1 /*
2 * Copyright (C) 2015 The Android Open Source Project
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7 *
8 * http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16
17 #include "stack_map_stream.h"
18
19 namespace art {
20
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)21 void StackMapStream::BeginStackMapEntry(uint32_t dex_pc,
22 uint32_t native_pc_offset,
23 uint32_t register_mask,
24 BitVector* sp_mask,
25 uint32_t num_dex_registers,
26 uint8_t inlining_depth) {
27 DCHECK_EQ(0u, current_entry_.dex_pc) << "EndStackMapEntry not called after BeginStackMapEntry";
28 current_entry_.dex_pc = dex_pc;
29 current_entry_.native_pc_offset = native_pc_offset;
30 current_entry_.register_mask = register_mask;
31 current_entry_.sp_mask = sp_mask;
32 current_entry_.num_dex_registers = num_dex_registers;
33 current_entry_.inlining_depth = inlining_depth;
34 current_entry_.dex_register_locations_start_index = dex_register_locations_.Size();
35 current_entry_.inline_infos_start_index = inline_infos_.Size();
36 current_entry_.dex_register_map_hash = 0;
37 current_entry_.same_dex_register_map_as_ = kNoSameDexMapFound;
38 if (num_dex_registers != 0) {
39 current_entry_.live_dex_registers_mask =
40 new (allocator_) ArenaBitVector(allocator_, num_dex_registers, true);
41 } else {
42 current_entry_.live_dex_registers_mask = nullptr;
43 }
44
45 if (sp_mask != nullptr) {
46 stack_mask_max_ = std::max(stack_mask_max_, sp_mask->GetHighestBitSet());
47 }
48 if (inlining_depth > 0) {
49 number_of_stack_maps_with_inline_info_++;
50 }
51
52 dex_pc_max_ = std::max(dex_pc_max_, dex_pc);
53 native_pc_offset_max_ = std::max(native_pc_offset_max_, native_pc_offset);
54 register_mask_max_ = std::max(register_mask_max_, register_mask);
55 }
56
EndStackMapEntry()57 void StackMapStream::EndStackMapEntry() {
58 current_entry_.same_dex_register_map_as_ = FindEntryWithTheSameDexMap();
59 stack_maps_.Add(current_entry_);
60 current_entry_ = StackMapEntry();
61 }
62
AddDexRegisterEntry(uint16_t dex_register,DexRegisterLocation::Kind kind,int32_t value)63 void StackMapStream::AddDexRegisterEntry(uint16_t dex_register,
64 DexRegisterLocation::Kind kind,
65 int32_t value) {
66 DCHECK_LT(dex_register, current_entry_.num_dex_registers);
67
68 if (kind != DexRegisterLocation::Kind::kNone) {
69 // Ensure we only use non-compressed location kind at this stage.
70 DCHECK(DexRegisterLocation::IsShortLocationKind(kind))
71 << DexRegisterLocation::PrettyDescriptor(kind);
72 DexRegisterLocation location(kind, value);
73
74 // Look for Dex register `location` in the location catalog (using the
75 // companion hash map of locations to indices). Use its index if it
76 // is already in the location catalog. If not, insert it (in the
77 // location catalog and the hash map) and use the newly created index.
78 auto it = location_catalog_entries_indices_.Find(location);
79 if (it != location_catalog_entries_indices_.end()) {
80 // Retrieve the index from the hash map.
81 dex_register_locations_.Add(it->second);
82 } else {
83 // Create a new entry in the location catalog and the hash map.
84 size_t index = location_catalog_entries_.Size();
85 location_catalog_entries_.Add(location);
86 dex_register_locations_.Add(index);
87 location_catalog_entries_indices_.Insert(std::make_pair(location, index));
88 }
89
90 current_entry_.live_dex_registers_mask->SetBit(dex_register);
91 current_entry_.dex_register_map_hash +=
92 (1 << (dex_register % (sizeof(current_entry_.dex_register_map_hash) * kBitsPerByte)));
93 current_entry_.dex_register_map_hash += static_cast<uint32_t>(value);
94 current_entry_.dex_register_map_hash += static_cast<uint32_t>(kind);
95 }
96 }
97
AddInlineInfoEntry(uint32_t method_index)98 void StackMapStream::AddInlineInfoEntry(uint32_t method_index) {
99 InlineInfoEntry entry;
100 entry.method_index = method_index;
101 inline_infos_.Add(entry);
102 }
103
PrepareForFillIn()104 size_t StackMapStream::PrepareForFillIn() {
105 int stack_mask_number_of_bits = stack_mask_max_ + 1; // Need room for max element too.
