class WasmInterpreterEntryFrame final : public StandardFrame {
public:
Type type() const override { return WASM_INTERPRETER_ENTRY; }
// GC support.
void Iterate(RootVisitor* v) const override;
// Printing support.
void Print(StringStream* accumulator, PrintMode mode,
int index) const override;
void Summarize(std::vector<FrameSummary>* frames) const override;
// Determine the code for the frame.
Code unchecked_code() const override;
// Accessors.
WasmDebugInfo debug_info() const;
WasmInstanceObject wasm_instance() const;
Script script() const override;
int position() const override;
Object context() const override;
static WasmInterpreterEntryFrame* cast(StackFrame* frame) {
DCHECK(frame->is_wasm_interpreter_entry());
return static_cast<WasmInterpreterEntryFrame*>(frame);
}
protected:
inline explicit WasmInterpreterEntryFrame(StackFrameIteratorBase* iterator);
Address GetCallerStackPointer() const override;
private:
friend class StackFrameIteratorBase;
WasmModuleObject module_object() const;
};
class WasmToJsFrame : public StubFrame {
public:
Type type() const override { return WASM_TO_JS; }
protected:
inline explicit WasmToJsFrame(StackFrameIteratorBase* iterator);
private:
friend class StackFrameIteratorBase;
};
class JsToWasmFrame : public StubFrame {
public:
Type type() const override { return JS_TO_WASM; }
protected:
inline explicit JsToWasmFrame(StackFrameIteratorBase* iterator);
private:
friend class StackFrameIteratorBase;
};
class CWasmEntryFrame : public StubFrame {
public:
Type type() const override { return C_WASM_ENTRY; }
protected:
inline explicit CWasmEntryFrame(StackFrameIteratorBase* iterator);
private:
friend class StackFrameIteratorBase;
Type GetCallerState(State* state) const override;
};
class WasmCompileLazyFrame : public StandardFrame {
public:
Type type() const override { return WASM_COMPILE_LAZY; }
Code unchecked_code() const override;
WasmInstanceObject wasm_instance() const;
FullObjectSlot wasm_instance_slot() const;
// Garbage collection support.
void Iterate(RootVisitor* v) const override;
static WasmCompileLazyFrame* cast(StackFrame* frame) {
DCHECK(frame->is_wasm_compile_lazy());
return static_cast<WasmCompileLazyFrame*>(frame);
}
protected:
inline explicit WasmCompileLazyFrame(StackFrameIteratorBase* iterator);
Address GetCallerStackPointer() const override;
private:
friend class StackFrameIteratorBase;
};
class InternalFrame : public StandardFrame {
public:
Type type() const override { return INTERNAL; }
// Garbage collection support.
void Iterate(RootVisitor* v) const override;
// Determine the code for the frame.
Code unchecked_code() const override;
static InternalFrame* cast(StackFrame* frame) {
DCHECK(frame->is_internal());
return static_cast<InternalFrame*>(frame);
}
protected:
inline explicit InternalFrame(StackFrameIteratorBase* iterator);
Address GetCallerStackPointer() const override;
private:
friend class StackFrameIteratorBase;
};
// Construct frames are special trampoline frames introduced to handle
// function invocations through 'new'.
