// Copyright 2017 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. #include "src/objects/debug-objects.h" #include "src/debug/debug-evaluate.h" #include "src/objects/debug-objects-inl.h" namespace v8 { namespace internal { bool DebugInfo::IsEmpty() const { return flags() == kNone && debugger_hints() == 0; } bool DebugInfo::HasBreakInfo() const { return (flags() & kHasBreakInfo) != 0; } DebugInfo::ExecutionMode DebugInfo::DebugExecutionMode() const { return (flags() & kDebugExecutionMode) != 0 ? kSideEffects : kBreakpoints; } void DebugInfo::SetDebugExecutionMode(ExecutionMode value) { set_flags(value == kSideEffects ? (flags() | kDebugExecutionMode) : (flags() & ~kDebugExecutionMode)); } void DebugInfo::ClearBreakInfo(Isolate* isolate) { if (HasInstrumentedBytecodeArray()) { // Reset function's bytecode array field to point to the original bytecode // array. shared()->SetDebugBytecodeArray(OriginalBytecodeArray()); set_original_bytecode_array(ReadOnlyRoots(isolate).undefined_value()); } set_break_points(ReadOnlyRoots(isolate).empty_fixed_array()); int new_flags = flags(); new_flags &= ~kHasBreakInfo & ~kPreparedForDebugExecution; new_flags &= ~kBreakAtEntry & ~kCanBreakAtEntry; new_flags &= ~kDebugExecutionMode; set_flags(new_flags); } void DebugInfo::SetBreakAtEntry() { DCHECK(CanBreakAtEntry()); set_flags(flags() | kBreakAtEntry); } void DebugInfo::ClearBreakAtEntry() { DCHECK(CanBreakAtEntry()); set_flags(flags() & ~kBreakAtEntry); } bool DebugInfo::BreakAtEntry() const { return (flags() & kBreakAtEntry) != 0; } bool DebugInfo::CanBreakAtEntry() const { return (flags() & kCanBreakAtEntry) != 0; } // Check if there is a break point at this source position. bool DebugInfo::HasBreakPoint(Isolate* isolate, int source_position) { DCHECK(HasBreakInfo()); // Get the break point info object for this code offset. Object* break_point_info = GetBreakPointInfo(isolate, source_position); // If there is no break point info object or no break points in the break // point info object there is no break point at this code offset. if (break_point_info->IsUndefined(isolate)) return false; return BreakPointInfo::cast(break_point_info)->GetBreakPointCount(isolate) > 0; } // Get the break point info object for this source position. Object* DebugInfo::GetBreakPointInfo(Isolate* isolate, int source_position) { DCHECK(HasBreakInfo()); for (int i = 0; i < break_points()->length(); i++) { if (!break_points()->get(i)->IsUndefined(isolate)) { BreakPointInfo* break_point_info = BreakPointInfo::cast(break_points()->get(i)); if (break_point_info->source_position() == source_position) { return break_point_info; } } } return ReadOnlyRoots(isolate).undefined_value(); } bool DebugInfo::ClearBreakPoint(Isolate* isolate, Handle debug_info, Handle break_point) { DCHECK(debug_info->HasBreakInfo()); for (int i = 0; i < debug_info->break_points()->length(); i++) { if (debug_info->break_points()->get(i)->IsUndefined(isolate)) continue; Handle break_point_info = Handle( BreakPointInfo::cast(debug_info->break_points()->get(i)), isolate); if (BreakPointInfo::HasBreakPoint(isolate, break_point_info, break_point)) { BreakPointInfo::ClearBreakPoint(isolate, break_point_info, break_point); return true; } } return false; } void DebugInfo::SetBreakPoint(Isolate* isolate, Handle debug_info, int source_position, Handle break_point) { DCHECK(debug_info->HasBreakInfo()); Handle break_point_info( debug_info->GetBreakPointInfo(isolate, source_position), isolate); if (!break_point_info->IsUndefined(isolate)) { BreakPointInfo::SetBreakPoint( isolate, Handle::cast(break_point_info), break_point); return; } // Adding a new break point for a code offset which did not have any // break points before. Try to find a free slot. static const int kNoBreakPointInfo = -1; int index = kNoBreakPointInfo; for (int i = 0; i < debug_info->break_points()->length(); i++) { if (debug_info->break_points()->get(i)->IsUndefined(isolate)) { index = i; break; } } if (index == kNoBreakPointInfo) { // No free slot - extend break point info array. Handle old_break_points = Handle(debug_info->break_points(), isolate); Handle new_break_points = isolate->factory()->NewFixedArray( old_break_points->length() + DebugInfo::kEstimatedNofBreakPointsInFunction); debug_info->set_break_points(*new_break_points); for (int i = 0; i < old_break_points->length(); i++) { new_break_points->set(i, old_break_points->get(i)); } index = old_break_points->length(); } DCHECK_NE(index, kNoBreakPointInfo); // Allocate new BreakPointInfo object and set the break point. Handle new_break_point_info = isolate->factory()->NewBreakPointInfo(source_position); BreakPointInfo::SetBreakPoint(isolate, new_break_point_info, break_point); debug_info->break_points()->set(index, *new_break_point_info); } // Get the break point objects for a source position. Handle DebugInfo::GetBreakPoints(Isolate* isolate, int source_position) { DCHECK(HasBreakInfo()); Object* break_point_info = GetBreakPointInfo(isolate, source_position); if (break_point_info->IsUndefined(isolate)) { return isolate->factory()->undefined_value(); } return Handle(BreakPointInfo::cast(break_point_info)->break_points(), isolate); } // Get the total number of break points. int DebugInfo::GetBreakPointCount(Isolate* isolate) { DCHECK(HasBreakInfo()); int count = 0; for (int i = 0; i < break_points()->length(); i++) { if (!break_points()->get(i)->IsUndefined(isolate)) { BreakPointInfo* break_point_info = BreakPointInfo::cast(break_points()->get(i)); count += break_point_info->GetBreakPointCount(isolate); } } return count; } Handle DebugInfo::FindBreakPointInfo(Isolate* isolate, Handle debug_info, Handle break_point) { DCHECK(debug_info->HasBreakInfo()); for (int i = 0; i < debug_info->break_points()->length(); i++) { if (!debug_info->break_points()->get(i)->IsUndefined(isolate)) { Handle break_point_info = Handle( BreakPointInfo::cast(debug_info->break_points()->get(i)), isolate); if (BreakPointInfo::HasBreakPoint(isolate, break_point_info, break_point)) { return break_point_info; } } } return isolate->factory()->undefined_value(); } bool DebugInfo::HasCoverageInfo() const { return (flags() & kHasCoverageInfo) != 0; } void DebugInfo::ClearCoverageInfo(Isolate* isolate) { if (HasCoverageInfo()) { set_coverage_info(ReadOnlyRoots(isolate).undefined_value()); int new_flags = flags() & ~kHasCoverageInfo; set_flags(new_flags); } } DebugInfo::SideEffectState DebugInfo::GetSideEffectState(Isolate* isolate) { if (side_effect_state() == kNotComputed) { SideEffectState has_no_side_effect = DebugEvaluate::FunctionGetSideEffectState(isolate, handle(shared(), isolate)); set_side_effect_state(has_no_side_effect); } return static_cast(side_effect_state()); } namespace { bool IsEqual(BreakPoint* break_point1, BreakPoint* break_point2) { return break_point1->id() == break_point2->id(); } } // namespace // Remove the specified break point object. void BreakPointInfo::ClearBreakPoint(Isolate* isolate, Handle break_point_info, Handle break_point) { // If there are no break points just ignore. if (break_point_info->break_points()->IsUndefined(isolate)) return; // If there is a single break point clear it if it is the same. if (!break_point_info->break_points()->IsFixedArray()) { if (IsEqual(BreakPoint::cast(break_point_info->break_points()), *break_point)) { break_point_info->set_break_points( ReadOnlyRoots(isolate).undefined_value()); } return; } // If there are multiple break points shrink the array DCHECK(break_point_info->break_points()->IsFixedArray()); Handle old_array = Handle( FixedArray::cast(break_point_info->break_points()), isolate); Handle new_array = isolate->factory()->NewFixedArray(old_array->length() - 1); int found_count = 0; for (int i = 0; i < old_array->length(); i++) { if (IsEqual(BreakPoint::cast(old_array->get(i)), *break_point)) { DCHECK_EQ(found_count, 0); found_count++; } else { new_array->set(i - found_count, old_array->get(i)); } } // If the break point was found in the list change it. if (found_count > 0) break_point_info->set_break_points(*new_array); } // Add the specified break point object. void BreakPointInfo::SetBreakPoint(Isolate* isolate, Handle break_point_info, Handle break_point) { // If there was no break point objects before just set it. if (break_point_info->break_points()->IsUndefined(isolate)) { break_point_info->set_break_points(*break_point); return; } // If the break point object is the same as before just ignore. if (break_point_info->break_points() == *break_point) return; // If there was one break point object before replace with array. if (!break_point_info->break_points()->IsFixedArray()) { Handle array = isolate->factory()->NewFixedArray(2); array->set(0, break_point_info->break_points()); array->set(1, *break_point); break_point_info->set_break_points(*array); return; } // If there was more than one break point before extend array. Handle old_array = Handle( FixedArray::cast(break_point_info->break_points()), isolate); Handle new_array = isolate->factory()->NewFixedArray(old_array->length() + 1); for (int i = 0; i < old_array->length(); i++) { // If the break point was there before just ignore. if (IsEqual(BreakPoint::cast(old_array->get(i)), *break_point)) return; new_array->set(i, old_array->get(i)); } // Add the new break point. new_array->set(old_array->length(), *break_point); break_point_info->set_break_points(*new_array); } bool BreakPointInfo::HasBreakPoint(Isolate* isolate, Handle break_point_info, Handle break_point) { // No break point. if (break_point_info->break_points()->IsUndefined(isolate)) { return false; } // Single break point. if (!break_point_info->break_points()->IsFixedArray()) { return IsEqual(BreakPoint::cast(break_point_info->break_points()), *break_point); } // Multiple break points. FixedArray* array = FixedArray::cast(break_point_info->break_points()); for (int i = 0; i < array->length(); i++) { if (IsEqual(BreakPoint::cast(array->get(i)), *break_point)) { return true; } } return false; } // Get the number of break points. int BreakPointInfo::GetBreakPointCount(Isolate* isolate) { // No break point. if (break_points()->IsUndefined(isolate)) return 0; // Single break point. if (!break_points()->IsFixedArray()) return 1; // Multiple break points. return FixedArray::cast(break_points())->length(); } int CoverageInfo::SlotCount() const { DCHECK_EQ(kFirstSlotIndex, length() % kSlotIndexCount); return (length() - kFirstSlotIndex) / kSlotIndexCount; } int CoverageInfo::StartSourcePosition(int slot_index) const { DCHECK_LT(slot_index, SlotCount()); const int slot_start = CoverageInfo::FirstIndexForSlot(slot_index); return Smi::ToInt(get(slot_start + kSlotStartSourcePositionIndex)); } int CoverageInfo::EndSourcePosition(int slot_index) const { DCHECK_LT(slot_index, SlotCount()); const int slot_start = CoverageInfo::FirstIndexForSlot(slot_index); return Smi::ToInt(get(slot_start + kSlotEndSourcePositionIndex)); } int CoverageInfo::BlockCount(int slot_index) const { DCHECK_LT(slot_index, SlotCount()); const int slot_start = CoverageInfo::FirstIndexForSlot(slot_index); return Smi::ToInt(get(slot_start + kSlotBlockCountIndex)); } void CoverageInfo::InitializeSlot(int slot_index, int from_pos, int to_pos) { DCHECK_LT(slot_index, SlotCount()); const int slot_start = CoverageInfo::FirstIndexForSlot(slot_index); set(slot_start + kSlotStartSourcePositionIndex, Smi::FromInt(from_pos)); set(slot_start + kSlotEndSourcePositionIndex, Smi::FromInt(to_pos)); set(slot_start + kSlotBlockCountIndex, Smi::kZero); } void CoverageInfo::IncrementBlockCount(int slot_index) { DCHECK_LT(slot_index, SlotCount()); const int slot_start = CoverageInfo::FirstIndexForSlot(slot_index); const int old_count = BlockCount(slot_index); set(slot_start + kSlotBlockCountIndex, Smi::FromInt(old_count + 1)); } void CoverageInfo::ResetBlockCount(int slot_index) { DCHECK_LT(slot_index, SlotCount()); const int slot_start = CoverageInfo::FirstIndexForSlot(slot_index); set(slot_start + kSlotBlockCountIndex, Smi::kZero); } void CoverageInfo::Print(std::unique_ptr function_name) { DCHECK(FLAG_trace_block_coverage); DisallowHeapAllocation no_gc; StdoutStream os; os << "Coverage info ("; if (strlen(function_name.get()) > 0) { os << function_name.get(); } else { os << "{anonymous}"; } os << "):" << std::endl; for (int i = 0; i < SlotCount(); i++) { os << "{" << StartSourcePosition(i) << "," << EndSourcePosition(i) << "}" << std::endl; } } } // namespace internal } // namespace v8