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android / platform / art / dbddc22f5dc2d1ff4d4783fbd66c27812f4980d1 / . / compiler / optimizing / stack_map_stream.cc
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/*
* 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"
#include "art_method-inl.h"
#include "base/stl_util.h"
#include "optimizing/optimizing_compiler.h"
#include "runtime.h"
#include "scoped_thread_state_change-inl.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";
DCHECK_NE(dex_pc, static_cast<uint32_t>(-1)) << "invalid dex_pc";
current_entry_.dex_pc = dex_pc;
current_entry_.native_pc_code_offset = CodeOffset::FromOffset(native_pc_offset, instruction_set_);
current_entry_.register_mask = register_mask;
current_entry_.sp_mask = sp_mask;
current_entry_.inlining_depth = inlining_depth;
current_entry_.inline_infos_start_index = inline_infos_.size();
current_entry_.stack_mask_index = 0;
current_entry_.dex_method_index = DexFile::kDexNoIndex;
current_entry_.dex_register_entry.num_dex_registers = num_dex_registers;
current_entry_.dex_register_entry.locations_start_index = dex_register_locations_.size();
current_entry_.dex_register_entry.live_dex_registers_mask = (num_dex_registers != 0)
? ArenaBitVector::Create(allocator_, num_dex_registers, true, kArenaAllocStackMapStream)
: 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);
register_mask_max_ = std::max(register_mask_max_, register_mask);
current_dex_register_ = 0;
}
void StackMapStream::EndStackMapEntry() {
current_entry_.dex_register_map_index = AddDexRegisterMapEntry(current_entry_.dex_register_entry);
stack_maps_.push_back(current_entry_);
current_entry_ = StackMapEntry();
}
void StackMapStream::AddDexRegisterEntry(DexRegisterLocation::Kind kind, int32_t value) {
if (kind != DexRegisterLocation::Kind::kNone) {
// Ensure we only use non-compressed location kind at this stage.
DCHECK(DexRegisterLocation::IsShortLocationKind(kind)) << 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_.push_back(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_.push_back(location);
dex_register_locations_.push_back(index);
location_catalog_entries_indices_.Insert(std::make_pair(location, index));
}
DexRegisterMapEntry* const entry = in_inline_frame_
? &current_inline_info_.dex_register_entry
: &current_entry_.dex_register_entry;
DCHECK_LT(current_dex_register_, entry->num_dex_registers);
entry->live_dex_registers_mask->SetBit(current_dex_register_);
entry->hash += (1 <<
(current_dex_register_ % (sizeof(DexRegisterMapEntry::hash) * kBitsPerByte)));
entry->hash += static_cast<uint32_t>(value);
entry->hash += static_cast<uint32_t>(kind);
}
current_dex_register_++;
}
void StackMapStream::AddInvoke(InvokeType invoke_type, uint32_t dex_method_index) {
current_entry_.invoke_type = invoke_type;
current_entry_.dex_method_index = dex_method_index;
}
void StackMapStream::BeginInlineInfoEntry(ArtMethod* method,
uint32_t dex_pc,
uint32_t num_dex_registers,
const DexFile* outer_dex_file) {
DCHECK(!in_inline_frame_);
in_inline_frame_ = true;
if (EncodeArtMethodInInlineInfo(method)) {
current_inline_info_.method = method;
} else {
if (dex_pc != static_cast<uint32_t>(-1) && kIsDebugBuild) {
ScopedObjectAccess soa(Thread::Current());
DCHECK(IsSameDexFile(*outer_dex_file, *method->GetDexFile()));
}
current_inline_info_.method_index = method->GetDexMethodIndexUnchecked();
}
current_inline_info_.dex_pc = dex_pc;