106 stack_mask_size_ = RoundUp(stack_mask_number_of_bits, kBitsPerByte) / kBitsPerByte;
107 inline_info_size_ = ComputeInlineInfoSize();
108 dex_register_maps_size_ = ComputeDexRegisterMapsSize();
109 stack_maps_size_ = stack_maps_.Size()
110 * StackMap::ComputeStackMapSize(stack_mask_size_,
111 inline_info_size_,
112 dex_register_maps_size_,
113 dex_pc_max_,
114 native_pc_offset_max_,
115 register_mask_max_);
116 dex_register_location_catalog_size_ = ComputeDexRegisterLocationCatalogSize();
117
118 // Note: use RoundUp to word-size here if you want CodeInfo objects to be word aligned.
119 needed_size_ = CodeInfo::kFixedSize
120 + dex_register_location_catalog_size_
121 + stack_maps_size_
122 + dex_register_maps_size_
123 + inline_info_size_;
124
125 dex_register_location_catalog_start_ = CodeInfo::kFixedSize;
126 stack_maps_start_ = dex_register_location_catalog_start_ + dex_register_location_catalog_size_;
127 dex_register_maps_start_ = stack_maps_start_ + stack_maps_size_;
128 inline_infos_start_ = dex_register_maps_start_ + dex_register_maps_size_;
129
130 return needed_size_;
131 }
132
ComputeDexRegisterLocationCatalogSize() const133 size_t StackMapStream::ComputeDexRegisterLocationCatalogSize() const {
134 size_t size = DexRegisterLocationCatalog::kFixedSize;
135 for (size_t location_catalog_entry_index = 0;
136 location_catalog_entry_index < location_catalog_entries_.Size();
137 ++location_catalog_entry_index) {
138 DexRegisterLocation dex_register_location =
139 location_catalog_entries_.Get(location_catalog_entry_index);
140 size += DexRegisterLocationCatalog::EntrySize(dex_register_location);
141 }
142 return size;
143 }
144
ComputeDexRegisterMapSize(const StackMapEntry & entry) const145 size_t StackMapStream::ComputeDexRegisterMapSize(const StackMapEntry& entry) const {
146 // Size of the map in bytes.
147 size_t size = DexRegisterMap::kFixedSize;
148 // Add the live bit mask for the Dex register liveness.
149 size += DexRegisterMap::GetLiveBitMaskSize(entry.num_dex_registers);
150 // Compute the size of the set of live Dex register entries.
151 size_t number_of_live_dex_registers = 0;
152 for (size_t dex_register_number = 0;
153 dex_register_number < entry.num_dex_registers;
154 ++dex_register_number) {
155 if (entry.live_dex_registers_mask->IsBitSet(dex_register_number)) {
156 ++number_of_live_dex_registers;
157 }
158 }
159 size_t map_entries_size_in_bits =
160 DexRegisterMap::SingleEntrySizeInBits(location_catalog_entries_.Size())
161 * number_of_live_dex_registers;
162 size_t map_entries_size_in_bytes =
163 RoundUp(map_entries_size_in_bits, kBitsPerByte) / kBitsPerByte;
164 size += map_entries_size_in_bytes;
165 return size;
166 }
167
ComputeDexRegisterMapsSize() const168 size_t StackMapStream::ComputeDexRegisterMapsSize() const {
169 size_t size = 0;
170 for (size_t i = 0; i < stack_maps_.Size(); ++i) {
171 StackMapEntry entry = stack_maps_.Get(i);
172 if (entry.same_dex_register_map_as_ == kNoSameDexMapFound) {
173 // Entries with the same dex map will have the same offset.
174 size += ComputeDexRegisterMapSize(entry);
175 }
176 }
177 return size;
178 }
179
ComputeInlineInfoSize() const180 size_t StackMapStream::ComputeInlineInfoSize() const {
181 return inline_infos_.Size() * InlineInfo::SingleEntrySize()
182 // For encoding the depth.
