blob: c95affc57e3a946516af412050a8978c34c3293d [file] [log] [blame]
// 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_DEBUG_DEBUG_H_
#define V8_DEBUG_DEBUG_H_
#include <memory>
#include <vector>
#include "src/codegen/source-position-table.h"
#include "src/common/globals.h"
#include "src/debug/debug-interface.h"
#include "src/debug/interface-types.h"
#include "src/execution/interrupts-scope.h"
#include "src/execution/isolate.h"
#include "src/handles/handles.h"
#include "src/objects/debug-objects.h"
namespace v8 {
namespace internal {
// Forward declarations.
class AbstractCode;
class DebugScope;
class InterpretedFrame;
class JavaScriptFrame;
class JSGeneratorObject;
class StackFrame;
// Step actions. NOTE: These values are in macros.py as well.
enum StepAction : int8_t {
StepNone = -1, // Stepping not prepared.
StepOut = 0, // Step out of the current function.
StepNext = 1, // Step to the next statement in the current function.
StepIn = 2, // Step into new functions invoked or the next statement
// in the current function.
LastStepAction = StepIn
};
// Type of exception break. NOTE: These values are in macros.py as well.
enum ExceptionBreakType {
BreakException = 0,
BreakUncaughtException = 1
};
enum DebugBreakType {
NOT_DEBUG_BREAK,
DEBUGGER_STATEMENT,
DEBUG_BREAK_SLOT,
DEBUG_BREAK_SLOT_AT_CALL,
DEBUG_BREAK_SLOT_AT_RETURN,
DEBUG_BREAK_SLOT_AT_SUSPEND,
DEBUG_BREAK_AT_ENTRY,
};
enum IgnoreBreakMode {
kIgnoreIfAllFramesBlackboxed,
kIgnoreIfTopFrameBlackboxed
};
class BreakLocation {
public:
static BreakLocation Invalid() { return BreakLocation(-1, NOT_DEBUG_BREAK); }
static BreakLocation FromFrame(Handle<DebugInfo> debug_info,
JavaScriptFrame* frame);
static void AllAtCurrentStatement(Handle<DebugInfo> debug_info,
JavaScriptFrame* frame,
std::vector<BreakLocation>* result_out);
inline bool IsSuspend() const { return type_ == DEBUG_BREAK_SLOT_AT_SUSPEND; }
inline bool IsReturn() const { return type_ == DEBUG_BREAK_SLOT_AT_RETURN; }
inline bool IsReturnOrSuspend() const {
return type_ >= DEBUG_BREAK_SLOT_AT_RETURN;
}
inline bool IsCall() const { return type_ == DEBUG_BREAK_SLOT_AT_CALL; }
inline bool IsDebugBreakSlot() const { return type_ >= DEBUG_BREAK_SLOT; }
inline bool IsDebuggerStatement() const {
return type_ == DEBUGGER_STATEMENT;
}
inline bool IsDebugBreakAtEntry() const {
bool result = type_ == DEBUG_BREAK_AT_ENTRY;
return result;
}
bool HasBreakPoint(Isolate* isolate, Handle<DebugInfo> debug_info) const;
inline int position() const { return position_; }
debug::BreakLocationType type() const;
JSGeneratorObject GetGeneratorObjectForSuspendedFrame(
JavaScriptFrame* frame) const;
private:
BreakLocation(Handle<AbstractCode> abstract_code, DebugBreakType type,
int code_offset, int position, int generator_obj_reg_index)
: abstract_code_(abstract_code),
code_offset_(code_offset),
type_(type),
position_(position),
generator_obj_reg_index_(generator_obj_reg_index) {
DCHECK_NE(NOT_DEBUG_BREAK, type_);
}
BreakLocation(int position, DebugBreakType type)
: code_offset_(0),
type_(type),
position_(position),
generator_obj_reg_index_(0) {}
static int BreakIndexFromCodeOffset(Handle<DebugInfo> debug_info,
Handle<AbstractCode> abstract_code,
int offset);
void SetDebugBreak();
void ClearDebugBreak();
Handle<AbstractCode> abstract_code_;
int code_offset_;
DebugBreakType type_;
int position_;
int generator_obj_reg_index_;
friend class BreakIterator;
};
class V8_EXPORT_PRIVATE BreakIterator {
public:
explicit BreakIterator(Handle<DebugInfo> debug_info);
BreakLocation GetBreakLocation();
bool Done() const { return source_position_iterator_.done(); }
void Next();
void SkipToPosition(int position);
void SkipTo(int count) {
while (count-- > 0) Next();
}
int code_offset() { return source_position_iterator_.code_offset(); }
int break_index() const { return break_index_; }
inline int position() const { return position_; }
inline int statement_position() const { return statement_position_; }
void ClearDebugBreak();
void SetDebugBreak();
private:
int BreakIndexFromPosition(int position);
Isolate* isolate();
DebugBreakType GetDebugBreakType();
Handle<DebugInfo> debug_info_;
int break_index_;
int position_;
int statement_position_;
SourcePositionTableIterator source_position_iterator_;
DisallowHeapAllocation no_gc_;
DISALLOW_COPY_AND_ASSIGN(BreakIterator);
};
// Linked list holding debug info objects. The debug info objects are kept as
// weak handles to avoid a debug info object to keep a function alive.