current_inline_info_.dex_register_entry.num_dex_registers = num_dex_registers;
current_inline_info_.dex_register_entry.locations_start_index = dex_register_locations_.size();
current_inline_info_.dex_register_entry.live_dex_registers_mask = (num_dex_registers != 0)
? ArenaBitVector::Create(allocator_, num_dex_registers, true, kArenaAllocStackMapStream)
: nullptr;
current_dex_register_ = 0;
}
void StackMapStream::EndInlineInfoEntry() {
current_inline_info_.dex_register_map_index =
AddDexRegisterMapEntry(current_inline_info_.dex_register_entry);
DCHECK(in_inline_frame_);
DCHECK_EQ(current_dex_register_, current_inline_info_.dex_register_entry.num_dex_registers)
<< "Inline information contains less registers than expected";
in_inline_frame_ = false;
inline_infos_.push_back(current_inline_info_);
current_inline_info_ = InlineInfoEntry();
}
CodeOffset StackMapStream::ComputeMaxNativePcCodeOffset() const {
CodeOffset max_native_pc_offset;
for (const StackMapEntry& entry : stack_maps_) {
max_native_pc_offset = std::max(max_native_pc_offset, entry.native_pc_code_offset);
}
return max_native_pc_offset;
}
size_t StackMapStream::PrepareForFillIn() {
CodeInfoEncoding encoding;
encoding.dex_register_map.num_entries = 0; // TODO: Remove this field.
encoding.dex_register_map.num_bytes = ComputeDexRegisterMapsSize();
encoding.location_catalog.num_entries = location_catalog_entries_.size();
encoding.location_catalog.num_bytes = ComputeDexRegisterLocationCatalogSize();
encoding.inline_info.num_entries = inline_infos_.size();
// Must be done before calling ComputeInlineInfoEncoding since ComputeInlineInfoEncoding requires
// dex_method_index_idx to be filled in.
PrepareMethodIndices();
ComputeInlineInfoEncoding(&encoding.inline_info.encoding,
encoding.dex_register_map.num_bytes);
CodeOffset max_native_pc_offset = ComputeMaxNativePcCodeOffset();
// Prepare the CodeInfo variable-sized encoding.
encoding.stack_mask.encoding.num_bits = stack_mask_max_ + 1; // Need room for max element too.
encoding.stack_mask.num_entries = PrepareStackMasks(encoding.stack_mask.encoding.num_bits);
encoding.register_mask.encoding.num_bits = MinimumBitsToStore(register_mask_max_);
encoding.register_mask.num_entries = PrepareRegisterMasks();
encoding.stack_map.num_entries = stack_maps_.size();
encoding.stack_map.encoding.SetFromSizes(
// The stack map contains compressed native PC offsets.
max_native_pc_offset.CompressedValue(),
dex_pc_max_,
encoding.dex_register_map.num_bytes,
encoding.inline_info.num_entries,
encoding.register_mask.num_entries,
encoding.stack_mask.num_entries);
ComputeInvokeInfoEncoding(&encoding);
DCHECK_EQ(code_info_encoding_.size(), 0u);
encoding.Compress(&code_info_encoding_);
encoding.ComputeTableOffsets();
// Compute table offsets so we can get the non header size.
DCHECK_EQ(encoding.HeaderSize(), code_info_encoding_.size());
needed_size_ = code_info_encoding_.size() + encoding.NonHeaderSize();
return needed_size_;
}
size_t StackMapStream::ComputeDexRegisterLocationCatalogSize() const {
size_t size = DexRegisterLocationCatalog::kFixedSize;
for (const DexRegisterLocation& dex_register_location : location_catalog_entries_) {
size += DexRegisterLocationCatalog::EntrySize(dex_register_location);
}
return size;
}
size_t StackMapStream::DexRegisterMapEntry::ComputeSize(size_t catalog_size) const {
// For num_dex_registers == 0u live_dex_registers_mask may be null.
if (num_dex_registers == 0u) {
return 0u; // No register map will be emitted.