class ConstructFrame : public InternalFrame {
public:
Type type() const override { return CONSTRUCT; }
static ConstructFrame* cast(StackFrame* frame) {
DCHECK(frame->is_construct());
return static_cast<ConstructFrame*>(frame);
}
protected:
inline explicit ConstructFrame(StackFrameIteratorBase* iterator);
private:
friend class StackFrameIteratorBase;
};
class BuiltinContinuationFrame : public InternalFrame {
public:
Type type() const override { return BUILTIN_CONTINUATION; }
static BuiltinContinuationFrame* cast(StackFrame* frame) {
DCHECK(frame->is_builtin_continuation());
return static_cast<BuiltinContinuationFrame*>(frame);
}
protected:
inline explicit BuiltinContinuationFrame(StackFrameIteratorBase* iterator);
private:
friend class StackFrameIteratorBase;
};
class JavaScriptBuiltinContinuationFrame : public JavaScriptFrame {
public:
Type type() const override { return JAVA_SCRIPT_BUILTIN_CONTINUATION; }
static JavaScriptBuiltinContinuationFrame* cast(StackFrame* frame) {
DCHECK(frame->is_java_script_builtin_continuation());
return static_cast<JavaScriptBuiltinContinuationFrame*>(frame);
}
int ComputeParametersCount() const override;
intptr_t GetSPToFPDelta() const;
Object context() const override;
protected:
inline explicit JavaScriptBuiltinContinuationFrame(
StackFrameIteratorBase* iterator);
private:
friend class StackFrameIteratorBase;
};
class JavaScriptBuiltinContinuationWithCatchFrame
: public JavaScriptBuiltinContinuationFrame {
public:
Type type() const override {
return JAVA_SCRIPT_BUILTIN_CONTINUATION_WITH_CATCH;
}
static JavaScriptBuiltinContinuationWithCatchFrame* cast(StackFrame* frame) {
DCHECK(frame->is_java_script_builtin_with_catch_continuation());
return static_cast<JavaScriptBuiltinContinuationWithCatchFrame*>(frame);
}
// Patch in the exception object at the appropriate location into the stack
// frame.
void SetException(Object exception);
protected:
inline explicit JavaScriptBuiltinContinuationWithCatchFrame(
StackFrameIteratorBase* iterator);
private:
friend class StackFrameIteratorBase;
};
class StackFrameIteratorBase {
public:
Isolate* isolate() const { return isolate_; }
bool done() const { return frame_ == nullptr; }
protected:
// An iterator that iterates over a given thread's stack.
StackFrameIteratorBase(Isolate* isolate, bool can_access_heap_objects);
Isolate* isolate_;
#define DECLARE_SINGLETON(ignore, type) type type##_;
STACK_FRAME_TYPE_LIST(DECLARE_SINGLETON)
#undef DECLARE_SINGLETON
StackFrame* frame_;
StackHandler* handler_;
const bool can_access_heap_objects_;
StackHandler* handler() const {
DCHECK(!done());
return handler_;
}
// Get the type-specific frame singleton in a given state.
StackFrame* SingletonFor(StackFrame::Type type, StackFrame::State* state);
// A helper function, can return a nullptr pointer.
StackFrame* SingletonFor(StackFrame::Type type);
private:
friend class StackFrame;
DISALLOW_COPY_AND_ASSIGN(StackFrameIteratorBase);
};
class StackFrameIterator : public StackFrameIteratorBase {
public:
// An iterator that iterates over the isolate's current thread's stack,
V8_EXPORT_PRIVATE explicit StackFrameIterator(Isolate* isolate);
// An iterator that iterates over a given thread's stack.
V8_EXPORT_PRIVATE StackFrameIterator(Isolate* isolate, ThreadLocalTop* t);
StackFrame* frame() const {
DCHECK(!done());
return frame_;
}
V8_EXPORT_PRIVATE void Advance();
private:
// Go back to the first frame.
void Reset(ThreadLocalTop* top);
DISALLOW_COPY_AND_ASSIGN(StackFrameIterator);
};
// Iterator that supports iterating through all JavaScript frames.
class JavaScriptFrameIterator {
public:
inline explicit JavaScriptFrameIterator(Isolate* isolate);
inline JavaScriptFrameIterator(Isolate* isolate, ThreadLocalTop* top);
inline JavaScriptFrame* frame() const;
bool done() const { return iterator_.done(); }
V8_EXPORT_PRIVATE void Advance();
void AdvanceOneFrame() { iterator_.Advance(); }
private:
StackFrameIterator iterator_;
};
// NOTE: The stack trace frame iterator is an iterator that only traverse proper
// JavaScript frames that have proper JavaScript functions and WebAssembly
// frames.
class V8_EXPORT_PRIVATE StackTraceFrameIterator {
public:
explicit StackTraceFrameIterator(Isolate* isolate);
// Skip frames until the frame with the given id is reached.