class DebugInfoListNode {
public:
DebugInfoListNode(Isolate* isolate, DebugInfo debug_info);
~DebugInfoListNode();
DebugInfoListNode* next() { return next_; }
void set_next(DebugInfoListNode* next) { next_ = next; }
Handle<DebugInfo> debug_info() { return Handle<DebugInfo>(debug_info_); }
private:
// Global (weak) handle to the debug info object.
Address* debug_info_;
// Next pointer for linked list.
DebugInfoListNode* next_;
};
class DebugFeatureTracker {
public:
enum Feature {
kActive = 1,
kBreakPoint = 2,
kStepping = 3,
kHeapSnapshot = 4,
kAllocationTracking = 5,
kProfiler = 6,
kLiveEdit = 7,
};
explicit DebugFeatureTracker(Isolate* isolate)
: isolate_(isolate), bitfield_(0) {}
void Track(Feature feature);
private:
Isolate* isolate_;
uint32_t bitfield_;
};
// This class contains the debugger support. The main purpose is to handle
// setting break points in the code.
//
// This class controls the debug info for all functions which currently have
// active breakpoints in them. This debug info is held in the heap root object
// debug_info which is a FixedArray. Each entry in this list is of class
// DebugInfo.
class V8_EXPORT_PRIVATE Debug {
public:
// Debug event triggers.
void OnDebugBreak(Handle<FixedArray> break_points_hit, StepAction stepAction);
base::Optional<Object> OnThrow(Handle<Object> exception)
V8_WARN_UNUSED_RESULT;
void OnPromiseReject(Handle<Object> promise, Handle<Object> value);
void OnCompileError(Handle<Script> script);
void OnAfterCompile(Handle<Script> script);
void HandleDebugBreak(IgnoreBreakMode ignore_break_mode);
// The break target may not be the top-most frame, since we may be
// breaking before entering a function that cannot contain break points.
void Break(JavaScriptFrame* frame, Handle<JSFunction> break_target);
// Scripts handling.
Handle<FixedArray> GetLoadedScripts();
// Break point handling.
bool SetBreakpoint(Handle<SharedFunctionInfo> shared,
Handle<BreakPoint> break_point, int* source_position);
void ClearBreakPoint(Handle<BreakPoint> break_point);
void ChangeBreakOnException(ExceptionBreakType type, bool enable);
bool IsBreakOnException(ExceptionBreakType type);
void SetTerminateOnResume();
bool SetBreakPointForScript(Handle<Script> script, Handle<String> condition,
int* source_position, int* id);
bool SetBreakpointForFunction(Handle<SharedFunctionInfo> shared,
Handle<String> condition, int* id);
void RemoveBreakpoint(int id);
void RemoveBreakpointForWasmScript(Handle<Script> script, int id);
void RecordWasmScriptWithBreakpoints(Handle<Script> script);
// Find breakpoints from the debug info and the break location and check
// whether they are hit. Return an empty handle if not, or a FixedArray with
// hit BreakPoint objects.