}
DCHECK(live_dex_registers_mask != nullptr);
// Size of the map in bytes.
size_t size = DexRegisterMap::kFixedSize;
// Add the live bit mask for the Dex register liveness.
size += DexRegisterMap::GetLiveBitMaskSize(num_dex_registers);
// Compute the size of the set of live Dex register entries.
size_t number_of_live_dex_registers = live_dex_registers_mask->NumSetBits();
size_t map_entries_size_in_bits =
DexRegisterMap::SingleEntrySizeInBits(catalog_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 (const DexRegisterMapEntry& entry : dex_register_entries_) {
size += entry.ComputeSize(location_catalog_entries_.size());
}
return size;
}
void StackMapStream::ComputeInvokeInfoEncoding(CodeInfoEncoding* encoding) {
DCHECK(encoding != nullptr);
uint32_t native_pc_max = 0;
uint16_t method_index_max = 0;
size_t invoke_infos_count = 0;
size_t invoke_type_max = 0;
for (const StackMapEntry& entry : stack_maps_) {
if (entry.dex_method_index != DexFile::kDexNoIndex) {
native_pc_max = std::max(native_pc_max, entry.native_pc_code_offset.CompressedValue());
method_index_max = std::max(method_index_max, static_cast<uint16_t>(entry.dex_method_index));
invoke_type_max = std::max(invoke_type_max, static_cast<size_t>(entry.invoke_type));
++invoke_infos_count;
}
}
encoding->invoke_info.num_entries = invoke_infos_count;
encoding->invoke_info.encoding.SetFromSizes(native_pc_max, invoke_type_max, method_index_max);
}
void StackMapStream::ComputeInlineInfoEncoding(InlineInfoEncoding* encoding,
size_t dex_register_maps_bytes) {
uint32_t method_index_max = 0;
uint32_t dex_pc_max = DexFile::kDexNoIndex;
uint32_t extra_data_max = 0;
uint32_t inline_info_index = 0;
for (const StackMapEntry& entry : stack_maps_) {
for (size_t j = 0; j < entry.inlining_depth; ++j) {
InlineInfoEntry inline_entry = inline_infos_[inline_info_index++];
if (inline_entry.method == nullptr) {
method_index_max = std::max(method_index_max, inline_entry.dex_method_index_idx);
extra_data_max = std::max(extra_data_max, 1u);
} else {
method_index_max = std::max(
method_index_max, High32Bits(reinterpret_cast<uintptr_t>(inline_entry.method)));
extra_data_max = std::max(
extra_data_max, Low32Bits(reinterpret_cast<uintptr_t>(inline_entry.method)));
}
if (inline_entry.dex_pc != DexFile::kDexNoIndex &&
(dex_pc_max == DexFile::kDexNoIndex || dex_pc_max < inline_entry.dex_pc)) {
dex_pc_max = inline_entry.dex_pc;
}
}
}
DCHECK_EQ(inline_info_index, inline_infos_.size());
encoding->SetFromSizes(method_index_max, dex_pc_max, extra_data_max, dex_register_maps_bytes);
}
size_t StackMapStream::MaybeCopyDexRegisterMap(DexRegisterMapEntry& entry,
size_t* current_offset,
MemoryRegion dex_register_locations_region) {
DCHECK(current_offset != nullptr);
if ((entry.num_dex_registers == 0) || (entry.live_dex_registers_mask->NumSetBits() == 0)) {
// No dex register map needed.
return StackMap::kNoDexRegisterMap;
}
if (entry.offset == DexRegisterMapEntry::kOffsetUnassigned) {
// Not already copied, need to copy and and assign an offset.
entry.offset = *current_offset;
const size_t entry_size = entry.ComputeSize(location_catalog_entries_.size());
DexRegisterMap dex_register_map(
dex_register_locations_region.Subregion(entry.offset, entry_size));
*current_offset += entry_size;
// Fill in the map since it was just added.