StackTraceFrameIterator(Isolate* isolate, StackFrameId id);
bool done() const { return iterator_.done(); }
void Advance();
void AdvanceOneFrame() { iterator_.Advance(); }
inline StandardFrame* frame() const;
inline bool is_javascript() const;
inline bool is_wasm() const;
inline JavaScriptFrame* javascript_frame() const;
private:
StackFrameIterator iterator_;
bool IsValidFrame(StackFrame* frame) const;
};
class SafeStackFrameIterator : public StackFrameIteratorBase {
public:
SafeStackFrameIterator(Isolate* isolate, Address pc, Address fp, Address sp,
Address lr, Address js_entry_sp);
inline StackFrame* frame() const;
void Advance();
StackFrame::Type top_frame_type() const { return top_frame_type_; }
Address top_context_address() const { return top_context_address_; }
private:
void AdvanceOneFrame();
bool IsValidStackAddress(Address addr) const {
return low_bound_ <= addr && addr <= high_bound_;
}
bool IsValidFrame(StackFrame* frame) const;
bool IsValidCaller(StackFrame* frame);
bool IsValidExitFrame(Address fp) const;
bool IsValidTop(ThreadLocalTop* top) const;
// Returns true if the pc points to a bytecode handler and the frame pointer
// doesn't seem to be a bytecode handler's frame, which implies that the
// bytecode handler has an elided frame. This is not precise and might give
// false negatives since it relies on checks to the frame's type marker,
// which might be uninitialized.
bool IsNoFrameBytecodeHandlerPc(Isolate* isolate, Address pc,
Address fp) const;
const Address low_bound_;
const Address high_bound_;
StackFrame::Type top_frame_type_;
Address top_context_address_;
ExternalCallbackScope* external_callback_scope_;
Address top_link_register_;
};
// Frame layout helper classes. Used by the deoptimizer and instruction
// selector.
// -------------------------------------------------------------------------
// How to calculate the frame layout information. Precise, when all information
// is available during deoptimization. Conservative, when an overapproximation
// is fine.
// TODO(jgruber): Investigate whether the conservative kind can be removed. It
// seems possible: 1. is_topmost should be known through the outer_state chain
// of FrameStateDescriptor; 2. the deopt_kind may be a property of the bailout
// id; 3. for continuation_mode, we only care whether it is a mode with catch,
// and that is likewise known at compile-time.
// There is nothing specific blocking this, the investigation just requires time
// and it is not that important to get the exact frame height at compile-time.
enum class FrameInfoKind {
kPrecise,
kConservative,
};
// Used by the deoptimizer. Corresponds to frame kinds:
enum class BuiltinContinuationMode {
STUB, // BuiltinContinuationFrame
JAVASCRIPT, // JavaScriptBuiltinContinuationFrame
JAVASCRIPT_WITH_CATCH, // JavaScriptBuiltinContinuationWithCatchFrame
JAVASCRIPT_HANDLE_EXCEPTION // JavaScriptBuiltinContinuationWithCatchFrame
};
class InterpretedFrameInfo {
public:
static InterpretedFrameInfo Precise(int parameters_count_with_receiver,
int translation_height, bool is_topmost) {
return {parameters_count_with_receiver, translation_height, is_topmost,
FrameInfoKind::kPrecise};
}
static InterpretedFrameInfo Conservative(int parameters_count_with_receiver,
int locals_count) {
return {parameters_count_with_receiver, locals_count, false,
FrameInfoKind::kConservative};
}
uint32_t register_stack_slot_count() const {
return register_stack_slot_count_;
}
uint32_t frame_size_in_bytes_without_fixed() const {
return frame_size_in_bytes_without_fixed_;
}
uint32_t frame_size_in_bytes() const { return frame_size_in_bytes_; }
