// Copyright 2011 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_SAFEPOINT_TABLE_H_ #define V8_SAFEPOINT_TABLE_H_ #include "src/allocation.h" #include "src/heap/heap.h" #include "src/v8memory.h" #include "src/zone.h" namespace v8 { namespace internal { struct Register; class SafepointEntry BASE_EMBEDDED { public: SafepointEntry() : info_(0), bits_(NULL) {} SafepointEntry(unsigned info, uint8_t* bits) : info_(info), bits_(bits) { DCHECK(is_valid()); } bool is_valid() const { return bits_ != NULL; } bool Equals(const SafepointEntry& other) const { return info_ == other.info_ && bits_ == other.bits_; } void Reset() { info_ = 0; bits_ = NULL; } int deoptimization_index() const { DCHECK(is_valid()); return DeoptimizationIndexField::decode(info_); } static const int kArgumentsFieldBits = 3; static const int kSaveDoublesFieldBits = 1; static const int kDeoptIndexBits = 32 - kArgumentsFieldBits - kSaveDoublesFieldBits; class DeoptimizationIndexField: public BitField {}; // NOLINT class ArgumentsField: public BitField {}; // NOLINT class SaveDoublesField: public BitField { }; // NOLINT int argument_count() const { DCHECK(is_valid()); return ArgumentsField::decode(info_); } bool has_doubles() const { DCHECK(is_valid()); return SaveDoublesField::decode(info_); } uint8_t* bits() { DCHECK(is_valid()); return bits_; } bool HasRegisters() const; bool HasRegisterAt(int reg_index) const; private: unsigned info_; uint8_t* bits_; }; class SafepointTable BASE_EMBEDDED { public: explicit SafepointTable(Code* code); int size() const { return kHeaderSize + (length_ * (kPcAndDeoptimizationIndexSize + entry_size_)); } unsigned length() const { return length_; } unsigned entry_size() const { return entry_size_; } unsigned GetPcOffset(unsigned index) const { DCHECK(index < length_); return Memory::uint32_at(GetPcOffsetLocation(index)); } SafepointEntry GetEntry(unsigned index) const { DCHECK(index < length_); unsigned info = Memory::uint32_at(GetInfoLocation(index)); uint8_t* bits = &Memory::uint8_at(entries_ + (index * entry_size_)); return SafepointEntry(info, bits); } // Returns the entry for the given pc. SafepointEntry FindEntry(Address pc) const; void PrintEntry(unsigned index, std::ostream& os) const; // NOLINT private: static const uint8_t kNoRegisters = 0xFF; static const int kLengthOffset = 0; static const int kEntrySizeOffset = kLengthOffset + kIntSize; static const int kHeaderSize = kEntrySizeOffset + kIntSize; static const int kPcSize = kIntSize; static const int kDeoptimizationIndexSize = kIntSize; static const int kPcAndDeoptimizationIndexSize = kPcSize + kDeoptimizationIndexSize; Address GetPcOffsetLocation(unsigned index) const { return pc_and_deoptimization_indexes_ + (index * kPcAndDeoptimizationIndexSize); } Address GetInfoLocation(unsigned index) const { return GetPcOffsetLocation(index) + kPcSize; } static void PrintBits(std::ostream& os, // NOLINT uint8_t byte, int digits); DisallowHeapAllocation no_allocation_; Code* code_; unsigned length_; unsigned entry_size_; Address pc_and_deoptimization_indexes_; Address entries_; friend class SafepointTableBuilder; friend class SafepointEntry; DISALLOW_COPY_AND_ASSIGN(SafepointTable); }; class Safepoint BASE_EMBEDDED { public: typedef enum { kSimple = 0, kWithRegisters = 1 << 0, kWithDoubles = 1 << 1, kWithRegistersAndDoubles = kWithRegisters | kWithDoubles } Kind; enum DeoptMode { kNoLazyDeopt, kLazyDeopt }; static const int kNoDeoptimizationIndex = (1 << (SafepointEntry::kDeoptIndexBits)) - 1; void DefinePointerSlot(int index, Zone* zone) { indexes_->Add(index, zone); } void DefinePointerRegister(Register reg, Zone* zone); private: Safepoint(ZoneList* indexes, ZoneList* registers) : indexes_(indexes), registers_(registers) {} ZoneList* indexes_; ZoneList* registers_; friend class SafepointTableBuilder; }; class SafepointTableBuilder BASE_EMBEDDED { public: explicit SafepointTableBuilder(Zone* zone) : deoptimization_info_(32, zone), deopt_index_list_(32, zone), indexes_(32, zone), registers_(32, zone), emitted_(false), last_lazy_safepoint_(0), zone_(zone) { } // Get the offset of the emitted safepoint table in the code. unsigned GetCodeOffset() const; // Define a new safepoint for the current position in the body. Safepoint DefineSafepoint(Assembler* assembler, Safepoint::Kind kind, int arguments, Safepoint::DeoptMode mode); // Record deoptimization index for lazy deoptimization for the last // outstanding safepoints. void RecordLazyDeoptimizationIndex(int index); void BumpLastLazySafepointIndex() { last_lazy_safepoint_ = deopt_index_list_.length(); } // Emit the safepoint table after the body. The number of bits per // entry must be enough to hold all the pointer indexes. void Emit(Assembler* assembler, int bits_per_entry); private: struct DeoptimizationInfo { unsigned pc; unsigned arguments; bool has_doubles; }; uint32_t EncodeExceptPC(const DeoptimizationInfo& info, unsigned index); ZoneList deoptimization_info_; ZoneList deopt_index_list_; ZoneList*> indexes_; ZoneList*> registers_; unsigned offset_; bool emitted_; int last_lazy_safepoint_; Zone* zone_; DISALLOW_COPY_AND_ASSIGN(SafepointTableBuilder); }; } // namespace internal } // namespace v8 #endif // V8_SAFEPOINT_TABLE_H_