FillInDexRegisterMap(dex_register_map,
entry.num_dex_registers,
*entry.live_dex_registers_mask,
entry.locations_start_index);
}
return entry.offset;
}
void StackMapStream::FillInMethodInfo(MemoryRegion region) {
{
MethodInfo info(region.begin(), method_indices_.size());
for (size_t i = 0; i < method_indices_.size(); ++i) {
info.SetMethodIndex(i, method_indices_[i]);
}
}
if (kIsDebugBuild) {
// Check the data matches.
MethodInfo info(region.begin());
const size_t count = info.NumMethodIndices();
DCHECK_EQ(count, method_indices_.size());
for (size_t i = 0; i < count; ++i) {
DCHECK_EQ(info.GetMethodIndex(i), method_indices_[i]);
}
}
}
void StackMapStream::FillInCodeInfo(MemoryRegion region) {
DCHECK_EQ(0u, current_entry_.dex_pc) << "EndStackMapEntry not called after BeginStackMapEntry";
DCHECK_NE(0u, needed_size_) << "PrepareForFillIn not called before FillIn";
DCHECK_EQ(region.size(), needed_size_);
// Note that the memory region does not have to be zeroed when we JIT code
// because we do not use the arena allocator there.
// Write the CodeInfo header.
region.CopyFrom(0, MemoryRegion(code_info_encoding_.data(), code_info_encoding_.size()));
CodeInfo code_info(region);
CodeInfoEncoding encoding = code_info.ExtractEncoding();
DCHECK_EQ(encoding.stack_map.num_entries, stack_maps_.size());
MemoryRegion dex_register_locations_region = region.Subregion(
encoding.dex_register_map.byte_offset,
encoding.dex_register_map.num_bytes);
// Set the Dex register location catalog.
MemoryRegion dex_register_location_catalog_region = region.Subregion(
encoding.location_catalog.byte_offset,
encoding.location_catalog.num_bytes);
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 (DexRegisterLocation dex_register_location : location_catalog_entries_) {
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());
ArenaBitVector empty_bitmask(allocator_, 0, /* expandable */ false, kArenaAllocStackMapStream);
uintptr_t next_dex_register_map_offset = 0;
uintptr_t next_inline_info_index = 0;
size_t invoke_info_idx = 0;
for (size_t i = 0, e = stack_maps_.size(); i < e; ++i) {
StackMap stack_map = code_info.GetStackMapAt(i, encoding);
StackMapEntry entry = stack_maps_[i];
stack_map.SetDexPc(encoding.stack_map.encoding, entry.dex_pc);
stack_map.SetNativePcCodeOffset(encoding.stack_map.encoding, entry.native_pc_code_offset);
stack_map.SetRegisterMaskIndex(encoding.stack_map.encoding, entry.register_mask_index);
stack_map.SetStackMaskIndex(encoding.stack_map.encoding, entry.stack_mask_index);
size_t offset = MaybeCopyDexRegisterMap(dex_register_entries_[entry.dex_register_map_index],
&next_dex_register_map_offset,
dex_register_locations_region);
stack_map.SetDexRegisterMapOffset(encoding.stack_map.encoding, offset);
if (entry.dex_method_index != DexFile::kDexNoIndex) {
InvokeInfo invoke_info(code_info.GetInvokeInfo(encoding, invoke_info_idx));
invoke_info.SetNativePcCodeOffset(encoding.invoke_info.encoding, entry.native_pc_code_offset);
invoke_info.SetInvokeType(encoding.invoke_info.encoding, entry.invoke_type);
invoke_info.SetMethodIndexIdx(encoding.invoke_info.encoding, entry.dex_method_index_idx);
++invoke_info_idx;
}
// Set the inlining info.
if (entry.inlining_depth != 0) {
InlineInfo inline_info = code_info.GetInlineInfo(next_inline_info_index, encoding);
// Fill in the index.