private:
InterpretedFrameInfo(int parameters_count_with_receiver,
int translation_height, bool is_topmost,
FrameInfoKind frame_info_kind);
uint32_t register_stack_slot_count_;
uint32_t frame_size_in_bytes_without_fixed_;
uint32_t frame_size_in_bytes_;
};
class ArgumentsAdaptorFrameInfo {
public:
static ArgumentsAdaptorFrameInfo Precise(int translation_height) {
return ArgumentsAdaptorFrameInfo{translation_height};
}
static ArgumentsAdaptorFrameInfo Conservative(int parameters_count) {
return ArgumentsAdaptorFrameInfo{parameters_count};
}
uint32_t frame_size_in_bytes_without_fixed() const {
return frame_size_in_bytes_without_fixed_;
}
uint32_t frame_size_in_bytes() const { return frame_size_in_bytes_; }
private:
explicit ArgumentsAdaptorFrameInfo(int translation_height);
uint32_t frame_size_in_bytes_without_fixed_;
uint32_t frame_size_in_bytes_;
};
class ConstructStubFrameInfo {
public:
static ConstructStubFrameInfo Precise(int translation_height,
bool is_topmost) {
return {translation_height, is_topmost, FrameInfoKind::kPrecise};
}
static ConstructStubFrameInfo Conservative(int parameters_count) {
return {parameters_count, false, FrameInfoKind::kConservative};
}
uint32_t frame_size_in_bytes_without_fixed() const {
return frame_size_in_bytes_without_fixed_;
}
uint32_t frame_size_in_bytes() const { return frame_size_in_bytes_; }
private:
ConstructStubFrameInfo(int translation_height, bool is_topmost,
FrameInfoKind frame_info_kind);
uint32_t frame_size_in_bytes_without_fixed_;
uint32_t frame_size_in_bytes_;
};
// Used by BuiltinContinuationFrameInfo.
class CallInterfaceDescriptor;
class RegisterConfiguration;
class BuiltinContinuationFrameInfo {
public:
static BuiltinContinuationFrameInfo Precise(
int translation_height,
const CallInterfaceDescriptor& continuation_descriptor,
const RegisterConfiguration* register_config, bool is_topmost,
DeoptimizeKind deopt_kind, BuiltinContinuationMode continuation_mode) {
return {translation_height,
continuation_descriptor,
register_config,
is_topmost,
deopt_kind,
continuation_mode,
FrameInfoKind::kPrecise};
}
static BuiltinContinuationFrameInfo Conservative(
int parameters_count,
const CallInterfaceDescriptor& continuation_descriptor,
const RegisterConfiguration* register_config) {
// It doesn't matter what we pass as is_topmost, deopt_kind and
// continuation_mode; these values are ignored in conservative mode.
return {parameters_count,
continuation_descriptor,
register_config,
false,
DeoptimizeKind::kEager,
BuiltinContinuationMode::STUB,
FrameInfoKind::kConservative};
}
bool frame_has_result_stack_slot() const {
return frame_has_result_stack_slot_;
}
uint32_t translated_stack_parameter_count() const {
return translated_stack_parameter_count_;
}
uint32_t stack_parameter_count() const { return stack_parameter_count_; }
uint32_t frame_size_in_bytes() const { return frame_size_in_bytes_; }
uint32_t frame_size_in_bytes_above_fp() const {
return frame_size_in_bytes_above_fp_;
}
private:
BuiltinContinuationFrameInfo(
int translation_height,
const CallInterfaceDescriptor& continuation_descriptor,
const RegisterConfiguration* register_config, bool is_topmost,
DeoptimizeKind deopt_kind, BuiltinContinuationMode continuation_mode,
FrameInfoKind frame_info_kind);
bool frame_has_result_stack_slot_;
uint32_t translated_stack_parameter_count_;
uint32_t stack_parameter_count_;
uint32_t frame_size_in_bytes_;
uint32_t frame_size_in_bytes_above_fp_;
};
} // namespace internal
} // namespace v8
#endif // V8_EXECUTION_FRAMES_H_
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