// 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. #include "src/v8.h" #include "src/safepoint-table.h" #include "src/deoptimizer.h" #include "src/disasm.h" #include "src/macro-assembler.h" #include "src/ostreams.h" namespace v8 { namespace internal { bool SafepointEntry::HasRegisters() const { DCHECK(is_valid()); DCHECK(IsAligned(kNumSafepointRegisters, kBitsPerByte)); const int num_reg_bytes = kNumSafepointRegisters >> kBitsPerByteLog2; for (int i = 0; i < num_reg_bytes; i++) { if (bits_[i] != SafepointTable::kNoRegisters) return true; } return false; } bool SafepointEntry::HasRegisterAt(int reg_index) const { DCHECK(is_valid()); DCHECK(reg_index >= 0 && reg_index < kNumSafepointRegisters); int byte_index = reg_index >> kBitsPerByteLog2; int bit_index = reg_index & (kBitsPerByte - 1); return (bits_[byte_index] & (1 << bit_index)) != 0; } SafepointTable::SafepointTable(Code* code) { DCHECK(code->is_crankshafted()); code_ = code; Address header = code->instruction_start() + code->safepoint_table_offset(); length_ = Memory::uint32_at(header + kLengthOffset); entry_size_ = Memory::uint32_at(header + kEntrySizeOffset); pc_and_deoptimization_indexes_ = header + kHeaderSize; entries_ = pc_and_deoptimization_indexes_ + (length_ * kPcAndDeoptimizationIndexSize); DCHECK(entry_size_ > 0); STATIC_ASSERT(SafepointEntry::DeoptimizationIndexField::kMax == Safepoint::kNoDeoptimizationIndex); } SafepointEntry SafepointTable::FindEntry(Address pc) const { unsigned pc_offset = static_cast(pc - code_->instruction_start()); for (unsigned i = 0; i < length(); i++) { // TODO(kasperl): Replace the linear search with binary search. if (GetPcOffset(i) == pc_offset) return GetEntry(i); } return SafepointEntry(); } void SafepointTable::PrintEntry(unsigned index, std::ostream& os) const { // NOLINT disasm::NameConverter converter; SafepointEntry entry = GetEntry(index); uint8_t* bits = entry.bits(); // Print the stack slot bits. if (entry_size_ > 0) { DCHECK(IsAligned(kNumSafepointRegisters, kBitsPerByte)); const int first = kNumSafepointRegisters >> kBitsPerByteLog2; int last = entry_size_ - 1; for (int i = first; i < last; i++) PrintBits(os, bits[i], kBitsPerByte); int last_bits = code_->stack_slots() - ((last - first) * kBitsPerByte); PrintBits(os, bits[last], last_bits); // Print the registers (if any). if (!entry.HasRegisters()) return; for (int j = 0; j < kNumSafepointRegisters; j++) { if (entry.HasRegisterAt(j)) { os << " | " << converter.NameOfCPURegister(j); } } } } void SafepointTable::PrintBits(std::ostream& os, // NOLINT uint8_t byte, int digits) { DCHECK(digits >= 0 && digits <= kBitsPerByte); for (int i = 0; i < digits; i++) { os << (((byte & (1 << i)) == 0) ? "0" : "1"); } } void Safepoint::DefinePointerRegister(Register reg, Zone* zone) { registers_->Add(reg.code(), zone); } Safepoint SafepointTableBuilder::DefineSafepoint( Assembler* assembler, Safepoint::Kind kind, int arguments, Safepoint::DeoptMode deopt_mode) { DCHECK(arguments >= 0); DeoptimizationInfo info; info.pc = assembler->pc_offset(); info.arguments = arguments; info.has_doubles = (kind & Safepoint::kWithDoubles); deoptimization_info_.Add(info, zone_); deopt_index_list_.Add(Safepoint::kNoDeoptimizationIndex, zone_); if (deopt_mode == Safepoint::kNoLazyDeopt) { last_lazy_safepoint_ = deopt_index_list_.length(); } indexes_.Add(new(zone_) ZoneList(8, zone_), zone_); registers_.Add((kind & Safepoint::kWithRegisters) ? new(zone_) ZoneList(4, zone_) : NULL, zone_); return Safepoint(indexes_.last(), registers_.last()); } void SafepointTableBuilder::RecordLazyDeoptimizationIndex(int index) { while (last_lazy_safepoint_ < deopt_index_list_.length()) { deopt_index_list_[last_lazy_safepoint_++] = index; } } unsigned SafepointTableBuilder::GetCodeOffset() const { DCHECK(emitted_); return offset_; } void SafepointTableBuilder::Emit(Assembler* assembler, int bits_per_entry) { // Make sure the safepoint table is properly aligned. Pad with nops. assembler->Align(kIntSize); assembler->RecordComment(";;; Safepoint table."); offset_ = assembler->pc_offset(); // Take the register bits into account. bits_per_entry += kNumSafepointRegisters; // Compute the number of bytes per safepoint entry. int bytes_per_entry = RoundUp(bits_per_entry, kBitsPerByte) >> kBitsPerByteLog2; // Emit the table header. int length = deoptimization_info_.length(); assembler->dd(length); assembler->dd(bytes_per_entry); // Emit sorted table of pc offsets together with deoptimization indexes. for (int i = 0; i < length; i++) { assembler->dd(deoptimization_info_[i].pc); assembler->dd(EncodeExceptPC(deoptimization_info_[i], deopt_index_list_[i])); } // Emit table of bitmaps. ZoneList bits(bytes_per_entry, zone_); for (int i = 0; i < length; i++) { ZoneList* indexes = indexes_[i]; ZoneList* registers = registers_[i]; bits.Clear(); bits.AddBlock(0, bytes_per_entry, zone_); // Run through the registers (if any). DCHECK(IsAligned(kNumSafepointRegisters, kBitsPerByte)); if (registers == NULL) { const int num_reg_bytes = kNumSafepointRegisters >> kBitsPerByteLog2; for (int j = 0; j < num_reg_bytes; j++) { bits[j] = SafepointTable::kNoRegisters; } } else { for (int j = 0; j < registers->length(); j++) { int index = registers->at(j); DCHECK(index >= 0 && index < kNumSafepointRegisters); int byte_index = index >> kBitsPerByteLog2; int bit_index = index & (kBitsPerByte - 1); bits[byte_index] |= (1 << bit_index); } } // Run through the indexes and build a bitmap. for (int j = 0; j < indexes->length(); j++) { int index = bits_per_entry - 1 - indexes->at(j); int byte_index = index >> kBitsPerByteLog2; int bit_index = index & (kBitsPerByte - 1); bits[byte_index] |= (1U << bit_index); } // Emit the bitmap for the current entry. for (int k = 0; k < bytes_per_entry; k++) { assembler->db(bits[k]); } } emitted_ = true; } uint32_t SafepointTableBuilder::EncodeExceptPC(const DeoptimizationInfo& info, unsigned index) { uint32_t encoding = SafepointEntry::DeoptimizationIndexField::encode(index); encoding |= SafepointEntry::ArgumentsField::encode(info.arguments); encoding |= SafepointEntry::SaveDoublesField::encode(info.has_doubles); return encoding; } } } // namespace v8::internal