stack_map.SetInlineInfoIndex(encoding.stack_map.encoding, next_inline_info_index);
DCHECK_EQ(next_inline_info_index, entry.inline_infos_start_index);
next_inline_info_index += entry.inlining_depth;
inline_info.SetDepth(encoding.inline_info.encoding, entry.inlining_depth);
DCHECK_LE(entry.inline_infos_start_index + entry.inlining_depth, inline_infos_.size());
for (size_t depth = 0; depth < entry.inlining_depth; ++depth) {
InlineInfoEntry inline_entry = inline_infos_[depth + entry.inline_infos_start_index];
if (inline_entry.method != nullptr) {
inline_info.SetMethodIndexIdxAtDepth(
encoding.inline_info.encoding,
depth,
High32Bits(reinterpret_cast<uintptr_t>(inline_entry.method)));
inline_info.SetExtraDataAtDepth(
encoding.inline_info.encoding,
depth,
Low32Bits(reinterpret_cast<uintptr_t>(inline_entry.method)));
} else {
inline_info.SetMethodIndexIdxAtDepth(encoding.inline_info.encoding,
depth,
inline_entry.dex_method_index_idx);
inline_info.SetExtraDataAtDepth(encoding.inline_info.encoding, depth, 1);
}
inline_info.SetDexPcAtDepth(encoding.inline_info.encoding, depth, inline_entry.dex_pc);
size_t dex_register_map_offset = MaybeCopyDexRegisterMap(
dex_register_entries_[inline_entry.dex_register_map_index],
&next_dex_register_map_offset,
dex_register_locations_region);
inline_info.SetDexRegisterMapOffsetAtDepth(encoding.inline_info.encoding,
depth,
dex_register_map_offset);
}
} else if (encoding.stack_map.encoding.GetInlineInfoEncoding().BitSize() > 0) {
stack_map.SetInlineInfoIndex(encoding.stack_map.encoding, StackMap::kNoInlineInfo);
}
}
// Write stack masks table.
const size_t stack_mask_bits = encoding.stack_mask.encoding.BitSize();
if (stack_mask_bits > 0) {
size_t stack_mask_bytes = RoundUp(stack_mask_bits, kBitsPerByte) / kBitsPerByte;
for (size_t i = 0; i < encoding.stack_mask.num_entries; ++i) {
MemoryRegion source(&stack_masks_[i * stack_mask_bytes], stack_mask_bytes);
BitMemoryRegion stack_mask = code_info.GetStackMask(i, encoding);
for (size_t bit_index = 0; bit_index < stack_mask_bits; ++bit_index) {
stack_mask.StoreBit(bit_index, source.LoadBit(bit_index));
}
}
}
// Write register masks table.
for (size_t i = 0; i < encoding.register_mask.num_entries; ++i) {
BitMemoryRegion register_mask = code_info.GetRegisterMask(i, encoding);
register_mask.StoreBits(0, register_masks_[i], encoding.register_mask.encoding.BitSize());
}
// Verify all written data in debug build.
if (kIsDebugBuild) {
CheckCodeInfo(region);
}
}
void StackMapStream::FillInDexRegisterMap(DexRegisterMap dex_register_map,
uint32_t num_dex_registers,
const BitVector& live_dex_registers_mask,
uint32_t start_index_in_dex_register_locations) const {
dex_register_map.SetLiveBitMask(num_dex_registers, live_dex_registers_mask);
// Set the dex register location mapping data.
size_t number_of_live_dex_registers = live_dex_registers_mask.NumSetBits();
DCHECK_LE(number_of_live_dex_registers, dex_register_locations_.size());
DCHECK_LE(start_index_in_dex_register_locations,
dex_register_locations_.size() - number_of_live_dex_registers);
for (size_t index_in_dex_register_locations = 0;
index_in_dex_register_locations != number_of_live_dex_registers;
++index_in_dex_register_locations) {
size_t location_catalog_entry_index = dex_register_locations_[
start_index_in_dex_register_locations + index_in_dex_register_locations];
dex_register_map.SetLocationCatalogEntryIndex(
index_in_dex_register_locations,
location_catalog_entry_index,
num_dex_registers,
location_catalog_entries_.size());
}
}
size_t StackMapStream::AddDexRegisterMapEntry(const DexRegisterMapEntry& entry) {
const size_t current_entry_index = dex_register_entries_.size();
auto entries_it = dex_map_hash_to_stack_map_indices_.find(entry.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.