MaybeHandle<FixedArray> GetHitBreakPoints(Handle<DebugInfo> debug_info,
int position);
// Stepping handling.
void PrepareStep(StepAction step_action);
void PrepareStepIn(Handle<JSFunction> function);
void PrepareStepInSuspendedGenerator();
void PrepareStepOnThrow();
void ClearStepping();
void SetBreakOnNextFunctionCall();
void ClearBreakOnNextFunctionCall();
void DeoptimizeFunction(Handle<SharedFunctionInfo> shared);
void PrepareFunctionForDebugExecution(Handle<SharedFunctionInfo> shared);
void InstallDebugBreakTrampoline();
bool GetPossibleBreakpoints(Handle<Script> script, int start_position,
int end_position, bool restrict_to_function,
std::vector<BreakLocation>* locations);
bool IsBlackboxed(Handle<SharedFunctionInfo> shared);
bool ShouldBeSkipped();
bool CanBreakAtEntry(Handle<SharedFunctionInfo> shared);
void SetDebugDelegate(debug::DebugDelegate* delegate);
// Returns whether the operation succeeded.
bool EnsureBreakInfo(Handle<SharedFunctionInfo> shared);
void CreateBreakInfo(Handle<SharedFunctionInfo> shared);
Handle<DebugInfo> GetOrCreateDebugInfo(Handle<SharedFunctionInfo> shared);
void InstallCoverageInfo(Handle<SharedFunctionInfo> shared,
Handle<CoverageInfo> coverage_info);
void RemoveAllCoverageInfos();
// This function is used in FunctionNameUsing* tests.
Handle<Object> FindSharedFunctionInfoInScript(Handle<Script> script,
int position);
static Handle<Object> GetSourceBreakLocations(
Isolate* isolate, Handle<SharedFunctionInfo> shared);
// Check whether this frame is just about to return.
bool IsBreakAtReturn(JavaScriptFrame* frame);
// Support for LiveEdit
void ScheduleFrameRestart(StackFrame* frame);
bool AllFramesOnStackAreBlackboxed();
// Set new script source, throw an exception if error occurred. When preview
// is true: try to set source, throw exception if any without actual script
// change. stack_changed is true if after editing script on pause stack is
// changed and client should request stack trace again.
bool SetScriptSource(Handle<Script> script, Handle<String> source,
bool preview, debug::LiveEditResult* result);
int GetFunctionDebuggingId(Handle<JSFunction> function);
// Threading support.
char* ArchiveDebug(char* to);
char* RestoreDebug(char* from);
static int ArchiveSpacePerThread();
void FreeThreadResources() { }
void Iterate(RootVisitor* v);
void InitThread(const ExecutionAccess& lock) { ThreadInit(); }
bool CheckExecutionState() { return is_active(); }
void StartSideEffectCheckMode();
void StopSideEffectCheckMode();
void ApplySideEffectChecks(Handle<DebugInfo> debug_info);
void ClearSideEffectChecks(Handle<DebugInfo> debug_info);
bool PerformSideEffectCheck(Handle<JSFunction> function,
Handle<Object> receiver);
enum AccessorKind { kNotAccessor, kGetter, kSetter };
bool PerformSideEffectCheckForCallback(Handle<Object> callback_info,
Handle<Object> receiver,
AccessorKind accessor_kind);
bool PerformSideEffectCheckAtBytecode(InterpretedFrame* frame);
bool PerformSideEffectCheckForObject(Handle<Object> object);
// Flags and states.
inline bool is_active() const { return is_active_; }
inline bool in_debug_scope() const {
return !!base::Relaxed_Load(&thread_local_.current_debug_scope_);
}
inline bool needs_check_on_function_call() const {
return hook_on_function_call_;
}
void set_break_points_active(bool v) { break_points_active_ = v; }
bool break_points_active() const { return break_points_active_; }
StackFrameId break_frame_id() { return thread_local_.break_frame_id_; }
Handle<Object> return_value_handle();
Object return_value() { return thread_local_.return_value_; }
void set_return_value(Object value) { thread_local_.return_value_ = value; }
// Support for embedding into generated code.