183 + (number_of_stack_maps_with_inline_info_ * InlineInfo::kFixedSize);
184 }
185
FillIn(MemoryRegion region)186 void StackMapStream::FillIn(MemoryRegion region) {
187 DCHECK_EQ(0u, current_entry_.dex_pc) << "EndStackMapEntry not called after BeginStackMapEntry";
188 DCHECK_NE(0u, needed_size_) << "PrepareForFillIn not called before FillIn";
189
190 CodeInfo code_info(region);
191 DCHECK_EQ(region.size(), needed_size_);
192 code_info.SetOverallSize(region.size());
193
194 MemoryRegion dex_register_locations_region = region.Subregion(
195 dex_register_maps_start_, dex_register_maps_size_);
196
197 MemoryRegion inline_infos_region = region.Subregion(
198 inline_infos_start_, inline_info_size_);
199
200 code_info.SetEncoding(inline_info_size_,
201 dex_register_maps_size_,
202 dex_pc_max_,
203 native_pc_offset_max_,
204 register_mask_max_);
205 code_info.SetNumberOfStackMaps(stack_maps_.Size());
206 code_info.SetStackMaskSize(stack_mask_size_);
207 DCHECK_EQ(code_info.GetStackMapsSize(), stack_maps_size_);
208
209 // Set the Dex register location catalog.
210 code_info.SetNumberOfDexRegisterLocationCatalogEntries(location_catalog_entries_.Size());
211 MemoryRegion dex_register_location_catalog_region = region.Subregion(
212 dex_register_location_catalog_start_, dex_register_location_catalog_size_);
213 DexRegisterLocationCatalog dex_register_location_catalog(dex_register_location_catalog_region);
214 // Offset in `dex_register_location_catalog` where to store the next
215 // register location.
216 size_t location_catalog_offset = DexRegisterLocationCatalog::kFixedSize;
217 for (size_t i = 0, e = location_catalog_entries_.Size(); i < e; ++i) {
218 DexRegisterLocation dex_register_location = location_catalog_entries_.Get(i);
219 dex_register_location_catalog.SetRegisterInfo(location_catalog_offset, dex_register_location);
220 location_catalog_offset += DexRegisterLocationCatalog::EntrySize(dex_register_location);
221 }
222 // Ensure we reached the end of the Dex registers location_catalog.
223 DCHECK_EQ(location_catalog_offset, dex_register_location_catalog_region.size());
224
225 uintptr_t next_dex_register_map_offset = 0;
226 uintptr_t next_inline_info_offset = 0;
227 for (size_t i = 0, e = stack_maps_.Size(); i < e; ++i) {
228 StackMap stack_map = code_info.GetStackMapAt(i);
229 StackMapEntry entry = stack_maps_.Get(i);
230
231 stack_map.SetDexPc(code_info, entry.dex_pc);
232 stack_map.SetNativePcOffset(code_info, entry.native_pc_offset);
233 stack_map.SetRegisterMask(code_info, entry.register_mask);
234 if (entry.sp_mask != nullptr) {
235 stack_map.SetStackMask(code_info, *entry.sp_mask);
236 }
237
238 if (entry.num_dex_registers == 0) {
239 // No dex map available.
240 stack_map.SetDexRegisterMapOffset(code_info, StackMap::kNoDexRegisterMap);
241 } else {
242 // Search for an entry with the same dex map.
243 if (entry.same_dex_register_map_as_ != kNoSameDexMapFound) {
244 // If we have a hit reuse the offset.
245 stack_map.SetDexRegisterMapOffset(code_info,
246 code_info.GetStackMapAt(entry.same_dex_register_map_as_)
247 .GetDexRegisterMapOffset(code_info));
248 } else {
249 // New dex registers maps should be added to the stack map.
250 MemoryRegion register_region =
251 dex_register_locations_region.Subregion(
252 next_dex_register_map_offset,
253 ComputeDexRegisterMapSize(entry));
254 next_dex_register_map_offset += register_region.size();
255 DexRegisterMap dex_register_map(register_region);
256 stack_map.SetDexRegisterMapOffset(
257 code_info, register_region.start() - dex_register_locations_region.start());
258
259 // Set the live bit mask.
260 dex_register_map.SetLiveBitMask(entry.num_dex_registers, *entry.live_dex_registers_mask);
261
262 // Set the dex register location mapping data.