ArenaVector<uint32_t> stack_map_indices(allocator_->Adapter(kArenaAllocStackMapStream));
stack_map_indices.push_back(current_entry_index);
dex_map_hash_to_stack_map_indices_.Put(entry.hash, std::move(stack_map_indices));
} else {
// We might have collisions, so we need to check whether or not we really have a match.
for (uint32_t test_entry_index : entries_it->second) {
if (DexRegisterMapEntryEquals(dex_register_entries_[test_entry_index], entry)) {
return test_entry_index;
}
}
entries_it->second.push_back(current_entry_index);
}
dex_register_entries_.push_back(entry);
return current_entry_index;
}
bool StackMapStream::DexRegisterMapEntryEquals(const DexRegisterMapEntry& a,
const DexRegisterMapEntry& b) const {
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;
}
if (a.num_dex_registers != 0u) {
DCHECK(a.live_dex_registers_mask != nullptr);
DCHECK(b.live_dex_registers_mask != nullptr);
if (!a.live_dex_registers_mask->Equal(b.live_dex_registers_mask)) {
return false;
}
size_t number_of_live_dex_registers = a.live_dex_registers_mask->NumSetBits();
DCHECK_LE(number_of_live_dex_registers, dex_register_locations_.size());
DCHECK_LE(a.locations_start_index,
dex_register_locations_.size() - number_of_live_dex_registers);
DCHECK_LE(b.locations_start_index,
dex_register_locations_.size() - number_of_live_dex_registers);
auto a_begin = dex_register_locations_.begin() + a.locations_start_index;
auto b_begin = dex_register_locations_.begin() + b.locations_start_index;
if (!std::equal(a_begin, a_begin + number_of_live_dex_registers, b_begin)) {
return false;
}
}
return true;
}
// Helper for CheckCodeInfo - check that register map has the expected content.
void StackMapStream::CheckDexRegisterMap(const CodeInfo& code_info,
const DexRegisterMap& dex_register_map,
size_t num_dex_registers,
BitVector* live_dex_registers_mask,
size_t dex_register_locations_index) const {
CodeInfoEncoding encoding = code_info.ExtractEncoding();
for (size_t reg = 0; reg < num_dex_registers; reg++) {
// Find the location we tried to encode.
DexRegisterLocation expected = DexRegisterLocation::None();
if (live_dex_registers_mask->IsBitSet(reg)) {
size_t catalog_index = dex_register_locations_[dex_register_locations_index++];
expected = location_catalog_entries_[catalog_index];
}
// Compare to the seen location.
