/* * Copyright (C) 2015 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "stack_map_stream.h" namespace art { void StackMapStream::BeginStackMapEntry(uint32_t dex_pc, uint32_t native_pc_offset, uint32_t register_mask, BitVector* sp_mask, uint32_t num_dex_registers, uint8_t inlining_depth) { DCHECK_EQ(0u, current_entry_.dex_pc) << "EndStackMapEntry not called after BeginStackMapEntry"; current_entry_.dex_pc = dex_pc; current_entry_.native_pc_offset = native_pc_offset; current_entry_.register_mask = register_mask; current_entry_.sp_mask = sp_mask; current_entry_.num_dex_registers = num_dex_registers; current_entry_.inlining_depth = inlining_depth; current_entry_.dex_register_locations_start_index = dex_register_locations_.Size(); current_entry_.inline_infos_start_index = inline_infos_.Size(); current_entry_.dex_register_map_hash = 0; current_entry_.same_dex_register_map_as_ = kNoSameDexMapFound; if (num_dex_registers != 0) { current_entry_.live_dex_registers_mask = new (allocator_) ArenaBitVector(allocator_, num_dex_registers, true); } else { current_entry_.live_dex_registers_mask = nullptr; } if (sp_mask != nullptr) { stack_mask_max_ = std::max(stack_mask_max_, sp_mask->GetHighestBitSet()); } if (inlining_depth > 0) { number_of_stack_maps_with_inline_info_++; } dex_pc_max_ = std::max(dex_pc_max_, dex_pc); native_pc_offset_max_ = std::max(native_pc_offset_max_, native_pc_offset); register_mask_max_ = std::max(register_mask_max_, register_mask); } void StackMapStream::EndStackMapEntry() { current_entry_.same_dex_register_map_as_ = FindEntryWithTheSameDexMap(); stack_maps_.Add(current_entry_); current_entry_ = StackMapEntry(); } void StackMapStream::AddDexRegisterEntry(uint16_t dex_register, DexRegisterLocation::Kind kind, int32_t value) { DCHECK_LT(dex_register, current_entry_.num_dex_registers); if (kind != DexRegisterLocation::Kind::kNone) { // Ensure we only use non-compressed location kind at this stage. DCHECK(DexRegisterLocation::IsShortLocationKind(kind)) << DexRegisterLocation::PrettyDescriptor(kind); DexRegisterLocation location(kind, value); // Look for Dex register `location` in the location catalog (using the // companion hash map of locations to indices). Use its index if it // is already in the location catalog. If not, insert it (in the // location catalog and the hash map) and use the newly created index. auto it = location_catalog_entries_indices_.Find(location); if (it != location_catalog_entries_indices_.end()) { // Retrieve the index from the hash map. dex_register_locations_.Add(it->second); } else { // Create a new entry in the location catalog and the hash map. size_t index = location_catalog_entries_.Size(); location_catalog_entries_.Add(location); dex_register_locations_.Add(index); location_catalog_entries_indices_.Insert(std::make_pair(location, index)); } current_entry_.live_dex_registers_mask->SetBit(dex_register); current_entry_.dex_register_map_hash += (1 << (dex_register % (sizeof(current_entry_.dex_register_map_hash) * kBitsPerByte))); current_entry_.dex_register_map_hash += static_cast(value); current_entry_.dex_register_map_hash += static_cast(kind); } } void StackMapStream::AddInlineInfoEntry(uint32_t method_index) { InlineInfoEntry entry; entry.method_index = method_index; inline_infos_.Add(entry); } size_t StackMapStream::PrepareForFillIn() { int stack_mask_number_of_bits = stack_mask_max_ + 1; // Need room for max element too. stack_mask_size_ = RoundUp(stack_mask_number_of_bits, kBitsPerByte) / kBitsPerByte; inline_info_size_ = ComputeInlineInfoSize(); dex_register_maps_size_ = ComputeDexRegisterMapsSize(); stack_maps_size_ = stack_maps_.Size() * StackMap::ComputeStackMapSize(stack_mask_size_, inline_info_size_, dex_register_maps_size_, dex_pc_max_, native_pc_offset_max_, register_mask_max_); dex_register_location_catalog_size_ = ComputeDexRegisterLocationCatalogSize(); // Note: use RoundUp to word-size here if you want CodeInfo objects to be word aligned. needed_size_ = CodeInfo::kFixedSize + dex_register_location_catalog_size_ + stack_maps_size_ + dex_register_maps_size_ + inline_info_size_; dex_register_location_catalog_start_ = CodeInfo::kFixedSize; stack_maps_start_ = dex_register_location_catalog_start_ + dex_register_location_catalog_size_; dex_register_maps_start_ = stack_maps_start_ + stack_maps_size_; inline_infos_start_ = dex_register_maps_start_ + dex_register_maps_size_; return needed_size_; } size_t StackMapStream::ComputeDexRegisterLocationCatalogSize() const { size_t size = DexRegisterLocationCatalog::kFixedSize; for (size_t location_catalog_entry_index = 0; location_catalog_entry_index < location_catalog_entries_.Size(); ++location_catalog_entry_index) { DexRegisterLocation dex_register_location = location_catalog_entries_.Get(location_catalog_entry_index); size += DexRegisterLocationCatalog::EntrySize(dex_register_location); } return size; } size_t StackMapStream::ComputeDexRegisterMapSize(const StackMapEntry& entry) const { // Size of the map in bytes. size_t size = DexRegisterMap::kFixedSize; // Add the live bit mask for the Dex register liveness. size += DexRegisterMap::GetLiveBitMaskSize(entry.num_dex_registers); // Compute the size of the set of live Dex register entries. size_t number_of_live_dex_registers = 0; for (size_t dex_register_number = 0; dex_register_number < entry.num_dex_registers; ++dex_register_number) { if (entry.live_dex_registers_mask->IsBitSet(dex_register_number)) { ++number_of_live_dex_registers; } } size_t map_entries_size_in_bits = DexRegisterMap::SingleEntrySizeInBits(location_catalog_entries_.Size()) * number_of_live_dex_registers; size_t map_entries_size_in_bytes = RoundUp(map_entries_size_in_bits, kBitsPerByte) / kBitsPerByte; size += map_entries_size_in_bytes; return size; } size_t StackMapStream::ComputeDexRegisterMapsSize() const { size_t size = 0; for (size_t i = 0; i < stack_maps_.Size(); ++i) { StackMapEntry entry = stack_maps_.Get(i); if (entry.same_dex_register_map_as_ == kNoSameDexMapFound) { // Entries with the same dex map will have the same offset. size += ComputeDexRegisterMapSize(entry); } } return size; } size_t StackMapStream::ComputeInlineInfoSize() const { return inline_infos_.Size() * InlineInfo::SingleEntrySize() // For encoding the depth. + (number_of_stack_maps_with_inline_info_ * InlineInfo::kFixedSize); } void StackMapStream::FillIn(MemoryRegion region) { DCHECK_EQ(0u, current_entry_.dex_pc) << "EndStackMapEntry not called after BeginStackMapEntry"; DCHECK_NE(0u, needed_size_) << "PrepareForFillIn not called before FillIn"; CodeInfo code_info(region); DCHECK_EQ(region.size(), needed_size_); code_info.SetOverallSize(region.size()); MemoryRegion dex_register_locations_region = region.Subregion( dex_register_maps_start_, dex_register_maps_size_); MemoryRegion inline_infos_region = region.Subregion( inline_infos_start_, inline_info_size_); code_info.SetEncoding(inline_info_size_, dex_register_maps_size_, dex_pc_max_, native_pc_offset_max_, register_mask_max_); code_info.SetNumberOfStackMaps(stack_maps_.Size()); code_info.SetStackMaskSize(stack_mask_size_); DCHECK_EQ(code_info.GetStackMapsSize(), stack_maps_size_); // Set the Dex register location catalog. code_info.SetNumberOfDexRegisterLocationCatalogEntries(location_catalog_entries_.Size()); MemoryRegion dex_register_location_catalog_region = region.Subregion( dex_register_location_catalog_start_, dex_register_location_catalog_size_); DexRegisterLocationCatalog dex_register_location_catalog(dex_register_location_catalog_region); // Offset in `dex_register_location_catalog` where to store the next // register location. size_t location_catalog_offset = DexRegisterLocationCatalog::kFixedSize; for (size_t i = 0, e = location_catalog_entries_.Size(); i < e; ++i) { DexRegisterLocation dex_register_location = location_catalog_entries_.Get(i); dex_register_location_catalog.SetRegisterInfo(location_catalog_offset, dex_register_location); location_catalog_offset += DexRegisterLocationCatalog::EntrySize(dex_register_location); } // Ensure we reached the end of the Dex registers location_catalog. DCHECK_EQ(location_catalog_offset, dex_register_location_catalog_region.size()); uintptr_t next_dex_register_map_offset = 0; uintptr_t next_inline_info_offset = 0; for (size_t i = 0, e = stack_maps_.Size(); i < e; ++i) { StackMap stack_map = code_info.GetStackMapAt(i); StackMapEntry entry = stack_maps_.Get(i); stack_map.SetDexPc(code_info, entry.dex_pc); stack_map.SetNativePcOffset(code_info, entry.native_pc_offset); stack_map.SetRegisterMask(code_info, entry.register_mask); if (entry.sp_mask != nullptr) { stack_map.SetStackMask(code_info, *entry.sp_mask); } if (entry.num_dex_registers == 0) { // No dex map available. stack_map.SetDexRegisterMapOffset(code_info, StackMap::kNoDexRegisterMap); } else { // Search for an entry with the same dex map. if (entry.same_dex_register_map_as_ != kNoSameDexMapFound) { // If we have a hit reuse the offset. stack_map.SetDexRegisterMapOffset(code_info, code_info.GetStackMapAt(entry.same_dex_register_map_as_) .GetDexRegisterMapOffset(code_info)); } else { // New dex registers maps should be added to the stack map. MemoryRegion register_region = dex_register_locations_region.Subregion( next_dex_register_map_offset, ComputeDexRegisterMapSize(entry)); next_dex_register_map_offset += register_region.size(); DexRegisterMap dex_register_map(register_region); stack_map.SetDexRegisterMapOffset( code_info, register_region.start() - dex_register_locations_region.start()); // Set the live bit mask. dex_register_map.SetLiveBitMask(entry.num_dex_registers, *entry.live_dex_registers_mask); // Set the dex register location mapping data. for (size_t dex_register_number = 0, index_in_dex_register_locations = 0; dex_register_number < entry.num_dex_registers; ++dex_register_number) { if (entry.live_dex_registers_mask->IsBitSet(dex_register_number)) { size_t location_catalog_entry_index = dex_register_locations_.Get(entry.dex_register_locations_start_index + index_in_dex_register_locations); dex_register_map.SetLocationCatalogEntryIndex( index_in_dex_register_locations, location_catalog_entry_index, entry.num_dex_registers, location_catalog_entries_.Size()); ++index_in_dex_register_locations; } } } } // Set the inlining info. if (entry.inlining_depth != 0) { MemoryRegion inline_region = inline_infos_region.Subregion( next_inline_info_offset, InlineInfo::kFixedSize + entry.inlining_depth * InlineInfo::SingleEntrySize()); next_inline_info_offset += inline_region.size(); InlineInfo inline_info(inline_region); // Currently relative to the dex register map. stack_map.SetInlineDescriptorOffset( code_info, inline_region.start() - dex_register_locations_region.start()); inline_info.SetDepth(entry.inlining_depth); for (size_t j = 0; j < entry.inlining_depth; ++j) { InlineInfoEntry inline_entry = inline_infos_.Get(j + entry.inline_infos_start_index); inline_info.SetMethodReferenceIndexAtDepth(j, inline_entry.method_index); } } else { if (inline_info_size_ != 0) { stack_map.SetInlineDescriptorOffset(code_info, StackMap::kNoInlineInfo); } } } } size_t StackMapStream::FindEntryWithTheSameDexMap() { size_t current_entry_index = stack_maps_.Size(); auto entries_it = dex_map_hash_to_stack_map_indices_.find(current_entry_.dex_register_map_hash); if (entries_it == dex_map_hash_to_stack_map_indices_.end()) { // We don't have a perfect hash functions so we need a list to collect all stack maps // which might have the same dex register map. GrowableArray stack_map_indices(allocator_, 1); stack_map_indices.Add(current_entry_index); dex_map_hash_to_stack_map_indices_.Put(current_entry_.dex_register_map_hash, stack_map_indices); return kNoSameDexMapFound; } // We might have collisions, so we need to check whether or not we really have a match. for (size_t i = 0; i < entries_it->second.Size(); i++) { size_t test_entry_index = entries_it->second.Get(i); if (HaveTheSameDexMaps(stack_maps_.Get(test_entry_index), current_entry_)) { return test_entry_index; } } entries_it->second.Add(current_entry_index); return kNoSameDexMapFound; } bool StackMapStream::HaveTheSameDexMaps(const StackMapEntry& a, const StackMapEntry& b) const { if (a.live_dex_registers_mask == nullptr && b.live_dex_registers_mask == nullptr) { return true; } if (a.live_dex_registers_mask == nullptr || b.live_dex_registers_mask == nullptr) { return false; } if (a.num_dex_registers != b.num_dex_registers) { return false; } int index_in_dex_register_locations = 0; for (uint32_t i = 0; i < a.num_dex_registers; i++) { if (a.live_dex_registers_mask->IsBitSet(i) != b.live_dex_registers_mask->IsBitSet(i)) { return false; } if (a.live_dex_registers_mask->IsBitSet(i)) { size_t a_loc = dex_register_locations_.Get( a.dex_register_locations_start_index + index_in_dex_register_locations); size_t b_loc = dex_register_locations_.Get( b.dex_register_locations_start_index + index_in_dex_register_locations); if (a_loc != b_loc) { return false; } ++index_in_dex_register_locations; } } return true; } } // namespace art