263 for (size_t dex_register_number = 0, index_in_dex_register_locations = 0;
264 dex_register_number < entry.num_dex_registers;
265 ++dex_register_number) {
266 if (entry.live_dex_registers_mask->IsBitSet(dex_register_number)) {
267 size_t location_catalog_entry_index =
268 dex_register_locations_.Get(entry.dex_register_locations_start_index
269 + index_in_dex_register_locations);
270 dex_register_map.SetLocationCatalogEntryIndex(
271 index_in_dex_register_locations,
272 location_catalog_entry_index,
273 entry.num_dex_registers,
274 location_catalog_entries_.Size());
275 ++index_in_dex_register_locations;
276 }
277 }
278 }
279 }
280
281 // Set the inlining info.
282 if (entry.inlining_depth != 0) {
283 MemoryRegion inline_region = inline_infos_region.Subregion(
284 next_inline_info_offset,
285 InlineInfo::kFixedSize + entry.inlining_depth * InlineInfo::SingleEntrySize());
286 next_inline_info_offset += inline_region.size();
287 InlineInfo inline_info(inline_region);
288
289 // Currently relative to the dex register map.
290 stack_map.SetInlineDescriptorOffset(
291 code_info, inline_region.start() - dex_register_locations_region.start());
292
293 inline_info.SetDepth(entry.inlining_depth);
294 for (size_t j = 0; j < entry.inlining_depth; ++j) {
295 InlineInfoEntry inline_entry = inline_infos_.Get(j + entry.inline_infos_start_index);
296 inline_info.SetMethodReferenceIndexAtDepth(j, inline_entry.method_index);
297 }
298 } else {
299 if (inline_info_size_ != 0) {
300 stack_map.SetInlineDescriptorOffset(code_info, StackMap::kNoInlineInfo);
301 }
302 }
303 }
304 }
305
FindEntryWithTheSameDexMap()306 size_t StackMapStream::FindEntryWithTheSameDexMap() {
307 size_t current_entry_index = stack_maps_.Size();
308 auto entries_it = dex_map_hash_to_stack_map_indices_.find(current_entry_.dex_register_map_hash);
309 if (entries_it == dex_map_hash_to_stack_map_indices_.end()) {
310 // We don't have a perfect hash functions so we need a list to collect all stack maps
311 // which might have the same dex register map.
312 GrowableArray<uint32_t> stack_map_indices(allocator_, 1);
313 stack_map_indices.Add(current_entry_index);
314 dex_map_hash_to_stack_map_indices_.Put(current_entry_.dex_register_map_hash, stack_map_indices);
315 return kNoSameDexMapFound;
316 }
317
318 // We might have collisions, so we need to check whether or not we really have a match.
319 for (size_t i = 0; i < entries_it->second.Size(); i++) {
320 size_t test_entry_index = entries_it->second.Get(i);
321 if (HaveTheSameDexMaps(stack_maps_.Get(test_entry_index), current_entry_)) {
322 return test_entry_index;
323 }
324 }
325 entries_it->second.Add(current_entry_index);
326 return kNoSameDexMapFound;
327 }
328
HaveTheSameDexMaps(const StackMapEntry & a,const StackMapEntry & b) const329 bool StackMapStream::HaveTheSameDexMaps(const StackMapEntry& a, const StackMapEntry& b) const {
330 if (a.live_dex_registers_mask == nullptr && b.live_dex_registers_mask == nullptr) {
331 return true;
332 }
333 if (a.live_dex_registers_mask == nullptr || b.live_dex_registers_mask == nullptr) {
334 return false;
335 }
336 if (a.num_dex_registers != b.num_dex_registers) {
337 return false;
338 }
339
340 int index_in_dex_register_locations = 0;
341 for (uint32_t i = 0; i < a.num_dex_registers; i++) {
342 if (a.live_dex_registers_mask->IsBitSet(i) != b.live_dex_registers_mask->IsBitSet(i)) {
343 return false;
344 }
345 if (a.live_dex_registers_mask->IsBitSet(i)) {
346 size_t a_loc = dex_register_locations_.Get(
347 a.dex_register_locations_start_index + index_in_dex_register_locations);
348 size_t b_loc = dex_register_locations_.Get(
349 b.dex_register_locations_start_index + index_in_dex_register_locations);
350 if (a_loc != b_loc) {
351 return false;
352 }
353 ++index_in_dex_register_locations;
354 }
355 }
356 return true;
357 }
358
359 } // namespace art
360