Address is_active_address() {
return reinterpret_cast<Address>(&is_active_);
}
Address hook_on_function_call_address() {
return reinterpret_cast<Address>(&hook_on_function_call_);
}
Address suspended_generator_address() {
return reinterpret_cast<Address>(&thread_local_.suspended_generator_);
}
Address restart_fp_address() {
return reinterpret_cast<Address>(&thread_local_.restart_fp_);
}
bool will_restart() const {
return thread_local_.restart_fp_ != kNullAddress;
}
StepAction last_step_action() { return thread_local_.last_step_action_; }
bool break_on_next_function_call() const {
return thread_local_.break_on_next_function_call_;
}
inline bool break_disabled() const { return break_disabled_; }
DebugFeatureTracker* feature_tracker() { return &feature_tracker_; }
// For functions in which we cannot set a break point, use a canonical
// source position for break points.
static const int kBreakAtEntryPosition = 0;
void RemoveBreakInfoAndMaybeFree(Handle<DebugInfo> debug_info);
private:
explicit Debug(Isolate* isolate);
~Debug();
void UpdateDebugInfosForExecutionMode();
void UpdateState();
void UpdateHookOnFunctionCall();
void Unload();
// Return the number of virtual frames below debugger entry.
int CurrentFrameCount();
inline bool ignore_events() const {
return is_suppressed_ || !is_active_ ||
isolate_->debug_execution_mode() == DebugInfo::kSideEffects;
}
void clear_suspended_generator() {
thread_local_.suspended_generator_ = Smi::zero();
}
bool has_suspended_generator() const {
return thread_local_.suspended_generator_ != Smi::zero();
}
bool IsExceptionBlackboxed(bool uncaught);
void OnException(Handle<Object> exception, Handle<Object> promise,
v8::debug::ExceptionType exception_type);
void ProcessCompileEvent(bool has_compile_error, Handle<Script> script);
// Find the closest source position for a break point for a given position.
int FindBreakablePosition(Handle<DebugInfo> debug_info, int source_position);
// Instrument code to break at break points.
void ApplyBreakPoints(Handle<DebugInfo> debug_info);
// Clear code from instrumentation.
void ClearBreakPoints(Handle<DebugInfo> debug_info);
// Clear all code from instrumentation.
void ClearAllBreakPoints();
// Instrument a function with one-shots.
void FloodWithOneShot(Handle<SharedFunctionInfo> function,
bool returns_only = false);
// Clear all one-shot instrumentations, but restore break points.
void ClearOneShot();
bool IsFrameBlackboxed(JavaScriptFrame* frame);
void ActivateStepOut(StackFrame* frame);
MaybeHandle<FixedArray> CheckBreakPoints(Handle<DebugInfo> debug_info,
BreakLocation* location,
bool* has_break_points = nullptr);
bool IsMutedAtCurrentLocation(JavaScriptFrame* frame);
// Check whether a BreakPoint object is hit. Evaluate condition depending
// on whether this is a regular break location or a break at function entry.
bool CheckBreakPoint(Handle<BreakPoint> break_point, bool is_break_at_entry);
inline void AssertDebugContext() {
DCHECK(in_debug_scope());
}
void ThreadInit();
void PrintBreakLocation();
void ClearAllDebuggerHints();
// Wraps logic for clearing and maybe freeing all debug infos.
using DebugInfoClearFunction = std::function<void(Handle<DebugInfo>)>;
void ClearAllDebugInfos(const DebugInfoClearFunction& clear_function);
void FindDebugInfo(Handle<DebugInfo> debug_info, DebugInfoListNode** prev,
DebugInfoListNode** curr);
void FreeDebugInfoListNode(DebugInfoListNode* prev, DebugInfoListNode* node);
debug::DebugDelegate* debug_delegate_ = nullptr;
// Debugger is active, i.e. there is a debug event listener attached.
bool is_active_;
// Debugger needs to be notified on every new function call.
// Used for stepping and read-only checks
bool hook_on_function_call_;
// Suppress debug events.
bool is_suppressed_;
// Running liveedit.
bool running_live_edit_ = false;
// Do not trigger debug break events.
bool break_disabled_;
// Do not break on break points.
bool break_points_active_;
// Trigger debug break events for all exceptions.
bool break_on_exception_;
// Trigger debug break events for uncaught exceptions.
bool break_on_uncaught_exception_;
// Termination exception because side effect check has failed.
bool side_effect_check_failed_;
// List of active debug info objects.
DebugInfoListNode* debug_info_list_;
// Used for side effect check to mark temporary objects.
class TemporaryObjectsTracker;
std::unique_ptr<TemporaryObjectsTracker> temporary_objects_;
Handle<RegExpMatchInfo> regexp_match_info_;
// Used to collect histogram data on debugger feature usage.