if (expected.GetKind() == DexRegisterLocation::Kind::kNone) {
DCHECK(!dex_register_map.IsValid() || !dex_register_map.IsDexRegisterLive(reg))
<< dex_register_map.IsValid() << " " << dex_register_map.IsDexRegisterLive(reg);
} else {
DCHECK(dex_register_map.IsDexRegisterLive(reg));
DexRegisterLocation seen = dex_register_map.GetDexRegisterLocation(
reg, num_dex_registers, code_info, encoding);
DCHECK_EQ(expected.GetKind(), seen.GetKind());
DCHECK_EQ(expected.GetValue(), seen.GetValue());
}
}
if (num_dex_registers == 0) {
DCHECK(!dex_register_map.IsValid());
}
}
size_t StackMapStream::PrepareRegisterMasks() {
register_masks_.resize(stack_maps_.size(), 0u);
ArenaUnorderedMap<uint32_t, size_t> dedupe(allocator_->Adapter(kArenaAllocStackMapStream));
for (StackMapEntry& stack_map : stack_maps_) {
const size_t index = dedupe.size();
stack_map.register_mask_index = dedupe.emplace(stack_map.register_mask, index).first->second;
register_masks_[index] = stack_map.register_mask;
}
return dedupe.size();
}
void StackMapStream::PrepareMethodIndices() {
CHECK(method_indices_.empty());
method_indices_.resize(stack_maps_.size() + inline_infos_.size());
ArenaUnorderedMap<uint32_t, size_t> dedupe(allocator_->Adapter(kArenaAllocStackMapStream));
for (StackMapEntry& stack_map : stack_maps_) {
const size_t index = dedupe.size();
const uint32_t method_index = stack_map.dex_method_index;
if (method_index != DexFile::kDexNoIndex) {
stack_map.dex_method_index_idx = dedupe.emplace(method_index, index).first->second;
method_indices_[index] = method_index;
}
}
for (InlineInfoEntry& inline_info : inline_infos_) {
const size_t index = dedupe.size();
const uint32_t method_index = inline_info.method_index;
CHECK_NE(method_index, DexFile::kDexNoIndex);
inline_info.dex_method_index_idx = dedupe.emplace(method_index, index).first->second;
method_indices_[index] = method_index;
}
method_indices_.resize(dedupe.size());
}
size_t StackMapStream::PrepareStackMasks(size_t entry_size_in_bits) {
// Preallocate memory since we do not want it to move (the dedup map will point into it).
const size_t byte_entry_size = RoundUp(entry_size_in_bits, kBitsPerByte) / kBitsPerByte;
stack_masks_.resize(byte_entry_size * stack_maps_.size(), 0u);
// For deduplicating we store the stack masks as byte packed for simplicity. We can bit pack later
// when copying out from stack_masks_.
ArenaUnorderedMap<MemoryRegion,
size_t,
FNVHash<MemoryRegion>,
MemoryRegion::ContentEquals> dedup(
stack_maps_.size(), allocator_->Adapter(kArenaAllocStackMapStream));
for (StackMapEntry& stack_map : stack_maps_) {
size_t index = dedup.size();
MemoryRegion stack_mask(stack_masks_.data() + index * byte_entry_size, byte_entry_size);
for (size_t i = 0; i < entry_size_in_bits; i++) {
stack_mask.StoreBit(i, stack_map.sp_mask != nullptr && stack_map.sp_mask->IsBitSet(i));
}
stack_map.stack_mask_index = dedup.emplace(stack_mask, index).first->second;
}
return dedup.size();
}
// Check that all StackMapStream inputs are correctly encoded by trying to read them back.
void StackMapStream::CheckCodeInfo(MemoryRegion region) const {
CodeInfo code_info(region);
CodeInfoEncoding encoding = code_info.ExtractEncoding();
DCHECK_EQ(code_info.GetNumberOfStackMaps(encoding), stack_maps_.size());
size_t invoke_info_index = 0;
for (size_t s = 0; s < stack_maps_.size(); ++s) {
const StackMap stack_map = code_info.GetStackMapAt(s, encoding);
const StackMapEncoding& stack_map_encoding = encoding.stack_map.encoding;
StackMapEntry entry = stack_maps_[s];
// Check main stack map fields.