DebugFeatureTracker feature_tracker_;
// Per-thread data.
class ThreadLocal {
public:
// Top debugger entry.
base::AtomicWord current_debug_scope_;
// Frame id for the frame of the current break.
StackFrameId break_frame_id_;
// Step action for last step performed.
StepAction last_step_action_;
// If set, next PrepareStepIn will ignore this function until stepped into
// another function, at which point this will be cleared.
Object ignore_step_into_function_;
// If set then we need to repeat StepOut action at return.
bool fast_forward_to_return_;
// Source statement position from last step next action.
int last_statement_position_;
// Frame pointer from last step next or step frame action.
int last_frame_count_;
// Frame pointer of the target frame we want to arrive at.
int target_frame_count_;
// Value of the accumulator at the point of entering the debugger.
Object return_value_;
// The suspended generator object to track when stepping.
Object suspended_generator_;
// The new frame pointer to drop to when restarting a frame.
Address restart_fp_;
// Last used inspector breakpoint id.
int last_breakpoint_id_;
// This flag is true when SetBreakOnNextFunctionCall is called and it forces
// debugger to break on next function call.
bool break_on_next_function_call_;
};
// Storage location for registers when handling debug break calls
ThreadLocal thread_local_;
// This is a global handle, lazily initialized.
Handle<WeakArrayList> wasm_scripts_with_breakpoints_;
Isolate* isolate_;
friend class Isolate;
friend class DebugScope;
friend class DisableBreak;
friend class LiveEdit;
friend class SuppressDebug;
friend Handle<FixedArray> GetDebuggedFunctions(); // In test-debug.cc
friend void CheckDebuggerUnloaded(); // In test-debug.cc
DISALLOW_COPY_AND_ASSIGN(Debug);
};
// This scope is used to load and enter the debug context and create a new
// break state. Leaving the scope will restore the previous state.
class DebugScope {
public:
explicit DebugScope(Debug* debug);
~DebugScope();
void set_terminate_on_resume();
private:
Isolate* isolate() { return debug_->isolate_; }
Debug* debug_;
DebugScope* prev_; // Previous scope if entered recursively.
StackFrameId break_frame_id_; // Previous break frame id.
PostponeInterruptsScope no_interrupts_;
// This is used as a boolean.
bool terminate_on_resume_ = false;
};
// This scope is used to handle return values in nested debug break points.
// When there are nested debug breaks, we use this to restore the return
// value to the previous state. This is not merged with DebugScope because
// return_value_ will not be cleared when we use DebugScope.
class ReturnValueScope {
public:
explicit ReturnValueScope(Debug* debug);
~ReturnValueScope();
private:
Debug* debug_;
Handle<Object> return_value_; // Previous result.
};
// Stack allocated class for disabling break.
class DisableBreak {
public:
explicit DisableBreak(Debug* debug, bool disable = true)
: debug_(debug), previous_break_disabled_(debug->break_disabled_) {
debug_->break_disabled_ = disable;
}
~DisableBreak() {
debug_->break_disabled_ = previous_break_disabled_;
}
private:
Debug* debug_;
bool previous_break_disabled_;
DISALLOW_COPY_AND_ASSIGN(DisableBreak);
};
class SuppressDebug {
public:
explicit SuppressDebug(Debug* debug)
: debug_(debug), old_state_(debug->is_suppressed_) {
debug_->is_suppressed_ = true;
}
~SuppressDebug() { debug_->is_suppressed_ = old_state_; }
private:
Debug* debug_;
bool old_state_;
DISALLOW_COPY_AND_ASSIGN(SuppressDebug);
};
// Code generator routines.
class DebugCodegen : public AllStatic {
public:
enum DebugBreakCallHelperMode {
SAVE_RESULT_REGISTER,
IGNORE_RESULT_REGISTER
};
// Builtin to drop frames to restart function.
static void GenerateFrameDropperTrampoline(MacroAssembler* masm);
// Builtin to atomically (wrt deopts) handle debugger statement and
// drop frames to restart function if necessary.
static void GenerateHandleDebuggerStatement(MacroAssembler* masm);
// Builtin to trigger a debug break before entering the function.
static void GenerateDebugBreakTrampoline(MacroAssembler* masm);
};
} // namespace internal
} // namespace v8
#endif // V8_DEBUG_DEBUG_H_