DCHECK_EQ(stack_map.GetNativePcOffset(stack_map_encoding, instruction_set_),
entry.native_pc_code_offset.Uint32Value(instruction_set_));
DCHECK_EQ(stack_map.GetDexPc(stack_map_encoding), entry.dex_pc);
DCHECK_EQ(stack_map.GetRegisterMaskIndex(stack_map_encoding), entry.register_mask_index);
DCHECK_EQ(code_info.GetRegisterMaskOf(encoding, stack_map), entry.register_mask);
const size_t num_stack_mask_bits = code_info.GetNumberOfStackMaskBits(encoding);
DCHECK_EQ(stack_map.GetStackMaskIndex(stack_map_encoding), entry.stack_mask_index);
BitMemoryRegion stack_mask = code_info.GetStackMaskOf(encoding, stack_map);
if (entry.sp_mask != nullptr) {
DCHECK_GE(stack_mask.size_in_bits(), entry.sp_mask->GetNumberOfBits());
for (size_t b = 0; b < num_stack_mask_bits; b++) {
DCHECK_EQ(stack_mask.LoadBit(b), entry.sp_mask->IsBitSet(b));
}
} else {
for (size_t b = 0; b < num_stack_mask_bits; b++) {
DCHECK_EQ(stack_mask.LoadBit(b), 0u);
}
}
if (entry.dex_method_index != DexFile::kDexNoIndex) {
InvokeInfo invoke_info = code_info.GetInvokeInfo(encoding, invoke_info_index);
DCHECK_EQ(invoke_info.GetNativePcOffset(encoding.invoke_info.encoding, instruction_set_),
entry.native_pc_code_offset.Uint32Value(instruction_set_));
DCHECK_EQ(invoke_info.GetInvokeType(encoding.invoke_info.encoding), entry.invoke_type);
DCHECK_EQ(invoke_info.GetMethodIndexIdx(encoding.invoke_info.encoding),
entry.dex_method_index_idx);
invoke_info_index++;
}
CheckDexRegisterMap(code_info,
code_info.GetDexRegisterMapOf(
stack_map, encoding, entry.dex_register_entry.num_dex_registers),
entry.dex_register_entry.num_dex_registers,
entry.dex_register_entry.live_dex_registers_mask,
entry.dex_register_entry.locations_start_index);
// Check inline info.
DCHECK_EQ(stack_map.HasInlineInfo(stack_map_encoding), (entry.inlining_depth != 0));
if (entry.inlining_depth != 0) {
InlineInfo inline_info = code_info.GetInlineInfoOf(stack_map, encoding);
DCHECK_EQ(inline_info.GetDepth(encoding.inline_info.encoding), entry.inlining_depth);
for (size_t d = 0; d < entry.inlining_depth; ++d) {
size_t inline_info_index = entry.inline_infos_start_index + d;
DCHECK_LT(inline_info_index, inline_infos_.size());
InlineInfoEntry inline_entry = inline_infos_[inline_info_index];
DCHECK_EQ(inline_info.GetDexPcAtDepth(encoding.inline_info.encoding, d),
inline_entry.dex_pc);
if (inline_info.EncodesArtMethodAtDepth(encoding.inline_info.encoding, d)) {
DCHECK_EQ(inline_info.GetArtMethodAtDepth(encoding.inline_info.encoding, d),
inline_entry.method);
} else {
const size_t method_index_idx =
inline_info.GetMethodIndexIdxAtDepth(encoding.inline_info.encoding, d);
DCHECK_EQ(method_index_idx, inline_entry.dex_method_index_idx);
DCHECK_EQ(method_indices_[method_index_idx], inline_entry.method_index);
}
CheckDexRegisterMap(code_info,
code_info.GetDexRegisterMapAtDepth(
d,
inline_info,
encoding,
inline_entry.dex_register_entry.num_dex_registers),
inline_entry.dex_register_entry.num_dex_registers,
inline_entry.dex_register_entry.live_dex_registers_mask,
inline_entry.dex_register_entry.locations_start_index);
}
}
}
}
size_t StackMapStream::ComputeMethodInfoSize() const {
DCHECK_NE(0u, needed_size_) << "PrepareForFillIn not called before " << __FUNCTION__;
return MethodInfo::ComputeSize(method_indices_.size());
}
} // namespace art